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blender-archive/source/blender/editors/interface/interface_regions.c

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2.5 More notifier cleanup; - removed view2d sync notifier, its data operations are too complex for UI hints/notes, direct calls work too :) - updated missing gpl header in region file Noticed weird delay on menu refreshing now... will check.
2008-12-16 13:19:02 +00:00
/**
* ***** BEGIN GPL LICENSE BLOCK *****
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* The Original Code is Copyright (C) 2008 Blender Foundation.
* All rights reserved.
*
* Contributor(s): Blender Foundation
*
* ***** END GPL LICENSE BLOCK *****
*/
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
UI: getting popup menus to work again, just the internal interface and event handling code still, how it integrates with operators and handlers is not worked out yet. For testing, Ctrl+Q quit now shows a confirmation popup using the following call: okee_operator(C, "WM_OT_exit_blender", "Quit Blender");
2008-12-15 19:19:39 +00:00
#include <stdarg.h>
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
#include <stdlib.h>
#include <string.h>
#include "MEM_guardedalloc.h"
#include "DNA_screen_types.h"
2.5 - Tooltips now respect view2d view (rna viewer). - Bugfix in viewd.c UI_view2d_view_to_region() (typo)
2008-12-03 17:11:50 +00:00
#include "DNA_view2d_types.h"
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
#include "DNA_userdef_types.h"
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
#include "DNA_windowmanager_types.h"
#include "BLI_arithb.h"
#include "BLI_blenlib.h"
2.5: Error reporting * Added a report list to operator, to which they can report errors and warnings. When the operator ends, it will display them with a popup. For python these should become exceptions when calling operators. * Added a function to make a popup menu from a report list. * Also added a utility function to prepend a string before the reports to indicate what they relates to. Also made the report functions used BLI_dynstr to simplify the code. * Made file reading and writing report errors to the user again using this system, also replacing the left over uncommented bad level error() calls.
2008-12-29 13:38:08 +00:00
#include "BLI_dynstr.h"
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
#include "BKE_context.h"
2.5: Error reporting * Added a report list to operator, to which they can report errors and warnings. When the operator ends, it will display them with a popup. For python these should become exceptions when calling operators. * Added a function to make a popup menu from a report list. * Also added a utility function to prepend a string before the reports to indicate what they relates to. Also made the report functions used BLI_dynstr to simplify the code. * Made file reading and writing report errors to the user again using this system, also replacing the left over uncommented bad level error() calls.
2008-12-29 13:38:08 +00:00
#include "BKE_report.h"
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
#include "BKE_screen.h"
#include "BKE_utildefines.h"
#include "WM_api.h"
#include "WM_types.h"
2.5: WM Compositing * Triple Buffer is now more complete: - Proper handling of window resize, duplicate, etc. - It now uses 3x3 textures (or less) if the power of two sizes do not match well. That still has a worst case wast of 23.4%, but better than 300%. - It can also use the ARB/NV/EXT_texture_rectangle extension now, which may be supported on hardware that does not support ARB_texture_non_power_of_two. - Gesture, menu and brushe redraws now require no redraws at all from the area regions. So even on a high poly scene just moving the paint cursor or opening a menu should be fast. * Testing can be done by setting the "Window Draw Method" in the User Preferences in the outliner. "Overlap" is still default, since "Triple Buffer" has not been tested on computers other than mine, would like to avoid crashing Blender on startup in case there is a common bug, but it's ready for testing now. - For reference "Full" draws the full window each time. - "Triple Buffer" should work for both swap copy and swap exchange systems, the latter still need the -E command line option for "Overlap". - Resizing and going fullscreen still gives flicker here but no more than "Full" drawing. * Partial Redraw was added. ED_region_tag_redraw_partial takes a rect in window coordinates to define a subarea of the region. On region draw it will then set glScissor to a smaller area, and ar->drawrct will always be set to either the partial or full window rect. The latter can then be used for clipping in the 3D view or clipping interface drawing. Neither is implemented yet.
2009-01-23 03:52:52 +00:00
#include "wm_draw.h"
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
#include "wm_subwindow.h"
#include "wm_window.h"
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
#include "RNA_access.h"
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
#include "BIF_gl.h"
#include "UI_interface.h"
2.5 - Tooltips now respect view2d view (rna viewer). - Bugfix in viewd.c UI_view2d_view_to_region() (typo)
2008-12-03 17:11:50 +00:00
#include "UI_view2d.h"
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
#include "BLF_api.h"
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
#include "ED_screen.h"
UI: Panels * API and usage is basically the same still. * Panels were moved to region level. I first thought of keeping them at area level, but having them at region level it's simpler to handle events and do drawing, and also to integrate with view2d. They can still become area level overlapping regions, if we make a floating (or docked) region that can contain panels. * Added back a few panels from the scene buttons for testing. Issues still: * The view2d handling and alignment refresh of panels is not correct yet in the buttons window. * I did not yet bring back the block handlers system. It was basically a system that stored which panel was open and where the events for that panel would go. Just a few functions, but not sure how it fits in 2.5. * There was a case where dragging panels would not properly remove the window level handler, but could not redo anymore even though I don't think I fixed it. * Some text in the panels goes past the end of the button, that is due to the checkmark button drawing, not related to this commit. Other UI code changes: * Renamed interface.h to interface_intern.h for consistency. * Fixed some issues with freeing of blocks when they changed due to context. * uiDrawBlock now takes a context pointer (mostly for block drawextra).
2008-12-26 13:11:04 +00:00
#include "interface_intern.h"
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
#define MENU_BUTTON_HEIGHT 20
Some tweaks to menu drawing
2009-01-04 00:05:40 +00:00
#define MENU_SEPR_HEIGHT 6
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
#define B_NOP -1
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
#define MENU_SHADOW_SIDE 8
#define MENU_SHADOW_BOTTOM 10
#define MENU_TOP 8
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
/*********************** Menu Data Parsing ********************* */
typedef struct {
char *str;
int retval;
int icon;
} MenuEntry;
typedef struct {
char *instr;
char *title;
int titleicon;
MenuEntry *items;
int nitems, itemssize;
} MenuData;
static MenuData *menudata_new(char *instr)
{
MenuData *md= MEM_mallocN(sizeof(*md), "MenuData");
md->instr= instr;
md->title= NULL;
md->titleicon= 0;
md->items= NULL;
md->nitems= md->itemssize= 0;
return md;
}
static void menudata_set_title(MenuData *md, char *title, int titleicon)
{
if (!md->title)
md->title= title;
if (!md->titleicon)
md->titleicon= titleicon;
}
static void menudata_add_item(MenuData *md, char *str, int retval, int icon)
{
if (md->nitems==md->itemssize) {
int nsize= md->itemssize?(md->itemssize<<1):1;
MenuEntry *oitems= md->items;
md->items= MEM_mallocN(nsize*sizeof(*md->items), "md->items");
if (oitems) {
memcpy(md->items, oitems, md->nitems*sizeof(*md->items));
MEM_freeN(oitems);
}
md->itemssize= nsize;
}
md->items[md->nitems].str= str;
md->items[md->nitems].retval= retval;
md->items[md->nitems].icon= icon;
md->nitems++;
}
void menudata_free(MenuData *md)
{
MEM_freeN(md->instr);
if (md->items)
MEM_freeN(md->items);
MEM_freeN(md);
}
/**
* Parse menu description strings, string is of the
* form "[sss%t|]{(sss[%xNN]|), (%l|)}", ssss%t indicates the
* menu title, sss or sss%xNN indicates an option,
* if %xNN is given then NN is the return value if
* that option is selected otherwise the return value
* is the index of the option (starting with 1). %l
* indicates a seperator.
*
* @param str String to be parsed.
* @retval new menudata structure, free with menudata_free()
*/
MenuData *decompose_menu_string(char *str)
{
char *instr= BLI_strdup(str);
MenuData *md= menudata_new(instr);
char *nitem= NULL, *s= instr;
int nicon=0, nretval= 1, nitem_is_title= 0;
while (1) {
char c= *s;
if (c=='%') {
if (s[1]=='x') {
nretval= atoi(s+2);
*s= '\0';
s++;
} else if (s[1]=='t') {
nitem_is_title= 1;
*s= '\0';
s++;
} else if (s[1]=='l') {
nitem= "%l";
s++;
} else if (s[1]=='i') {
nicon= atoi(s+2);
*s= '\0';
s++;
}
} else if (c=='|' || c=='\0') {
if (nitem) {
*s= '\0';
if (nitem_is_title) {
menudata_set_title(md, nitem, nicon);
nitem_is_title= 0;
} else {
/* prevent separator to get a value */
if(nitem[0]=='%' && nitem[1]=='l')
menudata_add_item(md, nitem, -1, nicon);
else
menudata_add_item(md, nitem, nretval, nicon);
nretval= md->nitems+1;
}
nitem= NULL;
nicon= 0;
}
if (c=='\0')
break;
} else if (!nitem)
nitem= s;
s++;
}
return md;
}
void ui_set_name_menu(uiBut *but, int value)
{
MenuData *md;
int i;
md= decompose_menu_string(but->str);
for (i=0; i<md->nitems; i++)
if (md->items[i].retval==value)
strcpy(but->drawstr, md->items[i].str);
menudata_free(md);
}
/******************** Creating Temporary regions ******************/
ARegion *ui_add_temporary_region(bScreen *sc)
{
ARegion *ar;
ar= MEM_callocN(sizeof(ARegion), "area region");
BLI_addtail(&sc->regionbase, ar);
ar->regiontype= RGN_TYPE_TEMPORARY;
ar->alignment= RGN_ALIGN_FLOAT;
return ar;
}
void ui_remove_temporary_region(bContext *C, bScreen *sc, ARegion *ar)
{
2.5: UV Editor module porting pretty much finished now, only missing still is mirror transform. This commits adds the remaining operators: * UV mapping operators (U key menu): cube, sphere, cylinder, etc. * Hide/Show operators. And solves most XXX's, including: * Fix bad includes and calls into space image. * Aspect ratio correction. * Create UVs if they don't exist yet on unwrap. * Assign image to UVs. * Drawing proportional edit circle.
2009-02-09 20:58:31 +00:00
if(CTX_wm_window(C))
wm_draw_region_clear(CTX_wm_window(C), ar);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
ED_region_exit(C, ar);
2.5 View3D has been split now in a local part (RegionView3D) and a per-area part (old View3D). Currently local is: - view transform - camera zoom/offset - gpencil (todo) - custom clipping planes Rest is in Area still, like active camera, draw type, layers, localview, custom centers, around-settings, transform widget, gridlines, and so on (mostly stuff as available in header). To see it work; also added new feature for region split, press SHIFT+ALT+CTRL+S for four-split. The idea is to make a preset 4-split, configured to stick to top/right/front views for three views. Another cool idea to explore is to then box-clip all drawing based on these 3 views. Note about the code: - currently view3d still stores some depricated settings, to convert from older files. Not all settings are copied over though, like custom clip planes or the 'lock view to object'. - since some view3d ops are now on area level, the operators for it should keep track of that. Bugfix in transform: quat initialize in operator-invoke missed one zero. Als brought back GE to compile for missing Ipos and channels.
2009-01-19 16:54:41 +00:00
BKE_area_region_free(NULL, ar); /* NULL: no spacetype */
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
BLI_freelinkN(&sc->regionbase, ar);
}
/************************* Creating Tooltips **********************/
typedef struct uiTooltipData {
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
rcti bbox;
uiFontStyle fstyle;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
char *tip;
} uiTooltipData;
static void ui_tooltip_region_draw(const bContext *C, ARegion *ar)
{
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
uiTooltipData *data= ar->regiondata;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
ui_draw_menu_back(U.uistyles.first, NULL, &data->bbox);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
/* draw text */
* fun 2.5 UI commit from seoul airport! A few UI goodies from on the plane: - fixed the sliders for non-rounded themes - Made properties with rna subtype of 'percentage' automatically display a '%' character *after* the numerical value, where it belongs. It would also be really great to add a ° - degree symbol after angle and perhaps rotation subtypes. This works fine with international fonts but not with oldskool bitmap fonts (not part of ascii). I wonder if there's a way to get around this? - Added nice embossing effects on buttons, labels and pulldowns (there you go, brecht :) - and cooler looking tooltips And did some work on the file browser. Andrea, I hope this is ok, let me know if there are problems and I can work on fixing it up :) - added some new icons for file types, that are now shown in list view. icon designers, please feel free to update and make nicer ones! - tweaked the default colour theme and did some graphical fiddling to make the various views look nicer - rearranged the buttons on the header and swapped the 'P' button for an up arrow button, this needs a nicer icon too. - added outliner style alternating bands to the list view to see info grouping better. This has a small prob in columns view though, can fix that.
2009-03-09 08:31:45 +00:00
glColor4f(1.0f, 1.0f, 1.0f, 1.0f);
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
uiStyleFontSet(&data->fstyle);
uiStyleFontDraw(&data->fstyle, &data->bbox, data->tip);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
}
static void ui_tooltip_region_free(ARegion *ar)
{
uiTooltipData *data;
data= ar->regiondata;
MEM_freeN(data->tip);
MEM_freeN(data);
2.5 Added WM Jobs manager - WM can manage threaded jobs for you; just provide a couple of components to get it work: - customdata, free callback for it - timer step, notifier code - start callback, update callback - Once started, each job runs an own timer, and will for every time step check necessary updates, or close the job when ready. - No drawing happens in jobs, that's for notifiers! - Every job stores an owner pointer, and based on this owner it will prevent multiple jobs to enter the stack. Instead it will re-use a running job, signal it to stop and allow caller to re-initialize it even. - Check new wm_jobs.c for more explanation. Jobs API is still under construction. Fun: BLI_addtail(&wm->jobs, steve); :) Put Node shader previews back using wmJobs - Preview calculating is now fully threaded (1 thread still) - Thanks to new event system + notifiers, you can see previews update even while dragging sliders! - Currently it only starts when you change a node setting. Warning: the thread render shares Node data, so don't delete nodes while it renders! This topic is on the todo to make safe. Also: - bug in region initialize (do_versions) showed channel list in node editor wrong. - flagged the channel list 'hidden' now, it was really in the way! This is for later to work on anyway. - recoded Render API callbacks so it gets handlers passed on, no globals to use anymore, remember? - previewrender code gets now so much nicer! Will remove a lot of stuff from code soon.
2009-01-22 14:59:49 +00:00
ar->regiondata= NULL;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
}
ARegion *ui_tooltip_create(bContext *C, ARegion *butregion, uiBut *but)
{
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
uiStyle *style= U.uistyles.first; // XXX pass on as arg
2.5 Part one of wrapping up area/region management. Read design doc here: http://wiki.blender.org/index.php/BlenderDev/Blender2.5/AreaManager This commit: - brings keymap storage to WM, based on names/types. This structure allows rna-ifying it too, so you can browse keymaps etc. - creating areas and regions works slightly different now, wich regiontypes stored in areatype. Todo: - better callbacks and structure for defining which handlers need to be added. - using region types to validate regions - proper implementation of local region data - code method for customizing keymaps. Current idea is that you have to indicate an entire keymap to be custom, to prevent too complicated merging problems of default and custom maps (like order, multiple keys for same operator, disabling options, etc).
2008-12-08 15:02:57 +00:00
static ARegionType type;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
ARegion *ar;
uiTooltipData *data;
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
float fonth, fontw, aspect= but->block->aspect;
float x1f, x2f, y1f, y2f;
UI: Panels * API and usage is basically the same still. * Panels were moved to region level. I first thought of keeping them at area level, but having them at region level it's simpler to handle events and do drawing, and also to integrate with view2d. They can still become area level overlapping regions, if we make a floating (or docked) region that can contain panels. * Added back a few panels from the scene buttons for testing. Issues still: * The view2d handling and alignment refresh of panels is not correct yet in the buttons window. * I did not yet bring back the block handlers system. It was basically a system that stored which panel was open and where the events for that panel would go. Just a few functions, but not sure how it fits in 2.5. * There was a case where dragging panels would not properly remove the window level handler, but could not redo anymore even though I don't think I fixed it. * Some text in the panels goes past the end of the button, that is due to the checkmark button drawing, not related to this commit. Other UI code changes: * Renamed interface.h to interface_intern.h for consistency. * Fixed some issues with freeing of blocks when they changed due to context. * uiDrawBlock now takes a context pointer (mostly for block drawextra).
2008-12-26 13:11:04 +00:00
int x1, x2, y1, y2, winx, winy, ofsx, ofsy;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
if(!but->tip || strlen(but->tip)==0)
return NULL;
/* create area region */
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
ar= ui_add_temporary_region(CTX_wm_screen(C));
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
2.5 Part one of wrapping up area/region management. Read design doc here: http://wiki.blender.org/index.php/BlenderDev/Blender2.5/AreaManager This commit: - brings keymap storage to WM, based on names/types. This structure allows rna-ifying it too, so you can browse keymaps etc. - creating areas and regions works slightly different now, wich regiontypes stored in areatype. Todo: - better callbacks and structure for defining which handlers need to be added. - using region types to validate regions - proper implementation of local region data - code method for customizing keymaps. Current idea is that you have to indicate an entire keymap to be custom, to prevent too complicated merging problems of default and custom maps (like order, multiple keys for same operator, disabling options, etc).
2008-12-08 15:02:57 +00:00
memset(&type, 0, sizeof(ARegionType));
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
type.draw= ui_tooltip_region_draw;
type.free= ui_tooltip_region_free;
ar->type= &type;
/* create tooltip data */
data= MEM_callocN(sizeof(uiTooltipData), "uiTooltipData");
data->tip= BLI_strdup(but->tip);
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
/* set font, get bb */
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
data->fstyle= style->widget; /* copy struct */
data->fstyle.align= UI_STYLE_TEXT_CENTER;
ui_fontscale(&data->fstyle.points, aspect);
uiStyleFontSet(&data->fstyle);
fontw= aspect * BLF_width(data->tip);
fonth= aspect * BLF_height(data->tip);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
ar->regiondata= data;
/* compute position */
UI: Panels * API and usage is basically the same still. * Panels were moved to region level. I first thought of keeping them at area level, but having them at region level it's simpler to handle events and do drawing, and also to integrate with view2d. They can still become area level overlapping regions, if we make a floating (or docked) region that can contain panels. * Added back a few panels from the scene buttons for testing. Issues still: * The view2d handling and alignment refresh of panels is not correct yet in the buttons window. * I did not yet bring back the block handlers system. It was basically a system that stored which panel was open and where the events for that panel would go. Just a few functions, but not sure how it fits in 2.5. * There was a case where dragging panels would not properly remove the window level handler, but could not redo anymore even though I don't think I fixed it. * Some text in the panels goes past the end of the button, that is due to the checkmark button drawing, not related to this commit. Other UI code changes: * Renamed interface.h to interface_intern.h for consistency. * Fixed some issues with freeing of blocks when they changed due to context. * uiDrawBlock now takes a context pointer (mostly for block drawextra).
2008-12-26 13:11:04 +00:00
ofsx= (but->block->panel)? but->block->panel->ofsx: 0;
ofsy= (but->block->panel)? but->block->panel->ofsy: 0;
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
x1f= (but->x1+but->x2)/2.0f + ofsx - 16.0f*aspect;
x2f= x1f + fontw + 16.0f*aspect;
y2f= but->y1 + ofsy - 15.0f*aspect;
y1f= y2f - fonth - 10.0f*aspect;
/* copy to int, gets projected if possible too */
x1= x1f; y1= y1f; x2= x2f; y2= y2f;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
if(butregion) {
2.5 - Tooltips now respect view2d view (rna viewer). - Bugfix in viewd.c UI_view2d_view_to_region() (typo)
2008-12-03 17:11:50 +00:00
/* XXX temp, region v2ds can be empty still */
if(butregion->v2d.cur.xmin != butregion->v2d.cur.xmax) {
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
UI_view2d_to_region_no_clip(&butregion->v2d, x1f, y1f, &x1, &y1);
UI_view2d_to_region_no_clip(&butregion->v2d, x2f, y2f, &x2, &y2);
2.5 - Tooltips now respect view2d view (rna viewer). - Bugfix in viewd.c UI_view2d_view_to_region() (typo)
2008-12-03 17:11:50 +00:00
}
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
x1 += butregion->winrct.xmin;
x2 += butregion->winrct.xmin;
y1 += butregion->winrct.ymin;
y2 += butregion->winrct.ymin;
}
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
wm_window_get_size(CTX_wm_window(C), &winx, &winy);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
if(x2 > winx) {
2.5 - Tooltips now respect view2d view (rna viewer). - Bugfix in viewd.c UI_view2d_view_to_region() (typo)
2008-12-03 17:11:50 +00:00
/* super size */
if(x2 > winx + x1) {
x2= winx;
x1= 0;
}
else {
x1 -= x2-winx;
x2= winx;
}
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
}
if(y1 < 0) {
y1 += 36;
y2 += 36;
}
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
/* widget rect, in region coords */
data->bbox.xmin= MENU_SHADOW_SIDE;
data->bbox.xmax= x2-x1 + MENU_SHADOW_SIDE;
data->bbox.ymin= MENU_SHADOW_BOTTOM;
data->bbox.ymax= y2-y1 + MENU_SHADOW_BOTTOM;
2.5 - Tooltips now respect view2d view (rna viewer). - Bugfix in viewd.c UI_view2d_view_to_region() (typo)
2008-12-03 17:11:50 +00:00
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
/* region bigger for shadow */
ar->winrct.xmin= x1 - MENU_SHADOW_SIDE;
ar->winrct.xmax= x2 + MENU_SHADOW_SIDE;
ar->winrct.ymin= y1 - MENU_SHADOW_BOTTOM;
ar->winrct.ymax= y2 + MENU_TOP;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
2.5 Cleanup in area/region management - more intelligence in area management for adding handlers and setting data correct. Space/Region type callbacks only have to do own things. - added option for adding default handlers to areas/regions. (flag in type definition) - ensured that region-types store the minsizes for regions. - added boundbox check for handlers; note that it accepts pointer to boundbox, because handlers don't get reset on area-resizing or view changes. Example: view2d handlers use mask rect. - handlers get now added on correct context levels (example frame change also worked in header) - removed ->refresh() callback. Context refreshing is Listener. - the ->init() is being called on all WM level actions, also after a file read, moving areas, re-opening areas etc. - fixed bug: crash on exit was caused by cleaning up Screen too late. - UI_view2d_size_update() removed from draw callback, is init() - regions now store (winx, winy) subwindow size.
2008-12-10 13:56:54 +00:00
/* adds subwindow */
ED_region_init(C, ar);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
/* notify change and redraw */
2.5 Work on getting notifiers in shape. - Most important: local (to own region or area) redraw notifiers have been depricated. This is not a good or correct notifier anyway. Notifiers should be signals to other areas. - Instead use these 2 functions: ED_area_tag_redraw(area); ED_region_tag_redraw(region); It seems to me good convention to keep the area/region redraw tag itself protected everywhere, for future improvements. - Also added a basic WM function that checks overlapping regions, and flushes redraws to underlying regions. This makes menus and buttons allow to only send local region redraws. (Brought back two "swapbuffer indicators" to test this. - Todo: area 'action zone' redraws, and fixing other notifiers... sending data pointers in a notifier seems to be bad idea.
2008-12-16 12:28:00 +00:00
ED_region_tag_redraw(ar);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
return ar;
}
void ui_tooltip_free(bContext *C, ARegion *ar)
{
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
ui_remove_temporary_region(C, CTX_wm_screen(C), ar);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
}
/************************* Creating Menu Blocks **********************/
/* position block relative to but, result is in window space */
static void ui_block_position(wmWindow *window, ARegion *butregion, uiBut *but, uiBlock *block)
{
uiBut *bt;
uiSafetyRct *saferct;
rctf butrct;
float aspect;
int xsize, ysize, xof=0, yof=0, center;
short dir1= 0, dir2=0;
/* transform to window coordinates, using the source button region/block */
butrct.xmin= but->x1; butrct.xmax= but->x2;
butrct.ymin= but->y1; butrct.ymax= but->y2;
ui_block_to_window_fl(butregion, but->block, &butrct.xmin, &butrct.ymin);
ui_block_to_window_fl(butregion, but->block, &butrct.xmax, &butrct.ymax);
/* calc block rect */
if(block->minx == 0.0f && block->maxx == 0.0f) {
if(block->buttons.first) {
block->minx= block->miny= 10000;
block->maxx= block->maxy= -10000;
bt= block->buttons.first;
while(bt) {
if(bt->x1 < block->minx) block->minx= bt->x1;
if(bt->y1 < block->miny) block->miny= bt->y1;
if(bt->x2 > block->maxx) block->maxx= bt->x2;
if(bt->y2 > block->maxy) block->maxy= bt->y2;
bt= bt->next;
}
}
else {
/* we're nice and allow empty blocks too */
block->minx= block->miny= 0;
block->maxx= block->maxy= 20;
}
}
aspect= (float)(block->maxx - block->minx + 4);
ui_block_to_window_fl(butregion, but->block, &block->minx, &block->miny);
ui_block_to_window_fl(butregion, but->block, &block->maxx, &block->maxy);
//block->minx-= 2.0; block->miny-= 2.0;
//block->maxx+= 2.0; block->maxy+= 2.0;
xsize= block->maxx - block->minx+4; // 4 for shadow
ysize= block->maxy - block->miny+4;
aspect/= (float)xsize;
if(but) {
int left=0, right=0, top=0, down=0;
int winx, winy;
wm_window_get_size(window, &winx, &winy);
if(block->direction & UI_CENTER) center= ysize/2;
else center= 0;
if( butrct.xmin-xsize > 0.0) left= 1;
if( butrct.xmax+xsize < winx) right= 1;
if( butrct.ymin-ysize+center > 0.0) down= 1;
if( butrct.ymax+ysize-center < winy) top= 1;
dir1= block->direction & UI_DIRECTION;
/* secundary directions */
if(dir1 & (UI_TOP|UI_DOWN)) {
if(dir1 & UI_LEFT) dir2= UI_LEFT;
else if(dir1 & UI_RIGHT) dir2= UI_RIGHT;
dir1 &= (UI_TOP|UI_DOWN);
}
if(dir2==0) if(dir1==UI_LEFT || dir1==UI_RIGHT) dir2= UI_DOWN;
if(dir2==0) if(dir1==UI_TOP || dir1==UI_DOWN) dir2= UI_LEFT;
/* no space at all? dont change */
if(left || right) {
if(dir1==UI_LEFT && left==0) dir1= UI_RIGHT;
if(dir1==UI_RIGHT && right==0) dir1= UI_LEFT;
/* this is aligning, not append! */
if(dir2==UI_LEFT && right==0) dir2= UI_RIGHT;
if(dir2==UI_RIGHT && left==0) dir2= UI_LEFT;
}
if(down || top) {
if(dir1==UI_TOP && top==0) dir1= UI_DOWN;
if(dir1==UI_DOWN && down==0) dir1= UI_TOP;
if(dir2==UI_TOP && top==0) dir2= UI_DOWN;
if(dir2==UI_DOWN && down==0) dir2= UI_TOP;
}
if(dir1==UI_LEFT) {
xof= butrct.xmin - block->maxx;
if(dir2==UI_TOP) yof= butrct.ymin - block->miny-center;
else yof= butrct.ymax - block->maxy+center;
}
else if(dir1==UI_RIGHT) {
xof= butrct.xmax - block->minx;
if(dir2==UI_TOP) yof= butrct.ymin - block->miny-center;
else yof= butrct.ymax - block->maxy+center;
}
else if(dir1==UI_TOP) {
yof= butrct.ymax - block->miny;
if(dir2==UI_RIGHT) xof= butrct.xmax - block->maxx;
else xof= butrct.xmin - block->minx;
// changed direction?
if((dir1 & block->direction)==0) {
if(block->direction & UI_SHIFT_FLIPPED)
xof+= dir2==UI_LEFT?25:-25;
uiBlockFlipOrder(block);
}
}
else if(dir1==UI_DOWN) {
yof= butrct.ymin - block->maxy;
if(dir2==UI_RIGHT) xof= butrct.xmax - block->maxx;
else xof= butrct.xmin - block->minx;
// changed direction?
if((dir1 & block->direction)==0) {
if(block->direction & UI_SHIFT_FLIPPED)
xof+= dir2==UI_LEFT?25:-25;
uiBlockFlipOrder(block);
}
}
/* and now we handle the exception; no space below or to top */
if(top==0 && down==0) {
if(dir1==UI_LEFT || dir1==UI_RIGHT) {
// align with bottom of screen
yof= ysize;
}
}
/* or no space left or right */
if(left==0 && right==0) {
if(dir1==UI_TOP || dir1==UI_DOWN) {
// align with left size of screen
xof= -block->minx+5;
}
}
// apply requested offset in the block
xof += block->xofs/block->aspect;
yof += block->yofs/block->aspect;
}
/* apply */
for(bt= block->buttons.first; bt; bt= bt->next) {
ui_block_to_window_fl(butregion, but->block, &bt->x1, &bt->y1);
ui_block_to_window_fl(butregion, but->block, &bt->x2, &bt->y2);
bt->x1 += xof;
bt->x2 += xof;
bt->y1 += yof;
bt->y2 += yof;
bt->aspect= 1.0;
// ui_check_but recalculates drawstring size in pixels
ui_check_but(bt);
}
block->minx += xof;
block->miny += yof;
block->maxx += xof;
block->maxy += yof;
/* safety calculus */
if(but) {
float midx= (butrct.xmin+butrct.xmax)/2.0;
float midy= (butrct.ymin+butrct.ymax)/2.0;
/* when you are outside parent button, safety there should be smaller */
// parent button to left
if( midx < block->minx ) block->safety.xmin= block->minx-3;
else block->safety.xmin= block->minx-40;
// parent button to right
if( midx > block->maxx ) block->safety.xmax= block->maxx+3;
else block->safety.xmax= block->maxx+40;
// parent button on bottom
if( midy < block->miny ) block->safety.ymin= block->miny-3;
else block->safety.ymin= block->miny-40;
// parent button on top
if( midy > block->maxy ) block->safety.ymax= block->maxy+3;
else block->safety.ymax= block->maxy+40;
// exception for switched pulldowns...
if(dir1 && (dir1 & block->direction)==0) {
if(dir2==UI_RIGHT) block->safety.xmax= block->maxx+3;
if(dir2==UI_LEFT) block->safety.xmin= block->minx-3;
}
block->direction= dir1;
}
else {
block->safety.xmin= block->minx-40;
block->safety.ymin= block->miny-40;
block->safety.xmax= block->maxx+40;
block->safety.ymax= block->maxy+40;
}
/* keep a list of these, needed for pulldown menus */
saferct= MEM_callocN(sizeof(uiSafetyRct), "uiSafetyRct");
saferct->parent= butrct;
saferct->safety= block->safety;
BLI_freelistN(&block->saferct);
if(but)
BLI_duplicatelist(&block->saferct, &but->block->saferct);
BLI_addhead(&block->saferct, saferct);
}
static void ui_block_region_draw(const bContext *C, ARegion *ar)
{
uiBlock *block;
UI: getting popup menus to work again, just the internal interface and event handling code still, how it integrates with operators and handlers is not worked out yet. For testing, Ctrl+Q quit now shows a confirmation popup using the following call: okee_operator(C, "WM_OT_exit_blender", "Quit Blender");
2008-12-15 19:19:39 +00:00
for(block=ar->uiblocks.first; block; block=block->next)
UI: Panels * API and usage is basically the same still. * Panels were moved to region level. I first thought of keeping them at area level, but having them at region level it's simpler to handle events and do drawing, and also to integrate with view2d. They can still become area level overlapping regions, if we make a floating (or docked) region that can contain panels. * Added back a few panels from the scene buttons for testing. Issues still: * The view2d handling and alignment refresh of panels is not correct yet in the buttons window. * I did not yet bring back the block handlers system. It was basically a system that stored which panel was open and where the events for that panel would go. Just a few functions, but not sure how it fits in 2.5. * There was a case where dragging panels would not properly remove the window level handler, but could not redo anymore even though I don't think I fixed it. * Some text in the panels goes past the end of the button, that is due to the checkmark button drawing, not related to this commit. Other UI code changes: * Renamed interface.h to interface_intern.h for consistency. * Fixed some issues with freeing of blocks when they changed due to context. * uiDrawBlock now takes a context pointer (mostly for block drawextra).
2008-12-26 13:11:04 +00:00
uiDrawBlock(C, block);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiPopupBlockHandle *ui_popup_block_create(bContext *C, ARegion *butregion, uiBut *but, uiBlockCreateFunc create_func, uiBlockHandleCreateFunc handle_create_func, void *arg)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
wmWindow *window= CTX_wm_window(C);
2.5 Part one of wrapping up area/region management. Read design doc here: http://wiki.blender.org/index.php/BlenderDev/Blender2.5/AreaManager This commit: - brings keymap storage to WM, based on names/types. This structure allows rna-ifying it too, so you can browse keymaps etc. - creating areas and regions works slightly different now, wich regiontypes stored in areatype. Todo: - better callbacks and structure for defining which handlers need to be added. - using region types to validate regions - proper implementation of local region data - code method for customizing keymaps. Current idea is that you have to indicate an entire keymap to be custom, to prevent too complicated merging problems of default and custom maps (like order, multiple keys for same operator, disabling options, etc).
2008-12-08 15:02:57 +00:00
static ARegionType type;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
ARegion *ar;
uiBlock *block;
uiBut *bt;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiPopupBlockHandle *handle;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
uiSafetyRct *saferct;
/* create handle */
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
handle= MEM_callocN(sizeof(uiPopupBlockHandle), "uiPopupBlockHandle");
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
2.5 F6 menu "redo last operation" now works, mostly :) Try it in editmode on add-UV-Sphere, or Subdivide, those work fine. Transform ops have some feedback issues or so. This is a temporary commit; brecht will take this further with nice code (event system doesn't make menus as active region but sets the original context instead, as stored in ui handler.)
2009-02-07 16:43:55 +00:00
/* store context for operator */
handle->ctx_area= CTX_wm_area(C);
handle->ctx_region= CTX_wm_region(C);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
/* create area region */
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
ar= ui_add_temporary_region(CTX_wm_screen(C));
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
2.5 Part one of wrapping up area/region management. Read design doc here: http://wiki.blender.org/index.php/BlenderDev/Blender2.5/AreaManager This commit: - brings keymap storage to WM, based on names/types. This structure allows rna-ifying it too, so you can browse keymaps etc. - creating areas and regions works slightly different now, wich regiontypes stored in areatype. Todo: - better callbacks and structure for defining which handlers need to be added. - using region types to validate regions - proper implementation of local region data - code method for customizing keymaps. Current idea is that you have to indicate an entire keymap to be custom, to prevent too complicated merging problems of default and custom maps (like order, multiple keys for same operator, disabling options, etc).
2008-12-08 15:02:57 +00:00
memset(&type, 0, sizeof(ARegionType));
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
type.draw= ui_block_region_draw;
ar->type= &type;
UI: don't use operators anymore for handling user interface events, but rather a special UI handler which makes the code clearer. This UI handler is attached to the region along with other handlers, and also gets a callback when all handlers for the region are removed to ensure things are properly cleaned up. This should fix XXX's in the UI code related to events and context switching. Most of the changes are in interface_handlers.c, which was renamed from interface_ops.c, to convert operators to the UI handler. UI code notes: * uiBeginBlock/uiEndBlock/uiFreeBlocks now takes a context argument, this is required to properly cancel things like timers or tooltips when the region gets removed. * UI_add_region_handlers will add the region level UI handlers, to be used when adding keymap handlers etc. This replaces the UI keymap. * When the UI code starts a modal interaction (number sliding, text editing, opening a menu, ..), it will add an UI handler at the window level which will block events. Windowmanager changes: * Added an UI handler next to the existing keymap and operator modal handlers. It has an event handling and remove callback, and like operator modal handlers will remember the area and region if it is registered at the window level. * Removed the MESSAGE event. * Operator cancel and UI handler remove callbacks now get the window/area/region restored in the context, like the operator modal and UI handler event callbacks. * Regions now receive MOUSEMOVE events for the mouse going outside of the region. This was already happening for areas, but UI buttons are at the region level so we need it there. Issues: * Tooltips and menus stay open when switching to another window, and button highlight doesn't work without moving the mouse first when Blender starts up. I tried using some events like Q_FIRSTTIME, WINTHAW, but those don't seem to arrive.. * Timeline header buttons seem to be moving one pixel or so sometimes when interacting with them. * Seems not due to this commit, but UI and keymap handlers are leaking. It seems that handlers are being added to regions in all screens, also in regions of areas that are not visible, but these handlers are not removed. Probably there should only be handlers in visible regions?
2008-12-10 04:36:33 +00:00
UI_add_region_handlers(&ar->handlers);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
handle->region= ar;
ar->regiondata= handle;
/* create ui block */
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
if(create_func)
block= create_func(C, handle->region, arg);
else
block= handle_create_func(C, handle, arg);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
block->handle= handle;
2.5: * Automatic shortcut keys in menus now compare operator properties as well. Implemented IDP_EqualsProperties for this. * I imagine all these compares may be a bit slow, for this case it's not so bad though because it only happens for one menu when it is opened.
2009-01-28 23:29:27 +00:00
if(!block->endblock)
uiEndBlock(C, block);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
/* if this is being created from a button */
if(but) {
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
if(ELEM3(but->type, BLOCK, PULLDOWN, HMENU))
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
block->xofs = -2; /* for proper alignment */
/* only used for automatic toolbox, so can set the shift flag */
if(but->flag & UI_MAKE_TOP) {
block->direction= UI_TOP|UI_SHIFT_FLIPPED;
uiBlockFlipOrder(block);
}
if(but->flag & UI_MAKE_DOWN) block->direction= UI_DOWN|UI_SHIFT_FLIPPED;
if(but->flag & UI_MAKE_LEFT) block->direction |= UI_LEFT;
if(but->flag & UI_MAKE_RIGHT) block->direction |= UI_RIGHT;
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
ui_block_position(window, butregion, but, block);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
}
else {
/* keep a list of these, needed for pulldown menus */
saferct= MEM_callocN(sizeof(uiSafetyRct), "uiSafetyRct");
saferct->safety= block->safety;
BLI_addhead(&block->saferct, saferct);
* Some more 2.5 theme updates
2009-02-09 02:54:40 +00:00
block->flag |= UI_BLOCK_POPUP;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
}
/* the block and buttons were positioned in window space as in 2.4x, now
* these menu blocks are regions so we bring it back to region space.
Some tweaks to menu drawing
2009-01-04 00:05:40 +00:00
* additionally we add some padding for the menu shadow or rounded menus */
2.5 Fixed & upgraded tooltips to new drawing system. Also fixed small error in menu shadows. Rounding of shadow below menu went wrong.
2009-04-15 14:43:54 +00:00
ar->winrct.xmin= block->minx - MENU_SHADOW_SIDE;
ar->winrct.xmax= block->maxx + MENU_SHADOW_SIDE;
ar->winrct.ymin= block->miny - MENU_SHADOW_BOTTOM;
ar->winrct.ymax= block->maxy + MENU_TOP;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
block->minx -= ar->winrct.xmin;
block->maxx -= ar->winrct.xmin;
block->miny -= ar->winrct.ymin;
block->maxy -= ar->winrct.ymin;
for(bt= block->buttons.first; bt; bt= bt->next) {
bt->x1 -= ar->winrct.xmin;
bt->x2 -= ar->winrct.xmin;
bt->y1 -= ar->winrct.ymin;
bt->y2 -= ar->winrct.ymin;
}
block->flag |= UI_BLOCK_LOOP|UI_BLOCK_MOVEMOUSE_QUIT;
2.5 Cleanup in area/region management - more intelligence in area management for adding handlers and setting data correct. Space/Region type callbacks only have to do own things. - added option for adding default handlers to areas/regions. (flag in type definition) - ensured that region-types store the minsizes for regions. - added boundbox check for handlers; note that it accepts pointer to boundbox, because handlers don't get reset on area-resizing or view changes. Example: view2d handlers use mask rect. - handlers get now added on correct context levels (example frame change also worked in header) - removed ->refresh() callback. Context refreshing is Listener. - the ->init() is being called on all WM level actions, also after a file read, moving areas, re-opening areas etc. - fixed bug: crash on exit was caused by cleaning up Screen too late. - UI_view2d_size_update() removed from draw callback, is init() - regions now store (winx, winy) subwindow size.
2008-12-10 13:56:54 +00:00
/* adds subwindow */
ED_region_init(C, ar);
UI: getting popup menus to work again, just the internal interface and event handling code still, how it integrates with operators and handlers is not worked out yet. For testing, Ctrl+Q quit now shows a confirmation popup using the following call: okee_operator(C, "WM_OT_exit_blender", "Quit Blender");
2008-12-15 19:19:39 +00:00
/* get winmat now that we actually have the subwindow */
2.5 All of the view3d drawing code is now 'Context' free. The idea is: - ED_region_do_draw() sets and freezes drawing context - regiontype draw() callback then can pass on other relevant context stuff as function args. Also cleaned up the WM opengl wrappers, to mimic opengl state; no reason to give window pointer anymore.
2008-12-19 14:14:43 +00:00
wmSubWindowSet(window, ar->swinid);
2.5 Next part of UI drawing migration coding. Now all calls go via the new wrapper; apart from some special types (Colorband, HSV picking, Curve, Normal) they draw OK. Also added new menu system, nicer shadow, and using same AA code. Used dark theme suggestion from William btw. Don't get afraid, it'll all be tweakable. :) Next steps: - move over all special button types - make external calls for AA draw (nodes for example) - remove old draw code - make new colors save in theme I also have to check on how to treat icons in buttons; this is a bit cumbersome in cases. Then the layout system comes back on agenda, will go over this with Brecht tomorrow. So; all WIP, be patient!
2009-04-03 16:26:03 +00:00
// XXX ton, AA pixel space...
wmOrtho2(0.0, (float)ar->winrct.xmax-ar->winrct.xmin+1, 0.0, (float)ar->winrct.ymax-ar->winrct.ymin+1);
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
wm_subwindow_getmatrix(window, ar->swinid, block->winmat);
2.5 Cleanup in area/region management - more intelligence in area management for adding handlers and setting data correct. Space/Region type callbacks only have to do own things. - added option for adding default handlers to areas/regions. (flag in type definition) - ensured that region-types store the minsizes for regions. - added boundbox check for handlers; note that it accepts pointer to boundbox, because handlers don't get reset on area-resizing or view changes. Example: view2d handlers use mask rect. - handlers get now added on correct context levels (example frame change also worked in header) - removed ->refresh() callback. Context refreshing is Listener. - the ->init() is being called on all WM level actions, also after a file read, moving areas, re-opening areas etc. - fixed bug: crash on exit was caused by cleaning up Screen too late. - UI_view2d_size_update() removed from draw callback, is init() - regions now store (winx, winy) subwindow size.
2008-12-10 13:56:54 +00:00
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
/* notify change and redraw */
2.5 Work on getting notifiers in shape. - Most important: local (to own region or area) redraw notifiers have been depricated. This is not a good or correct notifier anyway. Notifiers should be signals to other areas. - Instead use these 2 functions: ED_area_tag_redraw(area); ED_region_tag_redraw(region); It seems to me good convention to keep the area/region redraw tag itself protected everywhere, for future improvements. - Also added a basic WM function that checks overlapping regions, and flushes redraws to underlying regions. This makes menus and buttons allow to only send local region redraws. (Brought back two "swapbuffer indicators" to test this. - Todo: area 'action zone' redraws, and fixing other notifiers... sending data pointers in a notifier seems to be bad idea.
2008-12-16 12:28:00 +00:00
ED_region_tag_redraw(ar);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
return handle;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
void ui_popup_block_free(bContext *C, uiPopupBlockHandle *handle)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
ui_remove_temporary_region(C, CTX_wm_screen(C), handle->region);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
MEM_freeN(handle);
}
/***************************** Menu Button ***************************/
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiBlock *ui_block_func_MENU(bContext *C, uiPopupBlockHandle *handle, void *arg_but)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
uiBut *but= arg_but;
uiBlock *block;
uiBut *bt;
MenuData *md;
ListBase lb;
float aspect;
int width, height, boxh, columns, rows, startx, starty, x1, y1, xmax, a;
/* create the block */
2.5 More cleanup! - removed old UI font completely, including from uiBeginBlock - emboss hints for uiBlock only have three types now; Regular, Pulldown, or "Nothing" (only icon/text) - removed old font path from Userdef - removed all old button theme hinting - removed old "auto block" to merge buttons in groups (was only in use for radiosity buttons) And went over all warnings. One hooray for make giving clean output :) Well, we need uniform definitions for warnings, so people at least fix them... here's the real bad bugs I found: - in mesh code, a call to editmesh mixed *em and *me - in armature, ED_util.h was not included, so no warnings for wrong call to ED_undo_push() - The extern Py api .h was not included in the bpy_interface.c, showing a several calls using different args. Further just added the missing includes, and removed unused vars.
2009-04-14 15:59:52 +00:00
block= uiBeginBlock(C, handle->region, "menu", UI_EMBOSSP);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
block->flag= UI_BLOCK_LOOP|UI_BLOCK_REDRAW|UI_BLOCK_NUMSELECT;
/* compute menu data */
md= decompose_menu_string(but->str);
/* columns and row calculation */
columns= (md->nitems+20)/20;
if(columns<1)
columns= 1;
if(columns>8)
columns= (md->nitems+25)/25;
rows= md->nitems/columns;
if(rows<1)
rows= 1;
while(rows*columns<md->nitems)
rows++;
/* prevent scaling up of pupmenu */
aspect= but->aspect;
if(aspect < 1.0f)
aspect = 1.0f;
/* size and location */
if(md->title)
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
width= 1.5*aspect*strlen(md->title)+UI_GetStringWidth(md->title);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
else
width= 0;
for(a=0; a<md->nitems; a++) {
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
xmax= aspect*UI_GetStringWidth(md->items[a].str);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
if(md->items[a].icon)
xmax += 20*aspect;
if(xmax>width)
width= xmax;
}
width+= 10;
if(width < (but->x2 - but->x1))
width = (but->x2 - but->x1);
if(width<50)
width=50;
boxh= MENU_BUTTON_HEIGHT;
height= rows*boxh;
if(md->title)
height+= boxh;
/* here we go! */
startx= but->x1;
starty= but->y1;
if(md->title) {
uiBut *bt;
2.5 More font style work; - hooked up almost all ui buttons code to new font system, including text clipping - panel headers scale now too to smaller fonts - added further style hints, for shadow/emboss. Is all going to be in UI designer control! - for fun; changed layout engine to spread vertical buttons in window width Next: removal of all usage of old font system, using 'styles'. Will also move font blurring to blenfont module.
2009-04-10 14:06:24 +00:00
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
if (md->titleicon) {
bt= uiDefIconTextBut(block, LABEL, 0, md->titleicon, md->title, startx, (short)(starty+rows*boxh), (short)width, (short)boxh, NULL, 0.0, 0.0, 0, 0, "");
} else {
bt= uiDefBut(block, LABEL, 0, md->title, startx, (short)(starty+rows*boxh), (short)width, (short)boxh, NULL, 0.0, 0.0, 0, 0, "");
bt->flag= UI_TEXT_LEFT;
}
}
for(a=0; a<md->nitems; a++) {
x1= startx + width*((int)(md->nitems-a-1)/rows);
y1= starty - boxh*(rows - ((md->nitems - a - 1)%rows)) + (rows*boxh);
if (strcmp(md->items[md->nitems-a-1].str, "%l")==0) {
bt= uiDefBut(block, SEPR, B_NOP, "", x1, y1,(short)(width-(rows>1)), (short)(boxh-1), NULL, 0.0, 0.0, 0, 0, "");
}
else if(md->items[md->nitems-a-1].icon) {
bt= uiDefIconTextButF(block, BUTM|FLO, B_NOP, md->items[md->nitems-a-1].icon ,md->items[md->nitems-a-1].str, x1, y1,(short)(width-(rows>1)), (short)(boxh-1), &handle->retvalue, (float) md->items[md->nitems-a-1].retval, 0.0, 0, 0, "");
}
else {
bt= uiDefButF(block, BUTM|FLO, B_NOP, md->items[md->nitems-a-1].str, x1, y1,(short)(width-(rows>1)), (short)(boxh-1), &handle->retvalue, (float) md->items[md->nitems-a-1].retval, 0.0, 0, 0, "");
}
}
menudata_free(md);
/* the code up here has flipped locations, because of change of preferred order */
/* thats why we have to switch list order too, to make arrowkeys work */
lb.first= lb.last= NULL;
bt= block->buttons.first;
while(bt) {
uiBut *next= bt->next;
BLI_remlink(&block->buttons, bt);
BLI_addhead(&lb, bt);
bt= next;
}
block->buttons= lb;
block->direction= UI_TOP;
UI: don't use operators anymore for handling user interface events, but rather a special UI handler which makes the code clearer. This UI handler is attached to the region along with other handlers, and also gets a callback when all handlers for the region are removed to ensure things are properly cleaned up. This should fix XXX's in the UI code related to events and context switching. Most of the changes are in interface_handlers.c, which was renamed from interface_ops.c, to convert operators to the UI handler. UI code notes: * uiBeginBlock/uiEndBlock/uiFreeBlocks now takes a context argument, this is required to properly cancel things like timers or tooltips when the region gets removed. * UI_add_region_handlers will add the region level UI handlers, to be used when adding keymap handlers etc. This replaces the UI keymap. * When the UI code starts a modal interaction (number sliding, text editing, opening a menu, ..), it will add an UI handler at the window level which will block events. Windowmanager changes: * Added an UI handler next to the existing keymap and operator modal handlers. It has an event handling and remove callback, and like operator modal handlers will remember the area and region if it is registered at the window level. * Removed the MESSAGE event. * Operator cancel and UI handler remove callbacks now get the window/area/region restored in the context, like the operator modal and UI handler event callbacks. * Regions now receive MOUSEMOVE events for the mouse going outside of the region. This was already happening for areas, but UI buttons are at the region level so we need it there. Issues: * Tooltips and menus stay open when switching to another window, and button highlight doesn't work without moving the mouse first when Blender starts up. I tried using some events like Q_FIRSTTIME, WINTHAW, but those don't seem to arrive.. * Timeline header buttons seem to be moving one pixel or so sometimes when interacting with them. * Seems not due to this commit, but UI and keymap handlers are leaking. It seems that handlers are being added to regions in all screens, also in regions of areas that are not visible, but these handlers are not removed. Probably there should only be handlers in visible regions?
2008-12-10 04:36:33 +00:00
uiEndBlock(C, block);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
return block;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiBlock *ui_block_func_ICONROW(bContext *C, uiPopupBlockHandle *handle, void *arg_but)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
uiBut *but= arg_but;
uiBlock *block;
int a;
2.5 More cleanup! - removed old UI font completely, including from uiBeginBlock - emboss hints for uiBlock only have three types now; Regular, Pulldown, or "Nothing" (only icon/text) - removed old font path from Userdef - removed all old button theme hinting - removed old "auto block" to merge buttons in groups (was only in use for radiosity buttons) And went over all warnings. One hooray for make giving clean output :) Well, we need uniform definitions for warnings, so people at least fix them... here's the real bad bugs I found: - in mesh code, a call to editmesh mixed *em and *me - in armature, ED_util.h was not included, so no warnings for wrong call to ED_undo_push() - The extern Py api .h was not included in the bpy_interface.c, showing a several calls using different args. Further just added the missing includes, and removed unused vars.
2009-04-14 15:59:52 +00:00
block= uiBeginBlock(C, handle->region, "menu", UI_EMBOSSP);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
block->flag= UI_BLOCK_LOOP|UI_BLOCK_REDRAW|UI_BLOCK_NUMSELECT;
UI: * Added support for soft/hard range in the buttons code. Currently it works by only allowing to drag or click increment in the soft range, but typing a number value allows to go outside it. If the number is outside the soft range, the range will be extended, rounded to values like: .., 0.1, 0.2, 0.5, 1.0, 2.0, 5.0, 10.0, 20.0, 50.0, ..
2009-03-29 18:44:49 +00:00
for(a=(int)but->hardmin; a<=(int)but->hardmax; a++) {
uiDefIconButF(block, BUTM|FLO, B_NOP, but->icon+(a-but->hardmin), 0, (short)(18*a), (short)(but->x2-but->x1-4), 18, &handle->retvalue, (float)a, 0.0, 0, 0, "");
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
}
block->direction= UI_TOP;
UI: don't use operators anymore for handling user interface events, but rather a special UI handler which makes the code clearer. This UI handler is attached to the region along with other handlers, and also gets a callback when all handlers for the region are removed to ensure things are properly cleaned up. This should fix XXX's in the UI code related to events and context switching. Most of the changes are in interface_handlers.c, which was renamed from interface_ops.c, to convert operators to the UI handler. UI code notes: * uiBeginBlock/uiEndBlock/uiFreeBlocks now takes a context argument, this is required to properly cancel things like timers or tooltips when the region gets removed. * UI_add_region_handlers will add the region level UI handlers, to be used when adding keymap handlers etc. This replaces the UI keymap. * When the UI code starts a modal interaction (number sliding, text editing, opening a menu, ..), it will add an UI handler at the window level which will block events. Windowmanager changes: * Added an UI handler next to the existing keymap and operator modal handlers. It has an event handling and remove callback, and like operator modal handlers will remember the area and region if it is registered at the window level. * Removed the MESSAGE event. * Operator cancel and UI handler remove callbacks now get the window/area/region restored in the context, like the operator modal and UI handler event callbacks. * Regions now receive MOUSEMOVE events for the mouse going outside of the region. This was already happening for areas, but UI buttons are at the region level so we need it there. Issues: * Tooltips and menus stay open when switching to another window, and button highlight doesn't work without moving the mouse first when Blender starts up. I tried using some events like Q_FIRSTTIME, WINTHAW, but those don't seem to arrive.. * Timeline header buttons seem to be moving one pixel or so sometimes when interacting with them. * Seems not due to this commit, but UI and keymap handlers are leaking. It seems that handlers are being added to regions in all screens, also in regions of areas that are not visible, but these handlers are not removed. Probably there should only be handlers in visible regions?
2008-12-10 04:36:33 +00:00
uiEndBlock(C, block);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
return block;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiBlock *ui_block_func_ICONTEXTROW(bContext *C, uiPopupBlockHandle *handle, void *arg_but)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
uiBut *but= arg_but;
uiBlock *block;
MenuData *md;
int width, xmax, ypos, a;
2.5 More cleanup! - removed old UI font completely, including from uiBeginBlock - emboss hints for uiBlock only have three types now; Regular, Pulldown, or "Nothing" (only icon/text) - removed old font path from Userdef - removed all old button theme hinting - removed old "auto block" to merge buttons in groups (was only in use for radiosity buttons) And went over all warnings. One hooray for make giving clean output :) Well, we need uniform definitions for warnings, so people at least fix them... here's the real bad bugs I found: - in mesh code, a call to editmesh mixed *em and *me - in armature, ED_util.h was not included, so no warnings for wrong call to ED_undo_push() - The extern Py api .h was not included in the bpy_interface.c, showing a several calls using different args. Further just added the missing includes, and removed unused vars.
2009-04-14 15:59:52 +00:00
block= uiBeginBlock(C, handle->region, "menu", UI_EMBOSSP);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
block->flag= UI_BLOCK_LOOP|UI_BLOCK_REDRAW|UI_BLOCK_NUMSELECT;
md= decompose_menu_string(but->str);
/* size and location */
/* expand menu width to fit labels */
if(md->title)
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
width= 2*strlen(md->title)+UI_GetStringWidth(md->title);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
else
width= 0;
for(a=0; a<md->nitems; a++) {
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
xmax= UI_GetStringWidth(md->items[a].str);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
if(xmax>width) width= xmax;
}
width+= 30;
if (width<50) width=50;
ypos = 1;
/* loop through the menu options and draw them out with icons & text labels */
for(a=0; a<md->nitems; a++) {
/* add a space if there's a separator (%l) */
if (strcmp(md->items[a].str, "%l")==0) {
ypos +=3;
}
else {
UI: * Added support for soft/hard range in the buttons code. Currently it works by only allowing to drag or click increment in the soft range, but typing a number value allows to go outside it. If the number is outside the soft range, the range will be extended, rounded to values like: .., 0.1, 0.2, 0.5, 1.0, 2.0, 5.0, 10.0, 20.0, 50.0, ..
2009-03-29 18:44:49 +00:00
uiDefIconTextButF(block, BUTM|FLO, B_NOP, (short)((but->icon)+(md->items[a].retval-but->hardmin)), md->items[a].str, 0, ypos,(short)width, 19, &handle->retvalue, (float) md->items[a].retval, 0.0, 0, 0, "");
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
ypos += 20;
}
}
if(md->title) {
uiBut *bt;
2.5 More font style work; - hooked up almost all ui buttons code to new font system, including text clipping - panel headers scale now too to smaller fonts - added further style hints, for shadow/emboss. Is all going to be in UI designer control! - for fun; changed layout engine to spread vertical buttons in window width Next: removal of all usage of old font system, using 'styles'. Will also move font blurring to blenfont module.
2009-04-10 14:06:24 +00:00
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
bt= uiDefBut(block, LABEL, 0, md->title, 0, ypos, (short)width, 19, NULL, 0.0, 0.0, 0, 0, "");
bt->flag= UI_TEXT_LEFT;
}
menudata_free(md);
block->direction= UI_TOP;
uiBoundsBlock(block, 3);
UI: don't use operators anymore for handling user interface events, but rather a special UI handler which makes the code clearer. This UI handler is attached to the region along with other handlers, and also gets a callback when all handlers for the region are removed to ensure things are properly cleaned up. This should fix XXX's in the UI code related to events and context switching. Most of the changes are in interface_handlers.c, which was renamed from interface_ops.c, to convert operators to the UI handler. UI code notes: * uiBeginBlock/uiEndBlock/uiFreeBlocks now takes a context argument, this is required to properly cancel things like timers or tooltips when the region gets removed. * UI_add_region_handlers will add the region level UI handlers, to be used when adding keymap handlers etc. This replaces the UI keymap. * When the UI code starts a modal interaction (number sliding, text editing, opening a menu, ..), it will add an UI handler at the window level which will block events. Windowmanager changes: * Added an UI handler next to the existing keymap and operator modal handlers. It has an event handling and remove callback, and like operator modal handlers will remember the area and region if it is registered at the window level. * Removed the MESSAGE event. * Operator cancel and UI handler remove callbacks now get the window/area/region restored in the context, like the operator modal and UI handler event callbacks. * Regions now receive MOUSEMOVE events for the mouse going outside of the region. This was already happening for areas, but UI buttons are at the region level so we need it there. Issues: * Tooltips and menus stay open when switching to another window, and button highlight doesn't work without moving the mouse first when Blender starts up. I tried using some events like Q_FIRSTTIME, WINTHAW, but those don't seem to arrive.. * Timeline header buttons seem to be moving one pixel or so sometimes when interacting with them. * Seems not due to this commit, but UI and keymap handlers are leaking. It seems that handlers are being added to regions in all screens, also in regions of areas that are not visible, but these handlers are not removed. Probably there should only be handlers in visible regions?
2008-12-10 04:36:33 +00:00
uiEndBlock(C, block);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
return block;
}
static void ui_warp_pointer(short x, short y)
{
/* XXX 2.50 which function to use for this? */
#if 0
/* OSX has very poor mousewarp support, it sends events;
this causes a menu being pressed immediately ... */
#ifndef __APPLE__
warp_pointer(x, y);
#endif
#endif
}
/********************* Color Button ****************/
/* picker sizes S hsize, F full size, D spacer, B button/pallette height */
#define SPICK 110.0
#define FPICK 180.0
#define DPICK 6.0
#define BPICK 24.0
#define UI_PALETTE_TOT 16
/* note; in tot+1 the old color is stored */
static float palette[UI_PALETTE_TOT+1][3]= {
{0.93, 0.83, 0.81}, {0.88, 0.89, 0.73}, {0.69, 0.81, 0.57}, {0.51, 0.76, 0.64},
{0.37, 0.56, 0.61}, {0.33, 0.29, 0.55}, {0.46, 0.21, 0.51}, {0.40, 0.12, 0.18},
{1.0, 1.0, 1.0}, {0.85, 0.85, 0.85}, {0.7, 0.7, 0.7}, {0.56, 0.56, 0.56},
{0.42, 0.42, 0.42}, {0.28, 0.28, 0.28}, {0.14, 0.14, 0.14}, {0.0, 0.0, 0.0}
};
/* for picker, while editing hsv */
void ui_set_but_hsv(uiBut *but)
{
float col[3];
hsv_to_rgb(but->hsv[0], but->hsv[1], but->hsv[2], col, col+1, col+2);
ui_set_but_vectorf(but, col);
}
static void update_picker_hex(uiBlock *block, float *rgb)
{
uiBut *bt;
char col[16];
sprintf(col, "%02X%02X%02X", (unsigned int)(rgb[0]*255.0), (unsigned int)(rgb[1]*255.0), (unsigned int)(rgb[2]*255.0));
// this updates button strings, is hackish... but button pointers are on stack of caller function
for(bt= block->buttons.first; bt; bt= bt->next) {
if(strcmp(bt->str, "Hex: ")==0) {
strcpy(bt->poin, col);
ui_check_but(bt);
break;
}
}
}
void ui_update_block_buts_hsv(uiBlock *block, float *hsv)
{
uiBut *bt;
float r, g, b;
float rgb[3];
// this updates button strings, is hackish... but button pointers are on stack of caller function
hsv_to_rgb(hsv[0], hsv[1], hsv[2], &r, &g, &b);
rgb[0] = r; rgb[1] = g; rgb[2] = b;
update_picker_hex(block, rgb);
for(bt= block->buttons.first; bt; bt= bt->next) {
if(bt->type==HSVCUBE) {
VECCOPY(bt->hsv, hsv);
ui_set_but_hsv(bt);
}
else if(bt->str[1]==' ') {
if(bt->str[0]=='R') {
ui_set_but_val(bt, r);
}
else if(bt->str[0]=='G') {
ui_set_but_val(bt, g);
}
else if(bt->str[0]=='B') {
ui_set_but_val(bt, b);
}
else if(bt->str[0]=='H') {
ui_set_but_val(bt, hsv[0]);
}
else if(bt->str[0]=='S') {
ui_set_but_val(bt, hsv[1]);
}
else if(bt->str[0]=='V') {
ui_set_but_val(bt, hsv[2]);
}
}
}
}
static void ui_update_block_buts_hex(uiBlock *block, char *hexcol)
{
uiBut *bt;
float r=0, g=0, b=0;
float h, s, v;
// this updates button strings, is hackish... but button pointers are on stack of caller function
hex_to_rgb(hexcol, &r, &g, &b);
rgb_to_hsv(r, g, b, &h, &s, &v);
for(bt= block->buttons.first; bt; bt= bt->next) {
if(bt->type==HSVCUBE) {
bt->hsv[0] = h;
bt->hsv[1] = s;
bt->hsv[2] = v;
ui_set_but_hsv(bt);
}
else if(bt->str[1]==' ') {
if(bt->str[0]=='R') {
ui_set_but_val(bt, r);
}
else if(bt->str[0]=='G') {
ui_set_but_val(bt, g);
}
else if(bt->str[0]=='B') {
ui_set_but_val(bt, b);
}
else if(bt->str[0]=='H') {
ui_set_but_val(bt, h);
}
else if(bt->str[0]=='S') {
ui_set_but_val(bt, s);
}
else if(bt->str[0]=='V') {
ui_set_but_val(bt, v);
}
}
}
}
/* bt1 is palette but, col1 is original color */
/* callback to copy from/to palette */
UI: * Added context pointer to function callbacks for buttons and blocks. * Added a uiBlockSetHandleFunc, which will be called with the button return value. This seems kind of redundant with uiBlockSetButmFunc, but the latter uses a2 to pass the value.
2008-12-10 19:22:10 +00:00
static void do_palette_cb(bContext *C, void *bt1, void *col1)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
uiBut *but1= (uiBut *)bt1;
float *col= (float *)col1;
float *fp, hsv[3];
fp= (float *)but1->poin;
/* XXX 2.50 bad access, how to solve?
*
if( (get_qual() & LR_CTRLKEY) ) {
VECCOPY(fp, col);
}
else*/ {
VECCOPY(col, fp);
}
rgb_to_hsv(col[0], col[1], col[2], hsv, hsv+1, hsv+2);
ui_update_block_buts_hsv(but1->block, hsv);
update_picker_hex(but1->block, col);
}
/* bt1 is num but, hsv1 is pointer to original color in hsv space*/
/* callback to handle changes in num-buts in picker */
UI: * Added context pointer to function callbacks for buttons and blocks. * Added a uiBlockSetHandleFunc, which will be called with the button return value. This seems kind of redundant with uiBlockSetButmFunc, but the latter uses a2 to pass the value.
2008-12-10 19:22:10 +00:00
static void do_palette1_cb(bContext *C, void *bt1, void *hsv1)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
uiBut *but1= (uiBut *)bt1;
float *hsv= (float *)hsv1;
float *fp= NULL;
if(but1->str[1]==' ') {
if(but1->str[0]=='R') fp= (float *)but1->poin;
else if(but1->str[0]=='G') fp= ((float *)but1->poin)-1;
else if(but1->str[0]=='B') fp= ((float *)but1->poin)-2;
}
if(fp) {
rgb_to_hsv(fp[0], fp[1], fp[2], hsv, hsv+1, hsv+2);
}
ui_update_block_buts_hsv(but1->block, hsv);
}
/* bt1 is num but, col1 is pointer to original color */
/* callback to handle changes in num-buts in picker */
UI: * Added context pointer to function callbacks for buttons and blocks. * Added a uiBlockSetHandleFunc, which will be called with the button return value. This seems kind of redundant with uiBlockSetButmFunc, but the latter uses a2 to pass the value.
2008-12-10 19:22:10 +00:00
static void do_palette2_cb(bContext *C, void *bt1, void *col1)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
uiBut *but1= (uiBut *)bt1;
float *rgb= (float *)col1;
float *fp= NULL;
if(but1->str[1]==' ') {
if(but1->str[0]=='H') fp= (float *)but1->poin;
else if(but1->str[0]=='S') fp= ((float *)but1->poin)-1;
else if(but1->str[0]=='V') fp= ((float *)but1->poin)-2;
}
if(fp) {
hsv_to_rgb(fp[0], fp[1], fp[2], rgb, rgb+1, rgb+2);
}
ui_update_block_buts_hsv(but1->block, fp);
}
UI: * Added context pointer to function callbacks for buttons and blocks. * Added a uiBlockSetHandleFunc, which will be called with the button return value. This seems kind of redundant with uiBlockSetButmFunc, but the latter uses a2 to pass the value.
2008-12-10 19:22:10 +00:00
static void do_palette_hex_cb(bContext *C, void *bt1, void *hexcl)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
uiBut *but1= (uiBut *)bt1;
char *hexcol= (char *)hexcl;
ui_update_block_buts_hex(but1->block, hexcol);
}
/* used for both 3d view and image window */
UI: * Added context pointer to function callbacks for buttons and blocks. * Added a uiBlockSetHandleFunc, which will be called with the button return value. This seems kind of redundant with uiBlockSetButmFunc, but the latter uses a2 to pass the value.
2008-12-10 19:22:10 +00:00
static void do_palette_sample_cb(bContext *C, void *bt1, void *col1) /* frontbuf */
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
/* XXX 2.50 this should become an operator? */
#if 0
uiBut *but1= (uiBut *)bt1;
uiBut *but;
float tempcol[4];
int x=0, y=0;
short mval[2];
float hsv[3];
short capturing;
int oldcursor;
Window *win;
unsigned short dev;
oldcursor=get_cursor();
win=winlay_get_active_window();
while (get_mbut() & L_MOUSE) UI_wait_for_statechange();
SetBlenderCursor(BC_EYEDROPPER_CURSOR);
/* loop and wait for a mouse click */
capturing = TRUE;
while(capturing) {
char ascii;
short val;
dev = extern_qread_ext(&val, &ascii);
if(dev==INPUTCHANGE) break;
if(get_mbut() & R_MOUSE) break;
else if(get_mbut() & L_MOUSE) {
uiGetMouse(mywinget(), mval);
x= mval[0]; y= mval[1];
capturing = FALSE;
break;
}
else if(dev==ESCKEY) break;
}
window_set_cursor(win, oldcursor);
if(capturing) return;
if(x<0 || y<0) return;
/* if we've got a glick, use OpenGL to sample the color under the mouse pointer */
glReadBuffer(GL_FRONT);
glReadPixels(x, y, 1, 1, GL_RGBA, GL_FLOAT, tempcol);
glReadBuffer(GL_BACK);
/* and send that color back to the picker */
rgb_to_hsv(tempcol[0], tempcol[1], tempcol[2], hsv, hsv+1, hsv+2);
ui_update_block_buts_hsv(but1->block, hsv);
update_picker_hex(but1->block, tempcol);
for (but= but1->block->buttons.first; but; but= but->next) {
ui_check_but(but);
ui_draw_but(but);
}
but= but1->block->buttons.first;
ui_block_flush_back(but->block);
#endif
}
/* color picker, Gimp version. mode: 'f' = floating panel, 'p' = popup */
/* col = read/write to, hsv/old/hexcol = memory for temporal use */
void uiBlockPickerButtons(uiBlock *block, float *col, float *hsv, float *old, char *hexcol, char mode, short retval)
{
uiBut *bt;
float h, offs;
int a;
VECCOPY(old, col); // old color stored there, for palette_cb to work
// the cube intersection
bt= uiDefButF(block, HSVCUBE, retval, "", 0,DPICK+BPICK,FPICK,FPICK, col, 0.0, 0.0, 2, 0, "");
bt= uiDefButF(block, HSVCUBE, retval, "", 0,0,FPICK,BPICK, col, 0.0, 0.0, 3, 0, "");
// palette
uiBlockSetEmboss(block, UI_EMBOSSP);
bt=uiDefButF(block, COL, retval, "", FPICK+DPICK, 0, BPICK,BPICK, old, 0.0, 0.0, -1, 0, "Old color, click to restore");
uiButSetFunc(bt, do_palette_cb, bt, col);
uiDefButF(block, COL, retval, "", FPICK+DPICK, BPICK+DPICK, BPICK,60-BPICK-DPICK, col, 0.0, 0.0, -1, 0, "Active color");
h= (DPICK+BPICK+FPICK-64)/(UI_PALETTE_TOT/2.0);
uiBlockBeginAlign(block);
for(a= -1+UI_PALETTE_TOT/2; a>=0; a--) {
bt= uiDefButF(block, COL, retval, "", FPICK+DPICK, 65.0+(float)a*h, BPICK/2, h, palette[a+UI_PALETTE_TOT/2], 0.0, 0.0, -1, 0, "Click to choose, hold CTRL to store in palette");
uiButSetFunc(bt, do_palette_cb, bt, col);
bt= uiDefButF(block, COL, retval, "", FPICK+DPICK+BPICK/2, 65.0+(float)a*h, BPICK/2, h, palette[a], 0.0, 0.0, -1, 0, "Click to choose, hold CTRL to store in palette");
uiButSetFunc(bt, do_palette_cb, bt, col);
}
uiBlockEndAlign(block);
uiBlockSetEmboss(block, UI_EMBOSS);
// buttons
rgb_to_hsv(col[0], col[1], col[2], hsv, hsv+1, hsv+2);
sprintf(hexcol, "%02X%02X%02X", (unsigned int)(col[0]*255.0), (unsigned int)(col[1]*255.0), (unsigned int)(col[2]*255.0));
offs= FPICK+2*DPICK+BPICK;
/* note; made this a TOG now, with NULL pointer. Is because BUT now gets handled with a afterfunc */
bt= uiDefIconTextBut(block, TOG, UI_RETURN_OK, ICON_EYEDROPPER, "Sample", offs+55, 170, 85, 20, NULL, 0, 0, 0, 0, "Sample the color underneath the following mouse click (ESC or RMB to cancel)");
uiButSetFunc(bt, do_palette_sample_cb, bt, col);
uiButSetFlag(bt, UI_TEXT_LEFT);
bt= uiDefBut(block, TEX, retval, "Hex: ", offs, 140, 140, 20, hexcol, 0, 8, 0, 0, "Hex triplet for color (#RRGGBB)");
uiButSetFunc(bt, do_palette_hex_cb, bt, hexcol);
uiBlockBeginAlign(block);
bt= uiDefButF(block, NUMSLI, retval, "R ", offs, 110, 140,20, col, 0.0, 1.0, 10, 3, "");
uiButSetFunc(bt, do_palette1_cb, bt, hsv);
bt= uiDefButF(block, NUMSLI, retval, "G ", offs, 90, 140,20, col+1, 0.0, 1.0, 10, 3, "");
uiButSetFunc(bt, do_palette1_cb, bt, hsv);
bt= uiDefButF(block, NUMSLI, retval, "B ", offs, 70, 140,20, col+2, 0.0, 1.0, 10, 3, "");
uiButSetFunc(bt, do_palette1_cb, bt, hsv);
uiBlockBeginAlign(block);
bt= uiDefButF(block, NUMSLI, retval, "H ", offs, 40, 140,20, hsv, 0.0, 1.0, 10, 3, "");
uiButSetFunc(bt, do_palette2_cb, bt, col);
bt= uiDefButF(block, NUMSLI, retval, "S ", offs, 20, 140,20, hsv+1, 0.0, 1.0, 10, 3, "");
uiButSetFunc(bt, do_palette2_cb, bt, col);
bt= uiDefButF(block, NUMSLI, retval, "V ", offs, 0, 140,20, hsv+2, 0.0, 1.0, 10, 3, "");
uiButSetFunc(bt, do_palette2_cb, bt, col);
uiBlockEndAlign(block);
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiBlock *ui_block_func_COL(bContext *C, uiPopupBlockHandle *handle, void *arg_but)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
uiBut *but= arg_but;
uiBlock *block;
static float hsvcol[3], oldcol[3];
static char hexcol[128];
2.5 More cleanup! - removed old UI font completely, including from uiBeginBlock - emboss hints for uiBlock only have three types now; Regular, Pulldown, or "Nothing" (only icon/text) - removed old font path from Userdef - removed all old button theme hinting - removed old "auto block" to merge buttons in groups (was only in use for radiosity buttons) And went over all warnings. One hooray for make giving clean output :) Well, we need uniform definitions for warnings, so people at least fix them... here's the real bad bugs I found: - in mesh code, a call to editmesh mixed *em and *me - in armature, ED_util.h was not included, so no warnings for wrong call to ED_undo_push() - The extern Py api .h was not included in the bpy_interface.c, showing a several calls using different args. Further just added the missing includes, and removed unused vars.
2009-04-14 15:59:52 +00:00
block= uiBeginBlock(C, handle->region, "colorpicker", UI_EMBOSS);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
block->flag= UI_BLOCK_LOOP|UI_BLOCK_REDRAW|UI_BLOCK_KEEP_OPEN;
VECCOPY(handle->retvec, but->editvec);
uiBlockPickerButtons(block, handle->retvec, hsvcol, oldcol, hexcol, 'p', 0);
/* and lets go */
block->direction= UI_TOP;
uiBoundsBlock(block, 3);
return block;
}
/* ******************** PUPmenu ****************** */
static int pupmenu_set= 0;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
void uiPupMenuSetActive(int val)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
pupmenu_set= val;
}
/* value== -1 read, otherwise set */
static int pupmenu_memory(char *str, int value)
{
static char mem[256], first=1;
int val=0, nr=0;
if(first) {
memset(mem, 0, 256);
first= 0;
}
while(str[nr]) {
val+= str[nr];
nr++;
}
if(value >= 0) mem[ val & 255 ]= value;
else return mem[ val & 255 ];
return 0;
}
#define PUP_LABELH 6
typedef struct uiPupMenuInfo {
char *instr;
int mx, my;
int startx, starty;
int maxrow;
} uiPupMenuInfo;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiBlock *ui_block_func_PUPMENU(bContext *C, uiPopupBlockHandle *handle, void *arg_info)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
uiBlock *block;
uiPupMenuInfo *info;
int columns, rows, mousemove[2]= {0, 0}, mousewarp= 0;
int width, height, xmax, ymax, maxrow;
int a, startx, starty, endx, endy, x1, y1;
int lastselected;
MenuData *md;
info= arg_info;
maxrow= info->maxrow;
height= 0;
/* block stuff first, need to know the font */
2.5 More cleanup! - removed old UI font completely, including from uiBeginBlock - emboss hints for uiBlock only have three types now; Regular, Pulldown, or "Nothing" (only icon/text) - removed old font path from Userdef - removed all old button theme hinting - removed old "auto block" to merge buttons in groups (was only in use for radiosity buttons) And went over all warnings. One hooray for make giving clean output :) Well, we need uniform definitions for warnings, so people at least fix them... here's the real bad bugs I found: - in mesh code, a call to editmesh mixed *em and *me - in armature, ED_util.h was not included, so no warnings for wrong call to ED_undo_push() - The extern Py api .h was not included in the bpy_interface.c, showing a several calls using different args. Further just added the missing includes, and removed unused vars.
2009-04-14 15:59:52 +00:00
block= uiBeginBlock(C, handle->region, "menu", UI_EMBOSSP);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
uiBlockSetFlag(block, UI_BLOCK_LOOP|UI_BLOCK_REDRAW|UI_BLOCK_RET_1|UI_BLOCK_NUMSELECT);
2.5 Popup menus were tagged with wrong direction, so arrow keys or scrollwheel didn't work.
2009-01-10 14:03:00 +00:00
block->direction= UI_DOWN;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
md= decompose_menu_string(info->instr);
rows= md->nitems;
columns= 1;
/* size and location, title slightly bigger for bold */
if(md->title) {
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
width= 2*strlen(md->title)+UI_GetStringWidth(md->title);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
width /= columns;
}
else width= 0;
for(a=0; a<md->nitems; a++) {
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
xmax= UI_GetStringWidth(md->items[a].str);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
if(xmax>width) width= xmax;
if(strcmp(md->items[a].str, "%l")==0) height+= PUP_LABELH;
else height+= MENU_BUTTON_HEIGHT;
}
width+= 10;
if (width<50) width=50;
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
wm_window_get_size(CTX_wm_window(C), &xmax, &ymax);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
/* set first item */
lastselected= 0;
if(pupmenu_set) {
lastselected= pupmenu_set-1;
pupmenu_set= 0;
}
else if(md->nitems>1) {
lastselected= pupmenu_memory(info->instr, -1);
}
startx= info->mx-(0.8*(width));
starty= info->my-height+MENU_BUTTON_HEIGHT/2;
if(lastselected>=0 && lastselected<md->nitems) {
for(a=0; a<md->nitems; a++) {
if(a==lastselected) break;
if( strcmp(md->items[a].str, "%l")==0) starty+= PUP_LABELH;
else starty+=MENU_BUTTON_HEIGHT;
}
//starty= info->my-height+MENU_BUTTON_HEIGHT/2+lastselected*MENU_BUTTON_HEIGHT;
}
if(startx<10) {
startx= 10;
}
if(starty<10) {
mousemove[1]= 10-starty;
starty= 10;
}
endx= startx+width*columns;
endy= starty+height;
if(endx>xmax) {
endx= xmax-10;
startx= endx-width*columns;
}
if(endy>ymax-20) {
mousemove[1]= ymax-endy-20;
endy= ymax-20;
starty= endy-height;
}
if(mousemove[0] || mousemove[1]) {
ui_warp_pointer(info->mx+mousemove[0], info->my+mousemove[1]);
mousemove[0]= info->mx;
mousemove[1]= info->my;
mousewarp= 1;
}
/* here we go! */
if(md->title) {
uiBut *bt;
char titlestr[256];
if(md->titleicon) {
width+= 20;
sprintf(titlestr, " %s", md->title);
uiDefIconTextBut(block, LABEL, 0, md->titleicon, titlestr, startx, (short)(starty+height), width, MENU_BUTTON_HEIGHT, NULL, 0.0, 0.0, 0, 0, "");
}
else {
bt= uiDefBut(block, LABEL, 0, md->title, startx, (short)(starty+height), columns*width, MENU_BUTTON_HEIGHT, NULL, 0.0, 0.0, 0, 0, "");
bt->flag= UI_TEXT_LEFT;
}
Some tweaks to menu drawing
2009-01-04 00:05:40 +00:00
//uiDefBut(block, SEPR, 0, "", startx, (short)(starty+height)-MENU_SEPR_HEIGHT, width, MENU_SEPR_HEIGHT, NULL, 0.0, 0.0, 0, 0, "");
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
}
x1= startx + width*((int)a/rows);
Some tweaks to menu drawing
2009-01-04 00:05:40 +00:00
y1= starty + height - MENU_BUTTON_HEIGHT; // - MENU_SEPR_HEIGHT;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
for(a=0; a<md->nitems; a++) {
char *name= md->items[a].str;
int icon = md->items[a].icon;
if(strcmp(name, "%l")==0) {
uiDefBut(block, SEPR, B_NOP, "", x1, y1, width, PUP_LABELH, NULL, 0, 0.0, 0, 0, "");
y1 -= PUP_LABELH;
}
else if (icon) {
uiDefIconButF(block, BUTM, B_NOP, icon, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, &handle->retvalue, (float) md->items[a].retval, 0.0, 0, 0, "");
y1 -= MENU_BUTTON_HEIGHT;
}
else {
uiDefButF(block, BUTM, B_NOP, name, x1, y1, width, MENU_BUTTON_HEIGHT-1, &handle->retvalue, (float) md->items[a].retval, 0.0, 0, 0, "");
y1 -= MENU_BUTTON_HEIGHT;
}
}
uiBoundsBlock(block, 1);
UI: don't use operators anymore for handling user interface events, but rather a special UI handler which makes the code clearer. This UI handler is attached to the region along with other handlers, and also gets a callback when all handlers for the region are removed to ensure things are properly cleaned up. This should fix XXX's in the UI code related to events and context switching. Most of the changes are in interface_handlers.c, which was renamed from interface_ops.c, to convert operators to the UI handler. UI code notes: * uiBeginBlock/uiEndBlock/uiFreeBlocks now takes a context argument, this is required to properly cancel things like timers or tooltips when the region gets removed. * UI_add_region_handlers will add the region level UI handlers, to be used when adding keymap handlers etc. This replaces the UI keymap. * When the UI code starts a modal interaction (number sliding, text editing, opening a menu, ..), it will add an UI handler at the window level which will block events. Windowmanager changes: * Added an UI handler next to the existing keymap and operator modal handlers. It has an event handling and remove callback, and like operator modal handlers will remember the area and region if it is registered at the window level. * Removed the MESSAGE event. * Operator cancel and UI handler remove callbacks now get the window/area/region restored in the context, like the operator modal and UI handler event callbacks. * Regions now receive MOUSEMOVE events for the mouse going outside of the region. This was already happening for areas, but UI buttons are at the region level so we need it there. Issues: * Tooltips and menus stay open when switching to another window, and button highlight doesn't work without moving the mouse first when Blender starts up. I tried using some events like Q_FIRSTTIME, WINTHAW, but those don't seem to arrive.. * Timeline header buttons seem to be moving one pixel or so sometimes when interacting with them. * Seems not due to this commit, but UI and keymap handlers are leaking. It seems that handlers are being added to regions in all screens, also in regions of areas that are not visible, but these handlers are not removed. Probably there should only be handlers in visible regions?
2008-12-10 04:36:33 +00:00
uiEndBlock(C, block);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
menudata_free(md);
/* XXX 2.5 need to store last selected */
#if 0
/* calculate last selected */
if(event & ui_return_ok) {
lastselected= 0;
for(a=0; a<md->nitems; a++) {
if(val==md->items[a].retval) lastselected= a;
}
pupmenu_memory(info->instr, lastselected);
}
#endif
/* XXX 2.5 need to warp back */
#if 0
if(mousemove[1] && (event & ui_return_out)==0)
ui_warp_pointer(mousemove[0], mousemove[1]);
return val;
#endif
return block;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiBlock *ui_block_func_PUPMENUCOL(bContext *C, uiPopupBlockHandle *handle, void *arg_info)
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
{
uiBlock *block;
uiPupMenuInfo *info;
int columns, rows, mousemove[2]= {0, 0}, mousewarp;
int width, height, xmax, ymax, maxrow;
int a, startx, starty, endx, endy, x1, y1;
float fvalue;
MenuData *md;
info= arg_info;
maxrow= info->maxrow;
height= 0;
/* block stuff first, need to know the font */
2.5 More cleanup! - removed old UI font completely, including from uiBeginBlock - emboss hints for uiBlock only have three types now; Regular, Pulldown, or "Nothing" (only icon/text) - removed old font path from Userdef - removed all old button theme hinting - removed old "auto block" to merge buttons in groups (was only in use for radiosity buttons) And went over all warnings. One hooray for make giving clean output :) Well, we need uniform definitions for warnings, so people at least fix them... here's the real bad bugs I found: - in mesh code, a call to editmesh mixed *em and *me - in armature, ED_util.h was not included, so no warnings for wrong call to ED_undo_push() - The extern Py api .h was not included in the bpy_interface.c, showing a several calls using different args. Further just added the missing includes, and removed unused vars.
2009-04-14 15:59:52 +00:00
block= uiBeginBlock(C, handle->region, "menu", UI_EMBOSSP);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
uiBlockSetFlag(block, UI_BLOCK_LOOP|UI_BLOCK_REDRAW|UI_BLOCK_RET_1|UI_BLOCK_NUMSELECT);
2.5 Popup menus were tagged with wrong direction, so arrow keys or scrollwheel didn't work.
2009-01-10 14:03:00 +00:00
block->direction= UI_DOWN;
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
md= decompose_menu_string(info->instr);
/* columns and row calculation */
columns= (md->nitems+maxrow)/maxrow;
if (columns<1) columns= 1;
if(columns > 8) {
maxrow += 5;
columns= (md->nitems+maxrow)/maxrow;
}
rows= (int) md->nitems/columns;
if (rows<1) rows= 1;
while (rows*columns<(md->nitems+columns) ) rows++;
/* size and location, title slightly bigger for bold */
if(md->title) {
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
width= 2*strlen(md->title)+UI_GetStringWidth(md->title);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
width /= columns;
}
else width= 0;
for(a=0; a<md->nitems; a++) {
2.5 Grand cleanup: - removal of FTF and ftfont dir - removal of text.c which wrapped it - wrapped old text drawing code temporarily, need to decide how 'style' will behave per editor when you draw strings outside interface code.... wouldn't be very useful to set fonts locally all over?
2009-04-10 16:30:28 +00:00
xmax= UI_GetStringWidth(md->items[a].str);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
if(xmax>width) width= xmax;
}
width+= 10;
if (width<50) width=50;
height= rows*MENU_BUTTON_HEIGHT;
if (md->title) height+= MENU_BUTTON_HEIGHT;
2.5 Context API This adds the context API as described here. The main practical change now is that C is not longer directly accessible but has to be accessed through accessor functions. This basically adds the implementation of the API and adaption of existing code with some minor changes. The next task of course is to actually use this design to cleanup of bad level calls and global access, in blenkernel, blenloader. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Context Error, Warning and Debug Info Reporting This adds the error reporting API as described here. It should help clean up error() calls in non-ui code, but eventually can become used for gathering messages for a console window, and throwing exceptions in python scripts when an error happens executing something. http://wiki.blender.org/index.php/BlenderDev/Blender2.5/Reports
2008-12-18 02:56:48 +00:00
wm_window_get_size(CTX_wm_window(C), &xmax, &ymax);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
/* find active item */
fvalue= handle->retvalue;
for(a=0; a<md->nitems; a++) {
if( md->items[a].retval== (int)fvalue ) break;
}
/* no active item? */
if(a==md->nitems) {
if(md->title) a= -1;
else a= 0;
}
if(a>0)
startx = info->mx-width/2 - ((int)(a)/rows)*width;
else
startx= info->mx-width/2;
starty = info->my-height + MENU_BUTTON_HEIGHT/2 + ((a)%rows)*MENU_BUTTON_HEIGHT;
if (md->title) starty+= MENU_BUTTON_HEIGHT;
if(startx<10) {
mousemove[0]= 10-startx;
startx= 10;
}
if(starty<10) {
mousemove[1]= 10-starty;
starty= 10;
}
endx= startx+width*columns;
endy= starty+height;
if(endx>xmax) {
mousemove[0]= xmax-endx-10;
endx= xmax-10;
startx= endx-width*columns;
}
if(endy>ymax) {
mousemove[1]= ymax-endy-10;
endy= ymax-10;
starty= endy-height;
}
if(mousemove[0] || mousemove[1]) {
ui_warp_pointer(info->mx+mousemove[0], info->my+mousemove[1]);
mousemove[0]= info->mx;
mousemove[1]= info->my;
mousewarp= 1;
}
/* here we go! */
if(md->title) {
uiBut *bt;
if(md->titleicon) {
}
else {
bt= uiDefBut(block, LABEL, 0, md->title, startx, (short)(starty+rows*MENU_BUTTON_HEIGHT), columns*width, MENU_BUTTON_HEIGHT, NULL, 0.0, 0.0, 0, 0, "");
bt->flag= UI_TEXT_LEFT;
}
}
for(a=0; a<md->nitems; a++) {
char *name= md->items[a].str;
int icon = md->items[a].icon;
x1= startx + width*((int)a/rows);
y1= starty - MENU_BUTTON_HEIGHT*(a%rows) + (rows-1)*MENU_BUTTON_HEIGHT;
if(strcmp(name, "%l")==0) {
uiDefBut(block, SEPR, B_NOP, "", x1, y1, width, PUP_LABELH, NULL, 0, 0.0, 0, 0, "");
y1 -= PUP_LABELH;
}
else if (icon) {
uiDefIconButF(block, BUTM, B_NOP, icon, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, &handle->retvalue, (float) md->items[a].retval, 0.0, 0, 0, "");
y1 -= MENU_BUTTON_HEIGHT;
}
else {
uiDefButF(block, BUTM, B_NOP, name, x1, y1, width, MENU_BUTTON_HEIGHT-1, &handle->retvalue, (float) md->items[a].retval, 0.0, 0, 0, "");
y1 -= MENU_BUTTON_HEIGHT;
}
}
uiBoundsBlock(block, 1);
UI: don't use operators anymore for handling user interface events, but rather a special UI handler which makes the code clearer. This UI handler is attached to the region along with other handlers, and also gets a callback when all handlers for the region are removed to ensure things are properly cleaned up. This should fix XXX's in the UI code related to events and context switching. Most of the changes are in interface_handlers.c, which was renamed from interface_ops.c, to convert operators to the UI handler. UI code notes: * uiBeginBlock/uiEndBlock/uiFreeBlocks now takes a context argument, this is required to properly cancel things like timers or tooltips when the region gets removed. * UI_add_region_handlers will add the region level UI handlers, to be used when adding keymap handlers etc. This replaces the UI keymap. * When the UI code starts a modal interaction (number sliding, text editing, opening a menu, ..), it will add an UI handler at the window level which will block events. Windowmanager changes: * Added an UI handler next to the existing keymap and operator modal handlers. It has an event handling and remove callback, and like operator modal handlers will remember the area and region if it is registered at the window level. * Removed the MESSAGE event. * Operator cancel and UI handler remove callbacks now get the window/area/region restored in the context, like the operator modal and UI handler event callbacks. * Regions now receive MOUSEMOVE events for the mouse going outside of the region. This was already happening for areas, but UI buttons are at the region level so we need it there. Issues: * Tooltips and menus stay open when switching to another window, and button highlight doesn't work without moving the mouse first when Blender starts up. I tried using some events like Q_FIRSTTIME, WINTHAW, but those don't seem to arrive.. * Timeline header buttons seem to be moving one pixel or so sometimes when interacting with them. * Seems not due to this commit, but UI and keymap handlers are leaking. It seems that handlers are being added to regions in all screens, also in regions of areas that are not visible, but these handlers are not removed. Probably there should only be handlers in visible regions?
2008-12-10 04:36:33 +00:00
uiEndBlock(C, block);
Port of part of the Interface code to 2.50. This is based on the current trunk version, so these files should not need merges. There's two things (clipboard and intptr_t) that are missing in 2.50 and commented out with XXX 2.48, these can be enabled again once trunk is merged into this branch. Further this is not all interface code, there are many parts commented out: * interface.c: nearly all button types, missing: links, chartab, keyevent. * interface_draw.c: almost all code, with some small exceptions. * interface_ops.c: this replaces ui_do_but and uiDoBlocks with two operators, making it non-blocking. * interface_regions: this is a part of interface.c, split off, contains code to create regions for tooltips, menus, pupmenu (that one is crashing currently), color chooser, basically regions with buttons which is fairly independent of core interface code. * interface_panel.c and interface_icons.c: not ported over, so no panels and icons yet. Panels should probably become (free floating) regions? * text.c: (formerly language.c) for drawing text and translation. this works but is using bad globals still and could be cleaned up. Header Files: * ED_datafiles.h now has declarations for datatoc_ files, so those extern declarations can be #included instead of repeated. * The user interface code is in UI_interface.h and other UI_* files. Core: * The API for creating blocks, buttons, etc is nearly the same still. Blocks are now created per region instead of per area. * The code was made non-blocking, which means that any changes and redraws should be possible while editing a button. That means though that we need some sort of persistence even though the blender model is to recreate buttons for each redraw. So when a new block is created, some matching happens to find out which buttons correspond to buttons in the previously created block, and for activated buttons some data is then copied over to the new button. * Added UI_init/UI_init_userdef/UI_exit functions that should initialize code in this module, instead of multiple function calls in the windowmanager. * Removed most static/globals from interface.c. * Removed UIafterfunc_ I don't think it's needed anymore, and not sure how it would integrate here? * Currently only full window redraws are used, this should become per region and maybe per button later. Operators: * Events are currently handled through two operators: button activate and menu handle. Operators may not be the best way to implement this, since there are currently some issues with events being missed, but they can become a special handler type instead, this should not be a big change. * The button activate operator runs as long as a button is active, and will handle all interaction with that button until the button is not activated anymore. This means clicking, text editing, number dragging, opening menu blocks, etc. * Since this operator has to be non-blocking, the ui_do_but code needed to made non-blocking. That means variables that were previously on the stack, now need to be stored away in a struct such that they can be accessed again when the operator receives more events. * Additionally the place in the ui_do_but code indicated the state, now that needs to be set explicit in order to handle the right events in the right state. So an activated button can be in one of these states: init, highlight, wait_flash, wait_release, wait_key_event, num_editing, text_editing, text_selecting, block_open, exit. * For each button type an ui_apply_but_* function has also been separated out from ui_do_but. This makes it possible to continuously apply the button as text is being typed for example, and there is an option in the code to enable this. Since the code non-blocking and can deal with the button being deleted even, it should be safe to do this. * When editing text, dragging numbers, etc, the actual data (but->poin) is not being edited, since that would mean data is being edited without correct updates happening, while some other part of blender may be accessing that data in the meantime. So data values, strings, vectors are written to a temporary location and only flush in the apply function. Regions: * Menus, color chooser, tooltips etc all create screen level regions. Such menu blocks give a handle to the button that creates it, which will contain the results of the menu block once a MESSAGE event is received from that menu block. * For this type of menu block the coordinates used to be in window space. They are still created that way and ui_positionblock still works with window coordinates, but after that the block and buttons are brought back to region coordinates since these are now contained in a region. * The flush/overdraw frontbuffer drawing code was removed, the windowmanager should have enough information with these screen level regions to have full control over what gets drawn when and to then do correct compositing. Testing: * The header in the time space currently has some buttons to test the UI code.
2008-11-11 18:31:32 +00:00
menudata_free(md);
/* XXX 2.5 need to warp back */
#if 0
if((event & UI_RETURN_OUT)==0)
ui_warp_pointer(mousemove[0], mousemove[1]);
#endif
return block;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
/************************** Menu Definitions ***************************/
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
/* prototype */
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
static uiBlock *ui_block_func_MENU_ITEM(bContext *C, uiPopupBlockHandle *handle, void *arg_info);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
#define MAX_MENU_STR 64
/* type, internal */
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
#define MENU_ITEM_TITLE 0
#define MENU_ITEM_ITEM 1
2.5: Text edit mode operators back. Took me a while getting them nicely repeatable, and splitting up the big edit_text operator into individual operator so it's all nicely scriptable, documented, configurable, etc.. * Insert Text, Line Break, Insert Lorem * Toggle Case, Set Case, Toggle Style, Set Style, Set Material * Copy Text, Cut Text, Paste Text, Paste File, Paste Buffer * Move, Move Select, Delete * Change Spacing, Change Character Notes * Text (datablock) to Object doesn't work yet, will need to implement text editor context for that. * Some shortcut keys don't work because screen/wm overrides them, ctrl+x, ctrl+left/right. That override goes top down which works well for some cases, but here we need to override in the other direction. * There's no unicode support in RNA, or the user interface code for that matter, but text strings can contain these characters. At the moment it stores a UTF-8 string in char arrays, which is supposed to be nicely compatible with ascii. Seems reasonable to add support for UTF-8 in the interface code, python bindings, .. eventually?
2009-02-17 19:55:20 +00:00
#define MENU_ITEM_SEPARATOR 2
#define MENU_ITEM_OPNAME 10
#define MENU_ITEM_OPNAME_BOOL 11
#define MENU_ITEM_OPNAME_ENUM 12
#define MENU_ITEM_OPNAME_INT 13
#define MENU_ITEM_OPNAME_FLOAT 14
#define MENU_ITEM_OPNAME_STRING 15
#define MENU_ITEM_RNA_BOOL 20
#define MENU_ITEM_RNA_ENUM 21
#define MENU_ITEM_LEVEL 30
#define MENU_ITEM_LEVEL_OPNAME_ENUM 31
#define MENU_ITEM_LEVEL_RNA_ENUM 32
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
struct uiMenuItem {
struct uiMenuItem *next, *prev;
int type;
int icon;
char name[MAX_MENU_STR];
char *opname; /* static string */
char *propname; /* static string */
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
int retval, enumval, boolval, intval;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
float fltval;
2.5: Text edit mode operators back. Took me a while getting them nicely repeatable, and splitting up the big edit_text operator into individual operator so it's all nicely scriptable, documented, configurable, etc.. * Insert Text, Line Break, Insert Lorem * Toggle Case, Set Case, Toggle Style, Set Style, Set Material * Copy Text, Cut Text, Paste Text, Paste File, Paste Buffer * Move, Move Select, Delete * Change Spacing, Change Character Notes * Text (datablock) to Object doesn't work yet, will need to implement text editor context for that. * Some shortcut keys don't work because screen/wm overrides them, ctrl+x, ctrl+left/right. That override goes top down which works well for some cases, but here we need to override in the other direction. * There's no unicode support in RNA, or the user interface code for that matter, but text strings can contain these characters. At the moment it stores a UTF-8 string in char arrays, which is supposed to be nicely compatible with ascii. Seems reasonable to add support for UTF-8 in the interface code, python bindings, .. eventually?
2009-02-17 19:55:20 +00:00
char *strval;
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
int opcontext;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiMenuHandleFunc eventfunc;
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
void *argv;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiMenuCreateFunc newlevel;
PointerRNA rnapoin;
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
ListBase items;
};
typedef struct uiMenuInfo {
uiMenuItem *head;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
int mx, my, popup, slideout;
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
int startx, starty;
} uiMenuInfo;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
/************************ Menu Definitions to uiBlocks ***********************/
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
const char *ui_menu_enumpropname(char *opname, const char *propname, int retval)
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
{
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
wmOperatorType *ot= WM_operatortype_find(opname);
PointerRNA ptr;
PropertyRNA *prop;
if(!ot || !ot->srna)
return "";
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
RNA_pointer_create(NULL, ot->srna, NULL, &ptr);
prop= RNA_struct_find_property(&ptr, propname);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
if(prop) {
const EnumPropertyItem *item;
int totitem, i;
RNA_property_enum_items(&ptr, prop, &item, &totitem);
for (i=0; i<totitem; i++) {
if(item[i].value==retval)
return item[i].name;
}
}
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
return "";
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
}
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
typedef struct MenuItemLevel {
int opcontext;
char *opname;
char *propname;
PointerRNA rnapoin;
} MenuItemLevel;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
/* make a menu level from enum properties */
static void menu_item_enum_opname_menu(bContext *C, uiMenuItem *head, void *arg)
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
{
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
MenuItemLevel *lvl= (MenuItemLevel*)(((uiBut*)arg)->func_argN);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
head->opcontext= lvl->opcontext;
uiMenuItemsEnumO(head, lvl->opname, lvl->propname);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
static void menu_item_enum_rna_menu(bContext *C, uiMenuItem *head, void *arg)
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
{
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
MenuItemLevel *lvl= (MenuItemLevel*)(((uiBut*)arg)->func_argN);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
head->opcontext= lvl->opcontext;
uiMenuItemsEnumR(head, &lvl->rnapoin, lvl->propname);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
static uiBlock *ui_block_func_MENU_ITEM(bContext *C, uiPopupBlockHandle *handle, void *arg_info)
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
{
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiBlock *block;
uiBut *but;
uiMenuInfo *info= arg_info;
uiMenuItem *head, *item;
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
MenuItemLevel *lvl;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
ScrArea *sa;
ARegion *ar;
static int counter= 0;
int width, height, icon;
int startx, starty, x1, y1;
char str[16];
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
head= info->head;
height= 0;
/* block stuff first, need to know the font */
sprintf(str, "tb %d", counter++);
2.5 More cleanup! - removed old UI font completely, including from uiBeginBlock - emboss hints for uiBlock only have three types now; Regular, Pulldown, or "Nothing" (only icon/text) - removed old font path from Userdef - removed all old button theme hinting - removed old "auto block" to merge buttons in groups (was only in use for radiosity buttons) And went over all warnings. One hooray for make giving clean output :) Well, we need uniform definitions for warnings, so people at least fix them... here's the real bad bugs I found: - in mesh code, a call to editmesh mixed *em and *me - in armature, ED_util.h was not included, so no warnings for wrong call to ED_undo_push() - The extern Py api .h was not included in the bpy_interface.c, showing a several calls using different args. Further just added the missing includes, and removed unused vars.
2009-04-14 15:59:52 +00:00
block= uiBeginBlock(C, handle->region, str, UI_EMBOSSP);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiBlockSetButmFunc(block, head->eventfunc, head->argv);
block->direction= UI_DOWN;
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
width= 50; // fixed with, uiMenuPopupBoundsBlock will compute actual width
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
for(item= head->items.first; item; item= item->next) {
if(0) height+= PUP_LABELH; // XXX sepr line
else height+= MENU_BUTTON_HEIGHT;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
startx= 0;
starty= 0;
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
/* here we go! */
if(head->name[0]) {
char titlestr[256];
if(head->icon) {
width+= 20;
sprintf(titlestr, " %s", head->name);
uiDefIconTextBut(block, LABEL, 0, head->icon, titlestr, startx, (short)(starty+height), width, MENU_BUTTON_HEIGHT, NULL, 0.0, 0.0, 0, 0, "");
}
else {
but= uiDefBut(block, LABEL, 0, head->name, startx, (short)(starty+height), width, MENU_BUTTON_HEIGHT, NULL, 0.0, 0.0, 0, 0, "");
but->flag= UI_TEXT_LEFT;
}
//uiDefBut(block, SEPR, 0, "", startx, (short)(starty+height)-MENU_SEPR_HEIGHT, width, MENU_SEPR_HEIGHT, NULL, 0.0, 0.0, 0, 0, "");
}
x1= startx;
y1= starty + height - MENU_BUTTON_HEIGHT; // - MENU_SEPR_HEIGHT;
for(item= head->items.first; item; item= item->next) {
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
if(item->type==MENU_ITEM_LEVEL) {
uiDefIconTextMenuBut(block, item->newlevel, NULL, ICON_RIGHTARROW_THIN, item->name, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, NULL);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
y1 -= MENU_BUTTON_HEIGHT;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
else if(item->type==MENU_ITEM_LEVEL_OPNAME_ENUM) {
but= uiDefIconTextMenuBut(block, menu_item_enum_opname_menu, NULL, ICON_RIGHTARROW_THIN, item->name, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, NULL);
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
/* XXX warning, abuse of func_arg! */
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
lvl= MEM_callocN(sizeof(MenuItemLevel), "MenuItemLevel");
lvl->opname= item->opname;
lvl->propname= item->propname;
lvl->opcontext= item->opcontext;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
but->poin= (char*)but;
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
but->func_argN= lvl;
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
y1 -= MENU_BUTTON_HEIGHT;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
else if(item->type==MENU_ITEM_LEVEL_RNA_ENUM) {
but= uiDefIconTextMenuBut(block, menu_item_enum_rna_menu, NULL, ICON_RIGHTARROW_THIN, item->name, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, NULL);
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
/* XXX warning, abuse of func_arg! */
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
lvl= MEM_callocN(sizeof(MenuItemLevel), "MenuItemLevel");
lvl->rnapoin= item->rnapoin;
lvl->propname= item->propname;
lvl->opcontext= item->opcontext;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
but->poin= (char*)but;
2.5: Curve edit mode add vertex and add menus now work. Also fixed an issue where sublevel menus did not get right operator context.
2009-02-13 17:37:01 +00:00
but->func_argN= lvl;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
y1 -= MENU_BUTTON_HEIGHT;
}
else if(item->type==MENU_ITEM_OPNAME_BOOL) {
2.5 - removed undefined operators from view3d menu, the error prints ("undefined operator") is currently a real error; later on when operators are more dynamically defined it can be feature. - made uiMenuContext() work locally, only on the items as defined after this call.
2009-02-03 10:41:48 +00:00
but= uiDefIconTextButO(block, BUTM, item->opname, item->opcontext, item->icon, item->name, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, "");
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
RNA_boolean_set(uiButGetOperatorPtrRNA(but), item->propname, item->boolval);
y1 -= MENU_BUTTON_HEIGHT;
}
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
else if(item->type==MENU_ITEM_OPNAME_ENUM) {
const char *name;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
char bname[64];
Names from uiMenuItemEnumO were not being used. Changed some of the sequencer menus to use uiMenuItem's
2009-02-11 02:09:41 +00:00
/* If no name is given, use the enum name */
if (item->name[0] == '\0')
name= ui_menu_enumpropname(item->opname, item->propname, item->enumval);
else
name= item->name;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
BLI_strncpy(bname, name, sizeof(bname));
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
2.5 - removed undefined operators from view3d menu, the error prints ("undefined operator") is currently a real error; later on when operators are more dynamically defined it can be feature. - made uiMenuContext() work locally, only on the items as defined after this call.
2009-02-03 10:41:48 +00:00
but= uiDefIconTextButO(block, BUTM, item->opname, item->opcontext, item->icon, bname, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, "");
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
RNA_enum_set(uiButGetOperatorPtrRNA(but), item->propname, item->enumval);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
y1 -= MENU_BUTTON_HEIGHT;
}
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
else if(item->type==MENU_ITEM_OPNAME_INT) {
but= uiDefIconTextButO(block, BUTM, item->opname, head->opcontext, item->icon, item->name, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, "");
RNA_int_set(uiButGetOperatorPtrRNA(but), item->propname, item->intval);
y1 -= MENU_BUTTON_HEIGHT;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
else if(item->type==MENU_ITEM_OPNAME_FLOAT) {
2.5 - removed undefined operators from view3d menu, the error prints ("undefined operator") is currently a real error; later on when operators are more dynamically defined it can be feature. - made uiMenuContext() work locally, only on the items as defined after this call.
2009-02-03 10:41:48 +00:00
but= uiDefIconTextButO(block, BUTM, item->opname, item->opcontext, item->icon, item->name, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, "");
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
RNA_float_set(uiButGetOperatorPtrRNA(but), item->propname, item->fltval);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
y1 -= MENU_BUTTON_HEIGHT;
}
2.5: Text edit mode operators back. Took me a while getting them nicely repeatable, and splitting up the big edit_text operator into individual operator so it's all nicely scriptable, documented, configurable, etc.. * Insert Text, Line Break, Insert Lorem * Toggle Case, Set Case, Toggle Style, Set Style, Set Material * Copy Text, Cut Text, Paste Text, Paste File, Paste Buffer * Move, Move Select, Delete * Change Spacing, Change Character Notes * Text (datablock) to Object doesn't work yet, will need to implement text editor context for that. * Some shortcut keys don't work because screen/wm overrides them, ctrl+x, ctrl+left/right. That override goes top down which works well for some cases, but here we need to override in the other direction. * There's no unicode support in RNA, or the user interface code for that matter, but text strings can contain these characters. At the moment it stores a UTF-8 string in char arrays, which is supposed to be nicely compatible with ascii. Seems reasonable to add support for UTF-8 in the interface code, python bindings, .. eventually?
2009-02-17 19:55:20 +00:00
else if(item->type==MENU_ITEM_OPNAME_STRING) {
but= uiDefIconTextButO(block, BUTM, item->opname, item->opcontext, item->icon, item->name, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, "");
RNA_string_set(uiButGetOperatorPtrRNA(but), item->propname, item->strval);
y1 -= MENU_BUTTON_HEIGHT;
}
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
else if(item->type==MENU_ITEM_OPNAME) {
2.5 - removed undefined operators from view3d menu, the error prints ("undefined operator") is currently a real error; later on when operators are more dynamically defined it can be feature. - made uiMenuContext() work locally, only on the items as defined after this call.
2009-02-03 10:41:48 +00:00
uiDefIconTextButO(block, BUTM, item->opname, item->opcontext, item->icon, NULL, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, NULL);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
y1 -= MENU_BUTTON_HEIGHT;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
else if(item->type==MENU_ITEM_RNA_BOOL) {
PropertyRNA *prop= RNA_struct_find_property(&item->rnapoin, item->propname);
RNA: Generic Type Registration The Python API to define Panels and Operators is based on subclassing, this makes that system more generic, and based on RNA. Hopefully that will make it easy to make various parts of Blender more extensible. * The system simply uses RNA properties and functions and marks them with REGISTER to make them part of the type registration process. Additionally, the struct must provide a register/unregister callback to create/free the PanelType or similar. * From the python side there were some small changes, mainly that registration now goes trough bpy.types.register instead of bpy.ui.addPanel. * Only Panels have been wrapped this way now. Check rna_ui.c to see how this code works. There's still some rough edges and possibilities to make it cleaner, though it works without any manual python code. * Started some docs here: http://wiki.blender.org/index.php/BlenderDev/Blender2.5/RNATypeRegistration * Also changed some RNA_property and RNA_struct functions to not require a PointerRNA anymore, where they were not required (which is actually the cause of most changed files).
2009-04-19 13:37:59 +00:00
if(prop && RNA_property_type(prop) == PROP_BOOLEAN) {
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
icon= (RNA_property_boolean_get(&item->rnapoin, prop))? ICON_CHECKBOX_HLT: ICON_CHECKBOX_DEHLT;
uiDefIconTextButR(block, TOG, 0, icon, NULL, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, &item->rnapoin, item->propname, 0, 0, 0, 0, 0, NULL);
}
else {
uiBlockSetButLock(block, 1, "");
uiDefIconTextBut(block, BUT, 0, ICON_BLANK1, item->propname, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, NULL, 0.0, 0.0, 0, 0, "");
uiBlockClearButLock(block);
}
y1 -= MENU_BUTTON_HEIGHT;
}
else if(item->type==MENU_ITEM_RNA_ENUM) {
PropertyRNA *prop= RNA_struct_find_property(&item->rnapoin, item->propname);
RNA: Generic Type Registration The Python API to define Panels and Operators is based on subclassing, this makes that system more generic, and based on RNA. Hopefully that will make it easy to make various parts of Blender more extensible. * The system simply uses RNA properties and functions and marks them with REGISTER to make them part of the type registration process. Additionally, the struct must provide a register/unregister callback to create/free the PanelType or similar. * From the python side there were some small changes, mainly that registration now goes trough bpy.types.register instead of bpy.ui.addPanel. * Only Panels have been wrapped this way now. Check rna_ui.c to see how this code works. There's still some rough edges and possibilities to make it cleaner, though it works without any manual python code. * Started some docs here: http://wiki.blender.org/index.php/BlenderDev/Blender2.5/RNATypeRegistration * Also changed some RNA_property and RNA_struct functions to not require a PointerRNA anymore, where they were not required (which is actually the cause of most changed files).
2009-04-19 13:37:59 +00:00
if(prop && RNA_property_type(prop) == PROP_ENUM) {
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
icon= (RNA_property_enum_get(&item->rnapoin, prop) == item->enumval)? ICON_CHECKBOX_HLT: ICON_CHECKBOX_DEHLT;
uiDefIconTextButR(block, ROW, 0, icon, NULL, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, &item->rnapoin, item->propname, 0, 0, item->enumval, 0, 0, NULL);
}
else {
uiBlockSetButLock(block, 1, "");
uiDefIconTextBut(block, BUT, 0, ICON_BLANK1, item->propname, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, NULL, 0.0, 0.0, 0, 0, "");
uiBlockClearButLock(block);
}
y1 -= MENU_BUTTON_HEIGHT;
}
else if(item->type == MENU_ITEM_ITEM) {
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
uiDefIconTextButF(block, BUTM, B_NOP, item->icon, item->name, x1, y1, width+16, MENU_BUTTON_HEIGHT-1, &handle->retvalue, 0.0, 0.0, 0, item->retval, "");
y1 -= MENU_BUTTON_HEIGHT;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
else {
uiDefBut(block, SEPR, 0, "", x1, y1, width+16, MENU_SEPR_HEIGHT-1, NULL, 0.0, 0.0, 0, 0, "");
y1 -= MENU_SEPR_HEIGHT;
}
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
if(info->popup) {
uiBlockSetFlag(block, UI_BLOCK_LOOP|UI_BLOCK_REDRAW|UI_BLOCK_NUMSELECT|UI_BLOCK_RET_1);
uiBlockSetDirection(block, UI_DOWN);
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
/* here we set an offset for the mouse position */
uiMenuPopupBoundsBlock(block, 1, 0, -height+MENU_BUTTON_HEIGHT/2);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
}
else {
/* for a header menu we set the direction automatic */
if(!info->slideout) {
sa= CTX_wm_area(C);
ar= CTX_wm_region(C);
if(sa && sa->headertype==HEADERDOWN) {
if(ar && ar->regiontype == RGN_TYPE_HEADER) {
uiBlockSetDirection(block, UI_TOP);
uiBlockFlipOrder(block);
}
}
}
uiTextBoundsBlock(block, 50);
}
/* if menu slides out of other menu, override direction */
if(info->slideout)
uiBlockSetDirection(block, UI_RIGHT);
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
uiEndBlock(C, block);
return block;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
uiPopupBlockHandle *ui_popup_menu_create(bContext *C, ARegion *butregion, uiBut *but, uiMenuCreateFunc menu_func, void *arg)
{
uiPopupBlockHandle *handle;
uiMenuItem *head;
uiMenuInfo info;
head= MEM_callocN(sizeof(uiMenuItem), "menu dummy");
2.5: UV Editor module porting pretty much finished now, only missing still is mirror transform. This commits adds the remaining operators: * UV mapping operators (U key menu): cube, sphere, cylinder, etc. * Hide/Show operators. And solves most XXX's, including: * Fix bad includes and calls into space image. * Aspect ratio correction. * Create UVs if they don't exist yet on unwrap. * Assign image to UVs. * Drawing proportional edit circle.
2009-02-09 20:58:31 +00:00
head->opcontext= WM_OP_INVOKE_REGION_WIN;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
menu_func(C, head, arg);
memset(&info, 0, sizeof(info));
info.head= head;
info.slideout= (but && (but->block->flag & UI_BLOCK_LOOP));
handle= ui_popup_block_create(C, butregion, but, NULL, ui_block_func_MENU_ITEM, &info);
BLI_freelistN(&head->items);
MEM_freeN(head);
return handle;
}
/*************************** Menu Creating API **************************/
/* internal add func */
static uiMenuItem *ui_menu_add_item(uiMenuItem *head, const char *name, int icon, int argval)
{
uiMenuItem *item= MEM_callocN(sizeof(uiMenuItem), "menu item");
BLI_strncpy(item->name, name, MAX_MENU_STR);
if(icon)
item->icon= icon;
else
item->icon= ICON_BLANK1;
item->retval= argval;
2.5 - removed undefined operators from view3d menu, the error prints ("undefined operator") is currently a real error; later on when operators are more dynamically defined it can be feature. - made uiMenuContext() work locally, only on the items as defined after this call.
2009-02-03 10:41:48 +00:00
item->opcontext= head->opcontext;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
BLI_addtail(&head->items, item);
return item;
}
/* set callback for regular items */
void uiMenuFunc(uiMenuItem *head, void (*eventfunc)(bContext *, void *, int), void *argv)
{
head->eventfunc= eventfunc;
head->argv= argv;
}
/* optionally set different context for all items in one level */
void uiMenuContext(uiMenuItem *head, int opcontext)
{
head->opcontext= opcontext;
}
/* regular item, with retval */
void uiMenuItemVal(uiMenuItem *head, const char *name, int icon, int argval)
{
uiMenuItem *item= ui_menu_add_item(head, name, icon, argval);
item->type = MENU_ITEM_ITEM;
}
/* regular operator item */
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
void uiMenuItemO(uiMenuItem *head, int icon, char *opname)
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
{
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
uiMenuItem *item= ui_menu_add_item(head, "", icon, 0);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
item->opname= opname; // static!
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
item->type = MENU_ITEM_OPNAME;
}
/* single operator item with property */
2.5: Image window operators, quite a few of these still have missing parts and are work in progress. Set 3D Cursor Set Tile Sample Color New Open Replace Reload Save (As) Save Sequence Pack Unpack Record Composite The file select operators have context issues still. They need to get the image space in the context on exec() but it's not there currently, not sure how to solve that yet. Also added name parameter to uiMenuItemEnumO, and fixed "mute" argument in ED_update_for_newframe calls in fluidsim bake.
2009-02-10 23:17:58 +00:00
void uiMenuItemEnumO(uiMenuItem *head, const char *name, int icon, char *opname, char *propname, int value)
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
{
2.5: Image window operators, quite a few of these still have missing parts and are work in progress. Set 3D Cursor Set Tile Sample Color New Open Replace Reload Save (As) Save Sequence Pack Unpack Record Composite The file select operators have context issues still. They need to get the image space in the context on exec() but it's not there currently, not sure how to solve that yet. Also added name parameter to uiMenuItemEnumO, and fixed "mute" argument in ED_update_for_newframe calls in fluidsim bake.
2009-02-10 23:17:58 +00:00
uiMenuItem *item= ui_menu_add_item(head, name, icon, 0);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
item->opname= opname; // static!
item->propname= propname; // static!
item->enumval= value;
item->type = MENU_ITEM_OPNAME_ENUM;
}
/* single operator item with property */
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
void uiMenuItemIntO(uiMenuItem *head, const char *name, int icon, char *opname, char *propname, int value)
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
{
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
uiMenuItem *item= ui_menu_add_item(head, name, icon, 0);
item->opname= opname; // static!
item->propname= propname; // static!
item->intval= value;
item->type = MENU_ITEM_OPNAME_INT;
}
/* single operator item with property */
void uiMenuItemFloatO(uiMenuItem *head, const char *name, int icon, char *opname, char *propname, float value)
{
uiMenuItem *item= ui_menu_add_item(head, name, icon, 0);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
item->opname= opname; // static!
item->propname= propname; // static!
item->fltval= value;
item->type = MENU_ITEM_OPNAME_FLOAT;
}
/* single operator item with property */
2.5: UV Editor, more operators. Border Select Circle Select Pin Select Pinned Unwrap Minimize Stretch Pack Islands Average Islands Scale Snap Cursor Snap Selection
2009-02-07 01:27:46 +00:00
void uiMenuItemBooleanO(uiMenuItem *head, const char *name, int icon, char *opname, char *propname, int value)
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
{
2.5: UV Editor, more operators. Border Select Circle Select Pin Select Pinned Unwrap Minimize Stretch Pack Islands Average Islands Scale Snap Cursor Snap Selection
2009-02-07 01:27:46 +00:00
uiMenuItem *item= ui_menu_add_item(head, name, icon, 0);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
item->opname= opname; // static!
item->propname= propname; // static!
item->boolval= value;
item->type = MENU_ITEM_OPNAME_BOOL;
}
2.5: Text edit mode operators back. Took me a while getting them nicely repeatable, and splitting up the big edit_text operator into individual operator so it's all nicely scriptable, documented, configurable, etc.. * Insert Text, Line Break, Insert Lorem * Toggle Case, Set Case, Toggle Style, Set Style, Set Material * Copy Text, Cut Text, Paste Text, Paste File, Paste Buffer * Move, Move Select, Delete * Change Spacing, Change Character Notes * Text (datablock) to Object doesn't work yet, will need to implement text editor context for that. * Some shortcut keys don't work because screen/wm overrides them, ctrl+x, ctrl+left/right. That override goes top down which works well for some cases, but here we need to override in the other direction. * There's no unicode support in RNA, or the user interface code for that matter, but text strings can contain these characters. At the moment it stores a UTF-8 string in char arrays, which is supposed to be nicely compatible with ascii. Seems reasonable to add support for UTF-8 in the interface code, python bindings, .. eventually?
2009-02-17 19:55:20 +00:00
/* single operator item with property */
void uiMenuItemStringO(uiMenuItem *head, const char *name, int icon, char *opname, char *propname, char *value)
{
uiMenuItem *item= ui_menu_add_item(head, name, icon, 0);
item->opname= opname; // static!
item->propname= propname; // static!
item->strval= value;
item->type = MENU_ITEM_OPNAME_STRING;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
/* add all operator items with property */
void uiMenuItemsEnumO(uiMenuItem *head, char *opname, char *propname)
{
wmOperatorType *ot= WM_operatortype_find(opname);
PointerRNA ptr;
PropertyRNA *prop;
if(!ot || !ot->srna)
return;
RNA_pointer_create(NULL, ot->srna, NULL, &ptr);
prop= RNA_struct_find_property(&ptr, propname);
RNA: Generic Type Registration The Python API to define Panels and Operators is based on subclassing, this makes that system more generic, and based on RNA. Hopefully that will make it easy to make various parts of Blender more extensible. * The system simply uses RNA properties and functions and marks them with REGISTER to make them part of the type registration process. Additionally, the struct must provide a register/unregister callback to create/free the PanelType or similar. * From the python side there were some small changes, mainly that registration now goes trough bpy.types.register instead of bpy.ui.addPanel. * Only Panels have been wrapped this way now. Check rna_ui.c to see how this code works. There's still some rough edges and possibilities to make it cleaner, though it works without any manual python code. * Started some docs here: http://wiki.blender.org/index.php/BlenderDev/Blender2.5/RNATypeRegistration * Also changed some RNA_property and RNA_struct functions to not require a PointerRNA anymore, where they were not required (which is actually the cause of most changed files).
2009-04-19 13:37:59 +00:00
if(prop && RNA_property_type(prop) == PROP_ENUM) {
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
const EnumPropertyItem *item;
int totitem, i;
RNA_property_enum_items(&ptr, prop, &item, &totitem);
for (i=0; i<totitem; i++)
2.5: Image window operators, quite a few of these still have missing parts and are work in progress. Set 3D Cursor Set Tile Sample Color New Open Replace Reload Save (As) Save Sequence Pack Unpack Record Composite The file select operators have context issues still. They need to get the image space in the context on exec() but it's not there currently, not sure how to solve that yet. Also added name parameter to uiMenuItemEnumO, and fixed "mute" argument in ED_update_for_newframe calls in fluidsim bake.
2009-02-10 23:17:58 +00:00
uiMenuItemEnumO(head, "", 0, opname, propname, item[i].value);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
}
}
/* rna property toggle */
void uiMenuItemBooleanR(uiMenuItem *head, PointerRNA *ptr, char *propname)
{
uiMenuItem *item= ui_menu_add_item(head, "", 0, 0);
item->propname= propname; // static!
item->rnapoin= *ptr;
item->type = MENU_ITEM_RNA_BOOL;
}
void uiMenuItemEnumR(uiMenuItem *head, PointerRNA *ptr, char *propname, int value)
{
uiMenuItem *item= ui_menu_add_item(head, "", 0, 0);
item->propname= propname; // static!
item->rnapoin= *ptr;
item->enumval= value;
item->type = MENU_ITEM_RNA_ENUM;
}
/* add all rna items with property */
void uiMenuItemsEnumR(uiMenuItem *head, PointerRNA *ptr, char *propname)
{
PropertyRNA *prop;
prop= RNA_struct_find_property(ptr, propname);
RNA: Generic Type Registration The Python API to define Panels and Operators is based on subclassing, this makes that system more generic, and based on RNA. Hopefully that will make it easy to make various parts of Blender more extensible. * The system simply uses RNA properties and functions and marks them with REGISTER to make them part of the type registration process. Additionally, the struct must provide a register/unregister callback to create/free the PanelType or similar. * From the python side there were some small changes, mainly that registration now goes trough bpy.types.register instead of bpy.ui.addPanel. * Only Panels have been wrapped this way now. Check rna_ui.c to see how this code works. There's still some rough edges and possibilities to make it cleaner, though it works without any manual python code. * Started some docs here: http://wiki.blender.org/index.php/BlenderDev/Blender2.5/RNATypeRegistration * Also changed some RNA_property and RNA_struct functions to not require a PointerRNA anymore, where they were not required (which is actually the cause of most changed files).
2009-04-19 13:37:59 +00:00
if(prop && RNA_property_type(prop) == PROP_ENUM) {
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
const EnumPropertyItem *item;
int totitem, i;
RNA_property_enum_items(ptr, prop, &item, &totitem);
for (i=0; i<totitem; i++)
uiMenuItemEnumR(head, ptr, propname, item[i].value);
}
}
/* generic new menu level */
void uiMenuLevel(uiMenuItem *head, const char *name, uiMenuCreateFunc newlevel)
{
uiMenuItem *item= ui_menu_add_item(head, name, 0, 0);
item->type = MENU_ITEM_LEVEL;
item->newlevel= newlevel;
}
/* make a new level from enum properties */
void uiMenuLevelEnumO(uiMenuItem *head, char *opname, char *propname)
{
uiMenuItem *item= ui_menu_add_item(head, "", 0, 0);
wmOperatorType *ot;
item->type = MENU_ITEM_LEVEL_OPNAME_ENUM;
ot= WM_operatortype_find(opname);
if(ot)
BLI_strncpy(item->name, ot->name, MAX_MENU_STR);
item->opname= opname; // static!
item->propname= propname; // static!
}
/* make a new level from enum properties */
void uiMenuLevelEnumR(uiMenuItem *head, PointerRNA *ptr, char *propname)
{
uiMenuItem *item= ui_menu_add_item(head, "", 0, 0);
PropertyRNA *prop;
item->type = MENU_ITEM_LEVEL_RNA_ENUM;
prop= RNA_struct_find_property(ptr, propname);
if(prop)
RNA: Generic Type Registration The Python API to define Panels and Operators is based on subclassing, this makes that system more generic, and based on RNA. Hopefully that will make it easy to make various parts of Blender more extensible. * The system simply uses RNA properties and functions and marks them with REGISTER to make them part of the type registration process. Additionally, the struct must provide a register/unregister callback to create/free the PanelType or similar. * From the python side there were some small changes, mainly that registration now goes trough bpy.types.register instead of bpy.ui.addPanel. * Only Panels have been wrapped this way now. Check rna_ui.c to see how this code works. There's still some rough edges and possibilities to make it cleaner, though it works without any manual python code. * Started some docs here: http://wiki.blender.org/index.php/BlenderDev/Blender2.5/RNATypeRegistration * Also changed some RNA_property and RNA_struct functions to not require a PointerRNA anymore, where they were not required (which is actually the cause of most changed files).
2009-04-19 13:37:59 +00:00
BLI_strncpy(item->name, RNA_property_ui_name(prop), MAX_MENU_STR);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
item->rnapoin= *ptr;
item->propname= propname; // static!
}
/* separator */
void uiMenuSeparator(uiMenuItem *head)
{
uiMenuItem *item= ui_menu_add_item(head, "", 0, 0);
item->type = MENU_ITEM_SEPARATOR;
}
/*************************** Popup Menu API **************************/
/* only return handler, and set optional title */
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
uiMenuItem *uiPupMenuBegin(const char *title, int icon)
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
{
uiMenuItem *item= MEM_callocN(sizeof(uiMenuItem), "menu start");
item->type = MENU_ITEM_TITLE;
item->opcontext= WM_OP_EXEC_REGION_WIN;
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
item->icon= icon;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
/* NULL is no title */
if(title)
BLI_strncpy(item->name, title, MAX_MENU_STR);
return item;
}
/* set the whole structure to work */
void uiPupMenuEnd(bContext *C, uiMenuItem *head)
{
wmWindow *window= CTX_wm_window(C);
uiMenuInfo info;
uiPopupBlockHandle *menu;
memset(&info, 0, sizeof(info));
info.popup= 1;
info.mx= window->eventstate->x;
info.my= window->eventstate->y;
info.head= head;
menu= ui_popup_block_create(C, NULL, NULL, NULL, ui_block_func_MENU_ITEM, &info);
menu->popup= 1;
UI: * Screen level regions created for menus are now a separate CTX_wm_menu in the context, so they don't interfere with existing regions. * Fix context in popup menus to always come from the area and region the popup was opened from. * Removed some unused context stuff: tasks and reports. The places that were using context reports were using it wrong anyway. * Fix F6 closing immediately after editing a button, by making uiBlockSetFlag not clear existing flags anymore. * Don't use ":" in boolean X/Y/Z buttons.
2009-03-25 20:49:15 +00:00
UI_add_popup_handlers(C, &window->handlers, menu);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
WM_event_add_mousemove(C);
BLI_freelistN(&head->items);
MEM_freeN(head);
}
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
/* ************** standard pupmenus *************** */
/* this one can called with operatortype name and operators */
static uiPopupBlockHandle *ui_pup_menu(bContext *C, int maxrow, uiMenuHandleFunc func, void *arg, char *str, ...)
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
{
wmWindow *window= CTX_wm_window(C);
uiPupMenuInfo info;
uiPopupBlockHandle *menu;
memset(&info, 0, sizeof(info));
info.mx= window->eventstate->x;
info.my= window->eventstate->y;
info.maxrow= maxrow;
info.instr= str;
menu= ui_popup_block_create(C, NULL, NULL, NULL, ui_block_func_PUPMENU, &info);
menu->popup= 1;
UI: * Screen level regions created for menus are now a separate CTX_wm_menu in the context, so they don't interfere with existing regions. * Fix context in popup menus to always come from the area and region the popup was opened from. * Removed some unused context stuff: tasks and reports. The places that were using context reports were using it wrong anyway. * Fix F6 closing immediately after editing a button, by making uiBlockSetFlag not clear existing flags anymore. * Don't use ":" in boolean X/Y/Z buttons.
2009-03-25 20:49:15 +00:00
UI_add_popup_handlers(C, &window->handlers, menu);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
WM_event_add_mousemove(C);
menu->popup_func= func;
menu->popup_arg= arg;
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
return menu;
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
}
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
static void operator_name_cb(bContext *C, void *arg, int retval)
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
{
const char *opname= arg;
if(opname && retval > 0)
WM_operator_name_call(C, opname, WM_OP_EXEC_DEFAULT, NULL);
}
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
static void vconfirm_opname(bContext *C, char *opname, char *title, char *itemfmt, va_list ap)
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
{
char *s, buf[512];
s= buf;
if (title) s+= sprintf(s, "%s%%t|", title);
vsprintf(s, itemfmt, ap);
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
ui_pup_menu(C, 0, operator_name_cb, opname, buf);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
}
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
static void operator_cb(bContext *C, void *arg, int retval)
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
{
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
wmOperator *op= arg;
if(op && retval > 0)
WM_operator_call(C, op);
else
WM_operator_free(op);
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
static void confirm_cancel_operator(void *opv)
{
WM_operator_free(opv);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
}
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
static void confirm_operator(bContext *C, wmOperator *op, char *title, char *item)
{
uiPopupBlockHandle *handle;
char *s, buf[512];
s= buf;
if (title) s+= sprintf(s, "%s%%t|%s", title, item);
handle= ui_pup_menu(C, 0, operator_cb, op, buf);
handle->cancel_func= confirm_cancel_operator;
}
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
void uiPupMenuOkee(bContext *C, char *opname, char *str, ...)
{
va_list ap;
char titlestr[256];
sprintf(titlestr, "OK? %%i%d", ICON_HELP);
va_start(ap, str);
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
vconfirm_opname(C, opname, titlestr, str, ap);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
va_end(ap);
}
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
void uiPupMenuSaveOver(bContext *C, wmOperator *op, char *filename)
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
{
size_t len= strlen(filename);
if(len==0)
return;
if(filename[len-1]=='/' || filename[len-1]=='\\') {
uiPupMenuError(C, "Cannot overwrite a directory");
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
WM_operator_free(op);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
return;
}
2.5 Bugfix: CTRL+W "Save file" still gave a 'save over' popup when the file didn't exist yet. It then attempted to free the operator twice.
2009-02-10 09:49:36 +00:00
if(BLI_exists(filename)==0)
operator_cb(C, op, 1);
else
confirm_operator(C, op, "Save over", filename);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
}
void uiPupMenuNotice(bContext *C, char *str, ...)
{
va_list ap;
va_start(ap, str);
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
vconfirm_opname(C, NULL, NULL, str, ap);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
va_end(ap);
}
void uiPupMenuError(bContext *C, char *str, ...)
{
va_list ap;
char nfmt[256];
char titlestr[256];
sprintf(titlestr, "Error %%i%d", ICON_ERROR);
sprintf(nfmt, "%s", str);
va_start(ap, str);
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
vconfirm_opname(C, NULL, titlestr, nfmt, ap);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
va_end(ap);
}
void uiPupMenuReports(bContext *C, ReportList *reports)
{
Report *report;
DynStr *ds;
char *str;
if(!reports || !reports->list.first)
return;
if(!CTX_wm_window(C))
return;
ds= BLI_dynstr_new();
for(report=reports->list.first; report; report=report->next) {
if(report->type >= RPT_ERROR)
BLI_dynstr_appendf(ds, "Error %%i%d%%t|%s", ICON_ERROR, report->message);
else if(report->type >= RPT_WARNING)
BLI_dynstr_appendf(ds, "Warning %%i%d%%t|%s", ICON_ERROR, report->message);
}
str= BLI_dynstr_get_cstring(ds);
2.5 Added CTRL+W save Blender file. It's the first user of the uiPupMenuSaveOver() function, which I've recoded to accept an operator pointer. This is required because the operator property 'filename' has to be set to work. Other 'save over' users will require running operators too I guess.
2009-02-08 19:15:59 +00:00
ui_pup_menu(C, 0, NULL, NULL, str);
2.5: UI & Menus * Cleaned up UI_interface.h a bit, and added some comments to organize things a bit and indicate what should be used when. * uiMenu* functions can now be used to create menus for headers too, this is done with a uiDefMenuBut, which takes a pointer to a uiMenuCreateFunc, that will then call uiMenu* functions. * Renamed uiMenuBegin/End to uiPupMenuBegin/End, as these are specific to making popup menus. Will convert the other conformation popup menu functions to use this too so we can remove some code. * Extended uiMenu functions, now there is is also: BooleanO, FloatO, BooleanR, EnumR, LevelEnumR, Separator. * Converted image window headers to use uiMenu functions, simplifies menu code further here. Did not remove the uiDefMenu functions as they are used in sequencer/view3d in some places now (will fix). * Also tried to simplify and fix bounds computation a bit better for popup menus. It tried to find out in advance what the size of the menu was but this is difficult with keymap strings in there, now uiPopupBoundsBlock can figure this out afterwards and ensure the popup is within the window bounds. Will convert some other functions to use this too.
2009-01-30 12:18:08 +00:00
MEM_freeN(str);
BLI_dynstr_free(ds);
}
2.5 Simple toolbox-style menu system. Brecht will review it though, and/or check on way to use it for menus. I tried to avoid uiBlock and rna stuff all over. :) Quick image test: http://www.blender.org/bf/rt.jpg Examples you can read in: - editors/screen/screen_ops.c:testing123() (press F5) - editors/object/object_edit.c:object_add_primitive_invoke() (press SHIFT+A) Concept is simple: uiMenuBegin(): returns a handle. uiMenuEnd(): puts it all to work. In between you can add items like: uiMenuItemVal(): a name, icon, retval (use uiMenuFunc()) uiMenuItemO(): an operator + icon uiMenuItemEnumO(): an operator, property name, value Sublevels go easy too: uiMenuLevel(): creates item for sublevel, with function pointer. Inside that function you can use all menu calls again. Levels can go as deep you want. uiMenuLevelEnumO(): creates operator sublevel for an enum
2009-01-25 20:22:05 +00:00
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
/*************************** Popup Block API **************************/
void uiPupBlockO(bContext *C, uiBlockCreateFunc func, void *arg, char *opname, int opcontext)
{
wmWindow *window= CTX_wm_window(C);
uiPopupBlockHandle *handle;
handle= ui_popup_block_create(C, NULL, NULL, func, NULL, arg);
handle->popup= 1;
handle->opname= opname;
handle->opcontext= opcontext;
UI: * Screen level regions created for menus are now a separate CTX_wm_menu in the context, so they don't interfere with existing regions. * Fix context in popup menus to always come from the area and region the popup was opened from. * Removed some unused context stuff: tasks and reports. The places that were using context reports were using it wrong anyway. * Fix F6 closing immediately after editing a button, by making uiBlockSetFlag not clear existing flags anymore. * Don't use ":" in boolean X/Y/Z buttons.
2009-03-25 20:49:15 +00:00
UI_add_popup_handlers(C, &window->handlers, handle);
UI * Changed uiPupMenuOperator usage to uiPupMenuBegin/End (simpler, no need to build a string). Also made transform orientation and subdiv type enums instead of ints for this. * Added an icon argument to many of the uiMenu calls, and added a uiMenuItemIntO. * Move auto rna button creation out of outliner code, now is uiDefAutoButR for individual buttons and uiDefAutoButsRNA for a whole block. * Implemented uiPupBlock(O). Pressing F6 gives a menu with the properties of the last operator to test. I tried to make a redo last operator out of this but couldn't get the context correct for the operator to repeat in. Further the popup block also has some issues getting closed while editing buttons. * Fix uiAfterFunc memory leak on Ctrl+Q quit. * Fix handling of RNA number button dragging and sliding for RNA buttons with range -inf/inf.
2009-02-04 11:52:16 +00:00
WM_event_add_mousemove(C);
}
void uiPupBlock(bContext *C, uiBlockCreateFunc func, void *arg)
{
uiPupBlockO(C, func, arg, NULL, 0);
}
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