archive/blender-archive
Archived
1
1
Fork 0
Code Pull Requests Packages Activity
This repository has been archived on 2023-10-09. You can view files and clone it, but cannot push or open issues or pull requests.
Files
e15f85f23dd33a91a9a386c23cbc80ecea3f9ac1
blender-archive/source/blender/editors/screen/area.c
Julian Eisel e15f85f23d UI: Avoid rebuilding outliner tree when changing area size 
In big files, ie typical production files, resizing the outliner area would be
very slow. The outliner tree would be rebuilt then, which can easily be avoided.
2020-06-19 20:06:37 +02:00

3725 lines
113 KiB
C
Raw Blame History

/*
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2008 Blender Foundation.
* All rights reserved.
*/
/** \file
* \ingroup edscr
*/
#include <stdio.h>
#include <string.h>
#include "MEM_guardedalloc.h"
#include "DNA_userdef_types.h"
#include "BLI_blenlib.h"
#include "BLI_linklist_stack.h"
#include "BLI_math.h"
#include "BLI_rand.h"
#include "BLI_utildefines.h"
#include "BKE_context.h"
#include "BKE_global.h"
#include "BKE_image.h"
#include "BKE_screen.h"
#include "BKE_workspace.h"
#include "RNA_access.h"
#include "RNA_types.h"
#include "WM_api.h"
#include "WM_message.h"
#include "WM_toolsystem.h"
#include "WM_types.h"
#include "ED_screen.h"
#include "ED_screen_types.h"
#include "ED_space_api.h"
#include "ED_time_scrub_ui.h"
#include "GPU_framebuffer.h"
#include "GPU_immediate.h"
#include "GPU_immediate_util.h"
#include "GPU_matrix.h"
#include "GPU_state.h"
#include "BLF_api.h"
#include "IMB_imbuf_types.h"
#include "IMB_metadata.h"
#include "UI_interface.h"
#include "UI_interface_icons.h"
#include "UI_resources.h"
#include "UI_view2d.h"
#include "screen_intern.h"
enum RegionEmbossSide {
REGION_EMBOSS_LEFT = (1 << 0),
REGION_EMBOSS_TOP = (1 << 1),
REGION_EMBOSS_BOTTOM = (1 << 2),
REGION_EMBOSS_RIGHT = (1 << 3),
REGION_EMBOSS_ALL = REGION_EMBOSS_LEFT | REGION_EMBOSS_TOP | REGION_EMBOSS_RIGHT |
REGION_EMBOSS_BOTTOM,
};
/* general area and region code */
static void region_draw_emboss(const ARegion *region, const rcti *scirct, int sides)
{
rcti rect;
/* translate scissor rect to region space */
rect.xmin = scirct->xmin - region->winrct.xmin;
rect.ymin = scirct->ymin - region->winrct.ymin;
rect.xmax = scirct->xmax - region->winrct.xmin;
rect.ymax = scirct->ymax - region->winrct.ymin;
/* set transp line */
GPU_blend(true);
GPU_blend_set_func_separate(
GPU_SRC_ALPHA, GPU_ONE_MINUS_SRC_ALPHA, GPU_ONE, GPU_ONE_MINUS_SRC_ALPHA);
float color[4] = {0.0f, 0.0f, 0.0f, 0.25f};
UI_GetThemeColor3fv(TH_EDITOR_OUTLINE, color);
GPUVertFormat *format = immVertexFormat();
uint pos = GPU_vertformat_attr_add(format, "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformColor4fv(color);
immBeginAtMost(GPU_PRIM_LINES, 8);
/* right */
if (sides & REGION_EMBOSS_RIGHT) {
immVertex2f(pos, rect.xmax, rect.ymax);
immVertex2f(pos, rect.xmax, rect.ymin);
}
/* bottom */
if (sides & REGION_EMBOSS_BOTTOM) {
immVertex2f(pos, rect.xmax, rect.ymin);
immVertex2f(pos, rect.xmin, rect.ymin);
}
/* left */
if (sides & REGION_EMBOSS_LEFT) {
immVertex2f(pos, rect.xmin, rect.ymin);
immVertex2f(pos, rect.xmin, rect.ymax);
}
/* top */
if (sides & REGION_EMBOSS_TOP) {
immVertex2f(pos, rect.xmin, rect.ymax);
immVertex2f(pos, rect.xmax, rect.ymax);
}
immEnd();
immUnbindProgram();
GPU_blend(false);
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
}
void ED_region_pixelspace(ARegion *region)
{
wmOrtho2_region_pixelspace(region);
GPU_matrix_identity_set();
}
/* only exported for WM */
void ED_region_do_listen(
wmWindow *win, ScrArea *area, ARegion *region, wmNotifier *note, const Scene *scene)
{
/* generic notes first */
switch (note->category) {
case NC_WM:
if (note->data == ND_FILEREAD) {
ED_region_tag_redraw(region);
}
break;
case NC_WINDOW:
ED_region_tag_redraw(region);
break;
}
if (region->type && region->type->listener) {
region->type->listener(win, area, region, note, scene);
}
}
/* only exported for WM */
void ED_area_do_listen(wmWindow *win, ScrArea *area, wmNotifier *note, Scene *scene)
{
/* no generic notes? */
if (area->type && area->type->listener) {
area->type->listener(win, area, note, scene);
}
}
/* only exported for WM */
void ED_area_do_refresh(bContext *C, ScrArea *area)
{
/* no generic notes? */
if (area->type && area->type->refresh) {
area->type->refresh(C, area);
}
area->do_refresh = false;
}
/**
* \brief Corner widget use for quitting fullscreen.
*/
static void area_draw_azone_fullscreen(
short UNUSED(x1), short UNUSED(y1), short x2, short y2, float alpha)
{
UI_icon_draw_ex(x2 - U.widget_unit,
y2 - U.widget_unit,
ICON_FULLSCREEN_EXIT,
U.inv_dpi_fac,
min_ff(alpha, 0.75f),
0.0f,
NULL,
false);
}
/**
* \brief Corner widgets use for dragging and splitting the view.
*/
static void area_draw_azone(short UNUSED(x1), short UNUSED(y1), short UNUSED(x2), short UNUSED(y2))
{
/* No drawing needed since all corners are action zone, and visually distinguishable. */
}
/**
* \brief Edge widgets to show hidden panels such as the toolbar and headers.
*/
static void draw_azone_arrow(float x1, float y1, float x2, float y2, AZEdge edge)
{
const float size = 0.2f * U.widget_unit;
const float l = 1.0f; /* arrow length */
const float s = 0.25f; /* arrow thickness */
const float hl = l / 2.0f;
const float points[6][2] = {
{0, -hl}, {l, hl}, {l - s, hl + s}, {0, s + s - hl}, {s - l, hl + s}, {-l, hl}};
const float center[2] = {(x1 + x2) / 2, (y1 + y2) / 2};
int axis;
int sign;
switch (edge) {
case AE_BOTTOM_TO_TOPLEFT:
axis = 0;
sign = 1;
break;
case AE_TOP_TO_BOTTOMRIGHT:
axis = 0;
sign = -1;
break;
case AE_LEFT_TO_TOPRIGHT:
axis = 1;
sign = 1;
break;
case AE_RIGHT_TO_TOPLEFT:
axis = 1;
sign = -1;
break;
default:
BLI_assert(0);
return;
}
GPUVertFormat *format = immVertexFormat();
uint pos = GPU_vertformat_attr_add(format, "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT);
GPU_blend(true);
/* NOTE(fclem): There is something strange going on with Mesa and GPU_SHADER_2D_UNIFORM_COLOR
* that causes a crash on some GPUs (see T76113). Using 3D variant avoid the issue. */
immBindBuiltinProgram(GPU_SHADER_3D_UNIFORM_COLOR);
immUniformColor4f(0.8f, 0.8f, 0.8f, 0.4f);
immBegin(GPU_PRIM_TRI_FAN, 6);
for (int i = 0; i < 6; i++) {
if (axis == 0) {
immVertex2f(pos, center[0] + points[i][0] * size, center[1] + points[i][1] * sign * size);
}
else {
immVertex2f(pos, center[0] + points[i][1] * sign * size, center[1] + points[i][0] * size);
}
}
immEnd();
immUnbindProgram();
GPU_blend(false);
}
static void region_draw_azone_tab_arrow(ScrArea *area, ARegion *region, AZone *az)
{
GPU_blend(true);
/* add code to draw region hidden as 'too small' */
switch (az->edge) {
case AE_TOP_TO_BOTTOMRIGHT:
UI_draw_roundbox_corner_set(UI_CNR_TOP_LEFT | UI_CNR_TOP_RIGHT);
break;
case AE_BOTTOM_TO_TOPLEFT:
UI_draw_roundbox_corner_set(UI_CNR_BOTTOM_RIGHT | UI_CNR_BOTTOM_LEFT);
break;
case AE_LEFT_TO_TOPRIGHT:
UI_draw_roundbox_corner_set(UI_CNR_TOP_LEFT | UI_CNR_BOTTOM_LEFT);
break;
case AE_RIGHT_TO_TOPLEFT:
UI_draw_roundbox_corner_set(UI_CNR_TOP_RIGHT | UI_CNR_BOTTOM_RIGHT);
break;
}
/* Workaround for different color spaces between normal areas and the ones using GPUViewports. */
float alpha = WM_region_use_viewport(area, region) ? 0.6f : 0.4f;
float color[4] = {0.05f, 0.05f, 0.05f, alpha};
UI_draw_roundbox_aa(
true, (float)az->x1, (float)az->y1, (float)az->x2, (float)az->y2, 4.0f, color);
draw_azone_arrow((float)az->x1, (float)az->y1, (float)az->x2, (float)az->y2, az->edge);
}
static void area_azone_tag_update(ScrArea *area)
{
area->flag |= AREA_FLAG_ACTIONZONES_UPDATE;
}
static void region_draw_azones(ScrArea *area, ARegion *region)
{
AZone *az;
if (!area) {
return;
}
GPU_line_width(1.0f);
GPU_blend(true);
GPU_blend_set_func_separate(
GPU_SRC_ALPHA, GPU_ONE_MINUS_SRC_ALPHA, GPU_ONE, GPU_ONE_MINUS_SRC_ALPHA);
GPU_matrix_push();
GPU_matrix_translate_2f(-region->winrct.xmin, -region->winrct.ymin);
for (az = area->actionzones.first; az; az = az->next) {
/* test if action zone is over this region */
rcti azrct;
BLI_rcti_init(&azrct, az->x1, az->x2, az->y1, az->y2);
if (BLI_rcti_isect(&region->drawrct, &azrct, NULL)) {
if (az->type == AZONE_AREA) {
area_draw_azone(az->x1, az->y1, az->x2, az->y2);
}
else if (az->type == AZONE_REGION) {
if (az->region) {
/* only display tab or icons when the region is hidden */
if (az->region->flag & (RGN_FLAG_HIDDEN | RGN_FLAG_TOO_SMALL)) {
region_draw_azone_tab_arrow(area, region, az);
}
}
}
else if (az->type == AZONE_FULLSCREEN) {
if (az->alpha > 0.0f) {
area_draw_azone_fullscreen(az->x1, az->y1, az->x2, az->y2, az->alpha);
}
}
}
if (!IS_EQF(az->alpha, 0.0f) && ELEM(az->type, AZONE_FULLSCREEN, AZONE_REGION_SCROLL)) {
area_azone_tag_update(area);
}
}
GPU_matrix_pop();
GPU_blend(false);
}
static void region_draw_status_text(ScrArea *area, ARegion *region)
{
bool overlap = ED_region_is_overlap(area->spacetype, region->regiontype);
if (overlap) {
GPU_clear_color(0.0, 0.0, 0.0, 0.0);
glClear(GL_COLOR_BUFFER_BIT);
}
else {
UI_ThemeClearColor(TH_HEADER);
glClear(GL_COLOR_BUFFER_BIT);
}
int fontid = BLF_set_default();
const float width = BLF_width(fontid, region->headerstr, BLF_DRAW_STR_DUMMY_MAX);
const float x = UI_UNIT_X;
const float y = 0.4f * UI_UNIT_Y;
if (overlap) {
const float pad = 2.0f * UI_DPI_FAC;
const float x1 = x - (UI_UNIT_X - pad);
const float x2 = x + width + (UI_UNIT_X - pad);
const float y1 = pad;
const float y2 = region->winy - pad;
GPU_blend_set_func_separate(
GPU_SRC_ALPHA, GPU_ONE_MINUS_SRC_ALPHA, GPU_ONE, GPU_ONE_MINUS_SRC_ALPHA);
float color[4] = {0.0f, 0.0f, 0.0f, 0.5f};
UI_GetThemeColor3fv(TH_BACK, color);
UI_draw_roundbox_corner_set(UI_CNR_ALL);
UI_draw_roundbox_aa(true, x1, y1, x2, y2, 4.0f, color);
UI_FontThemeColor(fontid, TH_TEXT);
}
else {
UI_FontThemeColor(fontid, TH_TEXT);
}
BLF_position(fontid, x, y, 0.0f);
BLF_draw(fontid, region->headerstr, BLF_DRAW_STR_DUMMY_MAX);
}
void ED_region_do_msg_notify_tag_redraw(
/* Follow wmMsgNotifyFn spec */
bContext *UNUSED(C),
wmMsgSubscribeKey *UNUSED(msg_key),
wmMsgSubscribeValue *msg_val)
{
ARegion *region = msg_val->owner;
ED_region_tag_redraw(region);
/* This avoids _many_ situations where header/properties control display settings.
* the common case is space properties in the header */
if (ELEM(region->regiontype, RGN_TYPE_HEADER, RGN_TYPE_TOOL_HEADER, RGN_TYPE_UI)) {
while (region && region->prev) {
region = region->prev;
}
for (; region; region = region->next) {
if (ELEM(region->regiontype, RGN_TYPE_WINDOW, RGN_TYPE_CHANNELS)) {
ED_region_tag_redraw(region);
}
}
}
}
void ED_area_do_msg_notify_tag_refresh(
/* Follow wmMsgNotifyFn spec */
bContext *UNUSED(C),
wmMsgSubscribeKey *UNUSED(msg_key),
wmMsgSubscribeValue *msg_val)
{
ScrArea *area = msg_val->user_data;
ED_area_tag_refresh(area);
}
void ED_area_do_mgs_subscribe_for_tool_header(
/* Follow ARegionType.message_subscribe */
const struct bContext *UNUSED(C),
struct WorkSpace *workspace,
struct Scene *UNUSED(scene),
struct bScreen *UNUSED(screen),
struct ScrArea *UNUSED(area),
struct ARegion *region,
struct wmMsgBus *mbus)
{
BLI_assert(region->regiontype == RGN_TYPE_TOOL_HEADER);
wmMsgSubscribeValue msg_sub_value_region_tag_redraw = {
.owner = region,
.user_data = region,
.notify = ED_region_do_msg_notify_tag_redraw,
};
WM_msg_subscribe_rna_prop(
mbus, &workspace->id, workspace, WorkSpace, tools, &msg_sub_value_region_tag_redraw);
}
void ED_area_do_mgs_subscribe_for_tool_ui(
/* Follow ARegionType.message_subscribe */
const struct bContext *UNUSED(C),
struct WorkSpace *workspace,
struct Scene *UNUSED(scene),
struct bScreen *UNUSED(screen),
struct ScrArea *UNUSED(area),
struct ARegion *region,
struct wmMsgBus *mbus)
{
BLI_assert(region->regiontype == RGN_TYPE_UI);
const char *category = UI_panel_category_active_get(region, false);
if (category && STREQ(category, "Tool")) {
wmMsgSubscribeValue msg_sub_value_region_tag_redraw = {
.owner = region,
.user_data = region,
.notify = ED_region_do_msg_notify_tag_redraw,
};
WM_msg_subscribe_rna_prop(
mbus, &workspace->id, workspace, WorkSpace, tools, &msg_sub_value_region_tag_redraw);
}
}
/**
* Although there's no general support for minimizing areas, the status-bar can
* be snapped to be only a few pixels high. A few pixels rather than 0 so it
* can be un-minimized again. We consider it pseudo-minimized and don't draw
* it then.
*/
static bool area_is_pseudo_minimized(const ScrArea *area)
{
return (area->winx < 3) || (area->winy < 3);
}
/* only exported for WM */
void ED_region_do_layout(bContext *C, ARegion *region)
{
/* This is optional, only needed for dynamically sized regions. */
ScrArea *area = CTX_wm_area(C);
ARegionType *at = region->type;
if (!at->layout) {
return;
}
if (at->do_lock || (area && area_is_pseudo_minimized(area))) {
return;
}
region->do_draw |= RGN_DRAWING;
UI_SetTheme(area ? area->spacetype : 0, at->regionid);
at->layout(C, region);
}
/* only exported for WM */
void ED_region_do_draw(bContext *C, ARegion *region)
{
wmWindow *win = CTX_wm_window(C);
ScrArea *area = CTX_wm_area(C);
ARegionType *at = region->type;
/* see BKE_spacedata_draw_locks() */
if (at->do_lock) {
return;
}
region->do_draw |= RGN_DRAWING;
/* Set viewport, scissor, ortho and region->drawrct. */
wmPartialViewport(&region->drawrct, &region->winrct, &region->drawrct);
wmOrtho2_region_pixelspace(region);
UI_SetTheme(area ? area->spacetype : 0, at->regionid);
if (area && area_is_pseudo_minimized(area)) {
UI_ThemeClearColor(TH_EDITOR_OUTLINE);
glClear(GL_COLOR_BUFFER_BIT);
return;
}
/* optional header info instead? */
else if (region->headerstr) {
region_draw_status_text(area, region);
}
else if (at->draw) {
at->draw(C, region);
}
/* XXX test: add convention to end regions always in pixel space,
* for drawing of borders/gestures etc */
ED_region_pixelspace(region);
ED_region_draw_cb_draw(C, region, REGION_DRAW_POST_PIXEL);
region_draw_azones(area, region);
/* for debugging unneeded area redraws and partial redraw */
if (G.debug_value == 888) {
GPU_blend(true);
GPUVertFormat *format = immVertexFormat();
uint pos = GPU_vertformat_attr_add(format, "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformColor4f(BLI_thread_frand(0), BLI_thread_frand(0), BLI_thread_frand(0), 0.1f);
immRectf(pos,
region->drawrct.xmin - region->winrct.xmin,
region->drawrct.ymin - region->winrct.ymin,
region->drawrct.xmax - region->winrct.xmin,
region->drawrct.ymax - region->winrct.ymin);
immUnbindProgram();
GPU_blend(false);
}
memset(&region->drawrct, 0, sizeof(region->drawrct));
UI_blocklist_free_inactive(C, &region->uiblocks);
if (area) {
const bScreen *screen = WM_window_get_active_screen(win);
/* Only region emboss for top-bar */
if ((screen->state != SCREENFULL) && ED_area_is_global(area)) {
region_draw_emboss(region, &region->winrct, (REGION_EMBOSS_LEFT | REGION_EMBOSS_RIGHT));
}
else if ((region->regiontype == RGN_TYPE_WINDOW) && (region->alignment == RGN_ALIGN_QSPLIT)) {
/* draw separating lines between the quad views */
float color[4] = {0.0f, 0.0f, 0.0f, 0.8f};
UI_GetThemeColor3fv(TH_EDITOR_OUTLINE, color);
GPUVertFormat *format = immVertexFormat();
uint pos = GPU_vertformat_attr_add(format, "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformColor4fv(color);
GPU_line_width(1.0f);
imm_draw_box_wire_2d(pos,
0,
0,
region->winrct.xmax - region->winrct.xmin + 1,
region->winrct.ymax - region->winrct.ymin + 1);
immUnbindProgram();
}
}
/* We may want to detach message-subscriptions from drawing. */
{
WorkSpace *workspace = CTX_wm_workspace(C);
wmWindowManager *wm = CTX_wm_manager(C);
bScreen *screen = WM_window_get_active_screen(win);
Scene *scene = CTX_data_scene(C);
struct wmMsgBus *mbus = wm->message_bus;
WM_msgbus_clear_by_owner(mbus, region);
/* Cheat, always subscribe to this space type properties.
*
* This covers most cases and avoids copy-paste similar code for each space type.
*/
if (ELEM(
region->regiontype, RGN_TYPE_WINDOW, RGN_TYPE_CHANNELS, RGN_TYPE_UI, RGN_TYPE_TOOLS)) {
SpaceLink *sl = area->spacedata.first;
PointerRNA ptr;
RNA_pointer_create(&screen->id, &RNA_Space, sl, &ptr);
wmMsgSubscribeValue msg_sub_value_region_tag_redraw = {
.owner = region,
.user_data = region,
.notify = ED_region_do_msg_notify_tag_redraw,
};
/* All properties for this space type. */
WM_msg_subscribe_rna(mbus, &ptr, NULL, &msg_sub_value_region_tag_redraw, __func__);
}
ED_region_message_subscribe(C, workspace, scene, screen, area, region, mbus);
}
}
/* **********************************
* maybe silly, but let's try for now
* to keep these tags protected
* ********************************** */
void ED_region_tag_redraw(ARegion *region)
{
/* don't tag redraw while drawing, it shouldn't happen normally
* but python scripts can cause this to happen indirectly */
if (region && !(region->do_draw & RGN_DRAWING)) {
/* zero region means full region redraw */
region->do_draw &= ~(RGN_DRAW_PARTIAL | RGN_DRAW_NO_REBUILD | RGN_DRAW_EDITOR_OVERLAYS);
region->do_draw |= RGN_DRAW;
memset(&region->drawrct, 0, sizeof(region->drawrct));
}
}
void ED_region_tag_redraw_cursor(ARegion *region)
{
if (region) {
region->do_draw_overlay = RGN_DRAW;
}
}
void ED_region_tag_redraw_no_rebuild(ARegion *region)
{
if (region && !(region->do_draw & (RGN_DRAWING | RGN_DRAW))) {
region->do_draw &= ~(RGN_DRAW_PARTIAL | RGN_DRAW_EDITOR_OVERLAYS);
region->do_draw |= RGN_DRAW_NO_REBUILD;
memset(&region->drawrct, 0, sizeof(region->drawrct));
}
}
void ED_region_tag_refresh_ui(ARegion *region)
{
if (region) {
region->do_draw |= RGN_REFRESH_UI;
}
}
/**
* Tag editor overlays to be redrawn. If in doubt about which parts need to be redrawn (partial
* clipping rectangle set), redraw everything.
*/
void ED_region_tag_redraw_editor_overlays(struct ARegion *region)
{
if (region && !(region->do_draw & (RGN_DRAWING | RGN_DRAW))) {
if (region->do_draw & RGN_DRAW_PARTIAL) {
ED_region_tag_redraw(region);
}
else {
region->do_draw |= RGN_DRAW_EDITOR_OVERLAYS;
}
}
}
void ED_region_tag_redraw_partial(ARegion *region, const rcti *rct, bool rebuild)
{
if (region && !(region->do_draw & RGN_DRAWING)) {
if (region->do_draw & RGN_DRAW_PARTIAL) {
/* Partial redraw already set, expand region. */
BLI_rcti_union(&region->drawrct, rct);
if (rebuild) {
region->do_draw &= ~RGN_DRAW_NO_REBUILD;
}
}
else if (region->do_draw & (RGN_DRAW | RGN_DRAW_NO_REBUILD)) {
/* Full redraw already requested. */
if (rebuild) {
region->do_draw &= ~RGN_DRAW_NO_REBUILD;
}
}
else {
/* No redraw set yet, set partial region. */
region->drawrct = *rct;
region->do_draw |= RGN_DRAW_PARTIAL;
if (!rebuild) {
region->do_draw |= RGN_DRAW_NO_REBUILD;
}
}
}
}
void ED_area_tag_redraw(ScrArea *area)
{
ARegion *region;
if (area) {
for (region = area->regionbase.first; region; region = region->next) {
ED_region_tag_redraw(region);
}
}
}
void ED_area_tag_redraw_no_rebuild(ScrArea *area)
{
ARegion *region;
if (area) {
for (region = area->regionbase.first; region; region = region->next) {
ED_region_tag_redraw_no_rebuild(region);
}
}
}
void ED_area_tag_redraw_regiontype(ScrArea *area, int regiontype)
{
ARegion *region;
if (area) {
for (region = area->regionbase.first; region; region = region->next) {
if (region->regiontype == regiontype) {
ED_region_tag_redraw(region);
}
}
}
}
void ED_area_tag_refresh(ScrArea *area)
{
if (area) {
area->do_refresh = true;
}
}
/* *************************************************************** */
/* use NULL to disable it */
void ED_area_status_text(ScrArea *area, const char *str)
{
ARegion *region;
/* happens when running transform operators in background mode */
if (area == NULL) {
return;
}
for (region = area->regionbase.first; region; region = region->next) {
if (region->regiontype == RGN_TYPE_HEADER) {
if (str) {
if (region->headerstr == NULL) {
region->headerstr = MEM_mallocN(UI_MAX_DRAW_STR, "headerprint");
}
BLI_strncpy(region->headerstr, str, UI_MAX_DRAW_STR);
BLI_str_rstrip(region->headerstr);
}
else if (region->headerstr) {
MEM_freeN(region->headerstr);
region->headerstr = NULL;
}
ED_region_tag_redraw(region);
}
}
}
void ED_workspace_status_text(bContext *C, const char *str)
{
wmWindow *win = CTX_wm_window(C);
WorkSpace *workspace = CTX_wm_workspace(C);
/* Can be NULL when running operators in background mode. */
if (workspace == NULL) {
return;
}
if (str) {
if (workspace->status_text == NULL) {
workspace->status_text = MEM_mallocN(UI_MAX_DRAW_STR, "headerprint");
}
BLI_strncpy(workspace->status_text, str, UI_MAX_DRAW_STR);
}
else if (workspace->status_text) {
MEM_freeN(workspace->status_text);
workspace->status_text = NULL;
}
/* Redraw status bar. */
LISTBASE_FOREACH (ScrArea *, area, &win->global_areas.areabase) {
if (area->spacetype == SPACE_STATUSBAR) {
ED_area_tag_redraw(area);
break;
}
}
}
/* ************************************************************ */
static void area_azone_initialize(wmWindow *win, const bScreen *screen, ScrArea *area)
{
AZone *az;
/* reinitialize entirely, regions and fullscreen add azones too */
BLI_freelistN(&area->actionzones);
if (screen->state != SCREENNORMAL) {
return;
}
if (U.app_flag & USER_APP_LOCK_UI_LAYOUT) {
return;
}
if (ED_area_is_global(area)) {
return;
}
if (screen->temp) {
return;
}
const float coords[4][4] = {
/* Bottom-left. */
{area->totrct.xmin - U.pixelsize,
area->totrct.ymin - U.pixelsize,
area->totrct.xmin + AZONESPOTW,
area->totrct.ymin + AZONESPOTH},
/* Bottom-right. */
{area->totrct.xmax - AZONESPOTW,
area->totrct.ymin - U.pixelsize,
area->totrct.xmax + U.pixelsize,
area->totrct.ymin + AZONESPOTH},
/* Top-left. */
{area->totrct.xmin - U.pixelsize,
area->totrct.ymax - AZONESPOTH,
area->totrct.xmin + AZONESPOTW,
area->totrct.ymax + U.pixelsize},
/* Top-right. */
{area->totrct.xmax - AZONESPOTW,
area->totrct.ymax - AZONESPOTH,
area->totrct.xmax + U.pixelsize,
area->totrct.ymax + U.pixelsize},
};
for (int i = 0; i < 4; i++) {
/* can't click on bottom corners on OS X, already used for resizing */
#ifdef __APPLE__
if (!WM_window_is_fullscreen(win) &&
((coords[i][0] == 0 && coords[i][1] == 0) ||
(coords[i][0] == WM_window_pixels_x(win) && coords[i][1] == 0))) {
continue;
}
#else
(void)win;
#endif
/* set area action zones */
az = (AZone *)MEM_callocN(sizeof(AZone), "actionzone");
BLI_addtail(&(area->actionzones), az);
az->type = AZONE_AREA;
az->x1 = coords[i][0];
az->y1 = coords[i][1];
az->x2 = coords[i][2];
az->y2 = coords[i][3];
BLI_rcti_init(&az->rect, az->x1, az->x2, az->y1, az->y2);
}
}
static void fullscreen_azone_initialize(ScrArea *area, ARegion *region)
{
AZone *az;
if (ED_area_is_global(area) || (region->regiontype != RGN_TYPE_WINDOW)) {
return;
}
az = (AZone *)MEM_callocN(sizeof(AZone), "fullscreen action zone");
BLI_addtail(&(area->actionzones), az);
az->type = AZONE_FULLSCREEN;
az->region = region;
az->alpha = 0.0f;
if (U.uiflag2 & USER_REGION_OVERLAP) {
const rcti *rect_visible = ED_region_visible_rect(region);
az->x2 = region->winrct.xmin + rect_visible->xmax;
az->y2 = region->winrct.ymin + rect_visible->ymax;
}
else {
az->x2 = region->winrct.xmax;
az->y2 = region->winrct.ymax;
}
az->x1 = az->x2 - AZONEFADEOUT;
az->y1 = az->y2 - AZONEFADEOUT;
BLI_rcti_init(&az->rect, az->x1, az->x2, az->y1, az->y2);
}
#define AZONEPAD_EDGE (0.1f * U.widget_unit)
#define AZONEPAD_ICON (0.45f * U.widget_unit)
static void region_azone_edge(AZone *az, ARegion *region)
{
switch (az->edge) {
case AE_TOP_TO_BOTTOMRIGHT:
az->x1 = region->winrct.xmin;
az->y1 = region->winrct.ymax - AZONEPAD_EDGE;
az->x2 = region->winrct.xmax;
az->y2 = region->winrct.ymax + AZONEPAD_EDGE;
break;
case AE_BOTTOM_TO_TOPLEFT:
az->x1 = region->winrct.xmin;
az->y1 = region->winrct.ymin + AZONEPAD_EDGE;
az->x2 = region->winrct.xmax;
az->y2 = region->winrct.ymin - AZONEPAD_EDGE;
break;
case AE_LEFT_TO_TOPRIGHT:
az->x1 = region->winrct.xmin - AZONEPAD_EDGE;
az->y1 = region->winrct.ymin;
az->x2 = region->winrct.xmin + AZONEPAD_EDGE;
az->y2 = region->winrct.ymax;
break;
case AE_RIGHT_TO_TOPLEFT:
az->x1 = region->winrct.xmax + AZONEPAD_EDGE;
az->y1 = region->winrct.ymin;
az->x2 = region->winrct.xmax - AZONEPAD_EDGE;
az->y2 = region->winrct.ymax;
break;
}
BLI_rcti_init(&az->rect, az->x1, az->x2, az->y1, az->y2);
}
/* region already made zero sized, in shape of edge */
static void region_azone_tab_plus(ScrArea *area, AZone *az, ARegion *region)
{
AZone *azt;
int tot = 0, add;
/* Edge offset multiplied by the */
float edge_offset = 1.0f;
const float tab_size_x = 0.7f * U.widget_unit;
const float tab_size_y = 0.4f * U.widget_unit;
for (azt = area->actionzones.first; azt; azt = azt->next) {
if (azt->edge == az->edge) {
tot++;
}
}
switch (az->edge) {
case AE_TOP_TO_BOTTOMRIGHT:
add = (region->winrct.ymax == area->totrct.ymin) ? 1 : 0;
az->x1 = region->winrct.xmax - ((edge_offset + 1.0f) * tab_size_x);
az->y1 = region->winrct.ymax - add;
az->x2 = region->winrct.xmax - (edge_offset * tab_size_x);
az->y2 = region->winrct.ymax - add + tab_size_y;
break;
case AE_BOTTOM_TO_TOPLEFT:
az->x1 = region->winrct.xmax - ((edge_offset + 1.0f) * tab_size_x);
az->y1 = region->winrct.ymin - tab_size_y;
az->x2 = region->winrct.xmax - (edge_offset * tab_size_x);
az->y2 = region->winrct.ymin;
break;
case AE_LEFT_TO_TOPRIGHT:
az->x1 = region->winrct.xmin - tab_size_y;
az->y1 = region->winrct.ymax - ((edge_offset + 1.0f) * tab_size_x);
az->x2 = region->winrct.xmin;
az->y2 = region->winrct.ymax - (edge_offset * tab_size_x);
break;
case AE_RIGHT_TO_TOPLEFT:
az->x1 = region->winrct.xmax;
az->y1 = region->winrct.ymax - ((edge_offset + 1.0f) * tab_size_x);
az->x2 = region->winrct.xmax + tab_size_y;
az->y2 = region->winrct.ymax - (edge_offset * tab_size_x);
break;
}
/* rect needed for mouse pointer test */
BLI_rcti_init(&az->rect, az->x1, az->x2, az->y1, az->y2);
}
static bool region_azone_edge_poll(const ARegion *region, const bool is_fullscreen)
{
const bool is_hidden = (region->flag & (RGN_FLAG_HIDDEN | RGN_FLAG_TOO_SMALL));
if (is_hidden && is_fullscreen) {
return false;
}
if (!is_hidden && ELEM(region->regiontype, RGN_TYPE_HEADER, RGN_TYPE_TOOL_HEADER)) {
return false;
}
return true;
}
static void region_azone_edge_initialize(ScrArea *area,
ARegion *region,
AZEdge edge,
const bool is_fullscreen)
{
AZone *az = NULL;
const bool is_hidden = (region->flag & (RGN_FLAG_HIDDEN | RGN_FLAG_TOO_SMALL));
if (!region_azone_edge_poll(region, is_fullscreen)) {
return;
}
az = (AZone *)MEM_callocN(sizeof(AZone), "actionzone");
BLI_addtail(&(area->actionzones), az);
az->type = AZONE_REGION;
az->region = region;
az->edge = edge;
if (is_hidden) {
region_azone_tab_plus(area, az, region);
}
else {
region_azone_edge(az, region);
}
}
static void region_azone_scrollbar_initialize(ScrArea *area,
ARegion *region,
AZScrollDirection direction)
{
rcti scroller_vert = (direction == AZ_SCROLL_VERT) ? region->v2d.vert : region->v2d.hor;
AZone *az = MEM_callocN(sizeof(*az), __func__);
BLI_addtail(&area->actionzones, az);
az->type = AZONE_REGION_SCROLL;
az->region = region;
az->direction = direction;
if (direction == AZ_SCROLL_VERT) {
az->region->v2d.alpha_vert = 0;
}
else if (direction == AZ_SCROLL_HOR) {
az->region->v2d.alpha_hor = 0;
}
BLI_rcti_translate(&scroller_vert, region->winrct.xmin, region->winrct.ymin);
az->x1 = scroller_vert.xmin - AZONEFADEIN;
az->y1 = scroller_vert.ymin - AZONEFADEIN;
az->x2 = scroller_vert.xmax + AZONEFADEIN;
az->y2 = scroller_vert.ymax + AZONEFADEIN;
BLI_rcti_init(&az->rect, az->x1, az->x2, az->y1, az->y2);
}
static void region_azones_scrollbars_initialize(ScrArea *area, ARegion *region)
{
const View2D *v2d = &region->v2d;
if ((v2d->scroll & V2D_SCROLL_VERTICAL) && ((v2d->scroll & V2D_SCROLL_VERTICAL_HANDLES) == 0)) {
region_azone_scrollbar_initialize(area, region, AZ_SCROLL_VERT);
}
if ((v2d->scroll & V2D_SCROLL_HORIZONTAL) &&
((v2d->scroll & V2D_SCROLL_HORIZONTAL_HANDLES) == 0)) {
region_azone_scrollbar_initialize(area, region, AZ_SCROLL_HOR);
}
}
/* *************************************************************** */
static void region_azones_add_edge(ScrArea *area,
ARegion *region,
const int alignment,
const bool is_fullscreen)
{
/* edge code (t b l r) is along which area edge azone will be drawn */
if (alignment == RGN_ALIGN_TOP) {
region_azone_edge_initialize(area, region, AE_BOTTOM_TO_TOPLEFT, is_fullscreen);
}
else if (alignment == RGN_ALIGN_BOTTOM) {
region_azone_edge_initialize(area, region, AE_TOP_TO_BOTTOMRIGHT, is_fullscreen);
}
else if (alignment == RGN_ALIGN_RIGHT) {
region_azone_edge_initialize(area, region, AE_LEFT_TO_TOPRIGHT, is_fullscreen);
}
else if (alignment == RGN_ALIGN_LEFT) {
region_azone_edge_initialize(area, region, AE_RIGHT_TO_TOPLEFT, is_fullscreen);
}
}
static void region_azones_add(const bScreen *screen, ScrArea *area, ARegion *region)
{
const bool is_fullscreen = screen->state == SCREENFULL;
/* Only display tab or icons when the header region is hidden
* (not the tool header - they overlap). */
if (region->regiontype == RGN_TYPE_TOOL_HEADER) {
return;
}
region_azones_add_edge(area, region, RGN_ALIGN_ENUM_FROM_MASK(region->alignment), is_fullscreen);
/* For a split region also continue the azone edge from the next region if this region is aligned
* with the next */
if ((region->alignment & RGN_SPLIT_PREV) && region->prev) {
region_azones_add_edge(
area, region, RGN_ALIGN_ENUM_FROM_MASK(region->prev->alignment), is_fullscreen);
}
if (is_fullscreen) {
fullscreen_azone_initialize(area, region);
}
region_azones_scrollbars_initialize(area, region);
}
/* dir is direction to check, not the splitting edge direction! */
static int rct_fits(const rcti *rect, char dir, int size)
{
if (dir == 'h') {
return BLI_rcti_size_x(rect) + 1 - size;
}
else { /* 'v' */
return BLI_rcti_size_y(rect) + 1 - size;
}
}
/* *************************************************************** */
/* region should be overlapping */
/* function checks if some overlapping region was defined before - on same place */
static void region_overlap_fix(ScrArea *area, ARegion *region)
{
ARegion *ar1;
const int align = RGN_ALIGN_ENUM_FROM_MASK(region->alignment);
int align1 = 0;
/* find overlapping previous region on same place */
for (ar1 = region->prev; ar1; ar1 = ar1->prev) {
if (ar1->flag & RGN_FLAG_HIDDEN) {
continue;
}
if (ar1->overlap && ((ar1->alignment & RGN_SPLIT_PREV) == 0)) {
if (ELEM(ar1->alignment, RGN_ALIGN_FLOAT)) {
continue;
}
align1 = ar1->alignment;
if (BLI_rcti_isect(&ar1->winrct, &region->winrct, NULL)) {
if (align1 != align) {
/* Left overlapping right or vice-versa, forbid this! */
region->flag |= RGN_FLAG_TOO_SMALL;
return;
}
/* Else, we have our previous region on same side. */
break;
}
}
}
/* Guard against flags slipping through that would have to be masked out in usages below. */
BLI_assert(align1 == RGN_ALIGN_ENUM_FROM_MASK(align1));
/* translate or close */
if (ar1) {
if (align1 == RGN_ALIGN_LEFT) {
if (region->winrct.xmax + ar1->winx > area->winx - U.widget_unit) {
region->flag |= RGN_FLAG_TOO_SMALL;
return;
}
else {
BLI_rcti_translate(&region->winrct, ar1->winx, 0);
}
}
else if (align1 == RGN_ALIGN_RIGHT) {
if (region->winrct.xmin - ar1->winx < U.widget_unit) {
region->flag |= RGN_FLAG_TOO_SMALL;
return;
}
else {
BLI_rcti_translate(&region->winrct, -ar1->winx, 0);
}
}
}
/* At this point, 'region' is in its final position and still open.
* Make a final check it does not overlap any previous 'other side' region. */
for (ar1 = region->prev; ar1; ar1 = ar1->prev) {
if (ar1->flag & RGN_FLAG_HIDDEN) {
continue;
}
if (ELEM(ar1->alignment, RGN_ALIGN_FLOAT)) {
continue;
}
if (ar1->overlap && (ar1->alignment & RGN_SPLIT_PREV) == 0) {
if ((ar1->alignment != align) && BLI_rcti_isect(&ar1->winrct, &region->winrct, NULL)) {
/* Left overlapping right or vice-versa, forbid this! */
region->flag |= RGN_FLAG_TOO_SMALL;
return;
}
}
}
}
/* overlapping regions only in the following restricted cases */
bool ED_region_is_overlap(int spacetype, int regiontype)
{
if (regiontype == RGN_TYPE_HUD) {
return true;
}
if (U.uiflag2 & USER_REGION_OVERLAP) {
if (spacetype == SPACE_NODE) {
if (regiontype == RGN_TYPE_TOOLS) {
return true;
}
}
else if (ELEM(spacetype, SPACE_VIEW3D, SPACE_IMAGE)) {
if (ELEM(regiontype,
RGN_TYPE_TOOLS,
RGN_TYPE_UI,
RGN_TYPE_TOOL_PROPS,
RGN_TYPE_HEADER,
RGN_TYPE_FOOTER)) {
return true;
}
}
}
return false;
}
static void region_rect_recursive(
ScrArea *area, ARegion *region, rcti *remainder, rcti *overlap_remainder, int quad)
{
rcti *remainder_prev = remainder;
if (region == NULL) {
return;
}
int prev_winx = region->winx;
int prev_winy = region->winy;
/* no returns in function, winrct gets set in the end again */
BLI_rcti_init(&region->winrct, 0, 0, 0, 0);
/* for test; allow split of previously defined region */
if (region->alignment & RGN_SPLIT_PREV) {
if (region->prev) {
remainder = &region->prev->winrct;
}
}
int alignment = RGN_ALIGN_ENUM_FROM_MASK(region->alignment);
/* set here, assuming userpref switching forces to call this again */
region->overlap = ED_region_is_overlap(area->spacetype, region->regiontype);
/* clear state flags first */
region->flag &= ~(RGN_FLAG_TOO_SMALL | RGN_FLAG_SIZE_CLAMP_X | RGN_FLAG_SIZE_CLAMP_Y);
/* user errors */
if ((region->next == NULL) && !ELEM(alignment, RGN_ALIGN_QSPLIT, RGN_ALIGN_FLOAT)) {
alignment = RGN_ALIGN_NONE;
}
/* If both the ARegion.sizex/y and the prefsize are 0, the region is tagged as too small, even
* before the layout for dynamic regions is created. #wm_draw_window_offscreen() allows the
* layout to be created despite the RGN_FLAG_TOO_SMALL flag being set. But there may still be
* regions that don't have a separate ARegionType.layout callback. For those, set a default
* prefsize so they can become visible. */
if ((region->flag & RGN_FLAG_DYNAMIC_SIZE) && !(region->type->layout)) {
if ((region->sizex == 0) && (region->type->prefsizex == 0)) {
region->type->prefsizex = AREAMINX;
}
if ((region->sizey == 0) && (region->type->prefsizey == 0)) {
region->type->prefsizey = HEADERY;
}
}
/* prefsize, taking into account DPI */
int prefsizex = UI_DPI_FAC *
((region->sizex > 1) ? region->sizex + 0.5f : region->type->prefsizex);
int prefsizey;
if (region->flag & RGN_FLAG_PREFSIZE_OR_HIDDEN) {
prefsizex = UI_DPI_FAC * region->type->prefsizex;
prefsizey = UI_DPI_FAC * region->type->prefsizey;
}
else if (region->regiontype == RGN_TYPE_HEADER) {
prefsizey = ED_area_headersize();
}
else if (region->regiontype == RGN_TYPE_TOOL_HEADER) {
prefsizey = ED_area_headersize();
}
else if (region->regiontype == RGN_TYPE_FOOTER) {
prefsizey = ED_area_footersize();
}
else if (ED_area_is_global(area)) {
prefsizey = ED_region_global_size_y();
}
else {
prefsizey = UI_DPI_FAC * (region->sizey > 1 ? region->sizey + 0.5f : region->type->prefsizey);
}
if (region->flag & RGN_FLAG_HIDDEN) {
/* hidden is user flag */
}
else if (alignment == RGN_ALIGN_FLOAT) {
/**
* \note Currently this window type is only used for #RGN_TYPE_HUD,
* We expect the panel to resize it's self to be larger.
*
* This aligns to the lower left of the area.
*/
const int size_min[2] = {UI_UNIT_X, UI_UNIT_Y};
rcti overlap_remainder_margin = *overlap_remainder;
BLI_rcti_resize(&overlap_remainder_margin,
max_ii(0, BLI_rcti_size_x(overlap_remainder) - UI_UNIT_X / 2),
max_ii(0, BLI_rcti_size_y(overlap_remainder) - UI_UNIT_Y / 2));
region->winrct.xmin = overlap_remainder_margin.xmin + region->runtime.offset_x;
region->winrct.ymin = overlap_remainder_margin.ymin + region->runtime.offset_y;
region->winrct.xmax = region->winrct.xmin + prefsizex - 1;
region->winrct.ymax = region->winrct.ymin + prefsizey - 1;
BLI_rcti_isect(&region->winrct, &overlap_remainder_margin, &region->winrct);
if (BLI_rcti_size_x(&region->winrct) != prefsizex - 1) {
region->flag |= RGN_FLAG_SIZE_CLAMP_X;
}
if (BLI_rcti_size_y(&region->winrct) != prefsizey - 1) {
region->flag |= RGN_FLAG_SIZE_CLAMP_Y;
}
/* We need to use a test that wont have been previously clamped. */
rcti winrct_test = {
.xmin = region->winrct.xmin,
.ymin = region->winrct.ymin,
.xmax = region->winrct.xmin + size_min[0],
.ymax = region->winrct.ymin + size_min[1],
};
BLI_rcti_isect(&winrct_test, &overlap_remainder_margin, &winrct_test);
if (BLI_rcti_size_x(&winrct_test) < size_min[0] ||
BLI_rcti_size_y(&winrct_test) < size_min[1]) {
region->flag |= RGN_FLAG_TOO_SMALL;
}
}
else if (rct_fits(remainder, 'v', 1) < 0 || rct_fits(remainder, 'h', 1) < 0) {
/* remainder is too small for any usage */
region->flag |= RGN_FLAG_TOO_SMALL;
}
else if (alignment == RGN_ALIGN_NONE) {
/* typically last region */
region->winrct = *remainder;
BLI_rcti_init(remainder, 0, 0, 0, 0);
}
else if (alignment == RGN_ALIGN_TOP || alignment == RGN_ALIGN_BOTTOM) {
rcti *winrct = (region->overlap) ? overlap_remainder : remainder;
if ((prefsizey == 0) || (rct_fits(winrct, 'v', prefsizey) < 0)) {
region->flag |= RGN_FLAG_TOO_SMALL;
}
else {
int fac = rct_fits(winrct, 'v', prefsizey);
if (fac < 0) {
prefsizey += fac;
}
region->winrct = *winrct;
if (alignment == RGN_ALIGN_TOP) {
region->winrct.ymin = region->winrct.ymax - prefsizey + 1;
winrct->ymax = region->winrct.ymin - 1;
}
else {
region->winrct.ymax = region->winrct.ymin + prefsizey - 1;
winrct->ymin = region->winrct.ymax + 1;
}
BLI_rcti_sanitize(winrct);
}
}
else if (ELEM(alignment, RGN_ALIGN_LEFT, RGN_ALIGN_RIGHT)) {
rcti *winrct = (region->overlap) ? overlap_remainder : remainder;
if ((prefsizex == 0) || (rct_fits(winrct, 'h', prefsizex) < 0)) {
region->flag |= RGN_FLAG_TOO_SMALL;
}
else {
int fac = rct_fits(winrct, 'h', prefsizex);
if (fac < 0) {
prefsizex += fac;
}
region->winrct = *winrct;
if (alignment == RGN_ALIGN_RIGHT) {
region->winrct.xmin = region->winrct.xmax - prefsizex + 1;
winrct->xmax = region->winrct.xmin - 1;
}
else {
region->winrct.xmax = region->winrct.xmin + prefsizex - 1;
winrct->xmin = region->winrct.xmax + 1;
}
BLI_rcti_sanitize(winrct);
}
}
else if (alignment == RGN_ALIGN_VSPLIT || alignment == RGN_ALIGN_HSPLIT) {
/* percentage subdiv*/
region->winrct = *remainder;
if (alignment == RGN_ALIGN_HSPLIT) {
if (rct_fits(remainder, 'h', prefsizex) > 4) {
region->winrct.xmax = BLI_rcti_cent_x(remainder);
remainder->xmin = region->winrct.xmax + 1;
}
else {
BLI_rcti_init(remainder, 0, 0, 0, 0);
}
}
else {
if (rct_fits(remainder, 'v', prefsizey) > 4) {
region->winrct.ymax = BLI_rcti_cent_y(remainder);
remainder->ymin = region->winrct.ymax + 1;
}
else {
BLI_rcti_init(remainder, 0, 0, 0, 0);
}
}
}
else if (alignment == RGN_ALIGN_QSPLIT) {
region->winrct = *remainder;
/* test if there's still 4 regions left */
if (quad == 0) {
ARegion *artest = region->next;
int count = 1;
while (artest) {
artest->alignment = RGN_ALIGN_QSPLIT;
artest = artest->next;
count++;
}
if (count != 4) {
/* let's stop adding regions */
BLI_rcti_init(remainder, 0, 0, 0, 0);
if (G.debug & G_DEBUG) {
printf("region quadsplit failed\n");
}
}
else {
quad = 1;
}
}
if (quad) {
if (quad == 1) { /* left bottom */
region->winrct.xmax = BLI_rcti_cent_x(remainder);
region->winrct.ymax = BLI_rcti_cent_y(remainder);
}
else if (quad == 2) { /* left top */
region->winrct.xmax = BLI_rcti_cent_x(remainder);
region->winrct.ymin = BLI_rcti_cent_y(remainder) + 1;
}
else if (quad == 3) { /* right bottom */
region->winrct.xmin = BLI_rcti_cent_x(remainder) + 1;
region->winrct.ymax = BLI_rcti_cent_y(remainder);
}
else { /* right top */
region->winrct.xmin = BLI_rcti_cent_x(remainder) + 1;
region->winrct.ymin = BLI_rcti_cent_y(remainder) + 1;
BLI_rcti_init(remainder, 0, 0, 0, 0);
}
/* Fix any negative dimensions. This can happen when a quad split 3d view gets to small. (see
* T72200). */
BLI_rcti_sanitize(&region->winrct);
quad++;
}
}
/* for speedup */
region->winx = BLI_rcti_size_x(&region->winrct) + 1;
region->winy = BLI_rcti_size_y(&region->winrct) + 1;
/* if region opened normally, we store this for hide/reveal usage */
/* prevent rounding errors for UI_DPI_FAC mult and divide */
if (region->winx > 1) {
region->sizex = (region->winx + 0.5f) / UI_DPI_FAC;
}
if (region->winy > 1) {
region->sizey = (region->winy + 0.5f) / UI_DPI_FAC;
}
/* exception for multiple overlapping regions on same spot */
if (region->overlap && (alignment != RGN_ALIGN_FLOAT)) {
region_overlap_fix(area, region);
}
/* set winrect for azones */
if (region->flag & (RGN_FLAG_HIDDEN | RGN_FLAG_TOO_SMALL)) {
region->winrct = (region->overlap) ? *overlap_remainder : *remainder;
switch (alignment) {
case RGN_ALIGN_TOP:
region->winrct.ymin = region->winrct.ymax;
break;
case RGN_ALIGN_BOTTOM:
region->winrct.ymax = region->winrct.ymin;
break;
case RGN_ALIGN_RIGHT:
region->winrct.xmin = region->winrct.xmax;
break;
case RGN_ALIGN_LEFT:
region->winrct.xmax = region->winrct.xmin;
break;
default:
/* prevent winrct to be valid */
region->winrct.xmax = region->winrct.xmin;
break;
}
/* Size on one axis is now 0, the other axis may still be invalid (negative) though. */
BLI_rcti_sanitize(&region->winrct);
}
/* restore prev-split exception */
if (region->alignment & RGN_SPLIT_PREV) {
if (region->prev) {
remainder = remainder_prev;
region->prev->winx = BLI_rcti_size_x(&region->prev->winrct) + 1;
region->prev->winy = BLI_rcti_size_y(&region->prev->winrct) + 1;
}
}
/* After non-overlapping region, all following overlapping regions
* fit within the remaining space again. */
if (!region->overlap) {
*overlap_remainder = *remainder;
}
BLI_assert(BLI_rcti_is_valid(&region->winrct));
region_rect_recursive(area, region->next, remainder, overlap_remainder, quad);
/* Tag for redraw if size changes. */
if (region->winx != prev_winx || region->winy != prev_winy) {
/* 3D View needs a full rebuild in case a progressive render runs. Rest can live with
* no-rebuild (e.g. Outliner) */
if (area->spacetype == SPACE_VIEW3D) {
ED_region_tag_redraw(region);
}
else {
ED_region_tag_redraw_no_rebuild(region);
}
}
/* Clear, initialize on demand. */
memset(&region->runtime.visible_rect, 0, sizeof(region->runtime.visible_rect));
}
static void area_calc_totrct(ScrArea *area, const rcti *window_rect)
{
short px = (short)U.pixelsize;
area->totrct.xmin = area->v1->vec.x;
area->totrct.xmax = area->v4->vec.x;
area->totrct.ymin = area->v1->vec.y;
area->totrct.ymax = area->v2->vec.y;
/* scale down totrct by 1 pixel on all sides not matching window borders */
if (area->totrct.xmin > window_rect->xmin) {
area->totrct.xmin += px;
}
if (area->totrct.xmax < (window_rect->xmax - 1)) {
area->totrct.xmax -= px;
}
if (area->totrct.ymin > window_rect->ymin) {
area->totrct.ymin += px;
}
if (area->totrct.ymax < (window_rect->ymax - 1)) {
area->totrct.ymax -= px;
}
/* Although the following asserts are correct they lead to a very unstable Blender.
* And the asserts would fail even in 2.7x
* (they were added in 2.8x as part of the top-bar commit).
* For more details see T54864. */
#if 0
BLI_assert(area->totrct.xmin >= 0);
BLI_assert(area->totrct.xmax >= 0);
BLI_assert(area->totrct.ymin >= 0);
BLI_assert(area->totrct.ymax >= 0);
#endif
/* for speedup */
area->winx = BLI_rcti_size_x(&area->totrct) + 1;
area->winy = BLI_rcti_size_y(&area->totrct) + 1;
}
/* used for area initialize below */
static void region_subwindow(ARegion *region)
{
bool hidden = (region->flag & (RGN_FLAG_HIDDEN | RGN_FLAG_TOO_SMALL)) != 0;
if ((region->alignment & RGN_SPLIT_PREV) && region->prev) {
hidden = hidden || (region->prev->flag & (RGN_FLAG_HIDDEN | RGN_FLAG_TOO_SMALL));
}
region->visible = !hidden;
}
static bool event_in_markers_region(const ARegion *region, const wmEvent *event)
{
rcti rect = region->winrct;
rect.ymax = rect.ymin + UI_MARKER_MARGIN_Y;
return BLI_rcti_isect_pt(&rect, event->x, event->y);
}
/**
* \param region: Region, may be NULL when adding handlers for \a area.
*/
static void ed_default_handlers(
wmWindowManager *wm, ScrArea *area, ARegion *region, ListBase *handlers, int flag)
{
BLI_assert(region ? (&region->handlers == handlers) : (&area->handlers == handlers));
/* note, add-handler checks if it already exists */
/* XXX it would be good to have boundbox checks for some of these... */
if (flag & ED_KEYMAP_UI) {
wmKeyMap *keymap = WM_keymap_ensure(wm->defaultconf, "User Interface", 0, 0);
WM_event_add_keymap_handler(handlers, keymap);
/* user interface widgets */
UI_region_handlers_add(handlers);
}
if (flag & ED_KEYMAP_GIZMO) {
BLI_assert(region && ELEM(region->type->regionid, RGN_TYPE_WINDOW, RGN_TYPE_PREVIEW));
if (region) {
/* Anything else is confusing, only allow this. */
BLI_assert(&region->handlers == handlers);
if (region->gizmo_map == NULL) {
region->gizmo_map = WM_gizmomap_new_from_type(
&(const struct wmGizmoMapType_Params){area->spacetype, region->type->regionid});
}
WM_gizmomap_add_handlers(region, region->gizmo_map);
}
}
if (flag & ED_KEYMAP_VIEW2D) {
/* 2d-viewport handling+manipulation */
wmKeyMap *keymap = WM_keymap_ensure(wm->defaultconf, "View2D", 0, 0);
WM_event_add_keymap_handler(handlers, keymap);
}
if (flag & ED_KEYMAP_ANIMATION) {
wmKeyMap *keymap;
/* time-markers */
keymap = WM_keymap_ensure(wm->defaultconf, "Markers", 0, 0);
WM_event_add_keymap_handler_poll(handlers, keymap, event_in_markers_region);
/* time-scrub */
keymap = WM_keymap_ensure(wm->defaultconf, "Time Scrub", 0, 0);
WM_event_add_keymap_handler_poll(handlers, keymap, ED_time_scrub_event_in_region);
/* frame changing and timeline operators (for time spaces) */
keymap = WM_keymap_ensure(wm->defaultconf, "Animation", 0, 0);
WM_event_add_keymap_handler(handlers, keymap);
}
if (flag & ED_KEYMAP_TOOL) {
WM_event_add_keymap_handler_dynamic(
&region->handlers, WM_event_get_keymap_from_toolsystem_fallback, area);
WM_event_add_keymap_handler_dynamic(
&region->handlers, WM_event_get_keymap_from_toolsystem, area);
}
if (flag & ED_KEYMAP_FRAMES) {
/* frame changing/jumping (for all spaces) */
wmKeyMap *keymap = WM_keymap_ensure(wm->defaultconf, "Frames", 0, 0);
WM_event_add_keymap_handler(handlers, keymap);
}
if (flag & ED_KEYMAP_HEADER) {
/* standard keymap for headers regions */
wmKeyMap *keymap = WM_keymap_ensure(wm->defaultconf, "Region Context Menu", 0, 0);
WM_event_add_keymap_handler(handlers, keymap);
}
if (flag & ED_KEYMAP_FOOTER) {
/* standard keymap for footer regions */
wmKeyMap *keymap = WM_keymap_ensure(wm->defaultconf, "Region Context Menu", 0, 0);
WM_event_add_keymap_handler(handlers, keymap);
}
if (flag & ED_KEYMAP_NAVBAR) {
/* standard keymap for Navigation bar regions */
wmKeyMap *keymap = WM_keymap_ensure(wm->defaultconf, "Region Context Menu", 0, 0);
WM_event_add_keymap_handler(&region->handlers, keymap);
}
/* Keep last because of LMB/RMB handling, see: T57527. */
if (flag & ED_KEYMAP_GPENCIL) {
/* grease pencil */
/* NOTE: This is now 4 keymaps - One for basic functionality,
* and others for special stroke modes (edit, paint and sculpt).
*
* For now, it's easier to just include all,
* since you hardly want one without the others.
*/
wmKeyMap *keymap_general = WM_keymap_ensure(wm->defaultconf, "Grease Pencil", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_general);
wmKeyMap *keymap_edit = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Edit Mode", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_edit);
wmKeyMap *keymap_paint = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Paint Mode", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_paint);
wmKeyMap *keymap_paint_draw = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Paint (Draw brush)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_paint_draw);
wmKeyMap *keymap_paint_erase = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Paint (Erase)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_paint_erase);
wmKeyMap *keymap_paint_fill = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Paint (Fill)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_paint_fill);
wmKeyMap *keymap_paint_tint = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Paint (Tint)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_paint_tint);
wmKeyMap *keymap_sculpt = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Sculpt Mode", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_sculpt);
wmKeyMap *keymap_vertex = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Vertex Mode", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_vertex);
wmKeyMap *keymap_vertex_draw = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Vertex (Draw)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_vertex_draw);
wmKeyMap *keymap_vertex_blur = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Vertex (Blur)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_vertex_blur);
wmKeyMap *keymap_vertex_average = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Vertex (Average)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_vertex_average);
wmKeyMap *keymap_vertex_smear = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Vertex (Smear)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_vertex_smear);
wmKeyMap *keymap_vertex_replace = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Vertex (Replace)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_vertex_replace);
wmKeyMap *keymap_sculpt_smooth = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Sculpt (Smooth)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_sculpt_smooth);
wmKeyMap *keymap_sculpt_thickness = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Sculpt (Thickness)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_sculpt_thickness);
wmKeyMap *keymap_sculpt_strength = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Sculpt (Strength)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_sculpt_strength);
wmKeyMap *keymap_sculpt_grab = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Sculpt (Grab)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_sculpt_grab);
wmKeyMap *keymap_sculpt_push = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Sculpt (Push)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_sculpt_push);
wmKeyMap *keymap_sculpt_twist = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Sculpt (Twist)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_sculpt_twist);
wmKeyMap *keymap_sculpt_pinch = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Sculpt (Pinch)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_sculpt_pinch);
wmKeyMap *keymap_sculpt_randomize = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Sculpt (Randomize)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_sculpt_randomize);
wmKeyMap *keymap_sculpt_clone = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Sculpt (Clone)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_sculpt_clone);
wmKeyMap *keymap_weight = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Weight Mode", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_weight);
wmKeyMap *keymap_weight_draw = WM_keymap_ensure(
wm->defaultconf, "Grease Pencil Stroke Weight (Draw)", 0, 0);
WM_event_add_keymap_handler(handlers, keymap_weight_draw);
}
}
void ED_area_update_region_sizes(wmWindowManager *wm, wmWindow *win, ScrArea *area)
{
rcti rect, overlap_rect;
rcti window_rect;
if (!(area->flag & AREA_FLAG_REGION_SIZE_UPDATE)) {
return;
}
const bScreen *screen = WM_window_get_active_screen(win);
WM_window_rect_calc(win, &window_rect);
area_calc_totrct(area, &window_rect);
/* region rect sizes */
rect = area->totrct;
overlap_rect = rect;
region_rect_recursive(area, area->regionbase.first, &rect, &overlap_rect, 0);
/* Dynamically sized regions may have changed region sizes, so we have to force azone update. */
area_azone_initialize(win, screen, area);
LISTBASE_FOREACH (ARegion *, region, &area->regionbase) {
region_subwindow(region);
/* region size may have changed, init does necessary adjustments */
if (region->type->init) {
region->type->init(wm, region);
}
/* Some AZones use View2D data which is only updated in region init, so call that first! */
region_azones_add(screen, area, region);
}
ED_area_azones_update(area, &win->eventstate->x);
area->flag &= ~AREA_FLAG_REGION_SIZE_UPDATE;
}
/* called in screen_refresh, or screens_init, also area size changes */
void ED_area_initialize(wmWindowManager *wm, wmWindow *win, ScrArea *area)
{
WorkSpace *workspace = WM_window_get_active_workspace(win);
const bScreen *screen = BKE_workspace_active_screen_get(win->workspace_hook);
ViewLayer *view_layer = WM_window_get_active_view_layer(win);
ARegion *region;
rcti rect, overlap_rect;
rcti window_rect;
if (ED_area_is_global(area) && (area->global->flag & GLOBAL_AREA_IS_HIDDEN)) {
return;
}
WM_window_rect_calc(win, &window_rect);
/* set typedefinitions */
area->type = BKE_spacetype_from_id(area->spacetype);
if (area->type == NULL) {
area->spacetype = SPACE_VIEW3D;
area->type = BKE_spacetype_from_id(area->spacetype);
}
for (region = area->regionbase.first; region; region = region->next) {
region->type = BKE_regiontype_from_id_or_first(area->type, region->regiontype);
}
/* area sizes */
area_calc_totrct(area, &window_rect);
/* region rect sizes */
rect = area->totrct;
overlap_rect = rect;
region_rect_recursive(area, area->regionbase.first, &rect, &overlap_rect, 0);
area->flag &= ~AREA_FLAG_REGION_SIZE_UPDATE;
/* default area handlers */
ed_default_handlers(wm, area, NULL, &area->handlers, area->type->keymapflag);
/* checks spacedata, adds own handlers */
if (area->type->init) {
area->type->init(wm, area);
}
/* clear all azones, add the area triangle widgets */
area_azone_initialize(win, screen, area);
/* region windows, default and own handlers */
for (region = area->regionbase.first; region; region = region->next) {
region_subwindow(region);
if (region->visible) {
/* default region handlers */
ed_default_handlers(wm, area, region, &region->handlers, region->type->keymapflag);
/* own handlers */
if (region->type->init) {
region->type->init(wm, region);
}
}
else {
/* prevent uiblocks to run */
UI_blocklist_free(NULL, &region->uiblocks);
}
/* Some AZones use View2D data which is only updated in region init, so call that first! */
region_azones_add(screen, area, region);
}
/* Avoid re-initializing tools while resizing the window. */
if ((G.moving & G_TRANSFORM_WM) == 0) {
if ((1 << area->spacetype) & WM_TOOLSYSTEM_SPACE_MASK) {
WM_toolsystem_refresh_screen_area(workspace, view_layer, area);
area->flag |= AREA_FLAG_ACTIVE_TOOL_UPDATE;
}
else {
area->runtime.tool = NULL;
area->runtime.is_tool_set = true;
}
}
}
static void region_update_rect(ARegion *region)
{
region->winx = BLI_rcti_size_x(&region->winrct) + 1;
region->winy = BLI_rcti_size_y(&region->winrct) + 1;
/* v2d mask is used to subtract scrollbars from a 2d view. Needs initialize here. */
BLI_rcti_init(&region->v2d.mask, 0, region->winx - 1, 0, region->winy - 1);
}
/**
* Call to move a popup window (keep OpenGL context free!)
*/
void ED_region_update_rect(ARegion *region)
{
region_update_rect(region);
}
/* externally called for floating regions like menus */
void ED_region_floating_initialize(ARegion *region)
{
BLI_assert(region->alignment == RGN_ALIGN_FLOAT);
/* refresh can be called before window opened */
region_subwindow(region);
region_update_rect(region);
}
void ED_region_cursor_set(wmWindow *win, ScrArea *area, ARegion *region)
{
if (region != NULL) {
if ((region->gizmo_map != NULL) && WM_gizmomap_cursor_set(region->gizmo_map, win)) {
return;
}
if (area && region->type && region->type->cursor) {
region->type->cursor(win, area, region);
return;
}
}
if (WM_cursor_set_from_tool(win, area, region)) {
return;
}
WM_cursor_set(win, WM_CURSOR_DEFAULT);
}
/* for use after changing visibility of regions */
void ED_region_visibility_change_update(bContext *C, ScrArea *area, ARegion *region)
{
if (region->flag & RGN_FLAG_HIDDEN) {
WM_event_remove_handlers(C, &region->handlers);
}
ED_area_initialize(CTX_wm_manager(C), CTX_wm_window(C), area);
ED_area_tag_redraw(area);
}
/* for quick toggle, can skip fades */
void region_toggle_hidden(bContext *C, ARegion *region, const bool do_fade)
{
ScrArea *area = CTX_wm_area(C);
region->flag ^= RGN_FLAG_HIDDEN;
if (do_fade && region->overlap) {
/* starts a timer, and in end calls the stuff below itself (region_sblend_invoke()) */
ED_region_visibility_change_update_animated(C, area, region);
}
else {
ED_region_visibility_change_update(C, area, region);
}
}
/* exported to all editors, uses fading default */
void ED_region_toggle_hidden(bContext *C, ARegion *region)
{
region_toggle_hidden(C, region, true);
}
/**
* we swap spaces for fullscreen to keep all allocated data area vertices were set
*/
void ED_area_data_copy(ScrArea *area_dst, ScrArea *area_src, const bool do_free)
{
SpaceType *st;
ARegion *region;
const char spacetype = area_dst->spacetype;
const short flag_copy = HEADER_NO_PULLDOWN;
area_dst->spacetype = area_src->spacetype;
area_dst->type = area_src->type;
area_dst->flag = (area_dst->flag & ~flag_copy) | (area_src->flag & flag_copy);
/* area */
if (do_free) {
BKE_spacedata_freelist(&area_dst->spacedata);
}
BKE_spacedata_copylist(&area_dst->spacedata, &area_src->spacedata);
/* Note; SPACE_EMPTY is possible on new screens */
/* regions */
if (do_free) {
st = BKE_spacetype_from_id(spacetype);
for (region = area_dst->regionbase.first; region; region = region->next) {
BKE_area_region_free(st, region);
}
BLI_freelistN(&area_dst->regionbase);
}
st = BKE_spacetype_from_id(area_src->spacetype);
for (region = area_src->regionbase.first; region; region = region->next) {
ARegion *newar = BKE_area_region_copy(st, region);
BLI_addtail(&area_dst->regionbase, newar);
}
}
void ED_area_data_swap(ScrArea *area_dst, ScrArea *area_src)
{
SWAP(char, area_dst->spacetype, area_src->spacetype);
SWAP(SpaceType *, area_dst->type, area_src->type);
SWAP(ListBase, area_dst->spacedata, area_src->spacedata);
SWAP(ListBase, area_dst->regionbase, area_src->regionbase);
}
/* *********** Space switching code *********** */
void ED_area_swapspace(bContext *C, ScrArea *sa1, ScrArea *sa2)
{
ScrArea *tmp = MEM_callocN(sizeof(ScrArea), "addscrarea");
wmWindow *win = CTX_wm_window(C);
ED_area_exit(C, sa1);
ED_area_exit(C, sa2);
ED_area_data_copy(tmp, sa1, false);
ED_area_data_copy(sa1, sa2, true);
ED_area_data_copy(sa2, tmp, true);
ED_area_initialize(CTX_wm_manager(C), win, sa1);
ED_area_initialize(CTX_wm_manager(C), win, sa2);
BKE_screen_area_free(tmp);
MEM_freeN(tmp);
/* tell WM to refresh, cursor types etc */
WM_event_add_mousemove(win);
ED_area_tag_redraw(sa1);
ED_area_tag_refresh(sa1);
ED_area_tag_redraw(sa2);
ED_area_tag_refresh(sa2);
}
/**
* \param skip_region_exit: Skip calling area exit callback. Set for opening temp spaces.
*/
void ED_area_newspace(bContext *C, ScrArea *area, int type, const bool skip_region_exit)
{
wmWindow *win = CTX_wm_window(C);
if (area->spacetype != type) {
SpaceType *st;
SpaceLink *slold = area->spacedata.first;
SpaceLink *sl;
/* store area->type->exit callback */
void *area_exit = area->type ? area->type->exit : NULL;
/* When the user switches between space-types from the type-selector,
* changing the header-type is jarring (especially when using Ctrl-MouseWheel).
*
* However, add-on install for example, forces the header to the top which shouldn't
* be applied back to the previous space type when closing - see: T57724
*
* Newly created windows wont have any space data, use the alignment
* the space type defaults to in this case instead
* (needed for preferences to have space-type on bottom).
*/
int header_alignment = ED_area_header_alignment_or_fallback(area, -1);
const bool sync_header_alignment = ((header_alignment != -1) &&
((slold->link_flag & SPACE_FLAG_TYPE_TEMPORARY) == 0));
/* in some cases (opening temp space) we don't want to
* call area exit callback, so we temporarily unset it */
if (skip_region_exit && area->type) {
area->type->exit = NULL;
}
ED_area_exit(C, area);
/* restore old area exit callback */
if (skip_region_exit && area->type) {
area->type->exit = area_exit;
}
st = BKE_spacetype_from_id(type);
area->spacetype = type;
area->type = st;
/* If st->new may be called, don't use context until then. The
* area->type->context() callback has changed but data may be invalid
* (e.g. with properties editor) until space-data is properly created */
/* check previously stored space */
for (sl = area->spacedata.first; sl; sl = sl->next) {
if (sl->spacetype == type) {
break;
}
}
/* old spacedata... happened during work on 2.50, remove */
if (sl && BLI_listbase_is_empty(&sl->regionbase)) {
st->free(sl);
BLI_freelinkN(&area->spacedata, sl);
if (slold == sl) {
slold = NULL;
}
sl = NULL;
}
if (sl) {
/* swap regions */
slold->regionbase = area->regionbase;
area->regionbase = sl->regionbase;
BLI_listbase_clear(&sl->regionbase);
/* SPACE_FLAG_TYPE_WAS_ACTIVE is only used to go back to a previously active space that is
* overlapped by temporary ones. It's now properly activated, so the flag should be cleared
* at this point. */
sl->link_flag &= ~SPACE_FLAG_TYPE_WAS_ACTIVE;
/* put in front of list */
BLI_remlink(&area->spacedata, sl);
BLI_addhead(&area->spacedata, sl);
}
else {
/* new space */
if (st) {
/* Don't get scene from context here which may depend on space-data. */
Scene *scene = WM_window_get_active_scene(win);
sl = st->new (area, scene);
BLI_addhead(&area->spacedata, sl);
/* swap regions */
if (slold) {
slold->regionbase = area->regionbase;
}
area->regionbase = sl->regionbase;
BLI_listbase_clear(&sl->regionbase);
}
}
/* Sync header alignment. */
if (sync_header_alignment) {
/* Spaces with footer. */
if (st->spaceid == SPACE_TEXT) {
LISTBASE_FOREACH (ARegion *, region, &area->regionbase) {
if (ELEM(region->regiontype, RGN_TYPE_HEADER, RGN_TYPE_TOOL_HEADER)) {
region->alignment = header_alignment;
}
if (region->regiontype == RGN_TYPE_FOOTER) {
int footer_alignment = (header_alignment == RGN_ALIGN_BOTTOM) ? RGN_ALIGN_TOP :
RGN_ALIGN_BOTTOM;
region->alignment = footer_alignment;
break;
}
}
}
else {
LISTBASE_FOREACH (ARegion *, region, &area->regionbase) {
if (ELEM(region->regiontype, RGN_TYPE_HEADER, RGN_TYPE_TOOL_HEADER)) {
region->alignment = header_alignment;
break;
}
}
}
}
ED_area_initialize(CTX_wm_manager(C), win, area);
/* tell WM to refresh, cursor types etc */
WM_event_add_mousemove(win);
/* send space change notifier */
WM_event_add_notifier(C, NC_SPACE | ND_SPACE_CHANGED, area);
ED_area_tag_refresh(area);
}
/* also redraw when re-used */
ED_area_tag_redraw(area);
}
static SpaceLink *area_get_prevspace(ScrArea *area)
{
SpaceLink *sl = area->spacedata.first;
/* First toggle to the next temporary space in the list. */
for (SpaceLink *sl_iter = sl->next; sl_iter; sl_iter = sl_iter->next) {
if (sl_iter->link_flag & SPACE_FLAG_TYPE_TEMPORARY) {
return sl_iter;
}
}
/* No temporary space, find the item marked as last active. */
for (SpaceLink *sl_iter = sl->next; sl_iter; sl_iter = sl_iter->next) {
if (sl_iter->link_flag & SPACE_FLAG_TYPE_WAS_ACTIVE) {
return sl_iter;
}
}
/* If neither is found, we can just return to the regular previous one. */
return sl->next;
}
void ED_area_prevspace(bContext *C, ScrArea *area)
{
SpaceLink *sl = area->spacedata.first;
SpaceLink *prevspace = sl ? area_get_prevspace(area) : NULL;
if (prevspace) {
ED_area_newspace(C, area, prevspace->spacetype, false);
/* We've exited the space, so it can't be considered temporary anymore. */
sl->link_flag &= ~SPACE_FLAG_TYPE_TEMPORARY;
}
else {
/* no change */
return;
}
/* If this is a stacked fullscreen, changing to previous area exits it (meaning we're still in a
* fullscreen, but not in a stacked one). */
area->flag &= ~AREA_FLAG_STACKED_FULLSCREEN;
ED_area_tag_redraw(area);
/* send space change notifier */
WM_event_add_notifier(C, NC_SPACE | ND_SPACE_CHANGED, area);
}
/* returns offset for next button in header */
int ED_area_header_switchbutton(const bContext *C, uiBlock *block, int yco)
{
ScrArea *area = CTX_wm_area(C);
bScreen *screen = CTX_wm_screen(C);
PointerRNA areaptr;
int xco = 0.4 * U.widget_unit;
RNA_pointer_create(&(screen->id), &RNA_Area, area, &areaptr);
uiDefButR(block,
UI_BTYPE_MENU,
0,
"",
xco,
yco,
1.6 * U.widget_unit,
U.widget_unit,
&areaptr,
"ui_type",
0,
0.0f,
0.0f,
0.0f,
0.0f,
"");
return xco + 1.7 * U.widget_unit;
}
/************************ standard UI regions ************************/
static ThemeColorID region_background_color_id(const bContext *C, const ARegion *region)
{
ScrArea *area = CTX_wm_area(C);
switch (region->regiontype) {
case RGN_TYPE_HEADER:
case RGN_TYPE_TOOL_HEADER:
if (ED_screen_area_active(C) || ED_area_is_global(area)) {
return TH_HEADER;
}
else {
return TH_HEADERDESEL;
}
case RGN_TYPE_PREVIEW:
return TH_PREVIEW_BACK;
default:
return TH_BACK;
}
}
static void region_clear_color(const bContext *C, const ARegion *region, ThemeColorID colorid)
{
if (region->alignment == RGN_ALIGN_FLOAT) {
/* handle our own drawing. */
}
else if (region->overlap) {
/* view should be in pixelspace */
UI_view2d_view_restore(C);
float back[4];
UI_GetThemeColor4fv(colorid, back);
GPU_clear_color(back[3] * back[0], back[3] * back[1], back[3] * back[2], back[3]);
GPU_clear(GPU_COLOR_BIT);
}
else {
UI_ThemeClearColor(colorid);
GPU_clear(GPU_COLOR_BIT);
}
}
BLI_INLINE bool streq_array_any(const char *s, const char *arr[])
{
for (uint i = 0; arr[i]; i++) {
if (STREQ(arr[i], s)) {
return true;
}
}
return false;
}
/**
* Builds the panel layout for the input \a panel or type \a pt.
*
* \param panel The panel to draw. Can be null, in which case a panel with the type of \a pt will
* be created.
* \param unique_panel_str A unique identifier for the name of the \a uiBlock associated with the
* panel. Used when the panel is an instanced panel so a unique identifier is needed to find the
* correct old \a uiBlock, and NULL otherwise.
*/
static void ed_panel_draw(const bContext *C,
ScrArea *area,
ARegion *region,
ListBase *lb,
PanelType *pt,
Panel *panel,
int w,
int em,
bool vertical,
char *unique_panel_str)
{
const uiStyle *style = UI_style_get_dpi();
/* Draw panel. */
char block_name[BKE_ST_MAXNAME + LIST_PANEL_UNIQUE_STR_LEN];
strncpy(block_name, pt->idname, BKE_ST_MAXNAME);
if (unique_panel_str != NULL) {
/* Instanced panels should have already been added at this point. */
strncat(block_name, unique_panel_str, LIST_PANEL_UNIQUE_STR_LEN);
}
uiBlock *block = UI_block_begin(C, region, block_name, UI_EMBOSS);
bool open;
panel = UI_panel_begin(area, region, lb, block, pt, panel, &open);
/* bad fixed values */
int xco, yco, h = 0;
int headerend = w - UI_UNIT_X;
if (pt->draw_header_preset && !(pt->flag & PNL_NO_HEADER) && (open || vertical)) {
/* for preset menu */
panel->layout = UI_block_layout(block,
UI_LAYOUT_HORIZONTAL,
UI_LAYOUT_HEADER,
0,
(UI_UNIT_Y * 1.1f) + style->panelspace,
UI_UNIT_Y,
1,
0,
style);
pt->draw_header_preset(C, panel);
UI_block_layout_resolve(block, &xco, &yco);
UI_block_translate(block, headerend - xco, 0);
panel->layout = NULL;
}
if (pt->draw_header && !(pt->flag & PNL_NO_HEADER) && (open || vertical)) {
int labelx, labely;
UI_panel_label_offset(block, &labelx, &labely);
/* Unusual case: Use expanding layout (buttons stretch to available width). */
if (pt->flag & PNL_LAYOUT_HEADER_EXPAND) {
uiLayout *layout = UI_block_layout(block,
UI_LAYOUT_VERTICAL,
UI_LAYOUT_PANEL,
labelx,
labely,
headerend - 2 * style->panelspace,
1,
0,
style);
panel->layout = uiLayoutRow(layout, false);
}
/* Regular case: Normal panel with fixed size buttons. */
else {
panel->layout = UI_block_layout(
block, UI_LAYOUT_HORIZONTAL, UI_LAYOUT_HEADER, labelx, labely, UI_UNIT_Y, 1, 0, style);
}
pt->draw_header(C, panel);
UI_block_layout_resolve(block, &xco, &yco);
panel->labelofs = xco - labelx;
panel->layout = NULL;
}
else {
panel->labelofs = 0;
}
if (open) {
short panelContext;
/* panel context can either be toolbar region or normal panels region */
if (pt->flag & PNL_LAYOUT_VERT_BAR) {
panelContext = UI_LAYOUT_VERT_BAR;
}
else if (region->regiontype == RGN_TYPE_TOOLS) {
panelContext = UI_LAYOUT_TOOLBAR;
}
else {
panelContext = UI_LAYOUT_PANEL;
}
panel->layout = UI_block_layout(block,
UI_LAYOUT_VERTICAL,
panelContext,
(pt->flag & PNL_LAYOUT_VERT_BAR) ? 0 : style->panelspace,
0,
(pt->flag & PNL_LAYOUT_VERT_BAR) ? 0 :
w - 2 * style->panelspace,
em,
0,
style);
pt->draw(C, panel);
UI_block_layout_resolve(block, &xco, &yco);
panel->layout = NULL;
if (yco != 0) {
h = -yco + 2 * style->panelspace;
}
}
UI_block_end(C, block);
/* Draw child panels. */
if (open) {
LISTBASE_FOREACH (LinkData *, link, &pt->children) {
PanelType *child_pt = link->data;
Panel *child_panel = UI_panel_find_by_type(&panel->children, child_pt);
if (child_pt->draw && (!child_pt->poll || child_pt->poll(C, child_pt))) {
ed_panel_draw(C,
area,
region,
&panel->children,
child_pt,
child_panel,
w,
em,
vertical,
unique_panel_str);
}
}
}
UI_panel_end(area, region, block, w, h, open);
}
/**
* \param contexts: A NULL terminated array of context strings to match against.
* Matching against any of these strings will draw the panel.
* Can be NULL to skip context checks.
*/
void ED_region_panels_layout_ex(const bContext *C,
ARegion *region,
ListBase *paneltypes,
const char *contexts[],
int contextnr,
const bool vertical,
const char *category_override)
{
/* collect panels to draw */
WorkSpace *workspace = CTX_wm_workspace(C);
LinkNode *panel_types_stack = NULL;
for (PanelType *pt = paneltypes->last; pt; pt = pt->prev) {
/* Only draw top level panels. */
if (pt->parent) {
continue;
}
if (category_override) {
if (!STREQ(pt->category, category_override)) {
continue;
}
}
/* verify context */
if (contexts && pt->context[0] && !streq_array_any(pt->context, contexts)) {
continue;
}
/* If we're tagged, only use compatible. */
if (pt->owner_id[0] && BKE_workspace_owner_id_check(workspace, pt->owner_id) == false) {
continue;
}
/* draw panel */
if (pt->draw && (!pt->poll || pt->poll(C, pt))) {
BLI_linklist_prepend_alloca(&panel_types_stack, pt);
}
}
region->runtime.category = NULL;
ScrArea *area = CTX_wm_area(C);
View2D *v2d = &region->v2d;
int x, y, w, em;
/* XXX, should use some better check? */
/* For now also has hardcoded check for clip editor until it supports actual toolbar. */
bool use_category_tabs = (category_override == NULL) &&
((((1 << region->regiontype) & RGN_TYPE_HAS_CATEGORY_MASK) ||
(region->regiontype == RGN_TYPE_TOOLS &&
area->spacetype == SPACE_CLIP)));
/* offset panels for small vertical tab area */
const char *category = NULL;
const int category_tabs_width = UI_PANEL_CATEGORY_MARGIN_WIDTH;
int margin_x = 0;
const bool region_layout_based = region->flag & RGN_FLAG_DYNAMIC_SIZE;
const bool is_context_new = (contextnr != -1) ? UI_view2d_tab_set(v2d, contextnr) : false;
bool update_tot_size = true;
/* before setting the view */
if (vertical) {
/* only allow scrolling in vertical direction */
v2d->keepofs |= V2D_LOCKOFS_X | V2D_KEEPOFS_Y;
v2d->keepofs &= ~(V2D_LOCKOFS_Y | V2D_KEEPOFS_X);
v2d->scroll &= ~V2D_SCROLL_BOTTOM;
v2d->scroll |= V2D_SCROLL_RIGHT;
}
else {
/* for now, allow scrolling in both directions (since layouts are optimized for vertical,
* they often don't fit in horizontal layout)
*/
v2d->keepofs &= ~(V2D_LOCKOFS_X | V2D_LOCKOFS_Y | V2D_KEEPOFS_X | V2D_KEEPOFS_Y);
v2d->scroll |= V2D_SCROLL_BOTTOM;
v2d->scroll &= ~V2D_SCROLL_RIGHT;
}
/* collect categories */
if (use_category_tabs) {
UI_panel_category_clear_all(region);
/* gather unique categories */
for (LinkNode *pt_link = panel_types_stack; pt_link; pt_link = pt_link->next) {
PanelType *pt = pt_link->link;
if (pt->category[0]) {
if (!UI_panel_category_find(region, pt->category)) {
UI_panel_category_add(region, pt->category);
}
}
}
if (!UI_panel_category_is_visible(region)) {
use_category_tabs = false;
}
else {
category = UI_panel_category_active_get(region, true);
margin_x = category_tabs_width;
}
}
if (vertical) {
w = BLI_rctf_size_x(&v2d->cur);
em = (region->type->prefsizex) ? 10 : 20; /* works out to 10*UI_UNIT_X or 20*UI_UNIT_X */
}
else {
w = UI_PANEL_WIDTH;
em = (region->type->prefsizex) ? 10 : 20;
}
w -= margin_x;
int w_box_panel = w - UI_PANEL_BOX_STYLE_MARGIN * 2.0f;
/* create panels */
UI_panels_begin(C, region);
/* set view2d view matrix - UI_block_begin() stores it */
UI_view2d_view_ortho(v2d);
bool has_instanced_panel = false;
for (LinkNode *pt_link = panel_types_stack; pt_link; pt_link = pt_link->next) {
PanelType *pt = pt_link->link;
if (pt->flag & PNL_INSTANCED) {
has_instanced_panel = true;
continue;
}
Panel *panel = UI_panel_find_by_type(&region->panels, pt);
if (use_category_tabs && pt->category[0] && !STREQ(category, pt->category)) {
if ((panel == NULL) || ((panel->flag & PNL_PIN) == 0)) {
continue;
}
}
if (panel && UI_panel_is_dragging(panel)) {
/* Prevent View2d.tot rectangle size changes while dragging panels. */
update_tot_size = false;
}
ed_panel_draw(C,
area,
region,
&region->panels,
pt,
panel,
(pt->flag & PNL_DRAW_BOX) ? w_box_panel : w,
em,
vertical,
NULL);
}
/* Draw "polyinstantaited" panels that don't have a 1 to 1 correspondence with their types. */
if (has_instanced_panel) {
LISTBASE_FOREACH (Panel *, panel, &region->panels) {
if (panel->type == NULL) {
continue; /* Some panels don't have a type.. */
}
if (panel->type->flag & PNL_INSTANCED) {
if (panel && UI_panel_is_dragging(panel)) {
/* Prevent View2d.tot rectangle size changes while dragging panels. */
update_tot_size = false;
}
/* Use a unique identifier for instanced panels, otherwise an old block for a different
* panel of the same type might be found. */
char unique_panel_str[8];
UI_list_panel_unique_str(panel, unique_panel_str);
ed_panel_draw(C,
area,
region,
&region->panels,
panel->type,
panel,
(panel->type->flag & PNL_DRAW_BOX) ? w_box_panel : w,
em,
vertical,
unique_panel_str);
}
}
}
/* align panels and return size */
UI_panels_end(C, region, &x, &y);
/* before setting the view */
if (region_layout_based) {
/* XXX, only single panel support atm.
* Can't use x/y values calculated above because they're not using the real height of panels,
* instead they calculate offsets for the next panel to start drawing. */
Panel *panel = region->panels.last;
if (panel != NULL) {
const int size_dyn[2] = {
UI_UNIT_X * ((panel->flag & PNL_CLOSED) ? 8 : 14) / UI_DPI_FAC,
UI_panel_size_y(panel) / UI_DPI_FAC,
};
/* region size is layout based and needs to be updated */
if ((region->sizex != size_dyn[0]) || (region->sizey != size_dyn[1])) {
region->sizex = size_dyn[0];
region->sizey = size_dyn[1];
area->flag |= AREA_FLAG_REGION_SIZE_UPDATE;
}
y = fabsf(region->sizey * UI_DPI_FAC - 1);
}
}
else if (vertical) {
/* We always keep the scroll offset -
* so the total view gets increased with the scrolled away part. */
if (v2d->cur.ymax < -FLT_EPSILON) {
/* Clamp to lower view boundary */
if (v2d->tot.ymin < -v2d->winy) {
y = min_ii(y, 0);
}
else {
y = min_ii(y, v2d->cur.ymin);
}
}
y = -y;
}
else {
/* don't jump back when panels close or hide */
if (!is_context_new) {
if (v2d->tot.xmax > v2d->winx) {
x = max_ii(x, 0);
}
else {
x = max_ii(x, v2d->cur.xmax);
}
}
y = -y;
}
if (update_tot_size) {
/* this also changes the 'cur' */
UI_view2d_totRect_set(v2d, x, y);
}
if (use_category_tabs) {
region->runtime.category = category;
}
}
void ED_region_panels_layout(const bContext *C, ARegion *region)
{
bool vertical = true;
ED_region_panels_layout_ex(C, region, &region->type->paneltypes, NULL, -1, vertical, NULL);
}
void ED_region_panels_draw(const bContext *C, ARegion *region)
{
View2D *v2d = &region->v2d;
if (region->alignment != RGN_ALIGN_FLOAT) {
region_clear_color(
C, region, (region->type->regionid == RGN_TYPE_PREVIEW) ? TH_PREVIEW_BACK : TH_BACK);
}
/* reset line width for drawing tabs */
GPU_line_width(1.0f);
/* set the view */
UI_view2d_view_ortho(v2d);
/* View2D matrix might have changed due to dynamic sized regions. */
UI_blocklist_update_window_matrix(C, &region->uiblocks);
/* draw panels */
UI_panels_draw(C, region);
/* restore view matrix */
UI_view2d_view_restore(C);
/* Set in layout. */
if (region->runtime.category) {
UI_panel_category_draw_all(region, region->runtime.category);
}
/* scrollers */
const rcti *mask = NULL;
rcti mask_buf;
if (region->runtime.category &&
(RGN_ALIGN_ENUM_FROM_MASK(region->alignment) == RGN_ALIGN_RIGHT)) {
UI_view2d_mask_from_win(v2d, &mask_buf);
mask_buf.xmax -= UI_PANEL_CATEGORY_MARGIN_WIDTH;
mask = &mask_buf;
}
View2DScrollers *scrollers = UI_view2d_scrollers_calc(v2d, mask);
UI_view2d_scrollers_draw(v2d, scrollers);
UI_view2d_scrollers_free(scrollers);
}
void ED_region_panels_ex(
const bContext *C, ARegion *region, const char *contexts[], int contextnr, const bool vertical)
{
/* TODO: remove? */
ED_region_panels_layout_ex(
C, region, &region->type->paneltypes, contexts, contextnr, vertical, NULL);
ED_region_panels_draw(C, region);
}
void ED_region_panels(const bContext *C, ARegion *region)
{
/* TODO: remove? */
ED_region_panels_layout(C, region);
ED_region_panels_draw(C, region);
}
void ED_region_panels_init(wmWindowManager *wm, ARegion *region)
{
wmKeyMap *keymap;
UI_view2d_region_reinit(&region->v2d, V2D_COMMONVIEW_PANELS_UI, region->winx, region->winy);
keymap = WM_keymap_ensure(wm->defaultconf, "View2D Buttons List", 0, 0);
WM_event_add_keymap_handler(&region->handlers, keymap);
}
void ED_region_header_layout(const bContext *C, ARegion *region)
{
const uiStyle *style = UI_style_get_dpi();
uiBlock *block;
uiLayout *layout;
HeaderType *ht;
Header header = {NULL};
bool region_layout_based = region->flag & RGN_FLAG_DYNAMIC_SIZE;
/* Height of buttons and scaling needed to achieve it. */
const int buttony = min_ii(UI_UNIT_Y, region->winy - 2 * UI_DPI_FAC);
const float buttony_scale = buttony / (float)UI_UNIT_Y;
/* Vertically center buttons. */
int xco = UI_HEADER_OFFSET;
int yco = buttony + (region->winy - buttony) / 2;
int maxco = xco;
/* XXX workaround for 1 px alignment issue. Not sure what causes it...
* Would prefer a proper fix - Julian */
if (!ELEM(CTX_wm_area(C)->spacetype, SPACE_TOPBAR, SPACE_STATUSBAR)) {
yco -= 1;
}
/* set view2d view matrix for scrolling (without scrollers) */
UI_view2d_view_ortho(&region->v2d);
/* draw all headers types */
for (ht = region->type->headertypes.first; ht; ht = ht->next) {
if (ht->poll && !ht->poll(C, ht)) {
continue;
}
block = UI_block_begin(C, region, ht->idname, UI_EMBOSS);
layout = UI_block_layout(
block, UI_LAYOUT_HORIZONTAL, UI_LAYOUT_HEADER, xco, yco, buttony, 1, 0, style);
if (buttony_scale != 1.0f) {
uiLayoutSetScaleY(layout, buttony_scale);
}
if (ht->draw) {
header.type = ht;
header.layout = layout;
ht->draw(C, &header);
if (ht->next) {
uiItemS(layout);
}
/* for view2d */
xco = uiLayoutGetWidth(layout);
if (xco > maxco) {
maxco = xco;
}
}
UI_block_layout_resolve(block, &xco, &yco);
/* for view2d */
if (xco > maxco) {
maxco = xco;
}
int new_sizex = (maxco + UI_HEADER_OFFSET) / UI_DPI_FAC;
if (region_layout_based && (region->sizex != new_sizex)) {
/* region size is layout based and needs to be updated */
ScrArea *area = CTX_wm_area(C);
region->sizex = new_sizex;
area->flag |= AREA_FLAG_REGION_SIZE_UPDATE;
}
UI_block_end(C, block);
}
if (!region_layout_based) {
maxco += UI_HEADER_OFFSET;
}
/* always as last */
UI_view2d_totRect_set(&region->v2d, maxco, region->winy);
/* restore view matrix */
UI_view2d_view_restore(C);
}
void ED_region_header_draw(const bContext *C, ARegion *region)
{
/* clear */
region_clear_color(C, region, region_background_color_id(C, region));
UI_view2d_view_ortho(&region->v2d);
/* View2D matrix might have changed due to dynamic sized regions. */
UI_blocklist_update_window_matrix(C, &region->uiblocks);
/* draw blocks */
UI_blocklist_draw(C, &region->uiblocks);
/* restore view matrix */
UI_view2d_view_restore(C);
}
void ED_region_header(const bContext *C, ARegion *region)
{
/* TODO: remove? */
ED_region_header_layout(C, region);
ED_region_header_draw(C, region);
}
void ED_region_header_init(ARegion *region)
{
UI_view2d_region_reinit(&region->v2d, V2D_COMMONVIEW_HEADER, region->winx, region->winy);
}
int ED_area_headersize(void)
{
/* Accommodate widget and padding. */
return U.widget_unit + (int)(UI_DPI_FAC * HEADER_PADDING_Y);
}
int ED_area_header_alignment_or_fallback(const ScrArea *area, int fallback)
{
LISTBASE_FOREACH (ARegion *, region, &area->regionbase) {
if (region->regiontype == RGN_TYPE_HEADER) {
return region->alignment;
}
}
return fallback;
}
int ED_area_header_alignment(const ScrArea *area)
{
return ED_area_header_alignment_or_fallback(
area, (U.uiflag & USER_HEADER_BOTTOM) ? RGN_ALIGN_BOTTOM : RGN_ALIGN_TOP);
}
int ED_area_footersize(void)
{
return ED_area_headersize();
}
int ED_area_footer_alignment_or_fallback(const ScrArea *area, int fallback)
{
LISTBASE_FOREACH (ARegion *, region, &area->regionbase) {
if (region->regiontype == RGN_TYPE_FOOTER) {
return region->alignment;
}
}
return fallback;
}
int ED_area_footer_alignment(const ScrArea *area)
{
return ED_area_footer_alignment_or_fallback(
area, (U.uiflag & USER_HEADER_BOTTOM) ? RGN_ALIGN_TOP : RGN_ALIGN_BOTTOM);
}
/**
* \return the final height of a global \a area, accounting for DPI.
*/
int ED_area_global_size_y(const ScrArea *area)
{
BLI_assert(ED_area_is_global(area));
return round_fl_to_int(area->global->cur_fixed_height * UI_DPI_FAC);
}
int ED_area_global_min_size_y(const ScrArea *area)
{
BLI_assert(ED_area_is_global(area));
return round_fl_to_int(area->global->size_min * UI_DPI_FAC);
}
int ED_area_global_max_size_y(const ScrArea *area)
{
BLI_assert(ED_area_is_global(area));
return round_fl_to_int(area->global->size_max * UI_DPI_FAC);
}
bool ED_area_is_global(const ScrArea *area)
{
return area->global != NULL;
}
ScrArea *ED_screen_areas_iter_first(const wmWindow *win, const bScreen *screen)
{
ScrArea *global_area = win->global_areas.areabase.first;
if (!global_area) {
return screen->areabase.first;
}
else if ((global_area->global->flag & GLOBAL_AREA_IS_HIDDEN) == 0) {
return global_area;
}
/* Find next visible area. */
return ED_screen_areas_iter_next(screen, global_area);
}
ScrArea *ED_screen_areas_iter_next(const bScreen *screen, const ScrArea *area)
{
if (area->global) {
for (ScrArea *area_iter = area->next; area_iter; area_iter = area_iter->next) {
if ((area_iter->global->flag & GLOBAL_AREA_IS_HIDDEN) == 0) {
return area_iter;
}
}
/* No visible next global area found, start iterating over layout areas. */
return screen->areabase.first;
}
return area->next;
}
/**
* For now we just assume all global areas are made up out of horizontal bars
* with the same size. A fixed size could be stored in ARegion instead if needed.
*
* \return the DPI aware height of a single bar/region in global areas.
*/
int ED_region_global_size_y(void)
{
return ED_area_headersize(); /* same size as header */
}
void ED_region_info_draw_multiline(ARegion *region,
const char *text_array[],
float fill_color[4],
const bool full_redraw)
{
const int header_height = UI_UNIT_Y;
const uiStyle *style = UI_style_get_dpi();
int fontid = style->widget.uifont_id;
int scissor[4];
int num_lines = 0;
/* background box */
rcti rect = *ED_region_visible_rect(region);
/* Box fill entire width or just around text. */
if (!full_redraw) {
const char **text = &text_array[0];
while (*text) {
rect.xmax = min_ii(rect.xmax,
rect.xmin + BLF_width(fontid, *text, BLF_DRAW_STR_DUMMY_MAX) +
1.2f * U.widget_unit);
text++;
num_lines++;
}
}
/* Just count the line number. */
else {
const char **text = &text_array[0];
while (*text) {
text++;
num_lines++;
}
}
rect.ymin = rect.ymax - header_height * num_lines;
/* setup scissor */
GPU_scissor_get_i(scissor);
GPU_scissor(rect.xmin, rect.ymin, BLI_rcti_size_x(&rect) + 1, BLI_rcti_size_y(&rect) + 1);
GPU_blend(true);
GPU_blend_set_func_separate(
GPU_SRC_ALPHA, GPU_ONE_MINUS_SRC_ALPHA, GPU_ONE, GPU_ONE_MINUS_SRC_ALPHA);
GPUVertFormat *format = immVertexFormat();
uint pos = GPU_vertformat_attr_add(format, "pos", GPU_COMP_I32, 2, GPU_FETCH_INT_TO_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformColor4fv(fill_color);
immRecti(pos, rect.xmin, rect.ymin, rect.xmax + 1, rect.ymax + 1);
immUnbindProgram();
GPU_blend(false);
/* text */
UI_FontThemeColor(fontid, TH_TEXT_HI);
BLF_clipping(fontid, rect.xmin, rect.ymin, rect.xmax, rect.ymax);
BLF_enable(fontid, BLF_CLIPPING);
int offset = num_lines - 1;
{
const char **text = &text_array[0];
while (*text) {
BLF_position(fontid,
rect.xmin + 0.6f * U.widget_unit,
rect.ymin + 0.3f * U.widget_unit + offset * header_height,
0.0f);
BLF_draw(fontid, *text, BLF_DRAW_STR_DUMMY_MAX);
text++;
offset--;
}
}
BLF_disable(fontid, BLF_CLIPPING);
/* restore scissor as it was before */
GPU_scissor(scissor[0], scissor[1], scissor[2], scissor[3]);
}
void ED_region_info_draw(ARegion *region,
const char *text,
float fill_color[4],
const bool full_redraw)
{
const char *text_array[2] = {text, NULL};
ED_region_info_draw_multiline(region, text_array, fill_color, full_redraw);
}
#define MAX_METADATA_STR 1024
static const char *meta_data_list[] = {
"File",
"Strip",
"Date",
"RenderTime",
"Note",
"Marker",
"Time",
"Frame",
"Camera",
"Scene",
};
BLI_INLINE bool metadata_is_valid(ImBuf *ibuf, char *r_str, short index, int offset)
{
return (IMB_metadata_get_field(
ibuf->metadata, meta_data_list[index], r_str + offset, MAX_METADATA_STR - offset) &&
r_str[0]);
}
BLI_INLINE bool metadata_is_custom_drawable(const char *field)
{
/* Metadata field stored by Blender for multilayer EXR images. Is rather
* useless to be viewed all the time. Can still be seen in the Metadata
* panel. */
if (STREQ(field, "BlenderMultiChannel")) {
return false;
}
/* Is almost always has value "scanlineimage", also useless to be seen
* all the time. */
if (STREQ(field, "type")) {
return false;
}
return !BKE_stamp_is_known_field(field);
}
typedef struct MetadataCustomDrawContext {
int fontid;
int xmin, ymin;
int vertical_offset;
int current_y;
} MetadataCustomDrawContext;
static void metadata_custom_draw_fields(const char *field, const char *value, void *ctx_v)
{
if (!metadata_is_custom_drawable(field)) {
return;
}
MetadataCustomDrawContext *ctx = (MetadataCustomDrawContext *)ctx_v;
char temp_str[MAX_METADATA_STR];
BLI_snprintf(temp_str, MAX_METADATA_STR, "%s: %s", field, value);
BLF_position(ctx->fontid, ctx->xmin, ctx->ymin + ctx->current_y, 0.0f);
BLF_draw(ctx->fontid, temp_str, BLF_DRAW_STR_DUMMY_MAX);
ctx->current_y += ctx->vertical_offset;
}
static void metadata_draw_imbuf(ImBuf *ibuf, const rctf *rect, int fontid, const bool is_top)
{
char temp_str[MAX_METADATA_STR];
int line_width;
int ofs_y = 0;
short i;
int len;
const float height = BLF_height_max(fontid);
const float margin = height / 8;
const float vertical_offset = (height + margin);
/* values taking margins into account */
const float descender = BLF_descender(fontid);
const float xmin = (rect->xmin + margin);
const float xmax = (rect->xmax - margin);
const float ymin = (rect->ymin + margin) - descender;
const float ymax = (rect->ymax - margin) - descender;
if (is_top) {
for (i = 0; i < 4; i++) {
/* first line */
if (i == 0) {
bool do_newline = false;
len = BLI_snprintf_rlen(temp_str, MAX_METADATA_STR, "%s: ", meta_data_list[0]);
if (metadata_is_valid(ibuf, temp_str, 0, len)) {
BLF_position(fontid, xmin, ymax - vertical_offset, 0.0f);
BLF_draw(fontid, temp_str, BLF_DRAW_STR_DUMMY_MAX);
do_newline = true;
}
len = BLI_snprintf_rlen(temp_str, MAX_METADATA_STR, "%s: ", meta_data_list[1]);
if (metadata_is_valid(ibuf, temp_str, 1, len)) {
line_width = BLF_width(fontid, temp_str, BLF_DRAW_STR_DUMMY_MAX);
BLF_position(fontid, xmax - line_width, ymax - vertical_offset, 0.0f);
BLF_draw(fontid, temp_str, BLF_DRAW_STR_DUMMY_MAX);
do_newline = true;
}
if (do_newline) {
ofs_y += vertical_offset;
}
} /* Strip */
else if (i == 1 || i == 2) {
len = BLI_snprintf_rlen(temp_str, MAX_METADATA_STR, "%s: ", meta_data_list[i + 1]);
if (metadata_is_valid(ibuf, temp_str, i + 1, len)) {
BLF_position(fontid, xmin, ymax - vertical_offset - ofs_y, 0.0f);
BLF_draw(fontid, temp_str, BLF_DRAW_STR_DUMMY_MAX);
ofs_y += vertical_offset;
}
} /* Note (wrapped) */
else if (i == 3) {
len = BLI_snprintf_rlen(temp_str, MAX_METADATA_STR, "%s: ", meta_data_list[i + 1]);
if (metadata_is_valid(ibuf, temp_str, i + 1, len)) {
struct ResultBLF info;
BLF_enable(fontid, BLF_WORD_WRAP);
BLF_wordwrap(fontid, ibuf->x - (margin * 2));
BLF_position(fontid, xmin, ymax - vertical_offset - ofs_y, 0.0f);
BLF_draw_ex(fontid, temp_str, BLF_DRAW_STR_DUMMY_MAX, &info);
BLF_wordwrap(fontid, 0);
BLF_disable(fontid, BLF_WORD_WRAP);
ofs_y += vertical_offset * info.lines;
}
}
else {
len = BLI_snprintf_rlen(temp_str, MAX_METADATA_STR, "%s: ", meta_data_list[i + 1]);
if (metadata_is_valid(ibuf, temp_str, i + 1, len)) {
line_width = BLF_width(fontid, temp_str, BLF_DRAW_STR_DUMMY_MAX);
BLF_position(fontid, xmax - line_width, ymax - vertical_offset - ofs_y, 0.0f);
BLF_draw(fontid, temp_str, BLF_DRAW_STR_DUMMY_MAX);
ofs_y += vertical_offset;
}
}
}
}
else {
MetadataCustomDrawContext ctx;
ctx.fontid = fontid;
ctx.xmin = xmin;
ctx.ymin = ymin;
ctx.current_y = ofs_y;
ctx.vertical_offset = vertical_offset;
IMB_metadata_foreach(ibuf, metadata_custom_draw_fields, &ctx);
int ofs_x = 0;
ofs_y = ctx.current_y;
for (i = 5; i < 10; i++) {
len = BLI_snprintf_rlen(temp_str, MAX_METADATA_STR, "%s: ", meta_data_list[i]);
if (metadata_is_valid(ibuf, temp_str, i, len)) {
BLF_position(fontid, xmin + ofs_x, ymin + ofs_y, 0.0f);
BLF_draw(fontid, temp_str, BLF_DRAW_STR_DUMMY_MAX);
ofs_x += BLF_width(fontid, temp_str, BLF_DRAW_STR_DUMMY_MAX) + UI_UNIT_X;
}
}
}
}
typedef struct MetadataCustomCountContext {
int count;
} MetadataCustomCountContext;
static void metadata_custom_count_fields(const char *field, const char *UNUSED(value), void *ctx_v)
{
if (!metadata_is_custom_drawable(field)) {
return;
}
MetadataCustomCountContext *ctx = (MetadataCustomCountContext *)ctx_v;
ctx->count++;
}
static float metadata_box_height_get(ImBuf *ibuf, int fontid, const bool is_top)
{
const float height = BLF_height_max(fontid);
const float margin = (height / 8);
char str[MAX_METADATA_STR] = "";
short i, count = 0;
if (is_top) {
if (metadata_is_valid(ibuf, str, 0, 0) || metadata_is_valid(ibuf, str, 1, 0)) {
count++;
}
for (i = 2; i < 5; i++) {
if (metadata_is_valid(ibuf, str, i, 0)) {
if (i == 4) {
struct {
struct ResultBLF info;
rctf rect;
} wrap;
BLF_enable(fontid, BLF_WORD_WRAP);
BLF_wordwrap(fontid, ibuf->x - (margin * 2));
BLF_boundbox_ex(fontid, str, sizeof(str), &wrap.rect, &wrap.info);
BLF_wordwrap(fontid, 0);
BLF_disable(fontid, BLF_WORD_WRAP);
count += wrap.info.lines;
}
else {
count++;
}
}
}
}
else {
for (i = 5; i < 10; i++) {
if (metadata_is_valid(ibuf, str, i, 0)) {
count = 1;
break;
}
}
MetadataCustomCountContext ctx;
ctx.count = 0;
IMB_metadata_foreach(ibuf, metadata_custom_count_fields, &ctx);
count += ctx.count;
}
if (count) {
return (height + margin) * count;
}
return 0;
}
#undef MAX_METADATA_STR
void ED_region_image_metadata_draw(
int x, int y, ImBuf *ibuf, const rctf *frame, float zoomx, float zoomy)
{
float box_y;
rctf rect;
const uiStyle *style = UI_style_get_dpi();
if (!ibuf->metadata) {
return;
}
/* find window pixel coordinates of origin */
GPU_matrix_push();
/* offset and zoom using ogl */
GPU_matrix_translate_2f(x, y);
GPU_matrix_scale_2f(zoomx, zoomy);
BLF_size(blf_mono_font, style->widgetlabel.points * 1.5f * U.pixelsize, U.dpi);
/* *** upper box*** */
/* get needed box height */
box_y = metadata_box_height_get(ibuf, blf_mono_font, true);
if (box_y) {
/* set up rect */
BLI_rctf_init(&rect, frame->xmin, frame->xmax, frame->ymax, frame->ymax + box_y);
/* draw top box */
GPUVertFormat *format = immVertexFormat();
uint pos = GPU_vertformat_attr_add(format, "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformThemeColor(TH_METADATA_BG);
immRectf(pos, rect.xmin, rect.ymin, rect.xmax, rect.ymax);
immUnbindProgram();
BLF_clipping(blf_mono_font, rect.xmin, rect.ymin, rect.xmax, rect.ymax);
BLF_enable(blf_mono_font, BLF_CLIPPING);
UI_FontThemeColor(blf_mono_font, TH_METADATA_TEXT);
metadata_draw_imbuf(ibuf, &rect, blf_mono_font, true);
BLF_disable(blf_mono_font, BLF_CLIPPING);
}
/* *** lower box*** */
box_y = metadata_box_height_get(ibuf, blf_mono_font, false);
if (box_y) {
/* set up box rect */
BLI_rctf_init(&rect, frame->xmin, frame->xmax, frame->ymin - box_y, frame->ymin);
/* draw top box */
GPUVertFormat *format = immVertexFormat();
uint pos = GPU_vertformat_attr_add(format, "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformThemeColor(TH_METADATA_BG);
immRectf(pos, rect.xmin, rect.ymin, rect.xmax, rect.ymax);
immUnbindProgram();
BLF_clipping(blf_mono_font, rect.xmin, rect.ymin, rect.xmax, rect.ymax);
BLF_enable(blf_mono_font, BLF_CLIPPING);
UI_FontThemeColor(blf_mono_font, TH_METADATA_TEXT);
metadata_draw_imbuf(ibuf, &rect, blf_mono_font, false);
BLF_disable(blf_mono_font, BLF_CLIPPING);
}
GPU_matrix_pop();
}
typedef struct MetadataPanelDrawContext {
uiLayout *layout;
} MetadataPanelDrawContext;
static void metadata_panel_draw_field(const char *field, const char *value, void *ctx_v)
{
MetadataPanelDrawContext *ctx = (MetadataPanelDrawContext *)ctx_v;
uiLayout *row = uiLayoutRow(ctx->layout, false);
uiItemL(row, field, ICON_NONE);
uiItemL(row, value, ICON_NONE);
}
void ED_region_image_metadata_panel_draw(ImBuf *ibuf, uiLayout *layout)
{
MetadataPanelDrawContext ctx;
ctx.layout = layout;
IMB_metadata_foreach(ibuf, metadata_panel_draw_field, &ctx);
}
void ED_region_grid_draw(ARegion *region, float zoomx, float zoomy, float x0, float y0)
{
float gridsize, gridstep = 1.0f / 32.0f;
float fac, blendfac;
int x1, y1, x2, y2;
/* the image is located inside (x0, y0), (x0+1, y0+1) as set by view2d */
UI_view2d_view_to_region(&region->v2d, x0, y0, &x1, &y1);
UI_view2d_view_to_region(&region->v2d, x0 + 1.0f, y0 + 1.0f, &x2, &y2);
GPUVertFormat *format = immVertexFormat();
uint pos = GPU_vertformat_attr_add(format, "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformThemeColorShade(TH_BACK, 20);
immRectf(pos, x1, y1, x2, y2);
immUnbindProgram();
/* gridsize adapted to zoom level */
gridsize = 0.5f * (zoomx + zoomy);
if (gridsize <= 0.0f) {
return;
}
if (gridsize < 1.0f) {
while (gridsize < 1.0f) {
gridsize *= 4.0f;
gridstep *= 4.0f;
}
}
else {
while (gridsize >= 4.0f) {
gridsize /= 4.0f;
gridstep /= 4.0f;
}
}
blendfac = 0.25f * gridsize - floorf(0.25f * gridsize);
CLAMP(blendfac, 0.0f, 1.0f);
int count_fine = 1.0f / gridstep;
int count_large = 1.0f / (4.0f * gridstep);
if (count_fine > 0) {
GPU_vertformat_clear(format);
pos = GPU_vertformat_attr_add(format, "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT);
uint color = GPU_vertformat_attr_add(format, "color", GPU_COMP_F32, 3, GPU_FETCH_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_FLAT_COLOR);
immBegin(GPU_PRIM_LINES, 4 * count_fine + 4 * count_large);
float theme_color[3];
UI_GetThemeColorShade3fv(TH_BACK, (int)(20.0f * (1.0f - blendfac)), theme_color);
fac = 0.0f;
/* the fine resolution level */
for (int i = 0; i < count_fine; i++) {
immAttr3fv(color, theme_color);
immVertex2f(pos, x1, y1 * (1.0f - fac) + y2 * fac);
immAttr3fv(color, theme_color);
immVertex2f(pos, x2, y1 * (1.0f - fac) + y2 * fac);
immAttr3fv(color, theme_color);
immVertex2f(pos, x1 * (1.0f - fac) + x2 * fac, y1);
immAttr3fv(color, theme_color);
immVertex2f(pos, x1 * (1.0f - fac) + x2 * fac, y2);
fac += gridstep;
}
if (count_large > 0) {
UI_GetThemeColor3fv(TH_BACK, theme_color);
fac = 0.0f;
/* the large resolution level */
for (int i = 0; i < count_large; i++) {
immAttr3fv(color, theme_color);
immVertex2f(pos, x1, y1 * (1.0f - fac) + y2 * fac);
immAttr3fv(color, theme_color);
immVertex2f(pos, x2, y1 * (1.0f - fac) + y2 * fac);
immAttr3fv(color, theme_color);
immVertex2f(pos, x1 * (1.0f - fac) + x2 * fac, y1);
immAttr3fv(color, theme_color);
immVertex2f(pos, x1 * (1.0f - fac) + x2 * fac, y2);
fac += 4.0f * gridstep;
}
}
immEnd();
immUnbindProgram();
}
}
/* If the area has overlapping regions, it returns visible rect for Region *region */
/* rect gets returned in local region coordinates */
static void region_visible_rect_calc(ARegion *region, rcti *rect)
{
ARegion *arn = region;
/* allow function to be called without area */
while (arn->prev) {
arn = arn->prev;
}
*rect = region->winrct;
/* check if a region overlaps with the current one */
for (; arn; arn = arn->next) {
if (region != arn && arn->overlap) {
if (BLI_rcti_isect(rect, &arn->winrct, NULL)) {
int alignment = RGN_ALIGN_ENUM_FROM_MASK(arn->alignment);
if (ELEM(alignment, RGN_ALIGN_LEFT, RGN_ALIGN_RIGHT)) {
/* Overlap left, also check 1 pixel offset (2 regions on one side). */
if (abs(rect->xmin - arn->winrct.xmin) < 2) {
rect->xmin = arn->winrct.xmax;
}
/* Overlap right. */
if (abs(rect->xmax - arn->winrct.xmax) < 2) {
rect->xmax = arn->winrct.xmin;
}
}
else if (ELEM(alignment, RGN_ALIGN_TOP, RGN_ALIGN_BOTTOM)) {
/* Same logic as above for vertical regions. */
if (abs(rect->ymin - arn->winrct.ymin) < 2) {
rect->ymin = arn->winrct.ymax;
}
if (abs(rect->ymax - arn->winrct.ymax) < 2) {
rect->ymax = arn->winrct.ymin;
}
}
else if (alignment == RGN_ALIGN_FLOAT) {
/* Skip floating. */
}
else {
BLI_assert(!"Region overlap with unknown alignment");
}
}
}
}
BLI_rcti_translate(rect, -region->winrct.xmin, -region->winrct.ymin);
}
const rcti *ED_region_visible_rect(ARegion *region)
{
rcti *rect = &region->runtime.visible_rect;
if (rect->xmin == 0 && rect->ymin == 0 && rect->xmax == 0 && rect->ymax == 0) {
region_visible_rect_calc(region, rect);
}
return rect;
}
/* Cache display helpers */
void ED_region_cache_draw_background(ARegion *region)
{
/* Local coordinate visible rect inside region, to accommodate overlapping ui. */
const rcti *rect_visible = ED_region_visible_rect(region);
const int region_bottom = rect_visible->ymin;
uint pos = GPU_vertformat_attr_add(
immVertexFormat(), "pos", GPU_COMP_I32, 2, GPU_FETCH_INT_TO_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformColor4ub(128, 128, 255, 64);
immRecti(pos, 0, region_bottom, region->winx, region_bottom + 8 * UI_DPI_FAC);
immUnbindProgram();
}
void ED_region_cache_draw_curfra_label(const int framenr, const float x, const float y)
{
const uiStyle *style = UI_style_get();
int fontid = style->widget.uifont_id;
char numstr[32];
float font_dims[2] = {0.0f, 0.0f};
/* frame number */
BLF_size(fontid, 11.0f * U.pixelsize, U.dpi);
BLI_snprintf(numstr, sizeof(numstr), "%d", framenr);
BLF_width_and_height(fontid, numstr, sizeof(numstr), &font_dims[0], &font_dims[1]);
uint pos = GPU_vertformat_attr_add(
immVertexFormat(), "pos", GPU_COMP_I32, 2, GPU_FETCH_INT_TO_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformThemeColor(TH_CFRAME);
immRecti(pos, x, y, x + font_dims[0] + 6.0f, y + font_dims[1] + 4.0f);
immUnbindProgram();
UI_FontThemeColor(fontid, TH_TEXT);
BLF_position(fontid, x + 2.0f, y + 2.0f, 0.0f);
BLF_draw(fontid, numstr, sizeof(numstr));
}
void ED_region_cache_draw_cached_segments(
ARegion *region, const int num_segments, const int *points, const int sfra, const int efra)
{
if (num_segments) {
/* Local coordinate visible rect inside region, to accommodate overlapping ui. */
const rcti *rect_visible = ED_region_visible_rect(region);
const int region_bottom = rect_visible->ymin;
uint pos = GPU_vertformat_attr_add(
immVertexFormat(), "pos", GPU_COMP_I32, 2, GPU_FETCH_INT_TO_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformColor4ub(128, 128, 255, 128);
for (int a = 0; a < num_segments; a++) {
float x1 = (float)(points[a * 2] - sfra) / (efra - sfra + 1) * region->winx;
float x2 = (float)(points[a * 2 + 1] - sfra + 1) / (efra - sfra + 1) * region->winx;
immRecti(pos, x1, region_bottom, x2, region_bottom + 8 * UI_DPI_FAC);
/* TODO(merwin): use primitive restart to draw multiple rects more efficiently */
}
immUnbindProgram();
}
}
/**
* Generate subscriptions for this region.
*/
void ED_region_message_subscribe(bContext *C,
struct WorkSpace *workspace,
struct Scene *scene,
struct bScreen *screen,
struct ScrArea *area,
struct ARegion *region,
struct wmMsgBus *mbus)
{
if (region->gizmo_map != NULL) {
WM_gizmomap_message_subscribe(C, region->gizmo_map, region, mbus);
}
if (!BLI_listbase_is_empty(&region->uiblocks)) {
UI_region_message_subscribe(region, mbus);
}
if (region->type->message_subscribe != NULL) {
region->type->message_subscribe(C, workspace, scene, screen, area, region, mbus);
}
}
int ED_region_snap_size_test(const ARegion *region)
{
/* Use a larger value because toggling scrollbars can jump in size. */
const int snap_match_threshold = 16;
if (region->type->snap_size != NULL) {
return ((((region->sizex - region->type->snap_size(region, region->sizex, 0)) <=
snap_match_threshold)
<< 0) |
(((region->sizey - region->type->snap_size(region, region->sizey, 1)) <=
snap_match_threshold)
<< 1));
}
return 0;
}
bool ED_region_snap_size_apply(ARegion *region, int snap_flag)
{
bool changed = false;
if (region->type->snap_size != NULL) {
if (snap_flag & (1 << 0)) {
short snap_size = region->type->snap_size(region, region->sizex, 0);
if (snap_size != region->sizex) {
region->sizex = snap_size;
changed = true;
}
}
if (snap_flag & (1 << 1)) {
short snap_size = region->type->snap_size(region, region->sizey, 1);
if (snap_size != region->sizey) {
region->sizey = snap_size;
changed = true;
}
}
}
return changed;
}
View Git Blame Copy Permalink