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blender-archive/source/blender/windowmanager/gizmo/intern/wm_gizmo.c
Germano Cavalcante 19b63b932d Fix transform gizmo not updating according to state 
Whenever a transform operation is activated by gizmo, the gizmo
modal is maintained, but its drawing remains the same even if the
transform mode or constrain is changed.

So update the gizmo according to the mode or constrain set.

NOTE: Currently only 3D view gizmo is affected
2023-02-03 11:07:43 -03:00

742 lines
20 KiB
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/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2014 Blender Foundation. All rights reserved. */
/** \file
* \ingroup wm
*/
#include "MEM_guardedalloc.h"
#include "BLI_listbase.h"
#include "BLI_math.h"
#include "BKE_context.h"
#include "GPU_batch.h"
#include "RNA_access.h"
#include "RNA_define.h"
#include "RNA_prototypes.h"
#include "BKE_global.h"
#include "BKE_idprop.h"
#include "BKE_main.h"
#include "WM_api.h"
#include "WM_toolsystem.h"
#include "WM_types.h"
#include "ED_screen.h"
#include "ED_view3d.h"
#include "UI_interface.h"
#ifdef WITH_PYTHON
# include "BPY_extern.h"
#endif
/* only for own init/exit calls (wm_gizmotype_init/wm_gizmotype_free) */
#include "wm.h"
/* own includes */
#include "wm_gizmo_intern.h"
#include "wm_gizmo_wmapi.h"
static void wm_gizmo_register(wmGizmoGroup *gzgroup, wmGizmo *gz);
/**
* \note Follow #wm_operator_create convention.
*/
static wmGizmo *wm_gizmo_create(const wmGizmoType *gzt, PointerRNA *properties)
{
BLI_assert(gzt != NULL);
BLI_assert(gzt->struct_size >= sizeof(wmGizmo));
wmGizmo *gz = MEM_callocN(
gzt->struct_size + (sizeof(wmGizmoProperty) * gzt->target_property_defs_len), __func__);
gz->type = gzt;
/* initialize properties, either copy or create */
gz->ptr = MEM_callocN(sizeof(PointerRNA), "wmGizmoPtrRNA");
if (properties && properties->data) {
gz->properties = IDP_CopyProperty(properties->data);
}
else {
IDPropertyTemplate val = {0};
gz->properties = IDP_New(IDP_GROUP, &val, "wmGizmoProperties");
}
RNA_pointer_create(G_MAIN->wm.first, gzt->srna, gz->properties, gz->ptr);
WM_gizmo_properties_sanitize(gz->ptr, 0);
unit_m4(gz->matrix_space);
unit_m4(gz->matrix_basis);
unit_m4(gz->matrix_offset);
gz->drag_part = -1;
return gz;
}
wmGizmo *WM_gizmo_new_ptr(const wmGizmoType *gzt, wmGizmoGroup *gzgroup, PointerRNA *properties)
{
wmGizmo *gz = wm_gizmo_create(gzt, properties);
wm_gizmo_register(gzgroup, gz);
if (gz->type->setup != NULL) {
gz->type->setup(gz);
}
return gz;
}
wmGizmo *WM_gizmo_new(const char *idname, wmGizmoGroup *gzgroup, PointerRNA *properties)
{
const wmGizmoType *gzt = WM_gizmotype_find(idname, false);
return WM_gizmo_new_ptr(gzt, gzgroup, properties);
}
/**
* Initialize default values and allocate needed memory for members.
*/
static void gizmo_init(wmGizmo *gz)
{
const float color_default[4] = {1.0f, 1.0f, 1.0f, 1.0f};
gz->scale_basis = 1.0f;
gz->line_width = 1.0f;
/* defaults */
copy_v4_v4(gz->color, color_default);
copy_v4_v4(gz->color_hi, color_default);
}
/**
* Register \a gizmo.
*
* \note Not to be confused with type registration from RNA.
*/
static void wm_gizmo_register(wmGizmoGroup *gzgroup, wmGizmo *gz)
{
gizmo_init(gz);
wm_gizmogroup_gizmo_register(gzgroup, gz);
}
void WM_gizmo_free(wmGizmo *gz)
{
if (gz->type->free != NULL) {
gz->type->free(gz);
}
#ifdef WITH_PYTHON
if (gz->py_instance) {
/* do this first in case there are any __del__ functions or
* similar that use properties */
BPY_DECREF_RNA_INVALIDATE(gz->py_instance);
}
#endif
if (gz->op_data) {
for (int i = 0; i < gz->op_data_len; i++) {
WM_operator_properties_free(&gz->op_data[i].ptr);
}
MEM_freeN(gz->op_data);
}
if (gz->ptr != NULL) {
WM_gizmo_properties_free(gz->ptr);
MEM_freeN(gz->ptr);
}
if (gz->type->target_property_defs_len != 0) {
wmGizmoProperty *gz_prop_array = WM_gizmo_target_property_array(gz);
for (int i = 0; i < gz->type->target_property_defs_len; i++) {
wmGizmoProperty *gz_prop = &gz_prop_array[i];
if (gz_prop->custom_func.free_fn) {
gz_prop->custom_func.free_fn(gz, gz_prop);
}
}
}
MEM_freeN(gz);
}
void WM_gizmo_unlink(ListBase *gizmolist, wmGizmoMap *gzmap, wmGizmo *gz, bContext *C)
{
if (gz->state & WM_GIZMO_STATE_HIGHLIGHT) {
wm_gizmomap_highlight_set(gzmap, C, NULL, 0);
}
if (gz->state & WM_GIZMO_STATE_MODAL) {
wm_gizmomap_modal_set(gzmap, C, gz, NULL, false);
}
/* Unlink instead of setting so we don't run callbacks. */
if (gz->state & WM_GIZMO_STATE_SELECT) {
WM_gizmo_select_unlink(gzmap, gz);
}
if (gizmolist) {
BLI_remlink(gizmolist, gz);
}
BLI_assert(gzmap->gzmap_context.highlight != gz);
BLI_assert(gzmap->gzmap_context.modal != gz);
WM_gizmo_free(gz);
}
/* -------------------------------------------------------------------- */
/** \name Gizmo Creation API
*
* API for defining data on gizmo creation.
*
* \{ */
struct wmGizmoOpElem *WM_gizmo_operator_get(wmGizmo *gz, int part_index)
{
if (gz->op_data && ((part_index >= 0) && (part_index < gz->op_data_len))) {
return &gz->op_data[part_index];
}
return NULL;
}
PointerRNA *WM_gizmo_operator_set(wmGizmo *gz,
int part_index,
wmOperatorType *ot,
IDProperty *properties)
{
BLI_assert(part_index < 255);
/* We could pre-allocate these but using multiple is such a rare thing. */
if (part_index >= gz->op_data_len) {
gz->op_data_len = part_index + 1;
gz->op_data = MEM_recallocN(gz->op_data, sizeof(*gz->op_data) * gz->op_data_len);
}
wmGizmoOpElem *gzop = &gz->op_data[part_index];
gzop->type = ot;
if (gzop->ptr.data) {
WM_operator_properties_free(&gzop->ptr);
}
WM_operator_properties_create_ptr(&gzop->ptr, ot);
if (properties) {
gzop->ptr.data = properties;
}
return &gzop->ptr;
}
int WM_gizmo_operator_invoke(bContext *C, wmGizmo *gz, wmGizmoOpElem *gzop, const wmEvent *event)
{
if (gz->flag & WM_GIZMO_OPERATOR_TOOL_INIT) {
/* Merge toolsettings into the gizmo properties. */
PointerRNA tref_ptr;
bToolRef *tref = WM_toolsystem_ref_from_context(C);
if (tref && WM_toolsystem_ref_properties_get_from_operator(tref, gzop->type, &tref_ptr)) {
if (gzop->ptr.data == NULL) {
IDPropertyTemplate val = {0};
gzop->ptr.data = IDP_New(IDP_GROUP, &val, "wmOperatorProperties");
}
IDP_MergeGroup(gzop->ptr.data, tref_ptr.data, false);
}
}
return WM_operator_name_call_ptr(C, gzop->type, WM_OP_INVOKE_DEFAULT, &gzop->ptr, event);
}
static void wm_gizmo_set_matrix_rotation_from_z_axis__internal(float matrix[4][4],
const float z_axis[3])
{
/* old code, seems we can use simpler method */
#if 0
const float z_global[3] = {0.0f, 0.0f, 1.0f};
float rot[3][3];
rotation_between_vecs_to_mat3(rot, z_global, z_axis);
copy_v3_v3(matrix[0], rot[0]);
copy_v3_v3(matrix[1], rot[1]);
copy_v3_v3(matrix[2], rot[2]);
#else
normalize_v3_v3(matrix[2], z_axis);
ortho_basis_v3v3_v3(matrix[0], matrix[1], matrix[2]);
#endif
}
static void wm_gizmo_set_matrix_rotation_from_yz_axis__internal(float matrix[4][4],
const float y_axis[3],
const float z_axis[3])
{
normalize_v3_v3(matrix[1], y_axis);
normalize_v3_v3(matrix[2], z_axis);
cross_v3_v3v3(matrix[0], matrix[1], matrix[2]);
normalize_v3(matrix[0]);
}
void WM_gizmo_set_matrix_rotation_from_z_axis(wmGizmo *gz, const float z_axis[3])
{
wm_gizmo_set_matrix_rotation_from_z_axis__internal(gz->matrix_basis, z_axis);
}
void WM_gizmo_set_matrix_rotation_from_yz_axis(wmGizmo *gz,
const float y_axis[3],
const float z_axis[3])
{
wm_gizmo_set_matrix_rotation_from_yz_axis__internal(gz->matrix_basis, y_axis, z_axis);
}
void WM_gizmo_set_matrix_location(wmGizmo *gz, const float origin[3])
{
copy_v3_v3(gz->matrix_basis[3], origin);
}
void WM_gizmo_set_matrix_offset_rotation_from_z_axis(wmGizmo *gz, const float z_axis[3])
{
wm_gizmo_set_matrix_rotation_from_z_axis__internal(gz->matrix_offset, z_axis);
}
void WM_gizmo_set_matrix_offset_rotation_from_yz_axis(wmGizmo *gz,
const float y_axis[3],
const float z_axis[3])
{
wm_gizmo_set_matrix_rotation_from_yz_axis__internal(gz->matrix_offset, y_axis, z_axis);
}
void WM_gizmo_set_matrix_offset_location(wmGizmo *gz, const float offset[3])
{
copy_v3_v3(gz->matrix_offset[3], offset);
}
void WM_gizmo_set_flag(wmGizmo *gz, const int flag, const bool enable)
{
if (enable) {
gz->flag |= flag;
}
else {
gz->flag &= ~flag;
}
}
void WM_gizmo_set_scale(wmGizmo *gz, const float scale)
{
gz->scale_basis = scale;
}
void WM_gizmo_set_line_width(wmGizmo *gz, const float line_width)
{
gz->line_width = line_width;
}
void WM_gizmo_get_color(const wmGizmo *gz, float color[4])
{
copy_v4_v4(color, gz->color);
}
void WM_gizmo_set_color(wmGizmo *gz, const float color[4])
{
copy_v4_v4(gz->color, color);
}
void WM_gizmo_get_color_highlight(const wmGizmo *gz, float color_hi[4])
{
copy_v4_v4(color_hi, gz->color_hi);
}
void WM_gizmo_set_color_highlight(wmGizmo *gz, const float color_hi[4])
{
copy_v4_v4(gz->color_hi, color_hi);
}
/** \} */ /* Gizmo Creation API. */
/* -------------------------------------------------------------------- */
/** \name Gizmo Callback Assignment
* \{ */
void WM_gizmo_set_fn_custom_modal(struct wmGizmo *gz, wmGizmoFnModal fn)
{
gz->custom_modal = fn;
}
/** \} */
/* -------------------------------------------------------------------- */
bool wm_gizmo_select_set_ex(
wmGizmoMap *gzmap, wmGizmo *gz, bool select, bool use_array, bool use_callback)
{
bool changed = false;
if (select) {
if ((gz->state & WM_GIZMO_STATE_SELECT) == 0) {
if (use_array) {
wm_gizmomap_select_array_push_back(gzmap, gz);
}
gz->state |= WM_GIZMO_STATE_SELECT;
changed = true;
}
}
else {
if (gz->state & WM_GIZMO_STATE_SELECT) {
if (use_array) {
wm_gizmomap_select_array_remove(gzmap, gz);
}
gz->state &= ~WM_GIZMO_STATE_SELECT;
changed = true;
}
}
/* In the case of unlinking we only want to remove from the array
* and not write to the external state */
if (use_callback && changed) {
if (gz->type->select_refresh) {
gz->type->select_refresh(gz);
}
}
return changed;
}
bool WM_gizmo_select_unlink(wmGizmoMap *gzmap, wmGizmo *gz)
{
return wm_gizmo_select_set_ex(gzmap, gz, false, true, false);
}
bool WM_gizmo_select_set(wmGizmoMap *gzmap, wmGizmo *gz, bool select)
{
return wm_gizmo_select_set_ex(gzmap, gz, select, true, true);
}
bool WM_gizmo_highlight_set(wmGizmoMap *gzmap, wmGizmo *gz)
{
return wm_gizmomap_highlight_set(gzmap, NULL, gz, gz ? gz->highlight_part : 0);
}
bool wm_gizmo_select_and_highlight(bContext *C, wmGizmoMap *gzmap, wmGizmo *gz)
{
if (WM_gizmo_select_set(gzmap, gz, true)) {
wm_gizmomap_highlight_set(gzmap, C, gz, gz->highlight_part);
return true;
}
return false;
}
void WM_gizmo_modal_set_from_setup(struct wmGizmoMap *gzmap,
struct bContext *C,
struct wmGizmo *gz,
int part_index,
const wmEvent *event)
{
gz->highlight_part = part_index;
WM_gizmo_highlight_set(gzmap, gz);
if (false) {
wm_gizmomap_modal_set(gzmap, C, gz, event, true);
}
else {
/* WEAK: but it works. */
WM_operator_name_call(C, "GIZMOGROUP_OT_gizmo_tweak", WM_OP_INVOKE_DEFAULT, NULL, event);
}
}
void WM_gizmo_modal_set_while_modal(struct wmGizmoMap *gzmap,
struct bContext *C,
struct wmGizmo *gz,
const wmEvent *event)
{
if (gzmap->gzmap_context.modal) {
wm_gizmomap_modal_set(gzmap, C, gzmap->gzmap_context.modal, event, false);
}
if (gz) {
wm_gizmo_calculate_scale(gz, C);
/* Set `highlight_part` to -1 to skip operator invocation. */
const int highlight_part = gz->highlight_part;
gz->highlight_part = -1;
wm_gizmomap_modal_set(gzmap, C, gz, event, true);
gz->highlight_part = highlight_part;
}
}
void wm_gizmo_calculate_scale(wmGizmo *gz, const bContext *C)
{
const RegionView3D *rv3d = CTX_wm_region_view3d(C);
float scale = UI_DPI_FAC;
if ((gz->parent_gzgroup->type->flag & WM_GIZMOGROUPTYPE_SCALE) == 0) {
scale *= U.gizmo_size;
if (rv3d) {
/* 'ED_view3d_pixel_size' includes 'U.pixelsize', remove it. */
float matrix_world[4][4];
if (gz->type->matrix_basis_get) {
float matrix_basis[4][4];
gz->type->matrix_basis_get(gz, matrix_basis);
mul_m4_m4m4(matrix_world, gz->matrix_space, matrix_basis);
}
else {
mul_m4_m4m4(matrix_world, gz->matrix_space, gz->matrix_basis);
}
/* Exclude matrix_offset from scale. */
scale *= ED_view3d_pixel_size_no_ui_scale(rv3d, matrix_world[3]);
}
}
gz->scale_final = gz->scale_basis * scale;
}
static void gizmo_update_prop_data(wmGizmo *gz)
{
/* gizmo property might have been changed, so update gizmo */
if (gz->type->property_update) {
wmGizmoProperty *gz_prop_array = WM_gizmo_target_property_array(gz);
for (int i = 0; i < gz->type->target_property_defs_len; i++) {
wmGizmoProperty *gz_prop = &gz_prop_array[i];
if (WM_gizmo_target_property_is_valid(gz_prop)) {
gz->type->property_update(gz, gz_prop);
}
}
}
}
void wm_gizmo_update(wmGizmo *gz, const bContext *C, const bool refresh_map)
{
if (refresh_map) {
gizmo_update_prop_data(gz);
}
wm_gizmo_calculate_scale(gz, C);
}
int wm_gizmo_is_visible(wmGizmo *gz)
{
if (gz->flag & WM_GIZMO_HIDDEN) {
return 0;
}
if ((gz->state & WM_GIZMO_STATE_MODAL) &&
!(gz->flag & (WM_GIZMO_DRAW_MODAL | WM_GIZMO_DRAW_VALUE))) {
/* don't draw while modal (dragging) */
return 0;
}
if ((gz->flag & WM_GIZMO_DRAW_HOVER) && !(gz->state & WM_GIZMO_STATE_HIGHLIGHT) &&
!(gz->state & WM_GIZMO_STATE_SELECT)) /* still draw selected gizmos */
{
/* update but don't draw */
return WM_GIZMO_IS_VISIBLE_UPDATE;
}
return WM_GIZMO_IS_VISIBLE_UPDATE | WM_GIZMO_IS_VISIBLE_DRAW;
}
void WM_gizmo_calc_matrix_final_params(const wmGizmo *gz,
const struct WM_GizmoMatrixParams *params,
float r_mat[4][4])
{
const float(*const matrix_space)[4] = params->matrix_space ? params->matrix_space :
gz->matrix_space;
const float(*const matrix_basis)[4] = params->matrix_basis ? params->matrix_basis :
gz->matrix_basis;
const float(*const matrix_offset)[4] = params->matrix_offset ? params->matrix_offset :
gz->matrix_offset;
const float *scale_final = params->scale_final ? params->scale_final : &gz->scale_final;
float final_matrix[4][4];
if (params->matrix_basis == NULL && gz->type->matrix_basis_get) {
gz->type->matrix_basis_get(gz, final_matrix);
}
else {
copy_m4_m4(final_matrix, matrix_basis);
}
if (gz->flag & WM_GIZMO_DRAW_NO_SCALE) {
mul_m4_m4m4(final_matrix, final_matrix, matrix_offset);
}
else {
if (gz->flag & WM_GIZMO_DRAW_OFFSET_SCALE) {
mul_mat3_m4_fl(final_matrix, *scale_final);
mul_m4_m4m4(final_matrix, final_matrix, matrix_offset);
}
else {
mul_m4_m4m4(final_matrix, final_matrix, matrix_offset);
mul_mat3_m4_fl(final_matrix, *scale_final);
}
}
mul_m4_m4m4(r_mat, matrix_space, final_matrix);
}
void WM_gizmo_calc_matrix_final_no_offset(const wmGizmo *gz, float r_mat[4][4])
{
float mat_identity[4][4];
unit_m4(mat_identity);
WM_gizmo_calc_matrix_final_params(gz,
&((struct WM_GizmoMatrixParams){
.matrix_space = NULL,
.matrix_basis = NULL,
.matrix_offset = mat_identity,
.scale_final = NULL,
}),
r_mat);
}
void WM_gizmo_calc_matrix_final(const wmGizmo *gz, float r_mat[4][4])
{
WM_gizmo_calc_matrix_final_params(gz,
&((struct WM_GizmoMatrixParams){
.matrix_space = NULL,
.matrix_basis = NULL,
.matrix_offset = NULL,
.scale_final = NULL,
}),
r_mat);
}
/* -------------------------------------------------------------------- */
/** \name Gizmo Property Access
*
* Matches `WM_operator_properties` conventions.
*
* \{ */
void WM_gizmo_properties_create_ptr(PointerRNA *ptr, wmGizmoType *gzt)
{
RNA_pointer_create(NULL, gzt->srna, NULL, ptr);
}
void WM_gizmo_properties_create(PointerRNA *ptr, const char *gtstring)
{
const wmGizmoType *gzt = WM_gizmotype_find(gtstring, false);
if (gzt) {
WM_gizmo_properties_create_ptr(ptr, (wmGizmoType *)gzt);
}
else {
RNA_pointer_create(NULL, &RNA_GizmoProperties, NULL, ptr);
}
}
void WM_gizmo_properties_alloc(PointerRNA **ptr, IDProperty **properties, const char *gtstring)
{
if (*properties == NULL) {
IDPropertyTemplate val = {0};
*properties = IDP_New(IDP_GROUP, &val, "wmOpItemProp");
}
if (*ptr == NULL) {
*ptr = MEM_callocN(sizeof(PointerRNA), "wmOpItemPtr");
WM_gizmo_properties_create(*ptr, gtstring);
}
(*ptr)->data = *properties;
}
void WM_gizmo_properties_sanitize(PointerRNA *ptr, const bool no_context)
{
RNA_STRUCT_BEGIN (ptr, prop) {
switch (RNA_property_type(prop)) {
case PROP_ENUM:
if (no_context) {
RNA_def_property_flag(prop, PROP_ENUM_NO_CONTEXT);
}
else {
RNA_def_property_clear_flag(prop, PROP_ENUM_NO_CONTEXT);
}
break;
case PROP_POINTER: {
StructRNA *ptype = RNA_property_pointer_type(ptr, prop);
/* recurse into gizmo properties */
if (RNA_struct_is_a(ptype, &RNA_GizmoProperties)) {
PointerRNA opptr = RNA_property_pointer_get(ptr, prop);
WM_gizmo_properties_sanitize(&opptr, no_context);
}
break;
}
default:
break;
}
}
RNA_STRUCT_END;
}
bool WM_gizmo_properties_default(PointerRNA *ptr, const bool do_update)
{
bool changed = false;
RNA_STRUCT_BEGIN (ptr, prop) {
switch (RNA_property_type(prop)) {
case PROP_POINTER: {
StructRNA *ptype = RNA_property_pointer_type(ptr, prop);
if (ptype != &RNA_Struct) {
PointerRNA opptr = RNA_property_pointer_get(ptr, prop);
changed |= WM_gizmo_properties_default(&opptr, do_update);
}
break;
}
default:
if ((do_update == false) || (RNA_property_is_set(ptr, prop) == false)) {
if (RNA_property_reset(ptr, prop, -1)) {
changed = true;
}
}
break;
}
}
RNA_STRUCT_END;
return changed;
}
void WM_gizmo_properties_reset(wmGizmo *gz)
{
if (gz->ptr->data) {
PropertyRNA *iterprop;
iterprop = RNA_struct_iterator_property(gz->type->srna);
RNA_PROP_BEGIN (gz->ptr, itemptr, iterprop) {
PropertyRNA *prop = itemptr.data;
if ((RNA_property_flag(prop) & PROP_SKIP_SAVE) == 0) {
const char *identifier = RNA_property_identifier(prop);
RNA_struct_idprops_unset(gz->ptr, identifier);
}
}
RNA_PROP_END;
}
}
void WM_gizmo_properties_clear(PointerRNA *ptr)
{
IDProperty *properties = ptr->data;
if (properties) {
IDP_ClearProperty(properties);
}
}
void WM_gizmo_properties_free(PointerRNA *ptr)
{
IDProperty *properties = ptr->data;
if (properties) {
IDP_FreeProperty(properties);
ptr->data = NULL; /* just in case */
}
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name General Utilities
* \{ */
bool WM_gizmo_context_check_drawstep(const struct bContext *C, eWM_GizmoFlagMapDrawStep step)
{
switch (step) {
case WM_GIZMOMAP_DRAWSTEP_2D: {
break;
}
case WM_GIZMOMAP_DRAWSTEP_3D: {
wmWindowManager *wm = CTX_wm_manager(C);
if (ED_screen_animation_playing(wm)) {
return false;
}
break;
}
}
return true;
}
/** \} */
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