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b4d50d3f07bb49e3e74ba5336e77c7429ad7792a
blender-archive/source/blender/makesrna/intern/rna_object_api.c
Antonio Vazquez a5ffc6309e GPencil: Split Curve geometry functions to new file 
This prepare the code for future curve editors
2020-05-06 18:14:05 +02:00

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/*
* 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) 2009 Blender Foundation.
* All rights reserved.
*/
/** \file
* \ingroup RNA
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include "BLI_kdopbvh.h"
#include "BLI_utildefines.h"
#include "RNA_define.h"
#include "DNA_constraint_types.h"
#include "DNA_layer_types.h"
#include "DNA_modifier_types.h"
#include "DNA_object_types.h"
#include "BKE_gpencil_curve.h"
#include "BKE_layer.h"
#include "DEG_depsgraph.h"
#include "rna_internal.h" /* own include */
static const EnumPropertyItem space_items[] = {
{CONSTRAINT_SPACE_WORLD, "WORLD", 0, "World Space", "The most global space in Blender"},
{CONSTRAINT_SPACE_POSE,
"POSE",
0,
"Pose Space",
"The pose space of a bone (its armature's object space)"},
{CONSTRAINT_SPACE_PARLOCAL,
"LOCAL_WITH_PARENT",
0,
"Local With Parent",
"The rest pose local space of a bone (thus matrix includes parent transforms)"},
{CONSTRAINT_SPACE_LOCAL, "LOCAL", 0, "Local Space", "The local space of an object/bone"},
{0, NULL, 0, NULL, NULL},
};
#ifdef RNA_RUNTIME
# include "BLI_math.h"
# include "BKE_bvhutils.h"
# include "BKE_constraint.h"
# include "BKE_context.h"
# include "BKE_customdata.h"
# include "BKE_font.h"
# include "BKE_global.h"
# include "BKE_layer.h"
# include "BKE_main.h"
# include "BKE_mball.h"
# include "BKE_mesh.h"
# include "BKE_modifier.h"
# include "BKE_object.h"
# include "BKE_report.h"
# include "ED_object.h"
# include "ED_screen.h"
# include "DNA_curve_types.h"
# include "DNA_mesh_types.h"
# include "DNA_meshdata_types.h"
# include "DNA_scene_types.h"
# include "DNA_view3d_types.h"
# include "DEG_depsgraph_query.h"
# include "MEM_guardedalloc.h"
static void rna_Object_select_set(
Object *ob, bContext *C, ReportList *reports, bool select, ViewLayer *view_layer)
{
if (view_layer == NULL) {
view_layer = CTX_data_view_layer(C);
}
Base *base = BKE_view_layer_base_find(view_layer, ob);
if (!base) {
if (select) {
BKE_reportf(reports,
RPT_ERROR,
"Object '%s' can't be selected because it is not in View Layer '%s'!",
ob->id.name + 2,
view_layer->name);
}
return;
}
ED_object_base_select(base, select ? BA_SELECT : BA_DESELECT);
Scene *scene = CTX_data_scene(C);
DEG_id_tag_update(&scene->id, ID_RECALC_SELECT);
WM_main_add_notifier(NC_SCENE | ND_OB_SELECT, scene);
}
static bool rna_Object_select_get(Object *ob, bContext *C, ViewLayer *view_layer)
{
if (view_layer == NULL) {
view_layer = CTX_data_view_layer(C);
}
Base *base = BKE_view_layer_base_find(view_layer, ob);
if (!base) {
return false;
}
return ((base->flag & BASE_SELECTED) != 0);
}
static void rna_Object_hide_set(
Object *ob, bContext *C, ReportList *reports, bool hide, ViewLayer *view_layer)
{
if (view_layer == NULL) {
view_layer = CTX_data_view_layer(C);
}
Base *base = BKE_view_layer_base_find(view_layer, ob);
if (!base) {
if (hide) {
BKE_reportf(reports,
RPT_ERROR,
"Object '%s' can't be hidden because it is not in View Layer '%s'!",
ob->id.name + 2,
view_layer->name);
}
return;
}
if (hide) {
base->flag |= BASE_HIDDEN;
}
else {
base->flag &= ~BASE_HIDDEN;
}
Scene *scene = CTX_data_scene(C);
BKE_layer_collection_sync(scene, view_layer);
DEG_id_tag_update(&scene->id, ID_RECALC_BASE_FLAGS);
WM_event_add_notifier(C, NC_SCENE | ND_OB_SELECT, scene);
}
static bool rna_Object_hide_get(Object *ob, bContext *C, ViewLayer *view_layer)
{
if (view_layer == NULL) {
view_layer = CTX_data_view_layer(C);
}
Base *base = BKE_view_layer_base_find(view_layer, ob);
if (!base) {
return false;
}
return ((base->flag & BASE_HIDDEN) != 0);
}
static bool rna_Object_visible_get(Object *ob, bContext *C, ViewLayer *view_layer, View3D *v3d)
{
if (view_layer == NULL) {
view_layer = CTX_data_view_layer(C);
}
if (v3d == NULL) {
v3d = CTX_wm_view3d(C);
}
Base *base = BKE_view_layer_base_find(view_layer, ob);
if (!base) {
return false;
}
return BASE_VISIBLE(v3d, base);
}
static bool rna_Object_holdout_get(Object *ob, bContext *C, ViewLayer *view_layer)
{
if (view_layer == NULL) {
view_layer = CTX_data_view_layer(C);
}
Base *base = BKE_view_layer_base_find(view_layer, ob);
if (!base) {
return false;
}
return ((base->flag & BASE_HOLDOUT) != 0);
}
static bool rna_Object_indirect_only_get(Object *ob, bContext *C, ViewLayer *view_layer)
{
if (view_layer == NULL) {
view_layer = CTX_data_view_layer(C);
}
Base *base = BKE_view_layer_base_find(view_layer, ob);
if (!base) {
return false;
}
return ((base->flag & BASE_INDIRECT_ONLY) != 0);
}
static Base *rna_Object_local_view_property_helper(bScreen *screen,
View3D *v3d,
ViewLayer *view_layer,
Object *ob,
ReportList *reports,
Scene **r_scene)
{
wmWindow *win = NULL;
if (v3d->localvd == NULL) {
BKE_report(reports, RPT_ERROR, "Viewport not in local view");
return NULL;
}
if (view_layer == NULL) {
win = ED_screen_window_find(screen, G_MAIN->wm.first);
view_layer = WM_window_get_active_view_layer(win);
}
Base *base = BKE_view_layer_base_find(view_layer, ob);
if (base == NULL) {
BKE_reportf(
reports, RPT_WARNING, "Object %s not in view layer %s", ob->id.name + 2, view_layer->name);
}
if (r_scene != NULL && win != NULL) {
*r_scene = win->scene;
}
return base;
}
static bool rna_Object_local_view_get(Object *ob, ReportList *reports, View3D *v3d)
{
if (v3d->localvd == NULL) {
BKE_report(reports, RPT_ERROR, "Viewport not in local view");
return false;
}
return ((ob->base_local_view_bits & v3d->local_view_uuid) != 0);
}
static void rna_Object_local_view_set(Object *ob,
ReportList *reports,
PointerRNA *v3d_ptr,
bool state)
{
bScreen *screen = (bScreen *)v3d_ptr->owner_id;
View3D *v3d = v3d_ptr->data;
Scene *scene;
Base *base = rna_Object_local_view_property_helper(screen, v3d, NULL, ob, reports, &scene);
if (base == NULL) {
return; /* Error reported. */
}
const short local_view_bits_prev = base->local_view_bits;
SET_FLAG_FROM_TEST(base->local_view_bits, state, v3d->local_view_uuid);
if (local_view_bits_prev != base->local_view_bits) {
DEG_id_tag_update(&scene->id, ID_RECALC_BASE_FLAGS);
ScrArea *area = ED_screen_area_find_with_spacedata(screen, (SpaceLink *)v3d, true);
if (area) {
ED_area_tag_redraw(area);
}
}
}
static bool rna_Object_visible_in_viewport_get(Object *ob, View3D *v3d)
{
return BKE_object_is_visible_in_viewport(v3d, ob);
}
/* Convert a given matrix from a space to another (using the object and/or a bone as
* reference). */
static void rna_Object_mat_convert_space(Object *ob,
ReportList *reports,
bPoseChannel *pchan,
float *mat,
float *mat_ret,
int from,
int to)
{
copy_m4_m4((float(*)[4])mat_ret, (float(*)[4])mat);
/* Error in case of invalid from/to values when pchan is NULL */
if (pchan == NULL) {
if (ELEM(from, CONSTRAINT_SPACE_POSE, CONSTRAINT_SPACE_PARLOCAL)) {
const char *identifier = NULL;
RNA_enum_identifier(space_items, from, &identifier);
BKE_reportf(reports,
RPT_ERROR,
"'from_space' '%s' is invalid when no pose bone is given!",
identifier);
return;
}
if (ELEM(to, CONSTRAINT_SPACE_POSE, CONSTRAINT_SPACE_PARLOCAL)) {
const char *identifier = NULL;
RNA_enum_identifier(space_items, to, &identifier);
BKE_reportf(reports,
RPT_ERROR,
"'to_space' '%s' is invalid when no pose bone is given!",
identifier);
return;
}
}
BKE_constraint_mat_convertspace(ob, pchan, (float(*)[4])mat_ret, from, to, false);
}
static void rna_Object_calc_matrix_camera(Object *ob,
Depsgraph *depsgraph,
float mat_ret[16],
int width,
int height,
float scalex,
float scaley)
{
const Object *ob_eval = DEG_get_evaluated_object(depsgraph, ob);
CameraParams params;
/* setup parameters */
BKE_camera_params_init(&params);
BKE_camera_params_from_object(&params, ob_eval);
/* compute matrix, viewplane, .. */
BKE_camera_params_compute_viewplane(&params, width, height, scalex, scaley);
BKE_camera_params_compute_matrix(&params);
copy_m4_m4((float(*)[4])mat_ret, params.winmat);
}
static void rna_Object_camera_fit_coords(
Object *ob, Depsgraph *depsgraph, int num_cos, float *cos, float co_ret[3], float *scale_ret)
{
BKE_camera_view_frame_fit_to_coords(
depsgraph, (const float(*)[3])cos, num_cos / 3, ob, co_ret, scale_ret);
}
/* copied from Mesh_getFromObject and adapted to RNA interface */
static Mesh *rna_Object_to_mesh(Object *object,
ReportList *reports,
bool preserve_all_data_layers,
Depsgraph *depsgraph)
{
/* TODO(sergey): Make it more re-usable function, de-duplicate with
* rna_Main_meshes_new_from_object. */
switch (object->type) {
case OB_FONT:
case OB_CURVE:
case OB_SURF:
case OB_MBALL:
case OB_MESH:
break;
default:
BKE_report(reports, RPT_ERROR, "Object does not have geometry data");
return NULL;
}
return BKE_object_to_mesh(depsgraph, object, preserve_all_data_layers);
}
static void rna_Object_to_mesh_clear(Object *object)
{
BKE_object_to_mesh_clear(object);
}
static PointerRNA rna_Object_shape_key_add(
Object *ob, bContext *C, ReportList *reports, const char *name, bool from_mix)
{
Main *bmain = CTX_data_main(C);
KeyBlock *kb = NULL;
if ((kb = BKE_object_shapekey_insert(bmain, ob, name, from_mix))) {
PointerRNA keyptr;
RNA_pointer_create((ID *)BKE_key_from_object(ob), &RNA_ShapeKey, kb, &keyptr);
WM_event_add_notifier(C, NC_OBJECT | ND_DRAW, ob);
return keyptr;
}
else {
BKE_reportf(reports, RPT_ERROR, "Object '%s' does not support shapes", ob->id.name + 2);
return PointerRNA_NULL;
}
}
static void rna_Object_shape_key_remove(Object *ob,
Main *bmain,
ReportList *reports,
PointerRNA *kb_ptr)
{
KeyBlock *kb = kb_ptr->data;
Key *key = BKE_key_from_object(ob);
if ((key == NULL) || BLI_findindex(&key->block, kb) == -1) {
BKE_report(reports, RPT_ERROR, "ShapeKey not found");
return;
}
if (!BKE_object_shapekey_remove(bmain, ob, kb)) {
BKE_report(reports, RPT_ERROR, "Could not remove ShapeKey");
return;
}
DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY);
WM_main_add_notifier(NC_OBJECT | ND_DRAW, ob);
RNA_POINTER_INVALIDATE(kb_ptr);
}
static void rna_Object_shape_key_clear(Object *ob, Main *bmain)
{
BKE_object_shapekey_free(bmain, ob);
DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY);
WM_main_add_notifier(NC_OBJECT | ND_DRAW, ob);
}
# if 0
static void rna_Mesh_assign_verts_to_group(
Object *ob, bDeformGroup *group, int *indices, int totindex, float weight, int assignmode)
{
if (ob->type != OB_MESH) {
BKE_report(reports, RPT_ERROR, "Object should be of mesh type");
return;
}
Mesh *me = (Mesh *)ob->data;
int group_index = BLI_findlink(&ob->defbase, group);
if (group_index == -1) {
BKE_report(reports, RPT_ERROR, "No vertex groups assigned to mesh");
return;
}
if (assignmode != WEIGHT_REPLACE && assignmode != WEIGHT_ADD && assignmode != WEIGHT_SUBTRACT) {
BKE_report(reports, RPT_ERROR, "Bad assignment mode");
return;
}
/* makes a set of dVerts corresponding to the mVerts */
if (!me->dvert) {
create_dverts(&me->id);
}
/* loop list adding verts to group */
for (i = 0; i < totindex; i++) {
if (i < 0 || i >= me->totvert) {
BKE_report(reports, RPT_ERROR, "Bad vertex index in list");
return;
}
add_vert_defnr(ob, group_index, i, weight, assignmode);
}
}
# endif
/* don't call inside a loop */
static int mesh_looptri_to_poly_index(Mesh *me_eval, const MLoopTri *lt)
{
const int *index_mp_to_orig = CustomData_get_layer(&me_eval->pdata, CD_ORIGINDEX);
return index_mp_to_orig ? index_mp_to_orig[lt->poly] : lt->poly;
}
/* TOOD(sergey): Make the Python API more clear that evaluation might happen, or requite
* passing fully evaluated depsgraph. */
static Object *eval_object_ensure(Object *ob,
bContext *C,
ReportList *reports,
PointerRNA *rnaptr_depsgraph)
{
if (ob->runtime.data_eval == NULL) {
Object *ob_orig = ob;
Depsgraph *depsgraph = rnaptr_depsgraph != NULL ? rnaptr_depsgraph->data : NULL;
if (depsgraph == NULL) {
depsgraph = CTX_data_ensure_evaluated_depsgraph(C);
}
if (depsgraph != NULL) {
ob = DEG_get_evaluated_object(depsgraph, ob);
}
if (ob == NULL || BKE_object_get_evaluated_mesh(ob) == NULL) {
BKE_reportf(
reports, RPT_ERROR, "Object '%s' has no evaluated mesh data", ob_orig->id.name + 2);
return NULL;
}
}
return ob;
}
static void rna_Object_ray_cast(Object *ob,
bContext *C,
ReportList *reports,
float origin[3],
float direction[3],
float distance,
PointerRNA *rnaptr_depsgraph,
bool *r_success,
float r_location[3],
float r_normal[3],
int *r_index)
{
bool success = false;
/* TODO(sergey): This isn't very reliable check. It is possible to have non-NULL pointer
* but which is out of date, and possibly dangling one. */
if ((ob = eval_object_ensure(ob, C, reports, rnaptr_depsgraph)) == NULL) {
return;
}
/* Test BoundBox first (efficiency) */
BoundBox *bb = BKE_object_boundbox_get(ob);
float distmin;
normalize_v3(
direction); /* Needed for valid distance check from isect_ray_aabb_v3_simple() call. */
if (!bb ||
(isect_ray_aabb_v3_simple(origin, direction, bb->vec[0], bb->vec[6], &distmin, NULL) &&
distmin <= distance)) {
BVHTreeFromMesh treeData = {NULL};
/* No need to managing allocation or freeing of the BVH data.
* This is generated and freed as needed. */
Mesh *mesh_eval = BKE_object_get_evaluated_mesh(ob);
BKE_bvhtree_from_mesh_get(&treeData, mesh_eval, BVHTREE_FROM_LOOPTRI, 4);
/* may fail if the mesh has no faces, in that case the ray-cast misses */
if (treeData.tree != NULL) {
BVHTreeRayHit hit;
hit.index = -1;
hit.dist = distance;
if (BLI_bvhtree_ray_cast(treeData.tree,
origin,
direction,
0.0f,
&hit,
treeData.raycast_callback,
&treeData) != -1) {
if (hit.dist <= distance) {
*r_success = success = true;
copy_v3_v3(r_location, hit.co);
copy_v3_v3(r_normal, hit.no);
*r_index = mesh_looptri_to_poly_index(mesh_eval, &treeData.looptri[hit.index]);
}
}
free_bvhtree_from_mesh(&treeData);
}
}
if (success == false) {
*r_success = false;
zero_v3(r_location);
zero_v3(r_normal);
*r_index = -1;
}
}
static void rna_Object_closest_point_on_mesh(Object *ob,
bContext *C,
ReportList *reports,
float origin[3],
float distance,
PointerRNA *rnaptr_depsgraph,
bool *r_success,
float r_location[3],
float r_normal[3],
int *r_index)
{
BVHTreeFromMesh treeData = {NULL};
if ((ob = eval_object_ensure(ob, C, reports, rnaptr_depsgraph)) == NULL) {
return;
}
/* No need to managing allocation or freeing of the BVH data.
* this is generated and freed as needed. */
Mesh *mesh_eval = BKE_object_get_evaluated_mesh(ob);
BKE_bvhtree_from_mesh_get(&treeData, mesh_eval, BVHTREE_FROM_LOOPTRI, 4);
if (treeData.tree == NULL) {
BKE_reportf(reports,
RPT_ERROR,
"Object '%s' could not create internal data for finding nearest point",
ob->id.name + 2);
return;
}
else {
BVHTreeNearest nearest;
nearest.index = -1;
nearest.dist_sq = distance * distance;
if (BLI_bvhtree_find_nearest(
treeData.tree, origin, &nearest, treeData.nearest_callback, &treeData) != -1) {
*r_success = true;
copy_v3_v3(r_location, nearest.co);
copy_v3_v3(r_normal, nearest.no);
*r_index = mesh_looptri_to_poly_index(mesh_eval, &treeData.looptri[nearest.index]);
goto finally;
}
}
*r_success = false;
zero_v3(r_location);
zero_v3(r_normal);
*r_index = -1;
finally:
free_bvhtree_from_mesh(&treeData);
}
static bool rna_Object_is_modified(Object *ob, Scene *scene, int settings)
{
return BKE_object_is_modified(scene, ob) & settings;
}
static bool rna_Object_is_deform_modified(Object *ob, Scene *scene, int settings)
{
return BKE_object_is_deform_modified(scene, ob) & settings;
}
# ifndef NDEBUG
# include "BKE_mesh_runtime.h"
void rna_Object_me_eval_info(
struct Object *ob, bContext *C, int type, PointerRNA *rnaptr_depsgraph, char *result)
{
Mesh *me_eval = NULL;
char *ret = NULL;
result[0] = '\0';
switch (type) {
case 1:
case 2:
if ((ob = eval_object_ensure(ob, C, NULL, rnaptr_depsgraph)) == NULL) {
return;
}
}
switch (type) {
case 0:
if (ob->type == OB_MESH) {
me_eval = ob->data;
}
break;
case 1:
me_eval = ob->runtime.mesh_deform_eval;
break;
case 2:
me_eval = BKE_object_get_evaluated_mesh(ob);
break;
}
if (me_eval) {
ret = BKE_mesh_runtime_debug_info(me_eval);
if (ret) {
strcpy(result, ret);
MEM_freeN(ret);
}
}
}
# else
void rna_Object_me_eval_info(struct Object *UNUSED(ob),
bContext *UNUSED(C),
int UNUSED(type),
PointerRNA *UNUSED(rnaptr_depsgraph),
char *result)
{
result[0] = '\0';
}
# endif /* NDEBUG */
static bool rna_Object_update_from_editmode(Object *ob, Main *bmain)
{
/* fail gracefully if we aren't in edit-mode. */
const bool result = ED_object_editmode_load(bmain, ob);
if (result) {
/* Loading edit mesh to mesh changes geometry, and scripts might expect it to be properly
* informed about changes. */
DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY);
}
return result;
}
bool rna_Object_generate_gpencil_strokes(Object *ob,
bContext *C,
ReportList *reports,
Object *ob_gpencil,
bool gpencil_lines,
bool use_collections)
{
if (ob->type != OB_CURVE) {
BKE_reportf(reports,
RPT_ERROR,
"Object '%s' is not valid for this operation! Only curves are supported",
ob->id.name + 2);
return false;
}
Main *bmain = CTX_data_main(C);
Scene *scene = CTX_data_scene(C);
BKE_gpencil_convert_curve(bmain, scene, ob_gpencil, ob, gpencil_lines, use_collections, false);
WM_main_add_notifier(NC_GPENCIL | ND_DATA, NULL);
return true;
}
#else /* RNA_RUNTIME */
void RNA_api_object(StructRNA *srna)
{
FunctionRNA *func;
PropertyRNA *parm;
static const EnumPropertyItem mesh_type_items[] = {
{eModifierMode_Realtime, "PREVIEW", 0, "Preview", "Apply modifier preview settings"},
{eModifierMode_Render, "RENDER", 0, "Render", "Apply modifier render settings"},
{0, NULL, 0, NULL, NULL},
};
# ifndef NDEBUG
static const EnumPropertyItem mesh_dm_info_items[] = {
{0, "SOURCE", 0, "Source", "Source mesh"},
{1, "DEFORM", 0, "Deform", "Objects deform mesh"},
{2, "FINAL", 0, "Final", "Objects final mesh"},
{0, NULL, 0, NULL, NULL},
};
# endif
/* Special wrapper to access the base selection value */
func = RNA_def_function(srna, "select_get", "rna_Object_select_get");
RNA_def_function_ui_description(
func, "Test if the object is selected. The selection state is per view layer");
RNA_def_function_flag(func, FUNC_USE_CONTEXT);
parm = RNA_def_pointer(
func, "view_layer", "ViewLayer", "", "Use this instead of the active view layer");
parm = RNA_def_boolean(func, "result", 0, "", "Object selected");
RNA_def_function_return(func, parm);
func = RNA_def_function(srna, "select_set", "rna_Object_select_set");
RNA_def_function_ui_description(
func, "Select or deselect the object. The selection state is per view layer");
RNA_def_function_flag(func, FUNC_USE_CONTEXT | FUNC_USE_REPORTS);
parm = RNA_def_boolean(func, "state", 0, "", "Selection state to define");
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
parm = RNA_def_pointer(
func, "view_layer", "ViewLayer", "", "Use this instead of the active view layer");
func = RNA_def_function(srna, "hide_get", "rna_Object_hide_get");
RNA_def_function_ui_description(
func,
"Test if the object is hidden for viewport editing. This hiding state is per view layer");
RNA_def_function_flag(func, FUNC_USE_CONTEXT);
parm = RNA_def_pointer(
func, "view_layer", "ViewLayer", "", "Use this instead of the active view layer");
parm = RNA_def_boolean(func, "result", 0, "", "Object hidden");
RNA_def_function_return(func, parm);
func = RNA_def_function(srna, "hide_set", "rna_Object_hide_set");
RNA_def_function_ui_description(
func, "Hide the object for viewport editing. This hiding state is per view layer");
RNA_def_function_flag(func, FUNC_USE_CONTEXT | FUNC_USE_REPORTS);
parm = RNA_def_boolean(func, "state", 0, "", "Hide state to define");
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
parm = RNA_def_pointer(
func, "view_layer", "ViewLayer", "", "Use this instead of the active view layer");
func = RNA_def_function(srna, "visible_get", "rna_Object_visible_get");
RNA_def_function_ui_description(func,
"Test if the object is visible in the 3D viewport, taking into "
"account all visibility settings");
RNA_def_function_flag(func, FUNC_USE_CONTEXT);
parm = RNA_def_pointer(
func, "view_layer", "ViewLayer", "", "Use this instead of the active view layer");
parm = RNA_def_pointer(
func, "viewport", "SpaceView3D", "", "Use this instead of the active 3D viewport");
parm = RNA_def_boolean(func, "result", 0, "", "Object visible");
RNA_def_function_return(func, parm);
func = RNA_def_function(srna, "holdout_get", "rna_Object_holdout_get");
RNA_def_function_ui_description(func, "Test if object is masked in the view layer");
RNA_def_function_flag(func, FUNC_USE_CONTEXT);
parm = RNA_def_pointer(
func, "view_layer", "ViewLayer", "", "Use this instead of the active view layer");
parm = RNA_def_boolean(func, "result", 0, "", "Object holdout");
RNA_def_function_return(func, parm);
func = RNA_def_function(srna, "indirect_only_get", "rna_Object_indirect_only_get");
RNA_def_function_ui_description(func,
"Test if object is set to contribute only indirectly (through "
"shadows and reflections) in the view layer");
RNA_def_function_flag(func, FUNC_USE_CONTEXT);
parm = RNA_def_pointer(
func, "view_layer", "ViewLayer", "", "Use this instead of the active view layer");
parm = RNA_def_boolean(func, "result", 0, "", "Object indirect only");
RNA_def_function_return(func, parm);
/* Local View */
func = RNA_def_function(srna, "local_view_get", "rna_Object_local_view_get");
RNA_def_function_ui_description(func, "Get the local view state for this object");
RNA_def_function_flag(func, FUNC_USE_REPORTS);
parm = RNA_def_pointer(func, "viewport", "SpaceView3D", "", "Viewport in local view");
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
parm = RNA_def_boolean(func, "result", 0, "", "Object local view state");
RNA_def_function_return(func, parm);
func = RNA_def_function(srna, "local_view_set", "rna_Object_local_view_set");
RNA_def_function_ui_description(func, "Set the local view state for this object");
RNA_def_function_flag(func, FUNC_USE_REPORTS);
parm = RNA_def_pointer(func, "viewport", "SpaceView3D", "", "Viewport in local view");
RNA_def_parameter_flags(parm, 0, PARM_RNAPTR | PARM_REQUIRED);
parm = RNA_def_boolean(func, "state", 0, "", "Local view state to define");
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
/* Viewport */
func = RNA_def_function(srna, "visible_in_viewport_get", "rna_Object_visible_in_viewport_get");
RNA_def_function_ui_description(
func, "Check for local view and local collections for this viewport and object");
parm = RNA_def_pointer(func, "viewport", "SpaceView3D", "", "Viewport in local collections");
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
parm = RNA_def_boolean(func, "result", 0, "", "Object viewport visibility");
RNA_def_function_return(func, parm);
/* Matrix space conversion */
func = RNA_def_function(srna, "convert_space", "rna_Object_mat_convert_space");
RNA_def_function_ui_description(
func, "Convert (transform) the given matrix from one space to another");
RNA_def_function_flag(func, FUNC_USE_REPORTS);
parm = RNA_def_pointer(
func,
"pose_bone",
"PoseBone",
"",
"Bone to use to define spaces (may be None, in which case only the two 'WORLD' and "
"'LOCAL' spaces are usable)");
parm = RNA_def_property(func, "matrix", PROP_FLOAT, PROP_MATRIX);
RNA_def_property_multi_array(parm, 2, rna_matrix_dimsize_4x4);
RNA_def_property_ui_text(parm, "", "The matrix to transform");
parm = RNA_def_property(func, "matrix_return", PROP_FLOAT, PROP_MATRIX);
RNA_def_property_multi_array(parm, 2, rna_matrix_dimsize_4x4);
RNA_def_property_ui_text(parm, "", "The transformed matrix");
RNA_def_function_output(func, parm);
parm = RNA_def_enum(func,
"from_space",
space_items,
CONSTRAINT_SPACE_WORLD,
"",
"The space in which 'matrix' is currently");
parm = RNA_def_enum(func,
"to_space",
space_items,
CONSTRAINT_SPACE_WORLD,
"",
"The space to which you want to transform 'matrix'");
/* Camera-related operations */
func = RNA_def_function(srna, "calc_matrix_camera", "rna_Object_calc_matrix_camera");
RNA_def_function_ui_description(func,
"Generate the camera projection matrix of this object "
"(mostly useful for Camera and Light types)");
parm = RNA_def_pointer(
func, "depsgraph", "Depsgraph", "", "Depsgraph to get evaluated data from");
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
parm = RNA_def_property(func, "result", PROP_FLOAT, PROP_MATRIX);
RNA_def_property_multi_array(parm, 2, rna_matrix_dimsize_4x4);
RNA_def_property_ui_text(parm, "", "The camera projection matrix");
RNA_def_function_output(func, parm);
parm = RNA_def_int(func, "x", 1, 0, INT_MAX, "", "Width of the render area", 0, 10000);
parm = RNA_def_int(func, "y", 1, 0, INT_MAX, "", "Height of the render area", 0, 10000);
parm = RNA_def_float(
func, "scale_x", 1.0f, 1.0e-6f, FLT_MAX, "", "Width scaling factor", 1.0e-2f, 100.0f);
parm = RNA_def_float(
func, "scale_y", 1.0f, 1.0e-6f, FLT_MAX, "", "Height scaling factor", 1.0e-2f, 100.0f);
func = RNA_def_function(srna, "camera_fit_coords", "rna_Object_camera_fit_coords");
RNA_def_function_ui_description(func,
"Compute the coordinate (and scale for ortho cameras) "
"given object should be to 'see' all given coordinates");
parm = RNA_def_pointer(
func, "depsgraph", "Depsgraph", "", "Depsgraph to get evaluated data from");
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
parm = RNA_def_float_array(func,
"coordinates",
1,
NULL,
-FLT_MAX,
FLT_MAX,
"",
"Coordinates to fit in",
-FLT_MAX,
FLT_MAX);
RNA_def_parameter_flags(parm, PROP_NEVER_NULL | PROP_DYNAMIC, PARM_REQUIRED);
parm = RNA_def_property(func, "co_return", PROP_FLOAT, PROP_XYZ);
RNA_def_property_array(parm, 3);
RNA_def_property_ui_text(parm, "", "The location to aim to be able to see all given points");
RNA_def_parameter_flags(parm, 0, PARM_OUTPUT);
parm = RNA_def_property(func, "scale_return", PROP_FLOAT, PROP_NONE);
RNA_def_property_ui_text(
parm, "", "The ortho scale to aim to be able to see all given points (if relevant)");
RNA_def_parameter_flags(parm, 0, PARM_OUTPUT);
/* mesh */
func = RNA_def_function(srna, "to_mesh", "rna_Object_to_mesh");
RNA_def_function_ui_description(
func,
"Create a Mesh data-block from the current state of the object. The object owns the "
"data-block. To force free it use to_mesh_clear(). "
"The result is temporary and can not be used by objects from the main database");
RNA_def_function_flag(func, FUNC_USE_REPORTS);
RNA_def_boolean(func,
"preserve_all_data_layers",
false,
"",
"Preserve all data layers in the mesh, like UV maps and vertex groups. "
"By default Blender only computes the subset of data layers needed for viewport "
"display and rendering, for better performance");
RNA_def_pointer(
func,
"depsgraph",
"Depsgraph",
"Dependency Graph",
"Evaluated dependency graph which is required when preserve_all_data_layers is true");
parm = RNA_def_pointer(func, "mesh", "Mesh", "", "Mesh created from object");
RNA_def_function_return(func, parm);
func = RNA_def_function(srna, "to_mesh_clear", "rna_Object_to_mesh_clear");
RNA_def_function_ui_description(func, "Clears mesh data-block created by to_mesh()");
/* Armature */
func = RNA_def_function(srna, "find_armature", "modifiers_isDeformedByArmature");
RNA_def_function_ui_description(
func, "Find armature influencing this object as a parent or via a modifier");
parm = RNA_def_pointer(
func, "ob_arm", "Object", "", "Armature object influencing this object or NULL");
RNA_def_function_return(func, parm);
/* Shape key */
func = RNA_def_function(srna, "shape_key_add", "rna_Object_shape_key_add");
RNA_def_function_ui_description(func, "Add shape key to this object");
RNA_def_function_flag(func, FUNC_USE_CONTEXT | FUNC_USE_REPORTS);
RNA_def_string(func, "name", "Key", 0, "", "Unique name for the new keyblock"); /* optional */
RNA_def_boolean(func, "from_mix", 1, "", "Create new shape from existing mix of shapes");
parm = RNA_def_pointer(func, "key", "ShapeKey", "", "New shape keyblock");
RNA_def_parameter_flags(parm, 0, PARM_RNAPTR);
RNA_def_function_return(func, parm);
func = RNA_def_function(srna, "shape_key_remove", "rna_Object_shape_key_remove");
RNA_def_function_ui_description(func, "Remove a Shape Key from this object");
RNA_def_function_flag(func, FUNC_USE_MAIN | FUNC_USE_REPORTS);
parm = RNA_def_pointer(func, "key", "ShapeKey", "", "Keyblock to be removed");
RNA_def_parameter_flags(parm, PROP_NEVER_NULL, PARM_REQUIRED | PARM_RNAPTR);
RNA_def_parameter_clear_flags(parm, PROP_THICK_WRAP, 0);
func = RNA_def_function(srna, "shape_key_clear", "rna_Object_shape_key_clear");
RNA_def_function_ui_description(func, "Remove all Shape Keys from this object");
RNA_def_function_flag(func, FUNC_USE_MAIN);
/* Ray Cast */
func = RNA_def_function(srna, "ray_cast", "rna_Object_ray_cast");
RNA_def_function_ui_description(
func,
"Cast a ray onto evaluated geometry, in object space "
"(using context's or provided depsgraph to get evaluated mesh if needed)");
RNA_def_function_flag(func, FUNC_USE_CONTEXT | FUNC_USE_REPORTS);
/* ray start and end */
parm = RNA_def_float_vector(func,
"origin",
3,
NULL,
-FLT_MAX,
FLT_MAX,
"",
"Origin of the ray, in object space",
-1e4,
1e4);
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
parm = RNA_def_float_vector(func,
"direction",
3,
NULL,
-FLT_MAX,
FLT_MAX,
"",
"Direction of the ray, in object space",
-1e4,
1e4);
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
RNA_def_float(func,
"distance",
BVH_RAYCAST_DIST_MAX,
0.0,
BVH_RAYCAST_DIST_MAX,
"",
"Maximum distance",
0.0,
BVH_RAYCAST_DIST_MAX);
parm = RNA_def_pointer(
func,
"depsgraph",
"Depsgraph",
"",
"Depsgraph to use to get evaluated data, when called from original object "
"(only needed if current Context's depsgraph is not suitable)");
RNA_def_parameter_flags(parm, 0, PARM_RNAPTR);
/* return location and normal */
parm = RNA_def_boolean(func, "result", 0, "", "Whether the ray successfully hit the geometry");
RNA_def_function_output(func, parm);
parm = RNA_def_float_vector(func,
"location",
3,
NULL,
-FLT_MAX,
FLT_MAX,
"Location",
"The hit location of this ray cast",
-1e4,
1e4);
RNA_def_parameter_flags(parm, PROP_THICK_WRAP, 0);
RNA_def_function_output(func, parm);
parm = RNA_def_float_vector(func,
"normal",
3,
NULL,
-FLT_MAX,
FLT_MAX,
"Normal",
"The face normal at the ray cast hit location",
-1e4,
1e4);
RNA_def_parameter_flags(parm, PROP_THICK_WRAP, 0);
RNA_def_function_output(func, parm);
parm = RNA_def_int(
func, "index", 0, 0, 0, "", "The face index, -1 when original data isn't available", 0, 0);
RNA_def_function_output(func, parm);
/* Nearest Point */
func = RNA_def_function(srna, "closest_point_on_mesh", "rna_Object_closest_point_on_mesh");
RNA_def_function_ui_description(
func,
"Find the nearest point on evaluated geometry, in object space "
"(using context's or provided depsgraph to get evaluated mesh if needed)");
RNA_def_function_flag(func, FUNC_USE_CONTEXT | FUNC_USE_REPORTS);
/* location of point for test and max distance */
parm = RNA_def_float_vector(func,
"origin",
3,
NULL,
-FLT_MAX,
FLT_MAX,
"",
"Point to find closest geometry from (in object space)",
-1e4,
1e4);
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
/* default is sqrt(FLT_MAX) */
RNA_def_float(
func, "distance", 1.844674352395373e+19, 0.0, FLT_MAX, "", "Maximum distance", 0.0, FLT_MAX);
parm = RNA_def_pointer(
func,
"depsgraph",
"Depsgraph",
"",
"Depsgraph to use to get evaluated data, when called from original object "
"(only needed if current Context's depsgraph is not suitable)");
RNA_def_parameter_flags(parm, 0, PARM_RNAPTR);
/* return location and normal */
parm = RNA_def_boolean(func, "result", 0, "", "Whether closest point on geometry was found");
RNA_def_function_output(func, parm);
parm = RNA_def_float_vector(func,
"location",
3,
NULL,
-FLT_MAX,
FLT_MAX,
"Location",
"The location on the object closest to the point",
-1e4,
1e4);
RNA_def_parameter_flags(parm, PROP_THICK_WRAP, 0);
RNA_def_function_output(func, parm);
parm = RNA_def_float_vector(func,
"normal",
3,
NULL,
-FLT_MAX,
FLT_MAX,
"Normal",
"The face normal at the closest point",
-1e4,
1e4);
RNA_def_parameter_flags(parm, PROP_THICK_WRAP, 0);
RNA_def_function_output(func, parm);
parm = RNA_def_int(
func, "index", 0, 0, 0, "", "The face index, -1 when original data isn't available", 0, 0);
RNA_def_function_output(func, parm);
/* View */
/* utility function for checking if the object is modified */
func = RNA_def_function(srna, "is_modified", "rna_Object_is_modified");
RNA_def_function_ui_description(func,
"Determine if this object is modified from the base mesh data");
parm = RNA_def_pointer(func, "scene", "Scene", "", "Scene in which to check the object");
RNA_def_parameter_flags(parm, PROP_NEVER_NULL, PARM_REQUIRED);
parm = RNA_def_enum(func, "settings", mesh_type_items, 0, "", "Modifier settings to apply");
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
parm = RNA_def_boolean(func, "result", 0, "", "Whether the object is modified");
RNA_def_function_return(func, parm);
func = RNA_def_function(srna, "is_deform_modified", "rna_Object_is_deform_modified");
RNA_def_function_ui_description(
func, "Determine if this object is modified by a deformation from the base mesh data");
parm = RNA_def_pointer(func, "scene", "Scene", "", "Scene in which to check the object");
RNA_def_parameter_flags(parm, PROP_NEVER_NULL, PARM_REQUIRED);
parm = RNA_def_enum(func, "settings", mesh_type_items, 0, "", "Modifier settings to apply");
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
parm = RNA_def_boolean(func, "result", 0, "", "Whether the object is deform-modified");
RNA_def_function_return(func, parm);
# ifndef NDEBUG
/* mesh */
func = RNA_def_function(srna, "dm_info", "rna_Object_me_eval_info");
RNA_def_function_ui_description(
func,
"Returns a string for original/evaluated mesh data (debug builds only, "
"using context's or provided depsgraph to get evaluated mesh if needed)");
RNA_def_function_flag(func, FUNC_USE_CONTEXT);
parm = RNA_def_enum(func, "type", mesh_dm_info_items, 0, "", "Modifier settings to apply");
RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
parm = RNA_def_pointer(
func,
"depsgraph",
"Depsgraph",
"",
"Depsgraph to use to get evaluated data, when called from original object "
"(only needed if current Context's depsgraph is not suitable)");
RNA_def_parameter_flags(parm, 0, PARM_RNAPTR);
/* weak!, no way to return dynamic string type */
parm = RNA_def_string(func, "result", NULL, 16384, "", "Requested information");
RNA_def_parameter_flags(parm, PROP_THICK_WRAP, 0); /* needed for string return value */
RNA_def_function_output(func, parm);
# endif /* NDEBUG */
func = RNA_def_function(srna, "update_from_editmode", "rna_Object_update_from_editmode");
RNA_def_function_ui_description(func, "Load the objects edit-mode data into the object data");
RNA_def_function_flag(func, FUNC_USE_MAIN);
parm = RNA_def_boolean(func, "result", 0, "", "Success");
RNA_def_function_return(func, parm);
func = RNA_def_function(srna, "cache_release", "BKE_object_free_caches");
RNA_def_function_ui_description(func,
"Release memory used by caches associated with this object. "
"Intended to be used by render engines only");
/* Convert curve object to gpencil strokes. */
func = RNA_def_function(srna, "generate_gpencil_strokes", "rna_Object_generate_gpencil_strokes");
RNA_def_function_ui_description(func, "Convert a curve object to grease pencil strokes.");
RNA_def_function_flag(func, FUNC_USE_CONTEXT | FUNC_USE_REPORTS);
parm = RNA_def_pointer(
func, "ob_gpencil", "Object", "", "Grease Pencil object used to create new strokes");
RNA_def_parameter_flags(parm, PROP_NEVER_NULL, PARM_REQUIRED);
parm = RNA_def_boolean(func, "gpencil_lines", 0, "", "Create Lines");
parm = RNA_def_boolean(func, "use_collections", 1, "", "Use Collections");
parm = RNA_def_boolean(func, "result", 0, "", "Result");
RNA_def_function_return(func, parm);
}
#endif /* RNA_RUNTIME */
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