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test/source/blender/blenkernel/intern/paint.cc
Hans Goudey 1d372bdc8b Refactor: Split CustomData attribute and newer attribute headers 
Avoid including DNA_customdata_types.h everywhere we include the
attributes header. Over time the older attribute header should be
used less and less.

Part of #122398

Pull Request: https://projects.blender.org/blender/blender/pulls/147980
2025-10-13 15:38:26 +02:00

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/* SPDX-FileCopyrightText: 2009 by Nicholas Bishop. All rights reserved.
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup bke
*/
/* ALlow using deprecated color for sync legacy. */
#define DNA_DEPRECATED_ALLOW
#include <cstdlib>
#include <cstring>
#include <optional>
#include "MEM_guardedalloc.h"
#include "DNA_asset_types.h"
#include "DNA_brush_types.h"
#include "DNA_defaults.h"
#include "DNA_key_types.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_modifier_types.h"
#include "DNA_object_enums.h"
#include "DNA_object_types.h"
#include "DNA_scene_types.h"
#include "DNA_space_types.h"
#include "DNA_userdef_types.h"
#include "DNA_view3d_types.h"
#include "DNA_workspace_types.h"
#include "BLI_hash.h"
#include "BLI_listbase.h"
#include "BLI_math_color.h"
#include "BLI_math_matrix.hh"
#include "BLI_math_vector.h"
#include "BLI_noise.hh"
#include "BLI_string.h"
#include "BLI_utildefines.h"
#include "BLI_vector.hh"
#include "BLT_translation.hh"
#include "BKE_asset.hh"
#include "BKE_asset_edit.hh"
#include "BKE_attribute.h"
#include "BKE_attribute.hh"
#include "BKE_brush.hh"
#include "BKE_ccg.hh"
#include "BKE_colortools.hh"
#include "BKE_context.hh"
#include "BKE_crazyspace.hh"
#include "BKE_deform.hh"
#include "BKE_idtype.hh"
#include "BKE_image.hh"
#include "BKE_key.hh"
#include "BKE_layer.hh"
#include "BKE_lib_id.hh"
#include "BKE_main.hh"
#include "BKE_material.hh"
#include "BKE_mesh.hh"
#include "BKE_mesh_runtime.hh"
#include "BKE_modifier.hh"
#include "BKE_multires.hh"
#include "BKE_object.hh"
#include "BKE_paint.hh"
#include "BKE_paint_bvh.hh"
#include "BKE_paint_types.hh"
#include "BKE_scene.hh"
#include "BKE_subdiv_ccg.hh"
#include "DEG_depsgraph.hh"
#include "DEG_depsgraph_query.hh"
#include "RNA_enum_types.hh"
#include "BLO_read_write.hh"
#include "IMB_colormanagement.hh"
#include "bmesh.hh"
using blender::float3;
using blender::MutableSpan;
using blender::Span;
using blender::Vector;
using blender::bke::AttrDomain;
static void palette_init_data(ID *id)
{
Palette *palette = (Palette *)id;
BLI_assert(MEMCMP_STRUCT_AFTER_IS_ZERO(palette, id));
/* Enable fake user by default. */
id_fake_user_set(&palette->id);
}
static void palette_copy_data(Main * /*bmain*/,
std::optional<Library *> /*owner_library*/,
ID *id_dst,
const ID *id_src,
const int /*flag*/)
{
Palette *palette_dst = (Palette *)id_dst;
const Palette *palette_src = (const Palette *)id_src;
BLI_duplicatelist(&palette_dst->colors, &palette_src->colors);
}
static void palette_free_data(ID *id)
{
Palette *palette = (Palette *)id;
BLI_freelistN(&palette->colors);
}
static void palette_foreach_working_space_color(ID *id,
const IDTypeForeachColorFunctionCallback &fn)
{
Palette *palette = (Palette *)id;
LISTBASE_FOREACH (PaletteColor *, color, &palette->colors) {
fn.single(color->color);
BKE_palette_color_sync_legacy(color);
}
}
static void palette_blend_write(BlendWriter *writer, ID *id, const void *id_address)
{
Palette *palette = (Palette *)id;
BLO_write_id_struct(writer, Palette, id_address, &palette->id);
BKE_id_blend_write(writer, &palette->id);
BLO_write_struct_list(writer, PaletteColor, &palette->colors);
}
static void palette_blend_read_data(BlendDataReader *reader, ID *id)
{
Palette *palette = (Palette *)id;
BLO_read_struct_list(reader, PaletteColor, &palette->colors);
}
static void palette_undo_preserve(BlendLibReader * /*reader*/, ID *id_new, ID *id_old)
{
/* Whole Palette is preserved across undo-steps, and it has no extra pointer, simple. */
/* NOTE: We do not care about potential internal references to self here, Palette has none. */
/* NOTE: We do not swap IDProperties, as dealing with potential ID pointers in those would be
* fairly delicate. */
BKE_lib_id_swap(nullptr, id_new, id_old, false, 0);
std::swap(id_new->properties, id_old->properties);
std::swap(id_new->system_properties, id_old->system_properties);
}
IDTypeInfo IDType_ID_PAL = {
/*id_code*/ Palette::id_type,
/*id_filter*/ FILTER_ID_PAL,
/*dependencies_id_types*/ 0,
/*main_listbase_index*/ INDEX_ID_PAL,
/*struct_size*/ sizeof(Palette),
/*name*/ "Palette",
/*name_plural*/ N_("palettes"),
/*translation_context*/ BLT_I18NCONTEXT_ID_PALETTE,
/*flags*/ IDTYPE_FLAGS_NO_ANIMDATA,
/*asset_type_info*/ nullptr,
/*init_data*/ palette_init_data,
/*copy_data*/ palette_copy_data,
/*free_data*/ palette_free_data,
/*make_local*/ nullptr,
/*foreach_id*/ nullptr,
/*foreach_cache*/ nullptr,
/*foreach_path*/ nullptr,
/*foreach_working_space_color*/ palette_foreach_working_space_color,
/*owner_pointer_get*/ nullptr,
/*blend_write*/ palette_blend_write,
/*blend_read_data*/ palette_blend_read_data,
/*blend_read_after_liblink*/ nullptr,
/*blend_read_undo_preserve*/ palette_undo_preserve,
/*lib_override_apply_post*/ nullptr,
};
static void paint_curve_copy_data(Main * /*bmain*/,
std::optional<Library *> /*owner_library*/,
ID *id_dst,
const ID *id_src,
const int /*flag*/)
{
PaintCurve *paint_curve_dst = (PaintCurve *)id_dst;
const PaintCurve *paint_curve_src = (const PaintCurve *)id_src;
if (paint_curve_src->tot_points != 0) {
paint_curve_dst->points = static_cast<PaintCurvePoint *>(
MEM_dupallocN(paint_curve_src->points));
}
}
static void paint_curve_free_data(ID *id)
{
PaintCurve *paint_curve = (PaintCurve *)id;
MEM_SAFE_FREE(paint_curve->points);
paint_curve->tot_points = 0;
}
static void paint_curve_blend_write(BlendWriter *writer, ID *id, const void *id_address)
{
PaintCurve *pc = (PaintCurve *)id;
BLO_write_id_struct(writer, PaintCurve, id_address, &pc->id);
BKE_id_blend_write(writer, &pc->id);
BLO_write_struct_array(writer, PaintCurvePoint, pc->tot_points, pc->points);
}
static void paint_curve_blend_read_data(BlendDataReader *reader, ID *id)
{
PaintCurve *pc = (PaintCurve *)id;
BLO_read_struct_array(reader, PaintCurvePoint, pc->tot_points, &pc->points);
}
IDTypeInfo IDType_ID_PC = {
/*id_code*/ PaintCurve::id_type,
/*id_filter*/ FILTER_ID_PC,
/*dependencies_id_types*/ 0,
/*main_listbase_index*/ INDEX_ID_PC,
/*struct_size*/ sizeof(PaintCurve),
/*name*/ "PaintCurve",
/*name_plural*/ N_("paint_curves"),
/*translation_context*/ BLT_I18NCONTEXT_ID_PAINTCURVE,
/*flags*/ IDTYPE_FLAGS_NO_ANIMDATA,
/*asset_type_info*/ nullptr,
/*init_data*/ nullptr,
/*copy_data*/ paint_curve_copy_data,
/*free_data*/ paint_curve_free_data,
/*make_local*/ nullptr,
/*foreach_id*/ nullptr,
/*foreach_cache*/ nullptr,
/*foreach_path*/ nullptr,
/*foreach_working_space_color*/ nullptr,
/*owner_pointer_get*/ nullptr,
/*blend_write*/ paint_curve_blend_write,
/*blend_read_data*/ paint_curve_blend_read_data,
/*blend_read_after_liblink*/ nullptr,
/*blend_read_undo_preserve*/ nullptr,
/*lib_override_apply_post*/ nullptr,
};
static ePaintOverlayControlFlags overlay_flags = (ePaintOverlayControlFlags)0;
void BKE_paint_invalidate_overlay_tex(Scene *scene, ViewLayer *view_layer, const Tex *tex)
{
Paint *paint = BKE_paint_get_active(scene, view_layer);
if (!paint) {
return;
}
Brush *br = BKE_paint_brush(paint);
if (!br) {
return;
}
if (br->mtex.tex == tex) {
overlay_flags |= PAINT_OVERLAY_INVALID_TEXTURE_PRIMARY;
}
if (br->mask_mtex.tex == tex) {
overlay_flags |= PAINT_OVERLAY_INVALID_TEXTURE_SECONDARY;
}
}
void BKE_paint_invalidate_cursor_overlay(Scene *scene, ViewLayer *view_layer, CurveMapping *curve)
{
Paint *paint = BKE_paint_get_active(scene, view_layer);
if (paint == nullptr) {
return;
}
Brush *br = BKE_paint_brush(paint);
if (br && br->curve_distance_falloff == curve) {
overlay_flags |= PAINT_OVERLAY_INVALID_CURVE;
}
}
void BKE_paint_invalidate_overlay_all()
{
overlay_flags |= (PAINT_OVERLAY_INVALID_TEXTURE_SECONDARY |
PAINT_OVERLAY_INVALID_TEXTURE_PRIMARY | PAINT_OVERLAY_INVALID_CURVE);
}
ePaintOverlayControlFlags BKE_paint_get_overlay_flags()
{
return overlay_flags;
}
void BKE_paint_set_overlay_override(eOverlayFlags flags)
{
if (flags & BRUSH_OVERLAY_OVERRIDE_MASK) {
if (flags & BRUSH_OVERLAY_CURSOR_OVERRIDE_ON_STROKE) {
overlay_flags |= PAINT_OVERLAY_OVERRIDE_CURSOR;
}
if (flags & BRUSH_OVERLAY_PRIMARY_OVERRIDE_ON_STROKE) {
overlay_flags |= PAINT_OVERLAY_OVERRIDE_PRIMARY;
}
if (flags & BRUSH_OVERLAY_SECONDARY_OVERRIDE_ON_STROKE) {
overlay_flags |= PAINT_OVERLAY_OVERRIDE_SECONDARY;
}
}
else {
overlay_flags &= ~PAINT_OVERRIDE_MASK;
}
}
void BKE_paint_reset_overlay_invalid(ePaintOverlayControlFlags flag)
{
overlay_flags &= ~(flag);
}
bool BKE_paint_ensure_from_paintmode(Scene *sce, PaintMode mode)
{
ToolSettings *ts = sce->toolsettings;
Paint **paint_ptr = nullptr;
/* Some paint modes don't store paint settings as pointer, for these this can be set and
* referenced by paint_ptr. */
Paint *paint_tmp = nullptr;
switch (mode) {
case PaintMode::Sculpt:
paint_ptr = (Paint **)&ts->sculpt;
break;
case PaintMode::Vertex:
paint_ptr = (Paint **)&ts->vpaint;
break;
case PaintMode::Weight:
paint_ptr = (Paint **)&ts->wpaint;
break;
case PaintMode::Texture2D:
case PaintMode::Texture3D:
paint_tmp = (Paint *)&ts->imapaint;
paint_ptr = &paint_tmp;
break;
case PaintMode::GPencil:
paint_ptr = (Paint **)&ts->gp_paint;
break;
case PaintMode::VertexGPencil:
paint_ptr = (Paint **)&ts->gp_vertexpaint;
break;
case PaintMode::SculptGPencil:
paint_ptr = (Paint **)&ts->gp_sculptpaint;
break;
case PaintMode::WeightGPencil:
paint_ptr = (Paint **)&ts->gp_weightpaint;
break;
case PaintMode::SculptCurves:
paint_ptr = (Paint **)&ts->curves_sculpt;
break;
case PaintMode::Invalid:
break;
}
if (paint_ptr) {
BKE_paint_ensure(ts, paint_ptr);
return true;
}
return false;
}
Paint *BKE_paint_get_active_from_paintmode(Scene *sce, PaintMode mode)
{
if (sce) {
ToolSettings *ts = sce->toolsettings;
switch (mode) {
case PaintMode::Sculpt:
return &ts->sculpt->paint;
case PaintMode::Vertex:
return &ts->vpaint->paint;
case PaintMode::Weight:
return &ts->wpaint->paint;
case PaintMode::Texture2D:
case PaintMode::Texture3D:
return &ts->imapaint.paint;
case PaintMode::GPencil:
return &ts->gp_paint->paint;
case PaintMode::VertexGPencil:
return &ts->gp_vertexpaint->paint;
case PaintMode::SculptGPencil:
return &ts->gp_sculptpaint->paint;
case PaintMode::WeightGPencil:
return &ts->gp_weightpaint->paint;
case PaintMode::SculptCurves:
return &ts->curves_sculpt->paint;
case PaintMode::Invalid:
return nullptr;
default:
return &ts->imapaint.paint;
}
}
return nullptr;
}
const EnumPropertyItem *BKE_paint_get_tool_enum_from_paintmode(const PaintMode mode)
{
switch (mode) {
case PaintMode::Sculpt:
return rna_enum_brush_sculpt_brush_type_items;
case PaintMode::Vertex:
return rna_enum_brush_vertex_brush_type_items;
case PaintMode::Weight:
return rna_enum_brush_weight_brush_type_items;
case PaintMode::Texture2D:
case PaintMode::Texture3D:
return rna_enum_brush_image_brush_type_items;
case PaintMode::GPencil:
return rna_enum_brush_gpencil_types_items;
case PaintMode::VertexGPencil:
return rna_enum_brush_gpencil_vertex_types_items;
case PaintMode::SculptGPencil:
return rna_enum_brush_gpencil_sculpt_types_items;
case PaintMode::WeightGPencil:
return rna_enum_brush_gpencil_weight_types_items;
case PaintMode::SculptCurves:
return rna_enum_brush_curves_sculpt_brush_type_items;
case PaintMode::Invalid:
break;
}
return nullptr;
}
Paint *BKE_paint_get_active(Scene *sce, ViewLayer *view_layer)
{
if (sce && view_layer) {
ToolSettings *ts = sce->toolsettings;
BKE_view_layer_synced_ensure(sce, view_layer);
Object *actob = BKE_view_layer_active_object_get(view_layer);
if (actob) {
switch (actob->mode) {
case OB_MODE_SCULPT:
return &ts->sculpt->paint;
case OB_MODE_VERTEX_PAINT:
return &ts->vpaint->paint;
case OB_MODE_WEIGHT_PAINT:
return &ts->wpaint->paint;
case OB_MODE_TEXTURE_PAINT:
return &ts->imapaint.paint;
case OB_MODE_PAINT_GREASE_PENCIL:
return &ts->gp_paint->paint;
case OB_MODE_VERTEX_GREASE_PENCIL:
return &ts->gp_vertexpaint->paint;
case OB_MODE_SCULPT_GREASE_PENCIL:
return &ts->gp_sculptpaint->paint;
case OB_MODE_WEIGHT_GREASE_PENCIL:
return &ts->gp_weightpaint->paint;
case OB_MODE_SCULPT_CURVES:
return &ts->curves_sculpt->paint;
default:
break;
}
}
/* default to image paint */
return &ts->imapaint.paint;
}
return nullptr;
}
Paint *BKE_paint_get_active_from_context(const bContext *C)
{
Scene *sce = CTX_data_scene(C);
ViewLayer *view_layer = CTX_data_view_layer(C);
if (sce && view_layer) {
ToolSettings *ts = sce->toolsettings;
BKE_view_layer_synced_ensure(sce, view_layer);
Object *obact = BKE_view_layer_active_object_get(view_layer);
SpaceImage *sima = CTX_wm_space_image(C);
if (sima != nullptr) {
if (obact && obact->mode == OB_MODE_EDIT) {
if (sima->mode == SI_MODE_PAINT) {
return &ts->imapaint.paint;
}
}
else {
return &ts->imapaint.paint;
}
}
else {
return BKE_paint_get_active(sce, view_layer);
}
}
return nullptr;
}
PaintMode BKE_paintmode_get_active_from_context(const bContext *C)
{
Scene *sce = CTX_data_scene(C);
ViewLayer *view_layer = CTX_data_view_layer(C);
if (sce && view_layer) {
BKE_view_layer_synced_ensure(sce, view_layer);
Object *obact = BKE_view_layer_active_object_get(view_layer);
SpaceImage *sima = CTX_wm_space_image(C);
if (sima != nullptr) {
if (obact && obact->mode == OB_MODE_EDIT) {
if (sima->mode == SI_MODE_PAINT) {
return PaintMode::Texture2D;
}
}
else {
return PaintMode::Texture2D;
}
}
else if (obact) {
switch (obact->mode) {
case OB_MODE_SCULPT:
return PaintMode::Sculpt;
case OB_MODE_SCULPT_GREASE_PENCIL:
if (obact->type == OB_GREASE_PENCIL) {
return PaintMode::SculptGPencil;
}
return PaintMode::Invalid;
case OB_MODE_PAINT_GREASE_PENCIL:
return PaintMode::GPencil;
case OB_MODE_WEIGHT_GREASE_PENCIL:
return PaintMode::WeightGPencil;
case OB_MODE_VERTEX_GREASE_PENCIL:
return PaintMode::VertexGPencil;
case OB_MODE_VERTEX_PAINT:
return PaintMode::Vertex;
case OB_MODE_WEIGHT_PAINT:
return PaintMode::Weight;
case OB_MODE_TEXTURE_PAINT:
return PaintMode::Texture3D;
case OB_MODE_SCULPT_CURVES:
return PaintMode::SculptCurves;
default:
return PaintMode::Texture2D;
}
}
else {
/* default to image paint */
return PaintMode::Texture2D;
}
}
return PaintMode::Invalid;
}
PaintMode BKE_paintmode_get_from_tool(const bToolRef *tref)
{
if (tref->space_type == SPACE_VIEW3D) {
switch (tref->mode) {
case CTX_MODE_SCULPT:
return PaintMode::Sculpt;
case CTX_MODE_PAINT_VERTEX:
return PaintMode::Vertex;
case CTX_MODE_PAINT_WEIGHT:
return PaintMode::Weight;
case CTX_MODE_PAINT_GPENCIL_LEGACY:
return PaintMode::GPencil;
case CTX_MODE_PAINT_TEXTURE:
return PaintMode::Texture3D;
case CTX_MODE_VERTEX_GREASE_PENCIL:
case CTX_MODE_VERTEX_GPENCIL_LEGACY:
return PaintMode::VertexGPencil;
case CTX_MODE_SCULPT_GPENCIL_LEGACY:
return PaintMode::SculptGPencil;
case CTX_MODE_WEIGHT_GREASE_PENCIL:
case CTX_MODE_WEIGHT_GPENCIL_LEGACY:
return PaintMode::WeightGPencil;
case CTX_MODE_SCULPT_CURVES:
return PaintMode::SculptCurves;
case CTX_MODE_PAINT_GREASE_PENCIL:
return PaintMode::GPencil;
case CTX_MODE_SCULPT_GREASE_PENCIL:
return PaintMode::SculptGPencil;
}
}
else if (tref->space_type == SPACE_IMAGE) {
switch (tref->mode) {
case SI_MODE_PAINT:
return PaintMode::Texture2D;
}
}
return PaintMode::Invalid;
}
bool BKE_paint_use_unified_color(const Paint *paint)
{
/* Grease pencil draw mode never uses unified paint. */
if (paint->runtime->ob_mode == OB_MODE_PAINT_GREASE_PENCIL) {
return false;
}
return paint->unified_paint_settings.flag & UNIFIED_PAINT_COLOR;
}
/**
* After changing #Paint.brush_asset_reference, call this to activate the matching brush, importing
* it if necessary. Has no effect if #Paint.brush is set already.
*/
static bool paint_brush_update_from_asset_reference(Main *bmain, Paint *paint)
{
/* Don't resolve this during file read, it will be done after. */
if (bmain->is_locked_for_linking) {
return false;
}
/* Attempt to restore a valid active brush from brush asset information. */
if (paint->brush != nullptr) {
return false;
}
if (paint->brush_asset_reference == nullptr) {
return false;
}
Brush *brush = reinterpret_cast<Brush *>(blender::bke::asset_edit_id_from_weak_reference(
*bmain, ID_BR, *paint->brush_asset_reference));
BLI_assert(brush == nullptr || blender::bke::asset_edit_id_is_editable(brush->id));
/* Ensure we have a brush with appropriate mode to assign.
* Could happen if contents of asset blend was manually changed. */
if (brush == nullptr || (paint->runtime->ob_mode & brush->ob_mode) == 0) {
MEM_delete(paint->brush_asset_reference);
paint->brush_asset_reference = nullptr;
return false;
}
paint->brush = brush;
return true;
}
Brush *BKE_paint_brush(Paint *paint)
{
return paint ? paint->brush : nullptr;
}
const Brush *BKE_paint_brush_for_read(const Paint *paint)
{
return paint ? paint->brush : nullptr;
}
bool BKE_paint_can_use_brush(const Paint *paint, const Brush *brush)
{
if (paint == nullptr) {
return false;
}
return !brush || (paint->runtime->ob_mode & brush->ob_mode) != 0;
}
static AssetWeakReference *asset_reference_create_from_brush(Brush *brush)
{
if (std::optional<AssetWeakReference> weak_ref = blender::bke::asset_edit_weak_reference_from_id(
brush->id))
{
return MEM_new<AssetWeakReference>(__func__, *weak_ref);
}
return nullptr;
}
bool BKE_paint_brush_set(Main *bmain,
Paint *paint,
const AssetWeakReference &brush_asset_reference)
{
/* Don't resolve this during file read, it will be done after. */
if (bmain->is_locked_for_linking) {
return false;
}
Brush *brush = reinterpret_cast<Brush *>(
blender::bke::asset_edit_id_from_weak_reference(*bmain, ID_BR, brush_asset_reference));
BLI_assert(brush == nullptr || !ID_IS_LINKED(brush) ||
blender::bke::asset_edit_id_is_editable(brush->id));
/* Ensure we have a brush with appropriate mode to assign.
* Could happen if contents of asset blend were manually changed. */
if (brush == nullptr || !BKE_paint_can_use_brush(paint, brush)) {
return false;
}
/* Update the brush itself. */
paint->brush = brush;
/* Update the brush asset reference. */
{
MEM_delete(paint->brush_asset_reference);
paint->brush_asset_reference = nullptr;
if (brush != nullptr) {
BLI_assert(blender::bke::asset_edit_weak_reference_from_id(brush->id) ==
brush_asset_reference);
paint->brush_asset_reference = MEM_new<AssetWeakReference>(__func__, brush_asset_reference);
}
}
return true;
}
bool BKE_paint_brush_set(Paint *paint, Brush *brush)
{
if (!BKE_paint_can_use_brush(paint, brush)) {
return false;
}
paint->brush = brush;
MEM_delete(paint->brush_asset_reference);
paint->brush_asset_reference = nullptr;
if (brush != nullptr) {
paint->brush_asset_reference = asset_reference_create_from_brush(brush);
}
return true;
}
static const char *paint_brush_essentials_asset_file_name_from_paint_mode(
const PaintMode paint_mode)
{
switch (paint_mode) {
case PaintMode::Sculpt:
return "essentials_brushes-mesh_sculpt.blend";
case PaintMode::Vertex:
return "essentials_brushes-mesh_vertex.blend";
case PaintMode::Weight:
return "essentials_brushes-mesh_weight.blend";
case PaintMode::Texture2D:
case PaintMode::Texture3D:
return "essentials_brushes-mesh_texture.blend";
case PaintMode::GPencil:
return "essentials_brushes-gp_draw.blend";
case PaintMode::SculptGPencil:
return "essentials_brushes-gp_sculpt.blend";
case PaintMode::WeightGPencil:
return "essentials_brushes-gp_weight.blend";
case PaintMode::VertexGPencil:
return "essentials_brushes-gp_vertex.blend";
case PaintMode::SculptCurves:
return "essentials_brushes-curve_sculpt.blend";
default:
return nullptr;
}
}
static AssetWeakReference *paint_brush_asset_reference_ptr_from_essentials(
const char *name, const PaintMode paint_mode)
{
const char *essentials_file_name = paint_brush_essentials_asset_file_name_from_paint_mode(
paint_mode);
if (!essentials_file_name) {
return nullptr;
}
AssetWeakReference *weak_ref = MEM_new<AssetWeakReference>(__func__);
weak_ref->asset_library_type = eAssetLibraryType::ASSET_LIBRARY_ESSENTIALS;
weak_ref->asset_library_identifier = nullptr;
weak_ref->relative_asset_identifier = BLI_sprintfN(
"brushes/%s/Brush/%s", essentials_file_name, name);
return weak_ref;
}
static std::optional<AssetWeakReference> paint_brush_asset_reference_from_essentials(
const char *name, const PaintMode paint_mode)
{
const char *essentials_file_name = paint_brush_essentials_asset_file_name_from_paint_mode(
paint_mode);
if (!essentials_file_name) {
return {};
}
AssetWeakReference weak_ref;
weak_ref.asset_library_type = eAssetLibraryType::ASSET_LIBRARY_ESSENTIALS;
weak_ref.asset_library_identifier = nullptr;
weak_ref.relative_asset_identifier = BLI_sprintfN(
"brushes/%s/Brush/%s", essentials_file_name, name);
return weak_ref;
}
Brush *BKE_paint_brush_from_essentials(Main *bmain, const PaintMode paint_mode, const char *name)
{
std::optional<AssetWeakReference> weak_ref = paint_brush_asset_reference_from_essentials(
name, paint_mode);
if (!weak_ref) {
return nullptr;
}
return reinterpret_cast<Brush *>(
blender::bke::asset_edit_id_from_weak_reference(*bmain, ID_BR, *weak_ref));
}
static void paint_brush_set_essentials_reference(Paint *paint, const char *name)
{
/* Set brush asset reference to a named brush in the essentials asset library. */
MEM_delete(paint->brush_asset_reference);
BLI_assert(paint->runtime->initialized);
paint->brush_asset_reference = paint_brush_asset_reference_ptr_from_essentials(
name, paint->runtime->paint_mode);
paint->brush = nullptr;
}
static void paint_eraser_brush_set_essentials_reference(Paint *paint, const char *name)
{
/* Set brush asset reference to a named brush in the essentials asset library. */
MEM_delete(paint->eraser_brush_asset_reference);
BLI_assert(paint->runtime->initialized);
paint->eraser_brush_asset_reference = paint_brush_asset_reference_ptr_from_essentials(
name, paint->runtime->paint_mode);
paint->eraser_brush = nullptr;
}
static void paint_brush_default_essentials_name_get(
const PaintMode paint_mode,
std::optional<int> brush_type,
blender::StringRefNull *r_name,
blender::StringRefNull *r_eraser_name = nullptr)
{
const char *name = "";
const char *eraser_name = "";
switch (paint_mode) {
case PaintMode::Sculpt:
name = "Draw";
if (brush_type) {
switch (eBrushSculptType(*brush_type)) {
case SCULPT_BRUSH_TYPE_MASK:
name = "Mask";
break;
case SCULPT_BRUSH_TYPE_DRAW_FACE_SETS:
name = "Face Set Paint";
break;
case SCULPT_BRUSH_TYPE_PAINT:
name = "Paint Hard";
break;
case SCULPT_BRUSH_TYPE_SIMPLIFY:
name = "Density";
break;
case SCULPT_BRUSH_TYPE_DISPLACEMENT_ERASER:
name = "Erase Multires Displacement";
break;
case SCULPT_BRUSH_TYPE_DISPLACEMENT_SMEAR:
name = "Smear Multires Displacement";
break;
default:
break;
}
}
break;
case PaintMode::Vertex:
name = "Paint Hard";
if (brush_type) {
switch (eBrushVertexPaintType(*brush_type)) {
case VPAINT_BRUSH_TYPE_BLUR:
name = "Blur";
break;
case VPAINT_BRUSH_TYPE_AVERAGE:
name = "Average";
break;
case VPAINT_BRUSH_TYPE_SMEAR:
name = "Smear";
break;
case VPAINT_BRUSH_TYPE_DRAW:
/* Use default, don't override. */
break;
}
}
break;
case PaintMode::Weight:
name = "Paint";
if (brush_type) {
switch (eBrushWeightPaintType(*brush_type)) {
case WPAINT_BRUSH_TYPE_BLUR:
name = "Blur";
break;
case WPAINT_BRUSH_TYPE_AVERAGE:
name = "Average";
break;
case WPAINT_BRUSH_TYPE_SMEAR:
name = "Smear";
break;
case WPAINT_BRUSH_TYPE_DRAW:
/* Use default, don't override. */
break;
}
}
break;
case PaintMode::Texture2D:
case PaintMode::Texture3D:
name = "Paint Hard";
if (brush_type) {
switch (eBrushImagePaintType(*brush_type)) {
case IMAGE_PAINT_BRUSH_TYPE_SOFTEN:
name = "Blur";
break;
case IMAGE_PAINT_BRUSH_TYPE_SMEAR:
name = "Smear";
break;
case IMAGE_PAINT_BRUSH_TYPE_FILL:
name = "Fill";
break;
case IMAGE_PAINT_BRUSH_TYPE_MASK:
name = "Mask";
break;
case IMAGE_PAINT_BRUSH_TYPE_CLONE:
name = "Clone";
break;
case IMAGE_PAINT_BRUSH_TYPE_DRAW:
break;
}
}
break;
case PaintMode::SculptCurves:
name = "Comb";
if (brush_type) {
switch (eBrushCurvesSculptType(*brush_type)) {
case CURVES_SCULPT_BRUSH_TYPE_ADD:
name = "Add";
break;
case CURVES_SCULPT_BRUSH_TYPE_DELETE:
name = "Delete";
break;
case CURVES_SCULPT_BRUSH_TYPE_DENSITY:
name = "Density";
break;
case CURVES_SCULPT_BRUSH_TYPE_SELECTION_PAINT:
name = "Select";
break;
default:
break;
}
}
break;
case PaintMode::GPencil:
name = "Pencil";
/* Different default brush for some brush types. */
if (brush_type) {
switch (eBrushGPaintType(*brush_type)) {
case GPAINT_BRUSH_TYPE_ERASE:
name = "Eraser Hard";
break;
case GPAINT_BRUSH_TYPE_FILL:
name = "Fill";
break;
case GPAINT_BRUSH_TYPE_DRAW:
case GPAINT_BRUSH_TYPE_TINT:
/* Use default, don't override. */
break;
}
}
eraser_name = "Eraser Soft";
break;
case PaintMode::VertexGPencil:
name = "Paint";
if (brush_type) {
switch (eBrushGPVertexType(*brush_type)) {
case GPVERTEX_BRUSH_TYPE_BLUR:
name = "Blur";
break;
case GPVERTEX_BRUSH_TYPE_AVERAGE:
name = "Average";
break;
case GPVERTEX_BRUSH_TYPE_SMEAR:
name = "Smear";
break;
case GPVERTEX_BRUSH_TYPE_REPLACE:
name = "Replace";
break;
case GPVERTEX_BRUSH_TYPE_DRAW:
/* Use default, don't override. */
break;
case GPVERTEX_BRUSH_TYPE_TINT:
/* Unused brush type. */
BLI_assert_unreachable();
break;
}
}
break;
case PaintMode::SculptGPencil:
name = "Smooth";
if (brush_type) {
switch (eBrushGPSculptType(*brush_type)) {
case GPSCULPT_BRUSH_TYPE_CLONE:
name = "Clone";
break;
default:
break;
}
}
break;
case PaintMode::WeightGPencil:
name = "Paint";
if (brush_type) {
switch (eBrushGPWeightType(*brush_type)) {
case GPWEIGHT_BRUSH_TYPE_BLUR:
name = "Blur";
break;
case GPWEIGHT_BRUSH_TYPE_AVERAGE:
name = "Average";
break;
case GPWEIGHT_BRUSH_TYPE_SMEAR:
name = "Smear";
break;
case GPWEIGHT_BRUSH_TYPE_DRAW:
/* Use default, don't override. */
break;
}
}
break;
default:
BLI_assert_unreachable();
break;
}
*r_name = name;
if (r_eraser_name) {
*r_eraser_name = eraser_name;
}
}
std::optional<AssetWeakReference> BKE_paint_brush_type_default_reference(
const PaintMode paint_mode, std::optional<int> brush_type)
{
blender::StringRefNull name;
paint_brush_default_essentials_name_get(paint_mode, brush_type, &name, nullptr);
if (name.is_empty()) {
return {};
}
return paint_brush_asset_reference_from_essentials(name.c_str(), paint_mode);
}
static void paint_brush_set_default_reference(Paint *paint,
const bool do_regular = true,
const bool do_eraser = true)
{
if (!paint->runtime || !paint->runtime->initialized) {
/* Can happen when loading old file where toolsettings are created in versioning, without
* calling #paint_runtime_init(). Will be done later when necessary. */
return;
}
blender::StringRefNull name;
blender::StringRefNull eraser_name;
paint_brush_default_essentials_name_get(
paint->runtime->paint_mode, std::nullopt, &name, &eraser_name);
if (do_regular && !name.is_empty()) {
paint_brush_set_essentials_reference(paint, name.c_str());
}
if (do_eraser && !eraser_name.is_empty()) {
paint_eraser_brush_set_essentials_reference(paint, eraser_name.c_str());
}
}
void BKE_paint_brushes_set_default_references(ToolSettings *ts)
{
if (ts->sculpt) {
paint_brush_set_default_reference(&ts->sculpt->paint);
}
if (ts->curves_sculpt) {
paint_brush_set_default_reference(&ts->curves_sculpt->paint);
}
if (ts->wpaint) {
paint_brush_set_default_reference(&ts->wpaint->paint);
}
if (ts->vpaint) {
paint_brush_set_default_reference(&ts->vpaint->paint);
}
if (ts->gp_paint) {
paint_brush_set_default_reference(&ts->gp_paint->paint);
}
if (ts->gp_vertexpaint) {
paint_brush_set_default_reference(&ts->gp_vertexpaint->paint);
}
if (ts->gp_sculptpaint) {
paint_brush_set_default_reference(&ts->gp_sculptpaint->paint);
}
if (ts->gp_weightpaint) {
paint_brush_set_default_reference(&ts->gp_weightpaint->paint);
}
paint_brush_set_default_reference(&ts->imapaint.paint);
}
bool BKE_paint_brush_set_default(Main *bmain, Paint *paint)
{
paint_brush_set_default_reference(paint, true, false);
return paint_brush_update_from_asset_reference(bmain, paint);
}
bool BKE_paint_brush_set_essentials(Main *bmain, Paint *paint, const char *name)
{
paint_brush_set_essentials_reference(paint, name);
return paint_brush_update_from_asset_reference(bmain, paint);
}
void BKE_paint_previous_asset_reference_set(Paint *paint,
AssetWeakReference &&asset_weak_reference)
{
if (!paint->runtime->previous_active_brush_reference) {
paint->runtime->previous_active_brush_reference = MEM_new<AssetWeakReference>(__func__);
}
*paint->runtime->previous_active_brush_reference = asset_weak_reference;
}
void BKE_paint_previous_asset_reference_clear(Paint *paint)
{
MEM_SAFE_DELETE(paint->runtime->previous_active_brush_reference);
}
void BKE_paint_brushes_validate(Main *bmain, Paint *paint)
{
/* Clear brush with invalid mode. Unclear if this can still happen,
* but kept from old paint tool-slots code. */
Brush *brush = BKE_paint_brush(paint);
if (brush && (paint->runtime->ob_mode & brush->ob_mode) == 0) {
BKE_paint_brush_set(paint, nullptr);
BKE_paint_brush_set_default(bmain, paint);
}
Brush *eraser_brush = BKE_paint_eraser_brush(paint);
if (eraser_brush && (paint->runtime->ob_mode & eraser_brush->ob_mode) == 0) {
BKE_paint_eraser_brush_set(paint, nullptr);
BKE_paint_eraser_brush_set_default(bmain, paint);
}
}
static bool paint_eraser_brush_set_from_asset_reference(Main *bmain, Paint *paint)
{
/* Don't resolve this during file read, it will be done after. */
if (bmain->is_locked_for_linking) {
return false;
}
/* Attempt to restore a valid active brush from brush asset information. */
if (paint->eraser_brush != nullptr) {
return false;
}
if (paint->eraser_brush_asset_reference == nullptr) {
return false;
}
Brush *brush = reinterpret_cast<Brush *>(blender::bke::asset_edit_id_from_weak_reference(
*bmain, ID_BR, *paint->eraser_brush_asset_reference));
BLI_assert(brush == nullptr || blender::bke::asset_edit_id_is_editable(brush->id));
/* Ensure we have a brush with appropriate mode to assign.
* Could happen if contents of asset blend was manually changed. */
if (brush == nullptr || (paint->runtime->ob_mode & brush->ob_mode) == 0) {
MEM_delete(paint->eraser_brush_asset_reference);
paint->eraser_brush_asset_reference = nullptr;
return false;
}
paint->eraser_brush = brush;
return true;
}
Brush *BKE_paint_eraser_brush(Paint *paint)
{
return paint ? paint->eraser_brush : nullptr;
}
const Brush *BKE_paint_eraser_brush_for_read(const Paint *paint)
{
return paint ? paint->eraser_brush : nullptr;
}
bool BKE_paint_eraser_brush_set(Paint *paint, Brush *brush)
{
if (paint == nullptr || paint->eraser_brush == brush) {
return false;
}
if (brush && (paint->runtime->ob_mode & brush->ob_mode) == 0) {
return false;
}
paint->eraser_brush = brush;
MEM_delete(paint->eraser_brush_asset_reference);
paint->eraser_brush_asset_reference = nullptr;
if (brush != nullptr) {
std::optional<AssetWeakReference> weak_ref = blender::bke::asset_edit_weak_reference_from_id(
brush->id);
if (weak_ref.has_value()) {
paint->eraser_brush_asset_reference = MEM_new<AssetWeakReference>(__func__, *weak_ref);
}
}
return true;
}
Brush *BKE_paint_eraser_brush_from_essentials(Main *bmain,
const PaintMode paint_mode,
const char *name)
{
std::optional<AssetWeakReference> weak_ref = paint_brush_asset_reference_from_essentials(
name, paint_mode);
if (!weak_ref) {
return {};
}
return reinterpret_cast<Brush *>(
blender::bke::asset_edit_id_from_weak_reference(*bmain, ID_BR, *weak_ref));
}
bool BKE_paint_eraser_brush_set_default(Main *bmain, Paint *paint)
{
paint_brush_set_default_reference(paint, false, true);
return paint_eraser_brush_set_from_asset_reference(bmain, paint);
}
bool BKE_paint_eraser_brush_set_essentials(Main *bmain, Paint *paint, const char *name)
{
paint_eraser_brush_set_essentials_reference(paint, name);
return paint_eraser_brush_set_from_asset_reference(bmain, paint);
}
static void paint_runtime_init(const ToolSettings *ts, Paint *paint)
{
if (!paint->runtime) {
paint->runtime = MEM_new<blender::bke::PaintRuntime>(__func__);
}
if (paint == &ts->imapaint.paint) {
paint->runtime->ob_mode = OB_MODE_TEXTURE_PAINT;
/* Note: This is an odd case where 3D Texture paint and Image Paint share the same struct.
* It would be equally valid to assign PaintMode::Texture2D to this. */
paint->runtime->paint_mode = PaintMode::Texture3D;
}
else if (ts->sculpt && paint == &ts->sculpt->paint) {
paint->runtime->ob_mode = OB_MODE_SCULPT;
paint->runtime->paint_mode = PaintMode::Sculpt;
}
else if (ts->vpaint && paint == &ts->vpaint->paint) {
paint->runtime->ob_mode = OB_MODE_VERTEX_PAINT;
paint->runtime->paint_mode = PaintMode::Vertex;
}
else if (ts->wpaint && paint == &ts->wpaint->paint) {
paint->runtime->ob_mode = OB_MODE_WEIGHT_PAINT;
paint->runtime->paint_mode = PaintMode::Weight;
}
else if (ts->gp_paint && paint == &ts->gp_paint->paint) {
paint->runtime->ob_mode = OB_MODE_PAINT_GREASE_PENCIL;
paint->runtime->paint_mode = PaintMode::GPencil;
}
else if (ts->gp_vertexpaint && paint == &ts->gp_vertexpaint->paint) {
paint->runtime->ob_mode = OB_MODE_VERTEX_GREASE_PENCIL;
paint->runtime->paint_mode = PaintMode::VertexGPencil;
}
else if (ts->gp_sculptpaint && paint == &ts->gp_sculptpaint->paint) {
paint->runtime->ob_mode = OB_MODE_SCULPT_GREASE_PENCIL;
paint->runtime->paint_mode = PaintMode::SculptGPencil;
}
else if (ts->gp_weightpaint && paint == &ts->gp_weightpaint->paint) {
paint->runtime->ob_mode = OB_MODE_WEIGHT_GREASE_PENCIL;
paint->runtime->paint_mode = PaintMode::WeightGPencil;
}
else if (ts->curves_sculpt && paint == &ts->curves_sculpt->paint) {
paint->runtime->ob_mode = OB_MODE_SCULPT_CURVES;
paint->runtime->paint_mode = PaintMode::SculptCurves;
}
else {
BLI_assert_unreachable();
}
paint->runtime->initialized = true;
}
uint BKE_paint_get_brush_type_offset_from_paintmode(const PaintMode mode)
{
switch (mode) {
case PaintMode::Texture2D:
case PaintMode::Texture3D:
return offsetof(Brush, image_brush_type);
case PaintMode::Sculpt:
return offsetof(Brush, sculpt_brush_type);
case PaintMode::Vertex:
return offsetof(Brush, vertex_brush_type);
case PaintMode::Weight:
return offsetof(Brush, weight_brush_type);
case PaintMode::GPencil:
return offsetof(Brush, gpencil_brush_type);
case PaintMode::VertexGPencil:
return offsetof(Brush, gpencil_vertex_brush_type);
case PaintMode::SculptGPencil:
return offsetof(Brush, gpencil_sculpt_brush_type);
case PaintMode::WeightGPencil:
return offsetof(Brush, gpencil_weight_brush_type);
case PaintMode::SculptCurves:
return offsetof(Brush, curves_sculpt_brush_type);
case PaintMode::Invalid:
break; /* We don't use these yet. */
}
return 0;
}
std::optional<int> BKE_paint_get_brush_type_from_obmode(const Brush *brush,
const eObjectMode ob_mode)
{
switch (ob_mode) {
case OB_MODE_TEXTURE_PAINT:
case OB_MODE_EDIT:
return brush->image_brush_type;
case OB_MODE_SCULPT:
return brush->sculpt_brush_type;
case OB_MODE_VERTEX_PAINT:
return brush->vertex_brush_type;
case OB_MODE_WEIGHT_PAINT:
return brush->weight_brush_type;
case OB_MODE_PAINT_GREASE_PENCIL:
return brush->gpencil_brush_type;
case OB_MODE_VERTEX_GREASE_PENCIL:
return brush->gpencil_vertex_brush_type;
case OB_MODE_SCULPT_GREASE_PENCIL:
return brush->gpencil_sculpt_brush_type;
case OB_MODE_WEIGHT_GREASE_PENCIL:
return brush->gpencil_weight_brush_type;
case OB_MODE_SCULPT_CURVES:
return brush->curves_sculpt_brush_type;
default:
return {};
}
}
std::optional<int> BKE_paint_get_brush_type_from_paintmode(const Brush *brush,
const PaintMode mode)
{
switch (mode) {
case PaintMode::Texture2D:
case PaintMode::Texture3D:
return brush->image_brush_type;
case PaintMode::Sculpt:
return brush->sculpt_brush_type;
case PaintMode::Vertex:
return brush->vertex_brush_type;
case PaintMode::Weight:
return brush->weight_brush_type;
case PaintMode::GPencil:
return brush->gpencil_brush_type;
case PaintMode::VertexGPencil:
return brush->gpencil_vertex_brush_type;
case PaintMode::SculptGPencil:
return brush->gpencil_sculpt_brush_type;
case PaintMode::WeightGPencil:
return brush->gpencil_weight_brush_type;
case PaintMode::SculptCurves:
return brush->curves_sculpt_brush_type;
case PaintMode::Invalid:
default:
return {};
}
}
PaintCurve *BKE_paint_curve_add(Main *bmain, const char *name)
{
PaintCurve *pc = BKE_id_new<PaintCurve>(bmain, name);
return pc;
}
Palette *BKE_paint_palette(Paint *paint)
{
return paint ? paint->palette : nullptr;
}
void BKE_paint_palette_set(Paint *paint, Palette *palette)
{
if (paint) {
id_us_min((ID *)paint->palette);
paint->palette = palette;
id_us_plus((ID *)paint->palette);
}
}
void BKE_paint_curve_clamp_endpoint_add_index(PaintCurve *pc, const int add_index)
{
pc->add_index = (add_index || pc->tot_points == 1) ? (add_index + 1) : 0;
}
void BKE_palette_color_remove(Palette *palette, PaletteColor *color)
{
if (BLI_listbase_count_at_most(&palette->colors, palette->active_color) == palette->active_color)
{
palette->active_color--;
}
BLI_remlink(&palette->colors, color);
if (palette->active_color < 0 && !BLI_listbase_is_empty(&palette->colors)) {
palette->active_color = 0;
}
MEM_freeN(color);
}
void BKE_palette_clear(Palette *palette)
{
BLI_freelistN(&palette->colors);
palette->active_color = 0;
}
void BKE_palette_color_set(PaletteColor *color, const float rgb[3])
{
copy_v3_v3(color->color, rgb);
BKE_palette_color_sync_legacy(color);
}
void BKE_palette_color_sync_legacy(PaletteColor *color)
{
linearrgb_to_srgb_v3_v3(color->rgb, color->color);
}
Palette *BKE_palette_add(Main *bmain, const char *name)
{
Palette *palette = BKE_id_new<Palette>(bmain, name);
return palette;
}
PaletteColor *BKE_palette_color_add(Palette *palette)
{
PaletteColor *color = MEM_callocN<PaletteColor>(__func__);
BLI_addtail(&palette->colors, color);
return color;
}
bool BKE_palette_is_empty(const Palette *palette)
{
return BLI_listbase_is_empty(&palette->colors);
}
static int palettecolor_compare_hsv(const void *a1, const void *a2)
{
const tPaletteColorHSV *ps1 = static_cast<const tPaletteColorHSV *>(a1);
const tPaletteColorHSV *ps2 = static_cast<const tPaletteColorHSV *>(a2);
/* Hue */
if (ps1->h > ps2->h) {
return 1;
}
if (ps1->h < ps2->h) {
return -1;
}
/* Saturation. */
if (ps1->s > ps2->s) {
return 1;
}
if (ps1->s < ps2->s) {
return -1;
}
/* Value. */
if (1.0f - ps1->v > 1.0f - ps2->v) {
return 1;
}
if (1.0f - ps1->v < 1.0f - ps2->v) {
return -1;
}
return 0;
}
void BKE_palette_sort_hsv(tPaletteColorHSV *color_array, const int totcol)
{
qsort(color_array, totcol, sizeof(tPaletteColorHSV), palettecolor_compare_hsv);
}
static int palettecolor_compare_svh(const void *a1, const void *a2)
{
const tPaletteColorHSV *ps1 = static_cast<const tPaletteColorHSV *>(a1);
const tPaletteColorHSV *ps2 = static_cast<const tPaletteColorHSV *>(a2);
/* Saturation. */
if (ps1->s > ps2->s) {
return 1;
}
if (ps1->s < ps2->s) {
return -1;
}
/* Value. */
if (1.0f - ps1->v > 1.0f - ps2->v) {
return 1;
}
if (1.0f - ps1->v < 1.0f - ps2->v) {
return -1;
}
/* Hue */
if (ps1->h > ps2->h) {
return 1;
}
if (ps1->h < ps2->h) {
return -1;
}
return 0;
}
void BKE_palette_sort_svh(tPaletteColorHSV *color_array, const int totcol)
{
qsort(color_array, totcol, sizeof(tPaletteColorHSV), palettecolor_compare_svh);
}
static int palettecolor_compare_vhs(const void *a1, const void *a2)
{
const tPaletteColorHSV *ps1 = static_cast<const tPaletteColorHSV *>(a1);
const tPaletteColorHSV *ps2 = static_cast<const tPaletteColorHSV *>(a2);
/* Value. */
if (1.0f - ps1->v > 1.0f - ps2->v) {
return 1;
}
if (1.0f - ps1->v < 1.0f - ps2->v) {
return -1;
}
/* Hue */
if (ps1->h > ps2->h) {
return 1;
}
if (ps1->h < ps2->h) {
return -1;
}
/* Saturation. */
if (ps1->s > ps2->s) {
return 1;
}
if (ps1->s < ps2->s) {
return -1;
}
return 0;
}
void BKE_palette_sort_vhs(tPaletteColorHSV *color_array, const int totcol)
{
qsort(color_array, totcol, sizeof(tPaletteColorHSV), palettecolor_compare_vhs);
}
static int palettecolor_compare_luminance(const void *a1, const void *a2)
{
const tPaletteColorHSV *ps1 = static_cast<const tPaletteColorHSV *>(a1);
const tPaletteColorHSV *ps2 = static_cast<const tPaletteColorHSV *>(a2);
float lumi1 = (ps1->rgb[0] + ps1->rgb[1] + ps1->rgb[2]) / 3.0f;
float lumi2 = (ps2->rgb[0] + ps2->rgb[1] + ps2->rgb[2]) / 3.0f;
if (lumi1 > lumi2) {
return -1;
}
if (lumi1 < lumi2) {
return 1;
}
return 0;
}
void BKE_palette_sort_luminance(tPaletteColorHSV *color_array, const int totcol)
{
/* Sort by Luminance (calculated with the average, enough for sorting). */
qsort(color_array, totcol, sizeof(tPaletteColorHSV), palettecolor_compare_luminance);
}
bool BKE_palette_from_hash(Main *bmain, GHash *color_table, const char *name)
{
tPaletteColorHSV *color_array = nullptr;
tPaletteColorHSV *col_elm = nullptr;
bool done = false;
const int totpal = BLI_ghash_len(color_table);
if (totpal > 0) {
color_array = MEM_calloc_arrayN<tPaletteColorHSV>(totpal, __func__);
/* Put all colors in an array. */
GHashIterator gh_iter;
int t = 0;
GHASH_ITER (gh_iter, color_table) {
const uint col = POINTER_AS_INT(BLI_ghashIterator_getValue(&gh_iter));
float r, g, b;
float h, s, v;
cpack_to_rgb(col, &r, &g, &b);
rgb_to_hsv(r, g, b, &h, &s, &v);
col_elm = &color_array[t];
col_elm->rgb[0] = r;
col_elm->rgb[1] = g;
col_elm->rgb[2] = b;
col_elm->h = h;
col_elm->s = s;
col_elm->v = v;
t++;
}
}
/* Create the Palette. */
if (totpal > 0) {
/* Sort by Hue and saturation. */
BKE_palette_sort_hsv(color_array, totpal);
Palette *palette = BKE_palette_add(bmain, name);
if (palette) {
for (int i = 0; i < totpal; i++) {
col_elm = &color_array[i];
PaletteColor *palcol = BKE_palette_color_add(palette);
if (palcol) {
/* Hex was stored as sRGB. */
IMB_colormanagement_srgb_to_scene_linear_v3(palcol->color, col_elm->rgb);
}
}
done = true;
}
}
else {
done = false;
}
if (totpal > 0) {
MEM_SAFE_FREE(color_array);
}
return done;
}
bool BKE_paint_select_face_test(const Object *ob)
{
return ((ob != nullptr) && (ob->type == OB_MESH) && (ob->data != nullptr) &&
(((Mesh *)ob->data)->editflag & ME_EDIT_PAINT_FACE_SEL) &&
(ob->mode & (OB_MODE_VERTEX_PAINT | OB_MODE_WEIGHT_PAINT | OB_MODE_TEXTURE_PAINT)));
}
bool BKE_paint_select_vert_test(const Object *ob)
{
return ((ob != nullptr) && (ob->type == OB_MESH) && (ob->data != nullptr) &&
(((Mesh *)ob->data)->editflag & ME_EDIT_PAINT_VERT_SEL) &&
(ob->mode & OB_MODE_WEIGHT_PAINT || ob->mode & OB_MODE_VERTEX_PAINT));
}
bool BKE_paint_select_grease_pencil_test(const Object *ob)
{
if (ob == nullptr || ob->data == nullptr) {
return false;
}
if (ob->type == OB_GREASE_PENCIL) {
return (ob->mode & (OB_MODE_SCULPT_GREASE_PENCIL | OB_MODE_VERTEX_GREASE_PENCIL));
}
return false;
}
bool BKE_paint_select_elem_test(const Object *ob)
{
return (BKE_paint_select_vert_test(ob) || BKE_paint_select_face_test(ob) ||
BKE_paint_select_grease_pencil_test(ob));
}
bool BKE_paint_always_hide_test(const Object *ob)
{
return ((ob != nullptr) && (ob->type == OB_MESH) && (ob->data != nullptr) &&
(ob->mode & OB_MODE_WEIGHT_PAINT || ob->mode & OB_MODE_VERTEX_PAINT));
}
void BKE_paint_cavity_curve_preset(Paint *paint, int preset)
{
CurveMapping *cumap = nullptr;
CurveMap *cuma = nullptr;
if (!paint->cavity_curve) {
paint->cavity_curve = BKE_curvemapping_add(1, 0, 0, 1, 1);
}
cumap = paint->cavity_curve;
cumap->flag &= ~CUMA_EXTEND_EXTRAPOLATE;
cumap->preset = preset;
cuma = cumap->cm;
BKE_curvemap_reset(cuma, &cumap->clipr, cumap->preset, CurveMapSlopeType::Positive);
BKE_curvemapping_changed(cumap, false);
}
eObjectMode BKE_paint_object_mode_from_paintmode(const PaintMode mode)
{
switch (mode) {
case PaintMode::Sculpt:
return OB_MODE_SCULPT;
case PaintMode::Vertex:
return OB_MODE_VERTEX_PAINT;
case PaintMode::Weight:
return OB_MODE_WEIGHT_PAINT;
case PaintMode::Texture2D:
case PaintMode::Texture3D:
return OB_MODE_TEXTURE_PAINT;
case PaintMode::SculptCurves:
return OB_MODE_SCULPT_CURVES;
case PaintMode::GPencil:
return OB_MODE_PAINT_GREASE_PENCIL;
case PaintMode::Invalid:
default:
return OB_MODE_OBJECT;
}
}
static void paint_init_data(Paint &paint)
{
const UnifiedPaintSettings &default_ups = *DNA_struct_default_get(UnifiedPaintSettings);
paint.unified_paint_settings.size = default_ups.size;
paint.unified_paint_settings.input_samples = default_ups.input_samples;
paint.unified_paint_settings.unprojected_size = default_ups.unprojected_size;
paint.unified_paint_settings.alpha = default_ups.alpha;
paint.unified_paint_settings.weight = default_ups.weight;
paint.unified_paint_settings.flag = default_ups.flag;
if (!paint.unified_paint_settings.curve_rand_hue) {
paint.unified_paint_settings.curve_rand_hue = BKE_paint_default_curve();
}
if (!paint.unified_paint_settings.curve_rand_saturation) {
paint.unified_paint_settings.curve_rand_saturation = BKE_paint_default_curve();
}
if (!paint.unified_paint_settings.curve_rand_value) {
paint.unified_paint_settings.curve_rand_value = BKE_paint_default_curve();
}
copy_v3_v3(paint.unified_paint_settings.color, default_ups.color);
copy_v3_v3(paint.unified_paint_settings.secondary_color, default_ups.secondary_color);
}
bool BKE_paint_ensure(ToolSettings *ts, Paint **r_paint)
{
Paint *paint = nullptr;
if (*r_paint) {
if (!(*r_paint)->runtime) {
(*r_paint)->runtime = MEM_new<blender::bke::PaintRuntime>(__func__);
}
if (!(*r_paint)->runtime->initialized && *r_paint == (Paint *)&ts->imapaint) {
paint_runtime_init(ts, *r_paint);
}
else {
BLI_assert(ELEM(*r_paint,
/* Cast is annoying, but prevent nullptr-pointer access. */
(Paint *)ts->gp_paint,
(Paint *)ts->gp_vertexpaint,
(Paint *)ts->gp_sculptpaint,
(Paint *)ts->gp_weightpaint,
(Paint *)ts->sculpt,
(Paint *)ts->vpaint,
(Paint *)ts->wpaint,
(Paint *)ts->curves_sculpt,
(Paint *)&ts->imapaint));
#ifndef NDEBUG
Paint paint_test = blender::dna::shallow_copy(**r_paint);
paint_runtime_init(ts, *r_paint);
/* Swap so debug doesn't hide errors when release fails. */
blender::dna::shallow_swap(**r_paint, paint_test);
BLI_assert(paint_test.runtime->ob_mode == (*r_paint)->runtime->ob_mode);
#endif
}
return true;
}
if (((VPaint **)r_paint == &ts->vpaint) || ((VPaint **)r_paint == &ts->wpaint)) {
VPaint *data = MEM_callocN<VPaint>(__func__);
paint = &data->paint;
paint_init_data(*paint);
}
else if ((Sculpt **)r_paint == &ts->sculpt) {
Sculpt *data = MEM_callocN<Sculpt>(__func__);
*data = blender::dna::shallow_copy(*DNA_struct_default_get(Sculpt));
paint = &data->paint;
paint_init_data(*paint);
}
else if ((GpPaint **)r_paint == &ts->gp_paint) {
GpPaint *data = MEM_callocN<GpPaint>(__func__);
paint = &data->paint;
paint_init_data(*paint);
}
else if ((GpVertexPaint **)r_paint == &ts->gp_vertexpaint) {
GpVertexPaint *data = MEM_callocN<GpVertexPaint>(__func__);
paint = &data->paint;
paint_init_data(*paint);
}
else if ((GpSculptPaint **)r_paint == &ts->gp_sculptpaint) {
GpSculptPaint *data = MEM_callocN<GpSculptPaint>(__func__);
paint = &data->paint;
paint_init_data(*paint);
}
else if ((GpWeightPaint **)r_paint == &ts->gp_weightpaint) {
GpWeightPaint *data = MEM_callocN<GpWeightPaint>(__func__);
paint = &data->paint;
paint_init_data(*paint);
}
else if ((CurvesSculpt **)r_paint == &ts->curves_sculpt) {
CurvesSculpt *data = MEM_callocN<CurvesSculpt>(__func__);
paint = &data->paint;
paint_init_data(*paint);
}
else if (*r_paint == &ts->imapaint.paint) {
paint = &ts->imapaint.paint;
paint_init_data(*paint);
}
paint->flags |= PAINT_SHOW_BRUSH;
*r_paint = paint;
paint_runtime_init(ts, paint);
return false;
}
void BKE_paint_brushes_ensure(Main *bmain, Paint *paint)
{
if (paint->brush_asset_reference) {
paint_brush_update_from_asset_reference(bmain, paint);
}
if (paint->eraser_brush_asset_reference) {
paint_eraser_brush_set_from_asset_reference(bmain, paint);
}
if (!paint->brush) {
BKE_paint_brush_set_default(bmain, paint);
}
if (!paint->eraser_brush) {
BKE_paint_eraser_brush_set_default(bmain, paint);
}
}
void BKE_paint_init(Main *bmain, Scene *sce, PaintMode mode, const bool ensure_brushes)
{
BKE_paint_ensure_from_paintmode(sce, mode);
Paint *paint = BKE_paint_get_active_from_paintmode(sce, mode);
if (ensure_brushes) {
BKE_paint_brushes_ensure(bmain, paint);
}
if (!paint->cavity_curve) {
BKE_paint_cavity_curve_preset(paint, CURVE_PRESET_LINE);
}
}
void BKE_paint_free(Paint *paint)
{
BKE_curvemapping_free(paint->cavity_curve);
MEM_delete(paint->brush_asset_reference);
MEM_delete(paint->tool_brush_bindings.main_brush_asset_reference);
MEM_delete(paint->eraser_brush_asset_reference);
LISTBASE_FOREACH_MUTABLE (NamedBrushAssetReference *,
brush_ref,
&paint->tool_brush_bindings.active_brush_per_brush_type)
{
MEM_delete(brush_ref->name);
MEM_delete(brush_ref->brush_asset_reference);
MEM_delete(brush_ref);
}
BKE_curvemapping_free(paint->unified_paint_settings.curve_rand_hue);
BKE_curvemapping_free(paint->unified_paint_settings.curve_rand_saturation);
BKE_curvemapping_free(paint->unified_paint_settings.curve_rand_value);
MEM_SAFE_DELETE(paint->runtime);
}
void BKE_paint_copy(const Paint *src, Paint *dst, const int flag)
{
dst->brush = src->brush;
dst->cavity_curve = BKE_curvemapping_copy(src->cavity_curve);
if (src->brush_asset_reference) {
dst->brush_asset_reference = MEM_new<AssetWeakReference>(__func__,
*src->brush_asset_reference);
}
if (src->tool_brush_bindings.main_brush_asset_reference) {
dst->tool_brush_bindings.main_brush_asset_reference = MEM_new<AssetWeakReference>(
__func__, *src->tool_brush_bindings.main_brush_asset_reference);
}
if (src->eraser_brush_asset_reference) {
dst->eraser_brush_asset_reference = MEM_new<AssetWeakReference>(
__func__, *src->eraser_brush_asset_reference);
}
BLI_duplicatelist(&dst->tool_brush_bindings.active_brush_per_brush_type,
&src->tool_brush_bindings.active_brush_per_brush_type);
LISTBASE_FOREACH (
NamedBrushAssetReference *, brush_ref, &dst->tool_brush_bindings.active_brush_per_brush_type)
{
brush_ref->name = BLI_strdup(brush_ref->name);
brush_ref->brush_asset_reference = MEM_new<AssetWeakReference>(
__func__, *brush_ref->brush_asset_reference);
}
dst->unified_paint_settings.curve_rand_hue = BKE_curvemapping_copy(
src->unified_paint_settings.curve_rand_hue);
dst->unified_paint_settings.curve_rand_saturation = BKE_curvemapping_copy(
src->unified_paint_settings.curve_rand_saturation);
dst->unified_paint_settings.curve_rand_value = BKE_curvemapping_copy(
src->unified_paint_settings.curve_rand_value);
if ((flag & LIB_ID_CREATE_NO_USER_REFCOUNT) == 0) {
id_us_plus((ID *)dst->palette);
}
dst->runtime = MEM_new<blender::bke::PaintRuntime>(__func__);
if (src->runtime) {
dst->runtime->paint_mode = src->runtime->paint_mode;
dst->runtime->ob_mode = src->runtime->ob_mode;
dst->runtime->initialized = true;
}
}
void BKE_paint_settings_foreach_mode(ToolSettings *ts, blender::FunctionRef<void(Paint *paint)> fn)
{
if (ts->vpaint) {
fn(reinterpret_cast<Paint *>(ts->vpaint));
}
if (ts->wpaint) {
fn(reinterpret_cast<Paint *>(ts->wpaint));
}
if (ts->sculpt) {
fn(reinterpret_cast<Paint *>(ts->sculpt));
}
if (ts->gp_paint) {
fn(reinterpret_cast<Paint *>(ts->gp_paint));
}
if (ts->gp_vertexpaint) {
fn(reinterpret_cast<Paint *>(ts->gp_vertexpaint));
}
if (ts->gp_sculptpaint) {
fn(reinterpret_cast<Paint *>(ts->gp_sculptpaint));
}
if (ts->gp_weightpaint) {
fn(reinterpret_cast<Paint *>(ts->gp_weightpaint));
}
if (ts->curves_sculpt) {
fn(reinterpret_cast<Paint *>(ts->curves_sculpt));
}
fn(reinterpret_cast<Paint *>(&ts->imapaint));
}
void BKE_paint_stroke_get_average(const Paint *paint, const Object *ob, float stroke[3])
{
const blender::bke::PaintRuntime &paint_runtime = *paint->runtime;
if (paint_runtime.last_stroke_valid && paint_runtime.average_stroke_counter > 0) {
float fac = 1.0f / paint_runtime.average_stroke_counter;
mul_v3_v3fl(stroke, paint_runtime.average_stroke_accum, fac);
}
else {
copy_v3_v3(stroke, ob->object_to_world().location());
}
}
blender::float3 BKE_paint_randomize_color(const BrushColorJitterSettings &color_jitter,
const blender::float3 &initial_hsv_jitter,
const float distance,
const float pressure,
const blender::float3 &color)
{
constexpr float noise_scale = 1 / 20.0f;
const float random_hue = (color_jitter.flag & BRUSH_COLOR_JITTER_USE_HUE_AT_STROKE) ?
initial_hsv_jitter[0] :
blender::noise::perlin(blender::float2(
distance * noise_scale, initial_hsv_jitter[0] * 100));
const float random_sat = (color_jitter.flag & BRUSH_COLOR_JITTER_USE_SAT_AT_STROKE) ?
initial_hsv_jitter[1] :
blender::noise::perlin(blender::float2(
distance * noise_scale, initial_hsv_jitter[1] * 100));
const float random_val = (color_jitter.flag & BRUSH_COLOR_JITTER_USE_VAL_AT_STROKE) ?
initial_hsv_jitter[2] :
blender::noise::perlin(blender::float2(
distance * noise_scale, initial_hsv_jitter[2] * 100));
float hue_jitter_scale = color_jitter.hue;
if (color_jitter.flag & BRUSH_COLOR_JITTER_USE_HUE_RAND_PRESS) {
hue_jitter_scale *= BKE_curvemapping_evaluateF(color_jitter.curve_hue_jitter, 0, pressure);
}
float sat_jitter_scale = color_jitter.saturation;
if (color_jitter.flag & BRUSH_COLOR_JITTER_USE_SAT_RAND_PRESS) {
sat_jitter_scale *= BKE_curvemapping_evaluateF(color_jitter.curve_sat_jitter, 0, pressure);
}
float val_jitter_scale = color_jitter.value;
if (color_jitter.flag & BRUSH_COLOR_JITTER_USE_VAL_RAND_PRESS) {
val_jitter_scale *= BKE_curvemapping_evaluateF(color_jitter.curve_val_jitter, 0, pressure);
}
blender::float3 hsv;
rgb_to_hsv_v(color, hsv);
hsv[0] += blender::math::interpolate(0.5f, random_hue, hue_jitter_scale) - 0.5f;
/* Wrap hue. */
if (hsv[0] > 1.0f) {
hsv[0] -= 1.0f;
}
else if (hsv[0] < 0.0f) {
hsv[0] += 1.0f;
}
hsv[1] *= blender::math::interpolate(1.0f, random_sat * 2.0f, sat_jitter_scale);
hsv[2] *= blender::math::interpolate(1.0f, random_val * 2.0f, val_jitter_scale);
blender::float3 random_color;
hsv_to_rgb_v(hsv, random_color);
return random_color;
}
void BKE_paint_blend_write(BlendWriter *writer, Paint *paint)
{
if (paint->cavity_curve) {
BKE_curvemapping_blend_write(writer, paint->cavity_curve);
}
if (paint->brush_asset_reference) {
BKE_asset_weak_reference_write(writer, paint->brush_asset_reference);
}
if (paint->eraser_brush_asset_reference) {
BKE_asset_weak_reference_write(writer, paint->eraser_brush_asset_reference);
}
{
/* Write tool system bindings. */
ToolSystemBrushBindings &tool_brush_bindings = paint->tool_brush_bindings;
if (tool_brush_bindings.main_brush_asset_reference) {
BKE_asset_weak_reference_write(writer, tool_brush_bindings.main_brush_asset_reference);
}
BLO_write_struct_list(
writer, NamedBrushAssetReference, &tool_brush_bindings.active_brush_per_brush_type);
LISTBASE_FOREACH (
NamedBrushAssetReference *, brush_ref, &tool_brush_bindings.active_brush_per_brush_type)
{
BLO_write_string(writer, brush_ref->name);
if (brush_ref->brush_asset_reference) {
BKE_asset_weak_reference_write(writer, brush_ref->brush_asset_reference);
}
}
}
if (paint->unified_paint_settings.curve_rand_hue) {
BKE_curvemapping_blend_write(writer, paint->unified_paint_settings.curve_rand_hue);
}
if (paint->unified_paint_settings.curve_rand_saturation) {
BKE_curvemapping_blend_write(writer, paint->unified_paint_settings.curve_rand_saturation);
}
if (paint->unified_paint_settings.curve_rand_value) {
BKE_curvemapping_blend_write(writer, paint->unified_paint_settings.curve_rand_value);
}
}
void BKE_paint_blend_read_data(BlendDataReader *reader, const Scene *scene, Paint *paint)
{
BLO_read_struct(reader, CurveMapping, &paint->cavity_curve);
if (paint->cavity_curve) {
BKE_curvemapping_blend_read(reader, paint->cavity_curve);
}
else {
BKE_paint_cavity_curve_preset(paint, CURVE_PRESET_LINE);
}
BLO_read_struct(reader, AssetWeakReference, &paint->brush_asset_reference);
if (paint->brush_asset_reference) {
BKE_asset_weak_reference_read(reader, paint->brush_asset_reference);
}
BLO_read_struct(reader, AssetWeakReference, &paint->eraser_brush_asset_reference);
if (paint->eraser_brush_asset_reference) {
BKE_asset_weak_reference_read(reader, paint->eraser_brush_asset_reference);
}
{
/* Read tool system bindings. */
ToolSystemBrushBindings &tool_brush_bindings = paint->tool_brush_bindings;
BLO_read_struct(reader, AssetWeakReference, &tool_brush_bindings.main_brush_asset_reference);
if (tool_brush_bindings.main_brush_asset_reference) {
BKE_asset_weak_reference_read(reader, tool_brush_bindings.main_brush_asset_reference);
}
BLO_read_struct_list(
reader, NamedBrushAssetReference, &tool_brush_bindings.active_brush_per_brush_type);
LISTBASE_FOREACH (
NamedBrushAssetReference *, brush_ref, &tool_brush_bindings.active_brush_per_brush_type)
{
BLO_read_string(reader, &brush_ref->name);
BLO_read_struct(reader, AssetWeakReference, &brush_ref->brush_asset_reference);
if (brush_ref->brush_asset_reference) {
BKE_asset_weak_reference_read(reader, brush_ref->brush_asset_reference);
}
}
}
UnifiedPaintSettings *ups = &paint->unified_paint_settings;
BLO_read_struct(reader, CurveMapping, &ups->curve_rand_hue);
if (ups->curve_rand_hue) {
BKE_curvemapping_blend_read(reader, ups->curve_rand_hue);
BKE_curvemapping_init(ups->curve_rand_hue);
}
BLO_read_struct(reader, CurveMapping, &ups->curve_rand_saturation);
if (ups->curve_rand_saturation) {
BKE_curvemapping_blend_read(reader, ups->curve_rand_saturation);
BKE_curvemapping_init(ups->curve_rand_saturation);
}
BLO_read_struct(reader, CurveMapping, &ups->curve_rand_value);
if (ups->curve_rand_value) {
BKE_curvemapping_blend_read(reader, ups->curve_rand_value);
BKE_curvemapping_init(ups->curve_rand_value);
}
paint->runtime = MEM_new<blender::bke::PaintRuntime>(__func__);
paint_runtime_init(scene->toolsettings, paint);
}
bool paint_is_grid_face_hidden(const blender::BoundedBitSpan grid_hidden,
const int gridsize,
const int x,
const int y)
{
return grid_hidden[CCG_grid_xy_to_index(gridsize, x, y)] ||
grid_hidden[CCG_grid_xy_to_index(gridsize, x + 1, y)] ||
grid_hidden[CCG_grid_xy_to_index(gridsize, x + 1, y + 1)] ||
grid_hidden[CCG_grid_xy_to_index(gridsize, x, y + 1)];
}
bool paint_is_bmesh_face_hidden(const BMFace *f)
{
BMLoop *l_iter;
BMLoop *l_first;
l_iter = l_first = BM_FACE_FIRST_LOOP(f);
do {
if (BM_elem_flag_test(l_iter->v, BM_ELEM_HIDDEN)) {
return true;
}
} while ((l_iter = l_iter->next) != l_first);
return false;
}
float paint_grid_paint_mask(const GridPaintMask *gpm, uint level, uint x, uint y)
{
int factor = CCG_grid_factor(level, gpm->level);
int gridsize = CCG_grid_size(gpm->level);
return gpm->data[(y * factor) * gridsize + (x * factor)];
}
/* Threshold to move before updating the brush rotation, reduces jitter. */
static float paint_rake_rotation_spacing(const Paint & /*ups*/, const Brush &brush)
{
return brush.sculpt_brush_type == SCULPT_BRUSH_TYPE_CLAY_STRIPS ? 1.0f : 20.0f;
}
void paint_update_brush_rake_rotation(Paint &paint, const Brush &brush, float rotation)
{
blender::bke::PaintRuntime &paint_runtime = *paint.runtime;
paint_runtime.brush_rotation = rotation;
if (brush.mask_mtex.brush_angle_mode & MTEX_ANGLE_RAKE) {
paint_runtime.brush_rotation_sec = rotation;
}
else {
paint_runtime.brush_rotation_sec = 0.0f;
}
}
static bool paint_rake_rotation_active(const MTex &mtex)
{
return mtex.tex && mtex.brush_angle_mode & MTEX_ANGLE_RAKE;
}
static bool paint_rake_rotation_active(const Brush &brush, PaintMode paint_mode)
{
return paint_rake_rotation_active(brush.mtex) || paint_rake_rotation_active(brush.mask_mtex) ||
BKE_brush_has_cube_tip(&brush, paint_mode);
}
bool paint_calculate_rake_rotation(Paint &paint,
const Brush &brush,
const float mouse_pos[2],
const PaintMode paint_mode,
bool stroke_has_started)
{
blender::bke::PaintRuntime &paint_runtime = *paint.runtime;
bool ok = false;
if (paint_rake_rotation_active(brush, paint_mode)) {
float r = paint_rake_rotation_spacing(paint, brush);
float rotation;
/* Use a smaller limit if the stroke hasn't started to prevent excessive pre-roll. */
if (!stroke_has_started) {
r = min_ff(r, 4.0f);
}
float dpos[2];
sub_v2_v2v2(dpos, mouse_pos, paint_runtime.last_rake);
/* Limit how often we update the angle to prevent jitter. */
if (len_squared_v2(dpos) >= r * r) {
rotation = atan2f(dpos[1], dpos[0]) + float(0.5f * M_PI);
copy_v2_v2(paint_runtime.last_rake, mouse_pos);
paint_runtime.last_rake_angle = rotation;
paint_update_brush_rake_rotation(paint, brush, rotation);
ok = true;
}
/* Make sure we reset here to the last rotation to avoid accumulating
* values in case a random rotation is also added. */
else {
paint_update_brush_rake_rotation(paint, brush, paint_runtime.last_rake_angle);
ok = false;
}
}
else {
paint_runtime.brush_rotation = paint_runtime.brush_rotation_sec = 0.0f;
ok = true;
}
return ok;
}
void BKE_sculptsession_free_deformMats(SculptSession *ss)
{
ss->deform_cos = {};
ss->deform_imats = {};
ss->vert_normals_deform = {};
ss->face_normals_deform = {};
}
void BKE_sculptsession_free_vwpaint_data(SculptSession *ss)
{
if (ss->mode_type == OB_MODE_WEIGHT_PAINT) {
MEM_SAFE_FREE(ss->mode.wpaint.alpha_weight);
if (!ss->mode.wpaint.dvert_prev.is_empty()) {
BKE_defvert_array_free_elems(ss->mode.wpaint.dvert_prev.data(),
ss->mode.wpaint.dvert_prev.size());
ss->mode.wpaint.dvert_prev = {};
}
}
}
/**
* Write out the sculpt dynamic-topology #BMesh to the #Mesh.
*/
static void sculptsession_bm_to_me_update_data_only(Object *ob)
{
SculptSession &ss = *ob->sculpt;
if (ss.bm) {
if (ob->data) {
BMeshToMeshParams params{};
params.calc_object_remap = false;
BM_mesh_bm_to_me(nullptr, ss.bm, static_cast<Mesh *>(ob->data), &params);
}
}
}
void BKE_sculptsession_bm_to_me(Object *ob)
{
if (ob && ob->sculpt) {
sculptsession_bm_to_me_update_data_only(ob);
/* Ensure the objects evaluated mesh doesn't hold onto arrays
* now realloc'd in the mesh #34473. */
DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY);
}
}
void BKE_sculptsession_free_pbvh(Object &object)
{
SculptSession *ss = object.sculpt;
if (!ss) {
return;
}
ss->pbvh.reset();
ss->edge_to_face_offsets = {};
ss->edge_to_face_indices = {};
ss->edge_to_face_map = {};
ss->vert_to_edge_offsets = {};
ss->vert_to_edge_indices = {};
ss->vert_to_edge_map = {};
ss->preview_verts = {};
ss->vertex_info.boundary.clear_and_shrink();
ss->fake_neighbors.fake_neighbor_index = {};
ss->topology_island_cache.reset();
ss->clear_active_elements(false);
}
void BKE_sculptsession_bm_to_me_for_render(Object *object)
{
if (object && object->sculpt) {
if (object->sculpt->bm) {
/* Ensure no points to old arrays are stored in DM
*
* Apparently, we could not use DEG_id_tag_update
* here because this will lead to the while object
* surface to disappear, so we'll release DM in place.
*/
BKE_object_free_derived_caches(object);
sculptsession_bm_to_me_update_data_only(object);
/* In contrast with sculptsession_bm_to_me no need in
* DAG tag update here - derived mesh was freed and
* old pointers are nowhere stored.
*/
}
}
}
void BKE_sculptsession_free(Object *ob)
{
if (ob && ob->sculpt) {
SculptSession *ss = ob->sculpt;
if (ss->bm) {
BKE_sculptsession_bm_to_me(ob);
BM_mesh_free(ss->bm);
}
BKE_sculptsession_free_pbvh(*ob);
MEM_delete(ss);
ob->sculpt = nullptr;
}
}
SculptSession::SculptSession() = default;
SculptSession::~SculptSession()
{
if (this->bm_log) {
BM_log_free(this->bm_log);
}
if (this->tex_pool) {
BKE_image_pool_free(this->tex_pool);
}
BKE_sculptsession_free_vwpaint_data(this);
MEM_SAFE_FREE(this->last_paint_canvas_key);
}
ActiveVert SculptSession::active_vert() const
{
return active_vert_;
}
ActiveVert SculptSession::last_active_vert() const
{
return last_active_vert_;
}
int SculptSession::active_vert_index() const
{
if (std::holds_alternative<int>(active_vert_)) {
return std::get<int>(active_vert_);
}
if (std::holds_alternative<BMVert *>(active_vert_)) {
BMVert *bm_vert = std::get<BMVert *>(active_vert_);
return BM_elem_index_get(bm_vert);
}
return -1;
}
int SculptSession::last_active_vert_index() const
{
if (std::holds_alternative<int>(last_active_vert_)) {
return std::get<int>(last_active_vert_);
}
if (std::holds_alternative<BMVert *>(last_active_vert_)) {
BMVert *bm_vert = std::get<BMVert *>(last_active_vert_);
return BM_elem_index_get(bm_vert);
}
return -1;
}
blender::float3 SculptSession::active_vert_position(const Depsgraph &depsgraph,
const Object &object) const
{
if (std::holds_alternative<int>(active_vert_)) {
if (this->subdiv_ccg) {
return this->subdiv_ccg->positions[std::get<int>(active_vert_)];
}
const Span<float3> positions = blender::bke::pbvh::vert_positions_eval(depsgraph, object);
return positions[std::get<int>(active_vert_)];
}
if (std::holds_alternative<BMVert *>(active_vert_)) {
BMVert *bm_vert = std::get<BMVert *>(active_vert_);
return bm_vert->co;
}
BLI_assert_unreachable();
return float3(std::numeric_limits<float>::infinity());
}
void SculptSession::clear_active_elements(bool persist_last_active)
{
if (persist_last_active) {
if (!std::holds_alternative<std::monostate>(active_vert_)) {
last_active_vert_ = active_vert_;
}
}
else {
last_active_vert_ = {};
}
active_vert_ = {};
active_grid_index.reset();
active_face_index.reset();
}
void SculptSession::set_active_vert(const ActiveVert vert)
{
active_vert_ = vert;
}
std::optional<PersistentMultiresData> SculptSession::persistent_multires_data()
{
BLI_assert(subdiv_ccg);
if (persistent.grids_num == -1 || persistent.grid_size == -1) {
return std::nullopt;
}
if (this->subdiv_ccg->grids_num != persistent.grids_num ||
this->subdiv_ccg->grid_size != persistent.grid_size)
{
return std::nullopt;
}
return PersistentMultiresData{persistent.sculpt_persistent_co,
persistent.sculpt_persistent_no,
persistent.sculpt_persistent_disp};
}
static MultiresModifierData *sculpt_multires_modifier_get(const Scene *scene,
Object *ob,
const bool auto_create_mdisps)
{
Mesh &mesh = *static_cast<Mesh *>(ob->data);
if (ob->sculpt && ob->sculpt->bm) {
/* Can't combine multires and dynamic topology. */
return nullptr;
}
bool need_mdisps = false;
if (!CustomData_get_layer(&mesh.corner_data, CD_MDISPS)) {
if (!auto_create_mdisps) {
/* Multires can't work without displacement layer. */
return nullptr;
}
need_mdisps = true;
}
/* Weight paint operates on original vertices, and needs to treat multires as regular modifier
* to make it so that pbvh::Tree vertices are at the multires surface. */
if ((ob->mode & OB_MODE_SCULPT) == 0) {
return nullptr;
}
VirtualModifierData virtual_modifier_data;
for (ModifierData *md = BKE_modifiers_get_virtual_modifierlist(ob, &virtual_modifier_data); md;
md = md->next)
{
if (md->type == eModifierType_Multires) {
MultiresModifierData *mmd = reinterpret_cast<MultiresModifierData *>(md);
if (!BKE_modifier_is_enabled(scene, md, eModifierMode_Realtime)) {
continue;
}
if (mmd->sculptlvl > 0 && !(mmd->flags & eMultiresModifierFlag_UseSculptBaseMesh)) {
if (need_mdisps) {
CustomData_add_layer(&mesh.corner_data, CD_MDISPS, CD_SET_DEFAULT, mesh.corners_num);
}
return mmd;
}
return nullptr;
}
}
return nullptr;
}
MultiresModifierData *BKE_sculpt_multires_active(const Scene *scene, Object *ob)
{
return sculpt_multires_modifier_get(scene, ob, false);
}
/* Checks if there are any supported deformation modifiers active */
static bool sculpt_modifiers_active(const Scene *scene, const Sculpt *sd, Object *ob)
{
const Mesh &mesh = *static_cast<Mesh *>(ob->data);
if (ob->sculpt->bm || BKE_sculpt_multires_active(scene, ob)) {
return false;
}
/* Non-locked shape keys could be handled in the same way as deformed mesh. */
if ((ob->shapeflag & OB_SHAPE_LOCK) == 0 && mesh.key && ob->shapenr) {
return true;
}
VirtualModifierData virtual_modifier_data;
for (ModifierData *md = BKE_modifiers_get_virtual_modifierlist(ob, &virtual_modifier_data); md;
md = md->next)
{
const ModifierTypeInfo *mti = BKE_modifier_get_info(static_cast<ModifierType>(md->type));
if (!BKE_modifier_is_enabled(scene, md, eModifierMode_Realtime)) {
continue;
}
if (md->type == eModifierType_Multires && (ob->mode & OB_MODE_SCULPT)) {
MultiresModifierData *mmd = reinterpret_cast<MultiresModifierData *>(md);
if (!(mmd->flags & eMultiresModifierFlag_UseSculptBaseMesh)) {
continue;
}
}
/* Exception for shape keys because we can edit those. */
if (md->type == eModifierType_ShapeKey) {
continue;
}
if (mti->type == ModifierTypeType::OnlyDeform) {
return true;
}
if ((sd->flags & SCULPT_ONLY_DEFORM) == 0) {
return true;
}
}
return false;
}
static void sculpt_update_object(Depsgraph *depsgraph,
Object *ob,
Object *ob_eval,
bool is_paint_tool)
{
using namespace blender;
using namespace blender::bke;
Scene *scene = DEG_get_input_scene(depsgraph);
Sculpt *sd = scene->toolsettings->sculpt;
SculptSession &ss = *ob->sculpt;
Mesh *mesh_orig = BKE_object_get_original_mesh(ob);
/* Use the "unchecked" function, because this code also runs as part of the depsgraph node that
* evaluates the object's geometry. So from perspective of the depsgraph, the mesh is not fully
* evaluated yet. */
Mesh *mesh_eval = BKE_object_get_evaluated_mesh_unchecked(ob_eval);
MultiresModifierData *mmd = sculpt_multires_modifier_get(scene, ob, true);
BLI_assert(mesh_eval != nullptr);
/* This is for handling a newly opened file with no object visible,
* causing `mesh_eval == nullptr`. */
if (mesh_eval == nullptr) {
return;
}
ss.deform_modifiers_active = sculpt_modifiers_active(scene, sd, ob);
ss.building_vp_handle = false;
ss.shapekey_active = (mmd == nullptr) ? BKE_keyblock_from_object(ob) : nullptr;
/* NOTE: Weight pPaint require mesh info for loop lookup, but it never uses multires code path,
* so no extra checks is needed here. */
if (mmd) {
ss.multires.active = true;
ss.multires.modifier = mmd;
ss.multires.level = mmd->sculptlvl;
}
else {
ss.multires.active = false;
ss.multires.modifier = nullptr;
ss.multires.level = 0;
}
ss.subdiv_ccg = mesh_eval->runtime->subdiv_ccg.get();
pbvh::Tree &pbvh = object::pbvh_ensure(*depsgraph, *ob);
if (ss.deform_modifiers_active) {
/* Painting doesn't need crazyspace, use already evaluated mesh coordinates if possible. */
bool used_me_eval = false;
if (ob->mode & (OB_MODE_VERTEX_PAINT | OB_MODE_WEIGHT_PAINT)) {
const Mesh *me_eval_deform = BKE_object_get_mesh_deform_eval(ob_eval);
/* If the fully evaluated mesh has the same topology as the deform-only version, use it.
* This matters because crazyspace evaluation is very restrictive and excludes even modifiers
* that simply recompute vertex weights (which can even include Geometry Nodes). */
if (me_eval_deform->faces_num == mesh_eval->faces_num &&
me_eval_deform->corners_num == mesh_eval->corners_num &&
me_eval_deform->verts_num == mesh_eval->verts_num)
{
BKE_sculptsession_free_deformMats(&ss);
BLI_assert(me_eval_deform->verts_num == mesh_orig->verts_num);
ss.deform_cos = mesh_eval->vert_positions();
BKE_pbvh_vert_coords_apply(pbvh, ss.deform_cos);
used_me_eval = true;
}
}
/* We depend on the deform coordinates not being updated in the middle of a stroke. This array
* eventually gets cleared inside BKE_sculpt_update_object_before_eval.
* See #126713 for more information. */
if (ss.deform_cos.is_empty() && !used_me_eval) {
BKE_sculptsession_free_deformMats(&ss);
BKE_crazyspace_build_sculpt(depsgraph, scene, ob, ss.deform_imats, ss.deform_cos);
BKE_pbvh_vert_coords_apply(pbvh, ss.deform_cos);
for (blender::float3x3 &matrix : ss.deform_imats) {
matrix = blender::math::invert(matrix);
}
}
}
else {
BKE_sculptsession_free_deformMats(&ss);
}
if (ss.shapekey_active != nullptr && ss.deform_cos.is_empty()) {
ss.deform_cos = Span(static_cast<const float3 *>(ss.shapekey_active->data),
mesh_orig->verts_num);
}
/* if pbvh is deformed, key block is already applied to it */
if (ss.shapekey_active) {
if (ss.deform_cos.is_empty()) {
const Span key_data(static_cast<const float3 *>(ss.shapekey_active->data),
mesh_orig->verts_num);
if (key_data.data() != nullptr) {
BKE_pbvh_vert_coords_apply(pbvh, key_data);
if (ss.deform_cos.is_empty()) {
ss.deform_cos = key_data;
}
}
}
}
if (is_paint_tool) {
/* We should rebuild the PBVH_pixels when painting canvas changes.
*
* The relevant changes are stored/encoded in the paint canvas key.
* These include the active uv map, and resolutions. */
if (USER_EXPERIMENTAL_TEST(&U, use_sculpt_texture_paint)) {
char *paint_canvas_key = BKE_paint_canvas_key_get(&scene->toolsettings->paint_mode, ob);
if (ss.last_paint_canvas_key == nullptr ||
!STREQ(paint_canvas_key, ss.last_paint_canvas_key))
{
MEM_SAFE_FREE(ss.last_paint_canvas_key);
ss.last_paint_canvas_key = paint_canvas_key;
BKE_pbvh_mark_rebuild_pixels(pbvh);
}
else {
MEM_freeN(paint_canvas_key);
}
}
/* We could be more precise when we have access to the active tool. */
const bool use_paint_slots = (ob->mode & OB_MODE_SCULPT) != 0;
if (use_paint_slots) {
BKE_texpaint_slots_refresh_object(scene, ob);
}
}
/* This solves a crash when running a sculpt brush in background mode, because there is no redraw
* after entering sculpt mode to make sure normals are allocated. Recalculating normals with
* every brush step is too expensive currently. */
bke::pbvh::update_normals(*depsgraph, *ob, pbvh);
}
void BKE_sculpt_update_object_before_eval(Object *ob_eval)
{
using namespace blender;
/* Update before mesh evaluation in the dependency graph. */
Object *ob_orig = DEG_get_original(ob_eval);
SculptSession *ss = ob_orig->sculpt;
if (!ss) {
return;
}
if (ss->building_vp_handle) {
return;
}
bke::pbvh::Tree *pbvh = bke::object::pbvh_get(*ob_orig);
if (!ss->cache && !ss->filter_cache && !ss->expand_cache) {
/* Avoid performing the following normal update for Multires, as it causes race conditions
* and other intermittent crashes with shared meshes.
* See !125268 and #125157 for more information. */
if (pbvh && pbvh->type() != blender::bke::pbvh::Type::Grids) {
/* pbvh::Tree nodes may contain dirty normal tags. To avoid losing that information when
* the pbvh::Tree is deleted, make sure all tagged geometry normals are up to date.
* See #122947 for more information. */
blender::bke::pbvh::update_normals_from_eval(*ob_eval, *pbvh);
}
/* We free pbvh on changes, except in the middle of drawing a stroke
* since it can't deal with changing PVBH node organization, we hope
* topology does not change in the meantime .. weak. */
BKE_sculptsession_free_pbvh(*ob_orig);
BKE_sculptsession_free_deformMats(ss);
/* In vertex/weight paint, force maps to be rebuilt. */
BKE_sculptsession_free_vwpaint_data(ss);
}
else if (pbvh) {
IndexMaskMemory memory;
const IndexMask node_mask = bke::pbvh::all_leaf_nodes(*pbvh, memory);
pbvh->tag_positions_changed(node_mask);
switch (pbvh->type()) {
case bke::pbvh::Type::Mesh: {
MutableSpan<bke::pbvh::MeshNode> nodes = pbvh->nodes<bke::pbvh::MeshNode>();
node_mask.foreach_index([&](const int i) { BKE_pbvh_node_mark_update(nodes[i]); });
break;
}
case bke::pbvh::Type::Grids: {
MutableSpan<bke::pbvh::GridsNode> nodes = pbvh->nodes<bke::pbvh::GridsNode>();
node_mask.foreach_index([&](const int i) { BKE_pbvh_node_mark_update(nodes[i]); });
break;
}
case bke::pbvh::Type::BMesh: {
MutableSpan<bke::pbvh::BMeshNode> nodes = pbvh->nodes<bke::pbvh::BMeshNode>();
node_mask.foreach_index([&](const int i) { BKE_pbvh_node_mark_update(nodes[i]); });
break;
}
}
}
}
void BKE_sculpt_update_object_after_eval(Depsgraph *depsgraph, Object *ob_eval)
{
/* Update after mesh evaluation in the dependency graph, to rebuild pbvh::Tree or
* other data when modifiers change the mesh. */
Object *ob_orig = DEG_get_original(ob_eval);
sculpt_update_object(depsgraph, ob_orig, ob_eval, false);
}
void BKE_sculpt_color_layer_create_if_needed(Object *object)
{
using namespace blender;
using namespace blender::bke;
Mesh *orig_me = BKE_object_get_original_mesh(object);
if (BKE_color_attribute_supported(*orig_me, orig_me->active_color_attribute)) {
return;
}
AttributeOwner owner = AttributeOwner::from_id(&orig_me->id);
const std::string unique_name = BKE_attribute_calc_unique_name(owner, "Color");
if (!orig_me->attributes_for_write().add(
unique_name, AttrDomain::Point, AttrType::ColorFloat, AttributeInitDefaultValue()))
{
return;
}
BKE_id_attributes_active_color_set(&orig_me->id, unique_name);
BKE_id_attributes_default_color_set(&orig_me->id, unique_name);
DEG_id_tag_update(&orig_me->id, ID_RECALC_GEOMETRY_ALL_MODES);
BKE_mesh_tessface_clear(orig_me);
}
void BKE_sculpt_update_object_for_edit(Depsgraph *depsgraph, Object *ob_orig, bool is_paint_tool)
{
BLI_assert(ob_orig == DEG_get_original(ob_orig));
Object *ob_eval = DEG_get_evaluated(depsgraph, ob_orig);
sculpt_update_object(depsgraph, ob_orig, ob_eval, is_paint_tool);
}
void BKE_sculpt_mask_layers_ensure(Depsgraph *depsgraph,
Main *bmain,
Object *ob,
MultiresModifierData *mmd)
{
using namespace blender;
using namespace blender::bke;
Mesh *mesh = static_cast<Mesh *>(ob->data);
const OffsetIndices faces = mesh->faces();
const Span<int> corner_verts = mesh->corner_verts();
MutableAttributeAccessor attributes = mesh->attributes_for_write();
/* if multires is active, create a grid paint mask layer if there
* isn't one already */
if (mmd && !CustomData_has_layer(&mesh->corner_data, CD_GRID_PAINT_MASK)) {
int level = max_ii(1, mmd->sculptlvl);
int gridsize = CCG_grid_size(level);
int gridarea = gridsize * gridsize;
GridPaintMask *gmask = static_cast<GridPaintMask *>(CustomData_add_layer(
&mesh->corner_data, CD_GRID_PAINT_MASK, CD_SET_DEFAULT, mesh->corners_num));
for (int i = 0; i < mesh->corners_num; i++) {
GridPaintMask *gpm = &gmask[i];
gpm->level = level;
gpm->data = MEM_calloc_arrayN<float>(gridarea, "GridPaintMask.data");
}
/* If vertices already have mask, copy into multires data. */
if (const VArray<float> mask = *attributes.lookup<float>(".sculpt_mask", AttrDomain::Point)) {
const VArraySpan<float> mask_span(mask);
for (const int i : faces.index_range()) {
const IndexRange face = faces[i];
/* Mask center. */
float avg = 0.0f;
for (const int vert : corner_verts.slice(face)) {
avg += mask_span[vert];
}
avg /= float(face.size());
/* Fill in multires mask corner. */
for (const int corner : face) {
GridPaintMask *gpm = &gmask[corner];
const int vert = corner_verts[corner];
const int prev = corner_verts[mesh::face_corner_prev(face, corner)];
const int next = corner_verts[mesh::face_corner_next(face, corner)];
gpm->data[0] = avg;
gpm->data[1] = (mask_span[vert] + mask_span[next]) * 0.5f;
gpm->data[2] = (mask_span[vert] + mask_span[prev]) * 0.5f;
gpm->data[3] = mask_span[vert];
}
}
}
/* The evaluated multires CCG must be updated to contain the new data. */
DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY);
if (depsgraph) {
BKE_scene_graph_evaluated_ensure(depsgraph, bmain);
}
}
else {
attributes.add<float>(".sculpt_mask", AttrDomain::Point, AttributeInitDefaultValue());
}
}
void BKE_sculpt_cavity_curves_ensure(Sculpt *sd)
{
if (!sd->automasking_cavity_curve) {
sd->automasking_cavity_curve = BKE_sculpt_default_cavity_curve();
}
if (!sd->automasking_cavity_curve_op) {
sd->automasking_cavity_curve_op = BKE_sculpt_default_cavity_curve();
}
}
void BKE_sculpt_toolsettings_data_ensure(Main *bmain, Scene *scene)
{
BKE_paint_ensure(scene->toolsettings, (Paint **)&scene->toolsettings->sculpt);
BKE_paint_brushes_ensure(bmain, &scene->toolsettings->sculpt->paint);
Sculpt *sd = scene->toolsettings->sculpt;
const Sculpt *defaults = DNA_struct_default_get(Sculpt);
/* We have file versioning code here for historical
* reasons. Don't add more checks here, do it properly
* in blenloader.
*/
if (sd->automasking_start_normal_limit == 0.0f) {
sd->automasking_start_normal_limit = defaults->automasking_start_normal_limit;
sd->automasking_start_normal_falloff = defaults->automasking_start_normal_falloff;
sd->automasking_view_normal_limit = defaults->automasking_view_normal_limit;
sd->automasking_view_normal_falloff = defaults->automasking_view_normal_limit;
}
if (sd->detail_percent == 0.0f) {
sd->detail_percent = defaults->detail_percent;
}
if (sd->constant_detail == 0.0f) {
sd->constant_detail = defaults->constant_detail;
}
if (sd->detail_size == 0.0f) {
sd->detail_size = defaults->detail_size;
}
/* Set sane default tiling offsets. */
if (!sd->paint.tile_offset[0]) {
sd->paint.tile_offset[0] = 1.0f;
}
if (!sd->paint.tile_offset[1]) {
sd->paint.tile_offset[1] = 1.0f;
}
if (!sd->paint.tile_offset[2]) {
sd->paint.tile_offset[2] = 1.0f;
}
if (!sd->automasking_cavity_curve || !sd->automasking_cavity_curve_op) {
BKE_sculpt_cavity_curves_ensure(sd);
}
}
static bool check_sculpt_object_deformed(Object *object, const bool for_construction)
{
bool deformed = false;
/* Active modifiers means extra deformation, which can't be handled correct
* on birth of pbvh::Tree and sculpt "layer" levels, so use pbvh::Tree only for internal brush
* stuff and show final evaluated mesh so user would see actual object shape. */
deformed |= object->sculpt->deform_modifiers_active;
if (for_construction) {
deformed |= object->sculpt->shapekey_active != nullptr;
}
else {
/* As in case with modifiers, we can't synchronize deformation made against
* pbvh::Tree and non-locked keyblock, so also use pbvh::Tree only for brushes and
* final DM to give final result to user. */
deformed |= object->sculpt->shapekey_active && (object->shapeflag & OB_SHAPE_LOCK) == 0;
}
return deformed;
}
void BKE_sculpt_sync_face_visibility_to_grids(const Mesh &mesh, SubdivCCG &subdiv_ccg)
{
using namespace blender;
using namespace blender::bke;
const AttributeAccessor attributes = mesh.attributes();
const VArray<bool> hide_poly = *attributes.lookup_or_default<bool>(
".hide_poly", AttrDomain::Face, false);
if (hide_poly.is_single() && !hide_poly.get_internal_single()) {
BKE_subdiv_ccg_grid_hidden_free(subdiv_ccg);
return;
}
const OffsetIndices<int> faces = mesh.faces();
const VArraySpan<bool> hide_poly_span(hide_poly);
BitGroupVector<> &grid_hidden = BKE_subdiv_ccg_grid_hidden_ensure(subdiv_ccg);
threading::parallel_for(faces.index_range(), 1024, [&](const IndexRange range) {
for (const int i : range) {
const bool face_hidden = hide_poly_span[i];
for (const int corner : faces[i]) {
grid_hidden[corner].set_all(face_hidden);
}
}
});
}
namespace blender::bke {
static std::unique_ptr<pbvh::Tree> build_pbvh_for_dynamic_topology(Object *ob)
{
BMesh &bm = *ob->sculpt->bm;
BM_data_layer_ensure_named(&bm, &bm.vdata, CD_PROP_INT32, ".sculpt_dyntopo_node_id_vertex");
BM_data_layer_ensure_named(&bm, &bm.pdata, CD_PROP_INT32, ".sculpt_dyntopo_node_id_face");
return std::make_unique<pbvh::Tree>(pbvh::Tree::from_bmesh(bm));
}
static std::unique_ptr<pbvh::Tree> build_pbvh_from_regular_mesh(Object *ob,
const Mesh *me_eval_deform)
{
const Mesh &mesh = *BKE_object_get_original_mesh(ob);
std::unique_ptr<pbvh::Tree> pbvh = std::make_unique<pbvh::Tree>(pbvh::Tree::from_mesh(mesh));
const bool is_deformed = check_sculpt_object_deformed(ob, true);
if (is_deformed && me_eval_deform != nullptr) {
BKE_pbvh_vert_coords_apply(*pbvh, me_eval_deform->vert_positions());
}
return pbvh;
}
static std::unique_ptr<pbvh::Tree> build_pbvh_from_ccg(Object *ob, SubdivCCG &subdiv_ccg)
{
const Mesh &base_mesh = *BKE_mesh_from_object(ob);
BKE_sculpt_sync_face_visibility_to_grids(base_mesh, subdiv_ccg);
return std::make_unique<pbvh::Tree>(pbvh::Tree::from_grids(base_mesh, subdiv_ccg));
}
} // namespace blender::bke
namespace blender::bke::object {
pbvh::Tree &pbvh_ensure(Depsgraph &depsgraph, Object &object)
{
if (pbvh::Tree *pbvh = pbvh_get(object)) {
return *pbvh;
}
BLI_assert(object.sculpt != nullptr);
SculptSession &ss = *object.sculpt;
if (ss.bm != nullptr) {
/* Sculpting on a BMesh (dynamic-topology) gets a special pbvh::Tree. */
ss.pbvh = build_pbvh_for_dynamic_topology(&object);
}
else {
Object *object_eval = DEG_get_evaluated(&depsgraph, &object);
Mesh *mesh_eval = static_cast<Mesh *>(object_eval->data);
if (mesh_eval->runtime->subdiv_ccg != nullptr) {
ss.pbvh = build_pbvh_from_ccg(&object, *mesh_eval->runtime->subdiv_ccg);
}
else {
const Mesh *me_eval_deform = BKE_object_get_mesh_deform_eval(object_eval);
ss.pbvh = build_pbvh_from_regular_mesh(&object, me_eval_deform);
}
}
return *object::pbvh_get(object);
}
const pbvh::Tree *pbvh_get(const Object &object)
{
if (!object.sculpt) {
return nullptr;
}
return object.sculpt->pbvh.get();
}
pbvh::Tree *pbvh_get(Object &object)
{
BLI_assert(object.type == OB_MESH);
if (!object.sculpt) {
return nullptr;
}
return object.sculpt->pbvh.get();
}
} // namespace blender::bke::object
bool BKE_object_sculpt_use_dyntopo(const Object *object)
{
return object->sculpt && object->sculpt->bm;
}
bool BKE_sculptsession_use_pbvh_draw(const Object *ob, const RegionView3D *rv3d)
{
SculptSession *ss = ob->sculpt;
if (ss == nullptr || ss->mode_type != OB_MODE_SCULPT) {
return false;
}
const blender::bke::pbvh::Tree *pbvh = blender::bke::object::pbvh_get(*ob);
if (!pbvh) {
return false;
}
if (pbvh->type() == blender::bke::pbvh::Type::Mesh) {
/* Regular mesh only draws from pbvh::Tree without modifiers and shape keys, or for
* external engines that do not have access to the pbvh::Tree like Eevee does. */
const bool external_engine = rv3d && rv3d->view_render != nullptr;
return !(ss->shapekey_active || ss->deform_modifiers_active || external_engine);
}
/* Multires and dyntopo always draw directly from the pbvh::Tree. */
return true;
}
/* Returns the Face Set random color for rendering in the overlay given its ID and a color seed. */
#define GOLDEN_RATIO_CONJUGATE 0.618033988749895f
void BKE_paint_face_set_overlay_color_get(const int face_set, const int seed, uchar r_color[4])
{
float rgba[4];
float random_mod_hue = GOLDEN_RATIO_CONJUGATE * (face_set + (seed % 10));
random_mod_hue = random_mod_hue - floorf(random_mod_hue);
const float random_mod_sat = BLI_hash_int_01(face_set + seed + 1);
const float random_mod_val = BLI_hash_int_01(face_set + seed + 2);
hsv_to_rgb(random_mod_hue,
0.6f + (random_mod_sat * 0.25f),
1.0f - (random_mod_val * 0.35f),
&rgba[0],
&rgba[1],
&rgba[2]);
rgba_float_to_uchar(r_color, rgba);
}
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