path: root/source/blender/blenkernel/intern/paint.c

/*
 * ***** BEGIN GPL LICENSE BLOCK *****
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software  Foundation,
 * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
 *
 * The Original Code is Copyright (C) 2009 by Nicholas Bishop
 * All rights reserved.
 *
 * The Original Code is: all of this file.
 *
 * Contributor(s): none yet.
 *
 * ***** END GPL LICENSE BLOCK *****
 */

/** \file blender/blenkernel/intern/paint.c
 *  \ingroup bke
 */

#include <stdlib.h>
#include <string.h>

#include "MEM_guardedalloc.h"

#include "DNA_object_types.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_modifier_types.h"
#include "DNA_scene_types.h"
#include "DNA_brush_types.h"
#include "DNA_space_types.h"

#include "BLI_bitmap.h"
#include "BLI_utildefines.h"
#include "BLI_math_vector.h"
#include "BLI_listbase.h"

#include "BKE_brush.h"
#include "BKE_colortools.h"
#include "BKE_main.h"
#include "BKE_context.h"
#include "BKE_crazyspace.h"
#include "BKE_depsgraph.h"
#include "BKE_global.h"
#include "BKE_image.h"
#include "BKE_key.h"
#include "BKE_library.h"
#include "BKE_mesh.h"
#include "BKE_modifier.h"
#include "BKE_object.h"
#include "BKE_paint.h"
#include "BKE_pbvh.h"
#include "BKE_subsurf.h"

#include "bmesh.h"

const char PAINT_CURSOR_SCULPT[3] = {255, 100, 100};
const char PAINT_CURSOR_VERTEX_PAINT[3] = {255, 255, 255};
const char PAINT_CURSOR_WEIGHT_PAINT[3] = {200, 200, 255};
const char PAINT_CURSOR_TEXTURE_PAINT[3] = {255, 255, 255};

static OverlayControlFlags overlay_flags = 0;

void BKE_paint_invalidate_overlay_tex(Scene *scene, const Tex *tex)
{
	Paint *p = BKE_paint_get_active(scene);
	Brush *br = p->brush;

	if (!br)
		return;

	if (br->mtex.tex == tex)
		overlay_flags |= PAINT_INVALID_OVERLAY_TEXTURE_PRIMARY;
	if (br->mask_mtex.tex == tex)
		overlay_flags |= PAINT_INVALID_OVERLAY_TEXTURE_SECONDARY;
}

void BKE_paint_invalidate_cursor_overlay(Scene *scene, CurveMapping *curve)
{
	Paint *p = BKE_paint_get_active(scene);
	Brush *br = p->brush;

	if (br && br->curve == curve)
		overlay_flags |= PAINT_INVALID_OVERLAY_CURVE;
}

void BKE_paint_invalidate_overlay_all(void)
{
	overlay_flags |= (PAINT_INVALID_OVERLAY_TEXTURE_SECONDARY |
	                  PAINT_INVALID_OVERLAY_TEXTURE_PRIMARY |
	                  PAINT_INVALID_OVERLAY_CURVE);
}

OverlayControlFlags BKE_paint_get_overlay_flags(void)
{
	return overlay_flags;
}

void BKE_paint_set_overlay_override(OverlayFlags 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(OverlayControlFlags flag)
{
	overlay_flags &= ~(flag);
}

Paint *BKE_paint_get_active_from_paintmode(Scene *sce, PaintMode mode)
{
	if (sce) {
		ToolSettings *ts = sce->toolsettings;

		switch (mode) {
			case ePaintSculpt:
				return &ts->sculpt->paint;
			case ePaintVertex:
				return &ts->vpaint->paint;
			case ePaintWeight:
				return &ts->wpaint->paint;
			case ePaintTexture2D:
			case ePaintTextureProjective:
				return &ts->imapaint.paint;
			case ePaintSculptUV:
				return &ts->uvsculpt->paint;
			case ePaintInvalid:
				return NULL;
			default:
				return &ts->imapaint.paint;
		}
	}

	return NULL;
}

Paint *BKE_paint_get_active(Scene *sce)
{
	if (sce) {
		ToolSettings *ts = sce->toolsettings;
		
		if (sce->basact && sce->basact->object) {
			switch (sce->basact->object->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_EDIT:
					if (ts->use_uv_sculpt)
						return &ts->uvsculpt->paint;
					return &ts->imapaint.paint;
			}
		}

		/* default to image paint */
		return &ts->imapaint.paint;
	}

	return NULL;
}

Paint *BKE_paint_get_active_from_context(const bContext *C)
{
	Scene *sce = CTX_data_scene(C);
	SpaceImage *sima;

	if (sce) {
		ToolSettings *ts = sce->toolsettings;
		Object *obact = NULL;

		if (sce->basact && sce->basact->object)
			obact = sce->basact->object;

		if ((sima = CTX_wm_space_image(C)) != NULL) {
			if (obact && obact->mode == OB_MODE_EDIT) {
				if (sima->mode == SI_MODE_PAINT)
					return &ts->imapaint.paint;
				else if (ts->use_uv_sculpt)
					return &ts->uvsculpt->paint;
			}
			else {
				return &ts->imapaint.paint;
			}
		}
		else if (obact) {
			switch (obact->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_EDIT:
					if (ts->use_uv_sculpt)
						return &ts->uvsculpt->paint;
					return &ts->imapaint.paint;
				default:
					return &ts->imapaint.paint;
			}
		}
		else {
			/* default to image paint */
			return &ts->imapaint.paint;
		}
	}

	return NULL;
}

PaintMode BKE_paintmode_get_active_from_context(const bContext *C)
{
	Scene *sce = CTX_data_scene(C);
	SpaceImage *sima;

	if (sce) {
		ToolSettings *ts = sce->toolsettings;
		Object *obact = NULL;

		if (sce->basact && sce->basact->object)
			obact = sce->basact->object;

		if ((sima = CTX_wm_space_image(C)) != NULL) {
			if (obact && obact->mode == OB_MODE_EDIT) {
				if (sima->mode == SI_MODE_PAINT)
					return ePaintTexture2D;
				else if (ts->use_uv_sculpt)
					return ePaintSculptUV;
			}
			else {
				return ePaintTexture2D;
			}
		}
		else if (obact) {
			switch (obact->mode) {
				case OB_MODE_SCULPT:
					return ePaintSculpt;
				case OB_MODE_VERTEX_PAINT:
					return ePaintVertex;
				case OB_MODE_WEIGHT_PAINT:
					return ePaintWeight;
				case OB_MODE_TEXTURE_PAINT:
					return ePaintTextureProjective;
				case OB_MODE_EDIT:
					if (ts->use_uv_sculpt)
						return ePaintSculptUV;
					return ePaintTexture2D;
				default:
					return ePaintTexture2D;
			}
		}
		else {
			/* default to image paint */
			return ePaintTexture2D;
		}
	}

	return ePaintInvalid;
}

Brush *BKE_paint_brush(Paint *p)
{
	return p ? p->brush : NULL;
}

void BKE_paint_brush_set(Paint *p, Brush *br)
{
	if (p) {
		id_us_min((ID *)p->brush);
		id_us_plus((ID *)br);
		p->brush = br;
	}
}

/** Free (or release) any data used by this paint curve (does not free the pcurve itself). */
void BKE_paint_curve_free(PaintCurve *pc)
{
	MEM_SAFE_FREE(pc->points);
	pc->tot_points = 0;
}

PaintCurve *BKE_paint_curve_add(Main *bmain, const char *name)
{
	PaintCurve *pc;

	pc = BKE_libblock_alloc(bmain, ID_PC, name);

	return pc;
}

Palette *BKE_paint_palette(Paint *p)
{
	return p ? p->palette : NULL;
}

void BKE_paint_palette_set(Paint *p, Palette *palette)
{
	if (p) {
		id_us_min((ID *)p->palette);
		id_us_plus((ID *)palette);
		p->palette = palette;
	}
}

void BKE_paint_curve_set(Brush *br, PaintCurve *pc)
{
	if (br) {
		id_us_min((ID *)br->paint_curve);
		id_us_plus((ID *)pc);
		br->paint_curve = pc;
	}
}

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;
}

/* remove colour from palette. Must be certain color is inside the palette! */
void BKE_palette_color_remove(Palette *palette, PaletteColor *color)
{
	if (BLI_listbase_count_ex(&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;
}

Palette *BKE_palette_add(Main *bmain, const char *name)
{
	Palette *palette;

	palette = BKE_libblock_alloc(bmain, ID_PAL, name);

	/* enable fake user by default */
	id_fake_user_set(&palette->id);

	return palette;
}

/** Free (or release) any data used by this palette (does not free the palette itself). */
void BKE_palette_free(Palette *palette)
{
	BLI_freelistN(&palette->colors);
}

PaletteColor *BKE_palette_color_add(Palette *palette)
{
	PaletteColor *color = MEM_callocN(sizeof(*color), "Pallete Color");
	BLI_addtail(&palette->colors, color);
	return color;
}


bool BKE_palette_is_empty(const struct Palette *palette)
{
	return BLI_listbase_is_empty(&palette->colors);
}


/* are we in vertex paint or weight pain face select mode? */
bool BKE_paint_select_face_test(Object *ob)
{
	return ( (ob != NULL) &&
	         (ob->type == OB_MESH) &&
	         (ob->data != NULL) &&
	         (((Mesh *)ob->data)->editflag & ME_EDIT_PAINT_FACE_SEL) &&
	         (ob->mode & (OB_MODE_VERTEX_PAINT | OB_MODE_WEIGHT_PAINT | OB_MODE_TEXTURE_PAINT))
	         );
}

/* are we in weight paint vertex select mode? */
bool BKE_paint_select_vert_test(Object *ob)
{
	return ( (ob != NULL) &&
	         (ob->type == OB_MESH) &&
	         (ob->data != NULL) &&
	         (((Mesh *)ob->data)->editflag & ME_EDIT_PAINT_VERT_SEL) &&
	         (ob->mode & OB_MODE_WEIGHT_PAINT)
	         );
}

/**
 * used to check if selection is possible
 * (when we don't care if its face or vert)
 */
bool BKE_paint_select_elem_test(Object *ob)
{
	return (BKE_paint_select_vert_test(ob) ||
	        BKE_paint_select_face_test(ob));
}

void BKE_paint_cavity_curve_preset(Paint *p, int preset)
{
	CurveMap *cm = NULL;

	if (!p->cavity_curve)
		p->cavity_curve = curvemapping_add(1, 0, 0, 1, 1);

	cm = p->cavity_curve->cm;
	cm->flag &= ~CUMA_EXTEND_EXTRAPOLATE;

	p->cavity_curve->preset = preset;
	curvemap_reset(cm, &p->cavity_curve->clipr, p->cavity_curve->preset, CURVEMAP_SLOPE_POSITIVE);
	curvemapping_changed(p->cavity_curve, false);
}

short BKE_paint_object_mode_from_paint_mode(PaintMode mode)
{
	switch (mode) {
		case ePaintSculpt:
			return OB_MODE_SCULPT;
		case ePaintVertex:
			return OB_MODE_VERTEX_PAINT;
		case ePaintWeight:
			return OB_MODE_WEIGHT_PAINT;
		case ePaintTextureProjective:
			return OB_MODE_TEXTURE_PAINT;
		case ePaintTexture2D:
			return OB_MODE_TEXTURE_PAINT;
		case ePaintSculptUV:
			return OB_MODE_EDIT;
		case ePaintInvalid:
		default:
			return 0;
	}
}

void BKE_paint_init(Scene *sce, PaintMode mode, const char col[3])
{
	UnifiedPaintSettings *ups = &sce->toolsettings->unified_paint_settings;
	Brush *brush;
	Paint *paint = BKE_paint_get_active_from_paintmode(sce, mode);

	/* If there's no brush, create one */
	brush = BKE_paint_brush(paint);
	if (brush == NULL) {
		short ob_mode = BKE_paint_object_mode_from_paint_mode(mode);
		brush = BKE_brush_first_search(G.main, ob_mode);

		if (!brush)
			brush = BKE_brush_add(G.main, "Brush", ob_mode);
		BKE_paint_brush_set(paint, brush);
	}

	memcpy(paint->paint_cursor_col, col, 3);
	paint->paint_cursor_col[3] = 128;
	ups->last_stroke_valid = false;
	zero_v3(ups->average_stroke_accum);
	ups->average_stroke_counter = 0;
	if (!paint->cavity_curve)
		BKE_paint_cavity_curve_preset(paint, CURVE_PRESET_LINE);
}

void BKE_paint_free(Paint *paint)
{
	curvemapping_free(paint->cavity_curve);
}

/* called when copying scene settings, so even if 'src' and 'tar' are the same
 * still do a id_us_plus(), rather then if we were copying between 2 existing
 * scenes where a matching value should decrease the existing user count as
 * with paint_brush_set() */
void BKE_paint_copy(Paint *src, Paint *tar)
{
	tar->brush = src->brush;
	id_us_plus((ID *)tar->brush);
	id_us_plus((ID *)tar->palette);
	tar->cavity_curve = curvemapping_copy(src->cavity_curve);
}

void BKE_paint_stroke_get_average(Scene *scene, Object *ob, float stroke[3])
{
	UnifiedPaintSettings *ups = &scene->toolsettings->unified_paint_settings;
	if (ups->last_stroke_valid && ups->average_stroke_counter > 0) {
		float fac = 1.0f / ups->average_stroke_counter;
		mul_v3_v3fl(stroke, ups->average_stroke_accum, fac);
	}
	else {
		copy_v3_v3(stroke, ob->obmat[3]);
	}
}

/* returns non-zero if any of the face's vertices
 * are hidden, zero otherwise */
bool paint_is_face_hidden(const MLoopTri *lt, const MVert *mvert, const MLoop *mloop)
{
	return ((mvert[mloop[lt->tri[0]].v].flag & ME_HIDE) ||
	        (mvert[mloop[lt->tri[1]].v].flag & ME_HIDE) ||
	        (mvert[mloop[lt->tri[2]].v].flag & ME_HIDE));
}

/* returns non-zero if any of the corners of the grid
 * face whose inner corner is at (x, y) are hidden,
 * zero otherwise */
bool paint_is_grid_face_hidden(const unsigned int *grid_hidden,
                              int gridsize, int x, int y)
{
	/* skip face if any of its corners are hidden */
	return (BLI_BITMAP_TEST(grid_hidden, y * gridsize + x) ||
	        BLI_BITMAP_TEST(grid_hidden, y * gridsize + x + 1) ||
	        BLI_BITMAP_TEST(grid_hidden, (y + 1) * gridsize + x + 1) ||
	        BLI_BITMAP_TEST(grid_hidden, (y + 1) * gridsize + x));
}

/* Return true if all vertices in the face are visible, false otherwise */
bool paint_is_bmesh_face_hidden(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, unsigned level,
                            unsigned x, unsigned y)
{
	int factor = BKE_ccg_factor(level, gpm->level);
	int gridsize = BKE_ccg_gridsize(gpm->level);
	
	return gpm->data[(y * factor) * gridsize + (x * factor)];
}

/* threshold to move before updating the brush rotation */
#define RAKE_THRESHHOLD 20

void paint_update_brush_rake_rotation(UnifiedPaintSettings *ups, Brush *brush, float rotation)
{
	if (brush->mtex.brush_angle_mode & MTEX_ANGLE_RAKE)
		ups->brush_rotation = rotation;
	else
		ups->brush_rotation = 0.0f;

	if (brush->mask_mtex.brush_angle_mode & MTEX_ANGLE_RAKE)
		ups->brush_rotation_sec = rotation;
	else
		ups->brush_rotation_sec = 0.0f;
}

void paint_calculate_rake_rotation(UnifiedPaintSettings *ups, Brush *brush, const float mouse_pos[2])
{
	if ((brush->mtex.brush_angle_mode & MTEX_ANGLE_RAKE) || (brush->mask_mtex.brush_angle_mode & MTEX_ANGLE_RAKE)) {
		const float r = RAKE_THRESHHOLD;
		float rotation;

		float dpos[2];
		sub_v2_v2v2(dpos, ups->last_rake, mouse_pos);

		if (len_squared_v2(dpos) >= r * r) {
			rotation = atan2f(dpos[0], dpos[1]);

			copy_v2_v2(ups->last_rake, mouse_pos);

			ups->last_rake_angle = rotation;

			paint_update_brush_rake_rotation(ups, brush, rotation);
		}
		/* 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(ups, brush, ups->last_rake_angle);
		}
	}
	else {
		ups->brush_rotation = ups->brush_rotation_sec = 0.0f;
	}
}

void BKE_sculptsession_free_deformMats(SculptSession *ss)
{
	MEM_SAFE_FREE(ss->orig_cos);
	MEM_SAFE_FREE(ss->deform_cos);
	MEM_SAFE_FREE(ss->deform_imats);
}

/* Write out the sculpt dynamic-topology BMesh to the Mesh */
static void sculptsession_bm_to_me_update_data_only(Object *ob, bool reorder)
{
	SculptSession *ss = ob->sculpt;

	if (ss->bm) {
		if (ob->data) {
			BMIter iter;
			BMFace *efa;
			BM_ITER_MESH (efa, &iter, ss->bm, BM_FACES_OF_MESH) {
				BM_elem_flag_set(efa, BM_ELEM_SMOOTH, ss->bm_smooth_shading);
			}
			if (reorder)
				BM_log_mesh_elems_reorder(ss->bm, ss->bm_log);
			BM_mesh_bm_to_me(ss->bm, ob->data, (&(struct BMeshToMeshParams){0}));
		}
	}
}

void BKE_sculptsession_bm_to_me(Object *ob, bool reorder)
{
	if (ob && ob->sculpt) {
		sculptsession_bm_to_me_update_data_only(ob, reorder);

		/* ensure the objects DerivedMesh mesh doesn't hold onto arrays now realloc'd in the mesh [#34473] */
		DAG_id_tag_update(&ob->id, OB_RECALC_DATA);
	}
}

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 DAG_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);

			if (object->sculpt->pbvh) {
				BKE_pbvh_free(object->sculpt->pbvh);
				object->sculpt->pbvh = NULL;
			}

			sculptsession_bm_to_me_update_data_only(object, false);

			/* 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;
		DerivedMesh *dm = ob->derivedFinal;

		if (ss->bm) {
			BKE_sculptsession_bm_to_me(ob, true);
			BM_mesh_free(ss->bm);
		}

		if (ss->pbvh)
			BKE_pbvh_free(ss->pbvh);
		if (ss->bm_log)
			BM_log_free(ss->bm_log);

		if (dm && dm->getPBVH)
			dm->getPBVH(NULL, dm);  /* signal to clear */

		if (ss->texcache)
			MEM_freeN(ss->texcache);

		if (ss->tex_pool)
			BKE_image_pool_free(ss->tex_pool);

		if (ss->layer_co)
			MEM_freeN(ss->layer_co);

		if (ss->orig_cos)
			MEM_freeN(ss->orig_cos);
		if (ss->deform_cos)
			MEM_freeN(ss->deform_cos);
		if (ss->deform_imats)
			MEM_freeN(ss->deform_imats);

		MEM_freeN(ss);

		ob->sculpt = NULL;
	}
}

/* Sculpt mode handles multires differently from regular meshes, but only if
 * it's the last modifier on the stack and it is not on the first level */
MultiresModifierData *BKE_sculpt_multires_active(Scene *scene, Object *ob)
{
	Mesh *me = (Mesh *)ob->data;
	ModifierData *md;
	VirtualModifierData virtualModifierData;

	if (ob->sculpt && ob->sculpt->bm) {
		/* can't combine multires and dynamic topology */
		return NULL;
	}

	if (!CustomData_get_layer(&me->ldata, CD_MDISPS)) {
		/* multires can't work without displacement layer */
		return NULL;
	}

	for (md = modifiers_getVirtualModifierList(ob, &virtualModifierData); md; md = md->next) {
		if (md->type == eModifierType_Multires) {
			MultiresModifierData *mmd = (MultiresModifierData *)md;

			if (!modifier_isEnabled(scene, md, eModifierMode_Realtime))
				continue;

			if (mmd->sculptlvl > 0) return mmd;
			else return NULL;
		}
	}

	return NULL;
}


/* Checks if there are any supported deformation modifiers active */
static bool sculpt_modifiers_active(Scene *scene, Sculpt *sd, Object *ob)
{
	ModifierData *md;
	Mesh *me = (Mesh *)ob->data;
	MultiresModifierData *mmd = BKE_sculpt_multires_active(scene, ob);
	VirtualModifierData virtualModifierData;

	if (mmd || ob->sculpt->bm)
		return false;

	/* non-locked shape keys could be handled in the same way as deformed mesh */
	if ((ob->shapeflag & OB_SHAPE_LOCK) == 0 && me->key && ob->shapenr)
		return true;

	md = modifiers_getVirtualModifierList(ob, &virtualModifierData);

	/* exception for shape keys because we can edit those */
	for (; md; md = md->next) {
		const ModifierTypeInfo *mti = modifierType_getInfo(md->type);
		if (!modifier_isEnabled(scene, md, eModifierMode_Realtime)) continue;
		if (ELEM(md->type, eModifierType_ShapeKey, eModifierType_Multires)) continue;

		if (mti->type == eModifierTypeType_OnlyDeform) return true;
		else if ((sd->flags & SCULPT_ONLY_DEFORM) == 0) return true;
	}

	return false;
}

/**
 * \param need_mask So the DerivedMesh thats returned has mask data
 */
void BKE_sculpt_update_mesh_elements(Scene *scene, Sculpt *sd, Object *ob,
                                     bool need_pmap, bool need_mask)
{
	DerivedMesh *dm;
	SculptSession *ss = ob->sculpt;
	Mesh *me = ob->data;
	MultiresModifierData *mmd = BKE_sculpt_multires_active(scene, ob);

	ss->modifiers_active = sculpt_modifiers_active(scene, sd, ob);
	ss->show_diffuse_color = (sd->flags & SCULPT_SHOW_DIFFUSE) != 0;

	if (need_mask) {
		if (mmd == NULL) {
			if (!CustomData_has_layer(&me->vdata, CD_PAINT_MASK)) {
				BKE_sculpt_mask_layers_ensure(ob, NULL);
			}
		}
		else {
			if (!CustomData_has_layer(&me->ldata, CD_GRID_PAINT_MASK)) {
#if 1
				BKE_sculpt_mask_layers_ensure(ob, mmd);
#else				/* if we wanted to support adding mask data while multi-res painting, we would need to do this */
				if ((ED_sculpt_mask_layers_ensure(ob, mmd) & ED_SCULPT_MASK_LAYER_CALC_LOOP)) {
					/* remake the derived mesh */
					ob->recalc |= OB_RECALC_DATA;
					BKE_object_handle_update(scene, ob);
				}
#endif
			}
		}
	}

	/* tessfaces aren't used and will become invalid */
	BKE_mesh_tessface_clear(me);

	ss->kb = (mmd == NULL) ? BKE_keyblock_from_object(ob) : NULL;

	dm = mesh_get_derived_final(scene, ob, CD_MASK_BAREMESH);

	if (mmd) {
		ss->multires = mmd;
		ss->totvert = dm->getNumVerts(dm);
		ss->totpoly = dm->getNumPolys(dm);
		ss->mvert = NULL;
		ss->mpoly = NULL;
		ss->mloop = NULL;
	}
	else {
		ss->totvert = me->totvert;
		ss->totpoly = me->totpoly;
		ss->mvert = me->mvert;
		ss->mpoly = me->mpoly;
		ss->mloop = me->mloop;
		ss->multires = NULL;
		ss->vmask = CustomData_get_layer(&me->vdata, CD_PAINT_MASK);
	}

	ss->pbvh = dm->getPBVH(ob, dm);
	ss->pmap = (need_pmap && dm->getPolyMap) ? dm->getPolyMap(ob, dm) : NULL;

	pbvh_show_diffuse_color_set(ss->pbvh, ss->show_diffuse_color);

	if (ss->modifiers_active) {
		if (!ss->orig_cos) {
			int a;

			BKE_sculptsession_free_deformMats(ss);

			ss->orig_cos = (ss->kb) ? BKE_keyblock_convert_to_vertcos(ob, ss->kb) : BKE_mesh_vertexCos_get(me, NULL);

			BKE_crazyspace_build_sculpt(scene, ob, &ss->deform_imats, &ss->deform_cos);
			BKE_pbvh_apply_vertCos(ss->pbvh, ss->deform_cos);

			for (a = 0; a < me->totvert; ++a) {
				invert_m3(ss->deform_imats[a]);
			}
		}
	}
	else {
		BKE_sculptsession_free_deformMats(ss);
	}

	if (ss->kb != NULL && ss->deform_cos == NULL) {
		ss->deform_cos = BKE_keyblock_convert_to_vertcos(ob, ss->kb);
	}

	/* if pbvh is deformed, key block is already applied to it */
	if (ss->kb) {
		bool pbvh_deformd = BKE_pbvh_isDeformed(ss->pbvh);
		if (!pbvh_deformd || ss->deform_cos == NULL) {
			float (*vertCos)[3] = BKE_keyblock_convert_to_vertcos(ob, ss->kb);

			if (vertCos) {
				if (!pbvh_deformd) {
					/* apply shape keys coordinates to PBVH */
					BKE_pbvh_apply_vertCos(ss->pbvh, vertCos);
				}
				if (ss->deform_cos == NULL) {
					ss->deform_cos = vertCos;
				}
				if (vertCos != ss->deform_cos) {
					MEM_freeN(vertCos);
				}
			}
		}
	}
}

int BKE_sculpt_mask_layers_ensure(Object *ob, MultiresModifierData *mmd)
{
	const float *paint_mask;
	Mesh *me = ob->data;
	int ret = 0;

	paint_mask = CustomData_get_layer(&me->vdata, CD_PAINT_MASK);

	/* if multires is active, create a grid paint mask layer if there
	 * isn't one already */
	if (mmd && !CustomData_has_layer(&me->ldata, CD_GRID_PAINT_MASK)) {
		GridPaintMask *gmask;
		int level = max_ii(1, mmd->sculptlvl);
		int gridsize = BKE_ccg_gridsize(level);
		int gridarea = gridsize * gridsize;
		int i, j;

		gmask = CustomData_add_layer(&me->ldata, CD_GRID_PAINT_MASK,
		                             CD_CALLOC, NULL, me->totloop);

		for (i = 0; i < me->totloop; i++) {
			GridPaintMask *gpm = &gmask[i];

			gpm->level = level;
			gpm->data = MEM_callocN(sizeof(float) * gridarea,
			                        "GridPaintMask.data");
		}

		/* if vertices already have mask, copy into multires data */
		if (paint_mask) {
			for (i = 0; i < me->totpoly; i++) {
				const MPoly *p = &me->mpoly[i];
				float avg = 0;

				/* mask center */
				for (j = 0; j < p->totloop; j++) {
					const MLoop *l = &me->mloop[p->loopstart + j];
					avg += paint_mask[l->v];
				}
				avg /= (float)p->totloop;

				/* fill in multires mask corner */
				for (j = 0; j < p->totloop; j++) {
					GridPaintMask *gpm = &gmask[p->loopstart + j];
					const MLoop *l = &me->mloop[p->loopstart + j];
					const MLoop *prev = ME_POLY_LOOP_PREV(me->mloop, p, j);
					const MLoop *next = ME_POLY_LOOP_NEXT(me->mloop, p, j);

					gpm->data[0] = avg;
					gpm->data[1] = (paint_mask[l->v] +
					                paint_mask[next->v]) * 0.5f;
					gpm->data[2] = (paint_mask[l->v] +
					                paint_mask[prev->v]) * 0.5f;
					gpm->data[3] = paint_mask[l->v];
				}
			}
		}

		ret |= SCULPT_MASK_LAYER_CALC_LOOP;
	}

	/* create vertex paint mask layer if there isn't one already */
	if (!paint_mask) {
		CustomData_add_layer(&me->vdata, CD_PAINT_MASK,
		                     CD_CALLOC, NULL, me->totvert);
		ret |= SCULPT_MASK_LAYER_CALC_VERT;
	}

	return ret;
}