/* SPDX-License-Identifier: GPL-2.0-or-later * Copyright 2007 by Janne Karhu. All rights reserved. */ /** \file * \ingroup edphys */ #include #include #include #include "MEM_guardedalloc.h" #include "DNA_mesh_types.h" #include "DNA_meshdata_types.h" #include "DNA_scene_types.h" #include "DNA_screen_types.h" #include "DNA_space_types.h" #include "DNA_view3d_types.h" #include "BLI_kdtree.h" #include "BLI_lasso_2d.h" #include "BLI_listbase.h" #include "BLI_math.h" #include "BLI_rand.h" #include "BLI_rect.h" #include "BLI_task.h" #include "BLI_utildefines.h" #include "BKE_bvhutils.h" #include "BKE_context.h" #include "BKE_global.h" #include "BKE_layer.h" #include "BKE_main.h" #include "BKE_mesh.h" #include "BKE_mesh_legacy_convert.h" #include "BKE_mesh_runtime.h" #include "BKE_modifier.h" #include "BKE_object.h" #include "BKE_particle.h" #include "BKE_pointcache.h" #include "BKE_report.h" #include "BKE_scene.h" #include "DEG_depsgraph.h" #include "ED_mesh.h" #include "ED_object.h" #include "ED_particle.h" #include "ED_physics.h" #include "ED_screen.h" #include "ED_select_utils.h" #include "ED_view3d.h" #include "GPU_immediate.h" #include "GPU_immediate_util.h" #include "GPU_state.h" #include "UI_resources.h" #include "WM_api.h" #include "WM_message.h" #include "WM_toolsystem.h" #include "WM_types.h" #include "RNA_access.h" #include "RNA_define.h" #include "DEG_depsgraph_query.h" #include "PIL_time_utildefines.h" #include "physics_intern.h" #include "particle_edit_utildefines.h" /* -------------------------------------------------------------------- */ /** \name Public Utilities * \{ */ bool PE_poll(bContext *C) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); if (!scene || !ob || !(ob->mode & OB_MODE_PARTICLE_EDIT)) { return false; } PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); if (edit == NULL) { return false; } if (edit->psmd_eval == NULL || edit->psmd_eval->mesh_final == NULL) { return false; } return true; } bool PE_hair_poll(bContext *C) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); if (!scene || !ob || !(ob->mode & OB_MODE_PARTICLE_EDIT)) { return false; } PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); if (edit == NULL || edit->psys == NULL) { return false; } if (edit->psmd_eval == NULL || edit->psmd_eval->mesh_final == NULL) { return false; } return true; } bool PE_poll_view3d(bContext *C) { ScrArea *area = CTX_wm_area(C); ARegion *region = CTX_wm_region(C); return (PE_poll(C) && (area && area->spacetype == SPACE_VIEW3D) && (region && region->regiontype == RGN_TYPE_WINDOW)); } void PE_free_ptcache_edit(PTCacheEdit *edit) { POINT_P; if (edit == 0) { return; } if (edit->points) { LOOP_POINTS { if (point->keys) { MEM_freeN(point->keys); } } MEM_freeN(edit->points); } if (edit->mirror_cache) { MEM_freeN(edit->mirror_cache); } if (edit->emitter_cosnos) { MEM_freeN(edit->emitter_cosnos); edit->emitter_cosnos = 0; } if (edit->emitter_field) { BLI_kdtree_3d_free(edit->emitter_field); edit->emitter_field = 0; } psys_free_path_cache(edit->psys, edit); MEM_freeN(edit); } int PE_minmax( Depsgraph *depsgraph, Scene *scene, ViewLayer *view_layer, float min[3], float max[3]) { BKE_view_layer_synced_ensure(scene, view_layer); Object *ob = BKE_view_layer_active_object_get(view_layer); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); ParticleSystem *psys; ParticleSystemModifierData *psmd_eval = NULL; POINT_P; KEY_K; float co[3], mat[4][4]; int ok = 0; if (!edit) { return ok; } if ((psys = edit->psys)) { psmd_eval = edit->psmd_eval; } else { unit_m4(mat); } LOOP_VISIBLE_POINTS { if (psys) { psys_mat_hair_to_global( ob, psmd_eval->mesh_final, psys->part->from, psys->particles + p, mat); } LOOP_SELECTED_KEYS { copy_v3_v3(co, key->co); mul_m4_v3(mat, co); DO_MINMAX(co, min, max); ok = 1; } } if (!ok) { BKE_object_minmax(ob, min, max, true); ok = 1; } return ok; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Edit Mode Helpers * \{ */ int PE_start_edit(PTCacheEdit *edit) { if (edit) { edit->edited = 1; if (edit->psys) { edit->psys->flag |= PSYS_EDITED; } return 1; } return 0; } ParticleEditSettings *PE_settings(Scene *scene) { return scene->toolsettings ? &scene->toolsettings->particle : NULL; } static float pe_brush_size_get(const Scene *UNUSED(scene), ParticleBrushData *brush) { #if 0 /* TODO: Here we can enable unified brush size, needs more work. */ UnifiedPaintSettings *ups = &scene->toolsettings->unified_paint_settings; float size = (ups->flag & UNIFIED_PAINT_SIZE) ? ups->size : brush->size; #endif return brush->size; } PTCacheEdit *PE_get_current_from_psys(ParticleSystem *psys) { if (psys->part && psys->part->type == PART_HAIR) { if ((psys->flag & PSYS_HAIR_DYNAMICS) != 0 && (psys->pointcache->flag & PTCACHE_BAKED) != 0) { return psys->pointcache->edit; } return psys->edit; } if (psys->pointcache->flag & PTCACHE_BAKED) { return psys->pointcache->edit; } return NULL; } /* NOTE: Similar to creation of edit, but only updates pointers in the * existing struct. */ static void pe_update_hair_particle_edit_pointers(PTCacheEdit *edit) { ParticleSystem *psys = edit->psys; ParticleData *pa = psys->particles; for (int p = 0; p < edit->totpoint; p++) { PTCacheEditPoint *point = &edit->points[p]; HairKey *hair_key = pa->hair; for (int k = 0; k < point->totkey; k++) { PTCacheEditKey *key = &point->keys[k]; key->co = hair_key->co; key->time = &hair_key->time; key->flag = hair_key->editflag; if (!(psys->flag & PSYS_GLOBAL_HAIR)) { key->flag |= PEK_USE_WCO; hair_key->editflag |= PEK_USE_WCO; } hair_key++; } pa++; } } /* always gets at least the first particlesystem even if PSYS_CURRENT flag is not set * * NOTE: this function runs on poll, therefore it can runs many times a second * keep it fast! */ static PTCacheEdit *pe_get_current(Depsgraph *depsgraph, Scene *scene, Object *ob, bool create) { ParticleEditSettings *pset = PE_settings(scene); PTCacheEdit *edit = NULL; ListBase pidlist; PTCacheID *pid; if (pset == NULL || ob == NULL) { return NULL; } pset->scene = scene; pset->object = ob; BKE_ptcache_ids_from_object(&pidlist, ob, NULL, 0); /* in the case of only one editable thing, set pset->edittype accordingly */ if (BLI_listbase_is_single(&pidlist)) { pid = pidlist.first; switch (pid->type) { case PTCACHE_TYPE_PARTICLES: pset->edittype = PE_TYPE_PARTICLES; break; case PTCACHE_TYPE_SOFTBODY: pset->edittype = PE_TYPE_SOFTBODY; break; case PTCACHE_TYPE_CLOTH: pset->edittype = PE_TYPE_CLOTH; break; } } for (pid = pidlist.first; pid; pid = pid->next) { if (pset->edittype == PE_TYPE_PARTICLES && pid->type == PTCACHE_TYPE_PARTICLES) { ParticleSystem *psys = pid->calldata; if (psys->flag & PSYS_CURRENT) { if (psys->part && psys->part->type == PART_HAIR) { if (psys->flag & PSYS_HAIR_DYNAMICS && psys->pointcache->flag & PTCACHE_BAKED) { if (create && !psys->pointcache->edit) { PE_create_particle_edit(depsgraph, scene, ob, pid->cache, NULL); } edit = pid->cache->edit; } else { if (create && !psys->edit) { if (psys->flag & PSYS_HAIR_DONE) { PE_create_particle_edit(depsgraph, scene, ob, NULL, psys); } } edit = psys->edit; } } else { if (create && pid->cache->flag & PTCACHE_BAKED && !pid->cache->edit) { PE_create_particle_edit(depsgraph, scene, ob, pid->cache, psys); } edit = pid->cache->edit; } break; } } else if (pset->edittype == PE_TYPE_SOFTBODY && pid->type == PTCACHE_TYPE_SOFTBODY) { if (create && pid->cache->flag & PTCACHE_BAKED && !pid->cache->edit) { pset->flag |= PE_FADE_TIME; /* Nice to have but doesn't work: `pset->brushtype = PE_BRUSH_COMB;`. */ PE_create_particle_edit(depsgraph, scene, ob, pid->cache, NULL); } edit = pid->cache->edit; break; } else if (pset->edittype == PE_TYPE_CLOTH && pid->type == PTCACHE_TYPE_CLOTH) { if (create && pid->cache->flag & PTCACHE_BAKED && !pid->cache->edit) { pset->flag |= PE_FADE_TIME; /* Nice to have but doesn't work: `pset->brushtype = PE_BRUSH_COMB;`. */ PE_create_particle_edit(depsgraph, scene, ob, pid->cache, NULL); } edit = pid->cache->edit; break; } } /* Don't consider inactive or render dependency graphs, since they might be evaluated for a * different number of children. or have different pointer to evaluated particle system or * modifier which will also cause troubles. */ if (edit && DEG_is_active(depsgraph)) { edit->pid = *pid; if (edit->flags & PT_CACHE_EDIT_UPDATE_PARTICLE_FROM_EVAL) { if (edit->psys != NULL && edit->psys_eval != NULL) { psys_copy_particles(edit->psys, edit->psys_eval); pe_update_hair_particle_edit_pointers(edit); } edit->flags &= ~PT_CACHE_EDIT_UPDATE_PARTICLE_FROM_EVAL; } } BLI_freelistN(&pidlist); return edit; } PTCacheEdit *PE_get_current(Depsgraph *depsgraph, Scene *scene, Object *ob) { return pe_get_current(depsgraph, scene, ob, false); } PTCacheEdit *PE_create_current(Depsgraph *depsgraph, Scene *scene, Object *ob) { return pe_get_current(depsgraph, scene, ob, true); } void PE_current_changed(Depsgraph *depsgraph, Scene *scene, Object *ob) { if (ob->mode == OB_MODE_PARTICLE_EDIT) { PE_create_current(depsgraph, scene, ob); } } void PE_hide_keys_time(Scene *scene, PTCacheEdit *edit, float cfra) { ParticleEditSettings *pset = PE_settings(scene); POINT_P; KEY_K; if (pset->flag & PE_FADE_TIME && pset->selectmode == SCE_SELECT_POINT) { LOOP_POINTS { LOOP_KEYS { if (fabsf(cfra - *key->time) < pset->fade_frames) { key->flag &= ~PEK_HIDE; } else { key->flag |= PEK_HIDE; // key->flag &= ~PEK_SELECT; } } } } else { LOOP_POINTS { LOOP_KEYS { key->flag &= ~PEK_HIDE; } } } } static int pe_x_mirror(Object *ob) { if (ob->type == OB_MESH) { return (((Mesh *)ob->data)->symmetry & ME_SYMMETRY_X); } return 0; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Common Struct Passed to Callbacks * \{ */ typedef struct PEData { ViewContext vc; ViewDepths *depths; const bContext *context; Main *bmain; Scene *scene; ViewLayer *view_layer; Object *ob; Mesh *mesh; PTCacheEdit *edit; BVHTreeFromMesh shape_bvh; Depsgraph *depsgraph; RNG *rng; const int *mval; const rcti *rect; float rad; float dval; int select; eSelectOp sel_op; float *dvec; float combfac; float pufffac; float cutfac; float smoothfac; float weightfac; float growfac; int totrekey; int invert; int tot; float vec[3]; int select_action; int select_toggle_action; bool is_changed; void *user_data; } PEData; static void PE_set_data(bContext *C, PEData *data) { memset(data, 0, sizeof(*data)); data->context = C; data->bmain = CTX_data_main(C); data->scene = CTX_data_scene(C); data->view_layer = CTX_data_view_layer(C); data->ob = CTX_data_active_object(C); data->depsgraph = CTX_data_ensure_evaluated_depsgraph(C); data->edit = PE_get_current(data->depsgraph, data->scene, data->ob); } static void PE_set_view3d_data(bContext *C, PEData *data) { PE_set_data(C, data); ED_view3d_viewcontext_init(C, &data->vc, data->depsgraph); if (!XRAY_ENABLED(data->vc.v3d)) { ED_view3d_depth_override(data->depsgraph, data->vc.region, data->vc.v3d, data->vc.obact, V3D_DEPTH_OBJECT_ONLY, &data->depths); } } static bool PE_create_shape_tree(PEData *data, Object *shapeob) { Object *shapeob_eval = DEG_get_evaluated_object(data->depsgraph, shapeob); const Mesh *mesh = BKE_object_get_evaluated_mesh(shapeob_eval); memset(&data->shape_bvh, 0, sizeof(data->shape_bvh)); if (!mesh) { return false; } return (BKE_bvhtree_from_mesh_get(&data->shape_bvh, mesh, BVHTREE_FROM_LOOPTRI, 4) != NULL); } static void PE_free_shape_tree(PEData *data) { free_bvhtree_from_mesh(&data->shape_bvh); } static void PE_create_random_generator(PEData *data) { uint rng_seed = (uint)(PIL_check_seconds_timer_i() & UINT_MAX); rng_seed ^= POINTER_AS_UINT(data->ob); rng_seed ^= POINTER_AS_UINT(data->edit); data->rng = BLI_rng_new(rng_seed); } static void PE_free_random_generator(PEData *data) { if (data->rng != NULL) { BLI_rng_free(data->rng); data->rng = NULL; } } static void PE_data_free(PEData *data) { PE_free_random_generator(data); PE_free_shape_tree(data); if (data->depths) { ED_view3d_depths_free(data->depths); data->depths = NULL; } } /** \} */ /* -------------------------------------------------------------------- */ /** \name Selection Utilities * \{ */ static bool key_test_depth(const PEData *data, const float co[3], const int screen_co[2]) { View3D *v3d = data->vc.v3d; ViewDepths *vd = data->depths; float depth; /* nothing to do */ if (XRAY_ENABLED(v3d)) { return true; } /* used to calculate here but all callers have the screen_co already, so pass as arg */ #if 0 if (ED_view3d_project_int_global(data->vc.region, co, screen_co, V3D_PROJ_TEST_CLIP_BB | V3D_PROJ_TEST_CLIP_WIN | V3D_PROJ_TEST_CLIP_NEAR) != V3D_PROJ_RET_OK) { return 0; } #endif /* check if screen_co is within bounds because brush_cut uses out of screen coords */ if (screen_co[0] >= 0 && screen_co[0] < vd->w && screen_co[1] >= 0 && screen_co[1] < vd->h) { BLI_assert(vd && vd->depths); /* we know its not clipped */ depth = vd->depths[screen_co[1] * vd->w + screen_co[0]]; } else { return 0; } float win[3]; ED_view3d_project_v3(data->vc.region, co, win); if (win[2] - 0.00001f > depth) { return 0; } return 1; } static bool key_inside_circle(const PEData *data, float rad, const float co[3], float *distance) { float dx, dy, dist; int screen_co[2]; /* TODO: should this check V3D_PROJ_TEST_CLIP_BB too? */ if (ED_view3d_project_int_global(data->vc.region, co, screen_co, V3D_PROJ_TEST_CLIP_WIN) != V3D_PROJ_RET_OK) { return 0; } dx = data->mval[0] - screen_co[0]; dy = data->mval[1] - screen_co[1]; dist = sqrtf(dx * dx + dy * dy); if (dist > rad) { return 0; } if (key_test_depth(data, co, screen_co)) { if (distance) { *distance = dist; } return 1; } return 0; } static bool key_inside_rect(PEData *data, const float co[3]) { int screen_co[2]; if (ED_view3d_project_int_global(data->vc.region, co, screen_co, V3D_PROJ_TEST_CLIP_WIN) != V3D_PROJ_RET_OK) { return 0; } if (screen_co[0] > data->rect->xmin && screen_co[0] < data->rect->xmax && screen_co[1] > data->rect->ymin && screen_co[1] < data->rect->ymax) { return key_test_depth(data, co, screen_co); } return 0; } static bool key_inside_test(PEData *data, const float co[3]) { if (data->mval) { return key_inside_circle(data, data->rad, co, NULL); } return key_inside_rect(data, co); } static bool point_is_selected(PTCacheEditPoint *point) { KEY_K; if (point->flag & PEP_HIDE) { return 0; } LOOP_SELECTED_KEYS { return 1; } return 0; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Iterators * \{ */ typedef void (*ForPointFunc)(PEData *data, int point_index); typedef void (*ForHitPointFunc)(PEData *data, int point_index, float mouse_distance); typedef void (*ForKeyFunc)(PEData *data, int point_index, int key_index, bool is_inside); typedef void (*ForKeyMatFunc)(PEData *data, const float mat[4][4], const float imat[4][4], int point_index, int key_index, PTCacheEditKey *key); typedef void (*ForHitKeyMatFunc)(PEData *data, float mat[4][4], float imat[4][4], int point_index, int key_index, PTCacheEditKey *key, float mouse_distance); enum eParticleSelectFlag { PSEL_NEAREST = (1 << 0), PSEL_ALL_KEYS = (1 << 1), }; static void for_mouse_hit_keys(PEData *data, ForKeyFunc func, const enum eParticleSelectFlag flag) { ParticleEditSettings *pset = PE_settings(data->scene); PTCacheEdit *edit = data->edit; POINT_P; KEY_K; int nearest_point, nearest_key; float dist = data->rad; /* in path select mode we have no keys */ if (pset->selectmode == SCE_SELECT_PATH) { return; } nearest_point = -1; nearest_key = -1; LOOP_VISIBLE_POINTS { if (pset->selectmode == SCE_SELECT_END) { if (point->totkey) { /* only do end keys */ key = point->keys + point->totkey - 1; if (flag & PSEL_NEAREST) { if (key_inside_circle(data, dist, KEY_WCO, &dist)) { nearest_point = p; nearest_key = point->totkey - 1; } } else { const bool is_inside = key_inside_test(data, KEY_WCO); if (is_inside || (flag & PSEL_ALL_KEYS)) { func(data, p, point->totkey - 1, is_inside); } } } } else { /* do all keys */ LOOP_VISIBLE_KEYS { if (flag & PSEL_NEAREST) { if (key_inside_circle(data, dist, KEY_WCO, &dist)) { nearest_point = p; nearest_key = k; } } else { const bool is_inside = key_inside_test(data, KEY_WCO); if (is_inside || (flag & PSEL_ALL_KEYS)) { func(data, p, k, is_inside); } } } } } /* do nearest only */ if (flag & PSEL_NEAREST) { if (nearest_point != -1) { func(data, nearest_point, nearest_key, true); } } } static void foreach_mouse_hit_point(PEData *data, ForHitPointFunc func, int selected) { ParticleEditSettings *pset = PE_settings(data->scene); PTCacheEdit *edit = data->edit; POINT_P; KEY_K; /* all is selected in path mode */ if (pset->selectmode == SCE_SELECT_PATH) { selected = 0; } LOOP_VISIBLE_POINTS { if (pset->selectmode == SCE_SELECT_END) { if (point->totkey) { /* only do end keys */ key = point->keys + point->totkey - 1; if (selected == 0 || key->flag & PEK_SELECT) { float mouse_distance; if (key_inside_circle(data, data->rad, KEY_WCO, &mouse_distance)) { func(data, p, mouse_distance); } } } } else { /* do all keys */ LOOP_VISIBLE_KEYS { if (selected == 0 || key->flag & PEK_SELECT) { float mouse_distance; if (key_inside_circle(data, data->rad, KEY_WCO, &mouse_distance)) { func(data, p, mouse_distance); break; } } } } } } typedef struct KeyIterData { PEData *data; PTCacheEdit *edit; int selected; ForHitKeyMatFunc func; } KeyIterData; static void foreach_mouse_hit_key_iter(void *__restrict iter_data_v, const int iter, const TaskParallelTLS *__restrict UNUSED(tls)) { KeyIterData *iter_data = (KeyIterData *)iter_data_v; PEData *data = iter_data->data; PTCacheEdit *edit = data->edit; PTCacheEditPoint *point = &edit->points[iter]; if (point->flag & PEP_HIDE) { return; } ParticleSystem *psys = edit->psys; ParticleSystemModifierData *psmd_eval = iter_data->edit->psmd_eval; ParticleEditSettings *pset = PE_settings(data->scene); const int selected = iter_data->selected; float mat[4][4], imat[4][4]; unit_m4(mat); unit_m4(imat); if (pset->selectmode == SCE_SELECT_END) { if (point->totkey) { /* only do end keys */ PTCacheEditKey *key = point->keys + point->totkey - 1; if (selected == 0 || key->flag & PEK_SELECT) { float mouse_distance; if (key_inside_circle(data, data->rad, KEY_WCO, &mouse_distance)) { if (edit->psys && !(edit->psys->flag & PSYS_GLOBAL_HAIR)) { psys_mat_hair_to_global( data->ob, psmd_eval->mesh_final, psys->part->from, psys->particles + iter, mat); invert_m4_m4(imat, mat); } iter_data->func(data, mat, imat, iter, point->totkey - 1, key, mouse_distance); } } } } else { /* do all keys */ PTCacheEditKey *key; int k; LOOP_VISIBLE_KEYS { if (selected == 0 || key->flag & PEK_SELECT) { float mouse_distance; if (key_inside_circle(data, data->rad, KEY_WCO, &mouse_distance)) { if (edit->psys && !(edit->psys->flag & PSYS_GLOBAL_HAIR)) { psys_mat_hair_to_global( data->ob, psmd_eval->mesh_final, psys->part->from, psys->particles + iter, mat); invert_m4_m4(imat, mat); } iter_data->func(data, mat, imat, iter, k, key, mouse_distance); } } } } } static void foreach_mouse_hit_key(PEData *data, ForHitKeyMatFunc func, int selected) { PTCacheEdit *edit = data->edit; ParticleEditSettings *pset = PE_settings(data->scene); /* all is selected in path mode */ if (pset->selectmode == SCE_SELECT_PATH) { selected = 0; } KeyIterData iter_data; iter_data.data = data; iter_data.edit = edit; iter_data.selected = selected; iter_data.func = func; TaskParallelSettings settings; BLI_parallel_range_settings_defaults(&settings); BLI_task_parallel_range(0, edit->totpoint, &iter_data, foreach_mouse_hit_key_iter, &settings); } static void foreach_selected_point(PEData *data, ForPointFunc func) { PTCacheEdit *edit = data->edit; POINT_P; LOOP_SELECTED_POINTS { func(data, p); } } static void foreach_selected_key(PEData *data, ForKeyFunc func) { PTCacheEdit *edit = data->edit; POINT_P; KEY_K; LOOP_VISIBLE_POINTS { LOOP_SELECTED_KEYS { func(data, p, k, true); } } } static void foreach_point(PEData *data, ForPointFunc func) { PTCacheEdit *edit = data->edit; POINT_P; LOOP_POINTS { func(data, p); } } static int count_selected_keys(Scene *scene, PTCacheEdit *edit) { ParticleEditSettings *pset = PE_settings(scene); POINT_P; KEY_K; int sel = 0; LOOP_VISIBLE_POINTS { if (pset->selectmode == SCE_SELECT_POINT) { LOOP_SELECTED_KEYS { sel++; } } else if (pset->selectmode == SCE_SELECT_END) { if (point->totkey) { key = point->keys + point->totkey - 1; if (key->flag & PEK_SELECT) { sel++; } } } } return sel; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Particle Edit Mirroring * \{ */ static void PE_update_mirror_cache(Object *ob, ParticleSystem *psys) { PTCacheEdit *edit; ParticleSystemModifierData *psmd_eval; KDTree_3d *tree; KDTreeNearest_3d nearest; HairKey *key; PARTICLE_P; float mat[4][4], co[3]; int index, totpart; edit = psys->edit; psmd_eval = edit->psmd_eval; totpart = psys->totpart; if (!psmd_eval->mesh_final) { return; } tree = BLI_kdtree_3d_new(totpart); /* Insert particles into KD-tree. */ LOOP_PARTICLES { key = pa->hair; psys_mat_hair_to_orco(ob, psmd_eval->mesh_final, psys->part->from, pa, mat); copy_v3_v3(co, key->co); mul_m4_v3(mat, co); BLI_kdtree_3d_insert(tree, p, co); } BLI_kdtree_3d_balance(tree); /* lookup particles and set in mirror cache */ if (!edit->mirror_cache) { edit->mirror_cache = MEM_callocN(sizeof(int) * totpart, "PE mirror cache"); } LOOP_PARTICLES { key = pa->hair; psys_mat_hair_to_orco(ob, psmd_eval->mesh_final, psys->part->from, pa, mat); copy_v3_v3(co, key->co); mul_m4_v3(mat, co); co[0] = -co[0]; index = BLI_kdtree_3d_find_nearest(tree, co, &nearest); /* this needs a custom threshold still, duplicated for editmode mirror */ if (index != -1 && index != p && (nearest.dist <= 0.0002f)) { edit->mirror_cache[p] = index; } else { edit->mirror_cache[p] = -1; } } /* make sure mirrors are in two directions */ LOOP_PARTICLES { if (edit->mirror_cache[p]) { index = edit->mirror_cache[p]; if (edit->mirror_cache[index] != p) { edit->mirror_cache[p] = -1; } } } BLI_kdtree_3d_free(tree); } static void PE_mirror_particle( Object *ob, Mesh *mesh, ParticleSystem *psys, ParticleData *pa, ParticleData *mpa) { HairKey *hkey, *mhkey; PTCacheEditPoint *point, *mpoint; PTCacheEditKey *key, *mkey; PTCacheEdit *edit; float mat[4][4], mmat[4][4], immat[4][4]; int i, mi, k; edit = psys->edit; i = pa - psys->particles; /* find mirrored particle if needed */ if (!mpa) { if (!edit->mirror_cache) { PE_update_mirror_cache(ob, psys); } if (!edit->mirror_cache) { return; /* something went wrong! */ } mi = edit->mirror_cache[i]; if (mi == -1) { return; } mpa = psys->particles + mi; } else { mi = mpa - psys->particles; } point = edit->points + i; mpoint = edit->points + mi; /* make sure they have the same amount of keys */ if (pa->totkey != mpa->totkey) { if (mpa->hair) { MEM_freeN(mpa->hair); } if (mpoint->keys) { MEM_freeN(mpoint->keys); } mpa->hair = MEM_dupallocN(pa->hair); mpa->totkey = pa->totkey; mpoint->keys = MEM_dupallocN(point->keys); mpoint->totkey = point->totkey; mhkey = mpa->hair; mkey = mpoint->keys; for (k = 0; k < mpa->totkey; k++, mkey++, mhkey++) { mkey->co = mhkey->co; mkey->time = &mhkey->time; mkey->flag &= ~PEK_SELECT; } } /* mirror positions and tags */ psys_mat_hair_to_orco(ob, mesh, psys->part->from, pa, mat); psys_mat_hair_to_orco(ob, mesh, psys->part->from, mpa, mmat); invert_m4_m4(immat, mmat); hkey = pa->hair; mhkey = mpa->hair; key = point->keys; mkey = mpoint->keys; for (k = 0; k < pa->totkey; k++, hkey++, mhkey++, key++, mkey++) { copy_v3_v3(mhkey->co, hkey->co); mul_m4_v3(mat, mhkey->co); mhkey->co[0] = -mhkey->co[0]; mul_m4_v3(immat, mhkey->co); if (key->flag & PEK_TAG) { mkey->flag |= PEK_TAG; } mkey->length = key->length; } if (point->flag & PEP_TAG) { mpoint->flag |= PEP_TAG; } if (point->flag & PEP_EDIT_RECALC) { mpoint->flag |= PEP_EDIT_RECALC; } } static void PE_apply_mirror(Object *ob, ParticleSystem *psys) { PTCacheEdit *edit; ParticleSystemModifierData *psmd_eval; POINT_P; if (!psys) { return; } edit = psys->edit; psmd_eval = edit->psmd_eval; if (psmd_eval == NULL || psmd_eval->mesh_final == NULL) { return; } if (!edit->mirror_cache) { PE_update_mirror_cache(ob, psys); } if (!edit->mirror_cache) { return; /* something went wrong */ } /* we delay settings the PARS_EDIT_RECALC for mirrored particles * to avoid doing mirror twice */ LOOP_POINTS { if (point->flag & PEP_EDIT_RECALC) { PE_mirror_particle(ob, psmd_eval->mesh_final, psys, psys->particles + p, NULL); if (edit->mirror_cache[p] != -1) { edit->points[edit->mirror_cache[p]].flag &= ~PEP_EDIT_RECALC; } } } LOOP_POINTS { if (point->flag & PEP_EDIT_RECALC) { if (edit->mirror_cache[p] != -1) { edit->points[edit->mirror_cache[p]].flag |= PEP_EDIT_RECALC; } } } } /** \} */ /* -------------------------------------------------------------------- */ /** \name Edit Calculation * \{ */ typedef struct DeflectEmitterIter { Object *object; ParticleSystem *psys; PTCacheEdit *edit; float dist; float emitterdist; } DeflectEmitterIter; static void deflect_emitter_iter(void *__restrict iter_data_v, const int iter, const TaskParallelTLS *__restrict UNUSED(tls)) { DeflectEmitterIter *iter_data = (DeflectEmitterIter *)iter_data_v; PTCacheEdit *edit = iter_data->edit; PTCacheEditPoint *point = &edit->points[iter]; if ((point->flag & PEP_EDIT_RECALC) == 0) { return; } Object *object = iter_data->object; ParticleSystem *psys = iter_data->psys; ParticleSystemModifierData *psmd_eval = iter_data->edit->psmd_eval; PTCacheEditKey *key; int k; float hairimat[4][4], hairmat[4][4]; int index; float *vec, *nor, dvec[3], dot, dist_1st = 0.0f; const float dist = iter_data->dist; const float emitterdist = iter_data->emitterdist; psys_mat_hair_to_object( object, psmd_eval->mesh_final, psys->part->from, psys->particles + iter, hairmat); LOOP_KEYS { mul_m4_v3(hairmat, key->co); } LOOP_KEYS { if (k == 0) { dist_1st = len_v3v3((key + 1)->co, key->co); dist_1st *= dist * emitterdist; } else { index = BLI_kdtree_3d_find_nearest(edit->emitter_field, key->co, NULL); vec = edit->emitter_cosnos + index * 6; nor = vec + 3; sub_v3_v3v3(dvec, key->co, vec); dot = dot_v3v3(dvec, nor); copy_v3_v3(dvec, nor); if (dot > 0.0f) { if (dot < dist_1st) { normalize_v3(dvec); mul_v3_fl(dvec, dist_1st - dot); add_v3_v3(key->co, dvec); } } else { normalize_v3(dvec); mul_v3_fl(dvec, dist_1st - dot); add_v3_v3(key->co, dvec); } if (k == 1) { dist_1st *= 1.3333f; } } } invert_m4_m4(hairimat, hairmat); LOOP_KEYS { mul_m4_v3(hairimat, key->co); } } /* tries to stop edited particles from going through the emitter's surface */ static void pe_deflect_emitter(Scene *scene, Object *ob, PTCacheEdit *edit) { ParticleEditSettings *pset = PE_settings(scene); ParticleSystem *psys; const float dist = ED_view3d_select_dist_px() * 0.01f; if (edit == NULL || edit->psys == NULL || (pset->flag & PE_DEFLECT_EMITTER) == 0 || (edit->psys->flag & PSYS_GLOBAL_HAIR)) { return; } psys = edit->psys; if (edit->psmd_eval == NULL || edit->psmd_eval->mesh_final == NULL) { return; } DeflectEmitterIter iter_data; iter_data.object = ob; iter_data.psys = psys; iter_data.edit = edit; iter_data.dist = dist; iter_data.emitterdist = pset->emitterdist; TaskParallelSettings settings; BLI_parallel_range_settings_defaults(&settings); BLI_task_parallel_range(0, edit->totpoint, &iter_data, deflect_emitter_iter, &settings); } typedef struct ApplyLengthsIterData { PTCacheEdit *edit; } ApplyLengthsIterData; static void apply_lengths_iter(void *__restrict iter_data_v, const int iter, const TaskParallelTLS *__restrict UNUSED(tls)) { ApplyLengthsIterData *iter_data = (ApplyLengthsIterData *)iter_data_v; PTCacheEdit *edit = iter_data->edit; PTCacheEditPoint *point = &edit->points[iter]; if ((point->flag & PEP_EDIT_RECALC) == 0) { return; } PTCacheEditKey *key; int k; LOOP_KEYS { if (k) { float dv1[3]; sub_v3_v3v3(dv1, key->co, (key - 1)->co); normalize_v3(dv1); mul_v3_fl(dv1, (key - 1)->length); add_v3_v3v3(key->co, (key - 1)->co, dv1); } } } /* force set distances between neighboring keys */ static void PE_apply_lengths(Scene *scene, PTCacheEdit *edit) { ParticleEditSettings *pset = PE_settings(scene); if (edit == 0 || (pset->flag & PE_KEEP_LENGTHS) == 0) { return; } if (edit->psys && edit->psys->flag & PSYS_GLOBAL_HAIR) { return; } ApplyLengthsIterData iter_data; iter_data.edit = edit; TaskParallelSettings settings; BLI_parallel_range_settings_defaults(&settings); BLI_task_parallel_range(0, edit->totpoint, &iter_data, apply_lengths_iter, &settings); } typedef struct IterateLengthsIterData { PTCacheEdit *edit; ParticleEditSettings *pset; } IterateLengthsIterData; static void iterate_lengths_iter(void *__restrict iter_data_v, const int iter, const TaskParallelTLS *__restrict UNUSED(tls)) { IterateLengthsIterData *iter_data = (IterateLengthsIterData *)iter_data_v; PTCacheEdit *edit = iter_data->edit; PTCacheEditPoint *point = &edit->points[iter]; if ((point->flag & PEP_EDIT_RECALC) == 0) { return; } ParticleEditSettings *pset = iter_data->pset; float tlen; float dv0[3] = {0.0f, 0.0f, 0.0f}; float dv1[3] = {0.0f, 0.0f, 0.0f}; float dv2[3] = {0.0f, 0.0f, 0.0f}; for (int j = 1; j < point->totkey; j++) { PTCacheEditKey *key; int k; float mul = 1.0f / (float)point->totkey; if (pset->flag & PE_LOCK_FIRST) { key = point->keys + 1; k = 1; dv1[0] = dv1[1] = dv1[2] = 0.0; } else { key = point->keys; k = 0; dv0[0] = dv0[1] = dv0[2] = 0.0; } for (; k < point->totkey; k++, key++) { if (k) { sub_v3_v3v3(dv0, (key - 1)->co, key->co); tlen = normalize_v3(dv0); mul_v3_fl(dv0, (mul * (tlen - (key - 1)->length))); } if (k < point->totkey - 1) { sub_v3_v3v3(dv2, (key + 1)->co, key->co); tlen = normalize_v3(dv2); mul_v3_fl(dv2, mul * (tlen - key->length)); } if (k) { add_v3_v3((key - 1)->co, dv1); } add_v3_v3v3(dv1, dv0, dv2); } } } /* try to find a nice solution to keep distances between neighboring keys */ static void pe_iterate_lengths(Scene *scene, PTCacheEdit *edit) { ParticleEditSettings *pset = PE_settings(scene); if (edit == 0 || (pset->flag & PE_KEEP_LENGTHS) == 0) { return; } if (edit->psys && edit->psys->flag & PSYS_GLOBAL_HAIR) { return; } IterateLengthsIterData iter_data; iter_data.edit = edit; iter_data.pset = pset; TaskParallelSettings settings; BLI_parallel_range_settings_defaults(&settings); BLI_task_parallel_range(0, edit->totpoint, &iter_data, iterate_lengths_iter, &settings); } void recalc_lengths(PTCacheEdit *edit) { POINT_P; KEY_K; if (edit == 0) { return; } LOOP_EDITED_POINTS { key = point->keys; for (k = 0; k < point->totkey - 1; k++, key++) { key->length = len_v3v3(key->co, (key + 1)->co); } } } void recalc_emitter_field(Depsgraph *UNUSED(depsgraph), Object *UNUSED(ob), ParticleSystem *psys) { PTCacheEdit *edit = psys->edit; Mesh *mesh = edit->psmd_eval->mesh_final; float *vec, *nor; int i, totface; if (!mesh) { return; } if (edit->emitter_cosnos) { MEM_freeN(edit->emitter_cosnos); } BLI_kdtree_3d_free(edit->emitter_field); totface = mesh->totface; // int totvert = dm->getNumVerts(dm); /* UNUSED */ edit->emitter_cosnos = MEM_callocN(sizeof(float[6]) * totface, "emitter cosnos"); edit->emitter_field = BLI_kdtree_3d_new(totface); vec = edit->emitter_cosnos; nor = vec + 3; const float(*positions)[3] = BKE_mesh_positions(mesh); const float(*vert_normals)[3] = BKE_mesh_vertex_normals_ensure(mesh); MFace *mfaces = (MFace *)CustomData_get_layer(&mesh->fdata, CD_MFACE); for (i = 0; i < totface; i++, vec += 6, nor += 6) { MFace *mface = &mfaces[i]; copy_v3_v3(vec, positions[mface->v1]); copy_v3_v3(nor, vert_normals[mface->v1]); add_v3_v3v3(vec, vec, positions[mface->v2]); add_v3_v3(nor, vert_normals[mface->v2]); add_v3_v3v3(vec, vec, positions[mface->v3]); add_v3_v3(nor, vert_normals[mface->v3]); if (mface->v4) { add_v3_v3v3(vec, vec, positions[mface->v4]); add_v3_v3(nor, vert_normals[mface->v4]); mul_v3_fl(vec, 0.25); } else { mul_v3_fl(vec, 1.0f / 3.0f); } normalize_v3(nor); BLI_kdtree_3d_insert(edit->emitter_field, i, vec); } BLI_kdtree_3d_balance(edit->emitter_field); } static void PE_update_selection(Depsgraph *depsgraph, Scene *scene, Object *ob, int useflag) { PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); HairKey *hkey; POINT_P; KEY_K; /* flag all particles to be updated if not using flag */ if (!useflag) { LOOP_POINTS { point->flag |= PEP_EDIT_RECALC; } } /* flush edit key flag to hair key flag to preserve selection * on save */ if (edit->psys) { LOOP_POINTS { hkey = edit->psys->particles[p].hair; LOOP_KEYS { hkey->editflag = key->flag; hkey++; } } } psys_cache_edit_paths(depsgraph, scene, ob, edit, scene->r.cfra, G.is_rendering); /* disable update flag */ LOOP_POINTS { point->flag &= ~PEP_EDIT_RECALC; } DEG_id_tag_update(&ob->id, ID_RECALC_SELECT); } void update_world_cos(Object *ob, PTCacheEdit *edit) { ParticleSystem *psys = edit->psys; ParticleSystemModifierData *psmd_eval = edit->psmd_eval; POINT_P; KEY_K; float hairmat[4][4]; if (psys == 0 || psys->edit == 0 || psmd_eval == NULL || psmd_eval->mesh_final == NULL) { return; } LOOP_POINTS { if (!(psys->flag & PSYS_GLOBAL_HAIR)) { psys_mat_hair_to_global( ob, psmd_eval->mesh_final, psys->part->from, psys->particles + p, hairmat); } LOOP_KEYS { copy_v3_v3(key->world_co, key->co); if (!(psys->flag & PSYS_GLOBAL_HAIR)) { mul_m4_v3(hairmat, key->world_co); } } } } static void update_velocities(PTCacheEdit *edit) { /* TODO: get frs_sec properly. */ float vec1[3], vec2[3], frs_sec, dfra; POINT_P; KEY_K; /* hair doesn't use velocities */ if (edit->psys || !edit->points || !edit->points->keys->vel) { return; } frs_sec = edit->pid.flag & PTCACHE_VEL_PER_SEC ? 25.0f : 1.0f; LOOP_EDITED_POINTS { LOOP_KEYS { if (k == 0) { dfra = *(key + 1)->time - *key->time; if (dfra <= 0.0f) { continue; } sub_v3_v3v3(key->vel, (key + 1)->co, key->co); if (point->totkey > 2) { sub_v3_v3v3(vec1, (key + 1)->co, (key + 2)->co); project_v3_v3v3(vec2, vec1, key->vel); sub_v3_v3v3(vec2, vec1, vec2); madd_v3_v3fl(key->vel, vec2, 0.5f); } } else if (k == point->totkey - 1) { dfra = *key->time - *(key - 1)->time; if (dfra <= 0.0f) { continue; } sub_v3_v3v3(key->vel, key->co, (key - 1)->co); if (point->totkey > 2) { sub_v3_v3v3(vec1, (key - 2)->co, (key - 1)->co); project_v3_v3v3(vec2, vec1, key->vel); sub_v3_v3v3(vec2, vec1, vec2); madd_v3_v3fl(key->vel, vec2, 0.5f); } } else { dfra = *(key + 1)->time - *(key - 1)->time; if (dfra <= 0.0f) { continue; } sub_v3_v3v3(key->vel, (key + 1)->co, (key - 1)->co); } mul_v3_fl(key->vel, frs_sec / dfra); } } } void PE_update_object(Depsgraph *depsgraph, Scene *scene, Object *ob, int useflag) { /* use this to do partial particle updates, not usable when adding or * removing, then a full redo is necessary and calling this may crash */ ParticleEditSettings *pset = PE_settings(scene); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); POINT_P; if (!edit) { return; } /* flag all particles to be updated if not using flag */ if (!useflag) { LOOP_POINTS { point->flag |= PEP_EDIT_RECALC; } } /* do post process on particle edit keys */ pe_iterate_lengths(scene, edit); pe_deflect_emitter(scene, ob, edit); PE_apply_lengths(scene, edit); if (pe_x_mirror(ob)) { PE_apply_mirror(ob, edit->psys); } if (edit->psys) { update_world_cos(ob, edit); } if (pset->flag & PE_AUTO_VELOCITY) { update_velocities(edit); } /* Only do this for emitter particles because drawing PE_FADE_TIME is not respected in 2.8 yet * and flagging with PEK_HIDE will prevent selection. This might get restored once this is * supported in drawing (but doesn't make much sense for hair anyways). */ if (edit->psys && edit->psys->part->type == PART_EMITTER) { PE_hide_keys_time(scene, edit, scene->r.cfra); } /* regenerate path caches */ psys_cache_edit_paths(depsgraph, scene, ob, edit, scene->r.cfra, G.is_rendering); /* disable update flag */ LOOP_POINTS { point->flag &= ~PEP_EDIT_RECALC; } if (edit->psys) { edit->psys->flag &= ~PSYS_HAIR_UPDATED; } } /** \} */ /* -------------------------------------------------------------------- */ /** \name Edit Selections * \{ */ /*-----selection callbacks-----*/ static void select_key(PEData *data, int point_index, int key_index, bool UNUSED(is_inside)) { PTCacheEdit *edit = data->edit; PTCacheEditPoint *point = edit->points + point_index; PTCacheEditKey *key = point->keys + key_index; if (data->select) { key->flag |= PEK_SELECT; } else { key->flag &= ~PEK_SELECT; } point->flag |= PEP_EDIT_RECALC; data->is_changed = true; } static void select_key_op(PEData *data, int point_index, int key_index, bool is_inside) { PTCacheEdit *edit = data->edit; PTCacheEditPoint *point = edit->points + point_index; PTCacheEditKey *key = point->keys + key_index; const bool is_select = key->flag & PEK_SELECT; const int sel_op_result = ED_select_op_action_deselected(data->sel_op, is_select, is_inside); if (sel_op_result != -1) { SET_FLAG_FROM_TEST(key->flag, sel_op_result, PEK_SELECT); point->flag |= PEP_EDIT_RECALC; data->is_changed = true; } } static void select_keys(PEData *data, int point_index, int UNUSED(key_index), bool UNUSED(is_inside)) { PTCacheEdit *edit = data->edit; PTCacheEditPoint *point = edit->points + point_index; KEY_K; LOOP_KEYS { if (data->select) { key->flag |= PEK_SELECT; } else { key->flag &= ~PEK_SELECT; } } point->flag |= PEP_EDIT_RECALC; } /** \} */ /* -------------------------------------------------------------------- */ /** \name De-Select All Operator * \{ */ static bool select_action_apply(PTCacheEditPoint *point, PTCacheEditKey *key, int action) { bool changed = false; switch (action) { case SEL_SELECT: if ((key->flag & PEK_SELECT) == 0) { key->flag |= PEK_SELECT; point->flag |= PEP_EDIT_RECALC; changed = true; } break; case SEL_DESELECT: if (key->flag & PEK_SELECT) { key->flag &= ~PEK_SELECT; point->flag |= PEP_EDIT_RECALC; changed = true; } break; case SEL_INVERT: if ((key->flag & PEK_SELECT) == 0) { key->flag |= PEK_SELECT; point->flag |= PEP_EDIT_RECALC; changed = true; } else { key->flag &= ~PEK_SELECT; point->flag |= PEP_EDIT_RECALC; changed = true; } break; } return changed; } static int pe_select_all_exec(bContext *C, wmOperator *op) { Scene *scene = CTX_data_scene(C); Depsgraph *depsgraph = CTX_data_ensure_evaluated_depsgraph(C); Object *ob = CTX_data_active_object(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); POINT_P; KEY_K; int action = RNA_enum_get(op->ptr, "action"); if (action == SEL_TOGGLE) { action = SEL_SELECT; LOOP_VISIBLE_POINTS { LOOP_SELECTED_KEYS { action = SEL_DESELECT; break; } if (action == SEL_DESELECT) { break; } } } bool changed = false; LOOP_VISIBLE_POINTS { LOOP_VISIBLE_KEYS { changed |= select_action_apply(point, key, action); } } if (changed) { PE_update_selection(depsgraph, scene, ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, ob); } return OPERATOR_FINISHED; } void PARTICLE_OT_select_all(wmOperatorType *ot) { /* identifiers */ ot->name = "(De)select All"; ot->idname = "PARTICLE_OT_select_all"; ot->description = "(De)select all particles' keys"; /* api callbacks */ ot->exec = pe_select_all_exec; ot->poll = PE_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; WM_operator_properties_select_all(ot); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Pick Select Operator * \{ */ struct NearestParticleData { PTCacheEditPoint *point; PTCacheEditKey *key; }; static void nearest_key_fn(PEData *data, int point_index, int key_index, bool UNUSED(is_inside)) { PTCacheEdit *edit = data->edit; PTCacheEditPoint *point = edit->points + point_index; PTCacheEditKey *key = point->keys + key_index; struct NearestParticleData *user_data = data->user_data; user_data->point = point; user_data->key = key; data->is_changed = true; } static bool pe_nearest_point_and_key(bContext *C, const int mval[2], PTCacheEditPoint **r_point, PTCacheEditKey **r_key) { struct NearestParticleData user_data = {NULL}; PEData data; PE_set_view3d_data(C, &data); data.mval = mval; data.rad = ED_view3d_select_dist_px(); data.user_data = &user_data; for_mouse_hit_keys(&data, nearest_key_fn, PSEL_NEAREST); bool found = data.is_changed; PE_data_free(&data); *r_point = user_data.point; *r_key = user_data.key; return found; } bool PE_mouse_particles(bContext *C, const int mval[2], const struct SelectPick_Params *params) { Depsgraph *depsgraph = CTX_data_ensure_evaluated_depsgraph(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); if (!PE_start_edit(edit)) { return false; } PTCacheEditPoint *point; PTCacheEditKey *key; bool changed = false; bool found = pe_nearest_point_and_key(C, mval, &point, &key); if (params->sel_op == SEL_OP_SET) { if ((found && params->select_passthrough) && (key->flag & PEK_SELECT)) { found = false; } else if (found || params->deselect_all) { /* Deselect everything. */ changed |= PE_deselect_all_visible_ex(edit); } } if (found) { switch (params->sel_op) { case SEL_OP_ADD: { if ((key->flag & PEK_SELECT) == 0) { key->flag |= PEK_SELECT; point->flag |= PEP_EDIT_RECALC; changed = true; } break; } case SEL_OP_SUB: { if ((key->flag & PEK_SELECT) != 0) { key->flag &= ~PEK_SELECT; point->flag |= PEP_EDIT_RECALC; changed = true; } break; } case SEL_OP_XOR: { key->flag ^= PEK_SELECT; point->flag |= PEP_EDIT_RECALC; changed = true; break; } case SEL_OP_SET: { if ((key->flag & PEK_SELECT) == 0) { key->flag |= PEK_SELECT; point->flag |= PEP_EDIT_RECALC; changed = true; } break; } case SEL_OP_AND: { BLI_assert_unreachable(); /* Doesn't make sense for picking. */ break; } } } if (changed) { PE_update_selection(depsgraph, scene, ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, ob); } return changed || found; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Select Root Operator * \{ */ static void select_root(PEData *data, int point_index) { PTCacheEditPoint *point = data->edit->points + point_index; PTCacheEditKey *key = point->keys; if (point->flag & PEP_HIDE) { return; } if (data->select_action != SEL_TOGGLE) { data->is_changed = select_action_apply(point, key, data->select_action); } else if (key->flag & PEK_SELECT) { data->select_toggle_action = SEL_DESELECT; } } static int select_roots_exec(bContext *C, wmOperator *op) { PEData data; int action = RNA_enum_get(op->ptr, "action"); PE_set_data(C, &data); if (action == SEL_TOGGLE) { data.select_action = SEL_TOGGLE; data.select_toggle_action = SEL_SELECT; foreach_point(&data, select_root); action = data.select_toggle_action; } data.select_action = action; foreach_point(&data, select_root); if (data.is_changed) { PE_update_selection(data.depsgraph, data.scene, data.ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, data.ob); } return OPERATOR_FINISHED; } void PARTICLE_OT_select_roots(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Roots"; ot->idname = "PARTICLE_OT_select_roots"; ot->description = "Select roots of all visible particles"; /* api callbacks */ ot->exec = select_roots_exec; ot->poll = PE_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ WM_operator_properties_select_action(ot, SEL_SELECT, false); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Select Tip Operator * \{ */ static void select_tip(PEData *data, int point_index) { PTCacheEditPoint *point = data->edit->points + point_index; PTCacheEditKey *key; if (point->totkey == 0) { return; } key = &point->keys[point->totkey - 1]; if (point->flag & PEP_HIDE) { return; } if (data->select_action != SEL_TOGGLE) { data->is_changed = select_action_apply(point, key, data->select_action); } else if (key->flag & PEK_SELECT) { data->select_toggle_action = SEL_DESELECT; } } static int select_tips_exec(bContext *C, wmOperator *op) { PEData data; int action = RNA_enum_get(op->ptr, "action"); PE_set_data(C, &data); if (action == SEL_TOGGLE) { data.select_action = SEL_TOGGLE; data.select_toggle_action = SEL_SELECT; foreach_point(&data, select_tip); action = data.select_toggle_action; } data.select_action = action; foreach_point(&data, select_tip); if (data.is_changed) { PE_update_selection(data.depsgraph, data.scene, data.ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, data.ob); return OPERATOR_FINISHED; } return OPERATOR_CANCELLED; } void PARTICLE_OT_select_tips(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Tips"; ot->idname = "PARTICLE_OT_select_tips"; ot->description = "Select tips of all visible particles"; /* api callbacks */ ot->exec = select_tips_exec; ot->poll = PE_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ WM_operator_properties_select_action(ot, SEL_SELECT, false); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Select Random Operator * \{ */ enum { RAN_HAIR, RAN_POINTS }; static const EnumPropertyItem select_random_type_items[] = { {RAN_HAIR, "HAIR", 0, "Hair", ""}, {RAN_POINTS, "POINTS", 0, "Points", ""}, {0, NULL, 0, NULL, NULL}, }; static int select_random_exec(bContext *C, wmOperator *op) { PEData data; int type; /* used by LOOP_VISIBLE_POINTS, LOOP_VISIBLE_KEYS and LOOP_KEYS */ PTCacheEdit *edit; PTCacheEditPoint *point; PTCacheEditKey *key; int p; int k; const float randfac = RNA_float_get(op->ptr, "ratio"); const int seed = WM_operator_properties_select_random_seed_increment_get(op); const bool select = (RNA_enum_get(op->ptr, "action") == SEL_SELECT); RNG *rng; type = RNA_enum_get(op->ptr, "type"); PE_set_data(C, &data); data.select_action = SEL_SELECT; edit = PE_get_current(data.depsgraph, data.scene, data.ob); rng = BLI_rng_new_srandom(seed); switch (type) { case RAN_HAIR: LOOP_VISIBLE_POINTS { int flag = ((BLI_rng_get_float(rng) < randfac) == select) ? SEL_SELECT : SEL_DESELECT; LOOP_KEYS { data.is_changed |= select_action_apply(point, key, flag); } } break; case RAN_POINTS: LOOP_VISIBLE_POINTS { LOOP_VISIBLE_KEYS { int flag = ((BLI_rng_get_float(rng) < randfac) == select) ? SEL_SELECT : SEL_DESELECT; data.is_changed |= select_action_apply(point, key, flag); } } break; } BLI_rng_free(rng); if (data.is_changed) { PE_update_selection(data.depsgraph, data.scene, data.ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, data.ob); } return OPERATOR_FINISHED; } void PARTICLE_OT_select_random(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Random"; ot->idname = "PARTICLE_OT_select_random"; ot->description = "Select a randomly distributed set of hair or points"; /* api callbacks */ ot->exec = select_random_exec; ot->poll = PE_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ WM_operator_properties_select_random(ot); ot->prop = RNA_def_enum(ot->srna, "type", select_random_type_items, RAN_HAIR, "Type", "Select either hair or points"); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Select Linked operator * \{ */ static int select_linked_exec(bContext *C, wmOperator *UNUSED(op)) { PEData data; PE_set_data(C, &data); data.select = true; foreach_selected_key(&data, select_keys); PE_update_selection(data.depsgraph, data.scene, data.ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, data.ob); return OPERATOR_FINISHED; } void PARTICLE_OT_select_linked(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Linked All"; ot->idname = "PARTICLE_OT_select_linked"; ot->description = "Select all keys linked to already selected ones"; /* api callbacks */ ot->exec = select_linked_exec; ot->poll = PE_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ } static int select_linked_pick_exec(bContext *C, wmOperator *op) { PEData data; int mval[2]; int location[2]; RNA_int_get_array(op->ptr, "location", location); mval[0] = location[0]; mval[1] = location[1]; PE_set_view3d_data(C, &data); data.mval = mval; data.rad = 75.0f; data.select = !RNA_boolean_get(op->ptr, "deselect"); for_mouse_hit_keys(&data, select_keys, PSEL_NEAREST); PE_update_selection(data.depsgraph, data.scene, data.ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, data.ob); PE_data_free(&data); return OPERATOR_FINISHED; } static int select_linked_pick_invoke(bContext *C, wmOperator *op, const wmEvent *event) { RNA_int_set_array(op->ptr, "location", event->mval); return select_linked_pick_exec(C, op); } void PARTICLE_OT_select_linked_pick(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Linked"; ot->idname = "PARTICLE_OT_select_linked_pick"; ot->description = "Select nearest particle from mouse pointer"; /* api callbacks */ ot->exec = select_linked_pick_exec; ot->invoke = select_linked_pick_invoke; ot->poll = PE_poll_view3d; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_boolean( ot->srna, "deselect", 0, "Deselect", "Deselect linked keys rather than selecting them"); RNA_def_int_vector(ot->srna, "location", 2, NULL, 0, INT_MAX, "Location", "", 0, 16384); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Box Select Operator * \{ */ bool PE_deselect_all_visible_ex(PTCacheEdit *edit) { bool changed = false; POINT_P; KEY_K; LOOP_VISIBLE_POINTS { LOOP_SELECTED_KEYS { if ((key->flag & PEK_SELECT) != 0) { key->flag &= ~PEK_SELECT; point->flag |= PEP_EDIT_RECALC; changed = true; } } } return changed; } bool PE_deselect_all_visible(bContext *C) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); if (!PE_start_edit(edit)) { return false; } return PE_deselect_all_visible_ex(edit); } bool PE_box_select(bContext *C, const rcti *rect, const int sel_op) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); PEData data; if (!PE_start_edit(edit)) { return false; } PE_set_view3d_data(C, &data); data.rect = rect; data.sel_op = sel_op; if (SEL_OP_USE_PRE_DESELECT(sel_op)) { data.is_changed = PE_deselect_all_visible_ex(edit); } if (BLI_rcti_is_empty(rect)) { /* pass */ } else { for_mouse_hit_keys(&data, select_key_op, PSEL_ALL_KEYS); } bool is_changed = data.is_changed; PE_data_free(&data); if (is_changed) { PE_update_selection(depsgraph, scene, ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, ob); } return is_changed; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Circle Select Operator * \{ */ static void pe_select_cache_free_generic_userdata(void *data) { PE_data_free(data); MEM_freeN(data); } static void pe_select_cache_init_with_generic_userdata(bContext *C, wmGenericUserData *wm_userdata) { struct PEData *data = MEM_callocN(sizeof(*data), __func__); wm_userdata->data = data; wm_userdata->free_fn = pe_select_cache_free_generic_userdata; wm_userdata->use_free = true; PE_set_view3d_data(C, data); } bool PE_circle_select( bContext *C, wmGenericUserData *wm_userdata, const int sel_op, const int mval[2], float rad) { BLI_assert(ELEM(sel_op, SEL_OP_SET, SEL_OP_ADD, SEL_OP_SUB)); Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); if (!PE_start_edit(edit)) { return false; } if (wm_userdata->data == NULL) { pe_select_cache_init_with_generic_userdata(C, wm_userdata); } PEData *data = wm_userdata->data; data->mval = mval; data->rad = rad; data->select = (sel_op != SEL_OP_SUB); if (SEL_OP_USE_PRE_DESELECT(sel_op)) { data->is_changed = PE_deselect_all_visible_ex(edit); } for_mouse_hit_keys(data, select_key, 0); if (data->is_changed) { PE_update_selection(depsgraph, scene, ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, ob); } return data->is_changed; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Lasso Select Operator * \{ */ int PE_lasso_select(bContext *C, const int mcoords[][2], const int mcoords_len, const int sel_op) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); ARegion *region = CTX_wm_region(C); ParticleEditSettings *pset = PE_settings(scene); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); POINT_P; KEY_K; float co[3], mat[4][4]; int screen_co[2]; PEData data; unit_m4(mat); if (!PE_start_edit(edit)) { return OPERATOR_CANCELLED; } /* only for depths */ PE_set_view3d_data(C, &data); if (SEL_OP_USE_PRE_DESELECT(sel_op)) { data.is_changed |= PE_deselect_all_visible_ex(edit); } ParticleSystem *psys = edit->psys; ParticleSystemModifierData *psmd_eval = edit->psmd_eval; LOOP_VISIBLE_POINTS { if (edit->psys && !(psys->flag & PSYS_GLOBAL_HAIR)) { psys_mat_hair_to_global( ob, psmd_eval->mesh_final, psys->part->from, psys->particles + p, mat); } if (pset->selectmode == SCE_SELECT_POINT) { LOOP_VISIBLE_KEYS { copy_v3_v3(co, key->co); mul_m4_v3(mat, co); const bool is_select = key->flag & PEK_SELECT; const bool is_inside = ((ED_view3d_project_int_global(region, co, screen_co, V3D_PROJ_TEST_CLIP_WIN) == V3D_PROJ_RET_OK) && BLI_lasso_is_point_inside( mcoords, mcoords_len, screen_co[0], screen_co[1], IS_CLIPPED) && key_test_depth(&data, co, screen_co)); const int sel_op_result = ED_select_op_action_deselected(sel_op, is_select, is_inside); if (sel_op_result != -1) { SET_FLAG_FROM_TEST(key->flag, sel_op_result, PEK_SELECT); point->flag |= PEP_EDIT_RECALC; data.is_changed = true; } } } else if (pset->selectmode == SCE_SELECT_END) { if (point->totkey) { key = point->keys + point->totkey - 1; copy_v3_v3(co, key->co); mul_m4_v3(mat, co); const bool is_select = key->flag & PEK_SELECT; const bool is_inside = ((ED_view3d_project_int_global(region, co, screen_co, V3D_PROJ_TEST_CLIP_WIN) == V3D_PROJ_RET_OK) && BLI_lasso_is_point_inside( mcoords, mcoords_len, screen_co[0], screen_co[1], IS_CLIPPED) && key_test_depth(&data, co, screen_co)); const int sel_op_result = ED_select_op_action_deselected(sel_op, is_select, is_inside); if (sel_op_result != -1) { SET_FLAG_FROM_TEST(key->flag, sel_op_result, PEK_SELECT); point->flag |= PEP_EDIT_RECALC; data.is_changed = true; } } } } bool is_changed = data.is_changed; PE_data_free(&data); if (is_changed) { PE_update_selection(depsgraph, scene, ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, ob); return OPERATOR_FINISHED; } return OPERATOR_CANCELLED; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Hide Operator * \{ */ static int hide_exec(bContext *C, wmOperator *op) { Object *ob = CTX_data_active_object(C); Scene *scene = CTX_data_scene(C); Depsgraph *depsgraph = CTX_data_ensure_evaluated_depsgraph(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); POINT_P; KEY_K; if (RNA_boolean_get(op->ptr, "unselected")) { LOOP_UNSELECTED_POINTS { point->flag |= PEP_HIDE; point->flag |= PEP_EDIT_RECALC; LOOP_KEYS { key->flag &= ~PEK_SELECT; } } } else { LOOP_SELECTED_POINTS { point->flag |= PEP_HIDE; point->flag |= PEP_EDIT_RECALC; LOOP_KEYS { key->flag &= ~PEK_SELECT; } } } PE_update_selection(depsgraph, scene, ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, ob); return OPERATOR_FINISHED; } void PARTICLE_OT_hide(wmOperatorType *ot) { /* identifiers */ ot->name = "Hide Selected"; ot->idname = "PARTICLE_OT_hide"; ot->description = "Hide selected particles"; /* api callbacks */ ot->exec = hide_exec; ot->poll = PE_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* props */ RNA_def_boolean(ot->srna, "unselected", 0, "Unselected", "Hide unselected rather than selected"); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Reveal Operator * \{ */ static int reveal_exec(bContext *C, wmOperator *op) { Object *ob = CTX_data_active_object(C); Scene *scene = CTX_data_scene(C); Depsgraph *depsgraph = CTX_data_ensure_evaluated_depsgraph(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); const bool select = RNA_boolean_get(op->ptr, "select"); POINT_P; KEY_K; LOOP_POINTS { if (point->flag & PEP_HIDE) { point->flag &= ~PEP_HIDE; point->flag |= PEP_EDIT_RECALC; LOOP_KEYS { SET_FLAG_FROM_TEST(key->flag, select, PEK_SELECT); } } } PE_update_selection(depsgraph, scene, ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, ob); return OPERATOR_FINISHED; } void PARTICLE_OT_reveal(wmOperatorType *ot) { /* identifiers */ ot->name = "Reveal"; ot->idname = "PARTICLE_OT_reveal"; ot->description = "Show hidden particles"; /* api callbacks */ ot->exec = reveal_exec; ot->poll = PE_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* props */ RNA_def_boolean(ot->srna, "select", true, "Select", ""); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Select Less Operator * \{ */ static void select_less_keys(PEData *data, int point_index) { PTCacheEdit *edit = data->edit; PTCacheEditPoint *point = edit->points + point_index; KEY_K; LOOP_SELECTED_KEYS { if (k == 0) { if (((key + 1)->flag & PEK_SELECT) == 0) { key->flag |= PEK_TAG; } } else if (k == point->totkey - 1) { if (((key - 1)->flag & PEK_SELECT) == 0) { key->flag |= PEK_TAG; } } else { if ((((key - 1)->flag & (key + 1)->flag) & PEK_SELECT) == 0) { key->flag |= PEK_TAG; } } } LOOP_KEYS { if ((key->flag & PEK_TAG) && (key->flag & PEK_SELECT)) { key->flag &= ~(PEK_TAG | PEK_SELECT); point->flag |= PEP_EDIT_RECALC; /* redraw selection only */ data->is_changed = true; } } } static int select_less_exec(bContext *C, wmOperator *UNUSED(op)) { PEData data; PE_set_data(C, &data); foreach_point(&data, select_less_keys); PE_update_selection(data.depsgraph, data.scene, data.ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, data.ob); return OPERATOR_FINISHED; } void PARTICLE_OT_select_less(wmOperatorType *ot) { /* identifiers */ ot->name = "Select Less"; ot->idname = "PARTICLE_OT_select_less"; ot->description = "Deselect boundary selected keys of each particle"; /* api callbacks */ ot->exec = select_less_exec; ot->poll = PE_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Select More Operator * \{ */ static void select_more_keys(PEData *data, int point_index) { PTCacheEdit *edit = data->edit; PTCacheEditPoint *point = edit->points + point_index; KEY_K; LOOP_KEYS { if (key->flag & PEK_SELECT) { continue; } if (k == 0) { if ((key + 1)->flag & PEK_SELECT) { key->flag |= PEK_TAG; } } else if (k == point->totkey - 1) { if ((key - 1)->flag & PEK_SELECT) { key->flag |= PEK_TAG; } } else { if (((key - 1)->flag | (key + 1)->flag) & PEK_SELECT) { key->flag |= PEK_TAG; } } } LOOP_KEYS { if ((key->flag & PEK_TAG) && (key->flag & PEK_SELECT) == 0) { key->flag &= ~PEK_TAG; key->flag |= PEK_SELECT; point->flag |= PEP_EDIT_RECALC; /* redraw selection only */ data->is_changed = true; } } } static int select_more_exec(bContext *C, wmOperator *UNUSED(op)) { PEData data; PE_set_data(C, &data); foreach_point(&data, select_more_keys); PE_update_selection(data.depsgraph, data.scene, data.ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_SELECTED, data.ob); return OPERATOR_FINISHED; } void PARTICLE_OT_select_more(wmOperatorType *ot) { /* identifiers */ ot->name = "Select More"; ot->idname = "PARTICLE_OT_select_more"; ot->description = "Select keys linked to boundary selected keys of each particle"; /* api callbacks */ ot->exec = select_more_exec; ot->poll = PE_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Re-Key Operator * \{ */ static void rekey_particle(PEData *data, int pa_index) { PTCacheEdit *edit = data->edit; ParticleSystem *psys = edit->psys; ParticleSimulationData sim = {0}; ParticleData *pa = psys->particles + pa_index; PTCacheEditPoint *point = edit->points + pa_index; ParticleKey state; HairKey *key, *new_keys, *okey; PTCacheEditKey *ekey; float dval, sta, end; int k; sim.depsgraph = data->depsgraph; sim.scene = data->scene; sim.ob = data->ob; sim.psys = edit->psys; pa->flag |= PARS_REKEY; key = new_keys = MEM_callocN(data->totrekey * sizeof(HairKey), "Hair re-key keys"); okey = pa->hair; /* root and tip stay the same */ copy_v3_v3(key->co, okey->co); copy_v3_v3((key + data->totrekey - 1)->co, (okey + pa->totkey - 1)->co); sta = key->time = okey->time; end = (key + data->totrekey - 1)->time = (okey + pa->totkey - 1)->time; dval = (end - sta) / (float)(data->totrekey - 1); /* interpolate new keys from old ones */ for (k = 1, key++; k < data->totrekey - 1; k++, key++) { state.time = (float)k / (float)(data->totrekey - 1); psys_get_particle_on_path(&sim, pa_index, &state, 0); copy_v3_v3(key->co, state.co); key->time = sta + k * dval; } /* replace keys */ if (pa->hair) { MEM_freeN(pa->hair); } pa->hair = new_keys; point->totkey = pa->totkey = data->totrekey; if (point->keys) { MEM_freeN(point->keys); } ekey = point->keys = MEM_callocN(pa->totkey * sizeof(PTCacheEditKey), "Hair re-key edit keys"); for (k = 0, key = pa->hair; k < pa->totkey; k++, key++, ekey++) { ekey->co = key->co; ekey->time = &key->time; ekey->flag |= PEK_SELECT; if (!(psys->flag & PSYS_GLOBAL_HAIR)) { ekey->flag |= PEK_USE_WCO; } } pa->flag &= ~PARS_REKEY; point->flag |= PEP_EDIT_RECALC; } static int rekey_exec(bContext *C, wmOperator *op) { PEData data; PE_set_data(C, &data); data.dval = 1.0f / (float)(data.totrekey - 1); data.totrekey = RNA_int_get(op->ptr, "keys_number"); foreach_selected_point(&data, rekey_particle); recalc_lengths(data.edit); PE_update_object(data.depsgraph, data.scene, data.ob, 1); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, data.ob); return OPERATOR_FINISHED; } void PARTICLE_OT_rekey(wmOperatorType *ot) { /* identifiers */ ot->name = "Rekey"; ot->idname = "PARTICLE_OT_rekey"; ot->description = "Change the number of keys of selected particles (root and tip keys included)"; /* api callbacks */ ot->exec = rekey_exec; ot->invoke = WM_operator_props_popup; ot->poll = PE_hair_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_int(ot->srna, "keys_number", 2, 2, INT_MAX, "Number of Keys", "", 2, 100); } static void rekey_particle_to_time( const bContext *C, Scene *scene, Object *ob, int pa_index, float path_time) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); ParticleSystem *psys; ParticleSimulationData sim = {0}; ParticleData *pa; ParticleKey state; HairKey *new_keys, *key; PTCacheEditKey *ekey; int k; if (!edit || !edit->psys) { return; } psys = edit->psys; sim.depsgraph = depsgraph; sim.scene = scene; sim.ob = ob; sim.psys = psys; pa = psys->particles + pa_index; pa->flag |= PARS_REKEY; key = new_keys = MEM_dupallocN(pa->hair); /* interpolate new keys from old ones (roots stay the same) */ for (k = 1, key++; k < pa->totkey; k++, key++) { state.time = path_time * (float)k / (float)(pa->totkey - 1); psys_get_particle_on_path(&sim, pa_index, &state, 0); copy_v3_v3(key->co, state.co); } /* replace hair keys */ if (pa->hair) { MEM_freeN(pa->hair); } pa->hair = new_keys; /* update edit pointers */ for (k = 0, key = pa->hair, ekey = edit->points[pa_index].keys; k < pa->totkey; k++, key++, ekey++) { ekey->co = key->co; ekey->time = &key->time; } pa->flag &= ~PARS_REKEY; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Internal Utilities * \{ */ static int remove_tagged_particles(Object *ob, ParticleSystem *psys, int mirror) { PTCacheEdit *edit = psys->edit; ParticleData *pa, *npa = 0, *new_pars = 0; POINT_P; PTCacheEditPoint *npoint = 0, *new_points = 0; ParticleSystemModifierData *psmd_eval; int i, new_totpart = psys->totpart, removed = 0; if (mirror) { /* mirror tags */ psmd_eval = edit->psmd_eval; LOOP_TAGGED_POINTS { PE_mirror_particle(ob, psmd_eval->mesh_final, psys, psys->particles + p, NULL); } } LOOP_TAGGED_POINTS { new_totpart--; removed++; } if (new_totpart != psys->totpart) { if (new_totpart) { npa = new_pars = MEM_callocN(new_totpart * sizeof(ParticleData), "ParticleData array"); npoint = new_points = MEM_callocN(new_totpart * sizeof(PTCacheEditPoint), "PTCacheEditKey array"); if (ELEM(NULL, new_pars, new_points)) { /* allocation error! */ if (new_pars) { MEM_freeN(new_pars); } if (new_points) { MEM_freeN(new_points); } return 0; } } pa = psys->particles; point = edit->points; for (i = 0; i < psys->totpart; i++, pa++, point++) { if (point->flag & PEP_TAG) { if (point->keys) { MEM_freeN(point->keys); } if (pa->hair) { MEM_freeN(pa->hair); } } else { memcpy(npa, pa, sizeof(ParticleData)); memcpy(npoint, point, sizeof(PTCacheEditPoint)); npa++; npoint++; } } if (psys->particles) { MEM_freeN(psys->particles); } psys->particles = new_pars; if (edit->points) { MEM_freeN(edit->points); } edit->points = new_points; MEM_SAFE_FREE(edit->mirror_cache); if (psys->child) { MEM_freeN(psys->child); psys->child = NULL; psys->totchild = 0; } edit->totpoint = psys->totpart = new_totpart; } return removed; } static void remove_tagged_keys(Depsgraph *depsgraph, Object *ob, ParticleSystem *psys) { PTCacheEdit *edit = psys->edit; ParticleData *pa; HairKey *hkey, *nhkey, *new_hkeys = 0; POINT_P; KEY_K; PTCacheEditKey *nkey, *new_keys; short new_totkey; if (pe_x_mirror(ob)) { /* mirror key tags */ ParticleSystemModifierData *psmd = psys_get_modifier(ob, psys); ParticleSystemModifierData *psmd_eval = (ParticleSystemModifierData *) BKE_modifier_get_evaluated(depsgraph, ob, &psmd->modifier); LOOP_POINTS { LOOP_TAGGED_KEYS { PE_mirror_particle(ob, psmd_eval->mesh_final, psys, psys->particles + p, NULL); break; } } } LOOP_POINTS { new_totkey = point->totkey; LOOP_TAGGED_KEYS { new_totkey--; } /* We can't have elements with less than two keys. */ if (new_totkey < 2) { point->flag |= PEP_TAG; } } remove_tagged_particles(ob, psys, pe_x_mirror(ob)); LOOP_POINTS { pa = psys->particles + p; new_totkey = pa->totkey; LOOP_TAGGED_KEYS { new_totkey--; } if (new_totkey != pa->totkey) { nhkey = new_hkeys = MEM_callocN(new_totkey * sizeof(HairKey), "HairKeys"); nkey = new_keys = MEM_callocN(new_totkey * sizeof(PTCacheEditKey), "particle edit keys"); hkey = pa->hair; LOOP_KEYS { while (key->flag & PEK_TAG && hkey < pa->hair + pa->totkey) { key++; hkey++; } if (hkey < pa->hair + pa->totkey) { copy_v3_v3(nhkey->co, hkey->co); nhkey->editflag = hkey->editflag; nhkey->time = hkey->time; nhkey->weight = hkey->weight; nkey->co = nhkey->co; nkey->time = &nhkey->time; /* these can be copied from old edit keys */ nkey->flag = key->flag; nkey->ftime = key->ftime; nkey->length = key->length; copy_v3_v3(nkey->world_co, key->world_co); } nkey++; nhkey++; hkey++; } if (pa->hair) { MEM_freeN(pa->hair); } if (point->keys) { MEM_freeN(point->keys); } pa->hair = new_hkeys; point->keys = new_keys; point->totkey = pa->totkey = new_totkey; /* flag for recalculating length */ point->flag |= PEP_EDIT_RECALC; } } } /** \} */ /* -------------------------------------------------------------------- */ /** \name Subdivide Operator * \{ */ /* works like normal edit mode subdivide, inserts keys between neighboring selected keys */ static void subdivide_particle(PEData *data, int pa_index) { PTCacheEdit *edit = data->edit; ParticleSystem *psys = edit->psys; ParticleSimulationData sim = {0}; ParticleData *pa = psys->particles + pa_index; PTCacheEditPoint *point = edit->points + pa_index; ParticleKey state; HairKey *key, *nkey, *new_keys; PTCacheEditKey *ekey, *nekey, *new_ekeys; int k; short totnewkey = 0; float endtime; sim.depsgraph = data->depsgraph; sim.scene = data->scene; sim.ob = data->ob; sim.psys = edit->psys; for (k = 0, ekey = point->keys; k < pa->totkey - 1; k++, ekey++) { if (ekey->flag & PEK_SELECT && (ekey + 1)->flag & PEK_SELECT) { totnewkey++; } } if (totnewkey == 0) { return; } pa->flag |= PARS_REKEY; nkey = new_keys = MEM_callocN((pa->totkey + totnewkey) * sizeof(HairKey), "Hair subdivide keys"); nekey = new_ekeys = MEM_callocN((pa->totkey + totnewkey) * sizeof(PTCacheEditKey), "Hair subdivide edit keys"); key = pa->hair; endtime = key[pa->totkey - 1].time; for (k = 0, ekey = point->keys; k < pa->totkey - 1; k++, key++, ekey++) { memcpy(nkey, key, sizeof(HairKey)); memcpy(nekey, ekey, sizeof(PTCacheEditKey)); nekey->co = nkey->co; nekey->time = &nkey->time; nkey++; nekey++; if (ekey->flag & PEK_SELECT && (ekey + 1)->flag & PEK_SELECT) { nkey->time = (key->time + (key + 1)->time) * 0.5f; state.time = (endtime != 0.0f) ? nkey->time / endtime : 0.0f; psys_get_particle_on_path(&sim, pa_index, &state, 0); copy_v3_v3(nkey->co, state.co); nekey->co = nkey->co; nekey->time = &nkey->time; nekey->flag |= PEK_SELECT; if (!(psys->flag & PSYS_GLOBAL_HAIR)) { nekey->flag |= PEK_USE_WCO; } nekey++; nkey++; } } /* Tip still not copied. */ memcpy(nkey, key, sizeof(HairKey)); memcpy(nekey, ekey, sizeof(PTCacheEditKey)); nekey->co = nkey->co; nekey->time = &nkey->time; if (pa->hair) { MEM_freeN(pa->hair); } pa->hair = new_keys; if (point->keys) { MEM_freeN(point->keys); } point->keys = new_ekeys; point->totkey = pa->totkey = pa->totkey + totnewkey; point->flag |= PEP_EDIT_RECALC; pa->flag &= ~PARS_REKEY; } static int subdivide_exec(bContext *C, wmOperator *UNUSED(op)) { PEData data; PE_set_data(C, &data); foreach_point(&data, subdivide_particle); recalc_lengths(data.edit); PE_update_selection(data.depsgraph, data.scene, data.ob, 1); PE_update_object(data.depsgraph, data.scene, data.ob, 1); DEG_id_tag_update(&data.ob->id, ID_RECALC_SELECT); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, data.ob); return OPERATOR_FINISHED; } void PARTICLE_OT_subdivide(wmOperatorType *ot) { /* identifiers */ ot->name = "Subdivide"; ot->idname = "PARTICLE_OT_subdivide"; ot->description = "Subdivide selected particles segments (adds keys)"; /* api callbacks */ ot->exec = subdivide_exec; ot->poll = PE_hair_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Remove Doubles Operator * \{ */ static int remove_doubles_exec(bContext *C, wmOperator *op) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); ParticleSystem *psys = edit->psys; ParticleSystemModifierData *psmd_eval; KDTree_3d *tree; KDTreeNearest_3d nearest[10]; POINT_P; float mat[4][4], co[3], threshold = RNA_float_get(op->ptr, "threshold"); int n, totn, removed, totremoved; if (psys->flag & PSYS_GLOBAL_HAIR) { return OPERATOR_CANCELLED; } edit = psys->edit; psmd_eval = edit->psmd_eval; totremoved = 0; do { removed = 0; tree = BLI_kdtree_3d_new(psys->totpart); /* insert particles into kd tree */ LOOP_SELECTED_POINTS { psys_mat_hair_to_object( ob, psmd_eval->mesh_final, psys->part->from, psys->particles + p, mat); copy_v3_v3(co, point->keys->co); mul_m4_v3(mat, co); BLI_kdtree_3d_insert(tree, p, co); } BLI_kdtree_3d_balance(tree); /* tag particles to be removed */ LOOP_SELECTED_POINTS { psys_mat_hair_to_object( ob, psmd_eval->mesh_final, psys->part->from, psys->particles + p, mat); copy_v3_v3(co, point->keys->co); mul_m4_v3(mat, co); totn = BLI_kdtree_3d_find_nearest_n(tree, co, nearest, 10); for (n = 0; n < totn; n++) { /* this needs a custom threshold still */ if (nearest[n].index > p && nearest[n].dist < threshold) { if (!(point->flag & PEP_TAG)) { point->flag |= PEP_TAG; removed++; } } } } BLI_kdtree_3d_free(tree); /* remove tagged particles - don't do mirror here! */ remove_tagged_particles(ob, psys, 0); totremoved += removed; } while (removed); if (totremoved == 0) { return OPERATOR_CANCELLED; } BKE_reportf(op->reports, RPT_INFO, "Removed %d double particle(s)", totremoved); DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, ob); return OPERATOR_FINISHED; } void PARTICLE_OT_remove_doubles(wmOperatorType *ot) { /* identifiers */ ot->name = "Remove Doubles"; ot->idname = "PARTICLE_OT_remove_doubles"; ot->description = "Remove selected particles close enough of others"; /* api callbacks */ ot->exec = remove_doubles_exec; ot->poll = PE_hair_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ RNA_def_float(ot->srna, "threshold", 0.0002f, 0.0f, FLT_MAX, "Merge Distance", "Threshold distance within which particles are removed", 0.00001f, 0.1f); } static int weight_set_exec(bContext *C, wmOperator *op) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); ParticleEditSettings *pset = PE_settings(scene); Object *ob = CTX_data_active_object(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); ParticleSystem *psys = edit->psys; POINT_P; KEY_K; HairKey *hkey; float weight; ParticleBrushData *brush = &pset->brush[pset->brushtype]; float factor = RNA_float_get(op->ptr, "factor"); weight = brush->strength; edit = psys->edit; LOOP_SELECTED_POINTS { ParticleData *pa = psys->particles + p; LOOP_SELECTED_KEYS { hkey = pa->hair + k; hkey->weight = interpf(weight, hkey->weight, factor); } } DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, ob); return OPERATOR_FINISHED; } void PARTICLE_OT_weight_set(wmOperatorType *ot) { /* identifiers */ ot->name = "Weight Set"; ot->idname = "PARTICLE_OT_weight_set"; ot->description = "Set the weight of selected keys"; /* api callbacks */ ot->exec = weight_set_exec; ot->poll = PE_hair_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; RNA_def_float(ot->srna, "factor", 1, 0, 1, "Factor", "Interpolation factor between current brush weight, and keys' weights", 0, 1); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Cursor Drawing * \{ */ static void brush_drawcursor(bContext *C, int x, int y, void *UNUSED(customdata)) { Scene *scene = CTX_data_scene(C); ParticleEditSettings *pset = PE_settings(scene); ParticleBrushData *brush; if (!WM_toolsystem_active_tool_is_brush(C)) { return; } brush = &pset->brush[pset->brushtype]; if (brush) { uint pos = GPU_vertformat_attr_add(immVertexFormat(), "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT); immBindBuiltinProgram(GPU_SHADER_3D_UNIFORM_COLOR); immUniformColor4ub(255, 255, 255, 128); GPU_line_smooth(true); GPU_blend(GPU_BLEND_ALPHA); imm_draw_circle_wire_2d(pos, (float)x, (float)y, pe_brush_size_get(scene, brush), 40); GPU_blend(GPU_BLEND_NONE); GPU_line_smooth(false); immUnbindProgram(); } } static void toggle_particle_cursor(Scene *scene, bool enable) { ParticleEditSettings *pset = PE_settings(scene); if (pset->paintcursor && !enable) { WM_paint_cursor_end(pset->paintcursor); pset->paintcursor = NULL; } else if (enable) { pset->paintcursor = WM_paint_cursor_activate( SPACE_VIEW3D, RGN_TYPE_WINDOW, PE_poll_view3d, brush_drawcursor, NULL); } } /** \} */ /* -------------------------------------------------------------------- */ /** \name Delete Operator * \{ */ enum { DEL_PARTICLE, DEL_KEY }; static const EnumPropertyItem delete_type_items[] = { {DEL_PARTICLE, "PARTICLE", 0, "Particle", ""}, {DEL_KEY, "KEY", 0, "Key", ""}, {0, NULL, 0, NULL, NULL}, }; static void set_delete_particle(PEData *data, int pa_index) { PTCacheEdit *edit = data->edit; edit->points[pa_index].flag |= PEP_TAG; } static void set_delete_particle_key(PEData *data, int pa_index, int key_index, bool UNUSED(is_inside)) { PTCacheEdit *edit = data->edit; edit->points[pa_index].keys[key_index].flag |= PEK_TAG; } static int delete_exec(bContext *C, wmOperator *op) { PEData data; int type = RNA_enum_get(op->ptr, "type"); PE_set_data(C, &data); if (type == DEL_KEY) { foreach_selected_key(&data, set_delete_particle_key); remove_tagged_keys(data.depsgraph, data.ob, data.edit->psys); recalc_lengths(data.edit); } else if (type == DEL_PARTICLE) { foreach_selected_point(&data, set_delete_particle); remove_tagged_particles(data.ob, data.edit->psys, pe_x_mirror(data.ob)); recalc_lengths(data.edit); } DEG_id_tag_update(&data.ob->id, ID_RECALC_GEOMETRY); BKE_particle_batch_cache_dirty_tag(data.edit->psys, BKE_PARTICLE_BATCH_DIRTY_ALL); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, data.ob); return OPERATOR_FINISHED; } void PARTICLE_OT_delete(wmOperatorType *ot) { /* identifiers */ ot->name = "Delete"; ot->idname = "PARTICLE_OT_delete"; ot->description = "Delete selected particles or keys"; /* api callbacks */ ot->exec = delete_exec; ot->invoke = WM_menu_invoke; ot->poll = PE_hair_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ ot->prop = RNA_def_enum(ot->srna, "type", delete_type_items, DEL_PARTICLE, "Type", "Delete a full particle or only keys"); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Mirror Operator * \{ */ static void PE_mirror_x(Depsgraph *depsgraph, Scene *scene, Object *ob, int tagged) { Mesh *me = (Mesh *)(ob->data); ParticleSystemModifierData *psmd_eval; PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); ParticleSystem *psys = edit->psys; ParticleData *pa, *newpa, *new_pars; PTCacheEditPoint *newpoint, *new_points; POINT_P; KEY_K; HairKey *hkey; int *mirrorfaces = NULL; int rotation, totpart, newtotpart; if (psys->flag & PSYS_GLOBAL_HAIR) { return; } psmd_eval = edit->psmd_eval; if (!psmd_eval->mesh_final) { return; } const bool use_dm_final_indices = (psys->part->use_modifier_stack && !BKE_mesh_is_deformed_only(psmd_eval->mesh_final)); /* NOTE: this is not nice to use tessfaces but hard to avoid since pa->num uses tessfaces */ BKE_mesh_tessface_ensure(me); /* NOTE: In case psys uses Mesh tessface indices, we mirror final Mesh itself, not orig mesh. * Avoids an (impossible) mesh -> orig -> mesh tessface indices conversion. */ mirrorfaces = mesh_get_x_mirror_faces( ob, NULL, use_dm_final_indices ? psmd_eval->mesh_final : NULL); if (!edit->mirror_cache) { PE_update_mirror_cache(ob, psys); } totpart = psys->totpart; newtotpart = psys->totpart; LOOP_VISIBLE_POINTS { pa = psys->particles + p; if (!tagged) { if (point_is_selected(point)) { if (edit->mirror_cache[p] != -1) { /* already has a mirror, don't need to duplicate */ PE_mirror_particle(ob, psmd_eval->mesh_final, psys, pa, NULL); continue; } point->flag |= PEP_TAG; } } if ((point->flag & PEP_TAG) && mirrorfaces[pa->num * 2] != -1) { newtotpart++; } } if (newtotpart != psys->totpart) { MFace *mtessface = use_dm_final_indices ? (MFace *)CustomData_get_layer(&psmd_eval->mesh_final->fdata, CD_MFACE) : (MFace *)CustomData_get_layer(&me->fdata, CD_MFACE); /* allocate new arrays and copy existing */ new_pars = MEM_callocN(newtotpart * sizeof(ParticleData), "ParticleData new"); new_points = MEM_callocN(newtotpart * sizeof(PTCacheEditPoint), "PTCacheEditPoint new"); if (psys->particles) { memcpy(new_pars, psys->particles, totpart * sizeof(ParticleData)); MEM_freeN(psys->particles); } psys->particles = new_pars; if (edit->points) { memcpy(new_points, edit->points, totpart * sizeof(PTCacheEditPoint)); MEM_freeN(edit->points); } edit->points = new_points; MEM_SAFE_FREE(edit->mirror_cache); edit->totpoint = psys->totpart = newtotpart; /* create new elements */ newpa = psys->particles + totpart; newpoint = edit->points + totpart; for (p = 0, point = edit->points; p < totpart; p++, point++) { pa = psys->particles + p; const int pa_num = pa->num; if (point->flag & PEP_HIDE) { continue; } if (!(point->flag & PEP_TAG) || mirrorfaces[pa_num * 2] == -1) { continue; } /* duplicate */ *newpa = *pa; *newpoint = *point; if (pa->hair) { newpa->hair = MEM_dupallocN(pa->hair); } if (point->keys) { newpoint->keys = MEM_dupallocN(point->keys); } /* rotate weights according to vertex index rotation */ rotation = mirrorfaces[pa_num * 2 + 1]; newpa->fuv[0] = pa->fuv[2]; newpa->fuv[1] = pa->fuv[1]; newpa->fuv[2] = pa->fuv[0]; newpa->fuv[3] = pa->fuv[3]; while (rotation--) { if (mtessface[pa_num].v4) { SHIFT4(float, newpa->fuv[0], newpa->fuv[1], newpa->fuv[2], newpa->fuv[3]); } else { SHIFT3(float, newpa->fuv[0], newpa->fuv[1], newpa->fuv[2]); } } /* assign face index */ /* NOTE: mesh_get_x_mirror_faces generates -1 for non-found mirror, * same as DMCACHE_NOTFOUND. */ newpa->num = mirrorfaces[pa_num * 2]; if (use_dm_final_indices) { newpa->num_dmcache = DMCACHE_ISCHILD; } else { newpa->num_dmcache = psys_particle_dm_face_lookup( psmd_eval->mesh_final, psmd_eval->mesh_original, newpa->num, newpa->fuv, NULL); } /* update edit key pointers */ key = newpoint->keys; for (k = 0, hkey = newpa->hair; k < newpa->totkey; k++, hkey++, key++) { key->co = hkey->co; key->time = &hkey->time; } /* map key positions as mirror over x axis */ PE_mirror_particle(ob, psmd_eval->mesh_final, psys, pa, newpa); newpa++; newpoint++; } } LOOP_POINTS { point->flag &= ~PEP_TAG; } MEM_freeN(mirrorfaces); } static int mirror_exec(bContext *C, wmOperator *UNUSED(op)) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); PE_mirror_x(depsgraph, scene, ob, 0); update_world_cos(ob, edit); psys_free_path_cache(NULL, edit); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, ob); BKE_particle_batch_cache_dirty_tag(edit->psys, BKE_PARTICLE_BATCH_DIRTY_ALL); DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY); return OPERATOR_FINISHED; } static bool mirror_poll(bContext *C) { if (!PE_hair_poll(C)) { return false; } Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); /* The operator only works for hairs emitted from faces. */ return edit->psys->part->from == PART_FROM_FACE; } void PARTICLE_OT_mirror(wmOperatorType *ot) { /* identifiers */ ot->name = "Mirror"; ot->idname = "PARTICLE_OT_mirror"; ot->description = "Duplicate and mirror the selected particles along the local X axis"; /* api callbacks */ ot->exec = mirror_exec; ot->poll = mirror_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Brush Edit Callbacks * \{ */ static void brush_comb(PEData *data, float UNUSED(mat[4][4]), float imat[4][4], int point_index, int key_index, PTCacheEditKey *key, float mouse_distance) { ParticleEditSettings *pset = PE_settings(data->scene); float cvec[3], fac; if (pset->flag & PE_LOCK_FIRST && key_index == 0) { return; } fac = (float)pow((double)(1.0f - mouse_distance / data->rad), (double)data->combfac); copy_v3_v3(cvec, data->dvec); mul_mat3_m4_v3(imat, cvec); mul_v3_fl(cvec, fac); add_v3_v3(key->co, cvec); (data->edit->points + point_index)->flag |= PEP_EDIT_RECALC; } static void brush_cut(PEData *data, int pa_index) { PTCacheEdit *edit = data->edit; ARegion *region = data->vc.region; Object *ob = data->ob; ParticleEditSettings *pset = PE_settings(data->scene); ParticleCacheKey *key = edit->pathcache[pa_index]; float rad2, cut_time = 1.0; float x0, x1, v0, v1, o0, o1, xo0, xo1, d, dv; int k, cut, keys = (int)pow(2.0, (double)pset->draw_step); int screen_co[2]; BLI_assert(data->rng != NULL); /* blunt scissors */ if (BLI_rng_get_float(data->rng) > data->cutfac) { return; } /* don't cut hidden */ if (edit->points[pa_index].flag & PEP_HIDE) { return; } if (ED_view3d_project_int_global(region, key->co, screen_co, V3D_PROJ_TEST_CLIP_NEAR) != V3D_PROJ_RET_OK) { return; } rad2 = data->rad * data->rad; cut = 0; x0 = (float)screen_co[0]; x1 = (float)screen_co[1]; o0 = (float)data->mval[0]; o1 = (float)data->mval[1]; xo0 = x0 - o0; xo1 = x1 - o1; /* check if root is inside circle */ if (xo0 * xo0 + xo1 * xo1 < rad2 && key_test_depth(data, key->co, screen_co)) { cut_time = -1.0f; cut = 1; } else { /* calculate path time closest to root that was inside the circle */ for (k = 1, key++; k <= keys; k++, key++) { if ((ED_view3d_project_int_global(region, key->co, screen_co, V3D_PROJ_TEST_CLIP_NEAR) != V3D_PROJ_RET_OK) || key_test_depth(data, key->co, screen_co) == 0) { x0 = (float)screen_co[0]; x1 = (float)screen_co[1]; xo0 = x0 - o0; xo1 = x1 - o1; continue; } v0 = (float)screen_co[0] - x0; v1 = (float)screen_co[1] - x1; dv = v0 * v0 + v1 * v1; d = (v0 * xo1 - v1 * xo0); d = dv * rad2 - d * d; if (d > 0.0f) { d = sqrtf(d); cut_time = -(v0 * xo0 + v1 * xo1 + d); if (cut_time > 0.0f) { cut_time /= dv; if (cut_time < 1.0f) { cut_time += (float)(k - 1); cut_time /= (float)keys; cut = 1; break; } } } x0 = (float)screen_co[0]; x1 = (float)screen_co[1]; xo0 = x0 - o0; xo1 = x1 - o1; } } if (cut) { if (cut_time < 0.0f) { edit->points[pa_index].flag |= PEP_TAG; } else { rekey_particle_to_time(data->context, data->scene, ob, pa_index, cut_time); edit->points[pa_index].flag |= PEP_EDIT_RECALC; } } } static void brush_length(PEData *data, int point_index, float UNUSED(mouse_distance)) { PTCacheEdit *edit = data->edit; PTCacheEditPoint *point = edit->points + point_index; KEY_K; float dvec[3], pvec[3] = {0.0f, 0.0f, 0.0f}; LOOP_KEYS { if (k == 0) { copy_v3_v3(pvec, key->co); } else { sub_v3_v3v3(dvec, key->co, pvec); copy_v3_v3(pvec, key->co); mul_v3_fl(dvec, data->growfac); add_v3_v3v3(key->co, (key - 1)->co, dvec); } } point->flag |= PEP_EDIT_RECALC; } static void brush_puff(PEData *data, int point_index, float mouse_distance) { PTCacheEdit *edit = data->edit; ParticleSystem *psys = edit->psys; PTCacheEditPoint *point = edit->points + point_index; KEY_K; float mat[4][4], imat[4][4]; float onor_prev[3]; /* previous normal (particle-space) */ float ofs_prev[3]; /* accumulate offset for puff_volume (particle-space) */ float co_root[3], no_root[3]; /* root location and normal (global-space) */ float co_prev[3], co[3]; /* track key coords as we loop (global-space) */ float fac = 0.0f, length_accum = 0.0f; bool puff_volume = false; bool changed = false; zero_v3(ofs_prev); { ParticleEditSettings *pset = PE_settings(data->scene); ParticleBrushData *brush = &pset->brush[pset->brushtype]; puff_volume = (brush->flag & PE_BRUSH_DATA_PUFF_VOLUME) != 0; } if (psys && !(psys->flag & PSYS_GLOBAL_HAIR)) { psys_mat_hair_to_global( data->ob, data->mesh, psys->part->from, psys->particles + point_index, mat); invert_m4_m4(imat, mat); } else { unit_m4(mat); unit_m4(imat); } LOOP_KEYS { float kco[3]; if (k == 0) { /* find root coordinate and normal on emitter */ copy_v3_v3(co, key->co); mul_m4_v3(mat, co); /* Use `kco` as the object space version of world-space `co`, * `ob->world_to_object` is set before calling. */ mul_v3_m4v3(kco, data->ob->world_to_object, co); point_index = BLI_kdtree_3d_find_nearest(edit->emitter_field, kco, NULL); if (point_index == -1) { return; } copy_v3_v3(co_root, co); copy_v3_v3(no_root, &edit->emitter_cosnos[point_index * 6 + 3]); mul_mat3_m4_v3(data->ob->object_to_world, no_root); /* normal into global-space */ normalize_v3(no_root); if (puff_volume) { copy_v3_v3(onor_prev, no_root); mul_mat3_m4_v3(imat, onor_prev); /* global-space into particle space */ normalize_v3(onor_prev); } fac = (float)pow((double)(1.0f - mouse_distance / data->rad), (double)data->pufffac); fac *= 0.025f; if (data->invert) { fac = -fac; } } else { /* Compute position as if hair was standing up straight. */ float length; copy_v3_v3(co_prev, co); copy_v3_v3(co, key->co); mul_m4_v3(mat, co); length = len_v3v3(co_prev, co); length_accum += length; if ((data->select == 0 || (key->flag & PEK_SELECT)) && !(key->flag & PEK_HIDE)) { float dco[3]; /* delta temp var */ madd_v3_v3v3fl(kco, co_root, no_root, length_accum); /* blend between the current and straight position */ sub_v3_v3v3(dco, kco, co); madd_v3_v3fl(co, dco, fac); /* keep the same distance from the root or we get glitches T35406. */ dist_ensure_v3_v3fl(co, co_root, length_accum); /* Re-use dco to compare before and after translation and add to the offset. */ copy_v3_v3(dco, key->co); mul_v3_m4v3(key->co, imat, co); if (puff_volume) { /* accumulate the total distance moved to apply to unselected * keys that come after */ sub_v3_v3v3(ofs_prev, key->co, dco); } changed = true; } else { if (puff_volume) { #if 0 /* this is simple but looks bad, adds annoying kinks */ add_v3_v3(key->co, ofs); #else /* Translate (not rotate) the rest of the hair if its not selected. */ { /* NOLINTNEXTLINE: readability-redundant-preprocessor */ # if 0 /* Kind of works but looks worse than what's below. */ /* Move the unselected point on a vector based on the * hair direction and the offset */ float c1[3], c2[3]; sub_v3_v3v3(dco, lastco, co); mul_mat3_m4_v3(imat, dco); /* into particle space */ /* move the point along a vector perpendicular to the * hairs direction, reduces odd kinks, */ cross_v3_v3v3(c1, ofs, dco); cross_v3_v3v3(c2, c1, dco); normalize_v3(c2); mul_v3_fl(c2, len_v3(ofs)); add_v3_v3(key->co, c2); # else /* Move the unselected point on a vector based on the * the normal of the closest geometry */ float oco[3], onor[3]; copy_v3_v3(oco, key->co); mul_m4_v3(mat, oco); /* Use `kco` as the object space version of world-space `co`, * `ob->world_to_object` is set before calling. */ mul_v3_m4v3(kco, data->ob->world_to_object, oco); point_index = BLI_kdtree_3d_find_nearest(edit->emitter_field, kco, NULL); if (point_index != -1) { copy_v3_v3(onor, &edit->emitter_cosnos[point_index * 6 + 3]); mul_mat3_m4_v3(data->ob->object_to_world, onor); /* Normal into world-space. */ mul_mat3_m4_v3(imat, onor); /* World-space into particle-space. */ normalize_v3(onor); } else { copy_v3_v3(onor, onor_prev); } if (!is_zero_v3(ofs_prev)) { mul_v3_fl(onor, len_v3(ofs_prev)); add_v3_v3(key->co, onor); } copy_v3_v3(onor_prev, onor); # endif } #endif } } } } if (changed) { point->flag |= PEP_EDIT_RECALC; } } static void BKE_brush_weight_get(PEData *data, float UNUSED(mat[4][4]), float UNUSED(imat[4][4]), int point_index, int key_index, PTCacheEditKey *UNUSED(key), float UNUSED(mouse_distance)) { /* roots have full weight always */ if (key_index) { PTCacheEdit *edit = data->edit; ParticleSystem *psys = edit->psys; ParticleData *pa = psys->particles + point_index; pa->hair[key_index].weight = data->weightfac; (data->edit->points + point_index)->flag |= PEP_EDIT_RECALC; } } static void brush_smooth_get(PEData *data, float mat[4][4], float UNUSED(imat[4][4]), int UNUSED(point_index), int key_index, PTCacheEditKey *key, float UNUSED(mouse_distance)) { if (key_index) { float dvec[3]; sub_v3_v3v3(dvec, key->co, (key - 1)->co); mul_mat3_m4_v3(mat, dvec); add_v3_v3(data->vec, dvec); data->tot++; } } static void brush_smooth_do(PEData *data, float UNUSED(mat[4][4]), float imat[4][4], int point_index, int key_index, PTCacheEditKey *key, float UNUSED(mouse_distance)) { float vec[3], dvec[3]; if (key_index) { copy_v3_v3(vec, data->vec); mul_mat3_m4_v3(imat, vec); sub_v3_v3v3(dvec, key->co, (key - 1)->co); sub_v3_v3v3(dvec, vec, dvec); mul_v3_fl(dvec, data->smoothfac); add_v3_v3(key->co, dvec); } (data->edit->points + point_index)->flag |= PEP_EDIT_RECALC; } /* convert from triangle barycentric weights to quad mean value weights */ static void intersect_dm_quad_weights( const float v1[3], const float v2[3], const float v3[3], const float v4[3], float w[4]) { float co[3], vert[4][3]; copy_v3_v3(vert[0], v1); copy_v3_v3(vert[1], v2); copy_v3_v3(vert[2], v3); copy_v3_v3(vert[3], v4); co[0] = v1[0] * w[0] + v2[0] * w[1] + v3[0] * w[2] + v4[0] * w[3]; co[1] = v1[1] * w[0] + v2[1] * w[1] + v3[1] * w[2] + v4[1] * w[3]; co[2] = v1[2] * w[0] + v2[2] * w[1] + v3[2] * w[2] + v4[2] * w[3]; interp_weights_poly_v3(w, vert, 4, co); } /** Check intersection with an evaluated mesh. */ static int particle_intersect_mesh(Depsgraph *depsgraph, Scene *UNUSED(scene), Object *ob, Mesh *mesh, float *vert_cos, const float co1[3], const float co2[3], float *min_d, int *min_face, float *min_w, float *face_minmax, float *pa_minmax, float radius, float *ipoint) { MFace *mface = NULL; int i, totface, intersect = 0; float cur_d, cur_uv[2], v1[3], v2[3], v3[3], v4[3], min[3], max[3], p_min[3], p_max[3]; float cur_ipoint[3]; if (mesh == NULL) { psys_disable_all(ob); Scene *scene_eval = DEG_get_evaluated_scene(depsgraph); Object *ob_eval = DEG_get_evaluated_object(depsgraph, ob); mesh = mesh_get_eval_final(depsgraph, scene_eval, ob_eval, &CD_MASK_BAREMESH); if (mesh == NULL) { mesh = mesh_get_eval_deform(depsgraph, scene_eval, ob_eval, &CD_MASK_BAREMESH); } psys_enable_all(ob); if (mesh == NULL) { return 0; } } /* BMESH_ONLY, deform dm may not have tessface */ BKE_mesh_tessface_ensure(mesh); if (pa_minmax == 0) { INIT_MINMAX(p_min, p_max); minmax_v3v3_v3(p_min, p_max, co1); minmax_v3v3_v3(p_min, p_max, co2); } else { copy_v3_v3(p_min, pa_minmax); copy_v3_v3(p_max, pa_minmax + 3); } totface = mesh->totface; mface = (MFace *)CustomData_get_layer(&mesh->fdata, CD_MFACE); float(*positions)[3] = BKE_mesh_positions_for_write(mesh); /* lets intersect the faces */ for (i = 0; i < totface; i++, mface++) { if (vert_cos) { copy_v3_v3(v1, vert_cos + 3 * mface->v1); copy_v3_v3(v2, vert_cos + 3 * mface->v2); copy_v3_v3(v3, vert_cos + 3 * mface->v3); if (mface->v4) { copy_v3_v3(v4, vert_cos + 3 * mface->v4); } } else { copy_v3_v3(v1, positions[mface->v1]); copy_v3_v3(v2, positions[mface->v2]); copy_v3_v3(v3, positions[mface->v3]); if (mface->v4) { copy_v3_v3(v4, positions[mface->v4]); } } if (face_minmax == 0) { INIT_MINMAX(min, max); DO_MINMAX(v1, min, max); DO_MINMAX(v2, min, max); DO_MINMAX(v3, min, max); if (mface->v4) { DO_MINMAX(v4, min, max); } if (isect_aabb_aabb_v3(min, max, p_min, p_max) == 0) { continue; } } else { copy_v3_v3(min, face_minmax + 6 * i); copy_v3_v3(max, face_minmax + 6 * i + 3); if (isect_aabb_aabb_v3(min, max, p_min, p_max) == 0) { continue; } } if (radius > 0.0f) { if (isect_sweeping_sphere_tri_v3(co1, co2, radius, v2, v3, v1, &cur_d, cur_ipoint)) { if (cur_d < *min_d) { *min_d = cur_d; copy_v3_v3(ipoint, cur_ipoint); *min_face = i; intersect = 1; } } if (mface->v4) { if (isect_sweeping_sphere_tri_v3(co1, co2, radius, v4, v1, v3, &cur_d, cur_ipoint)) { if (cur_d < *min_d) { *min_d = cur_d; copy_v3_v3(ipoint, cur_ipoint); *min_face = i; intersect = 1; } } } } else { if (isect_line_segment_tri_v3(co1, co2, v1, v2, v3, &cur_d, cur_uv)) { if (cur_d < *min_d) { *min_d = cur_d; min_w[0] = 1.0f - cur_uv[0] - cur_uv[1]; min_w[1] = cur_uv[0]; min_w[2] = cur_uv[1]; min_w[3] = 0.0f; if (mface->v4) { intersect_dm_quad_weights(v1, v2, v3, v4, min_w); } *min_face = i; intersect = 1; } } if (mface->v4) { if (isect_line_segment_tri_v3(co1, co2, v1, v3, v4, &cur_d, cur_uv)) { if (cur_d < *min_d) { *min_d = cur_d; min_w[0] = 1.0f - cur_uv[0] - cur_uv[1]; min_w[1] = 0.0f; min_w[2] = cur_uv[0]; min_w[3] = cur_uv[1]; intersect_dm_quad_weights(v1, v2, v3, v4, min_w); *min_face = i; intersect = 1; } } } } } return intersect; } typedef struct BrushAddCountIterData { Depsgraph *depsgraph; Scene *scene; Object *object; Mesh *mesh; PEData *data; int number; short size; float imat[4][4]; ParticleData *add_pars; } BrushAddCountIterData; typedef struct BrushAddCountIterTLSData { RNG *rng; int num_added; } BrushAddCountIterTLSData; static void brush_add_count_iter(void *__restrict iter_data_v, const int iter, const TaskParallelTLS *__restrict tls_v) { BrushAddCountIterData *iter_data = (BrushAddCountIterData *)iter_data_v; Depsgraph *depsgraph = iter_data->depsgraph; PEData *data = iter_data->data; PTCacheEdit *edit = data->edit; ParticleSystem *psys = edit->psys; ParticleSystemModifierData *psmd_eval = edit->psmd_eval; ParticleData *add_pars = iter_data->add_pars; BrushAddCountIterTLSData *tls = tls_v->userdata_chunk; const int number = iter_data->number; const short size = iter_data->size; const int size2 = size * size; float dmx, dmy; if (number > 1) { dmx = size; dmy = size; if (tls->rng == NULL) { tls->rng = BLI_rng_new_srandom(psys->seed + data->mval[0] + data->mval[1] + BLI_task_parallel_thread_id(tls_v)); } /* rejection sampling to get points in circle */ while (dmx * dmx + dmy * dmy > size2) { dmx = (2.0f * BLI_rng_get_float(tls->rng) - 1.0f) * size; dmy = (2.0f * BLI_rng_get_float(tls->rng) - 1.0f) * size; } } else { dmx = 0.0f; dmy = 0.0f; } float mco[2]; mco[0] = data->mval[0] + dmx; mco[1] = data->mval[1] + dmy; float co1[3], co2[3]; ED_view3d_win_to_segment_clipped(depsgraph, data->vc.region, data->vc.v3d, mco, co1, co2, true); mul_m4_v3(iter_data->imat, co1); mul_m4_v3(iter_data->imat, co2); float min_d = 2.0; /* warning, returns the derived mesh face */ BLI_assert(iter_data->mesh != NULL); if (particle_intersect_mesh(depsgraph, iter_data->scene, iter_data->object, iter_data->mesh, 0, co1, co2, &min_d, &add_pars[iter].num_dmcache, add_pars[iter].fuv, 0, 0, 0, 0)) { if (psys->part->use_modifier_stack && !BKE_mesh_is_deformed_only(psmd_eval->mesh_final)) { add_pars[iter].num = add_pars[iter].num_dmcache; add_pars[iter].num_dmcache = DMCACHE_ISCHILD; } else if (iter_data->mesh == psmd_eval->mesh_original) { /* Final DM is not same topology as orig mesh, * we have to map num_dmcache to real final dm. */ add_pars[iter].num = add_pars[iter].num_dmcache; add_pars[iter].num_dmcache = psys_particle_dm_face_lookup(psmd_eval->mesh_final, psmd_eval->mesh_original, add_pars[iter].num, add_pars[iter].fuv, NULL); } else { add_pars[iter].num = add_pars[iter].num_dmcache; } if (add_pars[iter].num != DMCACHE_NOTFOUND) { tls->num_added++; } } } static void brush_add_count_iter_reduce(const void *__restrict UNUSED(userdata), void *__restrict join_v, void *__restrict chunk_v) { BrushAddCountIterTLSData *join = (BrushAddCountIterTLSData *)join_v; BrushAddCountIterTLSData *tls = (BrushAddCountIterTLSData *)chunk_v; join->num_added += tls->num_added; } static void brush_add_count_iter_free(const void *__restrict UNUSED(userdata_v), void *__restrict chunk_v) { BrushAddCountIterTLSData *tls = (BrushAddCountIterTLSData *)chunk_v; if (tls->rng != NULL) { BLI_rng_free(tls->rng); } } static int brush_add(const bContext *C, PEData *data, short number) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = data->scene; Object *ob = data->ob; Mesh *mesh; PTCacheEdit *edit = data->edit; ParticleSystem *psys = edit->psys; ParticleData *add_pars; ParticleSystemModifierData *psmd_eval = edit->psmd_eval; ParticleSimulationData sim = {0}; ParticleEditSettings *pset = PE_settings(scene); int i, k, n = 0, totpart = psys->totpart; float co1[3], imat[4][4]; float framestep, timestep; short size = pset->brush[PE_BRUSH_ADD].size; RNG *rng; invert_m4_m4(imat, ob->object_to_world); if (psys->flag & PSYS_GLOBAL_HAIR) { return 0; } add_pars = MEM_callocN(number * sizeof(ParticleData), "ParticleData add"); rng = BLI_rng_new_srandom(psys->seed + data->mval[0] + data->mval[1]); sim.depsgraph = depsgraph; sim.scene = scene; sim.ob = ob; sim.psys = psys; sim.psmd = psmd_eval; timestep = psys_get_timestep(&sim); if (psys->part->use_modifier_stack || BKE_mesh_is_deformed_only(psmd_eval->mesh_final)) { mesh = psmd_eval->mesh_final; } else { mesh = psmd_eval->mesh_original; } BLI_assert(mesh); /* Calculate positions of new particles to add, based on brush intersection * with object. New particle data is assigned to a corresponding to check * index element of add_pars array. This means, that add_pars is a sparse * array. */ BrushAddCountIterData iter_data; iter_data.depsgraph = depsgraph; iter_data.scene = scene; iter_data.object = ob; iter_data.mesh = mesh; iter_data.data = data; iter_data.number = number; iter_data.size = size; iter_data.add_pars = add_pars; copy_m4_m4(iter_data.imat, imat); BrushAddCountIterTLSData tls = {NULL}; TaskParallelSettings settings; BLI_parallel_range_settings_defaults(&settings); settings.userdata_chunk = &tls; settings.userdata_chunk_size = sizeof(BrushAddCountIterTLSData); settings.func_reduce = brush_add_count_iter_reduce; settings.func_free = brush_add_count_iter_free; BLI_task_parallel_range(0, number, &iter_data, brush_add_count_iter, &settings); /* Convert add_parse to a dense array, where all new particles are in the * beginning of the array. */ n = tls.num_added; for (int current_iter = 0, new_index = 0; current_iter < number; current_iter++) { if (add_pars[current_iter].num == DMCACHE_NOTFOUND) { continue; } if (new_index != current_iter) { new_index++; continue; } memcpy(add_pars + new_index, add_pars + current_iter, sizeof(ParticleData)); new_index++; } /* TODO(sergey): Consider multi-threading this part as well. */ if (n) { int newtotpart = totpart + n; float hairmat[4][4], cur_co[3]; KDTree_3d *tree = 0; ParticleData *pa, *new_pars = MEM_callocN(newtotpart * sizeof(ParticleData), "ParticleData new"); PTCacheEditPoint *point, *new_points = MEM_callocN(newtotpart * sizeof(PTCacheEditPoint), "PTCacheEditPoint array new"); PTCacheEditKey *key; HairKey *hkey; /* save existing elements */ memcpy(new_pars, psys->particles, totpart * sizeof(ParticleData)); memcpy(new_points, edit->points, totpart * sizeof(PTCacheEditPoint)); /* change old arrays to new ones */ if (psys->particles) { MEM_freeN(psys->particles); } psys->particles = new_pars; if (edit->points) { MEM_freeN(edit->points); } edit->points = new_points; MEM_SAFE_FREE(edit->mirror_cache); /* create tree for interpolation */ if (pset->flag & PE_INTERPOLATE_ADDED && psys->totpart) { tree = BLI_kdtree_3d_new(psys->totpart); for (i = 0, pa = psys->particles; i < totpart; i++, pa++) { psys_particle_on_dm(psmd_eval->mesh_final, psys->part->from, pa->num, pa->num_dmcache, pa->fuv, pa->foffset, cur_co, 0, 0, 0, 0); BLI_kdtree_3d_insert(tree, i, cur_co); } BLI_kdtree_3d_balance(tree); } edit->totpoint = psys->totpart = newtotpart; /* create new elements */ pa = psys->particles + totpart; point = edit->points + totpart; for (i = totpart; i < newtotpart; i++, pa++, point++) { memcpy(pa, add_pars + i - totpart, sizeof(ParticleData)); pa->hair = MEM_callocN(pset->totaddkey * sizeof(HairKey), "BakeKey key add"); key = point->keys = MEM_callocN(pset->totaddkey * sizeof(PTCacheEditKey), "PTCacheEditKey add"); point->totkey = pa->totkey = pset->totaddkey; for (k = 0, hkey = pa->hair; k < pa->totkey; k++, hkey++, key++) { key->co = hkey->co; key->time = &hkey->time; if (!(psys->flag & PSYS_GLOBAL_HAIR)) { key->flag |= PEK_USE_WCO; } } pa->size = 1.0f; init_particle(&sim, pa); reset_particle(&sim, pa, 0.0, 1.0); point->flag |= PEP_EDIT_RECALC; if (pe_x_mirror(ob)) { point->flag |= PEP_TAG; /* signal for duplicate */ } framestep = pa->lifetime / (float)(pset->totaddkey - 1); if (tree) { ParticleData *ppa; HairKey *thkey; ParticleKey key3[3]; KDTreeNearest_3d ptn[3]; int w, maxw; float maxd, totw = 0.0, weight[3]; psys_particle_on_dm(psmd_eval->mesh_final, psys->part->from, pa->num, pa->num_dmcache, pa->fuv, pa->foffset, co1, 0, 0, 0, 0); maxw = BLI_kdtree_3d_find_nearest_n(tree, co1, ptn, 3); maxd = ptn[maxw - 1].dist; for (w = 0; w < maxw; w++) { weight[w] = (float)pow(2.0, (double)(-6.0f * ptn[w].dist / maxd)); totw += weight[w]; } for (; w < 3; w++) { weight[w] = 0.0f; } if (totw > 0.0f) { for (w = 0; w < maxw; w++) { weight[w] /= totw; } } else { for (w = 0; w < maxw; w++) { weight[w] = 1.0f / maxw; } } ppa = psys->particles + ptn[0].index; for (k = 0; k < pset->totaddkey; k++) { thkey = (HairKey *)pa->hair + k; thkey->time = pa->time + k * framestep; key3[0].time = thkey->time / 100.0f; psys_get_particle_on_path(&sim, ptn[0].index, key3, 0); mul_v3_fl(key3[0].co, weight[0]); /* TODO: interpolating the weight would be nicer */ thkey->weight = (ppa->hair + MIN2(k, ppa->totkey - 1))->weight; if (maxw > 1) { key3[1].time = key3[0].time; psys_get_particle_on_path(&sim, ptn[1].index, &key3[1], 0); mul_v3_fl(key3[1].co, weight[1]); add_v3_v3(key3[0].co, key3[1].co); if (maxw > 2) { key3[2].time = key3[0].time; psys_get_particle_on_path(&sim, ptn[2].index, &key3[2], 0); mul_v3_fl(key3[2].co, weight[2]); add_v3_v3(key3[0].co, key3[2].co); } } if (k == 0) { sub_v3_v3v3(co1, pa->state.co, key3[0].co); } add_v3_v3v3(thkey->co, key3[0].co, co1); thkey->time = key3[0].time; } } else { for (k = 0, hkey = pa->hair; k < pset->totaddkey; k++, hkey++) { madd_v3_v3v3fl(hkey->co, pa->state.co, pa->state.vel, k * framestep * timestep); hkey->time += k * framestep; hkey->weight = 1.0f - (float)k / (float)(pset->totaddkey - 1); } } for (k = 0, hkey = pa->hair; k < pset->totaddkey; k++, hkey++) { psys_mat_hair_to_global(ob, psmd_eval->mesh_final, psys->part->from, pa, hairmat); invert_m4_m4(imat, hairmat); mul_m4_v3(imat, hkey->co); } } if (tree) { BLI_kdtree_3d_free(tree); } } MEM_freeN(add_pars); BLI_rng_free(rng); return n; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Brush Edit Operator * \{ */ typedef struct BrushEdit { Scene *scene; ViewLayer *view_layer; Object *ob; PTCacheEdit *edit; int first; int lastmouse[2]; float zfac; /** Optional cached view settings to avoid setting on every mouse-move. */ PEData data; } BrushEdit; static int brush_edit_init(bContext *C, wmOperator *op) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); ViewLayer *view_layer = CTX_data_view_layer(C); Object *ob = CTX_data_active_object(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); ARegion *region = CTX_wm_region(C); BrushEdit *bedit; float min[3], max[3]; /* set the 'distance factor' for grabbing (used in comb etc) */ INIT_MINMAX(min, max); PE_minmax(depsgraph, scene, view_layer, min, max); mid_v3_v3v3(min, min, max); bedit = MEM_callocN(sizeof(BrushEdit), "BrushEdit"); bedit->first = 1; op->customdata = bedit; bedit->scene = scene; bedit->view_layer = view_layer; bedit->ob = ob; bedit->edit = edit; bedit->zfac = ED_view3d_calc_zfac(region->regiondata, min); /* cache view depths and settings for re-use */ PE_set_view3d_data(C, &bedit->data); PE_create_random_generator(&bedit->data); return 1; } static void brush_edit_apply(bContext *C, wmOperator *op, PointerRNA *itemptr) { BrushEdit *bedit = op->customdata; Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = bedit->scene; Object *ob = bedit->ob; PTCacheEdit *edit = bedit->edit; ParticleEditSettings *pset = PE_settings(scene); ParticleSystemModifierData *psmd_eval = edit->psmd_eval; ParticleBrushData *brush = &pset->brush[pset->brushtype]; ARegion *region = CTX_wm_region(C); float vec[3], mousef[2]; int mval[2]; int flip, mouse[2], removed = 0, added = 0, selected = 0, tot_steps = 1, step = 1; float dx, dy, dmax; int lock_root = pset->flag & PE_LOCK_FIRST; if (!PE_start_edit(edit)) { return; } RNA_float_get_array(itemptr, "mouse", mousef); mouse[0] = mousef[0]; mouse[1] = mousef[1]; flip = RNA_boolean_get(itemptr, "pen_flip"); if (bedit->first) { bedit->lastmouse[0] = mouse[0]; bedit->lastmouse[1] = mouse[1]; } dx = mouse[0] - bedit->lastmouse[0]; dy = mouse[1] - bedit->lastmouse[1]; mval[0] = mouse[0]; mval[1] = mouse[1]; /* Disable locking temporarily for disconnected hair. */ if (edit->psys && edit->psys->flag & PSYS_GLOBAL_HAIR) { pset->flag &= ~PE_LOCK_FIRST; } if (((pset->brushtype == PE_BRUSH_ADD) ? (sqrtf(dx * dx + dy * dy) > pset->brush[PE_BRUSH_ADD].step) : (dx != 0 || dy != 0)) || bedit->first) { PEData data = bedit->data; data.context = C; /* TODO(mai): why isn't this set in bedit->data? */ view3d_operator_needs_opengl(C); selected = (short)count_selected_keys(scene, edit); dmax = max_ff(fabsf(dx), fabsf(dy)); tot_steps = dmax / (0.2f * pe_brush_size_get(scene, brush)) + 1; dx /= (float)tot_steps; dy /= (float)tot_steps; for (step = 1; step <= tot_steps; step++) { mval[0] = bedit->lastmouse[0] + step * dx; mval[1] = bedit->lastmouse[1] + step * dy; switch (pset->brushtype) { case PE_BRUSH_COMB: { const float xy_delta[2] = {dx, dy}; data.mval = mval; data.rad = pe_brush_size_get(scene, brush); data.combfac = (brush->strength - 0.5f) * 2.0f; if (data.combfac < 0.0f) { data.combfac = 1.0f - 9.0f * data.combfac; } else { data.combfac = 1.0f - data.combfac; } invert_m4_m4(ob->world_to_object, ob->object_to_world); ED_view3d_win_to_delta(region, xy_delta, bedit->zfac, vec); data.dvec = vec; foreach_mouse_hit_key(&data, brush_comb, selected); break; } case PE_BRUSH_CUT: { if (edit->psys && edit->pathcache) { data.mval = mval; data.rad = pe_brush_size_get(scene, brush); data.cutfac = brush->strength; if (selected) { foreach_selected_point(&data, brush_cut); } else { foreach_point(&data, brush_cut); } removed = remove_tagged_particles(ob, edit->psys, pe_x_mirror(ob)); if (pset->flag & PE_KEEP_LENGTHS) { recalc_lengths(edit); } } else { removed = 0; } break; } case PE_BRUSH_LENGTH: { data.mval = mval; data.rad = pe_brush_size_get(scene, brush); data.growfac = brush->strength / 50.0f; if (brush->invert ^ flip) { data.growfac = 1.0f - data.growfac; } else { data.growfac = 1.0f + data.growfac; } foreach_mouse_hit_point(&data, brush_length, selected); if (pset->flag & PE_KEEP_LENGTHS) { recalc_lengths(edit); } break; } case PE_BRUSH_PUFF: { if (edit->psys) { data.mesh = psmd_eval->mesh_final; data.mval = mval; data.rad = pe_brush_size_get(scene, brush); data.select = selected; data.pufffac = (brush->strength - 0.5f) * 2.0f; if (data.pufffac < 0.0f) { data.pufffac = 1.0f - 9.0f * data.pufffac; } else { data.pufffac = 1.0f - data.pufffac; } data.invert = (brush->invert ^ flip); invert_m4_m4(ob->world_to_object, ob->object_to_world); foreach_mouse_hit_point(&data, brush_puff, selected); } break; } case PE_BRUSH_ADD: { if (edit->psys && edit->psys->part->from == PART_FROM_FACE) { data.mval = mval; added = brush_add(C, &data, brush->count); if (pset->flag & PE_KEEP_LENGTHS) { recalc_lengths(edit); } } else { added = 0; } break; } case PE_BRUSH_SMOOTH: { data.mval = mval; data.rad = pe_brush_size_get(scene, brush); data.vec[0] = data.vec[1] = data.vec[2] = 0.0f; data.tot = 0; data.smoothfac = brush->strength; invert_m4_m4(ob->world_to_object, ob->object_to_world); foreach_mouse_hit_key(&data, brush_smooth_get, selected); if (data.tot) { mul_v3_fl(data.vec, 1.0f / (float)data.tot); foreach_mouse_hit_key(&data, brush_smooth_do, selected); } break; } case PE_BRUSH_WEIGHT: { if (edit->psys) { data.mesh = psmd_eval->mesh_final; data.mval = mval; data.rad = pe_brush_size_get(scene, brush); data.weightfac = brush->strength; /* note that this will never be zero */ foreach_mouse_hit_key(&data, BKE_brush_weight_get, selected); } break; } } if ((pset->flag & PE_KEEP_LENGTHS) == 0) { recalc_lengths(edit); } if (ELEM(pset->brushtype, PE_BRUSH_ADD, PE_BRUSH_CUT) && (added || removed)) { if (pset->brushtype == PE_BRUSH_ADD && pe_x_mirror(ob)) { PE_mirror_x(depsgraph, scene, ob, 1); } update_world_cos(ob, edit); psys_free_path_cache(NULL, edit); DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY); } else { PE_update_object(depsgraph, scene, ob, 1); } } if (edit->psys) { WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, ob); BKE_particle_batch_cache_dirty_tag(edit->psys, BKE_PARTICLE_BATCH_DIRTY_ALL); DEG_id_tag_update(&ob->id, ID_RECALC_PSYS_REDO); } else { DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY); WM_event_add_notifier(C, NC_OBJECT | ND_MODIFIER, ob); } bedit->lastmouse[0] = mouse[0]; bedit->lastmouse[1] = mouse[1]; bedit->first = 0; } pset->flag |= lock_root; } static void brush_edit_exit(wmOperator *op) { BrushEdit *bedit = op->customdata; PE_data_free(&bedit->data); MEM_freeN(bedit); } static int brush_edit_exec(bContext *C, wmOperator *op) { if (!brush_edit_init(C, op)) { return OPERATOR_CANCELLED; } RNA_BEGIN (op->ptr, itemptr, "stroke") { brush_edit_apply(C, op, &itemptr); } RNA_END; brush_edit_exit(op); return OPERATOR_FINISHED; } static void brush_edit_apply_event(bContext *C, wmOperator *op, const wmEvent *event) { PointerRNA itemptr; float mouse[2]; copy_v2fl_v2i(mouse, event->mval); /* fill in stroke */ RNA_collection_add(op->ptr, "stroke", &itemptr); RNA_float_set_array(&itemptr, "mouse", mouse); RNA_boolean_set(&itemptr, "pen_flip", event->modifier & KM_SHIFT); /* XXX hardcoded */ /* apply */ brush_edit_apply(C, op, &itemptr); } static int brush_edit_invoke(bContext *C, wmOperator *op, const wmEvent *event) { if (!brush_edit_init(C, op)) { return OPERATOR_CANCELLED; } brush_edit_apply_event(C, op, event); WM_event_add_modal_handler(C, op); return OPERATOR_RUNNING_MODAL; } static int brush_edit_modal(bContext *C, wmOperator *op, const wmEvent *event) { switch (event->type) { case LEFTMOUSE: case MIDDLEMOUSE: case RIGHTMOUSE: /* XXX hardcoded */ if (event->val == KM_RELEASE) { brush_edit_exit(op); return OPERATOR_FINISHED; } break; case MOUSEMOVE: brush_edit_apply_event(C, op, event); break; } return OPERATOR_RUNNING_MODAL; } static void brush_edit_cancel(bContext *UNUSED(C), wmOperator *op) { brush_edit_exit(op); } static bool brush_edit_poll(bContext *C) { return PE_poll_view3d(C) && WM_toolsystem_active_tool_is_brush(C); } void PARTICLE_OT_brush_edit(wmOperatorType *ot) { /* identifiers */ ot->name = "Brush Edit"; ot->idname = "PARTICLE_OT_brush_edit"; ot->description = "Apply a stroke of brush to the particles"; /* api callbacks */ ot->exec = brush_edit_exec; ot->invoke = brush_edit_invoke; ot->modal = brush_edit_modal; ot->cancel = brush_edit_cancel; ot->poll = brush_edit_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO | OPTYPE_BLOCKING; /* properties */ PropertyRNA *prop; prop = RNA_def_collection_runtime(ot->srna, "stroke", &RNA_OperatorStrokeElement, "Stroke", ""); RNA_def_property_flag(prop, PROP_HIDDEN | PROP_SKIP_SAVE); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Cut Shape * \{ */ static bool shape_cut_poll(bContext *C) { if (PE_hair_poll(C)) { Scene *scene = CTX_data_scene(C); ParticleEditSettings *pset = PE_settings(scene); if (pset->shape_object && (pset->shape_object->type == OB_MESH)) { return true; } } return false; } typedef struct PointInsideBVH { BVHTreeFromMesh bvhdata; int num_hits; } PointInsideBVH; static void point_inside_bvh_cb(void *userdata, int index, const BVHTreeRay *ray, BVHTreeRayHit *hit) { PointInsideBVH *data = userdata; data->bvhdata.raycast_callback(&data->bvhdata, index, ray, hit); if (hit->index != -1) { ++data->num_hits; } } /* true if the point is inside the shape mesh */ static bool shape_cut_test_point(PEData *data, ParticleEditSettings *pset, ParticleCacheKey *key) { BVHTreeFromMesh *shape_bvh = &data->shape_bvh; const float dir[3] = {1.0f, 0.0f, 0.0f}; PointInsideBVH userdata; userdata.bvhdata = data->shape_bvh; userdata.num_hits = 0; float co_shape[3]; mul_v3_m4v3(co_shape, pset->shape_object->world_to_object, key->co); BLI_bvhtree_ray_cast_all( shape_bvh->tree, co_shape, dir, 0.0f, BVH_RAYCAST_DIST_MAX, point_inside_bvh_cb, &userdata); /* for any point inside a watertight mesh the number of hits is uneven */ return (userdata.num_hits % 2) == 1; } static void shape_cut(PEData *data, int pa_index) { PTCacheEdit *edit = data->edit; Object *ob = data->ob; ParticleEditSettings *pset = PE_settings(data->scene); ParticleCacheKey *key; bool cut; float cut_time = 1.0; int k, totkeys = 1 << pset->draw_step; /* don't cut hidden */ if (edit->points[pa_index].flag & PEP_HIDE) { return; } cut = false; /* check if root is inside the cut shape */ key = edit->pathcache[pa_index]; if (!shape_cut_test_point(data, pset, key)) { cut_time = -1.0f; cut = true; } else { for (k = 0; k < totkeys; k++, key++) { BVHTreeRayHit hit; float co_curr_shape[3], co_next_shape[3]; float dir_shape[3]; float len_shape; mul_v3_m4v3(co_curr_shape, pset->shape_object->world_to_object, key->co); mul_v3_m4v3(co_next_shape, pset->shape_object->world_to_object, (key + 1)->co); sub_v3_v3v3(dir_shape, co_next_shape, co_curr_shape); len_shape = normalize_v3(dir_shape); memset(&hit, 0, sizeof(hit)); hit.index = -1; hit.dist = len_shape; BLI_bvhtree_ray_cast(data->shape_bvh.tree, co_curr_shape, dir_shape, 0.0f, &hit, data->shape_bvh.raycast_callback, &data->shape_bvh); if (hit.index >= 0) { if (hit.dist < len_shape) { cut_time = ((hit.dist / len_shape) + (float)k) / (float)totkeys; cut = true; break; } } } } if (cut) { if (cut_time < 0.0f) { edit->points[pa_index].flag |= PEP_TAG; } else { rekey_particle_to_time(data->context, data->scene, ob, pa_index, cut_time); edit->points[pa_index].flag |= PEP_EDIT_RECALC; } } } static int shape_cut_exec(bContext *C, wmOperator *UNUSED(op)) { Depsgraph *depsgraph = CTX_data_ensure_evaluated_depsgraph(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); ParticleEditSettings *pset = PE_settings(scene); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); Object *shapeob = pset->shape_object; int selected = count_selected_keys(scene, edit); int lock_root = pset->flag & PE_LOCK_FIRST; if (!PE_start_edit(edit)) { return OPERATOR_CANCELLED; } /* Disable locking temporarily for disconnected hair. */ if (edit->psys && edit->psys->flag & PSYS_GLOBAL_HAIR) { pset->flag &= ~PE_LOCK_FIRST; } if (edit->psys && edit->pathcache) { PEData data; int removed; PE_set_data(C, &data); if (!PE_create_shape_tree(&data, shapeob)) { /* shapeob may not have faces... */ return OPERATOR_CANCELLED; } if (selected) { foreach_selected_point(&data, shape_cut); } else { foreach_point(&data, shape_cut); } removed = remove_tagged_particles(ob, edit->psys, pe_x_mirror(ob)); recalc_lengths(edit); if (removed) { update_world_cos(ob, edit); psys_free_path_cache(NULL, edit); DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY); } else { PE_update_object(data.depsgraph, scene, ob, 1); } if (edit->psys) { WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, ob); BKE_particle_batch_cache_dirty_tag(edit->psys, BKE_PARTICLE_BATCH_DIRTY_ALL); DEG_id_tag_update(&ob->id, ID_RECALC_PSYS_REDO); } else { DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY); WM_event_add_notifier(C, NC_OBJECT | ND_MODIFIER, ob); } PE_free_shape_tree(&data); } pset->flag |= lock_root; return OPERATOR_FINISHED; } void PARTICLE_OT_shape_cut(wmOperatorType *ot) { /* identifiers */ ot->name = "Shape Cut"; ot->idname = "PARTICLE_OT_shape_cut"; ot->description = "Cut hair to conform to the set shape object"; /* api callbacks */ ot->exec = shape_cut_exec; ot->poll = shape_cut_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Particle Edit Toggle Operator * \{ */ void PE_create_particle_edit( Depsgraph *depsgraph, Scene *scene, Object *ob, PointCache *cache, ParticleSystem *psys) { Object *ob_eval = DEG_get_evaluated_object(depsgraph, ob); PTCacheEdit *edit; ParticleSystemModifierData *psmd = (psys) ? psys_get_modifier(ob, psys) : NULL; ParticleSystemModifierData *psmd_eval = NULL; POINT_P; KEY_K; ParticleData *pa = NULL; HairKey *hkey; int totpoint; if (psmd != NULL) { psmd_eval = (ParticleSystemModifierData *)BKE_modifiers_findby_name(ob_eval, psmd->modifier.name); } /* no psmd->dm happens in case particle system modifier is not enabled */ if (!(psys && psmd && psmd_eval->mesh_final) && !cache) { return; } if (cache && cache->flag & PTCACHE_DISK_CACHE) { return; } if (psys == NULL && (cache && BLI_listbase_is_empty(&cache->mem_cache))) { return; } edit = (psys) ? psys->edit : cache->edit; if (!edit) { ParticleSystem *psys_eval = NULL; if (psys) { psys_eval = psys_eval_get(depsgraph, ob, psys); psys_copy_particles(psys, psys_eval); } totpoint = psys ? psys->totpart : (int)((PTCacheMem *)cache->mem_cache.first)->totpoint; edit = MEM_callocN(sizeof(PTCacheEdit), "PE_create_particle_edit"); edit->points = MEM_callocN(totpoint * sizeof(PTCacheEditPoint), "PTCacheEditPoints"); edit->totpoint = totpoint; if (psys && !cache) { edit->psmd = psmd; edit->psmd_eval = psmd_eval; psys->edit = edit; edit->psys = psys; edit->psys_eval = psys_eval; psys->free_edit = PE_free_ptcache_edit; edit->pathcache = NULL; BLI_listbase_clear(&edit->pathcachebufs); pa = psys->particles; LOOP_POINTS { point->totkey = pa->totkey; point->keys = MEM_callocN(point->totkey * sizeof(PTCacheEditKey), "ParticleEditKeys"); point->flag |= PEP_EDIT_RECALC; hkey = pa->hair; LOOP_KEYS { key->co = hkey->co; key->time = &hkey->time; key->flag = hkey->editflag; if (!(psys->flag & PSYS_GLOBAL_HAIR)) { key->flag |= PEK_USE_WCO; hkey->editflag |= PEK_USE_WCO; } hkey++; } pa++; } update_world_cos(ob, edit); } else { PTCacheMem *pm; int totframe = 0; cache->edit = edit; cache->free_edit = PE_free_ptcache_edit; edit->psys = NULL; for (pm = cache->mem_cache.first; pm; pm = pm->next) { totframe++; } for (pm = cache->mem_cache.first; pm; pm = pm->next) { LOOP_POINTS { void *cur[BPHYS_TOT_DATA]; if (BKE_ptcache_mem_pointers_seek(p, pm, cur) == 0) { continue; } if (!point->totkey) { key = point->keys = MEM_callocN(totframe * sizeof(PTCacheEditKey), "ParticleEditKeys"); point->flag |= PEP_EDIT_RECALC; } else { key = point->keys + point->totkey; } key->co = cur[BPHYS_DATA_LOCATION]; key->vel = cur[BPHYS_DATA_VELOCITY]; key->rot = cur[BPHYS_DATA_ROTATION]; key->ftime = (float)pm->frame; key->time = &key->ftime; BKE_ptcache_mem_pointers_incr(cur); point->totkey++; } } psys = NULL; } recalc_lengths(edit); if (psys && !cache) { recalc_emitter_field(depsgraph, ob, psys); } PE_update_object(depsgraph, scene, ob, 1); } } static bool particle_edit_toggle_poll(bContext *C) { Object *ob = CTX_data_active_object(C); if (ob == NULL || ob->type != OB_MESH) { return false; } if (!ob->data || ID_IS_LINKED(ob->data) || ID_IS_OVERRIDE_LIBRARY(ob->data)) { return false; } return ED_object_particle_edit_mode_supported(ob); } static void free_all_psys_edit(Object *object) { for (ParticleSystem *psys = object->particlesystem.first; psys != NULL; psys = psys->next) { if (psys->edit != NULL) { BLI_assert(psys->free_edit != NULL); psys->free_edit(psys->edit); psys->free_edit = NULL; psys->edit = NULL; } } } bool ED_object_particle_edit_mode_supported(const Object *ob) { return (ob->particlesystem.first || BKE_modifiers_findby_type(ob, eModifierType_Cloth) || BKE_modifiers_findby_type(ob, eModifierType_Softbody)); } void ED_object_particle_edit_mode_enter_ex(Depsgraph *depsgraph, Scene *scene, Object *ob) { /* Needed so #ParticleSystemModifierData.mesh_final is set. */ BKE_scene_graph_evaluated_ensure(depsgraph, G_MAIN); PTCacheEdit *edit; ob->mode |= OB_MODE_PARTICLE_EDIT; edit = PE_create_current(depsgraph, scene, ob); /* Mesh may have changed since last entering editmode. * NOTE: this may have run before if the edit data was just created, * so could avoid this and speed up a little. */ if (edit && edit->psys) { /* Make sure pointer to the evaluated modifier data is up to date, * with possible changes applied when object was outside of the * edit mode. */ Object *object_eval = DEG_get_evaluated_object(depsgraph, ob); edit->psmd_eval = (ParticleSystemModifierData *)BKE_modifiers_findby_name( object_eval, edit->psmd->modifier.name); recalc_emitter_field(depsgraph, ob, edit->psys); } toggle_particle_cursor(scene, true); DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY | ID_RECALC_COPY_ON_WRITE); WM_main_add_notifier(NC_SCENE | ND_MODE | NS_MODE_PARTICLE, NULL); } void ED_object_particle_edit_mode_enter(bContext *C) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); ED_object_particle_edit_mode_enter_ex(depsgraph, scene, ob); } void ED_object_particle_edit_mode_exit_ex(Scene *scene, Object *ob) { ob->mode &= ~OB_MODE_PARTICLE_EDIT; toggle_particle_cursor(scene, false); free_all_psys_edit(ob); DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY | ID_RECALC_COPY_ON_WRITE); WM_main_add_notifier(NC_SCENE | ND_MODE | NS_MODE_OBJECT, NULL); } void ED_object_particle_edit_mode_exit(bContext *C) { Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); ED_object_particle_edit_mode_exit_ex(scene, ob); } static int particle_edit_toggle_exec(bContext *C, wmOperator *op) { struct wmMsgBus *mbus = CTX_wm_message_bus(C); Scene *scene = CTX_data_scene(C); Object *ob = CTX_data_active_object(C); const int mode_flag = OB_MODE_PARTICLE_EDIT; const bool is_mode_set = (ob->mode & mode_flag) != 0; if (!is_mode_set) { if (!ED_object_mode_compat_set(C, ob, mode_flag, op->reports)) { return OPERATOR_CANCELLED; } } if (!is_mode_set) { Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); ED_object_particle_edit_mode_enter_ex(depsgraph, scene, ob); } else { ED_object_particle_edit_mode_exit_ex(scene, ob); } WM_msg_publish_rna_prop(mbus, &ob->id, ob, Object, mode); WM_toolsystem_update_from_context_view3d(C); return OPERATOR_FINISHED; } void PARTICLE_OT_particle_edit_toggle(wmOperatorType *ot) { /* identifiers */ ot->name = "Particle Edit Toggle"; ot->idname = "PARTICLE_OT_particle_edit_toggle"; ot->description = "Toggle particle edit mode"; /* api callbacks */ ot->exec = particle_edit_toggle_exec; ot->poll = particle_edit_toggle_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Set Editable Operator * \{ */ static int clear_edited_exec(bContext *C, wmOperator *UNUSED(op)) { Object *ob = CTX_data_active_object(C); ParticleSystem *psys = psys_get_current(ob); if (psys->edit) { if (psys->edit->edited || 1) { PE_free_ptcache_edit(psys->edit); psys->edit = NULL; psys->free_edit = NULL; psys->recalc |= ID_RECALC_PSYS_RESET; psys->flag &= ~PSYS_GLOBAL_HAIR; psys->flag &= ~PSYS_EDITED; psys_reset(psys, PSYS_RESET_DEPSGRAPH); WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, ob); BKE_particle_batch_cache_dirty_tag(psys, BKE_PARTICLE_BATCH_DIRTY_ALL); DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY); } } else { /* some operation might have protected hair from editing so let's clear the flag */ psys->recalc |= ID_RECALC_PSYS_RESET; psys->flag &= ~PSYS_GLOBAL_HAIR; psys->flag &= ~PSYS_EDITED; WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, ob); DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY); } return OPERATOR_FINISHED; } void PARTICLE_OT_edited_clear(wmOperatorType *ot) { /* identifiers */ ot->name = "Clear Edited"; ot->idname = "PARTICLE_OT_edited_clear"; ot->description = "Undo all edition performed on the particle system"; /* api callbacks */ ot->exec = clear_edited_exec; ot->poll = particle_edit_toggle_poll; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Unify length operator * \{ */ static float calculate_point_length(PTCacheEditPoint *point) { float length = 0.0f; KEY_K; LOOP_KEYS { if (k > 0) { length += len_v3v3((key - 1)->co, key->co); } } return length; } static float calculate_average_length(PTCacheEdit *edit) { int num_selected = 0; float total_length = 0; POINT_P; LOOP_SELECTED_POINTS { total_length += calculate_point_length(point); num_selected++; } if (num_selected == 0) { return 0.0f; } return total_length / num_selected; } static void scale_point_factor(PTCacheEditPoint *point, float factor) { float orig_prev_co[3], prev_co[3]; KEY_K; LOOP_KEYS { if (k == 0) { copy_v3_v3(orig_prev_co, key->co); copy_v3_v3(prev_co, key->co); } else { float new_co[3]; float delta[3]; sub_v3_v3v3(delta, key->co, orig_prev_co); mul_v3_fl(delta, factor); add_v3_v3v3(new_co, prev_co, delta); copy_v3_v3(orig_prev_co, key->co); copy_v3_v3(key->co, new_co); copy_v3_v3(prev_co, key->co); } } point->flag |= PEP_EDIT_RECALC; } static void scale_point_to_length(PTCacheEditPoint *point, float length) { const float point_length = calculate_point_length(point); if (point_length != 0.0f) { const float factor = length / point_length; scale_point_factor(point, factor); } } static void scale_points_to_length(PTCacheEdit *edit, float length) { POINT_P; LOOP_SELECTED_POINTS { scale_point_to_length(point, length); } recalc_lengths(edit); } static int unify_length_exec(bContext *C, wmOperator *UNUSED(op)) { Object *ob = CTX_data_active_object(C); Scene *scene = CTX_data_scene(C); Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C); PTCacheEdit *edit = PE_get_current(depsgraph, scene, ob); float average_length = calculate_average_length(edit); if (average_length == 0.0f) { return OPERATOR_CANCELLED; } scale_points_to_length(edit, average_length); PE_update_object(depsgraph, scene, ob, 1); if (edit->psys) { WM_event_add_notifier(C, NC_OBJECT | ND_PARTICLE | NA_EDITED, ob); } else { DEG_id_tag_update(&ob->id, ID_RECALC_GEOMETRY); WM_event_add_notifier(C, NC_OBJECT | ND_MODIFIER, ob); } return OPERATOR_FINISHED; } void PARTICLE_OT_unify_length(struct wmOperatorType *ot) { /* identifiers */ ot->name = "Unify Length"; ot->idname = "PARTICLE_OT_unify_length"; ot->description = "Make selected hair the same length"; /* api callbacks */ ot->exec = unify_length_exec; ot->poll = PE_poll_view3d; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; } /** \} */