diff options
Diffstat (limited to 'source/blender/editors/curves/intern')
-rw-r--r-- | source/blender/editors/curves/intern/curves_add.cc | 2 | ||||
-rw-r--r-- | source/blender/editors/curves/intern/curves_ops.cc | 513 |
2 files changed, 471 insertions, 44 deletions
diff --git a/source/blender/editors/curves/intern/curves_add.cc b/source/blender/editors/curves/intern/curves_add.cc index 7d9e663c444..552ef1d96c8 100644 --- a/source/blender/editors/curves/intern/curves_add.cc +++ b/source/blender/editors/curves/intern/curves_add.cc @@ -20,7 +20,7 @@ bke::CurvesGeometry primitive_random_sphere(const int curves_size, const int poi MutableSpan<float3> positions = curves.positions_for_write(); float *radius_data = (float *)CustomData_add_layer_named( - &curves.point_data, CD_PROP_FLOAT, CD_DEFAULT, nullptr, curves.point_size, "radius"); + &curves.point_data, CD_PROP_FLOAT, CD_DEFAULT, nullptr, curves.point_num, "radius"); MutableSpan<float> radii{radius_data, curves.points_num()}; for (const int i : offsets.index_range()) { diff --git a/source/blender/editors/curves/intern/curves_ops.cc b/source/blender/editors/curves/intern/curves_ops.cc index 7d07c211542..25bcba6cfb3 100644 --- a/source/blender/editors/curves/intern/curves_ops.cc +++ b/source/blender/editors/curves/intern/curves_ops.cc @@ -6,20 +6,27 @@ #include <atomic> +#include "BLI_devirtualize_parameters.hh" #include "BLI_utildefines.h" +#include "BLI_vector_set.hh" #include "ED_curves.h" #include "ED_object.h" #include "ED_screen.h" +#include "ED_select_utils.h" #include "WM_api.h" +#include "BKE_attribute_math.hh" #include "BKE_bvhutils.h" #include "BKE_context.h" #include "BKE_curves.hh" +#include "BKE_geometry_set.hh" #include "BKE_layer.h" +#include "BKE_lib_id.h" #include "BKE_mesh.h" #include "BKE_mesh_runtime.h" +#include "BKE_object.h" #include "BKE_paint.h" #include "BKE_particle.h" #include "BKE_report.h" @@ -32,9 +39,14 @@ #include "DNA_scene_types.h" #include "DEG_depsgraph.h" +#include "DEG_depsgraph_query.h" #include "RNA_access.h" #include "RNA_define.h" +#include "RNA_enum_types.h" +#include "RNA_prototypes.h" + +#include "GEO_reverse_uv_sampler.hh" /** * The code below uses a suffix naming convention to indicate the coordinate space: @@ -46,6 +58,41 @@ namespace blender::ed::curves { +static bool object_has_editable_curves(const Main &bmain, const Object &object) +{ + if (object.type != OB_CURVES) { + return false; + } + if (!ELEM(object.mode, OB_MODE_SCULPT_CURVES, OB_MODE_EDIT)) { + return false; + } + if (!BKE_id_is_editable(&bmain, static_cast<const ID *>(object.data))) { + return false; + } + return true; +} + +static VectorSet<Curves *> get_unique_editable_curves(const bContext &C) +{ + VectorSet<Curves *> unique_curves; + + const Main &bmain = *CTX_data_main(&C); + + Object *object = CTX_data_active_object(&C); + if (object && object_has_editable_curves(bmain, *object)) { + unique_curves.add_new(static_cast<Curves *>(object->data)); + } + + CTX_DATA_BEGIN (&C, Object *, object, selected_objects) { + if (object_has_editable_curves(bmain, *object)) { + unique_curves.add(static_cast<Curves *>(object->data)); + } + } + CTX_DATA_END; + + return unique_curves; +} + using bke::CurvesGeometry; namespace convert_to_particle_system { @@ -140,25 +187,20 @@ static void try_convert_single_object(Object &curves_ob, } Mesh &surface_me = *static_cast<Mesh *>(surface_ob.data); + BVHTreeFromMesh surface_bvh; + BKE_bvhtree_from_mesh_get(&surface_bvh, &surface_me, BVHTREE_FROM_LOOPTRI, 2); + BLI_SCOPED_DEFER([&]() { free_bvhtree_from_mesh(&surface_bvh); }); + const Span<float3> positions_cu = curves.positions(); - const VArray<int> looptri_indices = curves.surface_triangle_indices(); const Span<MLoopTri> looptris{BKE_mesh_runtime_looptri_ensure(&surface_me), BKE_mesh_runtime_looptri_len(&surface_me)}; - /* Find indices of curves that can be transferred to the old hair system. */ - Vector<int> curves_indices_to_transfer; - for (const int curve_i : curves.curves_range()) { - const int looptri_i = looptri_indices[curve_i]; - if (looptri_i >= 0 && looptri_i < looptris.size()) { - curves_indices_to_transfer.append(curve_i); - } - else { - *r_could_not_convert_some_curves = true; - } + if (looptris.is_empty()) { + *r_could_not_convert_some_curves = true; } - const int hairs_num = curves_indices_to_transfer.size(); - if (hairs_num == 0) { + const int hair_num = curves.curves_num(); + if (hair_num == 0) { return; } @@ -184,15 +226,15 @@ static void try_convert_single_object(Object &curves_ob, psys_changed_type(&surface_ob, particle_system); MutableSpan<ParticleData> particles{ - static_cast<ParticleData *>(MEM_calloc_arrayN(hairs_num, sizeof(ParticleData), __func__)), - hairs_num}; + static_cast<ParticleData *>(MEM_calloc_arrayN(hair_num, sizeof(ParticleData), __func__)), + hair_num}; /* The old hair system still uses #MFace, so make sure those are available on the mesh. */ BKE_mesh_tessface_calc(&surface_me); - /* Prepare utility data structure to map hair roots to mfaces. */ + /* Prepare utility data structure to map hair roots to #MFace's. */ const Span<int> mface_to_poly_map{ - static_cast<int *>(CustomData_get_layer(&surface_me.fdata, CD_ORIGINDEX)), + static_cast<const int *>(CustomData_get_layer(&surface_me.fdata, CD_ORIGINDEX)), surface_me.totface}; Array<Vector<int>> poly_to_mface_map(surface_me.totpoly); for (const int mface_i : mface_to_poly_map.index_range()) { @@ -206,17 +248,23 @@ static void try_convert_single_object(Object &curves_ob, const float4x4 world_to_surface_mat = surface_to_world_mat.inverted(); const float4x4 curves_to_surface_mat = world_to_surface_mat * curves_to_world_mat; - for (const int new_hair_i : curves_indices_to_transfer.index_range()) { - const int curve_i = curves_indices_to_transfer[new_hair_i]; + for (const int new_hair_i : IndexRange(hair_num)) { + const int curve_i = new_hair_i; const IndexRange points = curves.points_for_curve(curve_i); - const int looptri_i = looptri_indices[curve_i]; - const MLoopTri &looptri = looptris[looptri_i]; - const int poly_i = looptri.poly; - const float3 &root_pos_cu = positions_cu[points.first()]; const float3 root_pos_su = curves_to_surface_mat * root_pos_cu; + BVHTreeNearest nearest; + nearest.dist_sq = FLT_MAX; + BLI_bvhtree_find_nearest( + surface_bvh.tree, root_pos_su, &nearest, surface_bvh.nearest_callback, &surface_bvh); + BLI_assert(nearest.index >= 0); + + const int looptri_i = nearest.index; + const MLoopTri &looptri = looptris[looptri_i]; + const int poly_i = looptri.poly; + const int mface_i = find_mface_for_root_position( surface_me, poly_to_mface_map[poly_i], root_pos_su); const MFace &mface = surface_me.mface[mface_i]; @@ -315,6 +363,140 @@ static void CURVES_OT_convert_to_particle_system(wmOperatorType *ot) ot->flag = OPTYPE_UNDO | OPTYPE_REGISTER; } +namespace convert_from_particle_system { + +static bke::CurvesGeometry particles_to_curves(Object &object, ParticleSystem &psys) +{ + ParticleSettings &settings = *psys.part; + if (psys.part->type != PART_HAIR) { + return {}; + } + + const bool transfer_parents = (settings.draw & PART_DRAW_PARENT) || settings.childtype == 0; + + const Span<ParticleCacheKey *> parents_cache{psys.pathcache, psys.totcached}; + const Span<ParticleCacheKey *> children_cache{psys.childcache, psys.totchildcache}; + + int points_num = 0; + Vector<int> curve_offsets; + Vector<int> parents_to_transfer; + Vector<int> children_to_transfer; + if (transfer_parents) { + for (const int parent_i : parents_cache.index_range()) { + const int segments = parents_cache[parent_i]->segments; + if (segments <= 0) { + continue; + } + parents_to_transfer.append(parent_i); + curve_offsets.append(points_num); + points_num += segments + 1; + } + } + for (const int child_i : children_cache.index_range()) { + const int segments = children_cache[child_i]->segments; + if (segments <= 0) { + continue; + } + children_to_transfer.append(child_i); + curve_offsets.append(points_num); + points_num += segments + 1; + } + const int curves_num = parents_to_transfer.size() + children_to_transfer.size(); + curve_offsets.append(points_num); + BLI_assert(curve_offsets.size() == curves_num + 1); + bke::CurvesGeometry curves(points_num, curves_num); + curves.offsets_for_write().copy_from(curve_offsets); + + const float4x4 object_to_world_mat = object.obmat; + const float4x4 world_to_object_mat = object_to_world_mat.inverted(); + + MutableSpan<float3> positions = curves.positions_for_write(); + + const auto copy_hair_to_curves = [&](const Span<ParticleCacheKey *> hair_cache, + const Span<int> indices_to_transfer, + const int curve_index_offset) { + threading::parallel_for(indices_to_transfer.index_range(), 256, [&](const IndexRange range) { + for (const int i : range) { + const int hair_i = indices_to_transfer[i]; + const int curve_i = i + curve_index_offset; + const IndexRange points = curves.points_for_curve(curve_i); + const Span<ParticleCacheKey> keys{hair_cache[hair_i], points.size()}; + for (const int key_i : keys.index_range()) { + const float3 key_pos_wo = keys[key_i].co; + positions[points[key_i]] = world_to_object_mat * key_pos_wo; + } + } + }); + }; + + if (transfer_parents) { + copy_hair_to_curves(parents_cache, parents_to_transfer, 0); + } + copy_hair_to_curves(children_cache, children_to_transfer, parents_to_transfer.size()); + + curves.update_curve_types(); + curves.tag_topology_changed(); + return curves; +} + +static int curves_convert_from_particle_system_exec(bContext *C, wmOperator *UNUSED(op)) +{ + Main &bmain = *CTX_data_main(C); + ViewLayer &view_layer = *CTX_data_view_layer(C); + Depsgraph &depsgraph = *CTX_data_depsgraph_pointer(C); + Object *ob_from_orig = ED_object_active_context(C); + ParticleSystem *psys_orig = static_cast<ParticleSystem *>( + CTX_data_pointer_get_type(C, "particle_system", &RNA_ParticleSystem).data); + if (psys_orig == nullptr) { + psys_orig = psys_get_current(ob_from_orig); + } + if (psys_orig == nullptr) { + return OPERATOR_CANCELLED; + } + Object *ob_from_eval = DEG_get_evaluated_object(&depsgraph, ob_from_orig); + ParticleSystem *psys_eval = nullptr; + LISTBASE_FOREACH (ModifierData *, md, &ob_from_eval->modifiers) { + if (md->type != eModifierType_ParticleSystem) { + continue; + } + ParticleSystemModifierData *psmd = reinterpret_cast<ParticleSystemModifierData *>(md); + if (!STREQ(psmd->psys->name, psys_orig->name)) { + continue; + } + psys_eval = psmd->psys; + } + + Object *ob_new = BKE_object_add(&bmain, &view_layer, OB_CURVES, psys_eval->name); + ob_new->dtx |= OB_DRAWBOUNDOX; /* TODO: Remove once there is actual drawing. */ + Curves *curves_id = static_cast<Curves *>(ob_new->data); + BKE_object_apply_mat4(ob_new, ob_from_orig->obmat, true, false); + bke::CurvesGeometry::wrap(curves_id->geometry) = particles_to_curves(*ob_from_eval, *psys_eval); + + DEG_relations_tag_update(&bmain); + WM_main_add_notifier(NC_OBJECT | ND_DRAW, nullptr); + + return OPERATOR_FINISHED; +} + +static bool curves_convert_from_particle_system_poll(bContext *C) +{ + return ED_object_active_context(C) != nullptr; +} + +} // namespace convert_from_particle_system + +static void CURVES_OT_convert_from_particle_system(wmOperatorType *ot) +{ + ot->name = "Convert Particle System to Curves"; + ot->idname = "CURVES_OT_convert_from_particle_system"; + ot->description = "Add a new curves object based on the current state of the particle system"; + + ot->poll = convert_from_particle_system::curves_convert_from_particle_system_poll; + ot->exec = convert_from_particle_system::curves_convert_from_particle_system_exec; + + ot->flag = OPTYPE_UNDO | OPTYPE_REGISTER; +} + namespace snap_curves_to_surface { enum class AttachMode { @@ -342,7 +524,7 @@ static int snap_curves_to_surface_exec(bContext *C, wmOperator *op) { const AttachMode attach_mode = static_cast<AttachMode>(RNA_enum_get(op->ptr, "attach_mode")); - std::atomic<bool> found_invalid_looptri_index = false; + std::atomic<bool> found_invalid_uv = false; CTX_DATA_BEGIN (C, Object *, curves_ob, selected_objects) { if (curves_ob->type != OB_CURVES) { @@ -359,9 +541,19 @@ static int snap_curves_to_surface_exec(bContext *C, wmOperator *op) } Mesh &surface_mesh = *static_cast<Mesh *>(surface_ob.data); + MeshComponent surface_mesh_component; + surface_mesh_component.replace(&surface_mesh, GeometryOwnershipType::ReadOnly); + + VArray_Span<float2> surface_uv_map; + if (curves_id.surface_uv_map != nullptr) { + surface_uv_map = surface_mesh_component + .attribute_try_get_for_read( + curves_id.surface_uv_map, ATTR_DOMAIN_CORNER, CD_PROP_FLOAT2) + .typed<float2>(); + } + MutableSpan<float3> positions_cu = curves.positions_for_write(); - MutableSpan<int> surface_triangle_indices = curves.surface_triangle_indices_for_write(); - MutableSpan<float2> surface_triangle_coords = curves.surface_triangle_coords_for_write(); + MutableSpan<float2> surface_uv_coords = curves.surface_uv_coords_for_write(); const Span<MLoopTri> surface_looptris = {BKE_mesh_runtime_looptri_ensure(&surface_mesh), BKE_mesh_runtime_looptri_len(&surface_mesh)}; @@ -407,36 +599,51 @@ static int snap_curves_to_surface_exec(bContext *C, wmOperator *op) pos_cu += pos_diff_cu; } - surface_triangle_indices[curve_i] = looptri_index; - - const MLoopTri &looptri = surface_looptris[looptri_index]; - const float3 &p0_su = surface_mesh.mvert[surface_mesh.mloop[looptri.tri[0]].v].co; - const float3 &p1_su = surface_mesh.mvert[surface_mesh.mloop[looptri.tri[1]].v].co; - const float3 &p2_su = surface_mesh.mvert[surface_mesh.mloop[looptri.tri[2]].v].co; - float3 bary_coords; - interp_weights_tri_v3(bary_coords, p0_su, p1_su, p2_su, new_first_point_pos_su); - surface_triangle_coords[curve_i] = bke::curves::encode_surface_bary_coord(bary_coords); + if (!surface_uv_map.is_empty()) { + const MLoopTri &looptri = surface_looptris[looptri_index]; + const int corner0 = looptri.tri[0]; + const int corner1 = looptri.tri[1]; + const int corner2 = looptri.tri[2]; + const float2 &uv0 = surface_uv_map[corner0]; + const float2 &uv1 = surface_uv_map[corner1]; + const float2 &uv2 = surface_uv_map[corner2]; + const float3 &p0_su = surface_mesh.mvert[surface_mesh.mloop[corner0].v].co; + const float3 &p1_su = surface_mesh.mvert[surface_mesh.mloop[corner1].v].co; + const float3 &p2_su = surface_mesh.mvert[surface_mesh.mloop[corner2].v].co; + float3 bary_coords; + interp_weights_tri_v3(bary_coords, p0_su, p1_su, p2_su, new_first_point_pos_su); + const float2 uv = attribute_math::mix3(bary_coords, uv0, uv1, uv2); + surface_uv_coords[curve_i] = uv; + } } }); break; } case AttachMode::Deform: { + if (surface_uv_map.is_empty()) { + BKE_report(op->reports, + RPT_ERROR, + "Curves do not have attachment information that can be used for deformation"); + break; + } + using geometry::ReverseUVSampler; + ReverseUVSampler reverse_uv_sampler{surface_uv_map, surface_looptris}; + threading::parallel_for(curves.curves_range(), 256, [&](const IndexRange curves_range) { for (const int curve_i : curves_range) { const IndexRange points = curves.points_for_curve(curve_i); const int first_point_i = points.first(); const float3 old_first_point_pos_cu = positions_cu[first_point_i]; - const int looptri_index = surface_triangle_indices[curve_i]; - if (!surface_looptris.index_range().contains(looptri_index)) { - found_invalid_looptri_index = true; + const float2 uv = surface_uv_coords[curve_i]; + ReverseUVSampler::Result lookup_result = reverse_uv_sampler.sample(uv); + if (lookup_result.type != ReverseUVSampler::ResultType::Ok) { + found_invalid_uv = true; continue; } - const MLoopTri &looptri = surface_looptris[looptri_index]; - - const float3 bary_coords = bke::curves::decode_surface_bary_coord( - surface_triangle_coords[curve_i]); + const MLoopTri &looptri = *lookup_result.looptri; + const float3 &bary_coords = lookup_result.bary_weights; const float3 &p0_su = surface_mesh.mvert[surface_mesh.mloop[looptri.tri[0]].v].co; const float3 &p1_su = surface_mesh.mvert[surface_mesh.mloop[looptri.tri[1]].v].co; @@ -460,7 +667,7 @@ static int snap_curves_to_surface_exec(bContext *C, wmOperator *op) } CTX_DATA_END; - if (found_invalid_looptri_index) { + if (found_invalid_uv) { BKE_report(op->reports, RPT_INFO, "Could not snap some curves to the surface"); } @@ -508,11 +715,231 @@ static void CURVES_OT_snap_curves_to_surface(wmOperatorType *ot) "How to find the point on the surface to attach to"); } +static bool selection_poll(bContext *C) +{ + const Object *object = CTX_data_active_object(C); + if (object == nullptr) { + return false; + } + if (object->type != OB_CURVES) { + return false; + } + if (!BKE_id_is_editable(CTX_data_main(C), static_cast<const ID *>(object->data))) { + return false; + } + return true; +} + +namespace set_selection_domain { + +static int curves_set_selection_domain_exec(bContext *C, wmOperator *op) +{ + const eAttrDomain domain = eAttrDomain(RNA_enum_get(op->ptr, "domain")); + + for (Curves *curves_id : get_unique_editable_curves(*C)) { + if (curves_id->selection_domain == domain && (curves_id->flag & CV_SCULPT_SELECTION_ENABLED)) { + continue; + } + + const eAttrDomain old_domain = eAttrDomain(curves_id->selection_domain); + curves_id->selection_domain = domain; + curves_id->flag |= CV_SCULPT_SELECTION_ENABLED; + + CurveComponent component; + component.replace(curves_id, GeometryOwnershipType::Editable); + CurvesGeometry &curves = CurvesGeometry::wrap(curves_id->geometry); + + if (old_domain == ATTR_DOMAIN_POINT && domain == ATTR_DOMAIN_CURVE) { + VArray<float> curve_selection = curves.adapt_domain( + curves.selection_point_float(), ATTR_DOMAIN_POINT, ATTR_DOMAIN_CURVE); + curve_selection.materialize(curves.selection_curve_float_for_write()); + component.attribute_try_delete(".selection_point_float"); + } + else if (old_domain == ATTR_DOMAIN_CURVE && domain == ATTR_DOMAIN_POINT) { + VArray<float> point_selection = curves.adapt_domain( + curves.selection_curve_float(), ATTR_DOMAIN_CURVE, ATTR_DOMAIN_POINT); + point_selection.materialize(curves.selection_point_float_for_write()); + component.attribute_try_delete(".selection_curve_float"); + } + + /* Use #ID_RECALC_GEOMETRY instead of #ID_RECALC_SELECT because it is handled as a generic + * attribute for now. */ + DEG_id_tag_update(&curves_id->id, ID_RECALC_GEOMETRY); + WM_event_add_notifier(C, NC_GEOM | ND_DATA, curves_id); + } + + WM_main_add_notifier(NC_SPACE | ND_SPACE_VIEW3D, nullptr); + + return OPERATOR_FINISHED; +} + +} // namespace set_selection_domain + +static void CURVES_OT_set_selection_domain(wmOperatorType *ot) +{ + PropertyRNA *prop; + + ot->name = "Set Select Mode"; + ot->idname = __func__; + ot->description = "Change the mode used for selection masking in curves sculpt mode"; + + ot->exec = set_selection_domain::curves_set_selection_domain_exec; + ot->poll = selection_poll; + + ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; + + ot->prop = prop = RNA_def_enum( + ot->srna, "domain", rna_enum_attribute_curves_domain_items, 0, "Domain", ""); + RNA_def_property_flag(prop, (PropertyFlag)(PROP_HIDDEN | PROP_SKIP_SAVE)); +} + +namespace disable_selection { + +static int curves_disable_selection_exec(bContext *C, wmOperator *UNUSED(op)) +{ + for (Curves *curves_id : get_unique_editable_curves(*C)) { + curves_id->flag &= ~CV_SCULPT_SELECTION_ENABLED; + + /* Use #ID_RECALC_GEOMETRY instead of #ID_RECALC_SELECT because it is handled as a generic + * attribute for now. */ + DEG_id_tag_update(&curves_id->id, ID_RECALC_GEOMETRY); + WM_event_add_notifier(C, NC_GEOM | ND_DATA, curves_id); + } + + WM_main_add_notifier(NC_SPACE | ND_SPACE_VIEW3D, nullptr); + + return OPERATOR_FINISHED; +} + +} // namespace disable_selection + +static void CURVES_OT_disable_selection(wmOperatorType *ot) +{ + ot->name = "Disable Selection"; + ot->idname = __func__; + ot->description = "Disable the drawing of influence of selection in sculpt mode"; + + ot->exec = disable_selection::curves_disable_selection_exec; + ot->poll = selection_poll; + + ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; +} + +namespace select_all { + +static bool varray_contains_nonzero(const VArray<float> &data) +{ + bool contains_nonzero = false; + devirtualize_varray(data, [&](const auto array) { + for (const int i : data.index_range()) { + if (array[i] != 0.0f) { + contains_nonzero = true; + break; + } + } + }); + return contains_nonzero; +} + +static bool any_point_selected(const CurvesGeometry &curves) +{ + return varray_contains_nonzero(curves.selection_point_float()); +} + +static bool any_point_selected(const Span<Curves *> curves_ids) +{ + for (const Curves *curves_id : curves_ids) { + if (any_point_selected(CurvesGeometry::wrap(curves_id->geometry))) { + return true; + } + } + return false; +} + +static void invert_selection(MutableSpan<float> selection) +{ + threading::parallel_for(selection.index_range(), 2048, [&](IndexRange range) { + for (const int i : range) { + selection[i] = 1.0f - selection[i]; + } + }); +} + +static int select_all_exec(bContext *C, wmOperator *op) +{ + int action = RNA_enum_get(op->ptr, "action"); + + VectorSet<Curves *> unique_curves = get_unique_editable_curves(*C); + + if (action == SEL_TOGGLE) { + action = any_point_selected(unique_curves) ? SEL_DESELECT : SEL_SELECT; + } + + for (Curves *curves_id : unique_curves) { + if (action == SEL_SELECT) { + /* The optimization to avoid storing the selection when everything is selected causes too + * many problems at the moment, since there is no proper visualization yet. Keep the code but + * disable it for now. */ +#if 0 + CurveComponent component; + component.replace(curves_id, GeometryOwnershipType::Editable); + component.attribute_try_delete(".selection_point_float"); + component.attribute_try_delete(".selection_curve_float"); +#else + CurvesGeometry &curves = CurvesGeometry::wrap(curves_id->geometry); + MutableSpan<float> selection = curves_id->selection_domain == ATTR_DOMAIN_POINT ? + curves.selection_point_float_for_write() : + curves.selection_curve_float_for_write(); + selection.fill(1.0f); +#endif + } + else { + CurvesGeometry &curves = CurvesGeometry::wrap(curves_id->geometry); + MutableSpan<float> selection = curves_id->selection_domain == ATTR_DOMAIN_POINT ? + curves.selection_point_float_for_write() : + curves.selection_curve_float_for_write(); + if (action == SEL_DESELECT) { + selection.fill(0.0f); + } + else if (action == SEL_INVERT) { + invert_selection(selection); + } + } + + /* Use #ID_RECALC_GEOMETRY instead of #ID_RECALC_SELECT because it is handled as a generic + * attribute for now. */ + DEG_id_tag_update(&curves_id->id, ID_RECALC_GEOMETRY); + WM_event_add_notifier(C, NC_GEOM | ND_DATA, curves_id); + } + + return OPERATOR_FINISHED; +} + +} // namespace select_all + +static void SCULPT_CURVES_OT_select_all(wmOperatorType *ot) +{ + ot->name = "(De)select All"; + ot->idname = __func__; + ot->description = "(De)select all control points"; + + ot->exec = select_all::select_all_exec; + ot->poll = selection_poll; + + ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; + + WM_operator_properties_select_all(ot); +} + } // namespace blender::ed::curves void ED_operatortypes_curves() { using namespace blender::ed::curves; WM_operatortype_append(CURVES_OT_convert_to_particle_system); + WM_operatortype_append(CURVES_OT_convert_from_particle_system); WM_operatortype_append(CURVES_OT_snap_curves_to_surface); + WM_operatortype_append(CURVES_OT_set_selection_domain); + WM_operatortype_append(SCULPT_CURVES_OT_select_all); + WM_operatortype_append(CURVES_OT_disable_selection); } |