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me-main #1

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Nate Rupsis merged 123 commits from me-main into main 2023-02-13 18:39:11 +01:00
Conversation 0 Commits 123 Files Changed 969 +329 -150
13 changed files with 329 additions and 150 deletions
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Showing only changes of commit b723a398f3 - Show all commits

2
release/scripts/startup/bl_ui/space_view3d.py
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@ -161,6 +161,8 @@ class VIEW3D_HT_tool_header(Header):
sub.prop(context.object.data, "use_mirror_y", text="Y", toggle=True) sub.prop(context.object.data, "use_mirror_y", text="Y", toggle=True)
sub.prop(context.object.data, "use_mirror_z", text="Z", toggle=True) sub.prop(context.object.data, "use_mirror_z", text="Z", toggle=True)
layout.prop(context.object.data, "use_sculpt_collision", icon='MOD_PHYSICS', icon_only=True, toggle=True)
# Expand panels from the side-bar as popovers. # Expand panels from the side-bar as popovers.
popover_kw = {"space_type": 'VIEW_3D', "region_type": 'UI', "category": "Tool"} popover_kw = {"space_type": 'VIEW_3D', "region_type": 'UI', "category": "Tool"}

5
source/blender/blenlib/BLI_index_mask_ops.hh
View File

@ -71,4 +71,9 @@ IndexMask find_indices_from_virtual_array(IndexMask indices_to_check,
int64_t parallel_grain_size, int64_t parallel_grain_size,
Vector<int64_t> &r_indices); Vector<int64_t> &r_indices);
/**
* Find the true indices in a boolean span.
*/
IndexMask find_indices_from_array(Span<bool> array, Vector<int64_t> &r_indices);
} // namespace blender::index_mask_ops } // namespace blender::index_mask_ops

9
source/blender/blenlib/intern/index_mask.cc
View File

@ -208,8 +208,7 @@ IndexMask find_indices_from_virtual_array(const IndexMask indices_to_check,
} }
if (virtual_array.is_span()) { if (virtual_array.is_span()) {
const Span<bool> span = virtual_array.get_internal_span(); const Span<bool> span = virtual_array.get_internal_span();
return find_indices_based_on_predicate( return find_indices_from_array(span, r_indices);
indices_to_check, 4096, r_indices, [&](const int64_t i) { return span[i]; });
} }
threading::EnumerableThreadSpecific<Vector<bool>> materialize_buffers; threading::EnumerableThreadSpecific<Vector<bool>> materialize_buffers;
@ -241,4 +240,10 @@ IndexMask find_indices_from_virtual_array(const IndexMask indices_to_check,
return detail::find_indices_based_on_predicate__merge(indices_to_check, sub_masks, r_indices); return detail::find_indices_based_on_predicate__merge(indices_to_check, sub_masks, r_indices);
} }
IndexMask find_indices_from_array(const Span<bool> array, Vector<int64_t> &r_indices)
{
return find_indices_based_on_predicate(
array.index_range(), 4096, r_indices, [array](const int64_t i) { return array[i]; });
}
} // namespace blender::index_mask_ops } // namespace blender::index_mask_ops

38
source/blender/editors/sculpt_paint/curves_sculpt_brush.cc
View File

@ -22,6 +22,8 @@
#include "BLT_translation.h" #include "BLT_translation.h"
#include "GEO_curve_constraints.hh"
/** /**
* The code below uses a prefix naming convention to indicate the coordinate space: * The code below uses a prefix naming convention to indicate the coordinate space:
* cu: Local space of the curves object that is being edited. * cu: Local space of the curves object that is being edited.
@ -431,4 +433,40 @@ void report_invalid_uv_map(ReportList *reports)
BKE_report(reports, RPT_WARNING, TIP_("Invalid UV map: UV islands must not overlap")); BKE_report(reports, RPT_WARNING, TIP_("Invalid UV map: UV islands must not overlap"));
} }
void CurvesConstraintSolver::initialize(const bke::CurvesGeometry &curves,
const IndexMask curve_selection,
const bool use_surface_collision)
{
use_surface_collision_ = use_surface_collision;
segment_lengths_.reinitialize(curves.points_num());
geometry::curve_constraints::compute_segment_lengths(
curves.points_by_curve(), curves.positions(), curve_selection, segment_lengths_);
if (use_surface_collision_) {
start_positions_ = curves.positions();
}
}
void CurvesConstraintSolver::solve_step(bke::CurvesGeometry &curves,
const IndexMask curve_selection,
const Mesh *surface,
const CurvesSurfaceTransforms &transforms)
{
if (use_surface_collision_ && surface != nullptr) {
geometry::curve_constraints::solve_length_and_collision_constraints(
curves.points_by_curve(),
curve_selection,
segment_lengths_,
start_positions_,
*surface,
transforms,
curves.positions_for_write());
start_positions_ = curves.positions();
}
else {
geometry::curve_constraints::solve_length_constraints(
curves.points_by_curve(), curve_selection, segment_lengths_, curves.positions_for_write());
}
curves.tag_positions_changed();
}
} // namespace blender::ed::sculpt_paint } // namespace blender::ed::sculpt_paint

80
source/blender/editors/sculpt_paint/curves_sculpt_comb.cc
View File

@ -66,8 +66,8 @@ class CombOperation : public CurvesSculptStrokeOperation {
/** Only used when a 3D brush is used. */ /** Only used when a 3D brush is used. */
CurvesBrush3D brush_3d_; CurvesBrush3D brush_3d_;
/** Length of each segment indexed by the index of the first point in the segment. */ /** Solver for length and collision constraints. */
Array<float> segment_lengths_cu_; CurvesConstraintSolver constraint_solver_;
friend struct CombOperationExecutor; friend struct CombOperationExecutor;
@ -144,12 +144,13 @@ struct CombOperationExecutor {
if (falloff_shape_ == PAINT_FALLOFF_SHAPE_SPHERE) { if (falloff_shape_ == PAINT_FALLOFF_SHAPE_SPHERE) {
this->initialize_spherical_brush_reference_point(); this->initialize_spherical_brush_reference_point();
} }
this->initialize_segment_lengths(); self_->constraint_solver_.initialize(
*curves_orig_, curve_selection_, curves_id_orig_->flag & CV_SCULPT_COLLISION_ENABLED);
/* Combing does nothing when there is no mouse movement, so return directly. */ /* Combing does nothing when there is no mouse movement, so return directly. */
return; return;
} }
EnumerableThreadSpecific<Vector<int>> changed_curves; Array<bool> changed_curves(curves_orig_->curves_num(), false);
if (falloff_shape_ == PAINT_FALLOFF_SHAPE_TUBE) { if (falloff_shape_ == PAINT_FALLOFF_SHAPE_TUBE) {
this->comb_projected_with_symmetry(changed_curves); this->comb_projected_with_symmetry(changed_curves);
@ -161,7 +162,14 @@ struct CombOperationExecutor {
BLI_assert_unreachable(); BLI_assert_unreachable();
} }
this->restore_segment_lengths(changed_curves); const Mesh *surface = curves_id_orig_->surface && curves_id_orig_->surface->type == OB_MESH ?
static_cast<Mesh *>(curves_id_orig_->surface->data) :
nullptr;
Vector<int64_t> indices;
const IndexMask changed_curves_mask = index_mask_ops::find_indices_from_array(changed_curves,
indices);
self_->constraint_solver_.solve_step(*curves_orig_, changed_curves_mask, surface, transforms_);
curves_orig_->tag_positions_changed(); curves_orig_->tag_positions_changed();
DEG_id_tag_update(&curves_id_orig_->id, ID_RECALC_GEOMETRY); DEG_id_tag_update(&curves_id_orig_->id, ID_RECALC_GEOMETRY);
@ -172,7 +180,7 @@ struct CombOperationExecutor {
/** /**
* Do combing in screen space. * Do combing in screen space.
*/ */
void comb_projected_with_symmetry(EnumerableThreadSpecific<Vector<int>> &r_changed_curves) void comb_projected_with_symmetry(MutableSpan<bool> r_changed_curves)
{ {
const Vector<float4x4> symmetry_brush_transforms = get_symmetry_brush_transforms( const Vector<float4x4> symmetry_brush_transforms = get_symmetry_brush_transforms(
eCurvesSymmetryType(curves_id_orig_->symmetry)); eCurvesSymmetryType(curves_id_orig_->symmetry));
@ -181,8 +189,7 @@ struct CombOperationExecutor {
} }
} }
void comb_projected(EnumerableThreadSpecific<Vector<int>> &r_changed_curves, void comb_projected(MutableSpan<bool> r_changed_curves, const float4x4 &brush_transform)
const float4x4 &brush_transform)
{ {
const float4x4 brush_transform_inv = math::invert(brush_transform); const float4x4 brush_transform_inv = math::invert(brush_transform);
@ -198,7 +205,6 @@ struct CombOperationExecutor {
const float brush_radius_sq_re = pow2f(brush_radius_re); const float brush_radius_sq_re = pow2f(brush_radius_re);
threading::parallel_for(curve_selection_.index_range(), 256, [&](const IndexRange range) { threading::parallel_for(curve_selection_.index_range(), 256, [&](const IndexRange range) {
Vector<int> &local_changed_curves = r_changed_curves.local();
for (const int curve_i : curve_selection_.slice(range)) { for (const int curve_i : curve_selection_.slice(range)) {
bool curve_changed = false; bool curve_changed = false;
const IndexRange points = points_by_curve[curve_i]; const IndexRange points = points_by_curve[curve_i];
@ -246,7 +252,7 @@ struct CombOperationExecutor {
curve_changed = true; curve_changed = true;
} }
if (curve_changed) { if (curve_changed) {
local_changed_curves.append(curve_i); r_changed_curves[curve_i] = true;
} }
} }
}); });
@ -255,7 +261,7 @@ struct CombOperationExecutor {
/** /**
* Do combing in 3D space. * Do combing in 3D space.
*/ */
void comb_spherical_with_symmetry(EnumerableThreadSpecific<Vector<int>> &r_changed_curves) void comb_spherical_with_symmetry(MutableSpan<bool> r_changed_curves)
{ {
float4x4 projection; float4x4 projection;
ED_view3d_ob_project_mat_get(ctx_.rv3d, curves_ob_orig_, projection.ptr()); ED_view3d_ob_project_mat_get(ctx_.rv3d, curves_ob_orig_, projection.ptr());
@ -289,7 +295,7 @@ struct CombOperationExecutor {
} }
} }
void comb_spherical(EnumerableThreadSpecific<Vector<int>> &r_changed_curves, void comb_spherical(MutableSpan<bool> r_changed_curves,
const float3 &brush_start_cu, const float3 &brush_start_cu,
const float3 &brush_end_cu, const float3 &brush_end_cu,
const float brush_radius_cu) const float brush_radius_cu)
@ -303,7 +309,6 @@ struct CombOperationExecutor {
const OffsetIndices points_by_curve = curves_orig_->points_by_curve(); const OffsetIndices points_by_curve = curves_orig_->points_by_curve();
threading::parallel_for(curve_selection_.index_range(), 256, [&](const IndexRange range) { threading::parallel_for(curve_selection_.index_range(), 256, [&](const IndexRange range) {
Vector<int> &local_changed_curves = r_changed_curves.local();
for (const int curve_i : curve_selection_.slice(range)) { for (const int curve_i : curve_selection_.slice(range)) {
bool curve_changed = false; bool curve_changed = false;
const IndexRange points = points_by_curve[curve_i]; const IndexRange points = points_by_curve[curve_i];
@ -335,7 +340,7 @@ struct CombOperationExecutor {
curve_changed = true; curve_changed = true;
} }
if (curve_changed) { if (curve_changed) {
local_changed_curves.append(curve_i); r_changed_curves[curve_i] = true;
} }
} }
}); });
@ -357,53 +362,6 @@ struct CombOperationExecutor {
self_->brush_3d_ = *brush_3d; self_->brush_3d_ = *brush_3d;
} }
} }
/**
* Remember the initial length of all curve segments. This allows restoring the length after
* combing.
*/
void initialize_segment_lengths()
{
const Span<float3> positions_cu = curves_orig_->positions();
const OffsetIndices points_by_curve = curves_orig_->points_by_curve();
self_->segment_lengths_cu_.reinitialize(curves_orig_->points_num());
threading::parallel_for(curves_orig_->curves_range(), 128, [&](const IndexRange range) {
for (const int curve_i : range) {
const IndexRange points = points_by_curve[curve_i];
for (const int point_i : points.drop_back(1)) {
const float3 &p1_cu = positions_cu[point_i];
const float3 &p2_cu = positions_cu[point_i + 1];
const float length_cu = math::distance(p1_cu, p2_cu);
self_->segment_lengths_cu_[point_i] = length_cu;
}
}
});
}
/**
* Restore previously stored length for each segment in the changed curves.
*/
void restore_segment_lengths(EnumerableThreadSpecific<Vector<int>> &changed_curves)
{
const Span<float> expected_lengths_cu = self_->segment_lengths_cu_;
const OffsetIndices points_by_curve = curves_orig_->points_by_curve();
MutableSpan<float3> positions_cu = curves_orig_->positions_for_write();
threading::parallel_for_each(changed_curves, [&](const Vector<int> &changed_curves) {
threading::parallel_for(changed_curves.index_range(), 256, [&](const IndexRange range) {
for (const int curve_i : changed_curves.as_span().slice(range)) {
const IndexRange points = points_by_curve[curve_i];
for (const int segment_i : points.drop_back(1)) {
const float3 &p1_cu = positions_cu[segment_i];
float3 &p2_cu = positions_cu[segment_i + 1];
const float3 direction = math::normalize(p2_cu - p1_cu);
const float expected_length_cu = expected_lengths_cu[segment_i];
p2_cu = p1_cu + direction * expected_length_cu;
}
}
});
});
}
}; };
void CombOperation::on_stroke_extended(const bContext &C, const StrokeExtension &stroke_extension) void CombOperation::on_stroke_extended(const bContext &C, const StrokeExtension &stroke_extension)

21
source/blender/editors/sculpt_paint/curves_sculpt_intern.hh
View File

@ -144,4 +144,25 @@ void report_missing_uv_map_on_original_surface(ReportList *reports);
void report_missing_uv_map_on_evaluated_surface(ReportList *reports); void report_missing_uv_map_on_evaluated_surface(ReportList *reports);
void report_invalid_uv_map(ReportList *reports); void report_invalid_uv_map(ReportList *reports);
/**
* Utility class to make it easy for brushes to implement length preservation and surface
* collision.
*/
struct CurvesConstraintSolver {
private:
bool use_surface_collision_;
Array<float3> start_positions_;
Array<float> segment_lengths_;
public:
void initialize(const bke::CurvesGeometry &curves,
const IndexMask curve_selection,
const bool use_surface_collision);
void solve_step(bke::CurvesGeometry &curves,
const IndexMask curve_selection,
const Mesh *surface,
const CurvesSurfaceTransforms &transforms);
};
} // namespace blender::ed::sculpt_paint } // namespace blender::ed::sculpt_paint

60
source/blender/editors/sculpt_paint/curves_sculpt_pinch.cc
View File

@ -4,6 +4,7 @@
#include "curves_sculpt_intern.hh" #include "curves_sculpt_intern.hh"
#include "BLI_index_mask_ops.hh"
#include "BLI_math_matrix_types.hh" #include "BLI_math_matrix_types.hh"
#include "BLI_task.hh" #include "BLI_task.hh"
#include "BLI_vector.hh" #include "BLI_vector.hh"
@ -42,7 +43,9 @@ namespace blender::ed::sculpt_paint {
class PinchOperation : public CurvesSculptStrokeOperation { class PinchOperation : public CurvesSculptStrokeOperation {
private: private:
bool invert_pinch_; bool invert_pinch_;
Array<float> segment_lengths_cu_;
/** Solver for length and collision constraints. */
CurvesConstraintSolver constraint_solver_;
/** Only used when a 3D brush is used. */ /** Only used when a 3D brush is used. */
CurvesBrush3D brush_3d_; CurvesBrush3D brush_3d_;
@ -115,8 +118,6 @@ struct PinchOperationExecutor {
brush_->falloff_shape); brush_->falloff_shape);
if (stroke_extension.is_first) { if (stroke_extension.is_first) {
this->initialize_segment_lengths();
if (falloff_shape == PAINT_FALLOFF_SHAPE_SPHERE) { if (falloff_shape == PAINT_FALLOFF_SHAPE_SPHERE) {
self_->brush_3d_ = *sample_curves_3d_brush(*ctx_.depsgraph, self_->brush_3d_ = *sample_curves_3d_brush(*ctx_.depsgraph,
*ctx_.region, *ctx_.region,
@ -126,6 +127,9 @@ struct PinchOperationExecutor {
brush_pos_re_, brush_pos_re_,
brush_radius_base_re_); brush_radius_base_re_);
} }
self_->constraint_solver_.initialize(
*curves_, curve_selection_, curves_id_->flag & CV_SCULPT_COLLISION_ENABLED);
} }
Array<bool> changed_curves(curves_->curves_num(), false); Array<bool> changed_curves(curves_->curves_num(), false);
@ -139,7 +143,14 @@ struct PinchOperationExecutor {
BLI_assert_unreachable(); BLI_assert_unreachable();
} }
this->restore_segment_lengths(changed_curves); Vector<int64_t> indices;
const IndexMask changed_curves_mask = index_mask_ops::find_indices_from_array(changed_curves,
indices);
const Mesh *surface = curves_id_->surface && curves_id_->surface->type == OB_MESH ?
static_cast<const Mesh *>(curves_id_->surface->data) :
nullptr;
self_->constraint_solver_.solve_step(*curves_, changed_curves_mask, surface, transforms_);
curves_->tag_positions_changed(); curves_->tag_positions_changed();
DEG_id_tag_update(&curves_id_->id, ID_RECALC_GEOMETRY); DEG_id_tag_update(&curves_id_->id, ID_RECALC_GEOMETRY);
WM_main_add_notifier(NC_GEOM | ND_DATA, &curves_id_->id); WM_main_add_notifier(NC_GEOM | ND_DATA, &curves_id_->id);
@ -270,47 +281,6 @@ struct PinchOperationExecutor {
} }
}); });
} }
void initialize_segment_lengths()
{
const Span<float3> positions_cu = curves_->positions();
const OffsetIndices points_by_curve = curves_->points_by_curve();
self_->segment_lengths_cu_.reinitialize(curves_->points_num());
threading::parallel_for(curve_selection_.index_range(), 256, [&](const IndexRange range) {
for (const int curve_i : curve_selection_.slice(range)) {
const IndexRange points = points_by_curve[curve_i];
for (const int point_i : points.drop_back(1)) {
const float3 &p1_cu = positions_cu[point_i];
const float3 &p2_cu = positions_cu[point_i + 1];
const float length_cu = math::distance(p1_cu, p2_cu);
self_->segment_lengths_cu_[point_i] = length_cu;
}
}
});
}
void restore_segment_lengths(const Span<bool> changed_curves)
{
const Span<float> expected_lengths_cu = self_->segment_lengths_cu_;
const OffsetIndices points_by_curve = curves_->points_by_curve();
MutableSpan<float3> positions_cu = curves_->positions_for_write();
threading::parallel_for(changed_curves.index_range(), 256, [&](const IndexRange range) {
for (const int curve_i : range) {
if (!changed_curves[curve_i]) {
continue;
}
const IndexRange points = points_by_curve[curve_i];
for (const int segment_i : IndexRange(points.size() - 1)) {
const float3 &p1_cu = positions_cu[points[segment_i]];
float3 &p2_cu = positions_cu[points[segment_i] + 1];
const float3 direction = math::normalize(p2_cu - p1_cu);
const float expected_length_cu = expected_lengths_cu[points[segment_i]];
p2_cu = p1_cu + direction * expected_length_cu;
}
}
});
}
}; };
void PinchOperation::on_stroke_extended(const bContext &C, const StrokeExtension &stroke_extension) void PinchOperation::on_stroke_extended(const bContext &C, const StrokeExtension &stroke_extension)

59
source/blender/editors/sculpt_paint/curves_sculpt_puff.cc
View File

@ -19,6 +19,7 @@
#include "WM_api.h" #include "WM_api.h"
#include "BLI_index_mask_ops.hh"
#include "BLI_length_parameterize.hh" #include "BLI_length_parameterize.hh"
#include "BLI_math_matrix.hh" #include "BLI_math_matrix.hh"
#include "BLI_task.hh" #include "BLI_task.hh"
@ -34,8 +35,8 @@ class PuffOperation : public CurvesSculptStrokeOperation {
/** Only used when a 3D brush is used. */ /** Only used when a 3D brush is used. */
CurvesBrush3D brush_3d_; CurvesBrush3D brush_3d_;
/** Length of each segment indexed by the index of the first point in the segment. */ /** Solver for length and collision constraints. */
Array<float> segment_lengths_cu_; CurvesConstraintSolver constraint_solver_;
friend struct PuffOperationExecutor; friend struct PuffOperationExecutor;
@ -130,7 +131,6 @@ struct PuffOperationExecutor {
BLI_SCOPED_DEFER([&]() { free_bvhtree_from_mesh(&surface_bvh_); }); BLI_SCOPED_DEFER([&]() { free_bvhtree_from_mesh(&surface_bvh_); });
if (stroke_extension.is_first) { if (stroke_extension.is_first) {
this->initialize_segment_lengths();
if (falloff_shape_ == PAINT_FALLOFF_SHAPE_SPHERE) { if (falloff_shape_ == PAINT_FALLOFF_SHAPE_SPHERE) {
self.brush_3d_ = *sample_curves_3d_brush(*ctx_.depsgraph, self.brush_3d_ = *sample_curves_3d_brush(*ctx_.depsgraph,
*ctx_.region, *ctx_.region,
@ -140,6 +140,9 @@ struct PuffOperationExecutor {
brush_pos_re_, brush_pos_re_,
brush_radius_base_re_); brush_radius_base_re_);
} }
self_->constraint_solver_.initialize(
*curves_, curve_selection_, curves_id_->flag & CV_SCULPT_COLLISION_ENABLED);
} }
Array<float> curve_weights(curve_selection_.size(), 0.0f); Array<float> curve_weights(curve_selection_.size(), 0.0f);
@ -155,7 +158,17 @@ struct PuffOperationExecutor {
} }
this->puff(curve_weights); this->puff(curve_weights);
this->restore_segment_lengths();
Vector<int64_t> changed_curves_indices;
changed_curves_indices.reserve(curve_selection_.size());
for (int64_t select_i : curve_selection_.index_range()) {
if (curve_weights[select_i] > 0.0f) {
changed_curves_indices.append(curve_selection_[select_i]);
}
}
self_->constraint_solver_.solve_step(
*curves_, IndexMask(changed_curves_indices), surface_, transforms_);
curves_->tag_positions_changed(); curves_->tag_positions_changed();
DEG_id_tag_update(&curves_id_->id, ID_RECALC_GEOMETRY); DEG_id_tag_update(&curves_id_->id, ID_RECALC_GEOMETRY);
@ -344,44 +357,6 @@ struct PuffOperationExecutor {
} }
}); });
} }
void initialize_segment_lengths()
{
const OffsetIndices points_by_curve = curves_->points_by_curve();
const Span<float3> positions_cu = curves_->positions();
self_->segment_lengths_cu_.reinitialize(curves_->points_num());
threading::parallel_for(curves_->curves_range(), 128, [&](const IndexRange range) {
for (const int curve_i : range) {
const IndexRange points = points_by_curve[curve_i];
for (const int point_i : points.drop_back(1)) {
const float3 &p1_cu = positions_cu[point_i];
const float3 &p2_cu = positions_cu[point_i + 1];
const float length_cu = math::distance(p1_cu, p2_cu);
self_->segment_lengths_cu_[point_i] = length_cu;
}
}
});
}
void restore_segment_lengths()
{
const Span<float> expected_lengths_cu = self_->segment_lengths_cu_;
const OffsetIndices points_by_curve = curves_->points_by_curve();
MutableSpan<float3> positions_cu = curves_->positions_for_write();
threading::parallel_for(curves_->curves_range(), 256, [&](const IndexRange range) {
for (const int curve_i : range) {
const IndexRange points = points_by_curve[curve_i];
for (const int segment_i : points.drop_back(1)) {
const float3 &p1_cu = positions_cu[segment_i];
float3 &p2_cu = positions_cu[segment_i + 1];
const float3 direction = math::normalize(p2_cu - p1_cu);
const float expected_length_cu = expected_lengths_cu[segment_i];
p2_cu = p1_cu + direction * expected_length_cu;
}
}
});
}
}; };
void PuffOperation::on_stroke_extended(const bContext &C, const StrokeExtension &stroke_extension) void PuffOperation::on_stroke_extended(const bContext &C, const StrokeExtension &stroke_extension)

2
source/blender/geometry/CMakeLists.txt
View File

@ -16,6 +16,7 @@ set(INC
set(SRC set(SRC
intern/add_curves_on_mesh.cc intern/add_curves_on_mesh.cc
intern/curve_constraints.cc
intern/fillet_curves.cc intern/fillet_curves.cc
intern/mesh_merge_by_distance.cc intern/mesh_merge_by_distance.cc
intern/mesh_primitive_cuboid.cc intern/mesh_primitive_cuboid.cc
@ -32,6 +33,7 @@ set(SRC
intern/uv_parametrizer.cc intern/uv_parametrizer.cc
GEO_add_curves_on_mesh.hh GEO_add_curves_on_mesh.hh
GEO_curve_constraints.hh
GEO_fillet_curves.hh GEO_fillet_curves.hh
GEO_mesh_merge_by_distance.hh GEO_mesh_merge_by_distance.hh
GEO_mesh_primitive_cuboid.hh GEO_mesh_primitive_cuboid.hh

27
source/blender/geometry/GEO_curve_constraints.hh Normal file
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@ -0,0 +1,27 @@
/* SPDX-License-Identifier: GPL-2.0-or-later */
#pragma once
#include "BKE_curves.hh"
namespace blender::geometry::curve_constraints {
void compute_segment_lengths(OffsetIndices<int> points_by_curve,
Span<float3> positions,
IndexMask curve_selection,
MutableSpan<float> r_segment_lengths);
void solve_length_constraints(OffsetIndices<int> points_by_curve,
IndexMask curve_selection,
Span<float> segment_lenghts,
MutableSpan<float3> positions);
void solve_length_and_collision_constraints(OffsetIndices<int> points_by_curve,
IndexMask curve_selection,
Span<float> segment_lengths,
Span<float3> start_positions,
const Mesh &surface,
const bke::CurvesSurfaceTransforms &transforms,
MutableSpan<float3> positions);
} // namespace blender::geometry::curve_constraints

168
source/blender/geometry/intern/curve_constraints.cc Normal file
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/* SPDX-License-Identifier: GPL-2.0-or-later */
#include "BLI_math_matrix.hh"
#include "BLI_task.hh"
#include "GEO_curve_constraints.hh"
#include "BKE_bvhutils.h"
/**
* The code below uses a prefix naming convention to indicate the coordinate space:
* `cu`: Local space of the curves object that is being edited.
* `su`: Local space of the surface object.
* `wo`: World space.
*/
namespace blender::geometry::curve_constraints {
void compute_segment_lengths(const OffsetIndices<int> points_by_curve,
const Span<float3> positions,
const IndexMask curve_selection,
MutableSpan<float> r_segment_lengths)
{
BLI_assert(r_segment_lengths.size() == points_by_curve.total_size());
threading::parallel_for(curve_selection.index_range(), 256, [&](const IndexRange range) {
for (const int curve_i : curve_selection.slice(range)) {
const IndexRange points = points_by_curve[curve_i].drop_back(1);
for (const int point_i : points) {
const float3 &p1 = positions[point_i];
const float3 &p2 = positions[point_i + 1];
const float length = math::distance(p1, p2);
r_segment_lengths[point_i] = length;
}
}
});
}
void solve_length_constraints(const OffsetIndices<int> points_by_curve,
const IndexMask curve_selection,
const Span<float> segment_lenghts,
MutableSpan<float3> positions)
{
BLI_assert(segment_lenghts.size() == points_by_curve.total_size());
threading::parallel_for(curve_selection.index_range(), 256, [&](const IndexRange range) {
for (const int curve_i : curve_selection.slice(range)) {
const IndexRange points = points_by_curve[curve_i].drop_back(1);
for (const int point_i : points) {
const float3 &p1 = positions[point_i];
float3 &p2 = positions[point_i + 1];
const float3 direction = math::normalize(p2 - p1);
const float goal_length = segment_lenghts[point_i];
p2 = p1 + direction * goal_length;
}
}
});
}
void solve_length_and_collision_constraints(const OffsetIndices<int> points_by_curve,
const IndexMask curve_selection,
const Span<float> segment_lengths_cu,
const Span<float3> start_positions_cu,
const Mesh &surface,
const bke::CurvesSurfaceTransforms &transforms,
MutableSpan<float3> positions_cu)
{
solve_length_constraints(points_by_curve, curve_selection, segment_lengths_cu, positions_cu);
BVHTreeFromMesh surface_bvh;
BKE_bvhtree_from_mesh_get(&surface_bvh, &surface, BVHTREE_FROM_LOOPTRI, 2);
BLI_SCOPED_DEFER([&]() { free_bvhtree_from_mesh(&surface_bvh); });
const float radius = 0.001f;
const int max_collisions = 5;
threading::parallel_for(curve_selection.index_range(), 64, [&](const IndexRange range) {
for (const int curve_i : curve_selection.slice(range)) {
const IndexRange points = points_by_curve[curve_i];
/* Sometimes not all collisions can be handled. This happens relatively rarely, but if it
* happens it's better to just not to move the curve instead of going into the surface. */
bool revert_curve = false;
for (const int point_i : points.drop_front(1)) {
const float goal_segment_length_cu = segment_lengths_cu[point_i - 1];
const float3 &prev_pos_cu = positions_cu[point_i - 1];
const float3 &start_pos_cu = start_positions_cu[point_i];
int used_iterations = 0;
for ([[maybe_unused]] const int iteration : IndexRange(max_collisions)) {
used_iterations++;
const float3 &old_pos_cu = positions_cu[point_i];
if (start_pos_cu == old_pos_cu) {
/* The point did not move, done. */
break;
}
/* Check if the point moved through a surface. */
const float3 start_pos_su = math::transform_point(transforms.curves_to_surface,
start_pos_cu);
const float3 old_pos_su = math::transform_point(transforms.curves_to_surface,
old_pos_cu);
const float3 pos_diff_su = old_pos_su - start_pos_su;
float max_ray_length_su;
const float3 ray_direction_su = math::normalize_and_get_length(pos_diff_su,
max_ray_length_su);
BVHTreeRayHit hit;
hit.index = -1;
hit.dist = max_ray_length_su + radius;
BLI_bvhtree_ray_cast(surface_bvh.tree,
start_pos_su,
ray_direction_su,
radius,
&hit,
surface_bvh.raycast_callback,
&surface_bvh);
if (hit.index == -1) {
break;
}
const float3 hit_pos_su = hit.co;
const float3 hit_normal_su = hit.no;
if (math::dot(hit_normal_su, ray_direction_su) > 0.0f) {
/* Moving from the inside to the outside is ok. */
break;
}
/* The point was moved through a surface. Now put it back on the correct side of the
* surface and slide it on the surface to keep the length the same. */
const float3 hit_pos_cu = math::transform_point(transforms.surface_to_curves,
hit_pos_su);
const float3 hit_normal_cu = math::normalize(
math::transform_direction(transforms.surface_to_curves_normal, hit_normal_su));
/* Slide on a plane that is slightly above the surface. */
const float3 plane_pos_cu = hit_pos_cu + hit_normal_cu * radius;
const float3 plane_normal_cu = hit_normal_cu;
/* Decompose the current segment into the part normal and tangent to the collision
* surface. */
const float3 collided_segment_cu = plane_pos_cu - prev_pos_cu;
const float3 slide_normal_cu = plane_normal_cu *
math::dot(collided_segment_cu, plane_normal_cu);
const float3 slide_direction_cu = collided_segment_cu - slide_normal_cu;
float slide_direction_length_cu;
const float3 normalized_slide_direction_cu = math::normalize_and_get_length(
slide_direction_cu, slide_direction_length_cu);
/* Use pythagorian theorem to determine how far to slide. */
const float slide_distance_cu = std::sqrt(pow2f(goal_segment_length_cu) -
math::length_squared(slide_normal_cu)) -
slide_direction_length_cu;
positions_cu[point_i] = plane_pos_cu + normalized_slide_direction_cu * slide_distance_cu;
}
if (used_iterations == max_collisions) {
revert_curve = true;
break;
}
}
if (revert_curve) {
positions_cu.slice(points).copy_from(start_positions_cu.slice(points));
}
}
});
}
} // namespace blender::geometry::curve_constraints

1
source/blender/makesdna/DNA_curves_types.h
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@ -197,6 +197,7 @@ typedef struct Curves {
/** #Curves.flag */ /** #Curves.flag */
enum { enum {
HA_DS_EXPAND = (1 << 0), HA_DS_EXPAND = (1 << 0),
CV_SCULPT_COLLISION_ENABLED = (1 << 1),
}; };
/** #Curves.symmetry */ /** #Curves.symmetry */

7
source/blender/makesrna/intern/rna_curves.c
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@ -453,6 +453,13 @@ static void rna_def_curves(BlenderRNA *brna)
RNA_def_property_clear_flag(prop, PROP_ANIMATABLE); RNA_def_property_clear_flag(prop, PROP_ANIMATABLE);
RNA_def_property_update(prop, 0, "rna_Curves_update_data"); RNA_def_property_update(prop, 0, "rna_Curves_update_data");
prop = RNA_def_property(srna, "use_sculpt_collision", PROP_BOOLEAN, PROP_NONE);
RNA_def_property_boolean_sdna(prop, NULL, "flag", CV_SCULPT_COLLISION_ENABLED);
RNA_def_property_ui_text(
prop, "Use Sculpt Collision", "Enable collision with the surface while sculpting");
RNA_def_property_clear_flag(prop, PROP_ANIMATABLE);
RNA_def_property_update(prop, 0, "rna_Curves_update_draw");
/* attributes */ /* attributes */
rna_def_attributes_common(srna); rna_def_attributes_common(srna);