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WIP: uv-simple-select #1

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Chris Blackbourn wants to merge 182 commits from uv-simple-select into main
pull from: uv-simple-select
merge into: Chris_Blackbourn:main

When changing the target branch, be careful to rebase the branch in your fork to match. See documentation.
Conversation 0 Commits 182 Files Changed 881 +339
7 changed files with 339 additions and 0 deletions
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Showing only changes of commit 060efd3b12 - Show all commits

4
source/blender/editors/io/io_usd.c
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@ -382,6 +382,7 @@ static int wm_usd_import_exec(bContext *C, wmOperator *op)
const bool import_materials = RNA_boolean_get(op->ptr, "import_materials"); const bool import_materials = RNA_boolean_get(op->ptr, "import_materials");
const bool import_meshes = RNA_boolean_get(op->ptr, "import_meshes"); const bool import_meshes = RNA_boolean_get(op->ptr, "import_meshes");
const bool import_volumes = RNA_boolean_get(op->ptr, "import_volumes"); const bool import_volumes = RNA_boolean_get(op->ptr, "import_volumes");
const bool import_shapes = RNA_boolean_get(op->ptr, "import_shapes");
const bool import_subdiv = RNA_boolean_get(op->ptr, "import_subdiv"); const bool import_subdiv = RNA_boolean_get(op->ptr, "import_subdiv");
@ -443,6 +444,7 @@ static int wm_usd_import_exec(bContext *C, wmOperator *op)
.import_materials = import_materials, .import_materials = import_materials,
.import_meshes = import_meshes, .import_meshes = import_meshes,
.import_volumes = import_volumes, .import_volumes = import_volumes,
.import_shapes = import_shapes,
.import_subdiv = import_subdiv, .import_subdiv = import_subdiv,
.import_instance_proxies = import_instance_proxies, .import_instance_proxies = import_instance_proxies,
.create_collection = create_collection, .create_collection = create_collection,
@ -488,6 +490,7 @@ static void wm_usd_import_draw(bContext *UNUSED(C), wmOperator *op)
uiItemR(col, ptr, "import_materials", 0, NULL, ICON_NONE); uiItemR(col, ptr, "import_materials", 0, NULL, ICON_NONE);
uiItemR(col, ptr, "import_meshes", 0, NULL, ICON_NONE); uiItemR(col, ptr, "import_meshes", 0, NULL, ICON_NONE);
uiItemR(col, ptr, "import_volumes", 0, NULL, ICON_NONE); uiItemR(col, ptr, "import_volumes", 0, NULL, ICON_NONE);
uiItemR(col, ptr, "import_shapes", 0, NULL, ICON_NONE);
uiItemR(box, ptr, "prim_path_mask", 0, NULL, ICON_NONE); uiItemR(box, ptr, "prim_path_mask", 0, NULL, ICON_NONE);
uiItemR(box, ptr, "scale", 0, NULL, ICON_NONE); uiItemR(box, ptr, "scale", 0, NULL, ICON_NONE);
@ -577,6 +580,7 @@ void WM_OT_usd_import(struct wmOperatorType *ot)
RNA_def_boolean(ot->srna, "import_materials", true, "Materials", ""); RNA_def_boolean(ot->srna, "import_materials", true, "Materials", "");
RNA_def_boolean(ot->srna, "import_meshes", true, "Meshes", ""); RNA_def_boolean(ot->srna, "import_meshes", true, "Meshes", "");
RNA_def_boolean(ot->srna, "import_volumes", true, "Volumes", ""); RNA_def_boolean(ot->srna, "import_volumes", true, "Volumes", "");
RNA_def_boolean(ot->srna, "import_shapes", true, "Shapes", "");
RNA_def_boolean(ot->srna, RNA_def_boolean(ot->srna,
"import_subdiv", "import_subdiv",

2
source/blender/io/usd/CMakeLists.txt
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@ -83,6 +83,7 @@ set(SRC
intern/usd_reader_mesh.cc intern/usd_reader_mesh.cc
intern/usd_reader_nurbs.cc intern/usd_reader_nurbs.cc
intern/usd_reader_prim.cc intern/usd_reader_prim.cc
intern/usd_reader_shape.cc
intern/usd_reader_stage.cc intern/usd_reader_stage.cc
intern/usd_reader_volume.cc intern/usd_reader_volume.cc
intern/usd_reader_xform.cc intern/usd_reader_xform.cc
@ -111,6 +112,7 @@ set(SRC
intern/usd_reader_mesh.h intern/usd_reader_mesh.h
intern/usd_reader_nurbs.h intern/usd_reader_nurbs.h
intern/usd_reader_prim.h intern/usd_reader_prim.h
intern/usd_reader_shape.h
intern/usd_reader_stage.h intern/usd_reader_stage.h
intern/usd_reader_volume.h intern/usd_reader_volume.h
intern/usd_reader_xform.h intern/usd_reader_xform.h

245
source/blender/io/usd/intern/usd_reader_shape.cc Normal file
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@ -0,0 +1,245 @@
/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2023 Nvidia. All rights reserved. */
#include "BKE_lib_id.h"
#include "BKE_mesh.h"
#include "BKE_modifier.h"
#include "BKE_object.h"
#include "DNA_cachefile_types.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_object_types.h"
#include "DNA_windowmanager_types.h"
#include "WM_api.h"
#include "usd_reader_shape.h"
#include <pxr/usd/usdGeom/capsule.h>
#include <pxr/usd/usdGeom/cone.h>
#include <pxr/usd/usdGeom/cube.h>
#include <pxr/usd/usdGeom/cylinder.h>
#include <pxr/usd/usdGeom/sphere.h>
#include <pxr/usdImaging/usdImaging/capsuleAdapter.h>
#include <pxr/usdImaging/usdImaging/coneAdapter.h>
#include <pxr/usdImaging/usdImaging/cubeAdapter.h>
#include <pxr/usdImaging/usdImaging/cylinderAdapter.h>
#include <pxr/usdImaging/usdImaging/sphereAdapter.h>
namespace blender::io::usd {
USDShapeReader::USDShapeReader(const pxr::UsdPrim &prim,
const USDImportParams &import_params,
const ImportSettings &settings)
: USDGeomReader(prim, import_params, settings)
{
}
void USDShapeReader::create_object(Main *bmain, double /*motionSampleTime*/)
{
Mesh *mesh = BKE_mesh_add(bmain, name_.c_str());
object_ = BKE_object_add_only_object(bmain, OB_MESH, name_.c_str());
object_->data = mesh;
}
void USDShapeReader::read_object_data(Main *bmain, double motionSampleTime)
{
Mesh *mesh = (Mesh *)object_->data;
Mesh *read_mesh = this->read_mesh(
mesh, motionSampleTime, import_params_.mesh_read_flag, nullptr);
if (read_mesh != mesh) {
BKE_mesh_nomain_to_mesh(read_mesh, mesh, object_);
if (is_time_varying()) {
USDGeomReader::add_cache_modifier();
}
}
USDXformReader::read_object_data(bmain, motionSampleTime);
}
template<typename Adapter>
void USDShapeReader::read_values(const double motionSampleTime,
pxr::VtVec3fArray &positions,
pxr::VtIntArray &face_indices,
pxr::VtIntArray &face_counts) const
{
Adapter adapter;
pxr::VtValue points_val = adapter.GetPoints(prim_, motionSampleTime);
if (points_val.IsHolding<pxr::VtVec3fArray>()) {
positions = points_val.Get<pxr::VtVec3fArray>();
}
pxr::VtValue topology_val = adapter.GetTopology(prim_, pxr::SdfPath(), motionSampleTime);
if (topology_val.IsHolding<pxr::HdMeshTopology>()) {
const pxr::HdMeshTopology &topology = topology_val.Get<pxr::HdMeshTopology>();
face_counts = topology.GetFaceVertexCounts();
face_indices = topology.GetFaceVertexIndices();
}
}
bool USDShapeReader::read_mesh_values(double motionSampleTime,
pxr::VtVec3fArray &positions,
pxr::VtIntArray &face_indices,
pxr::VtIntArray &face_counts) const
{
if (prim_.IsA<pxr::UsdGeomCapsule>()) {
read_values<pxr::UsdImagingCapsuleAdapter>(
motionSampleTime, positions, face_indices, face_counts);
return true;
}
if (prim_.IsA<pxr::UsdGeomCylinder>()) {
read_values<pxr::UsdImagingCylinderAdapter>(
motionSampleTime, positions, face_indices, face_counts);
return true;
}
if (prim_.IsA<pxr::UsdGeomCone>()) {
read_values<pxr::UsdImagingConeAdapter>(
motionSampleTime, positions, face_indices, face_counts);
return true;
}
if (prim_.IsA<pxr::UsdGeomCube>()) {
read_values<pxr::UsdImagingCubeAdapter>(
motionSampleTime, positions, face_indices, face_counts);
return true;
}
if (prim_.IsA<pxr::UsdGeomSphere>()) {
read_values<pxr::UsdImagingSphereAdapter>(
motionSampleTime, positions, face_indices, face_counts);
return true;
}
WM_reportf(RPT_ERROR,
"Unhandled Gprim type: %s (%s)",
prim_.GetTypeName().GetText(),
prim_.GetPath().GetText());
return false;
}
Mesh *USDShapeReader::read_mesh(struct Mesh *existing_mesh,
double motionSampleTime,
int /*read_flag*/,
const char ** /*err_str*/)
{
pxr::VtIntArray face_indices;
pxr::VtIntArray face_counts;
if (!prim_) {
return existing_mesh;
}
/* Should have a good set of data by this point-- copy over. */
Mesh *active_mesh = mesh_from_prim(existing_mesh, motionSampleTime, face_indices, face_counts);
if (active_mesh == existing_mesh) {
return existing_mesh;
}
MutableSpan<MPoly> polys = active_mesh->polys_for_write();
MutableSpan<MLoop> loops = active_mesh->loops_for_write();
const char should_smooth = prim_.IsA<pxr::UsdGeomCube>() ? 0 : ME_SMOOTH;
int loop_index = 0;
for (int i = 0; i < face_counts.size(); i++) {
const int face_size = face_counts[i];
MPoly &poly = polys[i];
poly.loopstart = loop_index;
poly.totloop = face_size;
/* Don't smooth-shade cubes; we're not worrying about sharpness for Gprims. */
poly.flag |= should_smooth;
for (int f = 0; f < face_size; ++f, ++loop_index) {
loops[loop_index].v = face_indices[loop_index];
}
}
BKE_mesh_calc_edges(active_mesh, false, false);
return active_mesh;
}
Mesh *USDShapeReader::mesh_from_prim(Mesh *existing_mesh,
double motionSampleTime,
pxr::VtIntArray &face_indices,
pxr::VtIntArray &face_counts) const
{
pxr::VtVec3fArray positions;
if (!read_mesh_values(motionSampleTime, positions, face_indices, face_counts)) {
return existing_mesh;
}
const bool poly_counts_match = existing_mesh ? face_counts.size() == existing_mesh->totpoly :
false;
const bool position_counts_match = existing_mesh ? positions.size() == existing_mesh->totvert :
false;
Mesh *active_mesh = nullptr;
if (!position_counts_match || !poly_counts_match) {
active_mesh = BKE_mesh_new_nomain_from_template(
existing_mesh, positions.size(), 0, 0, face_indices.size(), face_counts.size());
}
else {
active_mesh = existing_mesh;
}
MutableSpan<float3> vert_positions = active_mesh->vert_positions_for_write();
for (int i = 0; i < positions.size(); i++) {
vert_positions[i][0] = positions[i][0];
vert_positions[i][1] = positions[i][1];
vert_positions[i][2] = positions[i][2];
}
return active_mesh;
}
bool USDShapeReader::is_time_varying()
{
if (prim_.IsA<pxr::UsdGeomCapsule>()) {
pxr::UsdGeomCapsule geom(prim_);
return (geom.GetAxisAttr().ValueMightBeTimeVarying() ||
geom.GetHeightAttr().ValueMightBeTimeVarying() ||
geom.GetRadiusAttr().ValueMightBeTimeVarying());
}
if (prim_.IsA<pxr::UsdGeomCylinder>()) {
pxr::UsdGeomCylinder geom(prim_);
return (geom.GetAxisAttr().ValueMightBeTimeVarying() ||
geom.GetHeightAttr().ValueMightBeTimeVarying() ||
geom.GetRadiusAttr().ValueMightBeTimeVarying());
}
if (prim_.IsA<pxr::UsdGeomCone>()) {
pxr::UsdGeomCone geom(prim_);
return (geom.GetAxisAttr().ValueMightBeTimeVarying() ||
geom.GetHeightAttr().ValueMightBeTimeVarying() ||
geom.GetRadiusAttr().ValueMightBeTimeVarying());
}
if (prim_.IsA<pxr::UsdGeomCube>()) {
pxr::UsdGeomCube geom(prim_);
return geom.GetSizeAttr().ValueMightBeTimeVarying();
}
if (prim_.IsA<pxr::UsdGeomSphere>()) {
pxr::UsdGeomSphere geom(prim_);
return geom.GetRadiusAttr().ValueMightBeTimeVarying();
}
WM_reportf(RPT_ERROR,
"Unhandled Gprim type: %s (%s)",
prim_.GetTypeName().GetText(),
prim_.GetPath().GetText());
return false;
}
} // namespace blender::io::usd

62
source/blender/io/usd/intern/usd_reader_shape.h Normal file
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@ -0,0 +1,62 @@
/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2023 Nvidia. All rights reserved. */
#pragma once
#include "usd.h"
#include "usd_reader_geom.h"
#include "usd_reader_xform.h"
#include <pxr/usd/usdGeom/gprim.h>
struct Mesh;
namespace blender::io::usd {
/*
* Read USDGeom primitive shapes as Blender Meshes. This class uses the same adapter functions
* as the GL viewport to generate geometry for each of the supported types.
*/
class USDShapeReader : public USDGeomReader {
private:
/* Template required to read mesh information out of Shape prims,
* as each prim type has a separate subclass. */
template<typename Adapter>
void read_values(double motionSampleTime,
pxr::VtVec3fArray &positions,
pxr::VtIntArray &face_indices,
pxr::VtIntArray &face_counts) const;
/* Wrapper for the templated method read_values, calling the correct template
* instantiation based on the introspected prim type. */
bool read_mesh_values(double motionSampleTime,
pxr::VtVec3fArray &positions,
pxr::VtIntArray &face_indices,
pxr::VtIntArray &face_counts) const;
/* Read the pxr:UsdGeomMesh values and convert them to a Blender Mesh,
* also returning face_indices and counts for further loop processing. */
Mesh *mesh_from_prim(Mesh *existing_mesh,
double motionSampleTime,
pxr::VtIntArray &face_indices,
pxr::VtIntArray &face_counts) const;
public:
USDShapeReader(const pxr::UsdPrim &prim,
const USDImportParams &import_params,
const ImportSettings &settings);
void create_object(Main *bmain, double /*motionSampleTime*/) override;
void read_object_data(Main *bmain, double motionSampleTime) override;
Mesh *read_mesh(Mesh *existing_mesh,
double motionSampleTime,
int /*read_flag*/,
const char ** /*err_str*/) override;
bool is_time_varying();
virtual bool topology_changed(const Mesh * /*existing_mesh*/, double /*motionSampleTime*/)
{
return false;
};
};
} // namespace blender::io::usd

19
source/blender/io/usd/intern/usd_reader_stage.cc
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@ -9,6 +9,7 @@
#include "usd_reader_mesh.h" #include "usd_reader_mesh.h"
#include "usd_reader_nurbs.h" #include "usd_reader_nurbs.h"
#include "usd_reader_prim.h" #include "usd_reader_prim.h"
#include "usd_reader_shape.h"
#include "usd_reader_volume.h" #include "usd_reader_volume.h"
#include "usd_reader_xform.h" #include "usd_reader_xform.h"
@ -16,9 +17,14 @@
#include <pxr/usd/usd/primRange.h> #include <pxr/usd/usd/primRange.h>
#include <pxr/usd/usdGeom/camera.h> #include <pxr/usd/usdGeom/camera.h>
#include <pxr/usd/usdGeom/curves.h> #include <pxr/usd/usdGeom/curves.h>
#include <pxr/usd/usdGeom/capsule.h>
#include <pxr/usd/usdGeom/cone.h>
#include <pxr/usd/usdGeom/cube.h>
#include <pxr/usd/usdGeom/cylinder.h>
#include <pxr/usd/usdGeom/mesh.h> #include <pxr/usd/usdGeom/mesh.h>
#include <pxr/usd/usdGeom/nurbsCurves.h> #include <pxr/usd/usdGeom/nurbsCurves.h>
#include <pxr/usd/usdGeom/scope.h> #include <pxr/usd/usdGeom/scope.h>
#include <pxr/usd/usdGeom/sphere.h>
#include <pxr/usd/usdGeom/xform.h> #include <pxr/usd/usdGeom/xform.h>
#include <pxr/usd/usdShade/material.h> #include <pxr/usd/usdShade/material.h>
@ -57,8 +63,18 @@ bool USDStageReader::valid() const
return stage_; return stage_;
} }
bool USDStageReader::is_primitive_prim(const pxr::UsdPrim &prim) const
{
return (prim.IsA<pxr::UsdGeomCapsule>() || prim.IsA<pxr::UsdGeomCylinder>() ||
prim.IsA<pxr::UsdGeomCone>() || prim.IsA<pxr::UsdGeomCube>() ||
prim.IsA<pxr::UsdGeomSphere>());
}
USDPrimReader *USDStageReader::create_reader_if_allowed(const pxr::UsdPrim &prim) USDPrimReader *USDStageReader::create_reader_if_allowed(const pxr::UsdPrim &prim)
{ {
if (params_.import_shapes && is_primitive_prim(prim)) {
return new USDShapeReader(prim, params_, settings_);
}
if (params_.import_cameras && prim.IsA<pxr::UsdGeomCamera>()) { if (params_.import_cameras && prim.IsA<pxr::UsdGeomCamera>()) {
return new USDCameraReader(prim, params_, settings_); return new USDCameraReader(prim, params_, settings_);
} }
@ -91,6 +107,9 @@ USDPrimReader *USDStageReader::create_reader_if_allowed(const pxr::UsdPrim &prim
USDPrimReader *USDStageReader::create_reader(const pxr::UsdPrim &prim) USDPrimReader *USDStageReader::create_reader(const pxr::UsdPrim &prim)
{ {
if (is_primitive_prim(prim)) {
return new USDShapeReader(prim, params_, settings_);
}
if (prim.IsA<pxr::UsdGeomCamera>()) { if (prim.IsA<pxr::UsdGeomCamera>()) {
return new USDCameraReader(prim, params_, settings_); return new USDCameraReader(prim, params_, settings_);
} }

6
source/blender/io/usd/intern/usd_reader_stage.h
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@ -100,6 +100,12 @@ class USDStageReader {
* toggled off. * toggled off.
*/ */
bool include_by_purpose(const pxr::UsdGeomImageable &imageable) const; bool include_by_purpose(const pxr::UsdGeomImageable &imageable) const;
/*
* Returns true if the specified UsdPrim is a UsdGeom primitive,
* procedural shape, such as UsdGeomCube.
*/
bool is_primitive_prim(const pxr::UsdPrim &prim) const;
}; };
}; // namespace blender::io::usd }; // namespace blender::io::usd

1
source/blender/io/usd/usd.h
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@ -66,6 +66,7 @@ struct USDImportParams {
bool import_materials; bool import_materials;
bool import_meshes; bool import_meshes;
bool import_volumes; bool import_volumes;
bool import_shapes;
char prim_path_mask[1024]; char prim_path_mask[1024];
bool import_subdiv; bool import_subdiv;
bool import_instance_proxies; bool import_instance_proxies;