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blender-archive/source/blender/blenkernel/intern/pointcloud.cc
Jacques Lucke 8adebaeb7c Modifiers: measure execution time and provide Python access 
The goal is to give technical artists the ability to optimize modifier usage
and/or geometry node groups for performance. In the long term, it
would be useful if Blender could provide its own UI to display profiling
information to users. However, right now, there are too many open
design questions making it infeasible to tackle this in the short term.

This commit uses a simpler approach: Instead of adding new ui for
profiling data, it exposes the execution-time of modifiers in the Python
API. This allows technical artists to access the information and to build
their own UI to display the relevant information. In the long term this
will hopefully also help us to integrate a native ui for this in Blender
by observing how users use this information.

Note: The execution time of a modifier highly depends on what other
things the CPU is doing at the same time. For example, in many more
complex files, many objects and therefore modifiers are evaluated at
the same time by multiple threads which makes the measurement
much less reliable. For best results, make sure that only one object
is evaluated at a time (e.g. by changing it in isolation) and that no
other process on the system keeps the CPU busy.

As shown below, the execution time has to be accessed on the
evaluated object, not the original object.

```lang=python
import bpy
depsgraph = bpy.context.view_layer.depsgraph
ob = bpy.context.active_object
ob_eval = ob.evaluated_get(depsgraph)
modifier_eval = ob_eval.modifiers[0]
print(modifier_eval.execution_time, "s")
```

Differential Revision: https://developer.blender.org/D17185
2023-02-06 15:40:15 +01:00

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/* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup bke
*/
#include "MEM_guardedalloc.h"
#include "DNA_defaults.h"
#include "DNA_material_types.h"
#include "DNA_object_types.h"
#include "DNA_pointcloud_types.h"
#include "BLI_bounds.hh"
#include "BLI_index_range.hh"
#include "BLI_listbase.h"
#include "BLI_math_vector.hh"
#include "BLI_rand.h"
#include "BLI_span.hh"
#include "BLI_string.h"
#include "BLI_task.hh"
#include "BLI_utildefines.h"
#include "BLI_vector.hh"
#include "BKE_anim_data.h"
#include "BKE_customdata.h"
#include "BKE_geometry_set.hh"
#include "BKE_global.h"
#include "BKE_idtype.h"
#include "BKE_lib_id.h"
#include "BKE_lib_query.h"
#include "BKE_lib_remap.h"
#include "BKE_main.h"
#include "BKE_mesh_wrapper.h"
#include "BKE_modifier.h"
#include "BKE_object.h"
#include "BKE_pointcloud.h"
#include "BLT_translation.h"
#include "DEG_depsgraph_query.h"
#include "BLO_read_write.h"
using blender::float3;
using blender::IndexRange;
using blender::Span;
using blender::Vector;
/* PointCloud datablock */
static void pointcloud_random(PointCloud *pointcloud);
const char *POINTCLOUD_ATTR_POSITION = "position";
const char *POINTCLOUD_ATTR_RADIUS = "radius";
static void pointcloud_init_data(ID *id)
{
PointCloud *pointcloud = (PointCloud *)id;
BLI_assert(MEMCMP_STRUCT_AFTER_IS_ZERO(pointcloud, id));
MEMCPY_STRUCT_AFTER(pointcloud, DNA_struct_default_get(PointCloud), id);
CustomData_reset(&pointcloud->pdata);
CustomData_add_layer_named(&pointcloud->pdata,
CD_PROP_FLOAT3,
CD_SET_DEFAULT,
nullptr,
pointcloud->totpoint,
POINTCLOUD_ATTR_POSITION);
pointcloud->runtime = new blender::bke::PointCloudRuntime();
}
static void pointcloud_copy_data(Main * /*bmain*/, ID *id_dst, const ID *id_src, const int flag)
{
PointCloud *pointcloud_dst = (PointCloud *)id_dst;
const PointCloud *pointcloud_src = (const PointCloud *)id_src;
pointcloud_dst->mat = static_cast<Material **>(MEM_dupallocN(pointcloud_src->mat));
const eCDAllocType alloc_type = (flag & LIB_ID_COPY_CD_REFERENCE) ? CD_REFERENCE : CD_DUPLICATE;
CustomData_copy(&pointcloud_src->pdata,
&pointcloud_dst->pdata,
CD_MASK_ALL,
alloc_type,
pointcloud_dst->totpoint);
pointcloud_dst->runtime = new blender::bke::PointCloudRuntime();
pointcloud_dst->runtime->bounds_cache = pointcloud_src->runtime->bounds_cache;
pointcloud_dst->batch_cache = nullptr;
}
static void pointcloud_free_data(ID *id)
{
PointCloud *pointcloud = (PointCloud *)id;
BKE_animdata_free(&pointcloud->id, false);
BKE_pointcloud_batch_cache_free(pointcloud);
CustomData_free(&pointcloud->pdata, pointcloud->totpoint);
MEM_SAFE_FREE(pointcloud->mat);
delete pointcloud->runtime;
}
static void pointcloud_foreach_id(ID *id, LibraryForeachIDData *data)
{
PointCloud *pointcloud = (PointCloud *)id;
for (int i = 0; i < pointcloud->totcol; i++) {
BKE_LIB_FOREACHID_PROCESS_IDSUPER(data, pointcloud->mat[i], IDWALK_CB_USER);
}
}
static void pointcloud_blend_write(BlendWriter *writer, ID *id, const void *id_address)
{
PointCloud *pointcloud = (PointCloud *)id;
Vector<CustomDataLayer, 16> point_layers;
CustomData_blend_write_prepare(pointcloud->pdata, point_layers);
/* Write LibData */
BLO_write_id_struct(writer, PointCloud, id_address, &pointcloud->id);
BKE_id_blend_write(writer, &pointcloud->id);
/* Direct data */
CustomData_blend_write(writer,
&pointcloud->pdata,
point_layers,
pointcloud->totpoint,
CD_MASK_ALL,
&pointcloud->id);
BLO_write_pointer_array(writer, pointcloud->totcol, pointcloud->mat);
if (pointcloud->adt) {
BKE_animdata_blend_write(writer, pointcloud->adt);
}
}
static void pointcloud_blend_read_data(BlendDataReader *reader, ID *id)
{
PointCloud *pointcloud = (PointCloud *)id;
BLO_read_data_address(reader, &pointcloud->adt);
BKE_animdata_blend_read_data(reader, pointcloud->adt);
/* Geometry */
CustomData_blend_read(reader, &pointcloud->pdata, pointcloud->totpoint);
/* Materials */
BLO_read_pointer_array(reader, (void **)&pointcloud->mat);
pointcloud->runtime = new blender::bke::PointCloudRuntime();
}
static void pointcloud_blend_read_lib(BlendLibReader *reader, ID *id)
{
PointCloud *pointcloud = (PointCloud *)id;
for (int a = 0; a < pointcloud->totcol; a++) {
BLO_read_id_address(reader, pointcloud->id.lib, &pointcloud->mat[a]);
}
}
static void pointcloud_blend_read_expand(BlendExpander *expander, ID *id)
{
PointCloud *pointcloud = (PointCloud *)id;
for (int a = 0; a < pointcloud->totcol; a++) {
BLO_expand(expander, pointcloud->mat[a]);
}
}
IDTypeInfo IDType_ID_PT = {
/*id_code*/ ID_PT,
/*id_filter*/ FILTER_ID_PT,
/*main_listbase_index*/ INDEX_ID_PT,
/*struct_size*/ sizeof(PointCloud),
/*name*/ "PointCloud",
/*name_plural*/ "pointclouds",
/*translation_context*/ BLT_I18NCONTEXT_ID_POINTCLOUD,
/*flags*/ IDTYPE_FLAGS_APPEND_IS_REUSABLE,
/*asset_type_info*/ nullptr,
/*init_data*/ pointcloud_init_data,
/*copy_data*/ pointcloud_copy_data,
/*free_data*/ pointcloud_free_data,
/*make_local*/ nullptr,
/*foreach_id*/ pointcloud_foreach_id,
/*foreach_cache*/ nullptr,
/*foreach_path*/ nullptr,
/*owner_pointer_get*/ nullptr,
/*blend_write*/ pointcloud_blend_write,
/*blend_read_data*/ pointcloud_blend_read_data,
/*blend_read_lib*/ pointcloud_blend_read_lib,
/*blend_read_expand*/ pointcloud_blend_read_expand,
/*blend_read_undo_preserve*/ nullptr,
/*lib_override_apply_post*/ nullptr,
};
static void pointcloud_random(PointCloud *pointcloud)
{
BLI_assert(pointcloud->totpoint == 0);
pointcloud->totpoint = 400;
CustomData_realloc(&pointcloud->pdata, 0, pointcloud->totpoint);
RNG *rng = BLI_rng_new(0);
blender::bke::MutableAttributeAccessor attributes = pointcloud->attributes_for_write();
blender::bke::SpanAttributeWriter positions =
attributes.lookup_or_add_for_write_only_span<float3>(POINTCLOUD_ATTR_POSITION,
ATTR_DOMAIN_POINT);
blender::bke::SpanAttributeWriter<float> radii =
attributes.lookup_or_add_for_write_only_span<float>(POINTCLOUD_ATTR_RADIUS,
ATTR_DOMAIN_POINT);
for (const int i : positions.span.index_range()) {
positions.span[i] =
float3(BLI_rng_get_float(rng), BLI_rng_get_float(rng), BLI_rng_get_float(rng)) * 2.0f -
1.0f;
radii.span[i] = 0.05f * BLI_rng_get_float(rng);
}
positions.finish();
radii.finish();
BLI_rng_free(rng);
}
void *BKE_pointcloud_add(Main *bmain, const char *name)
{
PointCloud *pointcloud = static_cast<PointCloud *>(BKE_id_new(bmain, ID_PT, name));
return pointcloud;
}
void *BKE_pointcloud_add_default(Main *bmain, const char *name)
{
PointCloud *pointcloud = static_cast<PointCloud *>(BKE_libblock_alloc(bmain, ID_PT, name, 0));
pointcloud_init_data(&pointcloud->id);
pointcloud_random(pointcloud);
return pointcloud;
}
PointCloud *BKE_pointcloud_new_nomain(const int totpoint)
{
PointCloud *pointcloud = static_cast<PointCloud *>(BKE_libblock_alloc(
nullptr, ID_PT, BKE_idtype_idcode_to_name(ID_PT), LIB_ID_CREATE_LOCALIZE));
pointcloud_init_data(&pointcloud->id);
CustomData_realloc(&pointcloud->pdata, 0, totpoint);
pointcloud->totpoint = totpoint;
return pointcloud;
}
void BKE_pointcloud_nomain_to_pointcloud(PointCloud *pointcloud_src,
PointCloud *pointcloud_dst,
bool take_ownership)
{
BLI_assert(pointcloud_src->id.tag & LIB_TAG_NO_MAIN);
eCDAllocType alloctype = CD_DUPLICATE;
if (take_ownership) {
bool has_any_referenced_layers = CustomData_has_referenced(&pointcloud_src->pdata);
if (!has_any_referenced_layers) {
alloctype = CD_ASSIGN;
}
}
CustomData_free(&pointcloud_dst->pdata, pointcloud_dst->totpoint);
const int totpoint = pointcloud_dst->totpoint = pointcloud_src->totpoint;
CustomData_copy(
&pointcloud_src->pdata, &pointcloud_dst->pdata, CD_MASK_ALL, alloctype, totpoint);
if (take_ownership) {
if (alloctype == CD_ASSIGN) {
/* Free the CustomData but keep the layers. */
CustomData_free_typemask(&pointcloud_src->pdata, pointcloud_src->totpoint, 0);
}
BKE_id_free(nullptr, pointcloud_src);
}
}
bool PointCloud::bounds_min_max(blender::float3 &min, blender::float3 &max) const
{
using namespace blender;
using namespace blender::bke;
if (this->totpoint == 0) {
return false;
}
this->runtime->bounds_cache.ensure([&](Bounds<float3> &r_bounds) {
const AttributeAccessor attributes = this->attributes();
const VArraySpan<float3> positions = attributes.lookup<float3>(POINTCLOUD_ATTR_POSITION);
if (attributes.contains(POINTCLOUD_ATTR_RADIUS)) {
const VArraySpan<float> radii = attributes.lookup<float>(POINTCLOUD_ATTR_RADIUS);
r_bounds = *bounds::min_max_with_radii(positions, radii);
}
else {
r_bounds = *bounds::min_max(positions);
}
});
const Bounds<float3> &bounds = this->runtime->bounds_cache.data();
min = math::min(bounds.min, min);
max = math::max(bounds.max, max);
return true;
}
BoundBox *BKE_pointcloud_boundbox_get(Object *ob)
{
BLI_assert(ob->type == OB_POINTCLOUD);
if (ob->runtime.bb != nullptr && (ob->runtime.bb->flag & BOUNDBOX_DIRTY) == 0) {
return ob->runtime.bb;
}
if (ob->runtime.bb == nullptr) {
ob->runtime.bb = static_cast<BoundBox *>(MEM_callocN(sizeof(BoundBox), "pointcloud boundbox"));
}
float3 min, max;
INIT_MINMAX(min, max);
if (ob->runtime.geometry_set_eval != nullptr) {
ob->runtime.geometry_set_eval->compute_boundbox_without_instances(&min, &max);
}
else {
const PointCloud *pointcloud = static_cast<PointCloud *>(ob->data);
pointcloud->bounds_min_max(min, max);
}
BKE_boundbox_init_from_minmax(ob->runtime.bb, min, max);
return ob->runtime.bb;
}
bool BKE_pointcloud_attribute_required(const PointCloud * /*pointcloud*/, const char *name)
{
return STREQ(name, POINTCLOUD_ATTR_POSITION);
}
/* Dependency Graph */
PointCloud *BKE_pointcloud_copy_for_eval(struct PointCloud *pointcloud_src, bool reference)
{
int flags = LIB_ID_COPY_LOCALIZE;
if (reference) {
flags |= LIB_ID_COPY_CD_REFERENCE;
}
PointCloud *result = (PointCloud *)BKE_id_copy_ex(nullptr, &pointcloud_src->id, nullptr, flags);
return result;
}
static void pointcloud_evaluate_modifiers(struct Depsgraph *depsgraph,
struct Scene *scene,
Object *object,
GeometrySet &geometry_set)
{
/* Modifier evaluation modes. */
const bool use_render = (DEG_get_mode(depsgraph) == DAG_EVAL_RENDER);
const int required_mode = use_render ? eModifierMode_Render : eModifierMode_Realtime;
ModifierApplyFlag apply_flag = use_render ? MOD_APPLY_RENDER : MOD_APPLY_USECACHE;
const ModifierEvalContext mectx = {depsgraph, object, apply_flag};
BKE_modifiers_clear_errors(object);
/* Get effective list of modifiers to execute. Some effects like shape keys
* are added as virtual modifiers before the user created modifiers. */
VirtualModifierData virtualModifierData;
ModifierData *md = BKE_modifiers_get_virtual_modifierlist(object, &virtualModifierData);
/* Evaluate modifiers. */
for (; md; md = md->next) {
const ModifierTypeInfo *mti = BKE_modifier_get_info((ModifierType)md->type);
if (!BKE_modifier_is_enabled(scene, md, required_mode)) {
continue;
}
blender::bke::ScopedModifierTimer modifier_timer{*md};
if (mti->modifyGeometrySet) {
mti->modifyGeometrySet(md, &mectx, &geometry_set);
}
}
}
static PointCloud *take_pointcloud_ownership_from_geometry_set(GeometrySet &geometry_set)
{
if (!geometry_set.has<PointCloudComponent>()) {
return nullptr;
}
PointCloudComponent &pointcloud_component =
geometry_set.get_component_for_write<PointCloudComponent>();
PointCloud *pointcloud = pointcloud_component.release();
if (pointcloud != nullptr) {
/* Add back, but as read-only non-owning component. */
pointcloud_component.replace(pointcloud, GeometryOwnershipType::ReadOnly);
}
else {
/* The component was empty, we can also remove it. */
geometry_set.remove<PointCloudComponent>();
}
return pointcloud;
}
void BKE_pointcloud_data_update(struct Depsgraph *depsgraph, struct Scene *scene, Object *object)
{
/* Free any evaluated data and restore original data. */
BKE_object_free_derived_caches(object);
/* Evaluate modifiers. */
PointCloud *pointcloud = static_cast<PointCloud *>(object->data);
GeometrySet geometry_set = GeometrySet::create_with_pointcloud(pointcloud,
GeometryOwnershipType::ReadOnly);
pointcloud_evaluate_modifiers(depsgraph, scene, object, geometry_set);
PointCloud *pointcloud_eval = take_pointcloud_ownership_from_geometry_set(geometry_set);
/* If the geometry set did not contain a point cloud, we still create an empty one. */
if (pointcloud_eval == nullptr) {
pointcloud_eval = BKE_pointcloud_new_nomain(0);
}
/* Assign evaluated object. */
const bool eval_is_owned = pointcloud_eval != pointcloud;
BKE_object_eval_assign_data(object, &pointcloud_eval->id, eval_is_owned);
object->runtime.geometry_set_eval = new GeometrySet(std::move(geometry_set));
}
void PointCloud::tag_positions_changed()
{
this->runtime->bounds_cache.tag_dirty();
}
void PointCloud::tag_radii_changed()
{
this->runtime->bounds_cache.tag_dirty();
}
/* Draw Cache */
void (*BKE_pointcloud_batch_cache_dirty_tag_cb)(PointCloud *pointcloud, int mode) = nullptr;
void (*BKE_pointcloud_batch_cache_free_cb)(PointCloud *pointcloud) = nullptr;
void BKE_pointcloud_batch_cache_dirty_tag(PointCloud *pointcloud, int mode)
{
if (pointcloud->batch_cache) {
BKE_pointcloud_batch_cache_dirty_tag_cb(pointcloud, mode);
}
}
void BKE_pointcloud_batch_cache_free(PointCloud *pointcloud)
{
if (pointcloud->batch_cache) {
BKE_pointcloud_batch_cache_free_cb(pointcloud);
}
}
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