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tornavis/source/blender/blenkernel/intern/lightprobe.cc

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/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright Blender Foundation */
/** \file
* \ingroup bke
*/
#include <string.h>
#include "DNA_collection_types.h"
#include "DNA_defaults.h"
#include "DNA_lightprobe_types.h"
#include "DNA_object_types.h"
#include "BLI_math_base.h"
#include "BLI_span.hh"
#include "BLI_utildefines.h"
#include "BKE_anim_data.h"
#include "BKE_idtype.h"
#include "BKE_lib_id.h"
#include "BKE_lib_query.h"
#include "BKE_lightprobe.h"
#include "BKE_main.h"
#include "BLT_translation.h"
#include "BLO_read_write.h"
static void lightprobe_init_data(ID *id)
{
LightProbe *probe = (LightProbe *)id;
BLI_assert(MEMCMP_STRUCT_AFTER_IS_ZERO(probe, id));
MEMCPY_STRUCT_AFTER(probe, DNA_struct_default_get(LightProbe), id);
}
static void lightprobe_foreach_id(ID *id, LibraryForeachIDData *data)
{
LightProbe *probe = (LightProbe *)id;
BKE_LIB_FOREACHID_PROCESS_IDSUPER(data, probe->image, IDWALK_CB_USER);
BKE_LIB_FOREACHID_PROCESS_IDSUPER(data, probe->visibility_grp, IDWALK_CB_NOP);
}
static void lightprobe_blend_write(BlendWriter *writer, ID *id, const void *id_address)
{
LightProbe *prb = (LightProbe *)id;
/* write LibData */
BLO_write_id_struct(writer, LightProbe, id_address, &prb->id);
BKE_id_blend_write(writer, &prb->id);
if (prb->adt) {
BKE_animdata_blend_write(writer, prb->adt);
}
}
static void lightprobe_blend_read_data(BlendDataReader *reader, ID *id)
{
LightProbe *prb = (LightProbe *)id;
BLO_read_data_address(reader, &prb->adt);
BKE_animdata_blend_read_data(reader, prb->adt);
}
static void lightprobe_blend_read_lib(BlendLibReader *reader, ID *id)
{
LightProbe *prb = (LightProbe *)id;
BLO_read_id_address(reader, prb->id.lib, &prb->visibility_grp);
}
IDTypeInfo IDType_ID_LP = {
/*id_code*/ ID_LP,
/*id_filter*/ FILTER_ID_LP,
/*main_listbase_index*/ INDEX_ID_LP,
/*struct_size*/ sizeof(LightProbe),
/*name*/ "LightProbe",
/*name_plural*/ "lightprobes",
/*translation_context*/ BLT_I18NCONTEXT_ID_LIGHTPROBE,
/*flags*/ IDTYPE_FLAGS_APPEND_IS_REUSABLE,
/*asset_type_info*/ nullptr,
/*init_data*/ lightprobe_init_data,
/*copy_data*/ nullptr,
/*free_data*/ nullptr,
/*make_local*/ nullptr,
/*foreach_id*/ lightprobe_foreach_id,
/*foreach_cache*/ nullptr,
/*foreach_path*/ nullptr,
/*owner_pointer_get*/ nullptr,
/*blend_write*/ lightprobe_blend_write,
/*blend_read_data*/ lightprobe_blend_read_data,
/*blend_read_lib*/ lightprobe_blend_read_lib,
/*blend_read_expand*/ nullptr,
/*blend_read_undo_preserve*/ nullptr,
/*lib_override_apply_post*/ nullptr,
};
void BKE_lightprobe_type_set(LightProbe *probe, const short lightprobe_type)
{
probe->type = lightprobe_type;
switch (probe->type) {
case LIGHTPROBE_TYPE_GRID:
probe->distinf = 0.3f;
probe->falloff = 1.0f;
probe->clipsta = 0.01f;
break;
case LIGHTPROBE_TYPE_PLANAR:
probe->distinf = 0.1f;
probe->falloff = 0.5f;
probe->clipsta = 0.001f;
break;
case LIGHTPROBE_TYPE_CUBE:
probe->attenuation_type = LIGHTPROBE_SHAPE_ELIPSOID;
break;
default:
BLI_assert_msg(0, "LightProbe type not configured.");
break;
}
}
void *BKE_lightprobe_add(Main *bmain, const char *name)
{
LightProbe *probe;
probe = static_cast<LightProbe *>(BKE_id_new(bmain, ID_LP, name));
return probe;
}
static void lightprobe_grid_cache_frame_blend_write(BlendWriter *writer,
const LightProbeGridCacheFrame *cache)
{
BLO_write_struct_array(writer, LightProbeGridCacheFrame, cache->block_len, cache->block_infos);
int64_t sample_count = BKE_lightprobe_grid_cache_frame_sample_count(cache);
BLO_write_float3_array(writer, sample_count, (float *)cache->irradiance.L0);
BLO_write_float3_array(writer, sample_count, (float *)cache->irradiance.L1_a);
BLO_write_float3_array(writer, sample_count, (float *)cache->irradiance.L1_b);
BLO_write_float3_array(writer, sample_count, (float *)cache->irradiance.L1_c);
BLO_write_float_array(writer, sample_count, cache->visibility.L0);
BLO_write_float_array(writer, sample_count, cache->visibility.L1_a);
BLO_write_float_array(writer, sample_count, cache->visibility.L1_b);
BLO_write_float_array(writer, sample_count, cache->visibility.L1_c);
BLO_write_struct_array(
writer, LightProbeGridCacheFrame, sample_count, cache->connectivity.bitmask);
}
static void lightprobe_grid_cache_frame_blend_read(BlendDataReader *reader,
LightProbeGridCacheFrame *cache)
{
if (!ELEM(
cache->data_layout, LIGHTPROBE_CACHE_ADAPTIVE_RESOLUTION, LIGHTPROBE_CACHE_UNIFORM_GRID))
{
/* Do not try to read data from incompatible layout. Clear all pointers. */
memset(cache, 0, sizeof(*cache));
return;
}
BLO_read_data_address(reader, &cache->block_infos);
int64_t sample_count = BKE_lightprobe_grid_cache_frame_sample_count(cache);
/* Baking data is not stored. */
cache->baking.L0 = nullptr;
cache->baking.L1_a = nullptr;
cache->baking.L1_b = nullptr;
cache->baking.L1_c = nullptr;
cache->surfels = nullptr;
cache->surfels_len = 0;
BLO_read_float3_array(reader, sample_count, (float **)&cache->irradiance.L0);
BLO_read_float3_array(reader, sample_count, (float **)&cache->irradiance.L1_a);
BLO_read_float3_array(reader, sample_count, (float **)&cache->irradiance.L1_b);
BLO_read_float3_array(reader, sample_count, (float **)&cache->irradiance.L1_c);
BLO_read_float_array(reader, sample_count, &cache->visibility.L0);
BLO_read_float_array(reader, sample_count, &cache->visibility.L1_a);
BLO_read_float_array(reader, sample_count, &cache->visibility.L1_b);
BLO_read_float_array(reader, sample_count, &cache->visibility.L1_c);
BLO_read_data_address(reader, &cache->connectivity.bitmask);
}
void BKE_lightprobe_cache_blend_write(BlendWriter *writer, LightProbeObjectCache *cache)
{
if (cache->grid_static_cache != nullptr) {
BLO_write_struct(writer, LightProbeGridCacheFrame, cache->grid_static_cache);
lightprobe_grid_cache_frame_blend_write(writer, cache->grid_static_cache);
}
}
void BKE_lightprobe_cache_blend_read(BlendDataReader *reader, LightProbeObjectCache *cache)
{
if (cache->grid_static_cache != nullptr) {
BLO_read_data_address(reader, &cache->grid_static_cache);
lightprobe_grid_cache_frame_blend_read(reader, cache->grid_static_cache);
}
}
template<typename T> static void spherical_harmonic_free(T &data)
{
MEM_SAFE_FREE(data.L0);
MEM_SAFE_FREE(data.L1_a);
MEM_SAFE_FREE(data.L1_b);
MEM_SAFE_FREE(data.L1_c);
}
LightProbeGridCacheFrame *BKE_lightprobe_grid_cache_frame_create()
{
LightProbeGridCacheFrame *cache = static_cast<LightProbeGridCacheFrame *>(
MEM_callocN(sizeof(LightProbeGridCacheFrame), "LightProbeGridCacheFrame"));
return cache;
}
void BKE_lightprobe_grid_cache_frame_free(LightProbeGridCacheFrame *cache)
{
MEM_SAFE_FREE(cache->block_infos);
spherical_harmonic_free(cache->baking);
spherical_harmonic_free(cache->irradiance);
spherical_harmonic_free(cache->visibility);
MEM_SAFE_FREE(cache->connectivity.bitmask);
MEM_SAFE_FREE(cache->surfels);
MEM_SAFE_FREE(cache);
}
void BKE_lightprobe_cache_create(Object *object)
{
BLI_assert(object->lightprobe_cache == nullptr);
object->lightprobe_cache = static_cast<LightProbeObjectCache *>(
MEM_callocN(sizeof(LightProbeObjectCache), "LightProbeObjectCache"));
}
void BKE_lightprobe_cache_free(Object *object)
{
if (object->lightprobe_cache == nullptr) {
return;
}
LightProbeObjectCache *cache = object->lightprobe_cache;
if (cache->shared == false) {
if (cache->grid_static_cache != nullptr) {
BKE_lightprobe_grid_cache_frame_free(cache->grid_static_cache);
}
}
MEM_SAFE_FREE(object->lightprobe_cache);
}
int64_t BKE_lightprobe_grid_cache_frame_sample_count(const LightProbeGridCacheFrame *cache)
{
if (cache->data_layout == LIGHTPROBE_CACHE_ADAPTIVE_RESOLUTION) {
return cache->block_len * cube_i(cache->block_size);
}
/* LIGHTPROBE_CACHE_UNIFORM_GRID */
return cache->size[0] * cache->size[1] * cache->size[2];
}
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