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blender-archive/source/blender/render/RE_bake.h
Brecht Van Lommel b9998541e1 Fix part of T100626: Cycles not using tiles for baking 
Leading to excessive memory usage compared to Blender 2.93. There's still
some avoidable memory usage remaining, due to the full float buffer in the
new image editor drawing and not loading the cached EXR from disk in tiles.

Main difficulty was handling multi-image baking and disk caches, which is
solved by associating a unique layer name with each image so it can be
matched when reading back the image from the disk.

Also some minor header changes to be able to use RE_MAXNAME in RE_bake.h.
2022-08-31 20:04:14 +02:00

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/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2010 Blender Foundation. All rights reserved. */
/** \file
* \ingroup render
*/
#pragma once
#include "RE_pipeline.h"
struct Depsgraph;
struct ImBuf;
struct MLoopUV;
struct Mesh;
struct Render;
#ifdef __cplusplus
extern "C" {
#endif
typedef struct BakeImage {
struct Image *image;
int tile_number;
float uv_offset[2];
int width;
int height;
size_t offset;
/* For associating render result layer with image. */
char render_layer_name[RE_MAXNAME];
} BakeImage;
typedef struct BakeTargets {
/* All images of the object. */
BakeImage *images;
int images_num;
/* Lookup table from Material number to BakeImage. */
struct Image **material_to_image;
int materials_num;
/* Pixel buffer to bake to. */
float *result;
int pixels_num;
int channels_num;
/* Baking to non-color data image. */
bool is_noncolor;
} BakeTargets;
typedef struct BakePixel {
int primitive_id, object_id;
int seed;
float uv[2];
float du_dx, du_dy;
float dv_dx, dv_dy;
} BakePixel;
typedef struct BakeHighPolyData {
struct Object *ob;
struct Object *ob_eval;
struct Mesh *me;
bool is_flip_object;
float obmat[4][4];
float imat[4][4];
} BakeHighPolyData;
/* external_engine.c */
bool RE_bake_has_engine(const struct Render *re);
bool RE_bake_engine(struct Render *re,
struct Depsgraph *depsgraph,
struct Object *object,
int object_id,
const BakePixel pixel_array[],
const BakeTargets *targets,
eScenePassType pass_type,
int pass_filter,
float result[]);
/* bake.c */
int RE_pass_depth(eScenePassType pass_type);
bool RE_bake_pixels_populate_from_objects(struct Mesh *me_low,
BakePixel pixel_array_from[],
BakePixel pixel_array_to[],
BakeHighPolyData highpoly[],
int tot_highpoly,
size_t pixels_num,
bool is_custom_cage,
float cage_extrusion,
float max_ray_distance,
float mat_low[4][4],
float mat_cage[4][4],
struct Mesh *me_cage);
void RE_bake_pixels_populate(struct Mesh *me,
struct BakePixel *pixel_array,
size_t pixels_num,
const struct BakeTargets *targets,
const char *uv_layer);
void RE_bake_mask_fill(const BakePixel pixel_array[], size_t pixels_num, char *mask);
void RE_bake_margin(struct ImBuf *ibuf,
char *mask,
int margin,
char margin_type,
struct Mesh const *me,
char const *uv_layer,
const float uv_offset[2]);
void RE_bake_normal_world_to_object(const BakePixel pixel_array[],
size_t pixels_num,
int depth,
float result[],
struct Object *ob,
const eBakeNormalSwizzle normal_swizzle[3]);
/**
* This function converts an object space normal map
* to a tangent space normal map for a given low poly mesh.
*/
void RE_bake_normal_world_to_tangent(const BakePixel pixel_array[],
size_t pixels_num,
int depth,
float result[],
struct Mesh *me,
const eBakeNormalSwizzle normal_swizzle[3],
float mat[4][4]);
void RE_bake_normal_world_to_world(const BakePixel pixel_array[],
size_t pixels_num,
int depth,
float result[],
const eBakeNormalSwizzle normal_swizzle[3]);
void RE_bake_ibuf_clear(struct Image *image, bool is_tangent);
#ifdef __cplusplus
}
#endif
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