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1f41bdc6f37fd091bb5649436f68335b10ade51f
blender-archive/source/blender/draw/engines/eevee/eevee_engine.c
Jeroen Bakker 1f41bdc6f3 Eevee Cryptomatte: Store hashes in render result meta data 
Stores cryptomatte hashes as meta data to the render result. Compositors could
use this for lookup on names in stead of hashes.

Differential Revision: https://developer.blender.org/D9553
2021-01-05 15:03:05 +01:00

643 lines
22 KiB
C
Raw Blame History

/*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* Copyright 2016, Blender Foundation.
*/
/** \file
* \ingroup draw_engine
*/
#include "DRW_render.h"
#include "draw_color_management.h" /* TODO remove dependency */
#include "BLI_rand.h"
#include "BKE_object.h"
#include "DEG_depsgraph_query.h"
#include "DNA_world_types.h"
#include "IMB_imbuf.h"
#include "eevee_private.h"
#include "eevee_engine.h" /* own include */
#define EEVEE_ENGINE "BLENDER_EEVEE"
/* *********** FUNCTIONS *********** */
static void eevee_engine_init(void *ved)
{
EEVEE_Data *vedata = (EEVEE_Data *)ved;
EEVEE_TextureList *txl = vedata->txl;
EEVEE_FramebufferList *fbl = vedata->fbl;
EEVEE_StorageList *stl = ((EEVEE_Data *)vedata)->stl;
EEVEE_ViewLayerData *sldata = EEVEE_view_layer_data_ensure();
DefaultTextureList *dtxl = DRW_viewport_texture_list_get();
const DRWContextState *draw_ctx = DRW_context_state_get();
View3D *v3d = draw_ctx->v3d;
RegionView3D *rv3d = draw_ctx->rv3d;
Object *camera = (rv3d->persp == RV3D_CAMOB) ? v3d->camera : NULL;
if (!stl->g_data) {
/* Alloc transient pointers */
stl->g_data = MEM_callocN(sizeof(*stl->g_data), __func__);
}
stl->g_data->use_color_render_settings = USE_SCENE_LIGHT(v3d) ||
!LOOK_DEV_STUDIO_LIGHT_ENABLED(v3d);
stl->g_data->background_alpha = DRW_state_draw_background() ? 1.0f : 0.0f;
stl->g_data->valid_double_buffer = (txl->color_double_buffer != NULL);
stl->g_data->valid_taa_history = (txl->taa_history != NULL);
stl->g_data->queued_shaders_count = 0;
/* Main Buffer */
DRW_texture_ensure_fullscreen_2d(&txl->color, GPU_RGBA16F, DRW_TEX_FILTER | DRW_TEX_MIPMAP);
GPU_framebuffer_ensure_config(&fbl->main_fb,
{GPU_ATTACHMENT_TEXTURE(dtxl->depth),
GPU_ATTACHMENT_TEXTURE(txl->color),
GPU_ATTACHMENT_LEAVE,
GPU_ATTACHMENT_LEAVE,
GPU_ATTACHMENT_LEAVE,
GPU_ATTACHMENT_LEAVE});
GPU_framebuffer_ensure_config(&fbl->main_color_fb,
{GPU_ATTACHMENT_NONE, GPU_ATTACHMENT_TEXTURE(txl->color)});
/* `EEVEE_renderpasses_init` will set the active render passes used by `EEVEE_effects_init`.
* `EEVEE_effects_init` needs to go second for TAA. */
EEVEE_renderpasses_init(vedata);
EEVEE_effects_init(sldata, vedata, camera, false);
EEVEE_materials_init(sldata, vedata, stl, fbl);
EEVEE_shadows_init(sldata);
EEVEE_lightprobes_init(sldata, vedata);
}
static void eevee_cache_init(void *vedata)
{
EEVEE_ViewLayerData *sldata = EEVEE_view_layer_data_ensure();
EEVEE_bloom_cache_init(sldata, vedata);
EEVEE_depth_of_field_cache_init(sldata, vedata);
EEVEE_effects_cache_init(sldata, vedata);
EEVEE_lightprobes_cache_init(sldata, vedata);
EEVEE_lights_cache_init(sldata, vedata);
EEVEE_materials_cache_init(sldata, vedata);
EEVEE_motion_blur_cache_init(sldata, vedata);
EEVEE_occlusion_cache_init(sldata, vedata);
EEVEE_screen_raytrace_cache_init(sldata, vedata);
EEVEE_subsurface_cache_init(sldata, vedata);
EEVEE_temporal_sampling_cache_init(sldata, vedata);
EEVEE_volumes_cache_init(sldata, vedata);
}
void EEVEE_cache_populate(void *vedata, Object *ob)
{
EEVEE_ViewLayerData *sldata = EEVEE_view_layer_data_ensure();
const DRWContextState *draw_ctx = DRW_context_state_get();
const int ob_visibility = DRW_object_visibility_in_active_context(ob);
bool cast_shadow = false;
if (ob_visibility & OB_VISIBLE_PARTICLES) {
EEVEE_particle_hair_cache_populate(vedata, sldata, ob, &cast_shadow);
}
if (DRW_object_is_renderable(ob) && (ob_visibility & OB_VISIBLE_SELF)) {
if (ELEM(ob->type, OB_MESH, OB_CURVE, OB_SURF, OB_FONT, OB_MBALL)) {
EEVEE_materials_cache_populate(vedata, sldata, ob, &cast_shadow);
}
else if (ob->type == OB_HAIR) {
EEVEE_object_hair_cache_populate(vedata, sldata, ob, &cast_shadow);
}
else if (ob->type == OB_VOLUME) {
EEVEE_volumes_cache_object_add(sldata, vedata, draw_ctx->scene, ob);
}
else if (!USE_SCENE_LIGHT(draw_ctx->v3d)) {
/* do not add any scene light sources to the cache */
}
else if (ob->type == OB_LIGHTPROBE) {
if ((ob->base_flag & BASE_FROM_DUPLI) != 0) {
/* TODO: Special case for dupli objects because we cannot save the object pointer. */
}
else {
EEVEE_lightprobes_cache_add(sldata, vedata, ob);
}
}
else if (ob->type == OB_LAMP) {
EEVEE_lights_cache_add(sldata, ob);
}
}
if (cast_shadow) {
EEVEE_shadows_caster_register(sldata, ob);
}
}
static void eevee_cache_finish(void *vedata)
{
EEVEE_ViewLayerData *sldata = EEVEE_view_layer_data_ensure();
EEVEE_StorageList *stl = ((EEVEE_Data *)vedata)->stl;
EEVEE_PrivateData *g_data = stl->g_data;
const DRWContextState *draw_ctx = DRW_context_state_get();
const Scene *scene_eval = DEG_get_evaluated_scene(draw_ctx->depsgraph);
EEVEE_volumes_cache_finish(sldata, vedata);
EEVEE_materials_cache_finish(sldata, vedata);
EEVEE_lights_cache_finish(sldata, vedata);
EEVEE_lightprobes_cache_finish(sldata, vedata);
EEVEE_renderpasses_cache_finish(sldata, vedata);
EEVEE_subsurface_draw_init(sldata, vedata);
EEVEE_effects_draw_init(sldata, vedata);
EEVEE_volumes_draw_init(sldata, vedata);
uint tot_samples = scene_eval->eevee.taa_render_samples;
if (tot_samples == 0) {
/* Use a high number of samples so the outputs accumulation buffers
* will have the highest possible precision. */
tot_samples = 1024;
}
EEVEE_renderpasses_output_init(sldata, vedata, tot_samples);
/* Restart taa if a shader has finish compiling. */
/* HACK We should use notification of some sort from the compilation job instead. */
if (g_data->queued_shaders_count != g_data->queued_shaders_count_prev) {
g_data->queued_shaders_count_prev = g_data->queued_shaders_count;
EEVEE_temporal_sampling_reset(vedata);
}
}
/* As renders in an HDR offscreen buffer, we need draw everything once
* during the background pass. This way the other drawing callback between
* the background and the scene pass are visible.
* Note: we could break it up in two passes using some depth test
* to reduce the fillrate */
static void eevee_draw_scene(void *vedata)
{
EEVEE_PassList *psl = ((EEVEE_Data *)vedata)->psl;
EEVEE_StorageList *stl = ((EEVEE_Data *)vedata)->stl;
EEVEE_FramebufferList *fbl = ((EEVEE_Data *)vedata)->fbl;
EEVEE_ViewLayerData *sldata = EEVEE_view_layer_data_ensure();
/* Default framebuffer and texture */
DefaultTextureList *dtxl = DRW_viewport_texture_list_get();
DefaultFramebufferList *dfbl = DRW_viewport_framebuffer_list_get();
/* Sort transparents before the loop. */
DRW_pass_sort_shgroup_z(psl->transparent_pass);
/* Number of iteration: Use viewport taa_samples when using viewport rendering */
int loop_len = 1;
if (DRW_state_is_image_render()) {
const DRWContextState *draw_ctx = DRW_context_state_get();
const Scene *scene = draw_ctx->scene;
loop_len = MAX2(1, scene->eevee.taa_samples);
}
if (stl->effects->bypass_drawing) {
loop_len = 0;
}
while (loop_len--) {
const float clear_col[4] = {0.0f, 0.0f, 0.0f, 0.0f};
float clear_depth = 1.0f;
uint clear_stencil = 0x0;
const uint primes[3] = {2, 3, 7};
double offset[3] = {0.0, 0.0, 0.0};
double r[3];
bool taa_use_reprojection = (stl->effects->enabled_effects & EFFECT_TAA_REPROJECT) != 0;
if (DRW_state_is_image_render() || taa_use_reprojection ||
((stl->effects->enabled_effects & EFFECT_TAA) != 0)) {
int samp = taa_use_reprojection ? stl->effects->taa_reproject_sample + 1 :
stl->effects->taa_current_sample;
BLI_halton_3d(primes, offset, samp, r);
EEVEE_update_noise(psl, fbl, r);
EEVEE_volumes_set_jitter(sldata, samp - 1);
EEVEE_materials_init(sldata, vedata, stl, fbl);
}
/* Copy previous persmat to UBO data */
copy_m4_m4(sldata->common_data.prev_persmat, stl->effects->prev_persmat);
/* Refresh Probes
* Shadows needs to be updated for correct probes */
DRW_stats_group_start("Probes Refresh");
EEVEE_shadows_update(sldata, vedata);
EEVEE_lightprobes_refresh(sldata, vedata);
EEVEE_lightprobes_refresh_planar(sldata, vedata);
DRW_stats_group_end();
/* Refresh shadows */
DRW_stats_group_start("Shadows");
EEVEE_shadows_draw(sldata, vedata, stl->effects->taa_view);
DRW_stats_group_end();
if (((stl->effects->enabled_effects & EFFECT_TAA) != 0) &&
(stl->effects->taa_current_sample > 1) && !DRW_state_is_image_render() &&
!taa_use_reprojection) {
DRW_view_set_active(stl->effects->taa_view);
}
/* when doing viewport rendering the overrides needs to be recalculated for
* every loop as this normally happens once inside
* `EEVEE_temporal_sampling_init` */
else if (((stl->effects->enabled_effects & EFFECT_TAA) != 0) &&
(stl->effects->taa_current_sample > 1) && DRW_state_is_image_render()) {
EEVEE_temporal_sampling_update_matrices(vedata);
}
/* Set ray type. */
sldata->common_data.ray_type = EEVEE_RAY_CAMERA;
sldata->common_data.ray_depth = 0.0f;
GPU_uniformbuf_update(sldata->common_ubo, &sldata->common_data);
GPU_framebuffer_bind(fbl->main_fb);
eGPUFrameBufferBits clear_bits = GPU_DEPTH_BIT;
SET_FLAG_FROM_TEST(clear_bits, !DRW_state_draw_background(), GPU_COLOR_BIT);
SET_FLAG_FROM_TEST(clear_bits, (stl->effects->enabled_effects & EFFECT_SSS), GPU_STENCIL_BIT);
GPU_framebuffer_clear(fbl->main_fb, clear_bits, clear_col, clear_depth, clear_stencil);
/* Depth prepass */
DRW_stats_group_start("Prepass");
DRW_draw_pass(psl->depth_ps);
DRW_stats_group_end();
/* Create minmax texture */
DRW_stats_group_start("Main MinMax buffer");
EEVEE_create_minmax_buffer(vedata, dtxl->depth, -1);
DRW_stats_group_end();
EEVEE_occlusion_compute(sldata, vedata, dtxl->depth, -1);
EEVEE_volumes_compute(sldata, vedata);
/* Shading pass */
DRW_stats_group_start("Shading");
if (DRW_state_draw_background()) {
DRW_draw_pass(psl->background_ps);
}
DRW_draw_pass(psl->material_ps);
EEVEE_subsurface_data_render(sldata, vedata);
DRW_stats_group_end();
/* Effects pre-transparency */
EEVEE_subsurface_compute(sldata, vedata);
EEVEE_reflection_compute(sldata, vedata);
EEVEE_occlusion_draw_debug(sldata, vedata);
if (psl->probe_display) {
DRW_draw_pass(psl->probe_display);
}
EEVEE_refraction_compute(sldata, vedata);
/* Opaque refraction */
DRW_stats_group_start("Opaque Refraction");
DRW_draw_pass(psl->depth_refract_ps);
DRW_draw_pass(psl->material_refract_ps);
DRW_stats_group_end();
/* Volumetrics Resolve Opaque */
EEVEE_volumes_resolve(sldata, vedata);
/* Renderpasses */
EEVEE_renderpasses_output_accumulate(sldata, vedata, false);
/* Transparent */
/* TODO(fclem): should be its own Framebuffer.
* This is needed because dualsource blending only works with 1 color buffer. */
GPU_framebuffer_texture_attach(fbl->main_color_fb, dtxl->depth, 0, 0);
GPU_framebuffer_bind(fbl->main_color_fb);
DRW_draw_pass(psl->transparent_pass);
GPU_framebuffer_bind(fbl->main_fb);
GPU_framebuffer_texture_detach(fbl->main_color_fb, dtxl->depth);
/* Post Process */
DRW_stats_group_start("Post FX");
EEVEE_draw_effects(sldata, vedata);
DRW_stats_group_end();
DRW_view_set_active(NULL);
if (DRW_state_is_image_render() && (stl->effects->enabled_effects & EFFECT_SSR) &&
!stl->effects->ssr_was_valid_double_buffer) {
/* SSR needs one iteration to start properly. */
loop_len++;
/* Reset sampling (and accumulation) after the first sample to avoid
* washed out first bounce for SSR. */
EEVEE_temporal_sampling_reset(vedata);
stl->effects->ssr_was_valid_double_buffer = stl->g_data->valid_double_buffer;
}
}
if ((stl->g_data->render_passes & EEVEE_RENDER_PASS_COMBINED) != 0) {
/* Transfer result to default framebuffer. */
GPU_framebuffer_bind(dfbl->default_fb);
DRW_transform_none(stl->effects->final_tx);
}
else {
EEVEE_renderpasses_draw(sldata, vedata);
}
if (stl->effects->bypass_drawing) {
/* Restore the depth from sample 1. */
GPU_framebuffer_blit(fbl->double_buffer_depth_fb, 0, dfbl->default_fb, 0, GPU_DEPTH_BIT);
}
EEVEE_renderpasses_draw_debug(vedata);
EEVEE_volumes_free_smoke_textures();
stl->g_data->view_updated = false;
DRW_view_set_active(NULL);
}
static void eevee_view_update(void *vedata)
{
EEVEE_StorageList *stl = ((EEVEE_Data *)vedata)->stl;
if (stl->g_data) {
stl->g_data->view_updated = true;
}
}
static void eevee_id_object_update(void *UNUSED(vedata), Object *object)
{
EEVEE_LightProbeEngineData *ped = EEVEE_lightprobe_data_get(object);
if (ped != NULL && ped->dd.recalc != 0) {
ped->need_update = (ped->dd.recalc & ID_RECALC_TRANSFORM) != 0;
ped->dd.recalc = 0;
}
EEVEE_LightEngineData *led = EEVEE_light_data_get(object);
if (led != NULL && led->dd.recalc != 0) {
led->need_update = true;
led->dd.recalc = 0;
}
EEVEE_ObjectEngineData *oedata = EEVEE_object_data_get(object);
if (oedata != NULL && oedata->dd.recalc != 0) {
oedata->need_update = true;
oedata->geom_update = (oedata->dd.recalc & (ID_RECALC_GEOMETRY)) != 0;
oedata->dd.recalc = 0;
}
}
static void eevee_id_world_update(void *vedata, World *wo)
{
EEVEE_StorageList *stl = ((EEVEE_Data *)vedata)->stl;
LightCache *lcache = stl->g_data->light_cache;
if (ELEM(lcache, NULL, stl->lookdev_lightcache)) {
/* Avoid Lookdev viewport clearing the update flag (see T67741). */
return;
}
EEVEE_WorldEngineData *wedata = EEVEE_world_data_ensure(wo);
if (wedata != NULL && wedata->dd.recalc != 0) {
if ((lcache->flag & LIGHTCACHE_BAKING) == 0) {
lcache->flag |= LIGHTCACHE_UPDATE_WORLD;
}
wedata->dd.recalc = 0;
}
}
void eevee_id_update(void *vedata, ID *id)
{
/* Handle updates based on ID type. */
switch (GS(id->name)) {
case ID_WO:
eevee_id_world_update(vedata, (World *)id);
break;
case ID_OB:
eevee_id_object_update(vedata, (Object *)id);
break;
default:
/* pass */
break;
}
}
static void eevee_render_reset_passes(EEVEE_Data *vedata)
{
/* Reset passlist. This is safe as they are stored into managed memory chunks. */
memset(vedata->psl, 0, sizeof(*vedata->psl));
}
static void eevee_render_to_image(void *vedata,
RenderEngine *engine,
struct RenderLayer *render_layer,
const rcti *rect)
{
EEVEE_Data *ved = (EEVEE_Data *)vedata;
const DRWContextState *draw_ctx = DRW_context_state_get();
Depsgraph *depsgraph = draw_ctx->depsgraph;
Scene *scene = DEG_get_evaluated_scene(depsgraph);
EEVEE_ViewLayerData *sldata = EEVEE_view_layer_data_ensure();
const bool do_motion_blur = (scene->eevee.flag & SCE_EEVEE_MOTION_BLUR_ENABLED) != 0;
const bool do_motion_blur_fx = do_motion_blur && (scene->eevee.motion_blur_max > 0);
if (!EEVEE_render_init(vedata, engine, depsgraph)) {
return;
}
EEVEE_PrivateData *g_data = ved->stl->g_data;
EEVEE_render_modules_init(vedata, engine, depsgraph);
int initial_frame = CFRA;
float initial_subframe = SUBFRA;
float shuttertime = (do_motion_blur) ? scene->eevee.motion_blur_shutter : 0.0f;
int time_steps_tot = (do_motion_blur) ? max_ii(1, scene->eevee.motion_blur_steps) : 1;
g_data->render_tot_samples = divide_ceil_u(scene->eevee.taa_render_samples, time_steps_tot);
/* Compute start time. The motion blur will cover `[time ...time + shuttertime]`. */
float time = initial_frame + initial_subframe;
switch (scene->eevee.motion_blur_position) {
case SCE_EEVEE_MB_START:
/* No offset. */
break;
case SCE_EEVEE_MB_CENTER:
time -= shuttertime * 0.5f;
break;
case SCE_EEVEE_MB_END:
time -= shuttertime;
break;
default:
BLI_assert(!"Invalid motion blur position enum!");
break;
}
float time_step = shuttertime / time_steps_tot;
for (int i = 0; i < time_steps_tot && !RE_engine_test_break(engine); i++) {
float time_prev = time;
float time_curr = time + time_step * 0.5f;
float time_next = time + time_step;
time += time_step;
/* Previous motion step. */
if (do_motion_blur_fx) {
if (i > 0) {
/* The previous step of this iteration N is exactly the next step of iteration N - 1.
* So we just swap the resources to avoid too much re-evaluation. */
EEVEE_motion_blur_swap_data(vedata);
}
else {
EEVEE_motion_blur_step_set(ved, MB_PREV);
DRW_render_set_time(engine, depsgraph, floorf(time_prev), fractf(time_prev));
EEVEE_render_modules_init(vedata, engine, depsgraph);
sldata = EEVEE_view_layer_data_ensure();
EEVEE_render_cache_init(sldata, vedata);
DRW_render_object_iter(vedata, engine, depsgraph, EEVEE_render_cache);
EEVEE_motion_blur_cache_finish(vedata);
EEVEE_materials_cache_finish(sldata, vedata);
eevee_render_reset_passes(vedata);
}
}
/* Next motion step. */
if (do_motion_blur_fx) {
EEVEE_motion_blur_step_set(ved, MB_NEXT);
DRW_render_set_time(engine, depsgraph, floorf(time_next), fractf(time_next));
EEVEE_render_modules_init(vedata, engine, depsgraph);
sldata = EEVEE_view_layer_data_ensure();
EEVEE_render_cache_init(sldata, vedata);
DRW_render_object_iter(vedata, engine, depsgraph, EEVEE_render_cache);
EEVEE_motion_blur_cache_finish(vedata);
EEVEE_materials_cache_finish(sldata, vedata);
eevee_render_reset_passes(vedata);
}
/* Current motion step. */
{
if (do_motion_blur) {
EEVEE_motion_blur_step_set(ved, MB_CURR);
DRW_render_set_time(engine, depsgraph, floorf(time_curr), fractf(time_curr));
EEVEE_render_modules_init(vedata, engine, depsgraph);
sldata = EEVEE_view_layer_data_ensure();
}
EEVEE_render_cache_init(sldata, vedata);
DRW_render_object_iter(vedata, engine, depsgraph, EEVEE_render_cache);
EEVEE_motion_blur_cache_finish(vedata);
EEVEE_volumes_cache_finish(sldata, vedata);
EEVEE_materials_cache_finish(sldata, vedata);
EEVEE_lights_cache_finish(sldata, vedata);
EEVEE_lightprobes_cache_finish(sldata, vedata);
EEVEE_renderpasses_cache_finish(sldata, vedata);
EEVEE_subsurface_draw_init(sldata, vedata);
EEVEE_effects_draw_init(sldata, vedata);
EEVEE_volumes_draw_init(sldata, vedata);
}
/* Actual drawing. */
{
EEVEE_renderpasses_output_init(sldata, vedata, g_data->render_tot_samples * time_steps_tot);
EEVEE_temporal_sampling_create_view(vedata);
EEVEE_render_draw(vedata, engine, render_layer, rect);
if (i < time_steps_tot - 1) {
/* Don't reset after the last loop. Since EEVEE_render_read_result
* might need some DRWPasses. */
DRW_cache_restart();
}
}
}
EEVEE_volumes_free_smoke_textures();
EEVEE_motion_blur_data_free(&ved->stl->effects->motion_blur);
if (RE_engine_test_break(engine)) {
return;
}
EEVEE_render_read_result(vedata, engine, render_layer, rect);
/* Restore original viewport size. */
DRW_render_viewport_size_set((int[2]){g_data->size_orig[0], g_data->size_orig[1]});
if (CFRA != initial_frame || SUBFRA != initial_subframe) {
/* Restore original frame number. This is because the render pipeline expects it. */
RE_engine_frame_set(engine, initial_frame, initial_subframe);
}
}
static void eevee_store_metadata(void *vedata, struct RenderResult *render_result)
{
EEVEE_Data *ved = (EEVEE_Data *)vedata;
EEVEE_PrivateData *g_data = ved->stl->g_data;
if (g_data->render_passes & EEVEE_RENDER_PASS_CRYPTOMATTE) {
EEVEE_cryptomatte_store_metadata(ved, render_result);
EEVEE_cryptomatte_free(ved);
}
}
static void eevee_engine_free(void)
{
EEVEE_shaders_free();
EEVEE_lightprobes_free();
EEVEE_materials_free();
EEVEE_occlusion_free();
EEVEE_volumes_free();
}
static const DrawEngineDataSize eevee_data_size = DRW_VIEWPORT_DATA_SIZE(EEVEE_Data);
DrawEngineType draw_engine_eevee_type = {
NULL,
NULL,
N_("Eevee"),
&eevee_data_size,
&eevee_engine_init,
&eevee_engine_free,
&eevee_cache_init,
&EEVEE_cache_populate,
&eevee_cache_finish,
&eevee_draw_scene,
&eevee_view_update,
&eevee_id_update,
&eevee_render_to_image,
&eevee_store_metadata,
};
RenderEngineType DRW_engine_viewport_eevee_type = {
NULL,
NULL,
EEVEE_ENGINE,
N_("Eevee"),
RE_INTERNAL | RE_USE_PREVIEW | RE_USE_STEREO_VIEWPORT | RE_USE_GPU_CONTEXT,
NULL,
&DRW_render_to_image,
NULL,
NULL,
NULL,
NULL,
&EEVEE_render_update_passes,
&draw_engine_eevee_type,
{NULL, NULL, NULL},
};
#undef EEVEE_ENGINE
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