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blender-archive/source/blender/draw/engines/eevee/eevee_render.c
Clément Foucault 439b40e601 EEVEE: Motion Blur: Add accumulation motion blur for better precision 
This revisit the render pipeline to support time slicing for better motion
blur.

We support accumulation with or without the Post-process motion blur.

If using the post-process, we reuse last step next motion data to avoid
another scene reevaluation.

This also adds support for hair motion blur which is handled in a similar
way as mesh motion blur.

The total number of samples is distributed evenly accross all timesteps to
avoid sampling weighting issues. For this reason, the sample count is
(internally) rounded up to the next multiple of the step count.

Only FX Motion BLur: {F8632258}

FX Motion Blur + 4 time steps: {F8632260}

FX Motion Blur + 32 time steps: {F8632261}

Reviewed By: jbakker

Differential Revision: https://developer.blender.org/D8079
2020-06-23 14:04:41 +02:00

679 lines
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/*
* 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
*/
/**
* Render functions for final render outputs.
*/
#include "DRW_engine.h"
#include "DRW_render.h"
#include "DNA_node_types.h"
#include "DNA_object_types.h"
#include "BKE_global.h"
#include "BKE_object.h"
#include "BLI_rand.h"
#include "BLI_rect.h"
#include "DEG_depsgraph_query.h"
#include "GPU_extensions.h"
#include "GPU_framebuffer.h"
#include "GPU_state.h"
#include "RE_pipeline.h"
#include "eevee_private.h"
/* Return true if init properly. */
bool EEVEE_render_init(EEVEE_Data *ved, RenderEngine *engine, struct Depsgraph *depsgraph)
{
EEVEE_Data *vedata = (EEVEE_Data *)ved;
EEVEE_StorageList *stl = vedata->stl;
EEVEE_TextureList *txl = vedata->txl;
EEVEE_FramebufferList *fbl = vedata->fbl;
EEVEE_ViewLayerData *sldata = EEVEE_view_layer_data_ensure();
Scene *scene = DEG_get_evaluated_scene(depsgraph);
const float *size_orig = DRW_viewport_size_get();
float size_final[2];
float camtexcofac[4];
/* Init default FB and render targets:
* In render mode the default framebuffer is not generated
* because there is no viewport. So we need to manually create it or
* not use it. For code clarity we just allocate it make use of it. */
DefaultFramebufferList *dfbl = DRW_viewport_framebuffer_list_get();
DefaultTextureList *dtxl = DRW_viewport_texture_list_get();
/* Alloc transient data. */
if (!stl->g_data) {
stl->g_data = MEM_callocN(sizeof(*stl->g_data), __func__);
}
EEVEE_PrivateData *g_data = stl->g_data;
g_data->background_alpha = DRW_state_draw_background() ? 1.0f : 0.0f;
g_data->valid_double_buffer = 0;
copy_v2_v2(g_data->size_orig, size_orig);
if (scene->eevee.flag & SCE_EEVEE_OVERSCAN) {
g_data->overscan = scene->eevee.overscan / 100.0f;
g_data->overscan_pixels = roundf(max_ff(size_orig[0], size_orig[1]) * g_data->overscan);
madd_v2_v2v2fl(size_final, size_orig, (float[2]){2.0f, 2.0f}, g_data->overscan_pixels);
camtexcofac[0] = size_final[0] / size_orig[0];
camtexcofac[1] = size_final[1] / size_orig[1];
camtexcofac[2] = -camtexcofac[0] * g_data->overscan_pixels / size_final[0];
camtexcofac[3] = -camtexcofac[1] * g_data->overscan_pixels / size_final[1];
}
else {
copy_v2_v2(size_final, size_orig);
g_data->overscan = 0.0f;
g_data->overscan_pixels = 0.0f;
copy_v4_fl4(camtexcofac, 1.0f, 1.0f, 0.0f, 0.0f);
}
int final_res[2] = {size_orig[0] + g_data->overscan_pixels * 2.0f,
size_orig[1] + g_data->overscan_pixels * 2.0f};
int max_dim = max_ii(final_res[0], final_res[1]);
if (max_dim > GPU_max_texture_size()) {
char error_msg[128];
BLI_snprintf(error_msg,
sizeof(error_msg),
"Error: Reported texture size limit (%dpx) is lower than output size (%dpx).",
GPU_max_texture_size(),
max_dim);
RE_engine_set_error_message(engine, error_msg);
G.is_break = true;
return false;
}
/* XXX overriding viewport size. Simplify things but is not really 100% safe. */
DRW_render_viewport_size_set(final_res);
/* TODO 32 bit depth */
DRW_texture_ensure_fullscreen_2d(&dtxl->depth, GPU_DEPTH24_STENCIL8, 0);
DRW_texture_ensure_fullscreen_2d(&txl->color, GPU_RGBA32F, DRW_TEX_FILTER | DRW_TEX_MIPMAP);
GPU_framebuffer_ensure_config(
&dfbl->default_fb,
{GPU_ATTACHMENT_TEXTURE(dtxl->depth), GPU_ATTACHMENT_TEXTURE(txl->color)});
GPU_framebuffer_ensure_config(
&fbl->main_fb, {GPU_ATTACHMENT_TEXTURE(dtxl->depth), GPU_ATTACHMENT_TEXTURE(txl->color)});
GPU_framebuffer_ensure_config(&fbl->main_color_fb,
{GPU_ATTACHMENT_NONE, GPU_ATTACHMENT_TEXTURE(txl->color)});
/* Alloc common ubo data. */
if (sldata->common_ubo == NULL) {
sldata->common_ubo = DRW_uniformbuffer_create(sizeof(sldata->common_data),
&sldata->common_data);
}
EEVEE_render_view_sync(vedata, engine, depsgraph);
/* TODO(sergey): Shall render hold pointer to an evaluated camera instead? */
struct Object *ob_camera_eval = DEG_get_evaluated_object(depsgraph, RE_GetCamera(engine->re));
DRWView *view = (DRWView *)DRW_view_default_get();
DRW_view_camtexco_set(view, camtexcofac);
/* `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, ob_camera_eval, false);
EEVEE_materials_init(sldata, vedata, stl, fbl);
EEVEE_shadows_init(sldata);
EEVEE_lightprobes_init(sldata, vedata);
return true;
}
void EEVEE_render_view_sync(EEVEE_Data *vedata, RenderEngine *engine, struct Depsgraph *depsgraph)
{
EEVEE_PrivateData *g_data = vedata->stl->g_data;
/* Set the pers & view matrix. */
float winmat[4][4], viewmat[4][4], viewinv[4][4];
/* TODO(sergey): Shall render hold pointer to an evaluated camera instead? */
struct Object *ob_camera_eval = DEG_get_evaluated_object(depsgraph, RE_GetCamera(engine->re));
RE_GetCameraWindow(engine->re, ob_camera_eval, winmat);
RE_GetCameraWindowWithOverscan(engine->re, winmat, g_data->overscan);
RE_GetCameraModelMatrix(engine->re, ob_camera_eval, viewinv);
invert_m4_m4(viewmat, viewinv);
DRWView *view = DRW_view_create(viewmat, winmat, NULL, NULL, NULL);
DRW_view_reset();
DRW_view_default_set(view);
DRW_view_set_active(view);
}
void EEVEE_render_cache_init(EEVEE_ViewLayerData *sldata, EEVEE_Data *vedata)
{
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);
}
/* Used by light cache. in this case engine is NULL. */
void EEVEE_render_cache(void *vedata,
struct Object *ob,
struct RenderEngine *engine,
struct Depsgraph *depsgraph)
{
EEVEE_ViewLayerData *sldata = EEVEE_view_layer_data_ensure();
EEVEE_LightProbesInfo *pinfo = sldata->probes;
bool cast_shadow = false;
eevee_id_update(vedata, &ob->id);
if (pinfo->vis_data.collection) {
/* Used for rendering probe with visibility groups. */
bool ob_vis = BKE_collection_has_object_recursive(pinfo->vis_data.collection, ob);
ob_vis = (pinfo->vis_data.invert) ? !ob_vis : ob_vis;
if (!ob_vis) {
return;
}
}
/* Don't print dupli objects as this can be very verbose and
* increase the render time on Windows because of slow windows term.
* (see T59649) */
if (engine && (ob->base_flag & BASE_FROM_DUPLI) == 0) {
char info[42];
BLI_snprintf(info, sizeof(info), "Syncing %s", ob->id.name + 2);
RE_engine_update_stats(engine, NULL, info);
}
const int ob_visibility = DRW_object_visibility_in_active_context(ob);
if (ob_visibility & OB_VISIBLE_PARTICLES) {
EEVEE_particle_hair_cache_populate(vedata, sldata, ob, &cast_shadow);
}
if (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) {
Scene *scene = DEG_get_evaluated_scene(depsgraph);
EEVEE_volumes_cache_object_add(sldata, vedata, scene, ob);
}
else if (ob->type == OB_LIGHTPROBE) {
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_render_color_result(RenderLayer *rl,
const char *viewname,
const rcti *rect,
const char *render_pass_name,
int num_channels,
GPUFrameBuffer *framebuffer,
EEVEE_Data *vedata)
{
RenderPass *rp = RE_pass_find_by_name(rl, render_pass_name, viewname);
if (rp == NULL) {
return;
}
GPU_framebuffer_bind(framebuffer);
GPU_framebuffer_read_color(framebuffer,
vedata->stl->g_data->overscan_pixels + rect->xmin,
vedata->stl->g_data->overscan_pixels + rect->ymin,
BLI_rcti_size_x(rect),
BLI_rcti_size_y(rect),
num_channels,
0,
rp->rect);
}
static void eevee_render_result_combined(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *UNUSED(sldata))
{
eevee_render_color_result(
rl, viewname, rect, RE_PASSNAME_COMBINED, 4, vedata->stl->effects->final_fb, vedata);
}
static void eevee_render_result_normal(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
const int current_sample = vedata->stl->effects->taa_current_sample;
/* Only read the center texel. */
if (current_sample > 1) {
return;
}
if ((vedata->stl->g_data->render_passes & EEVEE_RENDER_PASS_NORMAL) != 0) {
EEVEE_renderpasses_postprocess(sldata, vedata, EEVEE_RENDER_PASS_NORMAL);
eevee_render_color_result(
rl, viewname, rect, RE_PASSNAME_NORMAL, 3, vedata->fbl->renderpass_fb, vedata);
}
}
static void eevee_render_result_z(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
const int current_sample = vedata->stl->effects->taa_current_sample;
/* Only read the center texel. */
if (current_sample > 1) {
return;
}
if ((vedata->stl->g_data->render_passes & EEVEE_RENDER_PASS_Z) != 0) {
EEVEE_renderpasses_postprocess(sldata, vedata, EEVEE_RENDER_PASS_Z);
eevee_render_color_result(
rl, viewname, rect, RE_PASSNAME_Z, 1, vedata->fbl->renderpass_fb, vedata);
}
}
static void eevee_render_result_mist(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
if ((vedata->stl->g_data->render_passes & EEVEE_RENDER_PASS_MIST) != 0) {
EEVEE_renderpasses_postprocess(sldata, vedata, EEVEE_RENDER_PASS_MIST);
eevee_render_color_result(
rl, viewname, rect, RE_PASSNAME_MIST, 1, vedata->fbl->renderpass_fb, vedata);
}
}
static void eevee_render_result_shadow(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
if ((vedata->stl->g_data->render_passes & EEVEE_RENDER_PASS_SHADOW) != 0) {
EEVEE_renderpasses_postprocess(sldata, vedata, EEVEE_RENDER_PASS_SHADOW);
eevee_render_color_result(
rl, viewname, rect, RE_PASSNAME_SHADOW, 3, vedata->fbl->renderpass_fb, vedata);
}
}
static void eevee_render_result_occlusion(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
if ((vedata->stl->effects->enabled_effects & EFFECT_GTAO) == 0) {
/* AO is not enabled. */
return;
}
if ((vedata->stl->g_data->render_passes & EEVEE_RENDER_PASS_AO) != 0) {
EEVEE_renderpasses_postprocess(sldata, vedata, EEVEE_RENDER_PASS_AO);
eevee_render_color_result(
rl, viewname, rect, RE_PASSNAME_AO, 3, vedata->fbl->renderpass_fb, vedata);
}
}
static void eevee_render_result_bloom(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
if ((vedata->stl->effects->enabled_effects & EFFECT_BLOOM) == 0) {
/* Bloom is not enabled. */
return;
}
if ((vedata->stl->g_data->render_passes & EEVEE_RENDER_PASS_BLOOM) != 0) {
EEVEE_renderpasses_postprocess(sldata, vedata, EEVEE_RENDER_PASS_BLOOM);
eevee_render_color_result(
rl, viewname, rect, RE_PASSNAME_BLOOM, 3, vedata->fbl->renderpass_fb, vedata);
}
}
#define EEVEE_RENDER_RESULT_MATERIAL_PASS(pass_name, eevee_pass_type) \
if ((vedata->stl->g_data->render_passes & EEVEE_RENDER_PASS_##eevee_pass_type) != 0) { \
EEVEE_renderpasses_postprocess(sldata, vedata, EEVEE_RENDER_PASS_##eevee_pass_type); \
eevee_render_color_result( \
rl, viewname, rect, RE_PASSNAME_##pass_name, 3, vedata->fbl->renderpass_fb, vedata); \
}
static void eevee_render_result_diffuse_color(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
EEVEE_RENDER_RESULT_MATERIAL_PASS(DIFFUSE_COLOR, DIFFUSE_COLOR)
}
static void eevee_render_result_diffuse_direct(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
EEVEE_RENDER_RESULT_MATERIAL_PASS(DIFFUSE_DIRECT, DIFFUSE_LIGHT)
}
static void eevee_render_result_specular_color(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
EEVEE_RENDER_RESULT_MATERIAL_PASS(GLOSSY_COLOR, SPECULAR_COLOR)
}
static void eevee_render_result_specular_direct(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
EEVEE_RENDER_RESULT_MATERIAL_PASS(GLOSSY_DIRECT, SPECULAR_LIGHT)
}
static void eevee_render_result_emission(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
EEVEE_RENDER_RESULT_MATERIAL_PASS(EMIT, EMIT)
}
static void eevee_render_result_environment(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
EEVEE_RENDER_RESULT_MATERIAL_PASS(ENVIRONMENT, ENVIRONMENT)
}
static void eevee_render_result_volume_scatter(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
EEVEE_RENDER_RESULT_MATERIAL_PASS(VOLUME_SCATTER, VOLUME_SCATTER)
}
static void eevee_render_result_volume_transmittance(RenderLayer *rl,
const char *viewname,
const rcti *rect,
EEVEE_Data *vedata,
EEVEE_ViewLayerData *sldata)
{
EEVEE_RENDER_RESULT_MATERIAL_PASS(VOLUME_TRANSMITTANCE, VOLUME_TRANSMITTANCE)
}
#undef EEVEE_RENDER_RESULT_MATERIAL_PASS
static void eevee_render_draw_background(EEVEE_Data *vedata)
{
EEVEE_FramebufferList *fbl = vedata->fbl;
EEVEE_StorageList *stl = vedata->stl;
EEVEE_PassList *psl = vedata->psl;
/* Prevent background to write to data buffers.
* NOTE : This also make sure the textures are bound
* to the right double buffer. */
GPU_framebuffer_ensure_config(&fbl->main_fb,
{GPU_ATTACHMENT_LEAVE,
GPU_ATTACHMENT_LEAVE,
GPU_ATTACHMENT_NONE,
GPU_ATTACHMENT_NONE,
GPU_ATTACHMENT_NONE,
GPU_ATTACHMENT_NONE});
GPU_framebuffer_bind(fbl->main_fb);
DRW_draw_pass(psl->background_ps);
GPU_framebuffer_ensure_config(&fbl->main_fb,
{GPU_ATTACHMENT_LEAVE,
GPU_ATTACHMENT_LEAVE,
GPU_ATTACHMENT_TEXTURE(stl->effects->ssr_normal_input),
GPU_ATTACHMENT_TEXTURE(stl->effects->ssr_specrough_input),
GPU_ATTACHMENT_TEXTURE(stl->effects->sss_irradiance),
GPU_ATTACHMENT_TEXTURE(stl->effects->sss_radius),
GPU_ATTACHMENT_TEXTURE(stl->effects->sss_albedo)});
GPU_framebuffer_bind(fbl->main_fb);
}
void EEVEE_render_draw(EEVEE_Data *vedata, RenderEngine *engine, RenderLayer *rl, const rcti *rect)
{
const char *viewname = RE_GetActiveRenderView(engine->re);
EEVEE_PassList *psl = vedata->psl;
EEVEE_StorageList *stl = vedata->stl;
EEVEE_FramebufferList *fbl = vedata->fbl;
DefaultTextureList *dtxl = DRW_viewport_texture_list_get();
EEVEE_ViewLayerData *sldata = EEVEE_view_layer_data_ensure();
/* Push instances attributes to the GPU. */
DRW_render_instance_buffer_finish();
/* Need to be called after DRW_render_instance_buffer_finish() */
/* Also we weed to have a correct fbo bound for DRW_hair_update */
GPU_framebuffer_bind(fbl->main_fb);
DRW_hair_update();
/* Sort transparents before the loop. */
DRW_pass_sort_shgroup_z(psl->transparent_pass);
uint tot_sample = stl->g_data->render_tot_samples;
uint render_samples = 0;
/* SSR needs one iteration to start properly. */
if ((stl->effects->enabled_effects & EFFECT_SSR) && !stl->effects->ssr_was_valid_double_buffer) {
tot_sample += 1;
}
while (render_samples < tot_sample && !RE_engine_test_break(engine)) {
float clear_col[4] = {0.0f, 0.0f, 0.0f, 0.0f};
float clear_depth = 1.0f;
uint clear_stencil = 0x00;
uint primes[3] = {2, 3, 7};
double offset[3] = {0.0, 0.0, 0.0};
double r[3];
if ((stl->effects->enabled_effects & EFFECT_SSR) && (render_samples == 1) &&
!stl->effects->ssr_was_valid_double_buffer) {
/* SSR needs one iteration to start properly.
* This iteration was done, reset to the original target sample count. */
render_samples--;
tot_sample--;
/* 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;
}
/* Don't print every samples as it can lead to bad performance. (see T59649) */
else if ((render_samples % 25) == 0 || (render_samples + 1) == tot_sample) {
char info[42];
BLI_snprintf(
info, sizeof(info), "Rendering %u / %u samples", render_samples + 1, tot_sample);
RE_engine_update_stats(engine, NULL, info);
}
/* Copy previous persmat to UBO data */
copy_m4_m4(sldata->common_data.prev_persmat, stl->effects->prev_persmat);
BLI_halton_3d(primes, offset, stl->effects->taa_current_sample, r);
EEVEE_update_noise(psl, fbl, r);
EEVEE_temporal_sampling_matrices_calc(stl->effects, r);
EEVEE_volumes_set_jitter(sldata, stl->effects->taa_current_sample - 1);
EEVEE_materials_init(sldata, vedata, stl, fbl);
/* Refresh Probes
* Shadows needs to be updated for correct probes */
EEVEE_shadows_update(sldata, vedata);
EEVEE_lightprobes_refresh(sldata, vedata);
EEVEE_lightprobes_refresh_planar(sldata, vedata);
/* Refresh Shadows */
EEVEE_shadows_draw(sldata, vedata, stl->effects->taa_view);
/* Set matrices. */
DRW_view_set_active(stl->effects->taa_view);
/* Set ray type. */
sldata->common_data.ray_type = EEVEE_RAY_CAMERA;
sldata->common_data.ray_depth = 0.0f;
DRW_uniformbuffer_update(sldata->common_ubo, &sldata->common_data);
GPU_framebuffer_bind(fbl->main_fb);
GPU_framebuffer_clear_color_depth_stencil(fbl->main_fb, clear_col, clear_depth, clear_stencil);
/* Depth prepass */
DRW_draw_pass(psl->depth_ps);
/* Create minmax texture */
EEVEE_create_minmax_buffer(vedata, dtxl->depth, -1);
EEVEE_occlusion_compute(sldata, vedata, dtxl->depth, -1);
EEVEE_volumes_compute(sldata, vedata);
/* Shading pass */
eevee_render_draw_background(vedata);
GPU_framebuffer_bind(fbl->main_fb);
DRW_draw_pass(psl->material_ps);
EEVEE_subsurface_data_render(sldata, vedata);
/* Effects pre-transparency */
EEVEE_subsurface_compute(sldata, vedata);
EEVEE_reflection_compute(sldata, vedata);
EEVEE_refraction_compute(sldata, vedata);
/* Opaque refraction */
DRW_draw_pass(psl->depth_refract_ps);
DRW_draw_pass(psl->material_refract_ps);
/* Result NORMAL */
eevee_render_result_normal(rl, viewname, rect, vedata, sldata);
/* Volumetrics Resolve Opaque */
EEVEE_volumes_resolve(sldata, vedata);
/* Subsurface output, Occlusion output, Mist output */
EEVEE_renderpasses_output_accumulate(sldata, vedata, false);
/* Transparent */
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);
/* Result Z */
eevee_render_result_z(rl, viewname, rect, vedata, sldata);
/* Post Process */
EEVEE_draw_effects(sldata, vedata);
/* XXX Seems to fix TDR issue with NVidia drivers on linux. */
GPU_finish();
RE_engine_update_progress(engine, (float)(render_samples++) / (float)tot_sample);
}
}
void EEVEE_render_read_result(EEVEE_Data *vedata,
RenderEngine *engine,
RenderLayer *rl,
const rcti *rect)
{
const char *viewname = RE_GetActiveRenderView(engine->re);
EEVEE_ViewLayerData *sldata = EEVEE_view_layer_data_ensure();
eevee_render_result_combined(rl, viewname, rect, vedata, sldata);
eevee_render_result_mist(rl, viewname, rect, vedata, sldata);
eevee_render_result_occlusion(rl, viewname, rect, vedata, sldata);
eevee_render_result_shadow(rl, viewname, rect, vedata, sldata);
eevee_render_result_diffuse_color(rl, viewname, rect, vedata, sldata);
eevee_render_result_diffuse_direct(rl, viewname, rect, vedata, sldata);
eevee_render_result_specular_color(rl, viewname, rect, vedata, sldata);
eevee_render_result_specular_direct(rl, viewname, rect, vedata, sldata);
eevee_render_result_emission(rl, viewname, rect, vedata, sldata);
eevee_render_result_environment(rl, viewname, rect, vedata, sldata);
eevee_render_result_bloom(rl, viewname, rect, vedata, sldata);
eevee_render_result_volume_scatter(rl, viewname, rect, vedata, sldata);
eevee_render_result_volume_transmittance(rl, viewname, rect, vedata, sldata);
}
void EEVEE_render_update_passes(RenderEngine *engine, Scene *scene, ViewLayer *view_layer)
{
RE_engine_register_pass(engine, scene, view_layer, RE_PASSNAME_COMBINED, 4, "RGBA", SOCK_RGBA);
#define CHECK_PASS_LEGACY(name, type, channels, chanid) \
if (view_layer->passflag & (SCE_PASS_##name)) { \
RE_engine_register_pass( \
engine, scene, view_layer, RE_PASSNAME_##name, channels, chanid, type); \
} \
((void)0)
#define CHECK_PASS_EEVEE(name, type, channels, chanid) \
if (view_layer->eevee.render_passes & (EEVEE_RENDER_PASS_##name)) { \
RE_engine_register_pass( \
engine, scene, view_layer, RE_PASSNAME_##name, channels, chanid, type); \
} \
((void)0)
CHECK_PASS_LEGACY(Z, SOCK_FLOAT, 1, "Z");
CHECK_PASS_LEGACY(MIST, SOCK_FLOAT, 1, "Z");
CHECK_PASS_LEGACY(NORMAL, SOCK_VECTOR, 3, "XYZ");
CHECK_PASS_LEGACY(SHADOW, SOCK_RGBA, 3, "RGB");
CHECK_PASS_LEGACY(AO, SOCK_RGBA, 3, "RGB");
CHECK_PASS_LEGACY(DIFFUSE_COLOR, SOCK_RGBA, 3, "RGB");
CHECK_PASS_LEGACY(DIFFUSE_DIRECT, SOCK_RGBA, 3, "RGB");
CHECK_PASS_LEGACY(GLOSSY_COLOR, SOCK_RGBA, 3, "RGB");
CHECK_PASS_LEGACY(GLOSSY_DIRECT, SOCK_RGBA, 3, "RGB");
CHECK_PASS_LEGACY(EMIT, SOCK_RGBA, 3, "RGB");
CHECK_PASS_LEGACY(ENVIRONMENT, SOCK_RGBA, 3, "RGB");
CHECK_PASS_EEVEE(VOLUME_SCATTER, SOCK_RGBA, 3, "RGB");
CHECK_PASS_EEVEE(VOLUME_TRANSMITTANCE, SOCK_RGBA, 3, "RGB");
CHECK_PASS_EEVEE(BLOOM, SOCK_RGBA, 3, "RGB");
#undef CHECK_PASS_LEGACY
#undef CHECK_PASS_EEVEE
}
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