godot/drivers/gles3/rasterizer_scene_gles3.cpp

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/*************************************************************************/
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/* rasterizer_scene_gles3.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2017 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2017 Godot Engine contributors (cf. AUTHORS.md) */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/*************************************************************************/
#include "rasterizer_scene_gles3.h"
#include "os/os.h"
#include "project_settings.h"
#include "rasterizer_canvas_gles3.h"
#include "servers/visual/visual_server_raster.h"
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#ifndef GLES_OVER_GL
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#define glClearDepth glClearDepthf
#endif
static const GLenum _cube_side_enum[6] = {
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GL_TEXTURE_CUBE_MAP_NEGATIVE_X,
GL_TEXTURE_CUBE_MAP_POSITIVE_X,
GL_TEXTURE_CUBE_MAP_NEGATIVE_Y,
GL_TEXTURE_CUBE_MAP_POSITIVE_Y,
GL_TEXTURE_CUBE_MAP_NEGATIVE_Z,
GL_TEXTURE_CUBE_MAP_POSITIVE_Z,
};
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static _FORCE_INLINE_ void store_transform2d(const Transform2D &p_mtx, float *p_array) {
p_array[0] = p_mtx.elements[0][0];
p_array[1] = p_mtx.elements[0][1];
p_array[2] = 0;
p_array[3] = 0;
p_array[4] = p_mtx.elements[1][0];
p_array[5] = p_mtx.elements[1][1];
p_array[6] = 0;
p_array[7] = 0;
p_array[8] = 0;
p_array[9] = 0;
p_array[10] = 1;
p_array[11] = 0;
p_array[12] = p_mtx.elements[2][0];
p_array[13] = p_mtx.elements[2][1];
p_array[14] = 0;
p_array[15] = 1;
}
static _FORCE_INLINE_ void store_transform(const Transform &p_mtx, float *p_array) {
p_array[0] = p_mtx.basis.elements[0][0];
p_array[1] = p_mtx.basis.elements[1][0];
p_array[2] = p_mtx.basis.elements[2][0];
p_array[3] = 0;
p_array[4] = p_mtx.basis.elements[0][1];
p_array[5] = p_mtx.basis.elements[1][1];
p_array[6] = p_mtx.basis.elements[2][1];
p_array[7] = 0;
p_array[8] = p_mtx.basis.elements[0][2];
p_array[9] = p_mtx.basis.elements[1][2];
p_array[10] = p_mtx.basis.elements[2][2];
p_array[11] = 0;
p_array[12] = p_mtx.origin.x;
p_array[13] = p_mtx.origin.y;
p_array[14] = p_mtx.origin.z;
p_array[15] = 1;
}
static _FORCE_INLINE_ void store_camera(const CameraMatrix &p_mtx, float *p_array) {
for (int i = 0; i < 4; i++) {
for (int j = 0; j < 4; j++) {
p_array[i * 4 + j] = p_mtx.matrix[i][j];
}
}
}
/* SHADOW ATLAS API */
RID RasterizerSceneGLES3::shadow_atlas_create() {
ShadowAtlas *shadow_atlas = memnew(ShadowAtlas);
shadow_atlas->fbo = 0;
shadow_atlas->depth = 0;
shadow_atlas->size = 0;
shadow_atlas->smallest_subdiv = 0;
for (int i = 0; i < 4; i++) {
shadow_atlas->size_order[i] = i;
}
return shadow_atlas_owner.make_rid(shadow_atlas);
}
void RasterizerSceneGLES3::shadow_atlas_set_size(RID p_atlas, int p_size) {
ShadowAtlas *shadow_atlas = shadow_atlas_owner.getornull(p_atlas);
ERR_FAIL_COND(!shadow_atlas);
ERR_FAIL_COND(p_size < 0);
p_size = next_power_of_2(p_size);
if (p_size == shadow_atlas->size)
return;
// erasing atlas
if (shadow_atlas->fbo) {
glDeleteTextures(1, &shadow_atlas->depth);
glDeleteFramebuffers(1, &shadow_atlas->fbo);
shadow_atlas->depth = 0;
shadow_atlas->fbo = 0;
}
for (int i = 0; i < 4; i++) {
//clear subdivisions
shadow_atlas->quadrants[i].shadows.resize(0);
shadow_atlas->quadrants[i].shadows.resize(1 << shadow_atlas->quadrants[i].subdivision);
}
//erase shadow atlas reference from lights
for (Map<RID, uint32_t>::Element *E = shadow_atlas->shadow_owners.front(); E; E = E->next()) {
LightInstance *li = light_instance_owner.getornull(E->key());
ERR_CONTINUE(!li);
li->shadow_atlases.erase(p_atlas);
}
//clear owners
shadow_atlas->shadow_owners.clear();
shadow_atlas->size = p_size;
if (shadow_atlas->size) {
glGenFramebuffers(1, &shadow_atlas->fbo);
glBindFramebuffer(GL_FRAMEBUFFER, shadow_atlas->fbo);
// Create a texture for storing the depth
glActiveTexture(GL_TEXTURE0);
glGenTextures(1, &shadow_atlas->depth);
glBindTexture(GL_TEXTURE_2D, shadow_atlas->depth);
glTexImage2D(GL_TEXTURE_2D, 0, GL_DEPTH_COMPONENT24, shadow_atlas->size, shadow_atlas->size, 0,
GL_DEPTH_COMPONENT, GL_UNSIGNED_INT, NULL);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_DEPTH_ATTACHMENT,
GL_TEXTURE_2D, shadow_atlas->depth, 0);
glViewport(0, 0, shadow_atlas->size, shadow_atlas->size);
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glClearDepth(0.0f);
glClear(GL_DEPTH_BUFFER_BIT);
glBindFramebuffer(GL_FRAMEBUFFER, 0);
}
}
void RasterizerSceneGLES3::shadow_atlas_set_quadrant_subdivision(RID p_atlas, int p_quadrant, int p_subdivision) {
ShadowAtlas *shadow_atlas = shadow_atlas_owner.getornull(p_atlas);
ERR_FAIL_COND(!shadow_atlas);
ERR_FAIL_INDEX(p_quadrant, 4);
ERR_FAIL_INDEX(p_subdivision, 16384);
uint32_t subdiv = next_power_of_2(p_subdivision);
if (subdiv & 0xaaaaaaaa) { //sqrt(subdiv) must be integer
subdiv <<= 1;
}
subdiv = int(Math::sqrt((float)subdiv));
//obtain the number that will be x*x
if (shadow_atlas->quadrants[p_quadrant].subdivision == subdiv)
return;
//erase all data from quadrant
for (int i = 0; i < shadow_atlas->quadrants[p_quadrant].shadows.size(); i++) {
if (shadow_atlas->quadrants[p_quadrant].shadows[i].owner.is_valid()) {
shadow_atlas->shadow_owners.erase(shadow_atlas->quadrants[p_quadrant].shadows[i].owner);
LightInstance *li = light_instance_owner.getornull(shadow_atlas->quadrants[p_quadrant].shadows[i].owner);
ERR_CONTINUE(!li);
li->shadow_atlases.erase(p_atlas);
}
}
shadow_atlas->quadrants[p_quadrant].shadows.resize(0);
shadow_atlas->quadrants[p_quadrant].shadows.resize(subdiv * subdiv);
shadow_atlas->quadrants[p_quadrant].subdivision = subdiv;
//cache the smallest subdiv (for faster allocation in light update)
shadow_atlas->smallest_subdiv = 1 << 30;
for (int i = 0; i < 4; i++) {
if (shadow_atlas->quadrants[i].subdivision) {
shadow_atlas->smallest_subdiv = MIN(shadow_atlas->smallest_subdiv, shadow_atlas->quadrants[i].subdivision);
}
}
if (shadow_atlas->smallest_subdiv == 1 << 30) {
shadow_atlas->smallest_subdiv = 0;
}
//resort the size orders, simple bublesort for 4 elements..
int swaps = 0;
do {
swaps = 0;
for (int i = 0; i < 3; i++) {
if (shadow_atlas->quadrants[shadow_atlas->size_order[i]].subdivision < shadow_atlas->quadrants[shadow_atlas->size_order[i + 1]].subdivision) {
SWAP(shadow_atlas->size_order[i], shadow_atlas->size_order[i + 1]);
swaps++;
}
}
} while (swaps > 0);
}
bool RasterizerSceneGLES3::_shadow_atlas_find_shadow(ShadowAtlas *shadow_atlas, int *p_in_quadrants, int p_quadrant_count, int p_current_subdiv, uint64_t p_tick, int &r_quadrant, int &r_shadow) {
for (int i = p_quadrant_count - 1; i >= 0; i--) {
int qidx = p_in_quadrants[i];
if (shadow_atlas->quadrants[qidx].subdivision == (uint32_t)p_current_subdiv) {
return false;
}
//look for an empty space
int sc = shadow_atlas->quadrants[qidx].shadows.size();
ShadowAtlas::Quadrant::Shadow *sarr = shadow_atlas->quadrants[qidx].shadows.ptr();
int found_free_idx = -1; //found a free one
int found_used_idx = -1; //found existing one, must steal it
uint64_t min_pass = 0; // pass of the existing one, try to use the least recently used one (LRU fashion)
for (int j = 0; j < sc; j++) {
if (!sarr[j].owner.is_valid()) {
found_free_idx = j;
break;
}
LightInstance *sli = light_instance_owner.getornull(sarr[j].owner);
ERR_CONTINUE(!sli);
if (sli->last_scene_pass != scene_pass) {
//was just allocated, don't kill it so soon, wait a bit..
if (p_tick - sarr[j].alloc_tick < shadow_atlas_realloc_tolerance_msec)
continue;
if (found_used_idx == -1 || sli->last_scene_pass < min_pass) {
found_used_idx = j;
min_pass = sli->last_scene_pass;
}
}
}
if (found_free_idx == -1 && found_used_idx == -1)
continue; //nothing found
if (found_free_idx == -1 && found_used_idx != -1) {
found_free_idx = found_used_idx;
}
r_quadrant = qidx;
r_shadow = found_free_idx;
return true;
}
return false;
}
bool RasterizerSceneGLES3::shadow_atlas_update_light(RID p_atlas, RID p_light_intance, float p_coverage, uint64_t p_light_version) {
ShadowAtlas *shadow_atlas = shadow_atlas_owner.getornull(p_atlas);
ERR_FAIL_COND_V(!shadow_atlas, false);
LightInstance *li = light_instance_owner.getornull(p_light_intance);
ERR_FAIL_COND_V(!li, false);
if (shadow_atlas->size == 0 || shadow_atlas->smallest_subdiv == 0) {
return false;
}
uint32_t quad_size = shadow_atlas->size >> 1;
int desired_fit = MIN(quad_size / shadow_atlas->smallest_subdiv, next_power_of_2(quad_size * p_coverage));
int valid_quadrants[4];
int valid_quadrant_count = 0;
int best_size = -1; //best size found
int best_subdiv = -1; //subdiv for the best size
//find the quadrants this fits into, and the best possible size it can fit into
for (int i = 0; i < 4; i++) {
int q = shadow_atlas->size_order[i];
int sd = shadow_atlas->quadrants[q].subdivision;
if (sd == 0)
continue; //unused
int max_fit = quad_size / sd;
if (best_size != -1 && max_fit > best_size)
break; //too large
valid_quadrants[valid_quadrant_count++] = q;
best_subdiv = sd;
if (max_fit >= desired_fit) {
best_size = max_fit;
}
}
ERR_FAIL_COND_V(valid_quadrant_count == 0, false);
uint64_t tick = OS::get_singleton()->get_ticks_msec();
//see if it already exists
if (shadow_atlas->shadow_owners.has(p_light_intance)) {
//it does!
uint32_t key = shadow_atlas->shadow_owners[p_light_intance];
uint32_t q = (key >> ShadowAtlas::QUADRANT_SHIFT) & 0x3;
uint32_t s = key & ShadowAtlas::SHADOW_INDEX_MASK;
bool should_realloc = shadow_atlas->quadrants[q].subdivision != (uint32_t)best_subdiv && (shadow_atlas->quadrants[q].shadows[s].alloc_tick - tick > shadow_atlas_realloc_tolerance_msec);
bool should_redraw = shadow_atlas->quadrants[q].shadows[s].version != p_light_version;
if (!should_realloc) {
shadow_atlas->quadrants[q].shadows[s].version = p_light_version;
//already existing, see if it should redraw or it's just OK
return should_redraw;
}
int new_quadrant, new_shadow;
//find a better place
if (_shadow_atlas_find_shadow(shadow_atlas, valid_quadrants, valid_quadrant_count, shadow_atlas->quadrants[q].subdivision, tick, new_quadrant, new_shadow)) {
//found a better place!
ShadowAtlas::Quadrant::Shadow *sh = &shadow_atlas->quadrants[new_quadrant].shadows[new_shadow];
if (sh->owner.is_valid()) {
//is taken, but is invalid, erasing it
shadow_atlas->shadow_owners.erase(sh->owner);
LightInstance *sli = light_instance_owner.get(sh->owner);
sli->shadow_atlases.erase(p_atlas);
}
//erase previous
shadow_atlas->quadrants[q].shadows[s].version = 0;
shadow_atlas->quadrants[q].shadows[s].owner = RID();
sh->owner = p_light_intance;
sh->alloc_tick = tick;
sh->version = p_light_version;
//make new key
key = new_quadrant << ShadowAtlas::QUADRANT_SHIFT;
key |= new_shadow;
//update it in map
shadow_atlas->shadow_owners[p_light_intance] = key;
//make it dirty, as it should redraw anyway
return true;
}
//no better place for this shadow found, keep current
//already existing, see if it should redraw or it's just OK
shadow_atlas->quadrants[q].shadows[s].version = p_light_version;
return should_redraw;
}
int new_quadrant, new_shadow;
//find a better place
if (_shadow_atlas_find_shadow(shadow_atlas, valid_quadrants, valid_quadrant_count, -1, tick, new_quadrant, new_shadow)) {
//found a better place!
ShadowAtlas::Quadrant::Shadow *sh = &shadow_atlas->quadrants[new_quadrant].shadows[new_shadow];
if (sh->owner.is_valid()) {
//is taken, but is invalid, erasing it
shadow_atlas->shadow_owners.erase(sh->owner);
LightInstance *sli = light_instance_owner.get(sh->owner);
sli->shadow_atlases.erase(p_atlas);
}
sh->owner = p_light_intance;
sh->alloc_tick = tick;
sh->version = p_light_version;
//make new key
uint32_t key = new_quadrant << ShadowAtlas::QUADRANT_SHIFT;
key |= new_shadow;
//update it in map
shadow_atlas->shadow_owners[p_light_intance] = key;
//make it dirty, as it should redraw anyway
return true;
}
//no place to allocate this light, apologies
return false;
}
void RasterizerSceneGLES3::set_directional_shadow_count(int p_count) {
directional_shadow.light_count = p_count;
directional_shadow.current_light = 0;
}
int RasterizerSceneGLES3::get_directional_light_shadow_size(RID p_light_intance) {
ERR_FAIL_COND_V(directional_shadow.light_count == 0, 0);
int shadow_size;
if (directional_shadow.light_count == 1) {
shadow_size = directional_shadow.size;
} else {
shadow_size = directional_shadow.size / 2; //more than 4 not supported anyway
}
LightInstance *light_instance = light_instance_owner.getornull(p_light_intance);
ERR_FAIL_COND_V(!light_instance, 0);
switch (light_instance->light_ptr->directional_shadow_mode) {
case VS::LIGHT_DIRECTIONAL_SHADOW_ORTHOGONAL:
break; //none
case VS::LIGHT_DIRECTIONAL_SHADOW_PARALLEL_2_SPLITS:
case VS::LIGHT_DIRECTIONAL_SHADOW_PARALLEL_4_SPLITS: shadow_size /= 2; break;
}
return shadow_size;
}
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//////////////////////////////////////////////////////
RID RasterizerSceneGLES3::reflection_atlas_create() {
ReflectionAtlas *reflection_atlas = memnew(ReflectionAtlas);
reflection_atlas->subdiv = 0;
reflection_atlas->color = 0;
reflection_atlas->size = 0;
for (int i = 0; i < 6; i++) {
reflection_atlas->fbo[i] = 0;
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}
return reflection_atlas_owner.make_rid(reflection_atlas);
}
void RasterizerSceneGLES3::reflection_atlas_set_size(RID p_ref_atlas, int p_size) {
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ReflectionAtlas *reflection_atlas = reflection_atlas_owner.getornull(p_ref_atlas);
ERR_FAIL_COND(!reflection_atlas);
int size = next_power_of_2(p_size);
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if (size == reflection_atlas->size)
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return;
if (reflection_atlas->size) {
for (int i = 0; i < 6; i++) {
glDeleteFramebuffers(1, &reflection_atlas->fbo[i]);
reflection_atlas->fbo[i] = 0;
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}
glDeleteTextures(1, &reflection_atlas->color);
reflection_atlas->color = 0;
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}
reflection_atlas->size = size;
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for (int i = 0; i < reflection_atlas->reflections.size(); i++) {
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//erase probes reference to this
if (reflection_atlas->reflections[i].owner.is_valid()) {
ReflectionProbeInstance *reflection_probe_instance = reflection_probe_instance_owner.getornull(reflection_atlas->reflections[i].owner);
reflection_atlas->reflections[i].owner = RID();
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ERR_CONTINUE(!reflection_probe_instance);
reflection_probe_instance->reflection_atlas_index = -1;
reflection_probe_instance->atlas = RID();
reflection_probe_instance->render_step = -1;
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}
}
if (reflection_atlas->size) {
bool use_float = true;
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GLenum internal_format = use_float ? GL_RGBA16F : GL_RGB10_A2;
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GLenum format = GL_RGBA;
GLenum type = use_float ? GL_HALF_FLOAT : GL_UNSIGNED_INT_2_10_10_10_REV;
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// Create a texture for storing the color
glActiveTexture(GL_TEXTURE0);
glGenTextures(1, &reflection_atlas->color);
glBindTexture(GL_TEXTURE_2D, reflection_atlas->color);
int mmsize = reflection_atlas->size;
glTexStorage2DCustom(GL_TEXTURE_2D, 6, internal_format, mmsize, mmsize, format, type);
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glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_BASE_LEVEL, 0);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAX_LEVEL, 5);
for (int i = 0; i < 6; i++) {
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glGenFramebuffers(1, &reflection_atlas->fbo[i]);
glBindFramebuffer(GL_FRAMEBUFFER, reflection_atlas->fbo[i]);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, reflection_atlas->color, i);
GLenum status = glCheckFramebufferStatus(GL_FRAMEBUFFER);
ERR_CONTINUE(status != GL_FRAMEBUFFER_COMPLETE);
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glDisable(GL_SCISSOR_TEST);
glViewport(0, 0, mmsize, mmsize);
glClearColor(0, 0, 0, 0);
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glClear(GL_COLOR_BUFFER_BIT); //it needs to be cleared, to avoid generating garbage
mmsize >>= 1;
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}
}
}
void RasterizerSceneGLES3::reflection_atlas_set_subdivision(RID p_ref_atlas, int p_subdiv) {
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ReflectionAtlas *reflection_atlas = reflection_atlas_owner.getornull(p_ref_atlas);
ERR_FAIL_COND(!reflection_atlas);
int subdiv = next_power_of_2(p_subdiv);
if (subdiv & 0xaaaaaaaa) { //sqrt(subdiv) must be integer
subdiv <<= 1;
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}
subdiv = int(Math::sqrt((float)subdiv));
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if (reflection_atlas->subdiv == subdiv)
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return;
if (subdiv) {
for (int i = 0; i < reflection_atlas->reflections.size(); i++) {
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//erase probes reference to this
if (reflection_atlas->reflections[i].owner.is_valid()) {
ReflectionProbeInstance *reflection_probe_instance = reflection_probe_instance_owner.getornull(reflection_atlas->reflections[i].owner);
reflection_atlas->reflections[i].owner = RID();
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ERR_CONTINUE(!reflection_probe_instance);
reflection_probe_instance->reflection_atlas_index = -1;
reflection_probe_instance->atlas = RID();
reflection_probe_instance->render_step = -1;
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}
}
}
reflection_atlas->subdiv = subdiv;
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reflection_atlas->reflections.resize(subdiv * subdiv);
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}
////////////////////////////////////////////////////
RID RasterizerSceneGLES3::reflection_probe_instance_create(RID p_probe) {
RasterizerStorageGLES3::ReflectionProbe *probe = storage->reflection_probe_owner.getornull(p_probe);
ERR_FAIL_COND_V(!probe, RID());
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ReflectionProbeInstance *rpi = memnew(ReflectionProbeInstance);
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rpi->probe_ptr = probe;
rpi->self = reflection_probe_instance_owner.make_rid(rpi);
rpi->probe = p_probe;
rpi->reflection_atlas_index = -1;
rpi->render_step = -1;
rpi->last_pass = 0;
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return rpi->self;
}
void RasterizerSceneGLES3::reflection_probe_instance_set_transform(RID p_instance, const Transform &p_transform) {
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ReflectionProbeInstance *rpi = reflection_probe_instance_owner.getornull(p_instance);
ERR_FAIL_COND(!rpi);
rpi->transform = p_transform;
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}
void RasterizerSceneGLES3::reflection_probe_release_atlas_index(RID p_instance) {
ReflectionProbeInstance *rpi = reflection_probe_instance_owner.getornull(p_instance);
ERR_FAIL_COND(!rpi);
if (rpi->reflection_atlas_index == -1)
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return;
ReflectionAtlas *reflection_atlas = reflection_atlas_owner.getornull(rpi->atlas);
ERR_FAIL_COND(!reflection_atlas);
ERR_FAIL_INDEX(rpi->reflection_atlas_index, reflection_atlas->reflections.size());
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ERR_FAIL_COND(reflection_atlas->reflections[rpi->reflection_atlas_index].owner != rpi->self);
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reflection_atlas->reflections[rpi->reflection_atlas_index].owner = RID();
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rpi->reflection_atlas_index = -1;
rpi->atlas = RID();
rpi->render_step = -1;
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}
bool RasterizerSceneGLES3::reflection_probe_instance_needs_redraw(RID p_instance) {
ReflectionProbeInstance *rpi = reflection_probe_instance_owner.getornull(p_instance);
ERR_FAIL_COND_V(!rpi, false);
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return rpi->reflection_atlas_index == -1 || rpi->probe_ptr->update_mode == VS::REFLECTION_PROBE_UPDATE_ALWAYS;
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}
bool RasterizerSceneGLES3::reflection_probe_instance_has_reflection(RID p_instance) {
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ReflectionProbeInstance *rpi = reflection_probe_instance_owner.getornull(p_instance);
ERR_FAIL_COND_V(!rpi, false);
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return rpi->reflection_atlas_index != -1;
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}
bool RasterizerSceneGLES3::reflection_probe_instance_begin_render(RID p_instance, RID p_reflection_atlas) {
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ReflectionProbeInstance *rpi = reflection_probe_instance_owner.getornull(p_instance);
ERR_FAIL_COND_V(!rpi, false);
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rpi->render_step = 0;
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if (rpi->reflection_atlas_index != -1) {
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return true; //got one already
}
ReflectionAtlas *reflection_atlas = reflection_atlas_owner.getornull(p_reflection_atlas);
ERR_FAIL_COND_V(!reflection_atlas, false);
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if (reflection_atlas->size == 0 || reflection_atlas->subdiv == 0) {
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return false;
}
int best_free = -1;
int best_used = -1;
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uint64_t best_used_frame;
for (int i = 0; i < reflection_atlas->reflections.size(); i++) {
if (reflection_atlas->reflections[i].owner == RID()) {
best_free = i;
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break;
}
if (rpi->render_step < 0 && reflection_atlas->reflections[i].last_frame < storage->frame.count &&
(best_used == -1 || reflection_atlas->reflections[i].last_frame < best_used_frame)) {
best_used = i;
best_used_frame = reflection_atlas->reflections[i].last_frame;
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}
}
if (best_free == -1 && best_used == -1) {
return false; // sorry, can not do. Try again next frame.
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}
if (best_free == -1) {
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//find best from what is used
best_free = best_used;
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ReflectionProbeInstance *victim_rpi = reflection_probe_instance_owner.getornull(reflection_atlas->reflections[best_free].owner);
ERR_FAIL_COND_V(!victim_rpi, false);
victim_rpi->atlas = RID();
victim_rpi->reflection_atlas_index = -1;
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}
reflection_atlas->reflections[best_free].owner = p_instance;
reflection_atlas->reflections[best_free].last_frame = storage->frame.count;
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rpi->reflection_atlas_index = best_free;
rpi->atlas = p_reflection_atlas;
rpi->render_step = 0;
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return true;
}
bool RasterizerSceneGLES3::reflection_probe_instance_postprocess_step(RID p_instance) {
ReflectionProbeInstance *rpi = reflection_probe_instance_owner.getornull(p_instance);
ERR_FAIL_COND_V(!rpi, true);
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ReflectionAtlas *reflection_atlas = reflection_atlas_owner.getornull(rpi->atlas);
ERR_FAIL_COND_V(!reflection_atlas, false);
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ERR_FAIL_COND_V(rpi->render_step >= 6, true);
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glBindFramebuffer(GL_FRAMEBUFFER, reflection_atlas->fbo[rpi->render_step]);
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state.cube_to_dp_shader.bind();
int target_size = reflection_atlas->size / reflection_atlas->subdiv;
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int cubemap_index = reflection_cubemaps.size() - 1;
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for (int i = reflection_cubemaps.size() - 1; i >= 0; i--) {
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//find appropriate cubemap to render to
if (reflection_cubemaps[i].size > target_size * 2)
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break;
cubemap_index = i;
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}
glDisable(GL_BLEND);
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_CUBE_MAP, reflection_cubemaps[cubemap_index].cubemap);
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glDisable(GL_CULL_FACE);
storage->shaders.cubemap_filter.set_conditional(CubemapFilterShaderGLES3::USE_DUAL_PARABOLOID, true);
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storage->shaders.cubemap_filter.bind();
int cell_size = reflection_atlas->size / reflection_atlas->subdiv;
for (int i = 0; i < rpi->render_step; i++) {
cell_size >>= 1; //mipmaps!
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}
int x = (rpi->reflection_atlas_index % reflection_atlas->subdiv) * cell_size;
int y = (rpi->reflection_atlas_index / reflection_atlas->subdiv) * cell_size;
int width = cell_size;
int height = cell_size;
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storage->shaders.cubemap_filter.set_conditional(CubemapFilterShaderGLES3::USE_DIRECT_WRITE, rpi->render_step == 0);
storage->shaders.cubemap_filter.set_conditional(CubemapFilterShaderGLES3::LOW_QUALITY, rpi->probe_ptr->update_mode == VS::REFLECTION_PROBE_UPDATE_ALWAYS);
for (int i = 0; i < 2; i++) {
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storage->shaders.cubemap_filter.set_uniform(CubemapFilterShaderGLES3::Z_FLIP, i == 0);
storage->shaders.cubemap_filter.set_uniform(CubemapFilterShaderGLES3::ROUGHNESS, rpi->render_step / 5.0);
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uint32_t local_width = width, local_height = height;
uint32_t local_x = x, local_y = y;
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local_height /= 2;
local_y += i * local_height;
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glViewport(local_x, local_y, local_width, local_height);
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_copy_screen();
}
storage->shaders.cubemap_filter.set_conditional(CubemapFilterShaderGLES3::USE_DIRECT_WRITE, false);
storage->shaders.cubemap_filter.set_conditional(CubemapFilterShaderGLES3::LOW_QUALITY, false);
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rpi->render_step++;
return rpi->render_step == 6;
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}
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/* ENVIRONMENT API */
RID RasterizerSceneGLES3::environment_create() {
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Environment *env = memnew(Environment);
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return environment_owner.make_rid(env);
}
void RasterizerSceneGLES3::environment_set_background(RID p_env, VS::EnvironmentBG p_bg) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->bg_mode = p_bg;
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}
void RasterizerSceneGLES3::environment_set_sky(RID p_env, RID p_sky) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->sky = p_sky;
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}
void RasterizerSceneGLES3::environment_set_sky_scale(RID p_env, float p_scale) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->sky_scale = p_scale;
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}
void RasterizerSceneGLES3::environment_set_bg_color(RID p_env, const Color &p_color) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->bg_color = p_color;
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}
void RasterizerSceneGLES3::environment_set_bg_energy(RID p_env, float p_energy) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->bg_energy = p_energy;
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}
void RasterizerSceneGLES3::environment_set_canvas_max_layer(RID p_env, int p_max_layer) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->canvas_max_layer = p_max_layer;
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}
void RasterizerSceneGLES3::environment_set_ambient_light(RID p_env, const Color &p_color, float p_energy, float p_sky_contribution) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->ambient_color = p_color;
env->ambient_energy = p_energy;
env->ambient_sky_contribution = p_sky_contribution;
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}
void RasterizerSceneGLES3::environment_set_dof_blur_far(RID p_env, bool p_enable, float p_distance, float p_transition, float p_amount, VS::EnvironmentDOFBlurQuality p_quality) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->dof_blur_far_enabled = p_enable;
env->dof_blur_far_distance = p_distance;
env->dof_blur_far_transition = p_transition;
env->dof_blur_far_amount = p_amount;
env->dof_blur_far_quality = p_quality;
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}
void RasterizerSceneGLES3::environment_set_dof_blur_near(RID p_env, bool p_enable, float p_distance, float p_transition, float p_amount, VS::EnvironmentDOFBlurQuality p_quality) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->dof_blur_near_enabled = p_enable;
env->dof_blur_near_distance = p_distance;
env->dof_blur_near_transition = p_transition;
env->dof_blur_near_amount = p_amount;
env->dof_blur_near_quality = p_quality;
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}
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void RasterizerSceneGLES3::environment_set_glow(RID p_env, bool p_enable, int p_level_flags, float p_intensity, float p_strength, float p_bloom_threshold, VS::EnvironmentGlowBlendMode p_blend_mode, float p_hdr_bleed_threshold, float p_hdr_bleed_scale, bool p_bicubic_upscale) {
Environment *env = environment_owner.getornull(p_env);
ERR_FAIL_COND(!env);
env->glow_enabled = p_enable;
env->glow_levels = p_level_flags;
env->glow_intensity = p_intensity;
env->glow_strength = p_strength;
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env->glow_bloom = p_bloom_threshold;
env->glow_blend_mode = p_blend_mode;
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env->glow_hdr_bleed_threshold = p_hdr_bleed_threshold;
env->glow_hdr_bleed_scale = p_hdr_bleed_scale;
env->glow_bicubic_upscale = p_bicubic_upscale;
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}
void RasterizerSceneGLES3::environment_set_fog(RID p_env, bool p_enable, float p_begin, float p_end, RID p_gradient_texture) {
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}
void RasterizerSceneGLES3::environment_set_ssr(RID p_env, bool p_enable, int p_max_steps, float p_fade_in, float p_fade_out, float p_depth_tolerance, bool p_roughness) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->ssr_enabled = p_enable;
env->ssr_max_steps = p_max_steps;
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env->ssr_fade_in = p_fade_in;
env->ssr_fade_out = p_fade_out;
env->ssr_depth_tolerance = p_depth_tolerance;
env->ssr_roughness = p_roughness;
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}
void RasterizerSceneGLES3::environment_set_ssao(RID p_env, bool p_enable, float p_radius, float p_intensity, float p_radius2, float p_intensity2, float p_bias, float p_light_affect, const Color &p_color, bool p_blur) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->ssao_enabled = p_enable;
env->ssao_radius = p_radius;
env->ssao_intensity = p_intensity;
env->ssao_radius2 = p_radius2;
env->ssao_intensity2 = p_intensity2;
env->ssao_bias = p_bias;
env->ssao_light_affect = p_light_affect;
env->ssao_color = p_color;
env->ssao_filter = p_blur;
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}
void RasterizerSceneGLES3::environment_set_tonemap(RID p_env, VS::EnvironmentToneMapper p_tone_mapper, float p_exposure, float p_white, bool p_auto_exposure, float p_min_luminance, float p_max_luminance, float p_auto_exp_speed, float p_auto_exp_scale) {
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Environment *env = environment_owner.getornull(p_env);
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ERR_FAIL_COND(!env);
env->tone_mapper = p_tone_mapper;
env->tone_mapper_exposure = p_exposure;
env->tone_mapper_exposure_white = p_white;
env->auto_exposure = p_auto_exposure;
env->auto_exposure_speed = p_auto_exp_speed;
env->auto_exposure_min = p_min_luminance;
env->auto_exposure_max = p_max_luminance;
env->auto_exposure_grey = p_auto_exp_scale;
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}
void RasterizerSceneGLES3::environment_set_adjustment(RID p_env, bool p_enable, float p_brightness, float p_contrast, float p_saturation, RID p_ramp) {
Environment *env = environment_owner.getornull(p_env);
ERR_FAIL_COND(!env);
env->adjustments_enabled = p_enable;
env->adjustments_brightness = p_brightness;
env->adjustments_contrast = p_contrast;
env->adjustments_saturation = p_saturation;
env->color_correction = p_ramp;
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}
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void RasterizerSceneGLES3::environment_set_fog(RID p_env, bool p_enable, const Color &p_color, const Color &p_sun_color, float p_sun_amount) {
Environment *env = environment_owner.getornull(p_env);
ERR_FAIL_COND(!env);
env->fog_enabled = p_enable;
env->fog_color = p_color;
env->fog_sun_color = p_sun_color;
env->fog_sun_amount = p_sun_amount;
}
void RasterizerSceneGLES3::environment_set_fog_depth(RID p_env, bool p_enable, float p_depth_begin, float p_depth_curve, bool p_transmit, float p_transmit_curve) {
Environment *env = environment_owner.getornull(p_env);
ERR_FAIL_COND(!env);
env->fog_depth_enabled = p_enable;
env->fog_depth_begin = p_depth_begin;
env->fog_depth_curve = p_depth_curve;
env->fog_transmit_enabled = p_transmit;
env->fog_transmit_curve = p_transmit_curve;
}
void RasterizerSceneGLES3::environment_set_fog_height(RID p_env, bool p_enable, float p_min_height, float p_max_height, float p_height_curve) {
Environment *env = environment_owner.getornull(p_env);
ERR_FAIL_COND(!env);
env->fog_height_enabled = p_enable;
env->fog_height_min = p_min_height;
env->fog_height_max = p_max_height;
env->fog_height_curve = p_height_curve;
}
bool RasterizerSceneGLES3::is_environment(RID p_env) {
return environment_owner.owns(p_env);
}
VS::EnvironmentBG RasterizerSceneGLES3::environment_get_background(RID p_env) {
const Environment *env = environment_owner.getornull(p_env);
ERR_FAIL_COND_V(!env, VS::ENV_BG_MAX);
return env->bg_mode;
}
int RasterizerSceneGLES3::environment_get_canvas_max_layer(RID p_env) {
const Environment *env = environment_owner.getornull(p_env);
ERR_FAIL_COND_V(!env, -1);
return env->canvas_max_layer;
}
RID RasterizerSceneGLES3::light_instance_create(RID p_light) {
LightInstance *light_instance = memnew(LightInstance);
light_instance->last_pass = 0;
light_instance->last_scene_pass = 0;
light_instance->last_scene_shadow_pass = 0;
light_instance->light = p_light;
light_instance->light_ptr = storage->light_owner.getornull(p_light);
ERR_FAIL_COND_V(!light_instance->light_ptr, RID());
light_instance->self = light_instance_owner.make_rid(light_instance);
return light_instance->self;
}
void RasterizerSceneGLES3::light_instance_set_transform(RID p_light_instance, const Transform &p_transform) {
LightInstance *light_instance = light_instance_owner.getornull(p_light_instance);
ERR_FAIL_COND(!light_instance);
light_instance->transform = p_transform;
}
void RasterizerSceneGLES3::light_instance_set_shadow_transform(RID p_light_instance, const CameraMatrix &p_projection, const Transform &p_transform, float p_far, float p_split, int p_pass, float p_bias_scale) {
LightInstance *light_instance = light_instance_owner.getornull(p_light_instance);
ERR_FAIL_COND(!light_instance);
if (light_instance->light_ptr->type != VS::LIGHT_DIRECTIONAL) {
p_pass = 0;
}
ERR_FAIL_INDEX(p_pass, 4);
light_instance->shadow_transform[p_pass].camera = p_projection;
light_instance->shadow_transform[p_pass].transform = p_transform;
light_instance->shadow_transform[p_pass].farplane = p_far;
light_instance->shadow_transform[p_pass].split = p_split;
light_instance->shadow_transform[p_pass].bias_scale = p_bias_scale;
}
void RasterizerSceneGLES3::light_instance_mark_visible(RID p_light_instance) {
LightInstance *light_instance = light_instance_owner.getornull(p_light_instance);
ERR_FAIL_COND(!light_instance);
light_instance->last_scene_pass = scene_pass;
}
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//////////////////////
RID RasterizerSceneGLES3::gi_probe_instance_create() {
GIProbeInstance *gipi = memnew(GIProbeInstance);
return gi_probe_instance_owner.make_rid(gipi);
}
void RasterizerSceneGLES3::gi_probe_instance_set_light_data(RID p_probe, RID p_base, RID p_data) {
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GIProbeInstance *gipi = gi_probe_instance_owner.getornull(p_probe);
ERR_FAIL_COND(!gipi);
gipi->data = p_data;
gipi->probe = storage->gi_probe_owner.getornull(p_base);
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if (p_data.is_valid()) {
RasterizerStorageGLES3::GIProbeData *gipd = storage->gi_probe_data_owner.getornull(p_data);
ERR_FAIL_COND(!gipd);
if (gipd) {
gipi->tex_cache = gipd->tex_id;
gipi->cell_size_cache.x = 1.0 / gipd->width;
gipi->cell_size_cache.y = 1.0 / gipd->height;
gipi->cell_size_cache.z = 1.0 / gipd->depth;
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}
}
}
void RasterizerSceneGLES3::gi_probe_instance_set_transform_to_data(RID p_probe, const Transform &p_xform) {
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GIProbeInstance *gipi = gi_probe_instance_owner.getornull(p_probe);
ERR_FAIL_COND(!gipi);
gipi->transform_to_data = p_xform;
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}
void RasterizerSceneGLES3::gi_probe_instance_set_bounds(RID p_probe, const Vector3 &p_bounds) {
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GIProbeInstance *gipi = gi_probe_instance_owner.getornull(p_probe);
ERR_FAIL_COND(!gipi);
gipi->bounds = p_bounds;
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}
////////////////////////////
////////////////////////////
////////////////////////////
bool RasterizerSceneGLES3::_setup_material(RasterizerStorageGLES3::Material *p_material, bool p_alpha_pass) {
/* this is handled outside
if (p_material->shader->spatial.cull_mode == RasterizerStorageGLES3::Shader::Spatial::CULL_MODE_DISABLED) {
glDisable(GL_CULL_FACE);
} else {
glEnable(GL_CULL_FACE);
} */
if (state.current_line_width != p_material->line_width) {
//glLineWidth(MAX(p_material->line_width,1.0));
state.current_line_width = p_material->line_width;
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}
if (state.current_depth_test != (!p_material->shader->spatial.no_depth_test)) {
if (p_material->shader->spatial.no_depth_test) {
glDisable(GL_DEPTH_TEST);
} else {
glEnable(GL_DEPTH_TEST);
}
state.current_depth_test = !p_material->shader->spatial.no_depth_test;
}
if (state.current_depth_draw != p_material->shader->spatial.depth_draw_mode) {
switch (p_material->shader->spatial.depth_draw_mode) {
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case RasterizerStorageGLES3::Shader::Spatial::DEPTH_DRAW_ALPHA_PREPASS:
case RasterizerStorageGLES3::Shader::Spatial::DEPTH_DRAW_OPAQUE: {
glDepthMask(!p_alpha_pass);
} break;
case RasterizerStorageGLES3::Shader::Spatial::DEPTH_DRAW_ALWAYS: {
glDepthMask(GL_TRUE);
} break;
case RasterizerStorageGLES3::Shader::Spatial::DEPTH_DRAW_NEVER: {
glDepthMask(GL_FALSE);
} break;
}
state.current_depth_draw = p_material->shader->spatial.depth_draw_mode;
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}
//glPolygonMode(GL_FRONT_AND_BACK,GL_LINE);
/*
if (p_material->flags[VS::MATERIAL_FLAG_WIREFRAME])
glPolygonMode(GL_FRONT_AND_BACK,GL_LINE);
else
glPolygonMode(GL_FRONT_AND_BACK,GL_FILL);
if (p_material->line_width)
glLineWidth(p_material->line_width);
*/
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#if 0
//blend mode
if (state.current_blend_mode!=p_material->shader->spatial.blend_mode) {
switch(p_material->shader->spatial.blend_mode) {
case RasterizerStorageGLES3::Shader::Spatial::BLEND_MODE_MIX: {
glBlendEquation(GL_FUNC_ADD);
if (storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_TRANSPARENT]) {
glBlendFuncSeparate(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA, GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
} else {
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
}
} break;
case RasterizerStorageGLES3::Shader::Spatial::BLEND_MODE_ADD: {
glBlendEquation(GL_FUNC_ADD);
glBlendFunc(p_alpha_pass?GL_SRC_ALPHA:GL_ONE,GL_ONE);
} break;
case RasterizerStorageGLES3::Shader::Spatial::BLEND_MODE_SUB: {
glBlendEquation(GL_FUNC_REVERSE_SUBTRACT);
glBlendFunc(GL_SRC_ALPHA,GL_ONE);
} break;
case RasterizerStorageGLES3::Shader::Spatial::BLEND_MODE_MUL: {
glBlendEquation(GL_FUNC_ADD);
if (storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_TRANSPARENT]) {
glBlendFuncSeparate(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA, GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
} else {
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
}
} break;
}
state.current_blend_mode=p_material->shader->spatial.blend_mode;
}
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#endif
//material parameters
state.scene_shader.set_custom_shader(p_material->shader->custom_code_id);
bool rebind = state.scene_shader.bind();
if (p_material->ubo_id) {
glBindBufferBase(GL_UNIFORM_BUFFER, 1, p_material->ubo_id);
}
int tc = p_material->textures.size();
RID *textures = p_material->textures.ptr();
ShaderLanguage::ShaderNode::Uniform::Hint *texture_hints = p_material->shader->texture_hints.ptr();
state.current_main_tex = 0;
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for (int i = 0; i < tc; i++) {
glActiveTexture(GL_TEXTURE0 + i);
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GLenum target;
GLuint tex;
RasterizerStorageGLES3::Texture *t = storage->texture_owner.getornull(textures[i]);
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if (!t) {
//check hints
target = GL_TEXTURE_2D;
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switch (texture_hints[i]) {
case ShaderLanguage::ShaderNode::Uniform::HINT_BLACK_ALBEDO:
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case ShaderLanguage::ShaderNode::Uniform::HINT_BLACK: {
tex = storage->resources.black_tex;
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} break;
case ShaderLanguage::ShaderNode::Uniform::HINT_ANISO: {
tex = storage->resources.aniso_tex;
} break;
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case ShaderLanguage::ShaderNode::Uniform::HINT_NORMAL: {
tex = storage->resources.normal_tex;
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} break;
default: {
tex = storage->resources.white_tex;
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} break;
}
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} else {
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#ifdef TOOLS_ENABLED
if (t->detect_3d) {
t->detect_3d(t->detect_3d_ud);
}
#endif
#ifdef TOOLS_ENABLED
if (t->detect_normal && texture_hints[i] == ShaderLanguage::ShaderNode::Uniform::HINT_NORMAL) {
t->detect_normal(t->detect_normal_ud);
}
#endif
if (t->render_target)
t->render_target->used_in_frame = true;
target = t->target;
tex = t->tex_id;
}
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glBindTexture(target, tex);
if (t && storage->config.srgb_decode_supported) {
//if SRGB decode extension is present, simply switch the texture to whathever is needed
bool must_srgb = false;
if (t->srgb && (texture_hints[i] == ShaderLanguage::ShaderNode::Uniform::HINT_ALBEDO || texture_hints[i] == ShaderLanguage::ShaderNode::Uniform::HINT_BLACK_ALBEDO)) {
must_srgb = true;
}
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if (t->using_srgb != must_srgb) {
if (must_srgb) {
glTexParameteri(t->target, _TEXTURE_SRGB_DECODE_EXT, _DECODE_EXT);
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#ifdef TOOLS_ENABLED
if (t->detect_srgb) {
t->detect_srgb(t->detect_srgb_ud);
}
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#endif
} else {
glTexParameteri(t->target, _TEXTURE_SRGB_DECODE_EXT, _SKIP_DECODE_EXT);
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}
t->using_srgb = must_srgb;
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}
}
if (i == 0) {
state.current_main_tex = tex;
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}
}
return rebind;
}
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struct RasterizerGLES3Particle {
float color[4];
float velocity_active[4];
float custom[4];
float xform_1[4];
float xform_2[4];
float xform_3[4];
};
struct RasterizerGLES3ParticleSort {
Vector3 z_dir;
bool operator()(const RasterizerGLES3Particle &p_a, const RasterizerGLES3Particle &p_b) const {
return z_dir.dot(Vector3(p_a.xform_1[3], p_a.xform_2[3], p_a.xform_3[3])) < z_dir.dot(Vector3(p_b.xform_1[3], p_b.xform_2[3], p_b.xform_3[3]));
}
};
void RasterizerSceneGLES3::_setup_geometry(RenderList::Element *e, const Transform &p_view_transform) {
switch (e->instance->base_type) {
case VS::INSTANCE_MESH: {
RasterizerStorageGLES3::Surface *s = static_cast<RasterizerStorageGLES3::Surface *>(e->geometry);
if (s->blend_shapes.size() && e->instance->blend_values.size()) {
//blend shapes, use transform feedback
storage->mesh_render_blend_shapes(s, e->instance->blend_values.ptr());
//rebind shader
state.scene_shader.bind();
#ifdef DEBUG_ENABLED
} else if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_WIREFRAME && s->array_wireframe_id) {
glBindVertexArray(s->array_wireframe_id); // everything is so easy nowadays
#endif
} else {
glBindVertexArray(s->array_id); // everything is so easy nowadays
}
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} break;
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case VS::INSTANCE_MULTIMESH: {
RasterizerStorageGLES3::MultiMesh *multi_mesh = static_cast<RasterizerStorageGLES3::MultiMesh *>(e->owner);
RasterizerStorageGLES3::Surface *s = static_cast<RasterizerStorageGLES3::Surface *>(e->geometry);
#ifdef DEBUG_ENABLED
if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_WIREFRAME && s->instancing_array_wireframe_id) {
glBindVertexArray(s->instancing_array_wireframe_id); // use the instancing array ID
} else
#endif
{
glBindVertexArray(s->instancing_array_id); // use the instancing array ID
}
glBindBuffer(GL_ARRAY_BUFFER, multi_mesh->buffer); //modify the buffer
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int stride = (multi_mesh->xform_floats + multi_mesh->color_floats) * 4;
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glEnableVertexAttribArray(8);
glVertexAttribPointer(8, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + 0);
glVertexAttribDivisor(8, 1);
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glEnableVertexAttribArray(9);
glVertexAttribPointer(9, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + 4 * 4);
glVertexAttribDivisor(9, 1);
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int color_ofs;
if (multi_mesh->transform_format == VS::MULTIMESH_TRANSFORM_3D) {
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glEnableVertexAttribArray(10);
glVertexAttribPointer(10, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + 8 * 4);
glVertexAttribDivisor(10, 1);
color_ofs = 12 * 4;
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} else {
glDisableVertexAttribArray(10);
glVertexAttrib4f(10, 0, 0, 1, 0);
color_ofs = 8 * 4;
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}
switch (multi_mesh->color_format) {
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case VS::MULTIMESH_COLOR_NONE: {
glDisableVertexAttribArray(11);
glVertexAttrib4f(11, 1, 1, 1, 1);
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} break;
case VS::MULTIMESH_COLOR_8BIT: {
glEnableVertexAttribArray(11);
glVertexAttribPointer(11, 4, GL_UNSIGNED_BYTE, GL_TRUE, stride, ((uint8_t *)NULL) + color_ofs);
glVertexAttribDivisor(11, 1);
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} break;
case VS::MULTIMESH_COLOR_FLOAT: {
glEnableVertexAttribArray(11);
glVertexAttribPointer(11, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + color_ofs);
glVertexAttribDivisor(11, 1);
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} break;
}
} break;
case VS::INSTANCE_PARTICLES: {
RasterizerStorageGLES3::Particles *particles = static_cast<RasterizerStorageGLES3::Particles *>(e->owner);
RasterizerStorageGLES3::Surface *s = static_cast<RasterizerStorageGLES3::Surface *>(e->geometry);
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if (particles->draw_order == VS::PARTICLES_DRAW_ORDER_VIEW_DEPTH && particles->particle_valid_histories[1]) {
glBindBuffer(GL_ARRAY_BUFFER, particles->particle_buffer_histories[1]); //modify the buffer, this was used 2 frames ago so it should be good enough for flushing
RasterizerGLES3Particle *particle_array = (RasterizerGLES3Particle *)glMapBufferRange(GL_ARRAY_BUFFER, 0, particles->amount * 24 * sizeof(float), GL_MAP_READ_BIT | GL_MAP_WRITE_BIT);
SortArray<RasterizerGLES3Particle, RasterizerGLES3ParticleSort> sorter;
if (particles->use_local_coords) {
sorter.compare.z_dir = e->instance->transform.affine_inverse().xform(p_view_transform.basis.get_axis(2)).normalized();
} else {
sorter.compare.z_dir = p_view_transform.basis.get_axis(2).normalized();
}
sorter.sort(particle_array, particles->amount);
glUnmapBuffer(GL_ARRAY_BUFFER);
#ifdef DEBUG_ENABLED
if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_WIREFRAME && s->instancing_array_wireframe_id) {
glBindVertexArray(s->instancing_array_wireframe_id); // use the wireframe instancing array ID
} else
#endif
{
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glBindVertexArray(s->instancing_array_id); // use the instancing array ID
}
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glBindBuffer(GL_ARRAY_BUFFER, particles->particle_buffer_histories[1]); //modify the buffer
} else {
#ifdef DEBUG_ENABLED
if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_WIREFRAME && s->instancing_array_wireframe_id) {
glBindVertexArray(s->instancing_array_wireframe_id); // use the wireframe instancing array ID
} else
#endif
{
glBindVertexArray(s->instancing_array_id); // use the instancing array ID
}
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glBindBuffer(GL_ARRAY_BUFFER, particles->particle_buffers[0]); //modify the buffer
}
int stride = sizeof(float) * 4 * 6;
//transform
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if (particles->draw_order != VS::PARTICLES_DRAW_ORDER_LIFETIME) {
glEnableVertexAttribArray(8); //xform x
glVertexAttribPointer(8, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + sizeof(float) * 4 * 3);
glVertexAttribDivisor(8, 1);
glEnableVertexAttribArray(9); //xform y
glVertexAttribPointer(9, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + sizeof(float) * 4 * 4);
glVertexAttribDivisor(9, 1);
glEnableVertexAttribArray(10); //xform z
glVertexAttribPointer(10, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + sizeof(float) * 4 * 5);
glVertexAttribDivisor(10, 1);
glEnableVertexAttribArray(11); //color
glVertexAttribPointer(11, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + 0);
glVertexAttribDivisor(11, 1);
glEnableVertexAttribArray(12); //custom
glVertexAttribPointer(12, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + sizeof(float) * 4 * 2);
glVertexAttribDivisor(12, 1);
}
} break;
}
}
static const GLenum gl_primitive[] = {
GL_POINTS,
GL_LINES,
GL_LINE_STRIP,
GL_LINE_LOOP,
GL_TRIANGLES,
GL_TRIANGLE_STRIP,
GL_TRIANGLE_FAN
};
void RasterizerSceneGLES3::_render_geometry(RenderList::Element *e) {
switch (e->instance->base_type) {
case VS::INSTANCE_MESH: {
RasterizerStorageGLES3::Surface *s = static_cast<RasterizerStorageGLES3::Surface *>(e->geometry);
#ifdef DEBUG_ENABLED
if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_WIREFRAME && s->array_wireframe_id) {
glDrawElements(GL_LINES, s->index_wireframe_len, GL_UNSIGNED_INT, 0);
storage->info.render.vertices_count += s->index_array_len;
} else
#endif
if (s->index_array_len > 0) {
glDrawElements(gl_primitive[s->primitive], s->index_array_len, (s->array_len >= (1 << 16)) ? GL_UNSIGNED_INT : GL_UNSIGNED_SHORT, 0);
storage->info.render.vertices_count += s->index_array_len;
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} else {
glDrawArrays(gl_primitive[s->primitive], 0, s->array_len);
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storage->info.render.vertices_count += s->array_len;
}
} break;
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case VS::INSTANCE_MULTIMESH: {
RasterizerStorageGLES3::MultiMesh *multi_mesh = static_cast<RasterizerStorageGLES3::MultiMesh *>(e->owner);
RasterizerStorageGLES3::Surface *s = static_cast<RasterizerStorageGLES3::Surface *>(e->geometry);
int amount = MAX(multi_mesh->size, multi_mesh->visible_instances);
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#ifdef DEBUG_ENABLED
if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_WIREFRAME && s->array_wireframe_id) {
glDrawElementsInstanced(GL_LINES, s->index_wireframe_len, GL_UNSIGNED_INT, 0, amount);
storage->info.render.vertices_count += s->index_array_len * amount;
} else
#endif
if (s->index_array_len > 0) {
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glDrawElementsInstanced(gl_primitive[s->primitive], s->index_array_len, (s->array_len >= (1 << 16)) ? GL_UNSIGNED_INT : GL_UNSIGNED_SHORT, 0, amount);
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storage->info.render.vertices_count += s->index_array_len * amount;
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} else {
glDrawArraysInstanced(gl_primitive[s->primitive], 0, s->array_len, amount);
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storage->info.render.vertices_count += s->array_len * amount;
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}
} break;
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case VS::INSTANCE_IMMEDIATE: {
bool restore_tex = false;
const RasterizerStorageGLES3::Immediate *im = static_cast<const RasterizerStorageGLES3::Immediate *>(e->geometry);
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if (im->building) {
return;
}
glBindBuffer(GL_ARRAY_BUFFER, state.immediate_buffer);
glBindVertexArray(state.immediate_array);
for (const List<RasterizerStorageGLES3::Immediate::Chunk>::Element *E = im->chunks.front(); E; E = E->next()) {
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const RasterizerStorageGLES3::Immediate::Chunk &c = E->get();
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if (c.vertices.empty()) {
continue;
}
int vertices = c.vertices.size();
uint32_t buf_ofs = 0;
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storage->info.render.vertices_count += vertices;
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if (c.texture.is_valid() && storage->texture_owner.owns(c.texture)) {
const RasterizerStorageGLES3::Texture *t = storage->texture_owner.get(c.texture);
glActiveTexture(GL_TEXTURE0);
glBindTexture(t->target, t->tex_id);
restore_tex = true;
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} else if (restore_tex) {
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, state.current_main_tex);
restore_tex = false;
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}
if (!c.normals.empty()) {
glEnableVertexAttribArray(VS::ARRAY_NORMAL);
glBufferSubData(GL_ARRAY_BUFFER, buf_ofs, sizeof(Vector3) * vertices, c.normals.ptr());
glVertexAttribPointer(VS::ARRAY_NORMAL, 3, GL_FLOAT, false, sizeof(Vector3) * vertices, ((uint8_t *)NULL) + buf_ofs);
buf_ofs += sizeof(Vector3) * vertices;
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} else {
glDisableVertexAttribArray(VS::ARRAY_NORMAL);
}
if (!c.tangents.empty()) {
glEnableVertexAttribArray(VS::ARRAY_TANGENT);
glBufferSubData(GL_ARRAY_BUFFER, buf_ofs, sizeof(Plane) * vertices, c.tangents.ptr());
glVertexAttribPointer(VS::ARRAY_TANGENT, 4, GL_FLOAT, false, sizeof(Plane) * vertices, ((uint8_t *)NULL) + buf_ofs);
buf_ofs += sizeof(Plane) * vertices;
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} else {
glDisableVertexAttribArray(VS::ARRAY_TANGENT);
}
if (!c.colors.empty()) {
glEnableVertexAttribArray(VS::ARRAY_COLOR);
glBufferSubData(GL_ARRAY_BUFFER, buf_ofs, sizeof(Color) * vertices, c.colors.ptr());
glVertexAttribPointer(VS::ARRAY_COLOR, 4, GL_FLOAT, false, sizeof(Color), ((uint8_t *)NULL) + buf_ofs);
buf_ofs += sizeof(Color) * vertices;
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} else {
glDisableVertexAttribArray(VS::ARRAY_COLOR);
glVertexAttrib4f(VS::ARRAY_COLOR, 1, 1, 1, 1);
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}
if (!c.uvs.empty()) {
glEnableVertexAttribArray(VS::ARRAY_TEX_UV);
glBufferSubData(GL_ARRAY_BUFFER, buf_ofs, sizeof(Vector2) * vertices, c.uvs.ptr());
glVertexAttribPointer(VS::ARRAY_TEX_UV, 2, GL_FLOAT, false, sizeof(Vector2), ((uint8_t *)NULL) + buf_ofs);
buf_ofs += sizeof(Vector2) * vertices;
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} else {
glDisableVertexAttribArray(VS::ARRAY_TEX_UV);
}
if (!c.uvs2.empty()) {
glEnableVertexAttribArray(VS::ARRAY_TEX_UV2);
glBufferSubData(GL_ARRAY_BUFFER, buf_ofs, sizeof(Vector2) * vertices, c.uvs2.ptr());
glVertexAttribPointer(VS::ARRAY_TEX_UV2, 2, GL_FLOAT, false, sizeof(Vector2), ((uint8_t *)NULL) + buf_ofs);
buf_ofs += sizeof(Vector2) * vertices;
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} else {
glDisableVertexAttribArray(VS::ARRAY_TEX_UV2);
}
glEnableVertexAttribArray(VS::ARRAY_VERTEX);
glBufferSubData(GL_ARRAY_BUFFER, buf_ofs, sizeof(Vector3) * vertices, c.vertices.ptr());
glVertexAttribPointer(VS::ARRAY_VERTEX, 3, GL_FLOAT, false, sizeof(Vector3), ((uint8_t *)NULL) + buf_ofs);
glDrawArrays(gl_primitive[c.primitive], 0, c.vertices.size());
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}
if (restore_tex) {
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, state.current_main_tex);
restore_tex = false;
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}
} break;
case VS::INSTANCE_PARTICLES: {
RasterizerStorageGLES3::Particles *particles = static_cast<RasterizerStorageGLES3::Particles *>(e->owner);
RasterizerStorageGLES3::Surface *s = static_cast<RasterizerStorageGLES3::Surface *>(e->geometry);
if (!particles->use_local_coords) //not using local coordinates? then clear transform..
state.scene_shader.set_uniform(SceneShaderGLES3::WORLD_TRANSFORM, Transform());
int amount = particles->amount;
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if (particles->draw_order == VS::PARTICLES_DRAW_ORDER_LIFETIME) {
//split
int stride = sizeof(float) * 4 * 6;
int split = int(Math::ceil(particles->phase * particles->amount));
if (amount - split > 0) {
glEnableVertexAttribArray(8); //xform x
glVertexAttribPointer(8, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + stride * split + sizeof(float) * 4 * 3);
glVertexAttribDivisor(8, 1);
glEnableVertexAttribArray(9); //xform y
glVertexAttribPointer(9, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + stride * split + sizeof(float) * 4 * 4);
glVertexAttribDivisor(9, 1);
glEnableVertexAttribArray(10); //xform z
glVertexAttribPointer(10, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + stride * split + sizeof(float) * 4 * 5);
glVertexAttribDivisor(10, 1);
glEnableVertexAttribArray(11); //color
glVertexAttribPointer(11, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + stride * split + 0);
glVertexAttribDivisor(11, 1);
glEnableVertexAttribArray(12); //custom
glVertexAttribPointer(12, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + stride * split + sizeof(float) * 4 * 2);
glVertexAttribDivisor(12, 1);
#ifdef DEBUG_ENABLED
if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_WIREFRAME && s->array_wireframe_id) {
glDrawElementsInstanced(GL_LINES, s->index_wireframe_len, GL_UNSIGNED_INT, 0, amount - split);
storage->info.render.vertices_count += s->index_array_len * (amount - split);
} else
#endif
if (s->index_array_len > 0) {
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glDrawElementsInstanced(gl_primitive[s->primitive], s->index_array_len, (s->array_len >= (1 << 16)) ? GL_UNSIGNED_INT : GL_UNSIGNED_SHORT, 0, amount - split);
storage->info.render.vertices_count += s->index_array_len * (amount - split);
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} else {
glDrawArraysInstanced(gl_primitive[s->primitive], 0, s->array_len, amount - split);
storage->info.render.vertices_count += s->array_len * (amount - split);
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}
}
if (split > 0) {
glEnableVertexAttribArray(8); //xform x
glVertexAttribPointer(8, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + sizeof(float) * 4 * 3);
glVertexAttribDivisor(8, 1);
glEnableVertexAttribArray(9); //xform y
glVertexAttribPointer(9, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + sizeof(float) * 4 * 4);
glVertexAttribDivisor(9, 1);
glEnableVertexAttribArray(10); //xform z
glVertexAttribPointer(10, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + sizeof(float) * 4 * 5);
glVertexAttribDivisor(10, 1);
glEnableVertexAttribArray(11); //color
glVertexAttribPointer(11, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + 0);
glVertexAttribDivisor(11, 1);
glEnableVertexAttribArray(12); //custom
glVertexAttribPointer(12, 4, GL_FLOAT, GL_FALSE, stride, ((uint8_t *)NULL) + sizeof(float) * 4 * 2);
glVertexAttribDivisor(12, 1);
#ifdef DEBUG_ENABLED
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if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_WIREFRAME && s->array_wireframe_id) {
glDrawElementsInstanced(GL_LINES, s->index_wireframe_len, GL_UNSIGNED_INT, 0, split);
storage->info.render.vertices_count += s->index_array_len * split;
} else
#endif
if (s->index_array_len > 0) {
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glDrawElementsInstanced(gl_primitive[s->primitive], s->index_array_len, (s->array_len >= (1 << 16)) ? GL_UNSIGNED_INT : GL_UNSIGNED_SHORT, 0, split);
storage->info.render.vertices_count += s->index_array_len * split;
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} else {
glDrawArraysInstanced(gl_primitive[s->primitive], 0, s->array_len, split);
storage->info.render.vertices_count += s->array_len * split;
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}
}
} else {
#ifdef DEBUG_ENABLED
if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_WIREFRAME && s->array_wireframe_id) {
glDrawElementsInstanced(GL_LINES, s->index_wireframe_len, GL_UNSIGNED_INT, 0, amount);
storage->info.render.vertices_count += s->index_array_len * amount;
} else
#endif
if (s->index_array_len > 0) {
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glDrawElementsInstanced(gl_primitive[s->primitive], s->index_array_len, (s->array_len >= (1 << 16)) ? GL_UNSIGNED_INT : GL_UNSIGNED_SHORT, 0, amount);
storage->info.render.vertices_count += s->index_array_len * amount;
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} else {
glDrawArraysInstanced(gl_primitive[s->primitive], 0, s->array_len, amount);
storage->info.render.vertices_count += s->array_len * amount;
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}
}
} break;
}
}
void RasterizerSceneGLES3::_setup_light(RenderList::Element *e, const Transform &p_view_transform) {
int omni_indices[16];
int omni_count = 0;
int spot_indices[16];
int spot_count = 0;
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int reflection_indices[16];
int reflection_count = 0;
int maxobj = MIN(16, state.max_forward_lights_per_object);
int lc = e->instance->light_instances.size();
if (lc) {
const RID *lights = e->instance->light_instances.ptr();
for (int i = 0; i < lc; i++) {
LightInstance *li = light_instance_owner.getptr(lights[i]);
if (li->last_pass != render_pass) //not visible
continue;
if (li->light_ptr->type == VS::LIGHT_OMNI) {
if (omni_count < maxobj && e->instance->layer_mask & li->light_ptr->cull_mask) {
omni_indices[omni_count++] = li->light_index;
}
}
if (li->light_ptr->type == VS::LIGHT_SPOT) {
if (spot_count < maxobj && e->instance->layer_mask & li->light_ptr->cull_mask) {
spot_indices[spot_count++] = li->light_index;
}
}
}
}
state.scene_shader.set_uniform(SceneShaderGLES3::OMNI_LIGHT_COUNT, omni_count);
if (omni_count) {
glUniform1iv(state.scene_shader.get_uniform(SceneShaderGLES3::OMNI_LIGHT_INDICES), omni_count, omni_indices);
}
state.scene_shader.set_uniform(SceneShaderGLES3::SPOT_LIGHT_COUNT, spot_count);
if (spot_count) {
glUniform1iv(state.scene_shader.get_uniform(SceneShaderGLES3::SPOT_LIGHT_INDICES), spot_count, spot_indices);
}
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int rc = e->instance->reflection_probe_instances.size();
if (rc) {
const RID *reflections = e->instance->reflection_probe_instances.ptr();
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for (int i = 0; i < rc; i++) {
ReflectionProbeInstance *rpi = reflection_probe_instance_owner.getptr(reflections[i]);
if (rpi->last_pass != render_pass) //not visible
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continue;
if (reflection_count < maxobj) {
reflection_indices[reflection_count++] = rpi->reflection_index;
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}
}
}
state.scene_shader.set_uniform(SceneShaderGLES3::REFLECTION_COUNT, reflection_count);
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if (reflection_count) {
glUniform1iv(state.scene_shader.get_uniform(SceneShaderGLES3::REFLECTION_INDICES), reflection_count, reflection_indices);
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}
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int gi_probe_count = e->instance->gi_probe_instances.size();
if (gi_probe_count) {
const RID *ridp = e->instance->gi_probe_instances.ptr();
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GIProbeInstance *gipi = gi_probe_instance_owner.getptr(ridp[0]);
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float bias_scale = e->instance->baked_light ? 1 : 0;
glActiveTexture(GL_TEXTURE0 + storage->config.max_texture_image_units - 9);
glBindTexture(GL_TEXTURE_3D, gipi->tex_cache);
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state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_XFORM1, gipi->transform_to_data * p_view_transform);
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_BOUNDS1, gipi->bounds);
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_MULTIPLIER1, gipi->probe ? gipi->probe->dynamic_range * gipi->probe->energy : 0.0);
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state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_BIAS1, gipi->probe ? gipi->probe->bias * bias_scale : 0.0);
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_NORMAL_BIAS1, gipi->probe ? gipi->probe->normal_bias * bias_scale : 0.0);
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_BLEND_AMBIENT1, gipi->probe ? !gipi->probe->interior : false);
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state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_CELL_SIZE1, gipi->cell_size_cache);
if (gi_probe_count > 1) {
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GIProbeInstance *gipi2 = gi_probe_instance_owner.getptr(ridp[1]);
glActiveTexture(GL_TEXTURE0 + storage->config.max_texture_image_units - 10);
glBindTexture(GL_TEXTURE_3D, gipi2->tex_cache);
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state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_XFORM2, gipi2->transform_to_data * p_view_transform);
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_BOUNDS2, gipi2->bounds);
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_CELL_SIZE2, gipi2->cell_size_cache);
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_MULTIPLIER2, gipi2->probe ? gipi2->probe->dynamic_range * gipi2->probe->energy : 0.0);
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state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_BIAS2, gipi2->probe ? gipi2->probe->bias * bias_scale : 0.0);
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_NORMAL_BIAS2, gipi2->probe ? gipi2->probe->normal_bias * bias_scale : 0.0);
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE_BLEND_AMBIENT2, gipi2->probe ? !gipi2->probe->interior : false);
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE2_ENABLED, true);
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} else {
state.scene_shader.set_uniform(SceneShaderGLES3::GI_PROBE2_ENABLED, false);
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}
}
}
void RasterizerSceneGLES3::_set_cull(bool p_front, bool p_disabled, bool p_reverse_cull) {
bool front = p_front;
if (p_reverse_cull)
front = !front;
if (p_disabled != state.cull_disabled) {
if (p_disabled)
glDisable(GL_CULL_FACE);
else
glEnable(GL_CULL_FACE);
state.cull_disabled = p_disabled;
}
if (front != state.cull_front) {
glCullFace(front ? GL_FRONT : GL_BACK);
state.cull_front = front;
}
}
void RasterizerSceneGLES3::_render_list(RenderList::Element **p_elements, int p_element_count, const Transform &p_view_transform, const CameraMatrix &p_projection, GLuint p_base_env, bool p_reverse_cull, bool p_alpha_pass, bool p_shadow, bool p_directional_add, bool p_directional_shadows) {
glBindBufferBase(GL_UNIFORM_BUFFER, 0, state.scene_ubo); //bind globals ubo
bool use_radiance_map = false;
if (!p_shadow && !p_directional_add) {
glBindBufferBase(GL_UNIFORM_BUFFER, 2, state.env_radiance_ubo); //bind environment radiance info
if (p_base_env) {
glActiveTexture(GL_TEXTURE0 + storage->config.max_texture_image_units - 2);
if (storage->config.use_texture_array_environment) {
glBindTexture(GL_TEXTURE_2D_ARRAY, p_base_env);
} else {
glBindTexture(GL_TEXTURE_2D, p_base_env);
}
state.scene_shader.set_conditional(SceneShaderGLES3::USE_RADIANCE_MAP, true);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_RADIANCE_MAP_ARRAY, storage->config.use_texture_array_environment);
use_radiance_map = true;
} else {
state.scene_shader.set_conditional(SceneShaderGLES3::USE_RADIANCE_MAP, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_RADIANCE_MAP_ARRAY, false);
}
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} else {
state.scene_shader.set_conditional(SceneShaderGLES3::USE_RADIANCE_MAP, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_RADIANCE_MAP_ARRAY, false);
}
state.cull_front = false;
state.cull_disabled = false;
glCullFace(GL_BACK);
glEnable(GL_CULL_FACE);
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state.current_depth_test = true;
glEnable(GL_DEPTH_TEST);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_SKELETON, false);
state.current_blend_mode = -1;
state.current_line_width = -1;
state.current_depth_draw = -1;
RasterizerStorageGLES3::Material *prev_material = NULL;
RasterizerStorageGLES3::Geometry *prev_geometry = NULL;
RasterizerStorageGLES3::GeometryOwner *prev_owner = NULL;
VS::InstanceType prev_base_type = VS::INSTANCE_MAX;
int current_blend_mode = -1;
int prev_shading = -1;
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RID prev_skeleton;
state.scene_shader.set_conditional(SceneShaderGLES3::SHADELESS, true); //by default unshaded (easier to set)
bool first = true;
bool prev_use_instancing = false;
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storage->info.render.draw_call_count += p_element_count;
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bool prev_opaque_prepass = false;
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for (int i = 0; i < p_element_count; i++) {
RenderList::Element *e = p_elements[i];
RasterizerStorageGLES3::Material *material = e->material;
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RID skeleton = e->instance->skeleton;
bool rebind = first;
int shading = (e->sort_key >> RenderList::SORT_KEY_SHADING_SHIFT) & RenderList::SORT_KEY_SHADING_MASK;
if (!p_shadow) {
if (p_directional_add) {
if (e->sort_key & SORT_KEY_UNSHADED_FLAG || !(e->instance->layer_mask & directional_light->light_ptr->cull_mask)) {
continue;
}
shading &= ~1; //ignore the ignore directional for base pass
}
if (shading != prev_shading) {
if (e->sort_key & SORT_KEY_UNSHADED_FLAG) {
state.scene_shader.set_conditional(SceneShaderGLES3::SHADELESS, true);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_FORWARD_LIGHTING, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_VERTEX_LIGHTING, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_LIGHT_DIRECTIONAL, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_DIRECTIONAL_SHADOW, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM4, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM2, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM_BLEND, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM_BLEND, false);
state.scene_shader.set_conditional(SceneShaderGLES3::SHADOW_MODE_PCF_5, false);
state.scene_shader.set_conditional(SceneShaderGLES3::SHADOW_MODE_PCF_13, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_GI_PROBES, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_RADIANCE_MAP, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_CONTACT_SHADOWS, false);
//state.scene_shader.set_conditional(SceneShaderGLES3::SHADELESS,true);
} else {
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state.scene_shader.set_conditional(SceneShaderGLES3::USE_GI_PROBES, e->instance->gi_probe_instances.size() > 0);
state.scene_shader.set_conditional(SceneShaderGLES3::SHADELESS, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_FORWARD_LIGHTING, !p_directional_add);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_VERTEX_LIGHTING, (e->sort_key & SORT_KEY_VERTEX_LIT_FLAG));
state.scene_shader.set_conditional(SceneShaderGLES3::USE_LIGHT_DIRECTIONAL, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_DIRECTIONAL_SHADOW, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM4, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM2, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM_BLEND, false);
state.scene_shader.set_conditional(SceneShaderGLES3::SHADOW_MODE_PCF_5, shadow_filter_mode == SHADOW_FILTER_PCF5);
state.scene_shader.set_conditional(SceneShaderGLES3::SHADOW_MODE_PCF_13, shadow_filter_mode == SHADOW_FILTER_PCF13);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_RADIANCE_MAP, use_radiance_map);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_CONTACT_SHADOWS, state.used_contact_shadows);
if (p_directional_add || (directional_light && (e->sort_key & SORT_KEY_NO_DIRECTIONAL_FLAG) == 0)) {
state.scene_shader.set_conditional(SceneShaderGLES3::USE_LIGHT_DIRECTIONAL, true);
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if (p_directional_shadows && directional_light->light_ptr->shadow) {
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_DIRECTIONAL_SHADOW, true);
switch (directional_light->light_ptr->directional_shadow_mode) {
case VS::LIGHT_DIRECTIONAL_SHADOW_ORTHOGONAL:
break; //none
case VS::LIGHT_DIRECTIONAL_SHADOW_PARALLEL_2_SPLITS:
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM2, true);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM_BLEND, directional_light->light_ptr->directional_blend_splits);
break;
case VS::LIGHT_DIRECTIONAL_SHADOW_PARALLEL_4_SPLITS:
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM4, true);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM_BLEND, directional_light->light_ptr->directional_blend_splits);
break;
}
}
}
}
rebind = true;
}
if (p_alpha_pass || p_directional_add) {
int desired_blend_mode;
if (p_directional_add) {
desired_blend_mode = RasterizerStorageGLES3::Shader::Spatial::BLEND_MODE_ADD;
} else {
desired_blend_mode = material->shader->spatial.blend_mode;
}
if (desired_blend_mode != current_blend_mode) {
switch (desired_blend_mode) {
case RasterizerStorageGLES3::Shader::Spatial::BLEND_MODE_MIX: {
glBlendEquation(GL_FUNC_ADD);
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if (storage->frame.current_rt && storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_TRANSPARENT]) {
glBlendFuncSeparate(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA, GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
} else {
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
}
} break;
case RasterizerStorageGLES3::Shader::Spatial::BLEND_MODE_ADD: {
glBlendEquation(GL_FUNC_ADD);
glBlendFunc(p_alpha_pass ? GL_SRC_ALPHA : GL_ONE, GL_ONE);
} break;
case RasterizerStorageGLES3::Shader::Spatial::BLEND_MODE_SUB: {
glBlendEquation(GL_FUNC_REVERSE_SUBTRACT);
glBlendFunc(GL_SRC_ALPHA, GL_ONE);
} break;
case RasterizerStorageGLES3::Shader::Spatial::BLEND_MODE_MUL: {
glBlendEquation(GL_FUNC_ADD);
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if (storage->frame.current_rt && storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_TRANSPARENT]) {
glBlendFuncSeparate(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA, GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
} else {
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
}
} break;
}
current_blend_mode = desired_blend_mode;
}
}
}
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bool use_opaque_prepass = e->sort_key & RenderList::SORT_KEY_OPAQUE_PRE_PASS;
if (use_opaque_prepass != prev_opaque_prepass) {
state.scene_shader.set_conditional(SceneShaderGLES3::USE_OPAQUE_PREPASS, use_opaque_prepass);
rebind = true;
}
bool use_instancing = e->instance->base_type == VS::INSTANCE_MULTIMESH || e->instance->base_type == VS::INSTANCE_PARTICLES;
if (use_instancing != prev_use_instancing) {
state.scene_shader.set_conditional(SceneShaderGLES3::USE_INSTANCING, use_instancing);
rebind = true;
}
if (prev_skeleton != skeleton) {
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if (prev_skeleton.is_valid() != skeleton.is_valid()) {
state.scene_shader.set_conditional(SceneShaderGLES3::USE_SKELETON, skeleton.is_valid());
rebind = true;
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}
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if (skeleton.is_valid()) {
RasterizerStorageGLES3::Skeleton *sk = storage->skeleton_owner.getornull(skeleton);
glActiveTexture(GL_TEXTURE0 + storage->config.max_texture_image_units - 1);
glBindTexture(GL_TEXTURE_2D, sk->texture);
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}
}
if (material != prev_material || rebind) {
storage->info.render.material_switch_count++;
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rebind = _setup_material(material, p_alpha_pass);
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if (rebind) {
storage->info.render.shader_rebind_count++;
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}
}
if (!(e->sort_key & SORT_KEY_UNSHADED_FLAG) && !p_directional_add && !p_shadow) {
_setup_light(e, p_view_transform);
}
if (e->owner != prev_owner || prev_base_type != e->instance->base_type || prev_geometry != e->geometry) {
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2017-04-09 01:38:11 +00:00
_setup_geometry(e, p_view_transform);
storage->info.render.surface_switch_count++;
}
_set_cull(e->sort_key & RenderList::SORT_KEY_MIRROR_FLAG, e->sort_key & RenderList::SORT_KEY_CULL_DISABLED_FLAG, p_reverse_cull);
state.scene_shader.set_uniform(SceneShaderGLES3::NORMAL_MULT, e->instance->mirror ? -1.0 : 1.0);
state.scene_shader.set_uniform(SceneShaderGLES3::WORLD_TRANSFORM, e->instance->transform);
_render_geometry(e);
prev_material = material;
prev_base_type = e->instance->base_type;
prev_geometry = e->geometry;
prev_owner = e->owner;
prev_shading = shading;
prev_skeleton = skeleton;
prev_use_instancing = use_instancing;
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prev_opaque_prepass = use_opaque_prepass;
first = false;
}
glFrontFace(GL_CW);
glBindVertexArray(0);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_INSTANCING, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_SKELETON, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_RADIANCE_MAP, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_FORWARD_LIGHTING, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_LIGHT_DIRECTIONAL, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_DIRECTIONAL_SHADOW, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM4, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM2, false);
state.scene_shader.set_conditional(SceneShaderGLES3::LIGHT_USE_PSSM_BLEND, false);
state.scene_shader.set_conditional(SceneShaderGLES3::SHADELESS, false);
state.scene_shader.set_conditional(SceneShaderGLES3::SHADOW_MODE_PCF_5, false);
state.scene_shader.set_conditional(SceneShaderGLES3::SHADOW_MODE_PCF_13, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_GI_PROBES, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_CONTACT_SHADOWS, false);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_VERTEX_LIGHTING, false);
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state.scene_shader.set_conditional(SceneShaderGLES3::USE_OPAQUE_PREPASS, false);
}
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void RasterizerSceneGLES3::_add_geometry(RasterizerStorageGLES3::Geometry *p_geometry, InstanceBase *p_instance, RasterizerStorageGLES3::GeometryOwner *p_owner, int p_material, bool p_depth_pass) {
RasterizerStorageGLES3::Material *m = NULL;
RID m_src = p_instance->material_override.is_valid() ? p_instance->material_override : (p_material >= 0 ? p_instance->materials[p_material] : p_geometry->material);
if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_OVERDRAW) {
m_src = default_overdraw_material;
}
/*
#ifdef DEBUG_ENABLED
if (current_debug==VS::SCENARIO_DEBUG_OVERDRAW) {
m_src=overdraw_material;
}
#endif
*/
if (m_src.is_valid()) {
m = storage->material_owner.getornull(m_src);
if (!m->shader || !m->shader->valid) {
m = NULL;
}
}
if (!m) {
m = storage->material_owner.getptr(default_material);
}
ERR_FAIL_COND(!m);
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_add_geometry_with_material(p_geometry, p_instance, p_owner, m, p_depth_pass);
while (m->next_pass.is_valid()) {
m = storage->material_owner.getornull(m->next_pass);
if (!m || !m->shader || !m->shader->valid)
break;
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_add_geometry_with_material(p_geometry, p_instance, p_owner, m, p_depth_pass);
}
}
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void RasterizerSceneGLES3::_add_geometry_with_material(RasterizerStorageGLES3::Geometry *p_geometry, InstanceBase *p_instance, RasterizerStorageGLES3::GeometryOwner *p_owner, RasterizerStorageGLES3::Material *p_material, bool p_depth_pass) {
bool has_base_alpha = (p_material->shader->spatial.uses_alpha && !p_material->shader->spatial.uses_alpha_scissor) || p_material->shader->spatial.uses_screen_texture;
bool has_blend_alpha = p_material->shader->spatial.blend_mode != RasterizerStorageGLES3::Shader::Spatial::BLEND_MODE_MIX;
bool has_alpha = has_base_alpha || has_blend_alpha;
bool mirror = p_instance->mirror;
bool no_cull = false;
if (p_material->shader->spatial.cull_mode == RasterizerStorageGLES3::Shader::Spatial::CULL_MODE_DISABLED) {
no_cull = true;
mirror = false;
} else if (p_material->shader->spatial.cull_mode == RasterizerStorageGLES3::Shader::Spatial::CULL_MODE_FRONT) {
mirror = !mirror;
}
if (p_material->shader->spatial.uses_sss) {
state.used_sss = true;
}
if (p_material->shader->spatial.uses_screen_texture) {
state.used_screen_texture = true;
}
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if (p_depth_pass) {
if (has_blend_alpha || (has_base_alpha && p_material->shader->spatial.depth_draw_mode != RasterizerStorageGLES3::Shader::Spatial::DEPTH_DRAW_ALPHA_PREPASS))
return; //bye
if (!p_material->shader->spatial.uses_alpha_scissor && !p_material->shader->spatial.writes_modelview_or_projection && !p_material->shader->spatial.uses_vertex && !p_material->shader->spatial.uses_discard && p_material->shader->spatial.depth_draw_mode != RasterizerStorageGLES3::Shader::Spatial::DEPTH_DRAW_ALPHA_PREPASS) {
//shader does not use discard and does not write a vertex position, use generic material
if (p_instance->cast_shadows == VS::SHADOW_CASTING_SETTING_DOUBLE_SIDED) {
p_material = storage->material_owner.getptr(default_material_twosided);
no_cull = true;
mirror = false;
} else {
p_material = storage->material_owner.getptr(default_material);
}
}
has_alpha = false;
}
RenderList::Element *e = has_alpha ? render_list.add_alpha_element() : render_list.add_element();
if (!e)
return;
e->geometry = p_geometry;
e->material = p_material;
e->instance = p_instance;
e->owner = p_owner;
e->sort_key = 0;
if (e->geometry->last_pass != render_pass) {
e->geometry->last_pass = render_pass;
e->geometry->index = current_geometry_index++;
}
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if (!p_depth_pass && directional_light && (directional_light->light_ptr->cull_mask & e->instance->layer_mask) == 0) {
e->sort_key |= SORT_KEY_NO_DIRECTIONAL_FLAG;
}
e->sort_key |= uint64_t(e->geometry->index) << RenderList::SORT_KEY_GEOMETRY_INDEX_SHIFT;
e->sort_key |= uint64_t(e->instance->base_type) << RenderList::SORT_KEY_GEOMETRY_TYPE_SHIFT;
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if (!p_depth_pass) {
if (e->material->last_pass != render_pass) {
e->material->last_pass = render_pass;
e->material->index = current_material_index++;
}
e->sort_key |= uint64_t(e->material->index) << RenderList::SORT_KEY_MATERIAL_INDEX_SHIFT;
e->sort_key |= uint64_t(e->instance->depth_layer) << RenderList::SORT_KEY_OPAQUE_DEPTH_LAYER_SHIFT;
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if (e->instance->gi_probe_instances.size()) {
e->sort_key |= SORT_KEY_GI_PROBES_FLAG;
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}
e->sort_key |= uint64_t(p_material->render_priority + 128) << RenderList::SORT_KEY_PRIORITY_SHIFT;
}
/*
if (e->geometry->type==RasterizerStorageGLES3::Geometry::GEOMETRY_MULTISURFACE)
e->sort_flags|=RenderList::SORT_FLAG_INSTANCING;
*/
if (mirror) {
e->sort_key |= RenderList::SORT_KEY_MIRROR_FLAG;
}
if (no_cull) {
e->sort_key |= RenderList::SORT_KEY_CULL_DISABLED_FLAG;
}
//e->light_type=0xFF; // no lights!
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if (p_depth_pass || p_material->shader->spatial.unshaded || state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_UNSHADED) {
e->sort_key |= SORT_KEY_UNSHADED_FLAG;
}
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if (p_depth_pass && p_material->shader->spatial.depth_draw_mode == RasterizerStorageGLES3::Shader::Spatial::DEPTH_DRAW_ALPHA_PREPASS) {
e->sort_key |= RenderList::SORT_KEY_OPAQUE_PRE_PASS;
}
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if (!p_depth_pass && (p_material->shader->spatial.uses_vertex_lighting || storage->config.force_vertex_shading)) {
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e->sort_key |= SORT_KEY_VERTEX_LIT_FLAG;
}
if (p_material->shader->spatial.uses_time) {
VisualServerRaster::redraw_request();
}
}
void RasterizerSceneGLES3::_draw_sky(RasterizerStorageGLES3::Sky *p_sky, const CameraMatrix &p_projection, const Transform &p_transform, bool p_vflip, float p_scale, float p_energy) {
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if (!p_sky)
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return;
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RasterizerStorageGLES3::Texture *tex = storage->texture_owner.getornull(p_sky->panorama);
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ERR_FAIL_COND(!tex);
glActiveTexture(GL_TEXTURE0);
glBindTexture(tex->target, tex->tex_id);
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if (storage->config.srgb_decode_supported && tex->srgb && !tex->using_srgb) {
glTexParameteri(tex->target, _TEXTURE_SRGB_DECODE_EXT, _DECODE_EXT);
tex->using_srgb = true;
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#ifdef TOOLS_ENABLED
if (!(tex->flags & VS::TEXTURE_FLAG_CONVERT_TO_LINEAR)) {
tex->flags |= VS::TEXTURE_FLAG_CONVERT_TO_LINEAR;
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//notify that texture must be set to linear beforehand, so it works in other platforms when exported
}
#endif
}
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glDepthMask(GL_TRUE);
glEnable(GL_DEPTH_TEST);
glDisable(GL_CULL_FACE);
glDisable(GL_BLEND);
glDepthFunc(GL_LEQUAL);
glColorMask(1, 1, 1, 1);
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float flip_sign = p_vflip ? -1 : 1;
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Vector3 vertices[8] = {
Vector3(-1, -1 * flip_sign, 1),
Vector3(0, 1, 0),
Vector3(1, -1 * flip_sign, 1),
Vector3(1, 1, 0),
Vector3(1, 1 * flip_sign, 1),
Vector3(1, 0, 0),
Vector3(-1, 1 * flip_sign, 1),
Vector3(0, 0, 0)
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};
//sky uv vectors
float vw, vh, zn;
p_projection.get_viewport_size(vw, vh);
zn = p_projection.get_z_near();
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float scale = p_scale;
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for (int i = 0; i < 4; i++) {
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Vector3 uv = vertices[i * 2 + 1];
uv.x = (uv.x * 2.0 - 1.0) * vw * scale;
uv.y = -(uv.y * 2.0 - 1.0) * vh * scale;
uv.z = -zn;
vertices[i * 2 + 1] = p_transform.basis.xform(uv).normalized();
vertices[i * 2 + 1].z = -vertices[i * 2 + 1].z;
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}
glBindBuffer(GL_ARRAY_BUFFER, state.sky_verts);
glBufferSubData(GL_ARRAY_BUFFER, 0, sizeof(Vector3) * 8, vertices);
glBindBuffer(GL_ARRAY_BUFFER, 0); //unbind
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glBindVertexArray(state.sky_array);
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storage->shaders.copy.set_conditional(CopyShaderGLES3::USE_PANORAMA, true);
storage->shaders.copy.set_conditional(CopyShaderGLES3::USE_MULTIPLIER, true);
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storage->shaders.copy.bind();
storage->shaders.copy.set_uniform(CopyShaderGLES3::MULTIPLIER, p_energy);
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glDrawArrays(GL_TRIANGLE_FAN, 0, 4);
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glBindVertexArray(0);
glColorMask(1, 1, 1, 1);
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storage->shaders.copy.set_conditional(CopyShaderGLES3::USE_MULTIPLIER, false);
storage->shaders.copy.set_conditional(CopyShaderGLES3::USE_PANORAMA, false);
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}
void RasterizerSceneGLES3::_setup_environment(Environment *env, const CameraMatrix &p_cam_projection, const Transform &p_cam_transform) {
//store camera into ubo
store_camera(p_cam_projection, state.ubo_data.projection_matrix);
store_camera(p_cam_projection.inverse(), state.ubo_data.inv_projection_matrix);
store_transform(p_cam_transform, state.ubo_data.camera_matrix);
store_transform(p_cam_transform.affine_inverse(), state.ubo_data.camera_inverse_matrix);
//time global variables
state.ubo_data.time = storage->frame.time[0];
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state.ubo_data.z_far = p_cam_projection.get_z_far();
//bg and ambient
if (env) {
state.ubo_data.bg_energy = env->bg_energy;
state.ubo_data.ambient_energy = env->ambient_energy;
Color linear_ambient_color = env->ambient_color.to_linear();
state.ubo_data.ambient_light_color[0] = linear_ambient_color.r;
state.ubo_data.ambient_light_color[1] = linear_ambient_color.g;
state.ubo_data.ambient_light_color[2] = linear_ambient_color.b;
state.ubo_data.ambient_light_color[3] = linear_ambient_color.a;
Color bg_color;
switch (env->bg_mode) {
case VS::ENV_BG_CLEAR_COLOR: {
bg_color = storage->frame.clear_request_color.to_linear();
} break;
case VS::ENV_BG_COLOR: {
bg_color = env->bg_color.to_linear();
} break;
default: {
bg_color = Color(0, 0, 0, 1);
} break;
}
state.ubo_data.bg_color[0] = bg_color.r;
state.ubo_data.bg_color[1] = bg_color.g;
state.ubo_data.bg_color[2] = bg_color.b;
state.ubo_data.bg_color[3] = bg_color.a;
state.env_radiance_data.ambient_contribution = env->ambient_sky_contribution;
state.ubo_data.ambient_occlusion_affect_light = env->ssao_light_affect;
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//fog
Color linear_fog = env->fog_color.to_linear();
state.ubo_data.fog_color_enabled[0] = linear_fog.r;
state.ubo_data.fog_color_enabled[1] = linear_fog.g;
state.ubo_data.fog_color_enabled[2] = linear_fog.b;
state.ubo_data.fog_color_enabled[3] = env->fog_enabled ? 1.0 : 0.0;
Color linear_sun = env->fog_sun_color.to_linear();
state.ubo_data.fog_sun_color_amount[0] = linear_sun.r;
state.ubo_data.fog_sun_color_amount[1] = linear_sun.g;
state.ubo_data.fog_sun_color_amount[2] = linear_sun.b;
state.ubo_data.fog_sun_color_amount[3] = env->fog_sun_amount;
state.ubo_data.fog_depth_enabled = env->fog_depth_enabled;
state.ubo_data.fog_depth_begin = env->fog_depth_begin;
state.ubo_data.fog_depth_curve = env->fog_depth_curve;
state.ubo_data.fog_transmit_enabled = env->fog_transmit_enabled;
state.ubo_data.fog_transmit_curve = env->fog_transmit_curve;
state.ubo_data.fog_height_enabled = env->fog_height_enabled;
state.ubo_data.fog_height_min = env->fog_height_min;
state.ubo_data.fog_height_max = env->fog_height_max;
state.ubo_data.fog_height_curve = env->fog_height_curve;
} else {
state.ubo_data.bg_energy = 1.0;
state.ubo_data.ambient_energy = 1.0;
//use from clear color instead, since there is no ambient
Color linear_ambient_color = storage->frame.clear_request_color.to_linear();
state.ubo_data.ambient_light_color[0] = linear_ambient_color.r;
state.ubo_data.ambient_light_color[1] = linear_ambient_color.g;
state.ubo_data.ambient_light_color[2] = linear_ambient_color.b;
state.ubo_data.ambient_light_color[3] = linear_ambient_color.a;
state.ubo_data.bg_color[0] = linear_ambient_color.r;
state.ubo_data.bg_color[1] = linear_ambient_color.g;
state.ubo_data.bg_color[2] = linear_ambient_color.b;
state.ubo_data.bg_color[3] = linear_ambient_color.a;
state.env_radiance_data.ambient_contribution = 0;
state.ubo_data.ambient_occlusion_affect_light = 0;
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state.ubo_data.fog_color_enabled[3] = 0.0;
}
{
//directional shadow
state.ubo_data.shadow_directional_pixel_size[0] = 1.0 / directional_shadow.size;
state.ubo_data.shadow_directional_pixel_size[1] = 1.0 / directional_shadow.size;
glActiveTexture(GL_TEXTURE0 + storage->config.max_texture_image_units - 4);
glBindTexture(GL_TEXTURE_2D, directional_shadow.depth);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_COMPARE_MODE, GL_COMPARE_REF_TO_TEXTURE);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_COMPARE_FUNC, GL_LESS);
}
glBindBuffer(GL_UNIFORM_BUFFER, state.scene_ubo);
glBufferSubData(GL_UNIFORM_BUFFER, 0, sizeof(State::SceneDataUBO), &state.ubo_data);
glBindBuffer(GL_UNIFORM_BUFFER, 0);
//fill up environment
store_transform(p_cam_transform, state.env_radiance_data.transform);
glBindBuffer(GL_UNIFORM_BUFFER, state.env_radiance_ubo);
glBufferSubData(GL_UNIFORM_BUFFER, 0, sizeof(State::EnvironmentRadianceUBO), &state.env_radiance_data);
glBindBuffer(GL_UNIFORM_BUFFER, 0);
}
void RasterizerSceneGLES3::_setup_directional_light(int p_index, const Transform &p_camera_inverse_transform, bool p_use_shadows) {
LightInstance *li = directional_lights[p_index];
LightDataUBO ubo_data; //used for filling
float sign = li->light_ptr->negative ? -1 : 1;
Color linear_col = li->light_ptr->color.to_linear();
ubo_data.light_color_energy[0] = linear_col.r * sign * li->light_ptr->param[VS::LIGHT_PARAM_ENERGY];
ubo_data.light_color_energy[1] = linear_col.g * sign * li->light_ptr->param[VS::LIGHT_PARAM_ENERGY];
ubo_data.light_color_energy[2] = linear_col.b * sign * li->light_ptr->param[VS::LIGHT_PARAM_ENERGY];
ubo_data.light_color_energy[3] = 0;
//omni, keep at 0
ubo_data.light_pos_inv_radius[0] = 0.0;
ubo_data.light_pos_inv_radius[1] = 0.0;
ubo_data.light_pos_inv_radius[2] = 0.0;
ubo_data.light_pos_inv_radius[3] = 0.0;
Vector3 direction = p_camera_inverse_transform.basis.xform(li->transform.basis.xform(Vector3(0, 0, -1))).normalized();
ubo_data.light_direction_attenuation[0] = direction.x;
ubo_data.light_direction_attenuation[1] = direction.y;
ubo_data.light_direction_attenuation[2] = direction.z;
ubo_data.light_direction_attenuation[3] = 1.0;
ubo_data.light_params[0] = 0;
ubo_data.light_params[1] = li->light_ptr->param[VS::LIGHT_PARAM_SPECULAR];
ubo_data.light_params[2] = 0;
ubo_data.light_params[3] = 0;
Color shadow_color = li->light_ptr->shadow_color.to_linear();
ubo_data.light_shadow_color_contact[0] = shadow_color.r;
ubo_data.light_shadow_color_contact[1] = shadow_color.g;
ubo_data.light_shadow_color_contact[2] = shadow_color.b;
ubo_data.light_shadow_color_contact[3] = li->light_ptr->param[VS::LIGHT_PARAM_CONTACT_SHADOW_SIZE];
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if (p_use_shadows && li->light_ptr->shadow) {
int shadow_count = 0;
switch (li->light_ptr->directional_shadow_mode) {
case VS::LIGHT_DIRECTIONAL_SHADOW_ORTHOGONAL: {
shadow_count = 1;
} break;
case VS::LIGHT_DIRECTIONAL_SHADOW_PARALLEL_2_SPLITS: {
shadow_count = 2;
} break;
case VS::LIGHT_DIRECTIONAL_SHADOW_PARALLEL_4_SPLITS: {
shadow_count = 4;
} break;
}
for (int j = 0; j < shadow_count; j++) {
uint32_t x = li->directional_rect.position.x;
uint32_t y = li->directional_rect.position.y;
uint32_t width = li->directional_rect.size.x;
uint32_t height = li->directional_rect.size.y;
if (li->light_ptr->directional_shadow_mode == VS::LIGHT_DIRECTIONAL_SHADOW_PARALLEL_4_SPLITS) {
width /= 2;
height /= 2;
if (j == 0) {
} else if (j == 1) {
x += width;
} else if (j == 2) {
y += height;
} else if (j == 3) {
x += width;
y += height;
}
} else if (li->light_ptr->directional_shadow_mode == VS::LIGHT_DIRECTIONAL_SHADOW_PARALLEL_2_SPLITS) {
height /= 2;
if (j == 0) {
} else {
y += height;
}
}
ubo_data.shadow_split_offsets[j] = li->shadow_transform[j].split;
Transform modelview = (p_camera_inverse_transform * li->shadow_transform[j].transform).inverse();
CameraMatrix bias;
bias.set_light_bias();
CameraMatrix rectm;
Rect2 atlas_rect = Rect2(float(x) / directional_shadow.size, float(y) / directional_shadow.size, float(width) / directional_shadow.size, float(height) / directional_shadow.size);
rectm.set_light_atlas_rect(atlas_rect);
CameraMatrix shadow_mtx = rectm * bias * li->shadow_transform[j].camera * modelview;
store_camera(shadow_mtx, &ubo_data.shadow_matrix1[16 * j]);
ubo_data.light_clamp[0] = atlas_rect.position.x;
ubo_data.light_clamp[1] = atlas_rect.position.y;
ubo_data.light_clamp[2] = atlas_rect.size.x;
ubo_data.light_clamp[3] = atlas_rect.size.y;
}
}
glBindBuffer(GL_UNIFORM_BUFFER, state.directional_ubo);
glBufferSubData(GL_UNIFORM_BUFFER, 0, sizeof(LightDataUBO), &ubo_data);
glBindBuffer(GL_UNIFORM_BUFFER, 0);
directional_light = li;
glBindBufferBase(GL_UNIFORM_BUFFER, 3, state.directional_ubo);
}
void RasterizerSceneGLES3::_setup_lights(RID *p_light_cull_result, int p_light_cull_count, const Transform &p_camera_inverse_transform, const CameraMatrix &p_camera_projection, RID p_shadow_atlas) {
state.omni_light_count = 0;
state.spot_light_count = 0;
state.directional_light_count = 0;
directional_light = NULL;
ShadowAtlas *shadow_atlas = shadow_atlas_owner.getornull(p_shadow_atlas);
for (int i = 0; i < p_light_cull_count; i++) {
ERR_BREAK(i >= RenderList::MAX_LIGHTS);
LightInstance *li = light_instance_owner.getptr(p_light_cull_result[i]);
LightDataUBO ubo_data; //used for filling
switch (li->light_ptr->type) {
case VS::LIGHT_DIRECTIONAL: {
if (state.directional_light_count < RenderList::MAX_DIRECTIONAL_LIGHTS) {
directional_lights[state.directional_light_count++] = li;
}
} break;
case VS::LIGHT_OMNI: {
float sign = li->light_ptr->negative ? -1 : 1;
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Color linear_col = li->light_ptr->color.to_linear();
ubo_data.light_color_energy[0] = linear_col.r * sign * li->light_ptr->param[VS::LIGHT_PARAM_ENERGY];
ubo_data.light_color_energy[1] = linear_col.g * sign * li->light_ptr->param[VS::LIGHT_PARAM_ENERGY];
ubo_data.light_color_energy[2] = linear_col.b * sign * li->light_ptr->param[VS::LIGHT_PARAM_ENERGY];
ubo_data.light_color_energy[3] = 0;
Vector3 pos = p_camera_inverse_transform.xform(li->transform.origin);
//directional, keep at 0
ubo_data.light_pos_inv_radius[0] = pos.x;
ubo_data.light_pos_inv_radius[1] = pos.y;
ubo_data.light_pos_inv_radius[2] = pos.z;
ubo_data.light_pos_inv_radius[3] = 1.0 / MAX(0.001, li->light_ptr->param[VS::LIGHT_PARAM_RANGE]);
ubo_data.light_direction_attenuation[0] = 0;
ubo_data.light_direction_attenuation[1] = 0;
ubo_data.light_direction_attenuation[2] = 0;
ubo_data.light_direction_attenuation[3] = li->light_ptr->param[VS::LIGHT_PARAM_ATTENUATION];
ubo_data.light_params[0] = 0;
ubo_data.light_params[1] = 0;
ubo_data.light_params[2] = li->light_ptr->param[VS::LIGHT_PARAM_SPECULAR];
ubo_data.light_params[3] = 0;
Color shadow_color = li->light_ptr->shadow_color.to_linear();
ubo_data.light_shadow_color_contact[0] = shadow_color.r;
ubo_data.light_shadow_color_contact[1] = shadow_color.g;
ubo_data.light_shadow_color_contact[2] = shadow_color.b;
ubo_data.light_shadow_color_contact[3] = li->light_ptr->param[VS::LIGHT_PARAM_CONTACT_SHADOW_SIZE];
if (li->light_ptr->shadow && shadow_atlas && shadow_atlas->shadow_owners.has(li->self)) {
// fill in the shadow information
uint32_t key = shadow_atlas->shadow_owners[li->self];
uint32_t quadrant = (key >> ShadowAtlas::QUADRANT_SHIFT) & 0x3;
uint32_t shadow = key & ShadowAtlas::SHADOW_INDEX_MASK;
ERR_CONTINUE(shadow >= (uint32_t)shadow_atlas->quadrants[quadrant].shadows.size());
uint32_t atlas_size = shadow_atlas->size;
uint32_t quadrant_size = atlas_size >> 1;
uint32_t x = (quadrant & 1) * quadrant_size;
uint32_t y = (quadrant >> 1) * quadrant_size;
uint32_t shadow_size = (quadrant_size / shadow_atlas->quadrants[quadrant].subdivision);
x += (shadow % shadow_atlas->quadrants[quadrant].subdivision) * shadow_size;
y += (shadow / shadow_atlas->quadrants[quadrant].subdivision) * shadow_size;
uint32_t width = shadow_size;
uint32_t height = shadow_size;
if (li->light_ptr->omni_shadow_detail == VS::LIGHT_OMNI_SHADOW_DETAIL_HORIZONTAL) {
height /= 2;
} else {
width /= 2;
}
Transform proj = (p_camera_inverse_transform * li->transform).inverse();
store_transform(proj, ubo_data.shadow_matrix1);
ubo_data.light_params[3] = 1.0; //means it has shadow
ubo_data.light_clamp[0] = float(x) / atlas_size;
ubo_data.light_clamp[1] = float(y) / atlas_size;
ubo_data.light_clamp[2] = float(width) / atlas_size;
ubo_data.light_clamp[3] = float(height) / atlas_size;
}
li->light_index = state.omni_light_count;
copymem(&state.omni_array_tmp[li->light_index * state.ubo_light_size], &ubo_data, state.ubo_light_size);
state.omni_light_count++;
#if 0
if (li->light_ptr->shadow_enabled) {
li->shadow_projection[0] = Transform(camera_transform_inverse * li->transform).inverse();
lights_use_shadow=true;
}
#endif
} break;
case VS::LIGHT_SPOT: {
float sign = li->light_ptr->negative ? -1 : 1;
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Color linear_col = li->light_ptr->color.to_linear();
ubo_data.light_color_energy[0] = linear_col.r * sign * li->light_ptr->param[VS::LIGHT_PARAM_ENERGY];
ubo_data.light_color_energy[1] = linear_col.g * sign * li->light_ptr->param[VS::LIGHT_PARAM_ENERGY];
ubo_data.light_color_energy[2] = linear_col.b * sign * li->light_ptr->param[VS::LIGHT_PARAM_ENERGY];
ubo_data.light_color_energy[3] = 0;
Vector3 pos = p_camera_inverse_transform.xform(li->transform.origin);
//directional, keep at 0
ubo_data.light_pos_inv_radius[0] = pos.x;
ubo_data.light_pos_inv_radius[1] = pos.y;
ubo_data.light_pos_inv_radius[2] = pos.z;
ubo_data.light_pos_inv_radius[3] = 1.0 / MAX(0.001, li->light_ptr->param[VS::LIGHT_PARAM_RANGE]);
Vector3 direction = p_camera_inverse_transform.basis.xform(li->transform.basis.xform(Vector3(0, 0, -1))).normalized();
ubo_data.light_direction_attenuation[0] = direction.x;
ubo_data.light_direction_attenuation[1] = direction.y;
ubo_data.light_direction_attenuation[2] = direction.z;
ubo_data.light_direction_attenuation[3] = li->light_ptr->param[VS::LIGHT_PARAM_ATTENUATION];
ubo_data.light_params[0] = li->light_ptr->param[VS::LIGHT_PARAM_SPOT_ATTENUATION];
ubo_data.light_params[1] = Math::cos(Math::deg2rad(li->light_ptr->param[VS::LIGHT_PARAM_SPOT_ANGLE]));
ubo_data.light_params[2] = li->light_ptr->param[VS::LIGHT_PARAM_SPECULAR];
ubo_data.light_params[3] = 0;
Color shadow_color = li->light_ptr->shadow_color.to_linear();
ubo_data.light_shadow_color_contact[0] = shadow_color.r;
ubo_data.light_shadow_color_contact[1] = shadow_color.g;
ubo_data.light_shadow_color_contact[2] = shadow_color.b;
ubo_data.light_shadow_color_contact[3] = li->light_ptr->param[VS::LIGHT_PARAM_CONTACT_SHADOW_SIZE];
if (li->light_ptr->shadow && shadow_atlas && shadow_atlas->shadow_owners.has(li->self)) {
// fill in the shadow information
uint32_t key = shadow_atlas->shadow_owners[li->self];
uint32_t quadrant = (key >> ShadowAtlas::QUADRANT_SHIFT) & 0x3;
uint32_t shadow = key & ShadowAtlas::SHADOW_INDEX_MASK;
ERR_CONTINUE(shadow >= (uint32_t)shadow_atlas->quadrants[quadrant].shadows.size());
uint32_t atlas_size = shadow_atlas->size;
uint32_t quadrant_size = atlas_size >> 1;
uint32_t x = (quadrant & 1) * quadrant_size;
uint32_t y = (quadrant >> 1) * quadrant_size;
uint32_t shadow_size = (quadrant_size / shadow_atlas->quadrants[quadrant].subdivision);
x += (shadow % shadow_atlas->quadrants[quadrant].subdivision) * shadow_size;
y += (shadow / shadow_atlas->quadrants[quadrant].subdivision) * shadow_size;
uint32_t width = shadow_size;
uint32_t height = shadow_size;
Rect2 rect(float(x) / atlas_size, float(y) / atlas_size, float(width) / atlas_size, float(height) / atlas_size);
ubo_data.light_params[3] = 1.0; //means it has shadow
ubo_data.light_clamp[0] = rect.position.x;
ubo_data.light_clamp[1] = rect.position.y;
ubo_data.light_clamp[2] = rect.size.x;
ubo_data.light_clamp[3] = rect.size.y;
Transform modelview = (p_camera_inverse_transform * li->transform).inverse();
CameraMatrix bias;
bias.set_light_bias();
CameraMatrix rectm;
rectm.set_light_atlas_rect(rect);
CameraMatrix shadow_mtx = rectm * bias * li->shadow_transform[0].camera * modelview;
store_camera(shadow_mtx, ubo_data.shadow_matrix1);
}
li->light_index = state.spot_light_count;
copymem(&state.spot_array_tmp[li->light_index * state.ubo_light_size], &ubo_data, state.ubo_light_size);
state.spot_light_count++;
#if 0
if (li->light_ptr->shadow_enabled) {
CameraMatrix bias;
bias.set_light_bias();
Transform modelview=Transform(camera_transform_inverse * li->transform).inverse();
li->shadow_projection[0] = bias * li->projection * modelview;
lights_use_shadow=true;
}
#endif
} break;
}
li->last_pass = render_pass;
//update UBO for forward rendering, blit to texture for clustered
}
if (state.omni_light_count) {
glBindBuffer(GL_UNIFORM_BUFFER, state.omni_array_ubo);
glBufferSubData(GL_UNIFORM_BUFFER, 0, state.omni_light_count * state.ubo_light_size, state.omni_array_tmp);
glBindBuffer(GL_UNIFORM_BUFFER, 0);
}
glBindBufferBase(GL_UNIFORM_BUFFER, 4, state.omni_array_ubo);
if (state.spot_light_count) {
glBindBuffer(GL_UNIFORM_BUFFER, state.spot_array_ubo);
glBufferSubData(GL_UNIFORM_BUFFER, 0, state.spot_light_count * state.ubo_light_size, state.spot_array_tmp);
glBindBuffer(GL_UNIFORM_BUFFER, 0);
}
glBindBufferBase(GL_UNIFORM_BUFFER, 5, state.spot_array_ubo);
}
void RasterizerSceneGLES3::_setup_reflections(RID *p_reflection_probe_cull_result, int p_reflection_probe_cull_count, const Transform &p_camera_inverse_transform, const CameraMatrix &p_camera_projection, RID p_reflection_atlas, Environment *p_env) {
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state.reflection_probe_count = 0;
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for (int i = 0; i < p_reflection_probe_cull_count; i++) {
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ReflectionProbeInstance *rpi = reflection_probe_instance_owner.getornull(p_reflection_probe_cull_result[i]);
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ERR_CONTINUE(!rpi);
ReflectionAtlas *reflection_atlas = reflection_atlas_owner.getornull(p_reflection_atlas);
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ERR_CONTINUE(!reflection_atlas);
ERR_CONTINUE(rpi->reflection_atlas_index < 0);
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if (state.reflection_probe_count >= state.max_ubo_reflections)
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break;
rpi->last_pass = render_pass;
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ReflectionProbeDataUBO reflection_ubo;
reflection_ubo.box_extents[0] = rpi->probe_ptr->extents.x;
reflection_ubo.box_extents[1] = rpi->probe_ptr->extents.y;
reflection_ubo.box_extents[2] = rpi->probe_ptr->extents.z;
reflection_ubo.box_extents[3] = 0;
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reflection_ubo.box_ofs[0] = rpi->probe_ptr->origin_offset.x;
reflection_ubo.box_ofs[1] = rpi->probe_ptr->origin_offset.y;
reflection_ubo.box_ofs[2] = rpi->probe_ptr->origin_offset.z;
reflection_ubo.box_ofs[3] = 0;
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reflection_ubo.params[0] = rpi->probe_ptr->intensity;
reflection_ubo.params[1] = 0;
reflection_ubo.params[2] = rpi->probe_ptr->interior ? 1.0 : 0.0;
reflection_ubo.params[3] = rpi->probe_ptr->box_projection ? 1.0 : 0.0;
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if (rpi->probe_ptr->interior) {
Color ambient_linear = rpi->probe_ptr->interior_ambient.to_linear();
reflection_ubo.ambient[0] = ambient_linear.r * rpi->probe_ptr->interior_ambient_energy;
reflection_ubo.ambient[1] = ambient_linear.g * rpi->probe_ptr->interior_ambient_energy;
reflection_ubo.ambient[2] = ambient_linear.b * rpi->probe_ptr->interior_ambient_energy;
reflection_ubo.ambient[3] = rpi->probe_ptr->interior_ambient_probe_contrib;
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} else {
Color ambient_linear;
float contrib = 0;
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if (p_env) {
ambient_linear = p_env->ambient_color.to_linear();
ambient_linear.r *= p_env->ambient_energy;
ambient_linear.g *= p_env->ambient_energy;
ambient_linear.b *= p_env->ambient_energy;
contrib = p_env->ambient_sky_contribution;
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}
reflection_ubo.ambient[0] = ambient_linear.r;
reflection_ubo.ambient[1] = ambient_linear.g;
reflection_ubo.ambient[2] = ambient_linear.b;
reflection_ubo.ambient[3] = 0;
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}
int cell_size = reflection_atlas->size / reflection_atlas->subdiv;
int x = (rpi->reflection_atlas_index % reflection_atlas->subdiv) * cell_size;
int y = (rpi->reflection_atlas_index / reflection_atlas->subdiv) * cell_size;
int width = cell_size;
int height = cell_size;
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reflection_ubo.atlas_clamp[0] = float(x) / reflection_atlas->size;
reflection_ubo.atlas_clamp[1] = float(y) / reflection_atlas->size;
reflection_ubo.atlas_clamp[2] = float(width) / reflection_atlas->size;
reflection_ubo.atlas_clamp[3] = float(height) / reflection_atlas->size;
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Transform proj = (p_camera_inverse_transform * rpi->transform).inverse();
store_transform(proj, reflection_ubo.local_matrix);
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rpi->reflection_index = state.reflection_probe_count;
copymem(&state.reflection_array_tmp[rpi->reflection_index * sizeof(ReflectionProbeDataUBO)], &reflection_ubo, sizeof(ReflectionProbeDataUBO));
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state.reflection_probe_count++;
}
if (state.reflection_probe_count) {
glBindBuffer(GL_UNIFORM_BUFFER, state.reflection_array_ubo);
glBufferSubData(GL_UNIFORM_BUFFER, 0, state.reflection_probe_count * sizeof(ReflectionProbeDataUBO), state.reflection_array_tmp);
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glBindBuffer(GL_UNIFORM_BUFFER, 0);
}
glBindBufferBase(GL_UNIFORM_BUFFER, 6, state.reflection_array_ubo);
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}
void RasterizerSceneGLES3::_copy_screen(bool p_invalidate_color, bool p_invalidate_depth) {
#ifndef GLES_OVER_GL
if (p_invalidate_color) {
GLenum attachments[2] = {
GL_COLOR_ATTACHMENT0,
GL_DEPTH_STENCIL_ATTACHMENT
};
glInvalidateFramebuffer(GL_FRAMEBUFFER, p_invalidate_depth ? 2 : 1, attachments);
}
#endif
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glBindVertexArray(storage->resources.quadie_array);
glDrawArrays(GL_TRIANGLE_FAN, 0, 4);
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glBindVertexArray(0);
}
void RasterizerSceneGLES3::_copy_to_front_buffer(Environment *env) {
//copy to front buffer
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->fbo);
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glDepthMask(GL_FALSE);
glDisable(GL_DEPTH_TEST);
glDisable(GL_CULL_FACE);
glDisable(GL_BLEND);
glDepthFunc(GL_LEQUAL);
glColorMask(1, 1, 1, 1);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->buffers.diffuse);
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storage->shaders.copy.set_conditional(CopyShaderGLES3::DISABLE_ALPHA, true);
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if (!env) {
//no environment, simply convert from linear to srgb
storage->shaders.copy.set_conditional(CopyShaderGLES3::LINEAR_TO_SRGB, true);
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} else {
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/* FIXME: Why are both statements equal? */
storage->shaders.copy.set_conditional(CopyShaderGLES3::LINEAR_TO_SRGB, true);
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}
storage->shaders.copy.bind();
_copy_screen();
//turn off everything used
storage->shaders.copy.set_conditional(CopyShaderGLES3::LINEAR_TO_SRGB, false);
storage->shaders.copy.set_conditional(CopyShaderGLES3::DISABLE_ALPHA, false);
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}
void RasterizerSceneGLES3::_copy_texture_to_front_buffer(GLuint p_texture) {
//copy to front buffer
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->fbo);
glDepthMask(GL_FALSE);
glDisable(GL_DEPTH_TEST);
glDisable(GL_CULL_FACE);
glDisable(GL_BLEND);
glDepthFunc(GL_LEQUAL);
glColorMask(1, 1, 1, 1);
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, p_texture);
glViewport(0, 0, storage->frame.current_rt->width * 0.5, storage->frame.current_rt->height * 0.5);
storage->shaders.copy.set_conditional(CopyShaderGLES3::DISABLE_ALPHA, true);
storage->shaders.copy.bind();
_copy_screen();
//turn off everything used
storage->shaders.copy.set_conditional(CopyShaderGLES3::LINEAR_TO_SRGB, false);
storage->shaders.copy.set_conditional(CopyShaderGLES3::DISABLE_ALPHA, false);
}
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void RasterizerSceneGLES3::_fill_render_list(InstanceBase **p_cull_result, int p_cull_count, bool p_depth_pass) {
current_geometry_index = 0;
current_material_index = 0;
state.used_sss = false;
state.used_screen_texture = false;
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//fill list
for (int i = 0; i < p_cull_count; i++) {
InstanceBase *inst = p_cull_result[i];
switch (inst->base_type) {
case VS::INSTANCE_MESH: {
RasterizerStorageGLES3::Mesh *mesh = storage->mesh_owner.getptr(inst->base);
ERR_CONTINUE(!mesh);
int ssize = mesh->surfaces.size();
for (int i = 0; i < ssize; i++) {
int mat_idx = inst->materials[i].is_valid() ? i : -1;
RasterizerStorageGLES3::Surface *s = mesh->surfaces[i];
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_add_geometry(s, inst, NULL, mat_idx, p_depth_pass);
}
//mesh->last_pass=frame;
} break;
case VS::INSTANCE_MULTIMESH: {
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RasterizerStorageGLES3::MultiMesh *multi_mesh = storage->multimesh_owner.getptr(inst->base);
ERR_CONTINUE(!multi_mesh);
if (multi_mesh->size == 0 || multi_mesh->visible_instances == 0)
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continue;
RasterizerStorageGLES3::Mesh *mesh = storage->mesh_owner.getptr(multi_mesh->mesh);
if (!mesh)
continue; //mesh not assigned
int ssize = mesh->surfaces.size();
for (int i = 0; i < ssize; i++) {
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RasterizerStorageGLES3::Surface *s = mesh->surfaces[i];
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_add_geometry(s, inst, multi_mesh, -1, p_depth_pass);
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}
} break;
case VS::INSTANCE_IMMEDIATE: {
RasterizerStorageGLES3::Immediate *immediate = storage->immediate_owner.getptr(inst->base);
ERR_CONTINUE(!immediate);
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_add_geometry(immediate, inst, NULL, -1, p_depth_pass);
} break;
case VS::INSTANCE_PARTICLES: {
RasterizerStorageGLES3::Particles *particles = storage->particles_owner.getptr(inst->base);
ERR_CONTINUE(!particles);
for (int i = 0; i < particles->draw_passes.size(); i++) {
RID pmesh = particles->draw_passes[i];
if (!pmesh.is_valid())
continue;
RasterizerStorageGLES3::Mesh *mesh = storage->mesh_owner.get(pmesh);
if (!mesh)
continue; //mesh not assigned
int ssize = mesh->surfaces.size();
for (int j = 0; j < ssize; j++) {
RasterizerStorageGLES3::Surface *s = mesh->surfaces[j];
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_add_geometry(s, inst, particles, -1, p_depth_pass);
}
}
} break;
}
}
}
void RasterizerSceneGLES3::_blur_effect_buffer() {
//blur diffuse into effect mipmaps using separatable convolution
//storage->shaders.copy.set_conditional(CopyShaderGLES3::GAUSSIAN_HORIZONTAL,true);
for (int i = 0; i < storage->frame.current_rt->effects.mip_maps[1].sizes.size(); i++) {
int vp_w = storage->frame.current_rt->effects.mip_maps[1].sizes[i].width;
int vp_h = storage->frame.current_rt->effects.mip_maps[1].sizes[i].height;
glViewport(0, 0, vp_w, vp_h);
//horizontal pass
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GAUSSIAN_HORIZONTAL, true);
state.effect_blur_shader.bind();
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::PIXEL_SIZE, Vector2(1.0 / vp_w, 1.0 / vp_h));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::LOD, float(i));
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[0].color); //previous level, since mipmaps[0] starts one level bigger
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[1].sizes[i].fbo);
_copy_screen(true);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GAUSSIAN_HORIZONTAL, false);
//vertical pass
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GAUSSIAN_VERTICAL, true);
state.effect_blur_shader.bind();
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::PIXEL_SIZE, Vector2(1.0 / vp_w, 1.0 / vp_h));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::LOD, float(i));
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[1].color);
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[i + 1].fbo); //next level, since mipmaps[0] starts one level bigger
_copy_screen(true);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GAUSSIAN_VERTICAL, false);
}
}
void RasterizerSceneGLES3::_render_mrts(Environment *env, const CameraMatrix &p_cam_projection) {
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glDepthMask(GL_FALSE);
glDisable(GL_DEPTH_TEST);
glDisable(GL_CULL_FACE);
glDisable(GL_BLEND);
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if (env->ssao_enabled) {
//copy diffuse to front buffer
glBindFramebuffer(GL_READ_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
glReadBuffer(GL_COLOR_ATTACHMENT0);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, storage->frame.current_rt->fbo);
glBlitFramebuffer(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, 0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT, GL_NEAREST);
glBindFramebuffer(GL_READ_FRAMEBUFFER, 0);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, 0);
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//copy from depth, convert to linear
GLint ss[2];
ss[0] = storage->frame.current_rt->width;
ss[1] = storage->frame.current_rt->height;
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for (int i = 0; i < storage->frame.current_rt->effects.ssao.depth_mipmap_fbos.size(); i++) {
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state.ssao_minify_shader.set_conditional(SsaoMinifyShaderGLES3::MINIFY_START, i == 0);
state.ssao_minify_shader.set_conditional(SsaoMinifyShaderGLES3::USE_ORTHOGONAL_PROJECTION, p_cam_projection.is_orthogonal());
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state.ssao_minify_shader.bind();
state.ssao_minify_shader.set_uniform(SsaoMinifyShaderGLES3::CAMERA_Z_FAR, p_cam_projection.get_z_far());
state.ssao_minify_shader.set_uniform(SsaoMinifyShaderGLES3::CAMERA_Z_NEAR, p_cam_projection.get_z_near());
state.ssao_minify_shader.set_uniform(SsaoMinifyShaderGLES3::SOURCE_MIPMAP, MAX(0, i - 1));
glUniform2iv(state.ssao_minify_shader.get_uniform(SsaoMinifyShaderGLES3::FROM_SIZE), 1, ss);
ss[0] >>= 1;
ss[1] >>= 1;
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glActiveTexture(GL_TEXTURE0);
if (i == 0) {
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->depth);
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} else {
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.ssao.linear_depth);
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}
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.ssao.depth_mipmap_fbos[i]); //copy to front first
glViewport(0, 0, ss[0], ss[1]);
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_copy_screen(true);
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}
ss[0] = storage->frame.current_rt->width;
ss[1] = storage->frame.current_rt->height;
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glViewport(0, 0, ss[0], ss[1]);
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glEnable(GL_DEPTH_TEST);
glDepthFunc(GL_GREATER);
// do SSAO!
state.ssao_shader.set_conditional(SsaoShaderGLES3::ENABLE_RADIUS2, env->ssao_radius2 > 0.001);
state.ssao_shader.set_conditional(SsaoShaderGLES3::USE_ORTHOGONAL_PROJECTION, p_cam_projection.is_orthogonal());
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state.ssao_shader.bind();
state.ssao_shader.set_uniform(SsaoShaderGLES3::CAMERA_Z_FAR, p_cam_projection.get_z_far());
state.ssao_shader.set_uniform(SsaoShaderGLES3::CAMERA_Z_NEAR, p_cam_projection.get_z_near());
glUniform2iv(state.ssao_shader.get_uniform(SsaoShaderGLES3::SCREEN_SIZE), 1, ss);
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float radius = env->ssao_radius;
state.ssao_shader.set_uniform(SsaoShaderGLES3::RADIUS, radius);
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float intensity = env->ssao_intensity;
state.ssao_shader.set_uniform(SsaoShaderGLES3::INTENSITY_DIV_R6, intensity / pow(radius, 6.0f));
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if (env->ssao_radius2 > 0.001) {
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float radius2 = env->ssao_radius2;
state.ssao_shader.set_uniform(SsaoShaderGLES3::RADIUS2, radius2);
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float intensity2 = env->ssao_intensity2;
state.ssao_shader.set_uniform(SsaoShaderGLES3::INTENSITY_DIV_R62, intensity2 / pow(radius2, 6.0f));
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}
float proj_info[4] = {
-2.0f / (ss[0] * p_cam_projection.matrix[0][0]),
-2.0f / (ss[1] * p_cam_projection.matrix[1][1]),
(1.0f - p_cam_projection.matrix[0][2]) / p_cam_projection.matrix[0][0],
(1.0f + p_cam_projection.matrix[1][2]) / p_cam_projection.matrix[1][1]
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};
glUniform4fv(state.ssao_shader.get_uniform(SsaoShaderGLES3::PROJ_INFO), 1, proj_info);
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float pixels_per_meter = float(p_cam_projection.get_pixels_per_meter(ss[0]));
state.ssao_shader.set_uniform(SsaoShaderGLES3::PROJ_SCALE, pixels_per_meter);
state.ssao_shader.set_uniform(SsaoShaderGLES3::BIAS, env->ssao_bias);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->depth);
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glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.ssao.linear_depth);
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glActiveTexture(GL_TEXTURE2);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->buffers.effect);
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glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.ssao.blur_fbo[0]); //copy to front first
Color white(1, 1, 1, 1);
glClearBufferfv(GL_COLOR, 0, white.components); // specular
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_copy_screen(true);
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//do the batm, i mean blur
state.ssao_blur_shader.bind();
if (env->ssao_filter) {
for (int i = 0; i < 2; i++) {
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state.ssao_blur_shader.set_uniform(SsaoBlurShaderGLES3::CAMERA_Z_FAR, p_cam_projection.get_z_far());
state.ssao_blur_shader.set_uniform(SsaoBlurShaderGLES3::CAMERA_Z_NEAR, p_cam_projection.get_z_near());
GLint axis[2] = { i, 1 - i };
glUniform2iv(state.ssao_blur_shader.get_uniform(SsaoBlurShaderGLES3::AXIS), 1, axis);
glUniform2iv(state.ssao_blur_shader.get_uniform(SsaoBlurShaderGLES3::SCREEN_SIZE), 1, ss);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.ssao.blur_red[i]);
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glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->depth);
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.ssao.blur_fbo[1 - i]);
if (i == 0) {
glClearBufferfv(GL_COLOR, 0, white.components); // specular
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}
_copy_screen(true);
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}
}
glDisable(GL_DEPTH_TEST);
glDepthFunc(GL_LEQUAL);
// just copy diffuse while applying SSAO
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::SSAO_MERGE, true);
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state.effect_blur_shader.bind();
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::SSAO_COLOR, env->ssao_color);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->color); //previous level, since mipmaps[0] starts one level bigger
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glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.ssao.blur_red[0]); //previous level, since mipmaps[0] starts one level bigger
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo); // copy to base level
_copy_screen(true);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::SSAO_MERGE, false);
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} else {
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//copy diffuse to effect buffer
glBindFramebuffer(GL_READ_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
glReadBuffer(GL_COLOR_ATTACHMENT0);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo);
glBlitFramebuffer(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, 0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT, GL_NEAREST);
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glBindFramebuffer(GL_READ_FRAMEBUFFER, 0);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, 0);
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}
if (state.used_sss) { //sss enabled
//copy diffuse while performing sss
Plane p = p_cam_projection.xform4(Plane(1, 0, -1, 1));
p.normal /= p.d;
float unit_size = p.normal.x;
//copy normal and roughness to effect buffer
glBindFramebuffer(GL_READ_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
glReadBuffer(GL_COLOR_ATTACHMENT3);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, storage->frame.current_rt->effects.ssao.blur_fbo[0]);
glBlitFramebuffer(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, 0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, GL_COLOR_BUFFER_BIT, GL_LINEAR);
state.sss_shader.set_conditional(SubsurfScatteringShaderGLES3::USE_ORTHOGONAL_PROJECTION, p_cam_projection.is_orthogonal());
state.sss_shader.set_conditional(SubsurfScatteringShaderGLES3::USE_11_SAMPLES, subsurface_scatter_quality == SSS_QUALITY_LOW);
state.sss_shader.set_conditional(SubsurfScatteringShaderGLES3::USE_17_SAMPLES, subsurface_scatter_quality == SSS_QUALITY_MEDIUM);
state.sss_shader.set_conditional(SubsurfScatteringShaderGLES3::USE_25_SAMPLES, subsurface_scatter_quality == SSS_QUALITY_HIGH);
state.sss_shader.set_conditional(SubsurfScatteringShaderGLES3::ENABLE_FOLLOW_SURFACE, subsurface_scatter_follow_surface);
state.sss_shader.set_conditional(SubsurfScatteringShaderGLES3::ENABLE_STRENGTH_WEIGHTING, subsurface_scatter_weight_samples);
state.sss_shader.bind();
state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::MAX_RADIUS, subsurface_scatter_size);
state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::UNIT_SIZE, unit_size);
state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::CAMERA_Z_NEAR, p_cam_projection.get_z_near());
state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::CAMERA_Z_FAR, p_cam_projection.get_z_far());
state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::DIR, Vector2(1, 0));
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[0].color);
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glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST); //disable filter (fixes bugs on AMD)
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.ssao.blur_red[0]);
glActiveTexture(GL_TEXTURE2);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->depth);
//glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_COMPARE_MODE, GL_NONE);
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->fbo); //copy to front first
_copy_screen(true);
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->color);
state.sss_shader.set_uniform(SubsurfScatteringShaderGLES3::DIR, Vector2(0, 1));
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo); // copy to base level
_copy_screen(true);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[0].color); //restore filter
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
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}
if (env->ssr_enabled) {
//copy normal and roughness to effect buffer
glBindFramebuffer(GL_READ_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
glReadBuffer(GL_COLOR_ATTACHMENT2);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, storage->frame.current_rt->buffers.effect_fbo);
glBlitFramebuffer(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, 0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, GL_COLOR_BUFFER_BIT, GL_NEAREST);
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//blur diffuse into effect mipmaps using separatable convolution
//storage->shaders.copy.set_conditional(CopyShaderGLES3::GAUSSIAN_HORIZONTAL,true);
_blur_effect_buffer();
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//perform SSR
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state.ssr_shader.set_conditional(ScreenSpaceReflectionShaderGLES3::REFLECT_ROUGHNESS, env->ssr_roughness);
state.ssr_shader.set_conditional(ScreenSpaceReflectionShaderGLES3::USE_ORTHOGONAL_PROJECTION, p_cam_projection.is_orthogonal());
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state.ssr_shader.bind();
int ssr_w = storage->frame.current_rt->effects.mip_maps[1].sizes[0].width;
int ssr_h = storage->frame.current_rt->effects.mip_maps[1].sizes[0].height;
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::PIXEL_SIZE, Vector2(1.0 / (ssr_w * 0.5), 1.0 / (ssr_h * 0.5)));
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::CAMERA_Z_NEAR, p_cam_projection.get_z_near());
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::CAMERA_Z_FAR, p_cam_projection.get_z_far());
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::PROJECTION, p_cam_projection);
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::INVERSE_PROJECTION, p_cam_projection.inverse());
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::VIEWPORT_SIZE, Size2(ssr_w, ssr_h));
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//state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::FRAME_INDEX,int(render_pass));
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::FILTER_MIPMAP_LEVELS, float(storage->frame.current_rt->effects.mip_maps[0].sizes.size()));
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::NUM_STEPS, env->ssr_max_steps);
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::DEPTH_TOLERANCE, env->ssr_depth_tolerance);
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::DISTANCE_FADE, env->ssr_fade_out);
state.ssr_shader.set_uniform(ScreenSpaceReflectionShaderGLES3::CURVE_FADE_IN, env->ssr_fade_in);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[0].color);
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glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->buffers.effect);
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glActiveTexture(GL_TEXTURE2);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->depth);
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glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_COMPARE_MODE, GL_NONE);
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[1].sizes[0].fbo);
glViewport(0, 0, ssr_w, ssr_h);
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_copy_screen(true);
glViewport(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height);
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}
glBindFramebuffer(GL_READ_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
glReadBuffer(GL_COLOR_ATTACHMENT1);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, storage->frame.current_rt->fbo);
//glDrawBuffer(GL_COLOR_ATTACHMENT0);
glBlitFramebuffer(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, 0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, GL_COLOR_BUFFER_BIT, GL_NEAREST);
glReadBuffer(GL_COLOR_ATTACHMENT0);
glBindFramebuffer(GL_READ_FRAMEBUFFER, 0);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, 0);
//copy reflection over diffuse, resolving SSR if needed
state.resolve_shader.set_conditional(ResolveShaderGLES3::USE_SSR, env->ssr_enabled);
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state.resolve_shader.bind();
state.resolve_shader.set_uniform(ResolveShaderGLES3::PIXEL_SIZE, Vector2(1.0 / storage->frame.current_rt->width, 1.0 / storage->frame.current_rt->height));
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->color);
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if (env->ssr_enabled) {
glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[1].color);
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}
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo);
glEnable(GL_BLEND);
glBlendEquation(GL_FUNC_ADD);
glBlendFunc(GL_ONE, GL_ONE); //use additive to accumulate one over the other
_copy_screen(true);
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glDisable(GL_BLEND); //end additive
if (state.used_screen_texture) {
_blur_effect_buffer();
//restored framebuffer
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo);
glViewport(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height);
}
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::SIMPLE_COPY, true);
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state.effect_blur_shader.bind();
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::LOD, float(0));
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{
GLuint db = GL_COLOR_ATTACHMENT0;
glDrawBuffers(1, &db);
}
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[0].color);
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_copy_screen(true);
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state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::SIMPLE_COPY, false);
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}
void RasterizerSceneGLES3::_post_process(Environment *env, const CameraMatrix &p_cam_projection) {
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//copy to front buffer
glDepthMask(GL_FALSE);
glDisable(GL_DEPTH_TEST);
glDisable(GL_CULL_FACE);
glDisable(GL_BLEND);
glDepthFunc(GL_LEQUAL);
glColorMask(1, 1, 1, 1);
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//turn off everything used
//copy specular to front buffer
//copy diffuse to effect buffer
if (storage->frame.current_rt->buffers.active) {
//transfer to effect buffer if using buffers, also resolve MSAA
glReadBuffer(GL_COLOR_ATTACHMENT0);
glBindFramebuffer(GL_READ_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo);
glBlitFramebuffer(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, 0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, GL_COLOR_BUFFER_BIT, GL_NEAREST);
glBindFramebuffer(GL_READ_FRAMEBUFFER, 0);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, 0);
}
if (!env || storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_TRANSPARENT]) {
//no environment or transparent render, simply return and convert to SRGB
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->fbo);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[0].color);
storage->shaders.copy.set_conditional(CopyShaderGLES3::LINEAR_TO_SRGB, true);
storage->shaders.copy.set_conditional(CopyShaderGLES3::V_FLIP, storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_VFLIP]);
storage->shaders.copy.set_conditional(CopyShaderGLES3::DISABLE_ALPHA, !storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_TRANSPARENT]);
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storage->shaders.copy.bind();
_copy_screen(true);
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storage->shaders.copy.set_conditional(CopyShaderGLES3::LINEAR_TO_SRGB, false);
storage->shaders.copy.set_conditional(CopyShaderGLES3::DISABLE_ALPHA, false); //compute luminance
storage->shaders.copy.set_conditional(CopyShaderGLES3::V_FLIP, false);
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return;
}
//order of operation
//1) DOF Blur (first blur, then copy to buffer applying the blur)
//2) Motion Blur
//3) Bloom
//4) Tonemap
//5) Adjustments
GLuint composite_from = storage->frame.current_rt->effects.mip_maps[0].color;
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if (env->dof_blur_far_enabled) {
//blur diffuse into effect mipmaps using separatable convolution
//storage->shaders.copy.set_conditional(CopyShaderGLES3::GAUSSIAN_HORIZONTAL,true);
int vp_h = storage->frame.current_rt->height;
int vp_w = storage->frame.current_rt->width;
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::USE_ORTHOGONAL_PROJECTION, p_cam_projection.is_orthogonal());
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_FAR_BLUR, true);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_LOW, env->dof_blur_far_quality == VS::ENV_DOF_BLUR_QUALITY_LOW);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_MEDIUM, env->dof_blur_far_quality == VS::ENV_DOF_BLUR_QUALITY_MEDIUM);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_HIGH, env->dof_blur_far_quality == VS::ENV_DOF_BLUR_QUALITY_HIGH);
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state.effect_blur_shader.bind();
int qsteps[3] = { 4, 10, 20 };
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float radius = (env->dof_blur_far_amount * env->dof_blur_far_amount) / qsteps[env->dof_blur_far_quality];
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state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_BEGIN, env->dof_blur_far_distance);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_END, env->dof_blur_far_distance + env->dof_blur_far_transition);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_DIR, Vector2(1, 0));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_RADIUS, radius);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::PIXEL_SIZE, Vector2(1.0 / vp_w, 1.0 / vp_h));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::CAMERA_Z_NEAR, p_cam_projection.get_z_near());
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::CAMERA_Z_FAR, p_cam_projection.get_z_far());
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glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->depth);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, composite_from);
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glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->fbo); //copy to front first
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_copy_screen(true);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->color);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_DIR, Vector2(0, 1));
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo); // copy to base level
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_copy_screen();
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_FAR_BLUR, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_LOW, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_MEDIUM, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_HIGH, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::USE_ORTHOGONAL_PROJECTION, false);
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composite_from = storage->frame.current_rt->effects.mip_maps[0].color;
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}
if (env->dof_blur_near_enabled) {
//blur diffuse into effect mipmaps using separatable convolution
//storage->shaders.copy.set_conditional(CopyShaderGLES3::GAUSSIAN_HORIZONTAL,true);
int vp_h = storage->frame.current_rt->height;
int vp_w = storage->frame.current_rt->width;
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::USE_ORTHOGONAL_PROJECTION, p_cam_projection.is_orthogonal());
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_NEAR_BLUR, true);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_NEAR_FIRST_TAP, true);
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state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_LOW, env->dof_blur_near_quality == VS::ENV_DOF_BLUR_QUALITY_LOW);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_MEDIUM, env->dof_blur_near_quality == VS::ENV_DOF_BLUR_QUALITY_MEDIUM);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_HIGH, env->dof_blur_near_quality == VS::ENV_DOF_BLUR_QUALITY_HIGH);
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state.effect_blur_shader.bind();
int qsteps[3] = { 4, 10, 20 };
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float radius = (env->dof_blur_near_amount * env->dof_blur_near_amount) / qsteps[env->dof_blur_near_quality];
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state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_BEGIN, env->dof_blur_near_distance);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_END, env->dof_blur_near_distance - env->dof_blur_near_transition);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_DIR, Vector2(1, 0));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_RADIUS, radius);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::PIXEL_SIZE, Vector2(1.0 / vp_w, 1.0 / vp_h));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::CAMERA_Z_NEAR, p_cam_projection.get_z_near());
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::CAMERA_Z_FAR, p_cam_projection.get_z_far());
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glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->depth);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, composite_from);
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glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->fbo); //copy to front first
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_copy_screen();
//manually do the blend if this is the first operation resolving from the diffuse buffer
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_NEAR_BLUR_MERGE, composite_from == storage->frame.current_rt->buffers.diffuse);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_NEAR_FIRST_TAP, false);
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state.effect_blur_shader.bind();
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_BEGIN, env->dof_blur_near_distance);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_END, env->dof_blur_near_distance - env->dof_blur_near_transition);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_DIR, Vector2(0, 1));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::DOF_RADIUS, radius);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::PIXEL_SIZE, Vector2(1.0 / vp_w, 1.0 / vp_h));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::CAMERA_Z_NEAR, p_cam_projection.get_z_near());
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::CAMERA_Z_FAR, p_cam_projection.get_z_far());
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->color);
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glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo); // copy to base level
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if (composite_from != storage->frame.current_rt->buffers.diffuse) {
glEnable(GL_BLEND);
glBlendEquation(GL_FUNC_ADD);
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
} else {
glActiveTexture(GL_TEXTURE2);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->buffers.diffuse);
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}
_copy_screen(true);
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if (composite_from != storage->frame.current_rt->buffers.diffuse) {
glDisable(GL_BLEND);
}
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_NEAR_BLUR, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_NEAR_FIRST_TAP, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_NEAR_BLUR_MERGE, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_LOW, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_MEDIUM, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::DOF_QUALITY_HIGH, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::USE_ORTHOGONAL_PROJECTION, false);
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composite_from = storage->frame.current_rt->effects.mip_maps[0].color;
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}
if (env->dof_blur_near_enabled || env->dof_blur_far_enabled) {
//these needed to disable filtering, reenamble
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[0].color);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
}
if (env->auto_exposure) {
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//compute auto exposure
//first step, copy from image to luminance buffer
state.exposure_shader.set_conditional(ExposureShaderGLES3::EXPOSURE_BEGIN, true);
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state.exposure_shader.bind();
int ss[2] = {
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storage->frame.current_rt->width,
storage->frame.current_rt->height,
};
int ds[2] = {
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exposure_shrink_size,
exposure_shrink_size,
};
glUniform2iv(state.exposure_shader.get_uniform(ExposureShaderGLES3::SOURCE_RENDER_SIZE), 1, ss);
glUniform2iv(state.exposure_shader.get_uniform(ExposureShaderGLES3::TARGET_SIZE), 1, ds);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, composite_from);
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glBindFramebuffer(GL_FRAMEBUFFER, exposure_shrink[0].fbo);
glViewport(0, 0, exposure_shrink_size, exposure_shrink_size);
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_copy_screen(true);
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//second step, shrink to 2x2 pixels
state.exposure_shader.set_conditional(ExposureShaderGLES3::EXPOSURE_BEGIN, false);
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state.exposure_shader.bind();
//shrink from second to previous to last level
int s_size = exposure_shrink_size / 3;
for (int i = 1; i < exposure_shrink.size() - 1; i++) {
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glBindFramebuffer(GL_FRAMEBUFFER, exposure_shrink[i].fbo);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, exposure_shrink[i - 1].color);
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_copy_screen();
glViewport(0, 0, s_size, s_size);
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s_size /= 3;
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}
//third step, shrink to 1x1 pixel taking in consideration the previous exposure
state.exposure_shader.set_conditional(ExposureShaderGLES3::EXPOSURE_END, true);
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uint64_t tick = OS::get_singleton()->get_ticks_usec();
uint64_t tick_diff = storage->frame.current_rt->last_exposure_tick == 0 ? 0 : tick - storage->frame.current_rt->last_exposure_tick;
storage->frame.current_rt->last_exposure_tick = tick;
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if (tick_diff == 0 || tick_diff > 1000000) {
state.exposure_shader.set_conditional(ExposureShaderGLES3::EXPOSURE_FORCE_SET, true);
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}
state.exposure_shader.bind();
glBindFramebuffer(GL_FRAMEBUFFER, exposure_shrink[exposure_shrink.size() - 1].fbo);
glViewport(0, 0, 1, 1);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, exposure_shrink[exposure_shrink.size() - 2].color);
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glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->exposure.color); //read from previous
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state.exposure_shader.set_uniform(ExposureShaderGLES3::EXPOSURE_ADJUST, env->auto_exposure_speed * (tick_diff / 1000000.0));
state.exposure_shader.set_uniform(ExposureShaderGLES3::MAX_LUMINANCE, env->auto_exposure_max);
state.exposure_shader.set_uniform(ExposureShaderGLES3::MIN_LUMINANCE, env->auto_exposure_min);
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_copy_screen(true);
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state.exposure_shader.set_conditional(ExposureShaderGLES3::EXPOSURE_FORCE_SET, false);
state.exposure_shader.set_conditional(ExposureShaderGLES3::EXPOSURE_END, false);
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//last step, swap with the framebuffer exposure, so the right exposure is kept int he framebuffer
SWAP(exposure_shrink[exposure_shrink.size() - 1].fbo, storage->frame.current_rt->exposure.fbo);
SWAP(exposure_shrink[exposure_shrink.size() - 1].color, storage->frame.current_rt->exposure.color);
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glViewport(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height);
VisualServerRaster::redraw_request(); //if using auto exposure, redraw must happen
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}
int max_glow_level = -1;
int glow_mask = 0;
if (env->glow_enabled) {
for (int i = 0; i < VS::MAX_GLOW_LEVELS; i++) {
if (env->glow_levels & (1 << i)) {
if (i >= storage->frame.current_rt->effects.mip_maps[1].sizes.size()) {
max_glow_level = storage->frame.current_rt->effects.mip_maps[1].sizes.size() - 1;
glow_mask |= 1 << max_glow_level;
} else {
max_glow_level = i;
glow_mask |= (1 << i);
}
}
}
//blur diffuse into effect mipmaps using separatable convolution
//storage->shaders.copy.set_conditional(CopyShaderGLES3::GAUSSIAN_HORIZONTAL,true);
for (int i = 0; i < (max_glow_level + 1); i++) {
int vp_w = storage->frame.current_rt->effects.mip_maps[1].sizes[i].width;
int vp_h = storage->frame.current_rt->effects.mip_maps[1].sizes[i].height;
glViewport(0, 0, vp_w, vp_h);
//horizontal pass
if (i == 0) {
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GLOW_FIRST_PASS, true);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GLOW_USE_AUTO_EXPOSURE, env->auto_exposure);
}
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GLOW_GAUSSIAN_HORIZONTAL, true);
state.effect_blur_shader.bind();
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::PIXEL_SIZE, Vector2(1.0 / vp_w, 1.0 / vp_h));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::LOD, float(i));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::GLOW_STRENGTH, env->glow_strength);
glActiveTexture(GL_TEXTURE0);
if (i == 0) {
glBindTexture(GL_TEXTURE_2D, composite_from);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::EXPOSURE, env->tone_mapper_exposure);
if (env->auto_exposure) {
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::AUTO_EXPOSURE_GREY, env->auto_exposure_grey);
}
glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->exposure.color);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::GLOW_BLOOM, env->glow_bloom);
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state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::GLOW_HDR_THRESHOLD, env->glow_hdr_bleed_threshold);
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::GLOW_HDR_SCALE, env->glow_hdr_bleed_scale);
} else {
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[0].color); //previous level, since mipmaps[0] starts one level bigger
}
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[1].sizes[i].fbo);
_copy_screen(true);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GLOW_GAUSSIAN_HORIZONTAL, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GLOW_FIRST_PASS, false);
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GLOW_USE_AUTO_EXPOSURE, false);
//vertical pass
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GLOW_GAUSSIAN_VERTICAL, true);
state.effect_blur_shader.bind();
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::PIXEL_SIZE, Vector2(1.0 / vp_w, 1.0 / vp_h));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::LOD, float(i));
state.effect_blur_shader.set_uniform(EffectBlurShaderGLES3::GLOW_STRENGTH, env->glow_strength);
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[1].color);
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[i + 1].fbo); //next level, since mipmaps[0] starts one level bigger
_copy_screen();
state.effect_blur_shader.set_conditional(EffectBlurShaderGLES3::GLOW_GAUSSIAN_VERTICAL, false);
}
glViewport(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height);
}
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->fbo);
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glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, composite_from);
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state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_FILMIC_TONEMAPPER, env->tone_mapper == VS::ENV_TONE_MAPPER_FILMIC);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_ACES_TONEMAPPER, env->tone_mapper == VS::ENV_TONE_MAPPER_ACES);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_REINDHART_TONEMAPPER, env->tone_mapper == VS::ENV_TONE_MAPPER_REINHARDT);
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state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_AUTO_EXPOSURE, env->auto_exposure);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_FILTER_BICUBIC, env->glow_bicubic_upscale);
if (max_glow_level >= 0) {
for (int i = 0; i < (max_glow_level + 1); i++) {
if (glow_mask & (1 << i)) {
if (i == 0) {
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL1, true);
}
if (i == 1) {
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL2, true);
}
if (i == 2) {
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL3, true);
}
if (i == 3) {
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL4, true);
}
if (i == 4) {
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL5, true);
}
if (i == 5) {
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL6, true);
}
if (i == 6) {
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL7, true);
}
}
}
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_SCREEN, env->glow_blend_mode == VS::GLOW_BLEND_MODE_SCREEN);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_SOFTLIGHT, env->glow_blend_mode == VS::GLOW_BLEND_MODE_SOFTLIGHT);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_REPLACE, env->glow_blend_mode == VS::GLOW_BLEND_MODE_REPLACE);
glActiveTexture(GL_TEXTURE2);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[0].color);
}
if (env->adjustments_enabled) {
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_BCS, true);
RasterizerStorageGLES3::Texture *tex = storage->texture_owner.getornull(env->color_correction);
if (tex) {
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_COLOR_CORRECTION, true);
glActiveTexture(GL_TEXTURE3);
glBindTexture(tex->target, tex->tex_id);
}
}
state.tonemap_shader.set_conditional(TonemapShaderGLES3::V_FLIP, storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_VFLIP]);
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state.tonemap_shader.bind();
state.tonemap_shader.set_uniform(TonemapShaderGLES3::EXPOSURE, env->tone_mapper_exposure);
state.tonemap_shader.set_uniform(TonemapShaderGLES3::WHITE, env->tone_mapper_exposure_white);
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if (max_glow_level >= 0) {
state.tonemap_shader.set_uniform(TonemapShaderGLES3::GLOW_INTENSITY, env->glow_intensity);
int ss[2] = {
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storage->frame.current_rt->width,
storage->frame.current_rt->height,
};
glUniform2iv(state.tonemap_shader.get_uniform(TonemapShaderGLES3::GLOW_TEXTURE_SIZE), 1, ss);
}
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if (env->auto_exposure) {
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glActiveTexture(GL_TEXTURE1);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->exposure.color);
state.tonemap_shader.set_uniform(TonemapShaderGLES3::AUTO_EXPOSURE_GREY, env->auto_exposure_grey);
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}
if (env->adjustments_enabled) {
state.tonemap_shader.set_uniform(TonemapShaderGLES3::BCS, Vector3(env->adjustments_brightness, env->adjustments_contrast, env->adjustments_saturation));
}
_copy_screen(true, true);
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//turn off everything used
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_AUTO_EXPOSURE, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_FILMIC_TONEMAPPER, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_ACES_TONEMAPPER, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_REINDHART_TONEMAPPER, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL1, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL2, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL3, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL4, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL5, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL6, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_LEVEL7, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_REPLACE, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_SCREEN, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_SOFTLIGHT, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_GLOW_FILTER_BICUBIC, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_BCS, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::USE_COLOR_CORRECTION, false);
state.tonemap_shader.set_conditional(TonemapShaderGLES3::V_FLIP, false);
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}
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void RasterizerSceneGLES3::render_scene(const Transform &p_cam_transform, const CameraMatrix &p_cam_projection, bool p_cam_ortogonal, InstanceBase **p_cull_result, int p_cull_count, RID *p_light_cull_result, int p_light_cull_count, RID *p_reflection_probe_cull_result, int p_reflection_probe_cull_count, RID p_environment, RID p_shadow_atlas, RID p_reflection_atlas, RID p_reflection_probe, int p_reflection_probe_pass) {
//first of all, make a new render pass
render_pass++;
//fill up ubo
storage->info.render.object_count += p_cull_count;
Environment *env = environment_owner.getornull(p_environment);
ShadowAtlas *shadow_atlas = shadow_atlas_owner.getornull(p_shadow_atlas);
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ReflectionAtlas *reflection_atlas = reflection_atlas_owner.getornull(p_reflection_atlas);
if (shadow_atlas && shadow_atlas->size) {
glActiveTexture(GL_TEXTURE0 + storage->config.max_texture_image_units - 5);
glBindTexture(GL_TEXTURE_2D, shadow_atlas->depth);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_COMPARE_MODE, GL_COMPARE_REF_TO_TEXTURE);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_COMPARE_FUNC, GL_LESS);
state.ubo_data.shadow_atlas_pixel_size[0] = 1.0 / shadow_atlas->size;
state.ubo_data.shadow_atlas_pixel_size[1] = 1.0 / shadow_atlas->size;
}
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if (reflection_atlas && reflection_atlas->size) {
glActiveTexture(GL_TEXTURE0 + storage->config.max_texture_image_units - 3);
glBindTexture(GL_TEXTURE_2D, reflection_atlas->color);
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}
if (p_reflection_probe.is_valid()) {
state.ubo_data.reflection_multiplier = 0.0;
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} else {
state.ubo_data.reflection_multiplier = 1.0;
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}
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state.ubo_data.subsurface_scatter_width = subsurface_scatter_size;
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state.ubo_data.z_offset = 0;
state.ubo_data.z_slope_scale = 0;
state.ubo_data.shadow_dual_paraboloid_render_side = 0;
state.ubo_data.shadow_dual_paraboloid_render_zfar = 0;
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if (storage->frame.current_rt) {
state.ubo_data.screen_pixel_size[0] = 1.0 / storage->frame.current_rt->width;
state.ubo_data.screen_pixel_size[1] = 1.0 / storage->frame.current_rt->height;
}
_setup_environment(env, p_cam_projection, p_cam_transform);
bool fb_cleared = false;
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glDepthFunc(GL_LEQUAL);
state.used_contact_shadows = true;
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if (!storage->config.no_depth_prepass && storage->frame.current_rt && state.debug_draw != VS::VIEWPORT_DEBUG_DRAW_OVERDRAW) { //detect with state.used_contact_shadows too
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//pre z pass
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glDisable(GL_BLEND);
glDepthMask(GL_TRUE);
glEnable(GL_DEPTH_TEST);
glDisable(GL_SCISSOR_TEST);
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
glDrawBuffers(0, NULL);
glViewport(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height);
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glColorMask(0, 0, 0, 0);
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glClearDepth(1.0f);
glClear(GL_DEPTH_BUFFER_BIT | GL_STENCIL_BUFFER_BIT);
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render_list.clear();
_fill_render_list(p_cull_result, p_cull_count, true);
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render_list.sort_by_depth(false);
state.scene_shader.set_conditional(SceneShaderGLES3::RENDER_DEPTH, true);
_render_list(render_list.elements, render_list.element_count, p_cam_transform, p_cam_projection, 0, false, false, true, false, false);
state.scene_shader.set_conditional(SceneShaderGLES3::RENDER_DEPTH, false);
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glColorMask(1, 1, 1, 1);
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if (state.used_contact_shadows) {
glBindFramebuffer(GL_READ_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
glReadBuffer(GL_COLOR_ATTACHMENT0);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, storage->frame.current_rt->fbo);
glBlitFramebuffer(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, 0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, GL_DEPTH_BUFFER_BIT, GL_NEAREST);
glBindFramebuffer(GL_READ_FRAMEBUFFER, 0);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, 0);
//bind depth for read
glActiveTexture(GL_TEXTURE0 + storage->config.max_texture_image_units - 8);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->depth);
}
fb_cleared = true;
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render_pass++;
state.using_contact_shadows = true;
} else {
state.using_contact_shadows = false;
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}
_setup_lights(p_light_cull_result, p_light_cull_count, p_cam_transform.affine_inverse(), p_cam_projection, p_shadow_atlas);
_setup_reflections(p_reflection_probe_cull_result, p_reflection_probe_cull_count, p_cam_transform.affine_inverse(), p_cam_projection, p_reflection_atlas, env);
render_list.clear();
bool use_mrt = false;
_fill_render_list(p_cull_result, p_cull_count, false);
//
glEnable(GL_BLEND);
glDepthMask(GL_TRUE);
glEnable(GL_DEPTH_TEST);
glDisable(GL_SCISSOR_TEST);
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//rendering to a probe cubemap side
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ReflectionProbeInstance *probe = reflection_probe_instance_owner.getornull(p_reflection_probe);
GLuint current_fbo;
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if (probe) {
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ReflectionAtlas *ref_atlas = reflection_atlas_owner.getptr(probe->atlas);
ERR_FAIL_COND(!ref_atlas);
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int target_size = ref_atlas->size / ref_atlas->subdiv;
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int cubemap_index = reflection_cubemaps.size() - 1;
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for (int i = reflection_cubemaps.size() - 1; i >= 0; i--) {
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//find appropriate cubemap to render to
if (reflection_cubemaps[i].size > target_size * 2)
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break;
cubemap_index = i;
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}
current_fbo = reflection_cubemaps[cubemap_index].fbo_id[p_reflection_probe_pass];
use_mrt = false;
state.scene_shader.set_conditional(SceneShaderGLES3::USE_MULTIPLE_RENDER_TARGETS, false);
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glViewport(0, 0, reflection_cubemaps[cubemap_index].size, reflection_cubemaps[cubemap_index].size);
glBindFramebuffer(GL_FRAMEBUFFER, current_fbo);
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} else {
use_mrt = env && (state.used_sss || env->ssao_enabled || env->ssr_enabled); //only enable MRT rendering if any of these is enabled
//effects disabled and transparency also prevent using MRTs
use_mrt = use_mrt && !storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_TRANSPARENT];
use_mrt = use_mrt && !storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_NO_3D_EFFECTS];
use_mrt = use_mrt && state.debug_draw != VS::VIEWPORT_DEBUG_DRAW_OVERDRAW;
use_mrt = use_mrt && env && (env->bg_mode != VS::ENV_BG_KEEP && env->bg_mode != VS::ENV_BG_CANVAS);
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glViewport(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height);
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if (use_mrt) {
current_fbo = storage->frame.current_rt->buffers.fbo;
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glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_MULTIPLE_RENDER_TARGETS, true);
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Vector<GLenum> draw_buffers;
draw_buffers.push_back(GL_COLOR_ATTACHMENT0);
draw_buffers.push_back(GL_COLOR_ATTACHMENT1);
draw_buffers.push_back(GL_COLOR_ATTACHMENT2);
if (state.used_sss) {
draw_buffers.push_back(GL_COLOR_ATTACHMENT3);
}
glDrawBuffers(draw_buffers.size(), draw_buffers.ptr());
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Color black(0, 0, 0, 0);
glClearBufferfv(GL_COLOR, 1, black.components); // specular
glClearBufferfv(GL_COLOR, 2, black.components); // normal metal rough
if (state.used_sss) {
glClearBufferfv(GL_COLOR, 3, black.components); // normal metal rough
}
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} else {
if (storage->frame.current_rt->buffers.active) {
current_fbo = storage->frame.current_rt->buffers.fbo;
} else {
current_fbo = storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo;
}
glBindFramebuffer(GL_FRAMEBUFFER, current_fbo);
state.scene_shader.set_conditional(SceneShaderGLES3::USE_MULTIPLE_RENDER_TARGETS, false);
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Vector<GLenum> draw_buffers;
draw_buffers.push_back(GL_COLOR_ATTACHMENT0);
glDrawBuffers(draw_buffers.size(), draw_buffers.ptr());
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}
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}
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if (!fb_cleared) {
glClearBufferfi(GL_DEPTH_STENCIL, 0, 1.0, 0);
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}
Color clear_color(0, 0, 0, 0);
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RasterizerStorageGLES3::Sky *sky = NULL;
GLuint env_radiance_tex = 0;
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if (state.debug_draw == VS::VIEWPORT_DEBUG_DRAW_OVERDRAW) {
clear_color = Color(0, 0, 0, 0);
storage->frame.clear_request = false;
} else if (!probe && storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_TRANSPARENT]) {
clear_color = Color(0, 0, 0, 0);
storage->frame.clear_request = false;
} else if (!env || env->bg_mode == VS::ENV_BG_CLEAR_COLOR) {
if (storage->frame.clear_request) {
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clear_color = storage->frame.clear_request_color.to_linear();
storage->frame.clear_request = false;
}
} else if (env->bg_mode == VS::ENV_BG_CANVAS) {
clear_color = env->bg_color.to_linear();
storage->frame.clear_request = false;
} else if (env->bg_mode == VS::ENV_BG_COLOR) {
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clear_color = env->bg_color.to_linear();
storage->frame.clear_request = false;
} else if (env->bg_mode == VS::ENV_BG_SKY || env->bg_mode == VS::ENV_BG_COLOR_SKY) {
sky = storage->sky_owner.getornull(env->sky);
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if (sky) {
env_radiance_tex = sky->radiance;
}
storage->frame.clear_request = false;
if (env->bg_mode == VS::ENV_BG_COLOR_SKY) {
clear_color = env->bg_color.to_linear();
}
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} else {
storage->frame.clear_request = false;
}
if (!env || env->bg_mode != VS::ENV_BG_KEEP) {
glClearBufferfv(GL_COLOR, 0, clear_color.components); // specular
}
if (env && env->bg_mode == VS::ENV_BG_CANVAS) {
//copy canvas to 3d buffer and convert it to linear
glDisable(GL_BLEND);
glDepthMask(GL_FALSE);
glDisable(GL_DEPTH_TEST);
glDisable(GL_CULL_FACE);
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->color);
storage->shaders.copy.set_conditional(CopyShaderGLES3::DISABLE_ALPHA, true);
storage->shaders.copy.set_conditional(CopyShaderGLES3::SRGB_TO_LINEAR, true);
storage->shaders.copy.bind();
_copy_screen(true, true);
//turn off everything used
storage->shaders.copy.set_conditional(CopyShaderGLES3::SRGB_TO_LINEAR, false);
storage->shaders.copy.set_conditional(CopyShaderGLES3::DISABLE_ALPHA, false);
//restore
glEnable(GL_BLEND);
glDepthMask(GL_TRUE);
glEnable(GL_DEPTH_TEST);
glEnable(GL_CULL_FACE);
}
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state.texscreen_copied = false;
glBlendEquation(GL_FUNC_ADD);
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if (storage->frame.current_rt && storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_TRANSPARENT]) {
glBlendFuncSeparate(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA, GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
glEnable(GL_BLEND);
} else {
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
glDisable(GL_BLEND);
}
render_list.sort_by_key(false);
if (state.directional_light_count == 0) {
directional_light = NULL;
_render_list(render_list.elements, render_list.element_count, p_cam_transform, p_cam_projection, env_radiance_tex, false, false, false, false, shadow_atlas != NULL);
} else {
for (int i = 0; i < state.directional_light_count; i++) {
directional_light = directional_lights[i];
if (i > 0) {
glEnable(GL_BLEND);
}
_setup_directional_light(i, p_cam_transform.affine_inverse(), shadow_atlas != NULL);
_render_list(render_list.elements, render_list.element_count, p_cam_transform, p_cam_projection, env_radiance_tex, false, false, false, i > 0, shadow_atlas != NULL);
}
}
state.scene_shader.set_conditional(SceneShaderGLES3::USE_MULTIPLE_RENDER_TARGETS, false);
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if (use_mrt) {
GLenum gldb = GL_COLOR_ATTACHMENT0;
glDrawBuffers(1, &gldb);
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}
if (env && env->bg_mode == VS::ENV_BG_SKY && (!storage->frame.current_rt || (!storage->frame.current_rt->flags[RasterizerStorage::RENDER_TARGET_TRANSPARENT] && state.debug_draw != VS::VIEWPORT_DEBUG_DRAW_OVERDRAW))) {
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/*
if (use_mrt) {
glBindFramebuffer(GL_FRAMEBUFFER,storage->frame.current_rt->buffers.fbo); //switch to alpha fbo for sky, only diffuse/ambient matters
*/
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_draw_sky(sky, p_cam_projection, p_cam_transform, false, env->sky_scale, env->bg_energy);
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}
//_render_list_forward(&alpha_render_list,camera_transform,camera_transform_inverse,camera_projection,false,fragment_lighting,true);
//glColorMask(1,1,1,1);
//state.scene_shader.set_conditional( SceneShaderGLES3::USE_FOG,false);
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if (use_mrt) {
_render_mrts(env, p_cam_projection);
} else {
//FIXME: check that this is possible to use
if (storage->frame.current_rt && storage->frame.current_rt->buffers.active && state.used_screen_texture) {
glBindFramebuffer(GL_READ_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
glReadBuffer(GL_COLOR_ATTACHMENT0);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, storage->frame.current_rt->effects.mip_maps[0].sizes[0].fbo);
glBlitFramebuffer(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, 0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height, GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT, GL_NEAREST);
glBindFramebuffer(GL_READ_FRAMEBUFFER, 0);
glBindFramebuffer(GL_DRAW_FRAMEBUFFER, 0);
_blur_effect_buffer();
//restored framebuffer
glBindFramebuffer(GL_FRAMEBUFFER, storage->frame.current_rt->buffers.fbo);
glViewport(0, 0, storage->frame.current_rt->width, storage->frame.current_rt->height);
}
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}
if (storage->frame.current_rt && state.used_screen_texture && storage->frame.current_rt->buffers.active) {
glActiveTexture(GL_TEXTURE0 + storage->config.max_texture_image_units - 7);
glBindTexture(GL_TEXTURE_2D, storage->frame.current_rt->effects.mip_maps[0].color);
}
glEnable(GL_BLEND);
glDepthMask(GL_TRUE);
glEnable(GL_DEPTH_TEST);
glDisable(GL_SCISSOR_TEST);
render_list.sort_by_reverse_depth_and_priority(true);
if (state.directional_light_count == 0) {
directional_light = NULL;
_render_list(&render_list.elements[render_list.max_elements - render_list.alpha_element_count], render_list.alpha_element_count, p_cam_transform, p_cam_projection, env_radiance_tex, false, true, false, false, shadow_atlas != NULL);
} else {
for (int i = 0; i < state.directional_light_count; i++) {
directional_light = directional_lights[i];
_setup_directional_light(i, p_cam_transform.affine_inverse(), shadow_atlas != NULL);
_render_list(&render_list.elements[render_list.max_elements - render_list.alpha_element_count], render_list.alpha_element_count, p_cam_transform, p_cam_projection, env_radiance_tex, false, true, false, i > 0, shadow_atlas != NULL);
}
}
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if (probe) {
//rendering a probe, do no more!
return;
}
_post_process(env, p_cam_projection);
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if (false && shadow_atlas) {
//_copy_texture_to_front_buffer(shadow_atlas->depth);
storage->canvas->canvas_begin();
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, shadow_atlas->depth);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_COMPARE_MODE, GL_NONE);
storage->canvas->draw_generic_textured_rect(Rect2(0, 0, storage->frame.current_rt->width / 2, storage->frame.current_rt->height / 2), Rect2(0, 0, 1, 1));
}
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if (false && storage->frame.current_rt) {
//_copy_texture_to_front_buffer(shadow_atlas->depth);
storage->canvas->canvas_begin();
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, exposure_shrink[4].color);
//glBindTexture(GL_TEXTURE_2D,storage->frame.current_rt->exposure.color);
storage->canvas->draw_generic_textured_rect(Rect2(0, 0, storage->frame.current_rt->width / 16, storage->frame.current_rt->height / 16), Rect2(0, 0, 1, 1));
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}
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if (false && reflection_atlas && storage->frame.current_rt) {
//_copy_texture_to_front_buffer(shadow_atlas->depth);
storage->canvas->canvas_begin();
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, reflection_atlas->color);
storage->canvas->draw_generic_textured_rect(Rect2(0, 0, storage->frame.current_rt->width / 2, storage->frame.current_rt->height / 2), Rect2(0, 0, 1, 1));
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}
if (false && directional_shadow.fbo) {
//_copy_texture_to_front_buffer(shadow_atlas->depth);
storage->canvas->canvas_begin();
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, directional_shadow.depth);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_COMPARE_MODE, GL_NONE);
storage->canvas->draw_generic_textured_rect(Rect2(0, 0, storage->frame.current_rt->width / 2, storage->frame.current_rt->height / 2), Rect2(0, 0, 1, 1));
}
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if (false && env_radiance_tex) {
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//_copy_texture_to_front_buffer(shadow_atlas->depth);
storage->canvas->canvas_begin();
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, env_radiance_tex);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
storage->canvas->draw_generic_textured_rect(Rect2(0, 0, storage->frame.current_rt->width / 2, storage->frame.current_rt->height / 2), Rect2(0, 0, 1, 1));
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
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}
//disable all stuff
}
void RasterizerSceneGLES3::render_shadow(RID p_light, RID p_shadow_atlas, int p_pass, InstanceBase **p_cull_result, int p_cull_count) {
render_pass++;
directional_light = NULL;
LightInstance *light_instance = light_instance_owner.getornull(p_light);
ERR_FAIL_COND(!light_instance);
RasterizerStorageGLES3::Light *light = storage->light_owner.getornull(light_instance->light);
ERR_FAIL_COND(!light);
uint32_t x, y, width, height, vp_height;
float dp_direction = 0.0;
float zfar = 0;
bool flip_facing = false;
int custom_vp_size = 0;
GLuint fbo;
int current_cubemap = -1;
float bias = 0;
float normal_bias = 0;
state.using_contact_shadows = false;
CameraMatrix light_projection;
Transform light_transform;
if (light->type == VS::LIGHT_DIRECTIONAL) {
//set pssm stuff
if (light_instance->last_scene_shadow_pass != scene_pass) {
//assign rect if unassigned
light_instance->light_directional_index = directional_shadow.current_light;
light_instance->last_scene_shadow_pass = scene_pass;
directional_shadow.current_light++;
if (directional_shadow.light_count == 1) {
light_instance->directional_rect = Rect2(0, 0, directional_shadow.size, directional_shadow.size);
} else if (directional_shadow.light_count == 2) {
light_instance->directional_rect = Rect2(0, 0, directional_shadow.size, directional_shadow.size / 2);
if (light_instance->light_directional_index == 1) {
light_instance->directional_rect.position.x += light_instance->directional_rect.size.x;
}
} else { //3 and 4
light_instance->directional_rect = Rect2(0, 0, directional_shadow.size / 2, directional_shadow.size / 2);
if (light_instance->light_directional_index & 1) {
light_instance->directional_rect.position.x += light_instance->directional_rect.size.x;
}
if (light_instance->light_directional_index / 2) {
light_instance->directional_rect.position.y += light_instance->directional_rect.size.y;
}
}
}
light_projection = light_instance->shadow_transform[p_pass].camera;
light_transform = light_instance->shadow_transform[p_pass].transform;
x = light_instance->directional_rect.position.x;
y = light_instance->directional_rect.position.y;
width = light_instance->directional_rect.size.x;
height = light_instance->directional_rect.size.y;
if (light->directional_shadow_mode == VS::LIGHT_DIRECTIONAL_SHADOW_PARALLEL_4_SPLITS) {
width /= 2;
height /= 2;
if (p_pass == 0) {
} else if (p_pass == 1) {
x += width;
} else if (p_pass == 2) {
y += height;
} else if (p_pass == 3) {
x += width;
y += height;
}
} else if (light->directional_shadow_mode == VS::LIGHT_DIRECTIONAL_SHADOW_PARALLEL_2_SPLITS) {
height /= 2;
if (p_pass == 0) {
} else {
y += height;
}
}
float bias_mult = Math::lerp(1.0f, light_instance->shadow_transform[p_pass].bias_scale, light->param[VS::LIGHT_PARAM_SHADOW_BIAS_SPLIT_SCALE]);
zfar = light->param[VS::LIGHT_PARAM_RANGE];
bias = light->param[VS::LIGHT_PARAM_SHADOW_BIAS] * bias_mult;
normal_bias = light->param[VS::LIGHT_PARAM_SHADOW_NORMAL_BIAS] * bias_mult;
fbo = directional_shadow.fbo;
vp_height = directional_shadow.size;
} else {
//set from shadow atlas
ShadowAtlas *shadow_atlas = shadow_atlas_owner.getornull(p_shadow_atlas);
ERR_FAIL_COND(!shadow_atlas);
ERR_FAIL_COND(!shadow_atlas->shadow_owners.has(p_light));
fbo = shadow_atlas->fbo;
vp_height = shadow_atlas->size;
uint32_t key = shadow_atlas->shadow_owners[p_light];
uint32_t quadrant = (key >> ShadowAtlas::QUADRANT_SHIFT) & 0x3;
uint32_t shadow = key & ShadowAtlas::SHADOW_INDEX_MASK;
ERR_FAIL_INDEX((int)shadow, shadow_atlas->quadrants[quadrant].shadows.size());
uint32_t quadrant_size = shadow_atlas->size >> 1;
x = (quadrant & 1) * quadrant_size;
y = (quadrant >> 1) * quadrant_size;
uint32_t shadow_size = (quadrant_size / shadow_atlas->quadrants[quadrant].subdivision);
x += (shadow % shadow_atlas->quadrants[quadrant].subdivision) * shadow_size;
y += (shadow / shadow_atlas->quadrants[quadrant].subdivision) * shadow_size;
width = shadow_size;
height = shadow_size;
if (light->type == VS::LIGHT_OMNI) {
if (light->omni_shadow_mode == VS::LIGHT_OMNI_SHADOW_CUBE) {
int cubemap_index = shadow_cubemaps.size() - 1;
for (int i = shadow_cubemaps.size() - 1; i >= 0; i--) {
//find appropriate cubemap to render to
if (shadow_cubemaps[i].size > shadow_size * 2)
break;
cubemap_index = i;
}
fbo = shadow_cubemaps[cubemap_index].fbo_id[p_pass];
light_projection = light_instance->shadow_transform[0].camera;
light_transform = light_instance->shadow_transform[0].transform;
custom_vp_size = shadow_cubemaps[cubemap_index].size;
zfar = light->param[VS::LIGHT_PARAM_RANGE];
current_cubemap = cubemap_index;
} else {
light_projection = light_instance->shadow_transform[0].camera;
light_transform = light_instance->shadow_transform[0].transform;
if (light->omni_shadow_detail == VS::LIGHT_OMNI_SHADOW_DETAIL_HORIZONTAL) {
height /= 2;
y += p_pass * height;
} else {
width /= 2;
x += p_pass * width;
}
dp_direction = p_pass == 0 ? 1.0 : -1.0;
flip_facing = (p_pass == 1);
zfar = light->param[VS::LIGHT_PARAM_RANGE];
bias = light->param[VS::LIGHT_PARAM_SHADOW_BIAS];
state.scene_shader.set_conditional(SceneShaderGLES3::RENDER_DEPTH_DUAL_PARABOLOID, true);
}
} else if (light->type == VS::LIGHT_SPOT) {
light_projection = light_instance->shadow_transform[0].camera;
light_transform = light_instance->shadow_transform[0].transform;
dp_direction = 1.0;
flip_facing = false;
zfar = light->param[VS::LIGHT_PARAM_RANGE];
bias = light->param[VS::LIGHT_PARAM_SHADOW_BIAS];
normal_bias = light->param[VS::LIGHT_PARAM_SHADOW_NORMAL_BIAS];
}
}
//todo hacer que se redibuje cuando corresponde
render_list.clear();
_fill_render_list(p_cull_result, p_cull_count, true);
render_list.sort_by_depth(false); //shadow is front to back for performance
glDisable(GL_BLEND);
glDisable(GL_DITHER);
glEnable(GL_DEPTH_TEST);
glBindFramebuffer(GL_FRAMEBUFFER, fbo);
glDepthMask(true);
glColorMask(0, 0, 0, 0);
if (custom_vp_size) {
glViewport(0, 0, custom_vp_size, custom_vp_size);
glScissor(0, 0, custom_vp_size, custom_vp_size);
} else {
glViewport(x, y, width, height);
glScissor(x, y, width, height);
}
glEnable(GL_SCISSOR_TEST);
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glClearDepth(1.0f);
glClear(GL_DEPTH_BUFFER_BIT);
glDisable(GL_SCISSOR_TEST);
state.ubo_data.z_offset = bias;
state.ubo_data.z_slope_scale = normal_bias;
state.ubo_data.shadow_dual_paraboloid_render_side = dp_direction;
state.ubo_data.shadow_dual_paraboloid_render_zfar = zfar;
_setup_environment(NULL, light_projection, light_transform);
state.scene_shader.set_conditional(SceneShaderGLES3::RENDER_DEPTH, true);
if (light->reverse_cull) {
flip_facing = !flip_facing;
}
_render_list(render_list.elements, render_list.element_count, light_transform, light_projection, 0, flip_facing, false, true, false, false);
state.scene_shader.set_conditional(SceneShaderGLES3::RENDER_DEPTH, false);
state.scene_shader.set_conditional(SceneShaderGLES3::RENDER_DEPTH_DUAL_PARABOLOID, false);
if (light->type == VS::LIGHT_OMNI && light->omni_shadow_mode == VS::LIGHT_OMNI_SHADOW_CUBE && p_pass == 5) {
//convert the chosen cubemap to dual paraboloid!
ShadowAtlas *shadow_atlas = shadow_atlas_owner.getornull(p_shadow_atlas);
glBindFramebuffer(GL_FRAMEBUFFER, shadow_atlas->fbo);
state.cube_to_dp_shader.bind();
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_CUBE_MAP, shadow_cubemaps[current_cubemap].cubemap);
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_COMPARE_MODE, GL_NONE);
glDisable(GL_CULL_FACE);
for (int i = 0; i < 2; i++) {
state.cube_to_dp_shader.set_uniform(CubeToDpShaderGLES3::Z_FLIP, i == 1);
state.cube_to_dp_shader.set_uniform(CubeToDpShaderGLES3::Z_NEAR, light_projection.get_z_near());
state.cube_to_dp_shader.set_uniform(CubeToDpShaderGLES3::Z_FAR, light_projection.get_z_far());
state.cube_to_dp_shader.set_uniform(CubeToDpShaderGLES3::BIAS, light->param[VS::LIGHT_PARAM_SHADOW_BIAS]);
uint32_t local_width = width, local_height = height;
uint32_t local_x = x, local_y = y;
if (light->omni_shadow_detail == VS::LIGHT_OMNI_SHADOW_DETAIL_HORIZONTAL) {
local_height /= 2;
local_y += i * local_height;
} else {
local_width /= 2;
local_x += i * local_width;
}
glViewport(local_x, local_y, local_width, local_height);
glScissor(local_x, local_y, local_width, local_height);
glEnable(GL_SCISSOR_TEST);
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glClearDepth(1.0f);
glClear(GL_DEPTH_BUFFER_BIT);
glDisable(GL_SCISSOR_TEST);
//glDisable(GL_DEPTH_TEST);
glDisable(GL_BLEND);
_copy_screen();
}
}
glColorMask(1, 1, 1, 1);
}
void RasterizerSceneGLES3::set_scene_pass(uint64_t p_pass) {
scene_pass = p_pass;
}
bool RasterizerSceneGLES3::free(RID p_rid) {
if (light_instance_owner.owns(p_rid)) {
LightInstance *light_instance = light_instance_owner.getptr(p_rid);
//remove from shadow atlases..
for (Set<RID>::Element *E = light_instance->shadow_atlases.front(); E; E = E->next()) {
ShadowAtlas *shadow_atlas = shadow_atlas_owner.get(E->get());
ERR_CONTINUE(!shadow_atlas->shadow_owners.has(p_rid));
uint32_t key = shadow_atlas->shadow_owners[p_rid];
uint32_t q = (key >> ShadowAtlas::QUADRANT_SHIFT) & 0x3;
uint32_t s = key & ShadowAtlas::SHADOW_INDEX_MASK;
shadow_atlas->quadrants[q].shadows[s].owner = RID();
shadow_atlas->shadow_owners.erase(p_rid);
}
light_instance_owner.free(p_rid);
memdelete(light_instance);
} else if (shadow_atlas_owner.owns(p_rid)) {
ShadowAtlas *shadow_atlas = shadow_atlas_owner.get(p_rid);
shadow_atlas_set_size(p_rid, 0);
shadow_atlas_owner.free(p_rid);
memdelete(shadow_atlas);
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} else if (reflection_atlas_owner.owns(p_rid)) {
ReflectionAtlas *reflection_atlas = reflection_atlas_owner.get(p_rid);
reflection_atlas_set_size(p_rid, 0);
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reflection_atlas_owner.free(p_rid);
memdelete(reflection_atlas);
} else if (reflection_probe_instance_owner.owns(p_rid)) {
ReflectionProbeInstance *reflection_instance = reflection_probe_instance_owner.get(p_rid);
reflection_probe_release_atlas_index(p_rid);
reflection_probe_instance_owner.free(p_rid);
memdelete(reflection_instance);
} else {
return false;
}
return true;
}
void RasterizerSceneGLES3::set_debug_draw_mode(VS::ViewportDebugDraw p_debug_draw) {
state.debug_draw = p_debug_draw;
}
void RasterizerSceneGLES3::initialize() {
render_pass = 0;
state.scene_shader.init();
{
//default material and shader
default_shader = storage->shader_create();
storage->shader_set_code(default_shader, "shader_type spatial;\n");
default_material = storage->material_create();
storage->material_set_shader(default_material, default_shader);
default_shader_twosided = storage->shader_create();
default_material_twosided = storage->material_create();
storage->shader_set_code(default_shader_twosided, "shader_type spatial; render_mode cull_disabled;\n");
storage->material_set_shader(default_material_twosided, default_shader_twosided);
}
{
//default material and shader
default_overdraw_shader = storage->shader_create();
storage->shader_set_code(default_overdraw_shader, "shader_type spatial;\nrender_mode blend_add,unshaded;\n void fragment() { ALBEDO=vec3(0.4,0.8,0.8); ALPHA=0.2; }");
default_overdraw_material = storage->material_create();
storage->material_set_shader(default_overdraw_material, default_overdraw_shader);
}
glGenBuffers(1, &state.scene_ubo);
glBindBuffer(GL_UNIFORM_BUFFER, state.scene_ubo);
glBufferData(GL_UNIFORM_BUFFER, sizeof(State::SceneDataUBO), &state.scene_ubo, GL_DYNAMIC_DRAW);
glBindBuffer(GL_UNIFORM_BUFFER, 0);
glGenBuffers(1, &state.env_radiance_ubo);
glBindBuffer(GL_UNIFORM_BUFFER, state.env_radiance_ubo);
glBufferData(GL_UNIFORM_BUFFER, sizeof(State::EnvironmentRadianceUBO), &state.env_radiance_ubo, GL_DYNAMIC_DRAW);
glBindBuffer(GL_UNIFORM_BUFFER, 0);
render_list.max_elements = GLOBAL_DEF("rendering/limits/rendering/max_renderable_elements", (int)RenderList::DEFAULT_MAX_ELEMENTS);
if (render_list.max_elements > 1000000)
render_list.max_elements = 1000000;
if (render_list.max_elements < 1024)
render_list.max_elements = 1024;
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{
//quad buffers
glGenBuffers(1, &state.sky_verts);
glBindBuffer(GL_ARRAY_BUFFER, state.sky_verts);
glBufferData(GL_ARRAY_BUFFER, sizeof(Vector3) * 8, NULL, GL_DYNAMIC_DRAW);
glBindBuffer(GL_ARRAY_BUFFER, 0); //unbind
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glGenVertexArrays(1, &state.sky_array);
glBindVertexArray(state.sky_array);
glBindBuffer(GL_ARRAY_BUFFER, state.sky_verts);
glVertexAttribPointer(VS::ARRAY_VERTEX, 3, GL_FLOAT, GL_FALSE, sizeof(Vector3) * 2, 0);
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glEnableVertexAttribArray(VS::ARRAY_VERTEX);
glVertexAttribPointer(VS::ARRAY_TEX_UV, 3, GL_FLOAT, GL_FALSE, sizeof(Vector3) * 2, ((uint8_t *)NULL) + sizeof(Vector3));
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glEnableVertexAttribArray(VS::ARRAY_TEX_UV);
glBindVertexArray(0);
glBindBuffer(GL_ARRAY_BUFFER, 0); //unbind
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}
render_list.init();
state.cube_to_dp_shader.init();
shadow_atlas_realloc_tolerance_msec = 500;
int max_shadow_cubemap_sampler_size = 512;
int cube_size = max_shadow_cubemap_sampler_size;
glActiveTexture(GL_TEXTURE0);
while (cube_size >= 32) {
ShadowCubeMap cube;
cube.size = cube_size;
glGenTextures(1, &cube.cubemap);
glBindTexture(GL_TEXTURE_CUBE_MAP, cube.cubemap);
//gen cubemap first
for (int i = 0; i < 6; i++) {
glTexImage2D(_cube_side_enum[i], 0, GL_DEPTH_COMPONENT24, cube.size, cube.size, 0, GL_DEPTH_COMPONENT, GL_UNSIGNED_INT, NULL);
}
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
// Remove artifact on the edges of the shadowmap
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_R, GL_CLAMP_TO_EDGE);
//gen renderbuffers second, because it needs a complete cubemap
for (int i = 0; i < 6; i++) {
glGenFramebuffers(1, &cube.fbo_id[i]);
glBindFramebuffer(GL_FRAMEBUFFER, cube.fbo_id[i]);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_DEPTH_ATTACHMENT, _cube_side_enum[i], cube.cubemap, 0);
GLenum status = glCheckFramebufferStatus(GL_FRAMEBUFFER);
ERR_CONTINUE(status != GL_FRAMEBUFFER_COMPLETE);
}
shadow_cubemaps.push_back(cube);
cube_size >>= 1;
}
{
//directional light shadow
directional_shadow.light_count = 0;
directional_shadow.size = next_power_of_2(GLOBAL_GET("rendering/quality/directional_shadow/size"));
glGenFramebuffers(1, &directional_shadow.fbo);
glBindFramebuffer(GL_FRAMEBUFFER, directional_shadow.fbo);
glGenTextures(1, &directional_shadow.depth);
glBindTexture(GL_TEXTURE_2D, directional_shadow.depth);
glTexImage2D(GL_TEXTURE_2D, 0, GL_DEPTH_COMPONENT24, directional_shadow.size, directional_shadow.size, 0, GL_DEPTH_COMPONENT, GL_UNSIGNED_INT, NULL);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_R, GL_CLAMP_TO_EDGE);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_DEPTH_ATTACHMENT, GL_TEXTURE_2D, directional_shadow.depth, 0);
GLenum status = glCheckFramebufferStatus(GL_FRAMEBUFFER);
if (status != GL_FRAMEBUFFER_COMPLETE) {
ERR_PRINT("Directional shadow framebuffer status invalid");
}
}
{
//spot and omni ubos
int max_ubo_size;
glGetIntegerv(GL_MAX_UNIFORM_BLOCK_SIZE, &max_ubo_size);
const int ubo_light_size = 160;
state.ubo_light_size = ubo_light_size;
state.max_ubo_lights = MIN(RenderList::MAX_LIGHTS, max_ubo_size / ubo_light_size);
print_line("GLES3: max ubo light: " + itos(state.max_ubo_lights));
state.spot_array_tmp = (uint8_t *)memalloc(ubo_light_size * state.max_ubo_lights);
state.omni_array_tmp = (uint8_t *)memalloc(ubo_light_size * state.max_ubo_lights);
glGenBuffers(1, &state.spot_array_ubo);
glBindBuffer(GL_UNIFORM_BUFFER, state.spot_array_ubo);
glBufferData(GL_UNIFORM_BUFFER, ubo_light_size * state.max_ubo_lights, NULL, GL_DYNAMIC_DRAW);
glBindBuffer(GL_UNIFORM_BUFFER, 0);
glGenBuffers(1, &state.omni_array_ubo);
glBindBuffer(GL_UNIFORM_BUFFER, state.omni_array_ubo);
glBufferData(GL_UNIFORM_BUFFER, ubo_light_size * state.max_ubo_lights, NULL, GL_DYNAMIC_DRAW);
glBindBuffer(GL_UNIFORM_BUFFER, 0);
glGenBuffers(1, &state.directional_ubo);
glBindBuffer(GL_UNIFORM_BUFFER, state.directional_ubo);
glBufferData(GL_UNIFORM_BUFFER, sizeof(LightDataUBO), NULL, GL_DYNAMIC_DRAW);
glBindBuffer(GL_UNIFORM_BUFFER, 0);
state.max_forward_lights_per_object = 8;
state.scene_shader.add_custom_define("#define MAX_LIGHT_DATA_STRUCTS " + itos(state.max_ubo_lights) + "\n");
state.scene_shader.add_custom_define("#define MAX_FORWARD_LIGHTS " + itos(state.max_forward_lights_per_object) + "\n");
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state.max_ubo_reflections = MIN(RenderList::MAX_REFLECTIONS, max_ubo_size / sizeof(ReflectionProbeDataUBO));
print_line("GLES3: max ubo reflections: " + itos(state.max_ubo_reflections) + ", ubo size: " + itos(sizeof(ReflectionProbeDataUBO)));
state.reflection_array_tmp = (uint8_t *)memalloc(sizeof(ReflectionProbeDataUBO) * state.max_ubo_reflections);
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glGenBuffers(1, &state.reflection_array_ubo);
glBindBuffer(GL_UNIFORM_BUFFER, state.reflection_array_ubo);
glBufferData(GL_UNIFORM_BUFFER, sizeof(ReflectionProbeDataUBO) * state.max_ubo_reflections, NULL, GL_DYNAMIC_DRAW);
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glBindBuffer(GL_UNIFORM_BUFFER, 0);
state.scene_shader.add_custom_define("#define MAX_REFLECTION_DATA_STRUCTS " + itos(state.max_ubo_reflections) + "\n");
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state.max_skeleton_bones = MIN(2048, max_ubo_size / (12 * sizeof(float)));
state.scene_shader.add_custom_define("#define MAX_SKELETON_BONES " + itos(state.max_skeleton_bones) + "\n");
}
shadow_filter_mode = SHADOW_FILTER_NEAREST;
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{ //reflection cubemaps
int max_reflection_cubemap_sampler_size = 512;
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int cube_size = max_reflection_cubemap_sampler_size;
glActiveTexture(GL_TEXTURE0);
bool use_float = true;
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GLenum internal_format = use_float ? GL_RGBA16F : GL_RGB10_A2;
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GLenum format = GL_RGBA;
GLenum type = use_float ? GL_HALF_FLOAT : GL_UNSIGNED_INT_2_10_10_10_REV;
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while (cube_size >= 32) {
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ReflectionCubeMap cube;
cube.size = cube_size;
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glGenTextures(1, &cube.depth);
glBindTexture(GL_TEXTURE_2D, cube.depth);
glTexImage2D(GL_TEXTURE_2D, 0, GL_DEPTH_COMPONENT24, cube.size, cube.size, 0, GL_DEPTH_COMPONENT, GL_UNSIGNED_INT, NULL);
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glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
glGenTextures(1, &cube.cubemap);
glBindTexture(GL_TEXTURE_CUBE_MAP, cube.cubemap);
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//gen cubemap first
for (int i = 0; i < 6; i++) {
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glTexImage2D(_cube_side_enum[i], 0, internal_format, cube.size, cube.size, 0, format, type, NULL);
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}
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
// Remove artifact on the edges of the reflectionmap
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_R, GL_CLAMP_TO_EDGE);
//gen renderbuffers second, because it needs a complete cubemap
for (int i = 0; i < 6; i++) {
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glGenFramebuffers(1, &cube.fbo_id[i]);
glBindFramebuffer(GL_FRAMEBUFFER, cube.fbo_id[i]);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, _cube_side_enum[i], cube.cubemap, 0);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_DEPTH_ATTACHMENT, GL_TEXTURE_2D, cube.depth, 0);
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GLenum status = glCheckFramebufferStatus(GL_FRAMEBUFFER);
ERR_CONTINUE(status != GL_FRAMEBUFFER_COMPLETE);
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}
reflection_cubemaps.push_back(cube);
cube_size >>= 1;
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}
}
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{
uint32_t immediate_buffer_size = GLOBAL_DEF("rendering/limits/buffers/immediate_buffer_size_kb", 2048);
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glGenBuffers(1, &state.immediate_buffer);
glBindBuffer(GL_ARRAY_BUFFER, state.immediate_buffer);
glBufferData(GL_ARRAY_BUFFER, immediate_buffer_size * 1024, NULL, GL_DYNAMIC_DRAW);
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glBindBuffer(GL_ARRAY_BUFFER, 0);
glGenVertexArrays(1, &state.immediate_array);
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}
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#ifdef GLES_OVER_GL
//"desktop" opengl needs this.
glEnable(GL_PROGRAM_POINT_SIZE);
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#endif
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state.resolve_shader.init();
state.ssr_shader.init();
state.effect_blur_shader.init();
state.sss_shader.init();
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state.ssao_minify_shader.init();
state.ssao_shader.init();
state.ssao_blur_shader.init();
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state.exposure_shader.init();
state.tonemap_shader.init();
{
GLOBAL_DEF("rendering/quality/subsurface_scattering/quality", 1);
ProjectSettings::get_singleton()->set_custom_property_info("rendering/quality/subsurface_scattering/quality", PropertyInfo(Variant::INT, "rendering/quality/subsurface_scattering/quality", PROPERTY_HINT_ENUM, "Low,Medium,High"));
GLOBAL_DEF("rendering/quality/subsurface_scattering/scale", 1.0);
ProjectSettings::get_singleton()->set_custom_property_info("rendering/quality/subsurface_scattering/scale", PropertyInfo(Variant::INT, "rendering/quality/subsurface_scattering/scale", PROPERTY_HINT_RANGE, "0.01,8,0.01"));
GLOBAL_DEF("rendering/quality/subsurface_scattering/follow_surface", false);
GLOBAL_DEF("rendering/quality/subsurface_scattering/weight_samples", true);
GLOBAL_DEF("rendering/quality/voxel_cone_tracing/high_quality", true);
}
exposure_shrink_size = 243;
int max_exposure_shrink_size = exposure_shrink_size;
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while (max_exposure_shrink_size > 0) {
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RasterizerStorageGLES3::RenderTarget::Exposure e;
glGenFramebuffers(1, &e.fbo);
glBindFramebuffer(GL_FRAMEBUFFER, e.fbo);
glGenTextures(1, &e.color);
glBindTexture(GL_TEXTURE_2D, e.color);
#ifdef IPHONE_ENABLED
///@TODO ugly hack to get around iOS not supporting 32bit single channel floating point textures...
glTexImage2D(GL_TEXTURE_2D, 0, GL_R16F, max_exposure_shrink_size, max_exposure_shrink_size, 0, GL_RED, GL_FLOAT, NULL);
#else
glTexImage2D(GL_TEXTURE_2D, 0, GL_R32F, max_exposure_shrink_size, max_exposure_shrink_size, 0, GL_RED, GL_FLOAT, NULL);
#endif
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, e.color, 0);
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glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
exposure_shrink.push_back(e);
max_exposure_shrink_size /= 3;
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GLenum status = glCheckFramebufferStatus(GL_FRAMEBUFFER);
ERR_CONTINUE(status != GL_FRAMEBUFFER_COMPLETE);
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}
state.debug_draw = VS::VIEWPORT_DEBUG_DRAW_DISABLED;
}
void RasterizerSceneGLES3::iteration() {
shadow_filter_mode = ShadowFilterMode(int(ProjectSettings::get_singleton()->get("rendering/quality/shadows/filter_mode")));
subsurface_scatter_follow_surface = ProjectSettings::get_singleton()->get("rendering/quality/subsurface_scattering/follow_surface");
subsurface_scatter_weight_samples = ProjectSettings::get_singleton()->get("rendering/quality/subsurface_scattering/weight_samples");
subsurface_scatter_quality = SubSurfaceScatterQuality(int(ProjectSettings::get_singleton()->get("rendering/quality/subsurface_scattering/quality")));
subsurface_scatter_size = ProjectSettings::get_singleton()->get("rendering/quality/subsurface_scattering/scale");
state.scene_shader.set_conditional(SceneShaderGLES3::VCT_QUALITY_HIGH, ProjectSettings::get_singleton()->get("rendering/quality/voxel_cone_tracing/high_quality"));
}
void RasterizerSceneGLES3::finalize() {
}
RasterizerSceneGLES3::RasterizerSceneGLES3() {
}