virtualx-engine/drivers/gles3/rasterizer_storage_gles3.cpp

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/*************************************************************************/
/* rasterizer_storage_gles3.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2022 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2022 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_storage_gles3.h"
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#ifdef GLES3_ENABLED
#include "core/config/project_settings.h"
#include "core/math/transform_3d.h"
// #include "rasterizer_canvas_gles3.h"
#include "rasterizer_scene_gles3.h"
#include "servers/rendering/shader_language.h"
/* MISC */
void RasterizerStorageGLES3::base_update_dependency(RID p_base, DependencyTracker *p_instance) {
if (GLES3::MeshStorage::get_singleton()->owns_mesh(p_base)) {
GLES3::Mesh *mesh = GLES3::MeshStorage::get_singleton()->get_mesh(p_base);
p_instance->update_dependency(&mesh->dependency);
} else if (GLES3::MeshStorage::get_singleton()->owns_multimesh(p_base)) {
GLES3::MultiMesh *multimesh = GLES3::MeshStorage::get_singleton()->get_multimesh(p_base);
p_instance->update_dependency(&multimesh->dependency);
if (multimesh->mesh.is_valid()) {
base_update_dependency(multimesh->mesh, p_instance);
}
} else if (GLES3::LightStorage::get_singleton()->owns_light(p_base)) {
GLES3::Light *l = GLES3::LightStorage::get_singleton()->get_light(p_base);
p_instance->update_dependency(&l->dependency);
}
}
Vector<uint8_t> RasterizerStorageGLES3::buffer_get_data(GLenum p_target, GLuint p_buffer, uint32_t p_buffer_size) {
Vector<uint8_t> ret;
ret.resize(p_buffer_size);
glBindBuffer(p_target, p_buffer);
#if defined(__EMSCRIPTEN__)
{
uint8_t *w = ret.ptrw();
glGetBufferSubData(p_target, 0, p_buffer_size, w);
}
#else
void *data = glMapBufferRange(p_target, 0, p_buffer_size, GL_MAP_READ_BIT);
ERR_FAIL_NULL_V(data, Vector<uint8_t>());
{
uint8_t *w = ret.ptrw();
memcpy(w, data, p_buffer_size);
}
glUnmapBuffer(p_target);
#endif
glBindBuffer(p_target, 0);
return ret;
}
/* OCCLUDER */
void RasterizerStorageGLES3::occluder_set_mesh(RID p_occluder, const PackedVector3Array &p_vertices, const PackedInt32Array &p_indices) {
}
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/* FOG */
RID RasterizerStorageGLES3::fog_volume_allocate() {
return RID();
}
void RasterizerStorageGLES3::fog_volume_initialize(RID p_rid) {
}
void RasterizerStorageGLES3::fog_volume_set_shape(RID p_fog_volume, RS::FogVolumeShape p_shape) {
}
void RasterizerStorageGLES3::fog_volume_set_extents(RID p_fog_volume, const Vector3 &p_extents) {
}
void RasterizerStorageGLES3::fog_volume_set_material(RID p_fog_volume, RID p_material) {
}
AABB RasterizerStorageGLES3::fog_volume_get_aabb(RID p_fog_volume) const {
return AABB();
}
RS::FogVolumeShape RasterizerStorageGLES3::fog_volume_get_shape(RID p_fog_volume) const {
return RS::FOG_VOLUME_SHAPE_BOX;
}
/* VISIBILITY NOTIFIER */
RID RasterizerStorageGLES3::visibility_notifier_allocate() {
return RID();
}
void RasterizerStorageGLES3::visibility_notifier_initialize(RID p_notifier) {
}
void RasterizerStorageGLES3::visibility_notifier_set_aabb(RID p_notifier, const AABB &p_aabb) {
}
void RasterizerStorageGLES3::visibility_notifier_set_callbacks(RID p_notifier, const Callable &p_enter_callbable, const Callable &p_exit_callable) {
}
AABB RasterizerStorageGLES3::visibility_notifier_get_aabb(RID p_notifier) const {
return AABB();
}
void RasterizerStorageGLES3::visibility_notifier_call(RID p_notifier, bool p_enter, bool p_deferred) {
}
/* CANVAS SHADOW */
RID RasterizerStorageGLES3::canvas_light_shadow_buffer_create(int p_width) {
CanvasLightShadow *cls = memnew(CanvasLightShadow);
if (p_width > config->max_texture_size) {
p_width = config->max_texture_size;
}
cls->size = p_width;
cls->height = 16;
glActiveTexture(GL_TEXTURE0);
glGenFramebuffers(1, &cls->fbo);
glBindFramebuffer(GL_FRAMEBUFFER, cls->fbo);
glGenRenderbuffers(1, &cls->depth);
glBindRenderbuffer(GL_RENDERBUFFER, cls->depth);
glRenderbufferStorage(GL_RENDERBUFFER, GL_DEPTH_COMPONENT16, cls->size, cls->height);
glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_DEPTH_ATTACHMENT, GL_RENDERBUFFER, cls->depth);
glGenTextures(1, &cls->distance);
glBindTexture(GL_TEXTURE_2D, cls->distance);
if (config->use_rgba_2d_shadows) {
glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA8, cls->size, cls->height, 0, GL_RGBA, GL_UNSIGNED_BYTE, nullptr);
} else {
glTexImage2D(GL_TEXTURE_2D, 0, GL_R32F, cls->size, cls->height, 0, GL_RED, GL_FLOAT, nullptr);
}
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_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);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, cls->distance, 0);
GLenum status = glCheckFramebufferStatus(GL_FRAMEBUFFER);
//printf("errnum: %x\n",status);
glBindFramebuffer(GL_FRAMEBUFFER, GLES3::TextureStorage::system_fbo);
if (status != GL_FRAMEBUFFER_COMPLETE) {
memdelete(cls);
ERR_FAIL_COND_V(status != GL_FRAMEBUFFER_COMPLETE, RID());
}
return canvas_light_shadow_owner.make_rid(cls);
}
/* LIGHT SHADOW MAPPING */
/*
RID RasterizerStorageGLES3::canvas_light_occluder_create() {
CanvasOccluder *co = memnew(CanvasOccluder);
co->index_id = 0;
co->vertex_id = 0;
co->len = 0;
return canvas_occluder_owner.make_rid(co);
}
void RasterizerStorageGLES3::canvas_light_occluder_set_polylines(RID p_occluder, const PoolVector<Vector2> &p_lines) {
CanvasOccluder *co = canvas_occluder_owner.get(p_occluder);
ERR_FAIL_COND(!co);
co->lines = p_lines;
if (p_lines.size() != co->len) {
if (co->index_id) {
glDeleteBuffers(1, &co->index_id);
} if (co->vertex_id) {
glDeleteBuffers(1, &co->vertex_id);
}
co->index_id = 0;
co->vertex_id = 0;
co->len = 0;
}
if (p_lines.size()) {
PoolVector<float> geometry;
PoolVector<uint16_t> indices;
int lc = p_lines.size();
geometry.resize(lc * 6);
indices.resize(lc * 3);
PoolVector<float>::Write vw = geometry.write();
PoolVector<uint16_t>::Write iw = indices.write();
PoolVector<Vector2>::Read lr = p_lines.read();
const int POLY_HEIGHT = 16384;
for (int i = 0; i < lc / 2; i++) {
vw[i * 12 + 0] = lr[i * 2 + 0].x;
vw[i * 12 + 1] = lr[i * 2 + 0].y;
vw[i * 12 + 2] = POLY_HEIGHT;
vw[i * 12 + 3] = lr[i * 2 + 1].x;
vw[i * 12 + 4] = lr[i * 2 + 1].y;
vw[i * 12 + 5] = POLY_HEIGHT;
vw[i * 12 + 6] = lr[i * 2 + 1].x;
vw[i * 12 + 7] = lr[i * 2 + 1].y;
vw[i * 12 + 8] = -POLY_HEIGHT;
vw[i * 12 + 9] = lr[i * 2 + 0].x;
vw[i * 12 + 10] = lr[i * 2 + 0].y;
vw[i * 12 + 11] = -POLY_HEIGHT;
iw[i * 6 + 0] = i * 4 + 0;
iw[i * 6 + 1] = i * 4 + 1;
iw[i * 6 + 2] = i * 4 + 2;
iw[i * 6 + 3] = i * 4 + 2;
iw[i * 6 + 4] = i * 4 + 3;
iw[i * 6 + 5] = i * 4 + 0;
}
//if same buffer len is being set, just use BufferSubData to avoid a pipeline flush
if (!co->vertex_id) {
glGenBuffers(1, &co->vertex_id);
glBindBuffer(GL_ARRAY_BUFFER, co->vertex_id);
glBufferData(GL_ARRAY_BUFFER, lc * 6 * sizeof(real_t), vw.ptr(), GL_STATIC_DRAW);
} else {
glBindBuffer(GL_ARRAY_BUFFER, co->vertex_id);
glBufferSubData(GL_ARRAY_BUFFER, 0, lc * 6 * sizeof(real_t), vw.ptr());
}
glBindBuffer(GL_ARRAY_BUFFER, 0); //unbind
if (!co->index_id) {
glGenBuffers(1, &co->index_id);
glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, co->index_id);
glBufferData(GL_ELEMENT_ARRAY_BUFFER, lc * 3 * sizeof(uint16_t), iw.ptr(), GL_DYNAMIC_DRAW);
} else {
glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, co->index_id);
glBufferSubData(GL_ELEMENT_ARRAY_BUFFER, 0, lc * 3 * sizeof(uint16_t), iw.ptr());
}
glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, 0); //unbind
co->len = lc;
}
}
*/
RS::InstanceType RasterizerStorageGLES3::get_base_type(RID p_rid) const {
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if (GLES3::MeshStorage::get_singleton()->owns_mesh(p_rid)) {
return RS::INSTANCE_MESH;
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} else if (GLES3::MeshStorage::get_singleton()->owns_multimesh(p_rid)) {
return RS::INSTANCE_MULTIMESH;
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} else if (GLES3::LightStorage::get_singleton()->owns_light(p_rid)) {
return RS::INSTANCE_LIGHT;
}
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return RS::INSTANCE_NONE;
}
bool RasterizerStorageGLES3::free(RID p_rid) {
if (GLES3::TextureStorage::get_singleton()->owns_render_target(p_rid)) {
GLES3::TextureStorage::get_singleton()->render_target_free(p_rid);
return true;
} else if (GLES3::TextureStorage::get_singleton()->owns_texture(p_rid)) {
GLES3::TextureStorage::get_singleton()->texture_free(p_rid);
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return true;
} else if (GLES3::TextureStorage::get_singleton()->owns_canvas_texture(p_rid)) {
GLES3::TextureStorage::get_singleton()->canvas_texture_free(p_rid);
return true;
} else if (GLES3::MaterialStorage::get_singleton()->owns_shader(p_rid)) {
GLES3::MaterialStorage::get_singleton()->shader_free(p_rid);
return true;
} else if (GLES3::MaterialStorage::get_singleton()->owns_material(p_rid)) {
GLES3::MaterialStorage::get_singleton()->material_free(p_rid);
return true;
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} else if (GLES3::MeshStorage::get_singleton()->owns_mesh(p_rid)) {
GLES3::MeshStorage::get_singleton()->mesh_free(p_rid);
return true;
} else if (GLES3::MeshStorage::get_singleton()->owns_multimesh(p_rid)) {
GLES3::MeshStorage::get_singleton()->multimesh_free(p_rid);
return true;
} else if (GLES3::MeshStorage::get_singleton()->owns_mesh_instance(p_rid)) {
GLES3::MeshStorage::get_singleton()->mesh_instance_free(p_rid);
return true;
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} else if (GLES3::LightStorage::get_singleton()->owns_light(p_rid)) {
GLES3::LightStorage::get_singleton()->light_free(p_rid);
return true;
} else {
return false;
}
/*
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else if (reflection_probe_owner.owns(p_rid)) {
// delete the texture
ReflectionProbe *reflection_probe = reflection_probe_owner.get_or_null(p_rid);
reflection_probe->instance_remove_deps();
reflection_probe_owner.free(p_rid);
memdelete(reflection_probe);
return true;
} else if (lightmap_capture_data_owner.owns(p_rid)) {
// delete the texture
LightmapCapture *lightmap_capture = lightmap_capture_data_owner.get_or_null(p_rid);
lightmap_capture->instance_remove_deps();
lightmap_capture_data_owner.free(p_rid);
memdelete(lightmap_capture);
return true;
} else if (canvas_occluder_owner.owns(p_rid)) {
CanvasOccluder *co = canvas_occluder_owner.get_or_null(p_rid);
if (co->index_id) {
glDeleteBuffers(1, &co->index_id);
}
if (co->vertex_id) {
glDeleteBuffers(1, &co->vertex_id);
}
canvas_occluder_owner.free(p_rid);
memdelete(co);
return true;
} else if (canvas_light_shadow_owner.owns(p_rid)) {
CanvasLightShadow *cls = canvas_light_shadow_owner.get_or_null(p_rid);
glDeleteFramebuffers(1, &cls->fbo);
glDeleteRenderbuffers(1, &cls->depth);
glDeleteTextures(1, &cls->distance);
canvas_light_shadow_owner.free(p_rid);
memdelete(cls);
return true;
*/
}
bool RasterizerStorageGLES3::has_os_feature(const String &p_feature) const {
if (!config) {
return false;
}
if (p_feature == "rgtc") {
return config->rgtc_supported;
}
if (p_feature == "s3tc") {
return config->s3tc_supported;
}
if (p_feature == "bptc") {
return config->bptc_supported;
}
if (p_feature == "etc" || p_feature == "etc2") {
return config->etc2_supported;
}
return false;
}
////////////////////////////////////////////
void RasterizerStorageGLES3::set_debug_generate_wireframes(bool p_generate) {
}
//void RasterizerStorageGLES3::render_info_begin_capture() {
// info.snap = info.render;
//}
//void RasterizerStorageGLES3::render_info_end_capture() {
// info.snap.object_count = info.render.object_count - info.snap.object_count;
// info.snap.draw_call_count = info.render.draw_call_count - info.snap.draw_call_count;
// info.snap.material_switch_count = info.render.material_switch_count - info.snap.material_switch_count;
// info.snap.surface_switch_count = info.render.surface_switch_count - info.snap.surface_switch_count;
// info.snap.shader_rebind_count = info.render.shader_rebind_count - info.snap.shader_rebind_count;
// info.snap.vertices_count = info.render.vertices_count - info.snap.vertices_count;
// info.snap._2d_item_count = info.render._2d_item_count - info.snap._2d_item_count;
// info.snap._2d_draw_call_count = info.render._2d_draw_call_count - info.snap._2d_draw_call_count;
//}
//int RasterizerStorageGLES3::get_captured_render_info(RS::RenderInfo p_info) {
// switch (p_info) {
// case RS::INFO_OBJECTS_IN_FRAME: {
// return info.snap.object_count;
// } break;
// case RS::INFO_VERTICES_IN_FRAME: {
// return info.snap.vertices_count;
// } break;
// case RS::INFO_MATERIAL_CHANGES_IN_FRAME: {
// return info.snap.material_switch_count;
// } break;
// case RS::INFO_SHADER_CHANGES_IN_FRAME: {
// return info.snap.shader_rebind_count;
// } break;
// case RS::INFO_SURFACE_CHANGES_IN_FRAME: {
// return info.snap.surface_switch_count;
// } break;
// case RS::INFO_DRAW_CALLS_IN_FRAME: {
// return info.snap.draw_call_count;
// } break;
// /*
// case RS::INFO_2D_ITEMS_IN_FRAME: {
// return info.snap._2d_item_count;
// } break;
// case RS::INFO_2D_DRAW_CALLS_IN_FRAME: {
// return info.snap._2d_draw_call_count;
// } break;
// */
// default: {
// return get_render_info(p_info);
// }
// }
//}
//int RasterizerStorageGLES3::get_render_info(RS::RenderInfo p_info) {
// switch (p_info) {
// case RS::INFO_OBJECTS_IN_FRAME:
// return info.render_final.object_count;
// case RS::INFO_VERTICES_IN_FRAME:
// return info.render_final.vertices_count;
// case RS::INFO_MATERIAL_CHANGES_IN_FRAME:
// return info.render_final.material_switch_count;
// case RS::INFO_SHADER_CHANGES_IN_FRAME:
// return info.render_final.shader_rebind_count;
// case RS::INFO_SURFACE_CHANGES_IN_FRAME:
// return info.render_final.surface_switch_count;
// case RS::INFO_DRAW_CALLS_IN_FRAME:
// return info.render_final.draw_call_count;
// /*
// case RS::INFO_2D_ITEMS_IN_FRAME:
// return info.render_final._2d_item_count;
// case RS::INFO_2D_DRAW_CALLS_IN_FRAME:
// return info.render_final._2d_draw_call_count;
//*/
// case RS::INFO_USAGE_VIDEO_MEM_TOTAL:
// return 0; //no idea
// case RS::INFO_VIDEO_MEM_USED:
// return info.vertex_mem + info.texture_mem;
// case RS::INFO_TEXTURE_MEM_USED:
// return info.texture_mem;
// case RS::INFO_VERTEX_MEM_USED:
// return info.vertex_mem;
// default:
// return 0; //no idea either
// }
//}
String RasterizerStorageGLES3::get_video_adapter_name() const {
return (const char *)glGetString(GL_RENDERER);
}
String RasterizerStorageGLES3::get_video_adapter_vendor() const {
return (const char *)glGetString(GL_VENDOR);
}
RenderingDevice::DeviceType RasterizerStorageGLES3::get_video_adapter_type() const {
return RenderingDevice::DeviceType::DEVICE_TYPE_OTHER;
}
String RasterizerStorageGLES3::get_video_adapter_api_version() const {
return (const char *)glGetString(GL_VERSION);
}
void RasterizerStorageGLES3::initialize() {
config = GLES3::Config::get_singleton();
// skeleton buffer
{
resources.skeleton_transform_buffer_size = 0;
glGenBuffers(1, &resources.skeleton_transform_buffer);
}
// radical inverse vdc cache texture
// used for cubemap filtering
glGenTextures(1, &resources.radical_inverse_vdc_cache_tex);
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, resources.radical_inverse_vdc_cache_tex);
/*
uint8_t radical_inverse[512];
for (uint32_t i = 0; i < 512; i++) {
uint32_t bits = i;
bits = (bits << 16) | (bits >> 16);
bits = ((bits & 0x55555555) << 1) | ((bits & 0xAAAAAAAA) >> 1);
bits = ((bits & 0x33333333) << 2) | ((bits & 0xCCCCCCCC) >> 2);
bits = ((bits & 0x0F0F0F0F) << 4) | ((bits & 0xF0F0F0F0) >> 4);
bits = ((bits & 0x00FF00FF) << 8) | ((bits & 0xFF00FF00) >> 8);
float value = float(bits) * 2.3283064365386963e-10;
radical_inverse[i] = uint8_t(CLAMP(value * 255.0, 0, 255));
}
//glTexImage2D(GL_TEXTURE_2D, 0, GL_LUMINANCE, 512, 1, 0, GL_LUMINANCE, GL_UNSIGNED_BYTE, radical_inverse);
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_MIN_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST); //need this for proper sampling
*/
glBindTexture(GL_TEXTURE_2D, 0);
{
glGenFramebuffers(1, &resources.mipmap_blur_fbo);
glGenTextures(1, &resources.mipmap_blur_color);
}
#ifdef GLES_OVER_GL
glEnable(GL_PROGRAM_POINT_SIZE);
#endif
}
void RasterizerStorageGLES3::finalize() {
}
void RasterizerStorageGLES3::update_memory_info() {
}
uint64_t RasterizerStorageGLES3::get_rendering_info(RS::RenderingInfo p_info) {
return 0;
}
void RasterizerStorageGLES3::update_dirty_resources() {
GLES3::MaterialStorage::get_singleton()->_update_global_variables();
GLES3::MaterialStorage::get_singleton()->_update_queued_materials();
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//GLES3::MeshStorage::get_singleton()->_update_dirty_skeletons();
GLES3::MeshStorage::get_singleton()->_update_dirty_multimeshes();
}
RasterizerStorageGLES3::RasterizerStorageGLES3() {
initialize();
}
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RasterizerStorageGLES3::~RasterizerStorageGLES3() {
}
#endif // GLES3_ENABLED