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// This file is part of the 64k demo project.
// It implements the Renderer3D class.
#include "3d/renderer.h"
#include "generated/assets.h"
#include "gpu/effects/shader_composer.h"
#include "util/asset_manager.h"
#include <algorithm>
#include <cassert>
#include <cstring>
#include <iostream>
#if !defined(STRIP_ALL)
bool Renderer3D::s_debug_enabled_ = false;
#endif
void Renderer3D::init(WGPUDevice device, WGPUQueue queue,
WGPUTextureFormat format) {
device_ = device;
queue_ = queue;
format_ = format;
WGPUSamplerDescriptor sampler_desc = {};
sampler_desc.addressModeU = WGPUAddressMode_Repeat;
sampler_desc.addressModeV = WGPUAddressMode_Repeat;
sampler_desc.magFilter = WGPUFilterMode_Linear;
sampler_desc.minFilter = WGPUFilterMode_Linear;
sampler_desc.maxAnisotropy = 1;
default_sampler_ = wgpuDeviceCreateSampler(device_, &sampler_desc);
create_default_resources();
create_pipeline();
#if !defined(STRIP_ALL)
visual_debug_.init(device_, format_);
#endif
}
void Renderer3D::shutdown() {
#if !defined(STRIP_ALL)
visual_debug_.shutdown();
#endif
if (default_sampler_)
wgpuSamplerRelease(default_sampler_);
if (pipeline_)
wgpuRenderPipelineRelease(pipeline_);
if (bind_group_)
wgpuBindGroupRelease(bind_group_);
if (global_uniform_buffer_)
wgpuBufferRelease(global_uniform_buffer_);
if (object_storage_buffer_)
wgpuBufferRelease(object_storage_buffer_);
if (depth_view_)
wgpuTextureViewRelease(depth_view_);
if (depth_texture_)
wgpuTextureRelease(depth_texture_);
}
void Renderer3D::resize(int width, int height) {
if (width == width_ && height == height_)
return;
width_ = width;
height_ = height;
if (depth_view_)
wgpuTextureViewRelease(depth_view_);
if (depth_texture_)
wgpuTextureRelease(depth_texture_);
WGPUTextureDescriptor desc = {};
desc.usage = WGPUTextureUsage_RenderAttachment;
desc.dimension = WGPUTextureDimension_2D;
desc.size = {(uint32_t)width, (uint32_t)height, 1};
desc.format = WGPUTextureFormat_Depth24Plus;
desc.mipLevelCount = 1;
desc.sampleCount = 1;
depth_texture_ = wgpuDeviceCreateTexture(device_, &desc);
WGPUTextureViewDescriptor view_desc = {};
view_desc.format = WGPUTextureFormat_Depth24Plus;
view_desc.dimension = WGPUTextureViewDimension_2D;
view_desc.aspect = WGPUTextureAspect_DepthOnly;
view_desc.arrayLayerCount = 1;
view_desc.mipLevelCount = 1;
depth_view_ = wgpuTextureCreateView(depth_texture_, &view_desc);
}
void Renderer3D::create_default_resources() {
global_uniform_buffer_ =
gpu_create_buffer(device_, sizeof(GlobalUniforms),
WGPUBufferUsage_Uniform | WGPUBufferUsage_CopyDst,
nullptr)
.buffer;
object_storage_buffer_ =
gpu_create_buffer(device_, sizeof(ObjectData) * kMaxObjects,
WGPUBufferUsage_Storage | WGPUBufferUsage_CopyDst,
nullptr)
.buffer;
}
void Renderer3D::set_noise_texture(WGPUTextureView noise_view) {
noise_texture_view_ = noise_view;
// Note: Bind group needs recreation if texture changes, but we'll do it in
// render for simplicity or just once at init if it's static. For this demo,
// let's recreate in render if changed.
}
void Renderer3D::create_pipeline() {
WGPUBindGroupLayoutEntry entries[4] = {};
entries[0].binding = 0;
entries[0].visibility = WGPUShaderStage_Vertex | WGPUShaderStage_Fragment;
entries[0].buffer.type = WGPUBufferBindingType_Uniform;
entries[0].buffer.minBindingSize = sizeof(GlobalUniforms);
entries[1].binding = 1;
entries[1].visibility = WGPUShaderStage_Vertex | WGPUShaderStage_Fragment;
entries[1].buffer.type = WGPUBufferBindingType_ReadOnlyStorage;
entries[1].buffer.minBindingSize = sizeof(ObjectData) * kMaxObjects;
entries[2].binding = 2;
entries[2].visibility = WGPUShaderStage_Fragment;
entries[2].texture.sampleType = WGPUTextureSampleType_Float;
entries[2].texture.viewDimension = WGPUTextureViewDimension_2D;
entries[3].binding = 3;
entries[3].visibility = WGPUShaderStage_Fragment;
entries[3].sampler.type = WGPUSamplerBindingType_Filtering;
WGPUBindGroupLayoutDescriptor bgl_desc = {};
bgl_desc.entryCount = 4;
bgl_desc.entries = entries;
WGPUBindGroupLayout bgl = wgpuDeviceCreateBindGroupLayout(device_, &bgl_desc);
WGPUPipelineLayoutDescriptor pl_desc = {};
pl_desc.bindGroupLayoutCount = 1;
pl_desc.bindGroupLayouts = &bgl;
WGPUPipelineLayout pipeline_layout =
wgpuDeviceCreatePipelineLayout(device_, &pl_desc);
std::string main_code =
(const char*)GetAsset(AssetId::ASSET_SHADER_RENDERER_3D);
std::string shader_source = ShaderComposer::Get().Compose(
{"common_uniforms", "sdf_primitives", "lighting", "ray_box"}, main_code);
#if defined(DEMO_CROSS_COMPILE_WIN32)
WGPUShaderModuleWGSLDescriptor wgsl_desc = {};
wgsl_desc.chain.sType = WGPUSType_ShaderModuleWGSLDescriptor;
wgsl_desc.code = shader_source.c_str();
WGPUShaderModuleDescriptor shader_desc = {};
shader_desc.nextInChain = (const WGPUChainedStruct*)&wgsl_desc.chain;
#else
WGPUShaderSourceWGSL wgsl_desc = {};
wgsl_desc.chain.sType = WGPUSType_ShaderSourceWGSL;
wgsl_desc.code = {shader_source.c_str(), shader_source.length()};
WGPUShaderModuleDescriptor shader_desc = {};
shader_desc.nextInChain = (const WGPUChainedStruct*)&wgsl_desc.chain;
#endif
WGPUShaderModule shader_module =
wgpuDeviceCreateShaderModule(device_, &shader_desc);
WGPUDepthStencilState depth_stencil = {};
depth_stencil.format = WGPUTextureFormat_Depth24Plus;
depth_stencil.depthWriteEnabled = WGPUOptionalBool_True;
depth_stencil.depthCompare = WGPUCompareFunction_Less;
WGPURenderPipelineDescriptor desc = {};
desc.layout = pipeline_layout;
desc.vertex.module = shader_module;
#if defined(DEMO_CROSS_COMPILE_WIN32)
desc.vertex.entryPoint = "vs_main";
#else
desc.vertex.entryPoint = {"vs_main", 7};
#endif
WGPUColorTargetState color_target = {};
color_target.format = format_;
color_target.writeMask = WGPUColorWriteMask_All;
WGPUFragmentState fragment = {};
fragment.module = shader_module;
#if defined(DEMO_CROSS_COMPILE_WIN32)
fragment.entryPoint = "fs_main";
#else
fragment.entryPoint = {"fs_main", 7};
#endif
fragment.targetCount = 1;
fragment.targets = &color_target;
desc.fragment = &fragment;
desc.primitive.topology = WGPUPrimitiveTopology_TriangleList;
desc.primitive.cullMode = WGPUCullMode_Back;
desc.primitive.frontFace = WGPUFrontFace_CCW;
desc.depthStencil = &depth_stencil;
desc.multisample.count = 1;
desc.multisample.mask = 0xFFFFFFFF;
pipeline_ = wgpuDeviceCreateRenderPipeline(device_, &desc);
wgpuBindGroupLayoutRelease(bgl);
wgpuPipelineLayoutRelease(pipeline_layout);
wgpuShaderModuleRelease(shader_module);
}
void Renderer3D::update_uniforms(const Scene& scene, const Camera& camera,
float time) {
GlobalUniforms globals;
globals.view_proj = camera.get_projection_matrix() * camera.get_view_matrix();
globals.camera_pos_time =
vec4(camera.position.x, camera.position.y, camera.position.z, time);
globals.params =
vec4((float)std::min((size_t)kMaxObjects, scene.objects.size()), 0.0f,
0.0f, 0.0f);
wgpuQueueWriteBuffer(queue_, global_uniform_buffer_, 0, &globals,
sizeof(GlobalUniforms));
std::vector<ObjectData> obj_data;
for (const auto& obj : scene.objects) {
ObjectData data;
data.model = obj.get_model_matrix();
// Calculate Inverse for point transformation
data.inv_model = data.model.inverse();
data.color = obj.color;
float type_id = 0.0f;
if (obj.type == ObjectType::SPHERE)
type_id = 1.0f;
else if (obj.type == ObjectType::BOX)
type_id = 2.0f;
else if (obj.type == ObjectType::TORUS)
type_id = 3.0f;
else if (obj.type == ObjectType::PLANE)
type_id = 4.0f;
data.params = vec4(type_id, 0, 0, 0);
obj_data.push_back(data);
if (obj_data.size() >= kMaxObjects)
break;
}
if (!obj_data.empty()) {
wgpuQueueWriteBuffer(queue_, object_storage_buffer_, 0, obj_data.data(),
obj_data.size() * sizeof(ObjectData));
}
}
void Renderer3D::draw(WGPURenderPassEncoder pass, const Scene& scene,
const Camera& camera, float time) {
update_uniforms(scene, camera, time);
// Lazy Bind Group creation
if (bind_group_)
wgpuBindGroupRelease(bind_group_);
WGPUBindGroupEntry bg_entries[4] = {};
bg_entries[0].binding = 0;
bg_entries[0].buffer = global_uniform_buffer_;
bg_entries[0].size = sizeof(GlobalUniforms);
bg_entries[1].binding = 1;
bg_entries[1].buffer = object_storage_buffer_;
bg_entries[1].size = sizeof(ObjectData) * kMaxObjects;
bg_entries[2].binding = 2;
bg_entries[2].textureView = noise_texture_view_;
bg_entries[3].binding = 3;
bg_entries[3].sampler = default_sampler_;
WGPUBindGroupDescriptor bg_desc = {};
bg_desc.layout = wgpuRenderPipelineGetBindGroupLayout(pipeline_, 0);
bg_desc.entryCount = 4;
bg_desc.entries = bg_entries;
bind_group_ = wgpuDeviceCreateBindGroup(device_, &bg_desc);
wgpuBindGroupLayoutRelease(bg_desc.layout);
wgpuRenderPassEncoderSetPipeline(pass, pipeline_);
wgpuRenderPassEncoderSetBindGroup(pass, 0, bind_group_, 0, nullptr);
uint32_t instance_count =
(uint32_t)std::min((size_t)kMaxObjects, scene.objects.size());
if (instance_count > 0) {
wgpuRenderPassEncoderDraw(pass, 36, instance_count, 0, 0);
}
#if !defined(STRIP_ALL)
if (s_debug_enabled_) {
for (const auto& obj : scene.objects) {
vec3 extent(1.0f, 1.0f, 1.0f);
if (obj.type == ObjectType::TORUS) {
extent = vec3(1.5f, 0.5f, 1.5f);
}
visual_debug_.add_box(obj.get_model_matrix(), extent,
vec3(1.0f, 1.0f, 0.0f)); // Yellow boxes
}
// Calculate ViewProj matrix for the debug renderer
mat4 view_proj = camera.get_projection_matrix() * camera.get_view_matrix();
visual_debug_.render(pass, view_proj);
}
#endif
}
void Renderer3D::render(const Scene& scene, const Camera& camera, float time,
WGPUTextureView target_view,
WGPUTextureView depth_view_opt) {
WGPUTextureView depth_view = depth_view_opt ? depth_view_opt : depth_view_;
if (!depth_view)
return;
WGPURenderPassColorAttachment color_attachment = {};
gpu_init_color_attachment(color_attachment, target_view);
color_attachment.clearValue = {0.05, 0.05, 0.1, 1.0};
WGPURenderPassDepthStencilAttachment depth_attachment = {};
depth_attachment.view = depth_view;
depth_attachment.depthLoadOp = WGPULoadOp_Clear;
depth_attachment.depthStoreOp = WGPUStoreOp_Store;
depth_attachment.depthClearValue = 1.0f;
WGPURenderPassDescriptor pass_desc = {};
pass_desc.colorAttachmentCount = 1;
pass_desc.colorAttachments = &color_attachment;
pass_desc.depthStencilAttachment = &depth_attachment;
WGPUCommandEncoder encoder = wgpuDeviceCreateCommandEncoder(device_, nullptr);
WGPURenderPassEncoder pass =
wgpuCommandEncoderBeginRenderPass(encoder, &pass_desc);
wgpuRenderPassEncoderSetViewport(pass, 0.0f, 0.0f, (float)width_,
(float)height_, 0.0f, 1.0f);
draw(pass, scene, camera, time);
wgpuRenderPassEncoderEnd(pass);
WGPUCommandBuffer commands = wgpuCommandEncoderFinish(encoder, nullptr);
wgpuQueueSubmit(queue_, 1, &commands);
wgpuRenderPassEncoderRelease(pass);
wgpuCommandBufferRelease(commands);
wgpuCommandEncoderRelease(encoder);
}
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