#pragma once #include #include "hwrenderer/data/buffers.h" #include "v_video.h" enum { LIGHTBUF_BINDINGPOINT = 1, POSTPROCESS_BINDINGPOINT = 2, VIEWPOINT_BINDINGPOINT = 3, LIGHTNODES_BINDINGPOINT = 4, LIGHTLINES_BINDINGPOINT = 5, LIGHTLIST_BINDINGPOINT = 6 }; enum class UniformType { Int, UInt, Float, Vec2, Vec3, Vec4, IVec2, IVec3, IVec4, UVec2, UVec3, UVec4, Mat4 }; class UniformFieldDesc { public: UniformFieldDesc() { } UniformFieldDesc(const char *name, UniformType type, std::size_t offset) : Name(name), Type(type), Offset(offset) { } const char *Name; UniformType Type; std::size_t Offset; }; class UniformBlockDecl { public: static FString Create(const char *name, const std::vector &fields, int bindingpoint) { FString decl; FString layout; if (bindingpoint == -1) { layout = "push_constant"; } else if (screen->glslversion < 4.20) { layout = "std140"; } else { layout.Format("std140, binding = %d", bindingpoint); } decl.Format("layout(%s) uniform %s\n{\n", layout.GetChars(), name); for (size_t i = 0; i < fields.size(); i++) { decl.AppendFormat("\t%s %s;\n", GetTypeStr(fields[i].Type), fields[i].Name); } decl += "};\n"; return decl; } private: static const char *GetTypeStr(UniformType type) { switch (type) { default: case UniformType::Int: return "int"; case UniformType::UInt: return "uint"; case UniformType::Float: return "float"; case UniformType::Vec2: return "vec2"; case UniformType::Vec3: return "vec3"; case UniformType::Vec4: return "vec4"; case UniformType::IVec2: return "ivec2"; case UniformType::IVec3: return "ivec3"; case UniformType::IVec4: return "ivec4"; case UniformType::UVec2: return "uvec2"; case UniformType::UVec3: return "uvec3"; case UniformType::UVec4: return "uvec4"; case UniformType::Mat4: return "mat4"; } } }; template class ShaderUniforms { public: ShaderUniforms() { memset(&Values, 0, sizeof(Values)); } ~ShaderUniforms() { if (mBuffer != nullptr) delete mBuffer; } int BindingPoint() const { return bindingpoint; } FString CreateDeclaration(const char *name, const std::vector &fields) { mFields = fields; return UniformBlockDecl::Create(name, fields, bindingpoint); } void Init() { if (mBuffer == nullptr) mBuffer = screen->CreateDataBuffer(bindingpoint, false, false); } void SetData() { if (mBuffer != nullptr) mBuffer->SetData(sizeof(T), &Values, BufferUsageType::Static); } IDataBuffer* GetBuffer() const { // OpenGL needs to mess around with this in ways that should not be part of the interface. return mBuffer; } T *operator->() { return &Values; } const T *operator->() const { return &Values; } T Values; private: ShaderUniforms(const ShaderUniforms &) = delete; ShaderUniforms &operator=(const ShaderUniforms &) = delete; IDataBuffer *mBuffer = nullptr; std::vector mFields; };