#pragma once #include "r_compiler/ssa/ssa_vec4f.h" #include "r_compiler/ssa/ssa_vec4i.h" #include "r_compiler/ssa/ssa_vec8s.h" #include "r_compiler/ssa/ssa_vec16ub.h" #include "r_compiler/ssa/ssa_int.h" #include "r_compiler/ssa/ssa_ubyte_ptr.h" #include "r_compiler/ssa/ssa_vec4f_ptr.h" #include "r_compiler/ssa/ssa_vec4i_ptr.h" #include "r_compiler/ssa/ssa_pixels.h" #include "r_compiler/ssa/ssa_stack.h" #include "r_compiler/ssa/ssa_barycentric_weight.h" #include "r_compiler/llvm_include.h" class RenderProgram { public: RenderProgram(); ~RenderProgram(); template Func *GetProcAddress(const char *name) { return reinterpret_cast(PointerToFunction(name)); } llvm::LLVMContext &context() { return *mContext; } llvm::Module *module() { return mModule; } llvm::ExecutionEngine *engine() { return mEngine.get(); } llvm::legacy::PassManager *modulePassManager() { return mModulePassManager.get(); } llvm::legacy::FunctionPassManager *functionPassManager() { return mFunctionPassManager.get(); } private: void *PointerToFunction(const char *name); std::unique_ptr mContext; llvm::Module *mModule; std::unique_ptr mEngine; std::unique_ptr mModulePassManager; std::unique_ptr mFunctionPassManager; }; class FixedFunction { public: FixedFunction(); void(*DrawSpan)(int, uint32_t *) = nullptr; private: void CodegenDrawSpan(); RenderProgram mProgram; }; #if 0 class GlslProgram; class GlslCodeGen; class GlslFixedFunction { public: GlslFixedFunction(GlslProgram &program, GlslCodeGen &vertex_codegen, GlslCodeGen &fragment_codegen); void codegen(); static llvm::Type *get_sampler_struct(llvm::LLVMContext &context); private: void codegen_draw_triangles(int num_vertex_in, int num_vertex_out); void codegen_calc_window_positions(); void codegen_calc_polygon_face_direction(); void codegen_calc_polygon_y_range(); void codegen_update_polygon_edge(); void codegen_texture(); void codegen_normalize(); void codegen_reflect(); void codegen_max(); void codegen_pow(); void codegen_dot(); void codegen_mix(); struct OuterData { OuterData() : sampler() { } SSAInt start; SSAInt end; SSAInt input_width; SSAInt input_height; SSAInt output_width; SSAInt output_height; SSAUBytePtr input_pixels; SSAUBytePtr output_pixels_line; SSAVec4fPtr sse_left_varying_in; SSAVec4fPtr sse_right_varying_in; int num_varyings; SSAVec4f viewport_x; SSAVec4f viewport_rcp_half_width; SSAVec4f dx; SSAVec4f dw; SSAVec4f v1w; SSAVec4f v1x; llvm::Value *sampler; }; void render_polygon( SSAInt input_width, SSAInt input_height, SSAUBytePtr input_data, SSAInt output_width, SSAInt output_height, SSAUBytePtr output_data, SSAInt viewport_x, SSAInt viewport_y, SSAInt viewport_width, SSAInt viewport_height, SSAInt num_vertices, std::vector fragment_ins, SSAInt core, SSAInt num_cores); void codegen_render_scanline(int num_varyings); void process_first_pixels(OuterData &outer_data, SSAStack &stack_x, SSAStack &stack_xnormalized); void process_last_pixels(OuterData &outer_data, SSAStack &stack_x, SSAStack &stack_xnormalized); void inner_block(OuterData &data, SSAVec4f xnormalized, SSAVec4f *out_frag_colors); void blend(SSAVec4f frag_colors[4], SSAVec16ub &dest); GlslProgram &program; GlslCodeGen &vertex_codegen; GlslCodeGen &fragment_codegen; }; #endif