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https://github.com/yuzu-emu/yuzu.git
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maxwell_3d: Restructure macro upload to use a single macro code memory.
- Fixes an issue where macros could be skipped. - Fixes rendering of distant objects in Super Mario Odyssey.
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parent
d08457f879
commit
de0ab806df
4 changed files with 55 additions and 27 deletions
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@ -43,15 +43,17 @@ void Maxwell3D::CallMacroMethod(u32 method, std::vector<u32> parameters) {
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// Reset the current macro.
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executing_macro = 0;
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// The requested macro must have been uploaded already.
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auto macro_code = uploaded_macros.find(method);
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if (macro_code == uploaded_macros.end()) {
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LOG_ERROR(HW_GPU, "Macro {:04X} was not uploaded", method);
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// Lookup the macro offset
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const u32 entry{(method - MacroRegistersStart) >> 1};
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const auto& search{macro_offsets.find(entry)};
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if (search == macro_offsets.end()) {
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LOG_CRITICAL(HW_GPU, "macro not found for method 0x{:X}!", method);
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UNREACHABLE();
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return;
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}
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// Execute the current macro.
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macro_interpreter.Execute(macro_code->second, std::move(parameters));
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macro_interpreter.Execute(search->second, std::move(parameters));
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}
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void Maxwell3D::WriteReg(u32 method, u32 value, u32 remaining_params) {
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@ -97,6 +99,10 @@ void Maxwell3D::WriteReg(u32 method, u32 value, u32 remaining_params) {
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ProcessMacroUpload(value);
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break;
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}
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case MAXWELL3D_REG_INDEX(macros.bind): {
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ProcessMacroBind(value);
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break;
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}
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case MAXWELL3D_REG_INDEX(const_buffer.cb_data[0]):
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case MAXWELL3D_REG_INDEX(const_buffer.cb_data[1]):
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case MAXWELL3D_REG_INDEX(const_buffer.cb_data[2]):
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@ -158,9 +164,13 @@ void Maxwell3D::WriteReg(u32 method, u32 value, u32 remaining_params) {
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}
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void Maxwell3D::ProcessMacroUpload(u32 data) {
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// Store the uploaded macro code to interpret them when they're called.
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auto& macro = uploaded_macros[regs.macros.entry * 2 + MacroRegistersStart];
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macro.push_back(data);
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ASSERT_MSG(regs.macros.upload_address < macro_memory.size(),
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"upload_address exceeded macro_memory size!");
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macro_memory[regs.macros.upload_address++] = data;
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}
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void Maxwell3D::ProcessMacroBind(u32 data) {
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macro_offsets[regs.macros.entry] = data;
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}
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void Maxwell3D::ProcessQueryGet() {
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@ -475,12 +475,13 @@ public:
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INSERT_PADDING_WORDS(0x45);
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struct {
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INSERT_PADDING_WORDS(1);
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u32 upload_address;
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u32 data;
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u32 entry;
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u32 bind;
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} macros;
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INSERT_PADDING_WORDS(0x189);
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INSERT_PADDING_WORDS(0x188);
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u32 tfb_enabled;
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@ -994,12 +995,25 @@ public:
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/// Returns the texture information for a specific texture in a specific shader stage.
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Texture::FullTextureInfo GetStageTexture(Regs::ShaderStage stage, std::size_t offset) const;
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/// Memory for macro code - it's undetermined how big this is, however 1MB is much larger than
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/// we've seen used.
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using MacroMemory = std::array<u32, 0x40000>;
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/// Gets a reference to macro memory.
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const MacroMemory& GetMacroMemory() const {
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return macro_memory;
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}
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private:
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void InitializeRegisterDefaults();
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VideoCore::RasterizerInterface& rasterizer;
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std::unordered_map<u32, std::vector<u32>> uploaded_macros;
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/// Start offsets of each macro in macro_memory
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std::unordered_map<u32, u32> macro_offsets;
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/// Memory for macro code
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MacroMemory macro_memory;
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/// Macro method that is currently being executed / being fed parameters.
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u32 executing_macro = 0;
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@ -1022,9 +1036,12 @@ private:
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*/
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void CallMacroMethod(u32 method, std::vector<u32> parameters);
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/// Handles writes to the macro uploading registers.
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/// Handles writes to the macro uploading register.
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void ProcessMacroUpload(u32 data);
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/// Handles writes to the macro bind register.
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void ProcessMacroBind(u32 data);
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/// Handles a write to the CLEAR_BUFFERS register.
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void ProcessClearBuffers();
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@ -11,7 +11,7 @@ namespace Tegra {
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MacroInterpreter::MacroInterpreter(Engines::Maxwell3D& maxwell3d) : maxwell3d(maxwell3d) {}
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void MacroInterpreter::Execute(const std::vector<u32>& code, std::vector<u32> parameters) {
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void MacroInterpreter::Execute(u32 offset, std::vector<u32> parameters) {
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Reset();
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registers[1] = parameters[0];
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this->parameters = std::move(parameters);
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@ -19,7 +19,7 @@ void MacroInterpreter::Execute(const std::vector<u32>& code, std::vector<u32> pa
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// Execute the code until we hit an exit condition.
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bool keep_executing = true;
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while (keep_executing) {
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keep_executing = Step(code, false);
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keep_executing = Step(offset, false);
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}
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// Assert the the macro used all the input parameters
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@ -37,10 +37,10 @@ void MacroInterpreter::Reset() {
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next_parameter_index = 1;
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}
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bool MacroInterpreter::Step(const std::vector<u32>& code, bool is_delay_slot) {
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bool MacroInterpreter::Step(u32 offset, bool is_delay_slot) {
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u32 base_address = pc;
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Opcode opcode = GetOpcode(code);
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Opcode opcode = GetOpcode(offset);
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pc += 4;
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// Update the program counter if we were delayed
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@ -108,7 +108,7 @@ bool MacroInterpreter::Step(const std::vector<u32>& code, bool is_delay_slot) {
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delayed_pc = base_address + opcode.GetBranchTarget();
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// Execute one more instruction due to the delay slot.
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return Step(code, true);
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return Step(offset, true);
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}
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break;
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}
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@ -121,17 +121,18 @@ bool MacroInterpreter::Step(const std::vector<u32>& code, bool is_delay_slot) {
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// Exit has a delay slot, execute the next instruction
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// Note: Executing an exit during a branch delay slot will cause the instruction at the
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// branch target to be executed before exiting.
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Step(code, true);
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Step(offset, true);
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return false;
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}
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return true;
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}
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MacroInterpreter::Opcode MacroInterpreter::GetOpcode(const std::vector<u32>& code) const {
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MacroInterpreter::Opcode MacroInterpreter::GetOpcode(u32 offset) const {
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const auto& macro_memory{maxwell3d.GetMacroMemory()};
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ASSERT((pc % sizeof(u32)) == 0);
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ASSERT(pc < code.size() * sizeof(u32));
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return {code[pc / sizeof(u32)]};
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ASSERT((pc + offset) < macro_memory.size() * sizeof(u32));
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return {macro_memory[offset + pc / sizeof(u32)]};
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}
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u32 MacroInterpreter::GetALUResult(ALUOperation operation, u32 src_a, u32 src_b) const {
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@ -22,10 +22,10 @@ public:
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/**
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* Executes the macro code with the specified input parameters.
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* @param code The macro byte code to execute
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* @param parameters The parameters of the macro
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* @param offset Offset to start execution at.
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* @param parameters The parameters of the macro.
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*/
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void Execute(const std::vector<u32>& code, std::vector<u32> parameters);
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void Execute(u32 offset, std::vector<u32> parameters);
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private:
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enum class Operation : u32 {
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@ -110,11 +110,11 @@ private:
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/**
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* Executes a single macro instruction located at the current program counter. Returns whether
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* the interpreter should keep running.
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* @param code The macro code to execute.
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* @param offset Offset to start execution at.
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* @param is_delay_slot Whether the current step is being executed due to a delay slot in a
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* previous instruction.
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*/
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bool Step(const std::vector<u32>& code, bool is_delay_slot);
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bool Step(u32 offset, bool is_delay_slot);
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/// Calculates the result of an ALU operation. src_a OP src_b;
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u32 GetALUResult(ALUOperation operation, u32 src_a, u32 src_b) const;
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@ -127,7 +127,7 @@ private:
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bool EvaluateBranchCondition(BranchCondition cond, u32 value) const;
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/// Reads an opcode at the current program counter location.
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Opcode GetOpcode(const std::vector<u32>& code) const;
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Opcode GetOpcode(u32 offset) const;
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/// Returns the specified register's value. Register 0 is hardcoded to always return 0.
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u32 GetRegister(u32 register_id) const;
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