// Copyright (C) 2010 Dolphin Project. // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, version 2.0. // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License 2.0 for more details. // A copy of the GPL 2.0 should have been included with the program. // If not, see http://www.gnu.org/licenses/ // Official SVN repository and contact information can be found at // http://code.google.com/p/dolphin-emu/ #include #include "DSPEmitter.h" #include "DSPMemoryMap.h" #include "DSPCore.h" #include "DSPInterpreter.h" #include "DSPAnalyzer.h" #include "x64Emitter.h" #include "ABI.h" #define MAX_BLOCK_SIZE 250 using namespace Gen; DSPEmitter::DSPEmitter() : storeIndex(-1) { m_compiledCode = NULL; AllocCodeSpace(COMPILED_CODE_SIZE); blocks = new CompiledCode[MAX_BLOCKS]; blockSize = new u16[0x10000]; ClearIRAM(); compileSR = 0; compileSR |= SR_INT_ENABLE; compileSR |= SR_EXT_INT_ENABLE; CompileDispatcher(); } DSPEmitter::~DSPEmitter() { delete[] blocks; delete[] blockSize; FreeCodeSpace(); } void DSPEmitter::ClearIRAM() { // ClearCodeSpace(); for(int i = 0x0000; i < 0x1000; i++) { blocks[i] = NULL; blockSize[i] = 0; } } // Must go out of block if exception is detected void DSPEmitter::checkExceptions() { /* // check if there is an external interrupt if (! dsp_SR_is_flag_set(SR_EXT_INT_ENABLE)) return; if (! (g_dsp.cr & CR_EXTERNAL_INT)) return; g_dsp.cr &= ~CR_EXTERNAL_INT; // Check for other exceptions if (dsp_SR_is_flag_set(SR_INT_ENABLE)) return; if (g_dsp.exceptions == 0) return; */ ABI_CallFunction((void *)&DSPCore_CheckExternalInterrupt); // Check for interrupts and exceptions TEST(8, M(&g_dsp.exceptions), Imm8(0xff)); FixupBranch skipCheck = J_CC(CC_Z); ABI_CallFunction((void *)&DSPCore_CheckExceptions); // ABI_RestoreStack(0); ABI_PopAllCalleeSavedRegsAndAdjustStack(); RET(); SetJumpTarget(skipCheck); } void DSPEmitter::EmitInstruction(UDSPInstruction inst) { const DSPOPCTemplate *tinst = GetOpTemplate(inst); // Call extended if (tinst->extended) { if ((inst >> 12) == 0x3) { if (! extOpTable[inst & 0x7F]->jitFunc) { // Fall back to interpreter ABI_CallFunctionC16((void*)extOpTable[inst & 0x7F]->intFunc, inst); } else { (this->*extOpTable[inst & 0x7F]->jitFunc)(inst); } } else { if (!extOpTable[inst & 0xFF]->jitFunc) { // Fall back to interpreter ABI_CallFunctionC16((void*)extOpTable[inst & 0xFF]->intFunc, inst); } else { (this->*extOpTable[inst & 0xFF]->jitFunc)(inst); } } } // Main instruction if (!opTable[inst]->jitFunc) { // Fall back to interpreter ABI_CallFunctionC16((void*)opTable[inst]->intFunc, inst); } else { (this->*opTable[inst]->jitFunc)(inst); } // Backlog if (tinst->extended) { if (! extOpTable[inst & 0x7F]->jitFunc) { ABI_CallFunction((void*)applyWriteBackLog); } else { popExtValueToReg(); } } } void DSPEmitter::unknown_instruction(UDSPInstruction inst) { PanicAlert("unknown_instruction %04x - Fix me ;)", inst); } void DSPEmitter::Default(UDSPInstruction _inst) { EmitInstruction(_inst); } const u8 *DSPEmitter::Compile(int start_addr) { AlignCode16(); const u8 *entryPoint = GetCodePtr(); ABI_PushAllCalleeSavedRegsAndAdjustStack(); // ABI_AlignStack(0); int addr = start_addr; checkExceptions(); blockSize[start_addr] = 0; while (addr < start_addr + MAX_BLOCK_SIZE) { UDSPInstruction inst = dsp_imem_read(addr); const DSPOPCTemplate *opcode = GetOpTemplate(inst); // Increment PC - we shouldn't need to do this for every instruction. only for branches and end of block. ADD(16, M(&(g_dsp.pc)), Imm16(1)); EmitInstruction(inst); // Handle loop condition, only if current instruction was flagged as a loop destination // by the analyzer. COMMENTED OUT - this breaks Zelda TP. Bah. // if (DSPAnalyzer::code_flags[addr] & DSPAnalyzer::CODE_LOOP_END) { // TODO: Change to TEST for some reason (who added this comment?) MOVZX(32, 16, EAX, M(&(g_dsp.r[DSP_REG_ST2]))); CMP(32, R(EAX), Imm32(0)); FixupBranch rLoopAddressExit = J_CC(CC_LE); MOVZX(32, 16, EAX, M(&(g_dsp.r[DSP_REG_ST3]))); CMP(32, R(EAX), Imm32(0)); FixupBranch rLoopCounterExit = J_CC(CC_LE); // These functions branch and therefore only need to be called in the // end of each block and in this order ABI_CallFunction((void *)&DSPInterpreter::HandleLoop); // ABI_RestoreStack(0); ABI_PopAllCalleeSavedRegsAndAdjustStack(); RET(); SetJumpTarget(rLoopAddressExit); SetJumpTarget(rLoopCounterExit); } // End the block if we're at a loop end. if (opcode->branch || (DSPAnalyzer::code_flags[addr] & DSPAnalyzer::CODE_LOOP_END) || (DSPAnalyzer::code_flags[addr] & DSPAnalyzer::CODE_IDLE_SKIP)) { break; } addr += opcode->size; blockSize[start_addr]++; } // ABI_RestoreStack(0); ABI_PopAllCalleeSavedRegsAndAdjustStack(); RET(); blocks[start_addr] = (CompiledCode)entryPoint; return entryPoint; } void STACKALIGN DSPEmitter::CompileDispatcher() { /* // TODO enterDispatcher = GetCodePtr(); AlignCode16(); ABI_PushAllCalleeSavedRegsAndAdjustStack(); const u8 *outer_loop = GetCodePtr(); //Landing pad for drec space ABI_PopAllCalleeSavedRegsAndAdjustStack(); RET();*/ } // Don't use the % operator in the inner loop. It's slow. int STACKALIGN DSPEmitter::RunForCycles(int cycles) { const int idle_cycles = 1000; while (!(g_dsp.cr & CR_HALT)) { // Compile the block if needed u16 block_addr = g_dsp.pc; if (!blocks[block_addr]) { CompileCurrent(); } int block_size = blockSize[block_addr]; // Execute the block if we have enough cycles if (cycles > block_size) { blocks[block_addr](); if (DSPAnalyzer::code_flags[block_addr] & DSPAnalyzer::CODE_IDLE_SKIP) { if (cycles > idle_cycles) cycles -= idle_cycles; else cycles = 0; } else { cycles -= block_size; } } else { break; } } return cycles; }