//===-EDInst.cpp - LLVM Enhanced Disassembler -----------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file implements the Enhanced Disassembly library's instruction class. // The instruction is responsible for vending the string representation, // individual tokens, and operands for a single instruction. // //===----------------------------------------------------------------------===// #include "EDInst.h" #include "EDDisassembler.h" #include "EDOperand.h" #include "EDToken.h" #include "llvm/MC/EDInstInfo.h" #include "llvm/MC/MCInst.h" using namespace llvm; EDInst::EDInst(llvm::MCInst *inst, uint64_t byteSize, EDDisassembler &disassembler, const llvm::EDInstInfo *info) : Disassembler(disassembler), Inst(inst), ThisInstInfo(info), ByteSize(byteSize), BranchTarget(-1), MoveSource(-1), MoveTarget(-1) { OperandOrder = ThisInstInfo->operandOrders[Disassembler.llvmSyntaxVariant()]; } EDInst::~EDInst() { unsigned int index; unsigned int numOperands = Operands.size(); for (index = 0; index < numOperands; ++index) delete Operands[index]; unsigned int numTokens = Tokens.size(); for (index = 0; index < numTokens; ++index) delete Tokens[index]; delete Inst; } uint64_t EDInst::byteSize() { return ByteSize; } int EDInst::stringify() { if (StringifyResult.valid()) return StringifyResult.result(); if (Disassembler.printInst(String, *Inst)) return StringifyResult.setResult(-1); String.push_back('\n'); return StringifyResult.setResult(0); } int EDInst::getString(const char*& str) { if (stringify()) return -1; str = String.c_str(); return 0; } unsigned EDInst::instID() { return Inst->getOpcode(); } bool EDInst::isBranch() { if (ThisInstInfo) return ThisInstInfo->instructionType == kInstructionTypeBranch || ThisInstInfo->instructionType == kInstructionTypeCall; else return false; } bool EDInst::isMove() { if (ThisInstInfo) return ThisInstInfo->instructionType == kInstructionTypeMove; else return false; } int EDInst::parseOperands() { if (ParseResult.valid()) return ParseResult.result(); if (!ThisInstInfo) return ParseResult.setResult(-1); unsigned int opIndex; unsigned int mcOpIndex = 0; for (opIndex = 0; opIndex < ThisInstInfo->numOperands; ++opIndex) { if (isBranch() && (ThisInstInfo->operandFlags[opIndex] & kOperandFlagTarget)) { BranchTarget = opIndex; } else if (isMove()) { if (ThisInstInfo->operandFlags[opIndex] & kOperandFlagSource) MoveSource = opIndex; else if (ThisInstInfo->operandFlags[opIndex] & kOperandFlagTarget) MoveTarget = opIndex; } EDOperand *operand = new EDOperand(Disassembler, *this, opIndex, mcOpIndex); Operands.push_back(operand); } return ParseResult.setResult(0); } int EDInst::branchTargetID() { if (parseOperands()) return -1; return BranchTarget; } int EDInst::moveSourceID() { if (parseOperands()) return -1; return MoveSource; } int EDInst::moveTargetID() { if (parseOperands()) return -1; return MoveTarget; } int EDInst::numOperands() { if (parseOperands()) return -1; return Operands.size(); } int EDInst::getOperand(EDOperand *&operand, unsigned int index) { if (parseOperands()) return -1; if (index >= Operands.size()) return -1; operand = Operands[index]; return 0; } int EDInst::tokenize() { if (TokenizeResult.valid()) return TokenizeResult.result(); if (stringify()) return TokenizeResult.setResult(-1); return TokenizeResult.setResult(EDToken::tokenize(Tokens, String, OperandOrder, Disassembler)); } int EDInst::numTokens() { if (tokenize()) return -1; return Tokens.size(); } int EDInst::getToken(EDToken *&token, unsigned int index) { if (tokenize()) return -1; token = Tokens[index]; return 0; } #ifdef __BLOCKS__ int EDInst::visitTokens(EDTokenVisitor_t visitor) { if (tokenize()) return -1; tokvec_t::iterator iter; for (iter = Tokens.begin(); iter != Tokens.end(); ++iter) { int ret = visitor(*iter); if (ret == 1) return 0; if (ret != 0) return -1; } return 0; } #endif