mirror of
https://github.com/c64scene-ar/llvm-6502.git
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847da55716
better in the llvm world. Among other things, this changes: 1. The guts of libedis are now moved into lib/MC/MCDisassembler 2. llvm-mc now depends on lib/MC/MCDisassembler, not tools/edis, so edis and mc don't have to be built in series. 3. lib/MC/MCDisassembler no longer depends on the C api, the C API depends on it. 4. Various code cleanup changes. There is still a lot to be done to make edis fit with the llvm design, but this is an incremental step in the right direction. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@108869 91177308-0d34-0410-b5e6-96231b3b80d8
283 lines
7.8 KiB
C++
283 lines
7.8 KiB
C++
//===-- EDOperand.cpp - LLVM Enhanced Disassembler ------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the Enhanced Disassembly library's operand class. The
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// operand is responsible for allowing evaluation given a particular register
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// context.
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//
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//===----------------------------------------------------------------------===//
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#include "EDOperand.h"
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#include "EDDisassembler.h"
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#include "EDInst.h"
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#include "llvm/MC/EDInstInfo.h"
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#include "llvm/MC/MCInst.h"
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using namespace llvm;
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EDOperand::EDOperand(const EDDisassembler &disassembler,
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const EDInst &inst,
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unsigned int opIndex,
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unsigned int &mcOpIndex) :
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Disassembler(disassembler),
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Inst(inst),
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OpIndex(opIndex),
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MCOpIndex(mcOpIndex) {
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unsigned int numMCOperands = 0;
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if (Disassembler.Key.Arch == Triple::x86 ||
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Disassembler.Key.Arch == Triple::x86_64) {
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uint8_t operandType = inst.ThisInstInfo->operandTypes[opIndex];
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switch (operandType) {
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default:
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break;
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case kOperandTypeImmediate:
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numMCOperands = 1;
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break;
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case kOperandTypeRegister:
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numMCOperands = 1;
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break;
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case kOperandTypeX86Memory:
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numMCOperands = 5;
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break;
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case kOperandTypeX86EffectiveAddress:
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numMCOperands = 4;
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break;
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case kOperandTypeX86PCRelative:
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numMCOperands = 1;
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break;
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}
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}
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else if (Disassembler.Key.Arch == Triple::arm ||
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Disassembler.Key.Arch == Triple::thumb) {
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uint8_t operandType = inst.ThisInstInfo->operandTypes[opIndex];
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switch (operandType) {
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default:
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case kOperandTypeARMRegisterList:
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break;
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case kOperandTypeImmediate:
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case kOperandTypeRegister:
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case kOperandTypeARMBranchTarget:
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case kOperandTypeARMSoImm:
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case kOperandTypeThumb2SoImm:
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case kOperandTypeARMSoImm2Part:
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case kOperandTypeARMPredicate:
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case kOperandTypeThumbITMask:
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case kOperandTypeThumb2AddrModeImm8Offset:
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case kOperandTypeARMTBAddrMode:
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case kOperandTypeThumb2AddrModeImm8s4Offset:
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numMCOperands = 1;
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break;
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case kOperandTypeThumb2SoReg:
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case kOperandTypeARMAddrMode2Offset:
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case kOperandTypeARMAddrMode3Offset:
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case kOperandTypeARMAddrMode4:
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case kOperandTypeARMAddrMode5:
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case kOperandTypeARMAddrModePC:
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case kOperandTypeThumb2AddrModeImm8:
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case kOperandTypeThumb2AddrModeImm12:
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case kOperandTypeThumb2AddrModeImm8s4:
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case kOperandTypeThumbAddrModeRR:
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case kOperandTypeThumbAddrModeSP:
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numMCOperands = 2;
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break;
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case kOperandTypeARMSoReg:
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case kOperandTypeARMAddrMode2:
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case kOperandTypeARMAddrMode3:
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case kOperandTypeThumb2AddrModeSoReg:
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case kOperandTypeThumbAddrModeS1:
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case kOperandTypeThumbAddrModeS2:
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case kOperandTypeThumbAddrModeS4:
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case kOperandTypeARMAddrMode6Offset:
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numMCOperands = 3;
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break;
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case kOperandTypeARMAddrMode6:
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numMCOperands = 4;
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break;
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}
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}
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mcOpIndex += numMCOperands;
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}
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EDOperand::~EDOperand() {
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}
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int EDOperand::evaluate(uint64_t &result,
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EDRegisterReaderCallback callback,
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void *arg) {
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uint8_t operandType = Inst.ThisInstInfo->operandTypes[OpIndex];
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switch (Disassembler.Key.Arch) {
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default:
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return -1;
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case Triple::x86:
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case Triple::x86_64:
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switch (operandType) {
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default:
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return -1;
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case kOperandTypeImmediate:
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result = Inst.Inst->getOperand(MCOpIndex).getImm();
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return 0;
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case kOperandTypeRegister:
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{
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unsigned reg = Inst.Inst->getOperand(MCOpIndex).getReg();
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return callback(&result, reg, arg);
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}
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case kOperandTypeX86PCRelative:
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{
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int64_t displacement = Inst.Inst->getOperand(MCOpIndex).getImm();
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uint64_t ripVal;
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// TODO fix how we do this
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if (callback(&ripVal, Disassembler.registerIDWithName("RIP"), arg))
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return -1;
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result = ripVal + displacement;
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return 0;
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}
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case kOperandTypeX86Memory:
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case kOperandTypeX86EffectiveAddress:
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{
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unsigned baseReg = Inst.Inst->getOperand(MCOpIndex).getReg();
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uint64_t scaleAmount = Inst.Inst->getOperand(MCOpIndex+1).getImm();
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unsigned indexReg = Inst.Inst->getOperand(MCOpIndex+2).getReg();
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int64_t displacement = Inst.Inst->getOperand(MCOpIndex+3).getImm();
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//unsigned segmentReg = Inst.Inst->getOperand(MCOpIndex+4).getReg();
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uint64_t addr = 0;
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if (baseReg) {
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uint64_t baseVal;
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if (callback(&baseVal, baseReg, arg))
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return -1;
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addr += baseVal;
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}
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if (indexReg) {
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uint64_t indexVal;
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if (callback(&indexVal, indexReg, arg))
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return -1;
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addr += (scaleAmount * indexVal);
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}
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addr += displacement;
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result = addr;
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return 0;
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}
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}
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break;
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case Triple::arm:
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case Triple::thumb:
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switch (operandType) {
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default:
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return -1;
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case kOperandTypeImmediate:
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result = Inst.Inst->getOperand(MCOpIndex).getImm();
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return 0;
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case kOperandTypeRegister:
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{
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unsigned reg = Inst.Inst->getOperand(MCOpIndex).getReg();
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return callback(&result, reg, arg);
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}
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case kOperandTypeARMBranchTarget:
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{
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int64_t displacement = Inst.Inst->getOperand(MCOpIndex).getImm();
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uint64_t pcVal;
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if (callback(&pcVal, Disassembler.registerIDWithName("PC"), arg))
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return -1;
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result = pcVal + displacement;
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return 0;
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}
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}
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}
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return -1;
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}
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int EDOperand::isRegister() {
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return(Inst.ThisInstInfo->operandFlags[OpIndex] == kOperandTypeRegister);
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}
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unsigned EDOperand::regVal() {
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return Inst.Inst->getOperand(MCOpIndex).getReg();
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}
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int EDOperand::isImmediate() {
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return(Inst.ThisInstInfo->operandFlags[OpIndex] == kOperandTypeImmediate);
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}
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uint64_t EDOperand::immediateVal() {
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return Inst.Inst->getOperand(MCOpIndex).getImm();
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}
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int EDOperand::isMemory() {
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uint8_t operandType = Inst.ThisInstInfo->operandTypes[OpIndex];
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switch (operandType) {
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default:
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return 0;
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case kOperandTypeX86Memory:
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case kOperandTypeX86PCRelative:
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case kOperandTypeX86EffectiveAddress:
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case kOperandTypeARMSoReg:
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case kOperandTypeARMSoImm:
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case kOperandTypeARMAddrMode2:
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case kOperandTypeARMAddrMode2Offset:
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case kOperandTypeARMAddrMode3:
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case kOperandTypeARMAddrMode3Offset:
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case kOperandTypeARMAddrMode4:
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case kOperandTypeARMAddrMode5:
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case kOperandTypeARMAddrMode6:
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case kOperandTypeARMAddrModePC:
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case kOperandTypeARMBranchTarget:
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case kOperandTypeThumbAddrModeS1:
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case kOperandTypeThumbAddrModeS2:
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case kOperandTypeThumbAddrModeS4:
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case kOperandTypeThumbAddrModeRR:
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case kOperandTypeThumbAddrModeSP:
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case kOperandTypeThumb2SoImm:
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case kOperandTypeThumb2AddrModeImm8:
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case kOperandTypeThumb2AddrModeImm8Offset:
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case kOperandTypeThumb2AddrModeImm12:
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case kOperandTypeThumb2AddrModeSoReg:
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case kOperandTypeThumb2AddrModeImm8s4:
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return 1;
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}
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}
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#ifdef __BLOCKS__
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struct RegisterReaderWrapper {
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EDOperand::EDRegisterBlock_t regBlock;
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};
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int readerWrapperCallback(uint64_t *value,
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unsigned regID,
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void *arg) {
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struct RegisterReaderWrapper *wrapper = (struct RegisterReaderWrapper *)arg;
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return wrapper->regBlock(value, regID);
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}
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int EDOperand::evaluate(uint64_t &result,
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EDRegisterBlock_t regBlock) {
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struct RegisterReaderWrapper wrapper;
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wrapper.regBlock = regBlock;
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return evaluate(result,
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readerWrapperCallback,
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(void*)&wrapper);
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}
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#endif
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