mirror of
https://github.com/c64scene-ar/llvm-6502.git
synced 2024-11-11 08:07:22 +00:00
0c8ae782cb
Fix some problems with the hidden copy constructors for ImmutableMap/ImmutableSet found by Clang++. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@86186 91177308-0d34-0410-b5e6-96231b3b80d8
354 lines
11 KiB
C++
354 lines
11 KiB
C++
//===-- llvm/CodeGen/BinaryObject.h - Binary Object. -----------*- C++ -*-===//
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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 defines a Binary Object Aka. "blob" for holding data from code
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// generators, ready for data to the object module code writters.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_CODEGEN_BINARYOBJECT_H
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#define LLVM_CODEGEN_BINARYOBJECT_H
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#include "llvm/CodeGen/MachineRelocation.h"
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#include "llvm/System/DataTypes.h"
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#include <string>
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#include <vector>
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namespace llvm {
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typedef std::vector<uint8_t> BinaryData;
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class BinaryObject {
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protected:
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std::string Name;
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bool IsLittleEndian;
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bool Is64Bit;
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BinaryData Data;
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std::vector<MachineRelocation> Relocations;
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public:
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/// Constructors and destructor
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BinaryObject() {}
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BinaryObject(bool isLittleEndian, bool is64Bit)
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: IsLittleEndian(isLittleEndian), Is64Bit(is64Bit) {}
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BinaryObject(const std::string &name, bool isLittleEndian, bool is64Bit)
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: Name(name), IsLittleEndian(isLittleEndian), Is64Bit(is64Bit) {}
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~BinaryObject() {}
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/// getName - get name of BinaryObject
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inline std::string getName() const { return Name; }
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/// get size of binary data
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size_t size() const {
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return Data.size();
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}
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/// get binary data
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BinaryData& getData() {
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return Data;
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}
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/// get machine relocations
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const std::vector<MachineRelocation>& getRelocations() const {
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return Relocations;
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}
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/// hasRelocations - Return true if 'Relocations' is not empty
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bool hasRelocations() const {
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return !Relocations.empty();
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}
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/// emitZeros - This callback is invoked to emit a arbitrary number
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/// of zero bytes to the data stream.
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inline void emitZeros(unsigned Size) {
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for (unsigned i=0; i < Size; ++i)
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emitByte(0);
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}
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/// emitByte - This callback is invoked when a byte needs to be
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/// written to the data stream.
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inline void emitByte(uint8_t B) {
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Data.push_back(B);
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}
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/// emitWord16 - This callback is invoked when a 16-bit word needs to be
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/// written to the data stream in correct endian format and correct size.
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inline void emitWord16(uint16_t W) {
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if (IsLittleEndian)
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emitWord16LE(W);
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else
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emitWord16BE(W);
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}
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/// emitWord16LE - This callback is invoked when a 16-bit word needs to be
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/// written to the data stream in correct endian format and correct size.
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inline void emitWord16LE(uint16_t W) {
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Data.push_back((uint8_t)(W >> 0));
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Data.push_back((uint8_t)(W >> 8));
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}
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/// emitWord16BE - This callback is invoked when a 16-bit word needs to be
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/// written to the data stream in correct endian format and correct size.
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inline void emitWord16BE(uint16_t W) {
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Data.push_back((uint8_t)(W >> 8));
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Data.push_back((uint8_t)(W >> 0));
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}
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/// emitWord - This callback is invoked when a word needs to be
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/// written to the data stream in correct endian format and correct size.
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inline void emitWord(uint64_t W) {
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if (!Is64Bit)
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emitWord32(W);
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else
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emitWord64(W);
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}
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/// emitWord32 - This callback is invoked when a 32-bit word needs to be
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/// written to the data stream in correct endian format.
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inline void emitWord32(uint32_t W) {
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if (IsLittleEndian)
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emitWordLE(W);
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else
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emitWordBE(W);
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}
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/// emitWord64 - This callback is invoked when a 32-bit word needs to be
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/// written to the data stream in correct endian format.
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inline void emitWord64(uint64_t W) {
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if (IsLittleEndian)
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emitDWordLE(W);
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else
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emitDWordBE(W);
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}
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/// emitWord64 - This callback is invoked when a x86_fp80 needs to be
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/// written to the data stream in correct endian format.
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inline void emitWordFP80(const uint64_t *W, unsigned PadSize) {
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if (IsLittleEndian) {
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emitWord64(W[0]);
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emitWord16(W[1]);
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} else {
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emitWord16(W[1]);
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emitWord64(W[0]);
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}
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emitZeros(PadSize);
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}
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/// emitWordLE - This callback is invoked when a 32-bit word needs to be
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/// written to the data stream in little-endian format.
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inline void emitWordLE(uint32_t W) {
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Data.push_back((uint8_t)(W >> 0));
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Data.push_back((uint8_t)(W >> 8));
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Data.push_back((uint8_t)(W >> 16));
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Data.push_back((uint8_t)(W >> 24));
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}
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/// emitWordBE - This callback is invoked when a 32-bit word needs to be
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/// written to the data stream in big-endian format.
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///
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inline void emitWordBE(uint32_t W) {
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Data.push_back((uint8_t)(W >> 24));
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Data.push_back((uint8_t)(W >> 16));
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Data.push_back((uint8_t)(W >> 8));
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Data.push_back((uint8_t)(W >> 0));
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}
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/// emitDWordLE - This callback is invoked when a 64-bit word needs to be
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/// written to the data stream in little-endian format.
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inline void emitDWordLE(uint64_t W) {
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Data.push_back((uint8_t)(W >> 0));
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Data.push_back((uint8_t)(W >> 8));
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Data.push_back((uint8_t)(W >> 16));
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Data.push_back((uint8_t)(W >> 24));
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Data.push_back((uint8_t)(W >> 32));
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Data.push_back((uint8_t)(W >> 40));
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Data.push_back((uint8_t)(W >> 48));
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Data.push_back((uint8_t)(W >> 56));
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}
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/// emitDWordBE - This callback is invoked when a 64-bit word needs to be
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/// written to the data stream in big-endian format.
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inline void emitDWordBE(uint64_t W) {
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Data.push_back((uint8_t)(W >> 56));
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Data.push_back((uint8_t)(W >> 48));
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Data.push_back((uint8_t)(W >> 40));
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Data.push_back((uint8_t)(W >> 32));
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Data.push_back((uint8_t)(W >> 24));
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Data.push_back((uint8_t)(W >> 16));
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Data.push_back((uint8_t)(W >> 8));
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Data.push_back((uint8_t)(W >> 0));
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}
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/// fixByte - This callback is invoked when a byte needs to be
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/// fixup the buffer.
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inline void fixByte(uint8_t B, uint32_t offset) {
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Data[offset] = B;
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}
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/// fixWord16 - This callback is invoked when a 16-bit word needs to
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/// fixup the data stream in correct endian format.
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inline void fixWord16(uint16_t W, uint32_t offset) {
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if (IsLittleEndian)
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fixWord16LE(W, offset);
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else
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fixWord16BE(W, offset);
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}
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/// emitWord16LE - This callback is invoked when a 16-bit word needs to
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/// fixup the data stream in little endian format.
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inline void fixWord16LE(uint16_t W, uint32_t offset) {
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Data[offset] = (uint8_t)(W >> 0);
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Data[++offset] = (uint8_t)(W >> 8);
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}
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/// fixWord16BE - This callback is invoked when a 16-bit word needs to
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/// fixup data stream in big endian format.
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inline void fixWord16BE(uint16_t W, uint32_t offset) {
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Data[offset] = (uint8_t)(W >> 8);
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Data[++offset] = (uint8_t)(W >> 0);
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}
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/// emitWord - This callback is invoked when a word needs to
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/// fixup the data in correct endian format and correct size.
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inline void fixWord(uint64_t W, uint32_t offset) {
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if (!Is64Bit)
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fixWord32(W, offset);
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else
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fixWord64(W, offset);
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}
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/// fixWord32 - This callback is invoked when a 32-bit word needs to
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/// fixup the data in correct endian format.
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inline void fixWord32(uint32_t W, uint32_t offset) {
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if (IsLittleEndian)
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fixWord32LE(W, offset);
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else
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fixWord32BE(W, offset);
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}
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/// fixWord32LE - This callback is invoked when a 32-bit word needs to
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/// fixup the data in little endian format.
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inline void fixWord32LE(uint32_t W, uint32_t offset) {
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Data[offset] = (uint8_t)(W >> 0);
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Data[++offset] = (uint8_t)(W >> 8);
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Data[++offset] = (uint8_t)(W >> 16);
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Data[++offset] = (uint8_t)(W >> 24);
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}
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/// fixWord32BE - This callback is invoked when a 32-bit word needs to
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/// fixup the data in big endian format.
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inline void fixWord32BE(uint32_t W, uint32_t offset) {
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Data[offset] = (uint8_t)(W >> 24);
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Data[++offset] = (uint8_t)(W >> 16);
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Data[++offset] = (uint8_t)(W >> 8);
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Data[++offset] = (uint8_t)(W >> 0);
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}
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/// fixWord64 - This callback is invoked when a 64-bit word needs to
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/// fixup the data in correct endian format.
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inline void fixWord64(uint64_t W, uint32_t offset) {
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if (IsLittleEndian)
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fixWord64LE(W, offset);
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else
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fixWord64BE(W, offset);
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}
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/// fixWord64BE - This callback is invoked when a 64-bit word needs to
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/// fixup the data in little endian format.
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inline void fixWord64LE(uint64_t W, uint32_t offset) {
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Data[offset] = (uint8_t)(W >> 0);
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Data[++offset] = (uint8_t)(W >> 8);
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Data[++offset] = (uint8_t)(W >> 16);
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Data[++offset] = (uint8_t)(W >> 24);
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Data[++offset] = (uint8_t)(W >> 32);
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Data[++offset] = (uint8_t)(W >> 40);
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Data[++offset] = (uint8_t)(W >> 48);
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Data[++offset] = (uint8_t)(W >> 56);
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}
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/// fixWord64BE - This callback is invoked when a 64-bit word needs to
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/// fixup the data in big endian format.
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inline void fixWord64BE(uint64_t W, uint32_t offset) {
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Data[offset] = (uint8_t)(W >> 56);
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Data[++offset] = (uint8_t)(W >> 48);
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Data[++offset] = (uint8_t)(W >> 40);
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Data[++offset] = (uint8_t)(W >> 32);
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Data[++offset] = (uint8_t)(W >> 24);
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Data[++offset] = (uint8_t)(W >> 16);
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Data[++offset] = (uint8_t)(W >> 8);
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Data[++offset] = (uint8_t)(W >> 0);
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}
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/// emitAlignment - Pad the data to the specified alignment.
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void emitAlignment(unsigned Alignment, uint8_t fill = 0) {
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if (Alignment <= 1) return;
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unsigned PadSize = -Data.size() & (Alignment-1);
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for (unsigned i = 0; i<PadSize; ++i)
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Data.push_back(fill);
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}
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/// emitULEB128Bytes - This callback is invoked when a ULEB128 needs to be
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/// written to the data stream.
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void emitULEB128Bytes(uint64_t Value) {
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do {
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uint8_t Byte = (uint8_t)(Value & 0x7f);
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Value >>= 7;
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if (Value) Byte |= 0x80;
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emitByte(Byte);
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} while (Value);
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}
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/// emitSLEB128Bytes - This callback is invoked when a SLEB128 needs to be
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/// written to the data stream.
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void emitSLEB128Bytes(int64_t Value) {
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int Sign = Value >> (8 * sizeof(Value) - 1);
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bool IsMore;
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do {
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uint8_t Byte = (uint8_t)(Value & 0x7f);
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Value >>= 7;
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IsMore = Value != Sign || ((Byte ^ Sign) & 0x40) != 0;
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if (IsMore) Byte |= 0x80;
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emitByte(Byte);
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} while (IsMore);
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}
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/// emitString - This callback is invoked when a String needs to be
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/// written to the data stream.
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void emitString(const std::string &String) {
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for (unsigned i = 0, N = static_cast<unsigned>(String.size()); i<N; ++i) {
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unsigned char C = String[i];
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emitByte(C);
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}
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emitByte(0);
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}
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/// getCurrentPCOffset - Return the offset from the start of the emitted
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/// buffer that we are currently writing to.
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uintptr_t getCurrentPCOffset() const {
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return Data.size();
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}
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/// addRelocation - Whenever a relocatable address is needed, it should be
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/// noted with this interface.
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void addRelocation(const MachineRelocation& relocation) {
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Relocations.push_back(relocation);
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}
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};
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} // end namespace llvm
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#endif
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