mirror of
https://github.com/c64scene-ar/llvm-6502.git
synced 2024-12-14 11:32:34 +00:00
afc0340d96
SHT_NOBITS sections do not have content in an object file. Now the yaml2obj tool does not accept `Content` field for such sections, and the obj2yaml tool does not attempt to read the section content from a file. Restore r241350 and r241352. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@241377 91177308-0d34-0410-b5e6-96231b3b80d8
320 lines
8.8 KiB
C++
320 lines
8.8 KiB
C++
//===- ELFYAML.h - ELF YAMLIO implementation --------------------*- 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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/// \file
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/// \brief This file declares classes for handling the YAML representation
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/// of ELF.
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///
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_OBJECT_ELFYAML_H
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#define LLVM_OBJECT_ELFYAML_H
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#include "llvm/MC/YAML.h"
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#include "llvm/Support/ELF.h"
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namespace llvm {
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namespace ELFYAML {
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// These types are invariant across 32/64-bit ELF, so for simplicity just
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// directly give them their exact sizes. We don't need to worry about
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// endianness because these are just the types in the YAMLIO structures,
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// and are appropriately converted to the necessary endianness when
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// reading/generating binary object files.
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// The naming of these types is intended to be ELF_PREFIX, where PREFIX is
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// the common prefix of the respective constants. E.g. ELF_EM corresponds
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// to the `e_machine` constants, like `EM_X86_64`.
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// In the future, these would probably be better suited by C++11 enum
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// class's with appropriate fixed underlying type.
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LLVM_YAML_STRONG_TYPEDEF(uint16_t, ELF_ET)
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LLVM_YAML_STRONG_TYPEDEF(uint32_t, ELF_EM)
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LLVM_YAML_STRONG_TYPEDEF(uint8_t, ELF_ELFCLASS)
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LLVM_YAML_STRONG_TYPEDEF(uint8_t, ELF_ELFDATA)
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LLVM_YAML_STRONG_TYPEDEF(uint8_t, ELF_ELFOSABI)
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// Just use 64, since it can hold 32-bit values too.
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LLVM_YAML_STRONG_TYPEDEF(uint64_t, ELF_EF)
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LLVM_YAML_STRONG_TYPEDEF(uint32_t, ELF_SHT)
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LLVM_YAML_STRONG_TYPEDEF(uint32_t, ELF_REL)
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LLVM_YAML_STRONG_TYPEDEF(uint8_t, ELF_RSS)
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// Just use 64, since it can hold 32-bit values too.
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LLVM_YAML_STRONG_TYPEDEF(uint64_t, ELF_SHF)
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LLVM_YAML_STRONG_TYPEDEF(uint8_t, ELF_STT)
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LLVM_YAML_STRONG_TYPEDEF(uint8_t, ELF_STV)
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LLVM_YAML_STRONG_TYPEDEF(uint8_t, ELF_STO)
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LLVM_YAML_STRONG_TYPEDEF(uint8_t, MIPS_AFL_REG)
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LLVM_YAML_STRONG_TYPEDEF(uint8_t, MIPS_ABI_FP)
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LLVM_YAML_STRONG_TYPEDEF(uint32_t, MIPS_AFL_EXT)
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LLVM_YAML_STRONG_TYPEDEF(uint32_t, MIPS_AFL_ASE)
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LLVM_YAML_STRONG_TYPEDEF(uint32_t, MIPS_AFL_FLAGS1)
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LLVM_YAML_STRONG_TYPEDEF(uint32_t, MIPS_ISA)
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// For now, hardcode 64 bits everywhere that 32 or 64 would be needed
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// since 64-bit can hold 32-bit values too.
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struct FileHeader {
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ELF_ELFCLASS Class;
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ELF_ELFDATA Data;
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ELF_ELFOSABI OSABI;
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ELF_ET Type;
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ELF_EM Machine;
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ELF_EF Flags;
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llvm::yaml::Hex64 Entry;
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};
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struct Symbol {
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StringRef Name;
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ELF_STT Type;
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StringRef Section;
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llvm::yaml::Hex64 Value;
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llvm::yaml::Hex64 Size;
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uint8_t Other;
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};
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struct LocalGlobalWeakSymbols {
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std::vector<Symbol> Local;
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std::vector<Symbol> Global;
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std::vector<Symbol> Weak;
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};
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struct SectionOrType {
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StringRef sectionNameOrType;
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};
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struct Section {
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enum class SectionKind {
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Group,
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RawContent,
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Relocation,
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NoBits,
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MipsABIFlags
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};
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SectionKind Kind;
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StringRef Name;
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ELF_SHT Type;
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ELF_SHF Flags;
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llvm::yaml::Hex64 Address;
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StringRef Link;
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StringRef Info;
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llvm::yaml::Hex64 AddressAlign;
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Section(SectionKind Kind) : Kind(Kind) {}
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virtual ~Section();
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};
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struct RawContentSection : Section {
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yaml::BinaryRef Content;
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llvm::yaml::Hex64 Size;
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RawContentSection() : Section(SectionKind::RawContent) {}
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static bool classof(const Section *S) {
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return S->Kind == SectionKind::RawContent;
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}
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};
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struct NoBitsSection : Section {
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llvm::yaml::Hex64 Size;
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NoBitsSection() : Section(SectionKind::NoBits) {}
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static bool classof(const Section *S) {
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return S->Kind == SectionKind::NoBits;
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}
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};
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struct Group : Section {
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// Members of a group contain a flag and a list of section indices
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// that are part of the group.
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std::vector<SectionOrType> Members;
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Group() : Section(SectionKind::Group) {}
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static bool classof(const Section *S) {
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return S->Kind == SectionKind::Group;
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}
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};
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struct Relocation {
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llvm::yaml::Hex64 Offset;
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int64_t Addend;
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ELF_REL Type;
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StringRef Symbol;
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};
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struct RelocationSection : Section {
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std::vector<Relocation> Relocations;
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RelocationSection() : Section(SectionKind::Relocation) {}
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static bool classof(const Section *S) {
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return S->Kind == SectionKind::Relocation;
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}
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};
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// Represents .MIPS.abiflags section
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struct MipsABIFlags : Section {
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llvm::yaml::Hex16 Version;
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MIPS_ISA ISALevel;
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llvm::yaml::Hex8 ISARevision;
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MIPS_AFL_REG GPRSize;
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MIPS_AFL_REG CPR1Size;
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MIPS_AFL_REG CPR2Size;
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MIPS_ABI_FP FpABI;
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MIPS_AFL_EXT ISAExtension;
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MIPS_AFL_ASE ASEs;
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MIPS_AFL_FLAGS1 Flags1;
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llvm::yaml::Hex32 Flags2;
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MipsABIFlags() : Section(SectionKind::MipsABIFlags) {}
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static bool classof(const Section *S) {
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return S->Kind == SectionKind::MipsABIFlags;
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}
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};
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struct Object {
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FileHeader Header;
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std::vector<std::unique_ptr<Section>> Sections;
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// Although in reality the symbols reside in a section, it is a lot
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// cleaner and nicer if we read them from the YAML as a separate
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// top-level key, which automatically ensures that invariants like there
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// being a single SHT_SYMTAB section are upheld.
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LocalGlobalWeakSymbols Symbols;
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};
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} // end namespace ELFYAML
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} // end namespace llvm
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LLVM_YAML_IS_SEQUENCE_VECTOR(std::unique_ptr<llvm::ELFYAML::Section>)
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LLVM_YAML_IS_SEQUENCE_VECTOR(llvm::ELFYAML::Symbol)
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LLVM_YAML_IS_SEQUENCE_VECTOR(llvm::ELFYAML::Relocation)
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LLVM_YAML_IS_SEQUENCE_VECTOR(llvm::ELFYAML::SectionOrType)
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namespace llvm {
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namespace yaml {
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template <>
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struct ScalarEnumerationTraits<ELFYAML::ELF_ET> {
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static void enumeration(IO &IO, ELFYAML::ELF_ET &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::ELF_EM> {
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static void enumeration(IO &IO, ELFYAML::ELF_EM &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::ELF_ELFCLASS> {
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static void enumeration(IO &IO, ELFYAML::ELF_ELFCLASS &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::ELF_ELFDATA> {
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static void enumeration(IO &IO, ELFYAML::ELF_ELFDATA &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::ELF_ELFOSABI> {
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static void enumeration(IO &IO, ELFYAML::ELF_ELFOSABI &Value);
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};
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template <>
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struct ScalarBitSetTraits<ELFYAML::ELF_EF> {
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static void bitset(IO &IO, ELFYAML::ELF_EF &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::ELF_SHT> {
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static void enumeration(IO &IO, ELFYAML::ELF_SHT &Value);
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};
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template <>
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struct ScalarBitSetTraits<ELFYAML::ELF_SHF> {
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static void bitset(IO &IO, ELFYAML::ELF_SHF &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::ELF_STT> {
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static void enumeration(IO &IO, ELFYAML::ELF_STT &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::ELF_STV> {
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static void enumeration(IO &IO, ELFYAML::ELF_STV &Value);
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};
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template <>
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struct ScalarBitSetTraits<ELFYAML::ELF_STO> {
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static void bitset(IO &IO, ELFYAML::ELF_STO &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::ELF_REL> {
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static void enumeration(IO &IO, ELFYAML::ELF_REL &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::ELF_RSS> {
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static void enumeration(IO &IO, ELFYAML::ELF_RSS &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::MIPS_AFL_REG> {
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static void enumeration(IO &IO, ELFYAML::MIPS_AFL_REG &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::MIPS_ABI_FP> {
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static void enumeration(IO &IO, ELFYAML::MIPS_ABI_FP &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::MIPS_AFL_EXT> {
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static void enumeration(IO &IO, ELFYAML::MIPS_AFL_EXT &Value);
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};
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template <>
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struct ScalarEnumerationTraits<ELFYAML::MIPS_ISA> {
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static void enumeration(IO &IO, ELFYAML::MIPS_ISA &Value);
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};
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template <>
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struct ScalarBitSetTraits<ELFYAML::MIPS_AFL_ASE> {
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static void bitset(IO &IO, ELFYAML::MIPS_AFL_ASE &Value);
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};
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template <>
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struct ScalarBitSetTraits<ELFYAML::MIPS_AFL_FLAGS1> {
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static void bitset(IO &IO, ELFYAML::MIPS_AFL_FLAGS1 &Value);
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};
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template <>
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struct MappingTraits<ELFYAML::FileHeader> {
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static void mapping(IO &IO, ELFYAML::FileHeader &FileHdr);
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};
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template <>
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struct MappingTraits<ELFYAML::Symbol> {
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static void mapping(IO &IO, ELFYAML::Symbol &Symbol);
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};
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template <>
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struct MappingTraits<ELFYAML::LocalGlobalWeakSymbols> {
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static void mapping(IO &IO, ELFYAML::LocalGlobalWeakSymbols &Symbols);
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};
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template <> struct MappingTraits<ELFYAML::Relocation> {
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static void mapping(IO &IO, ELFYAML::Relocation &Rel);
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};
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template <>
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struct MappingTraits<std::unique_ptr<ELFYAML::Section>> {
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static void mapping(IO &IO, std::unique_ptr<ELFYAML::Section> &Section);
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static StringRef validate(IO &io, std::unique_ptr<ELFYAML::Section> &Section);
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};
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template <>
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struct MappingTraits<ELFYAML::Object> {
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static void mapping(IO &IO, ELFYAML::Object &Object);
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};
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template <> struct MappingTraits<ELFYAML::SectionOrType> {
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static void mapping(IO &IO, ELFYAML::SectionOrType §ionOrType);
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};
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} // end namespace yaml
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} // end namespace llvm
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#endif
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