375 lines
11 KiB
C
375 lines
11 KiB
C
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//===- IRSymtab.h - data definitions for IR symbol tables -------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file contains data definitions and a reader and builder for a symbol
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// table for LLVM IR. Its purpose is to allow linkers and other consumers of
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// bitcode files to efficiently read the symbol table for symbol resolution
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// purposes without needing to construct a module in memory.
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//
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// As with most object files the symbol table has two parts: the symbol table
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// itself and a string table which is referenced by the symbol table.
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//
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// A symbol table corresponds to a single bitcode file, which may consist of
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// multiple modules, so symbol tables may likewise contain symbols for multiple
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// modules.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_OBJECT_IRSYMTAB_H
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#define LLVM_OBJECT_IRSYMTAB_H
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/ADT/iterator_range.h"
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#include "llvm/IR/GlobalValue.h"
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#include "llvm/Object/SymbolicFile.h"
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#include "llvm/Support/Allocator.h"
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#include "llvm/Support/Endian.h"
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#include "llvm/Support/Error.h"
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#include <cassert>
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#include <cstdint>
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#include <vector>
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namespace llvm {
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struct BitcodeFileContents;
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class StringTableBuilder;
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namespace irsymtab {
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namespace storage {
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// The data structures in this namespace define the low-level serialization
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// format. Clients that just want to read a symbol table should use the
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// irsymtab::Reader class.
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using Word = support::ulittle32_t;
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/// A reference to a string in the string table.
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struct Str {
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Word Offset, Size;
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StringRef get(StringRef Strtab) const {
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return {Strtab.data() + Offset, Size};
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}
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};
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/// A reference to a range of objects in the symbol table.
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template <typename T> struct Range {
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Word Offset, Size;
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ArrayRef<T> get(StringRef Symtab) const {
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return {reinterpret_cast<const T *>(Symtab.data() + Offset), Size};
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}
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};
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/// Describes the range of a particular module's symbols within the symbol
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/// table.
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struct Module {
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Word Begin, End;
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/// The index of the first Uncommon for this Module.
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Word UncBegin;
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};
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/// This is equivalent to an IR comdat.
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struct Comdat {
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Str Name;
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};
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/// Contains the information needed by linkers for symbol resolution, as well as
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/// by the LTO implementation itself.
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struct Symbol {
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/// The mangled symbol name.
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Str Name;
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/// The unmangled symbol name, or the empty string if this is not an IR
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/// symbol.
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Str IRName;
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/// The index into Header::Comdats, or -1 if not a comdat member.
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Word ComdatIndex;
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Word Flags;
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enum FlagBits {
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FB_visibility, // 2 bits
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FB_has_uncommon = FB_visibility + 2,
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FB_undefined,
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FB_weak,
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FB_common,
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FB_indirect,
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FB_used,
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FB_tls,
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FB_may_omit,
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FB_global,
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FB_format_specific,
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FB_unnamed_addr,
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FB_executable,
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};
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};
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/// This data structure contains rarely used symbol fields and is optionally
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/// referenced by a Symbol.
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struct Uncommon {
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Word CommonSize, CommonAlign;
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/// COFF-specific: the name of the symbol that a weak external resolves to
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/// if not defined.
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Str COFFWeakExternFallbackName;
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/// Specified section name, if any.
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Str SectionName;
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};
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struct Header {
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/// Version number of the symtab format. This number should be incremented
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/// when the format changes, but it does not need to be incremented if a
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/// change to LLVM would cause it to create a different symbol table.
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Word Version;
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enum { kCurrentVersion = 2 };
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/// The producer's version string (LLVM_VERSION_STRING " " LLVM_REVISION).
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/// Consumers should rebuild the symbol table from IR if the producer's
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/// version does not match the consumer's version due to potential differences
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/// in symbol table format, symbol enumeration order and so on.
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Str Producer;
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Range<Module> Modules;
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Range<Comdat> Comdats;
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Range<Symbol> Symbols;
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Range<Uncommon> Uncommons;
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Str TargetTriple, SourceFileName;
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/// COFF-specific: linker directives.
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Str COFFLinkerOpts;
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/// Dependent Library Specifiers
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Range<Str> DependentLibraries;
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};
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} // end namespace storage
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/// Fills in Symtab and StrtabBuilder with a valid symbol and string table for
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/// Mods.
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Error build(ArrayRef<Module *> Mods, SmallVector<char, 0> &Symtab,
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StringTableBuilder &StrtabBuilder, BumpPtrAllocator &Alloc);
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/// This represents a symbol that has been read from a storage::Symbol and
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/// possibly a storage::Uncommon.
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struct Symbol {
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// Copied from storage::Symbol.
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StringRef Name, IRName;
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int ComdatIndex;
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uint32_t Flags;
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// Copied from storage::Uncommon.
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uint32_t CommonSize, CommonAlign;
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StringRef COFFWeakExternFallbackName;
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StringRef SectionName;
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/// Returns the mangled symbol name.
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StringRef getName() const { return Name; }
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/// Returns the unmangled symbol name, or the empty string if this is not an
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/// IR symbol.
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StringRef getIRName() const { return IRName; }
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/// Returns the index into the comdat table (see Reader::getComdatTable()), or
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/// -1 if not a comdat member.
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int getComdatIndex() const { return ComdatIndex; }
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using S = storage::Symbol;
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GlobalValue::VisibilityTypes getVisibility() const {
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return GlobalValue::VisibilityTypes((Flags >> S::FB_visibility) & 3);
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}
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bool isUndefined() const { return (Flags >> S::FB_undefined) & 1; }
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bool isWeak() const { return (Flags >> S::FB_weak) & 1; }
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bool isCommon() const { return (Flags >> S::FB_common) & 1; }
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bool isIndirect() const { return (Flags >> S::FB_indirect) & 1; }
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bool isUsed() const { return (Flags >> S::FB_used) & 1; }
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bool isTLS() const { return (Flags >> S::FB_tls) & 1; }
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bool canBeOmittedFromSymbolTable() const {
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return (Flags >> S::FB_may_omit) & 1;
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}
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bool isGlobal() const { return (Flags >> S::FB_global) & 1; }
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bool isFormatSpecific() const { return (Flags >> S::FB_format_specific) & 1; }
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bool isUnnamedAddr() const { return (Flags >> S::FB_unnamed_addr) & 1; }
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bool isExecutable() const { return (Flags >> S::FB_executable) & 1; }
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uint64_t getCommonSize() const {
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assert(isCommon());
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return CommonSize;
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}
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uint32_t getCommonAlignment() const {
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assert(isCommon());
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return CommonAlign;
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}
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/// COFF-specific: for weak externals, returns the name of the symbol that is
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/// used as a fallback if the weak external remains undefined.
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StringRef getCOFFWeakExternalFallback() const {
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assert(isWeak() && isIndirect());
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return COFFWeakExternFallbackName;
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}
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StringRef getSectionName() const { return SectionName; }
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};
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/// This class can be used to read a Symtab and Strtab produced by
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/// irsymtab::build.
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class Reader {
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StringRef Symtab, Strtab;
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ArrayRef<storage::Module> Modules;
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ArrayRef<storage::Comdat> Comdats;
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ArrayRef<storage::Symbol> Symbols;
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ArrayRef<storage::Uncommon> Uncommons;
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ArrayRef<storage::Str> DependentLibraries;
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StringRef str(storage::Str S) const { return S.get(Strtab); }
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template <typename T> ArrayRef<T> range(storage::Range<T> R) const {
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return R.get(Symtab);
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}
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const storage::Header &header() const {
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return *reinterpret_cast<const storage::Header *>(Symtab.data());
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}
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public:
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class SymbolRef;
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Reader() = default;
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Reader(StringRef Symtab, StringRef Strtab) : Symtab(Symtab), Strtab(Strtab) {
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Modules = range(header().Modules);
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Comdats = range(header().Comdats);
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Symbols = range(header().Symbols);
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Uncommons = range(header().Uncommons);
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DependentLibraries = range(header().DependentLibraries);
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}
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using symbol_range = iterator_range<object::content_iterator<SymbolRef>>;
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/// Returns the symbol table for the entire bitcode file.
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/// The symbols enumerated by this method are ephemeral, but they can be
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/// copied into an irsymtab::Symbol object.
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symbol_range symbols() const;
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size_t getNumModules() const { return Modules.size(); }
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/// Returns a slice of the symbol table for the I'th module in the file.
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/// The symbols enumerated by this method are ephemeral, but they can be
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/// copied into an irsymtab::Symbol object.
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symbol_range module_symbols(unsigned I) const;
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StringRef getTargetTriple() const { return str(header().TargetTriple); }
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/// Returns the source file path specified at compile time.
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StringRef getSourceFileName() const { return str(header().SourceFileName); }
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/// Returns a table with all the comdats used by this file.
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std::vector<StringRef> getComdatTable() const {
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std::vector<StringRef> ComdatTable;
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ComdatTable.reserve(Comdats.size());
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for (auto C : Comdats)
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ComdatTable.push_back(str(C.Name));
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return ComdatTable;
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}
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/// COFF-specific: returns linker options specified in the input file.
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StringRef getCOFFLinkerOpts() const { return str(header().COFFLinkerOpts); }
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/// Returns dependent library specifiers
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std::vector<StringRef> getDependentLibraries() const {
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std::vector<StringRef> Specifiers;
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Specifiers.reserve(DependentLibraries.size());
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for (auto S : DependentLibraries) {
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Specifiers.push_back(str(S));
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}
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return Specifiers;
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}
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};
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/// Ephemeral symbols produced by Reader::symbols() and
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/// Reader::module_symbols().
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class Reader::SymbolRef : public Symbol {
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const storage::Symbol *SymI, *SymE;
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const storage::Uncommon *UncI;
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const Reader *R;
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void read() {
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if (SymI == SymE)
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return;
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Name = R->str(SymI->Name);
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IRName = R->str(SymI->IRName);
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ComdatIndex = SymI->ComdatIndex;
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Flags = SymI->Flags;
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if (Flags & (1 << storage::Symbol::FB_has_uncommon)) {
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CommonSize = UncI->CommonSize;
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CommonAlign = UncI->CommonAlign;
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COFFWeakExternFallbackName = R->str(UncI->COFFWeakExternFallbackName);
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SectionName = R->str(UncI->SectionName);
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} else
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// Reset this field so it can be queried unconditionally for all symbols.
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SectionName = "";
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}
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public:
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SymbolRef(const storage::Symbol *SymI, const storage::Symbol *SymE,
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const storage::Uncommon *UncI, const Reader *R)
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: SymI(SymI), SymE(SymE), UncI(UncI), R(R) {
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read();
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}
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void moveNext() {
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++SymI;
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if (Flags & (1 << storage::Symbol::FB_has_uncommon))
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++UncI;
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read();
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}
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bool operator==(const SymbolRef &Other) const { return SymI == Other.SymI; }
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};
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inline Reader::symbol_range Reader::symbols() const {
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return {SymbolRef(Symbols.begin(), Symbols.end(), Uncommons.begin(), this),
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SymbolRef(Symbols.end(), Symbols.end(), nullptr, this)};
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}
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inline Reader::symbol_range Reader::module_symbols(unsigned I) const {
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const storage::Module &M = Modules[I];
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const storage::Symbol *MBegin = Symbols.begin() + M.Begin,
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*MEnd = Symbols.begin() + M.End;
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return {SymbolRef(MBegin, MEnd, Uncommons.begin() + M.UncBegin, this),
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SymbolRef(MEnd, MEnd, nullptr, this)};
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}
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/// The contents of the irsymtab in a bitcode file. Any underlying data for the
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/// irsymtab are owned by Symtab and Strtab.
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struct FileContents {
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SmallVector<char, 0> Symtab, Strtab;
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Reader TheReader;
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};
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/// Reads the contents of a bitcode file, creating its irsymtab if necessary.
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Expected<FileContents> readBitcode(const BitcodeFileContents &BFC);
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} // end namespace irsymtab
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} // end namespace llvm
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#endif // LLVM_OBJECT_IRSYMTAB_H
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