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b9e1305d4a
Summary: ThinLTO may skip object for other reasons, e.g. if there is no summary. Reviewers: pcc, eugenis Subscribers: mehdi_amini, inglorion, eraman, llvm-commits Differential Revision: https://reviews.llvm.org/D42514 llvm-svn: 323818
417 lines
16 KiB
C++
417 lines
16 KiB
C++
//===-LTO.h - LLVM Link Time Optimizer ------------------------------------===//
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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 declares functions and classes used to support LTO. It is intended
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// to be used both by LTO classes as well as by clients (gold-plugin) that
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// don't utilize the LTO code generator interfaces.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_LTO_LTO_H
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#define LLVM_LTO_LTO_H
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#include "llvm/ADT/MapVector.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/ADT/StringSet.h"
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#include "llvm/Analysis/ObjectUtils.h"
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#include "llvm/IR/DiagnosticInfo.h"
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#include "llvm/IR/ModuleSummaryIndex.h"
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#include "llvm/LTO/Config.h"
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#include "llvm/Linker/IRMover.h"
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#include "llvm/Object/IRSymtab.h"
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#include "llvm/Support/Error.h"
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#include "llvm/Support/ToolOutputFile.h"
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#include "llvm/Support/thread.h"
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#include "llvm/Target/TargetOptions.h"
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#include "llvm/Transforms/IPO/FunctionImport.h"
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namespace llvm {
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class BitcodeModule;
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class Error;
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class LLVMContext;
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class MemoryBufferRef;
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class Module;
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class Target;
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class raw_pwrite_stream;
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/// Resolve Weak and LinkOnce values in the \p Index. Linkage changes recorded
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/// in the index and the ThinLTO backends must apply the changes to the Module
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/// via thinLTOResolveWeakForLinkerModule.
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///
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/// This is done for correctness (if value exported, ensure we always
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/// emit a copy), and compile-time optimization (allow drop of duplicates).
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void thinLTOResolveWeakForLinkerInIndex(
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ModuleSummaryIndex &Index,
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function_ref<bool(GlobalValue::GUID, const GlobalValueSummary *)>
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isPrevailing,
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function_ref<void(StringRef, GlobalValue::GUID, GlobalValue::LinkageTypes)>
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recordNewLinkage);
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/// Update the linkages in the given \p Index to mark exported values
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/// as external and non-exported values as internal. The ThinLTO backends
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/// must apply the changes to the Module via thinLTOInternalizeModule.
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void thinLTOInternalizeAndPromoteInIndex(
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ModuleSummaryIndex &Index,
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function_ref<bool(StringRef, GlobalValue::GUID)> isExported);
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namespace lto {
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/// Given the original \p Path to an output file, replace any path
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/// prefix matching \p OldPrefix with \p NewPrefix. Also, create the
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/// resulting directory if it does not yet exist.
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std::string getThinLTOOutputFile(const std::string &Path,
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const std::string &OldPrefix,
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const std::string &NewPrefix);
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/// Setup optimization remarks.
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Expected<std::unique_ptr<ToolOutputFile>>
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setupOptimizationRemarks(LLVMContext &Context, StringRef LTORemarksFilename,
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bool LTOPassRemarksWithHotness, int Count = -1);
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class LTO;
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struct SymbolResolution;
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class ThinBackendProc;
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/// An input file. This is a symbol table wrapper that only exposes the
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/// information that an LTO client should need in order to do symbol resolution.
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class InputFile {
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public:
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class Symbol;
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private:
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// FIXME: Remove LTO class friendship once we have bitcode symbol tables.
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friend LTO;
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InputFile() = default;
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std::vector<BitcodeModule> Mods;
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SmallVector<char, 0> Strtab;
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std::vector<Symbol> Symbols;
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// [begin, end) for each module
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std::vector<std::pair<size_t, size_t>> ModuleSymIndices;
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StringRef TargetTriple, SourceFileName, COFFLinkerOpts;
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std::vector<StringRef> ComdatTable;
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public:
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~InputFile();
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/// Create an InputFile.
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static Expected<std::unique_ptr<InputFile>> create(MemoryBufferRef Object);
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/// The purpose of this class is to only expose the symbol information that an
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/// LTO client should need in order to do symbol resolution.
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class Symbol : irsymtab::Symbol {
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friend LTO;
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public:
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Symbol(const irsymtab::Symbol &S) : irsymtab::Symbol(S) {}
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using irsymtab::Symbol::isUndefined;
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using irsymtab::Symbol::isCommon;
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using irsymtab::Symbol::isWeak;
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using irsymtab::Symbol::isIndirect;
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using irsymtab::Symbol::getName;
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using irsymtab::Symbol::getVisibility;
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using irsymtab::Symbol::canBeOmittedFromSymbolTable;
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using irsymtab::Symbol::isTLS;
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using irsymtab::Symbol::getComdatIndex;
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using irsymtab::Symbol::getCommonSize;
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using irsymtab::Symbol::getCommonAlignment;
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using irsymtab::Symbol::getCOFFWeakExternalFallback;
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using irsymtab::Symbol::getSectionName;
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using irsymtab::Symbol::isExecutable;
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};
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/// A range over the symbols in this InputFile.
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ArrayRef<Symbol> symbols() const { return Symbols; }
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/// Returns linker options specified in the input file.
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StringRef getCOFFLinkerOpts() const { return COFFLinkerOpts; }
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/// Returns the path to the InputFile.
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StringRef getName() const;
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/// Returns the input file's target triple.
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StringRef getTargetTriple() const { return TargetTriple; }
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/// Returns the source file path specified at compile time.
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StringRef getSourceFileName() const { return SourceFileName; }
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// Returns a table with all the comdats used by this file.
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ArrayRef<StringRef> getComdatTable() const { return ComdatTable; }
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private:
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ArrayRef<Symbol> module_symbols(unsigned I) const {
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const auto &Indices = ModuleSymIndices[I];
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return {Symbols.data() + Indices.first, Symbols.data() + Indices.second};
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}
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};
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/// This class wraps an output stream for a native object. Most clients should
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/// just be able to return an instance of this base class from the stream
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/// callback, but if a client needs to perform some action after the stream is
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/// written to, that can be done by deriving from this class and overriding the
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/// destructor.
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class NativeObjectStream {
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public:
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NativeObjectStream(std::unique_ptr<raw_pwrite_stream> OS) : OS(std::move(OS)) {}
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std::unique_ptr<raw_pwrite_stream> OS;
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virtual ~NativeObjectStream() = default;
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};
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/// This type defines the callback to add a native object that is generated on
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/// the fly.
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///
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/// Stream callbacks must be thread safe.
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typedef std::function<std::unique_ptr<NativeObjectStream>(unsigned Task)>
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AddStreamFn;
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/// This is the type of a native object cache. To request an item from the
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/// cache, pass a unique string as the Key. For hits, the cached file will be
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/// added to the link and this function will return AddStreamFn(). For misses,
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/// the cache will return a stream callback which must be called at most once to
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/// produce content for the stream. The native object stream produced by the
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/// stream callback will add the file to the link after the stream is written
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/// to.
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///
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/// Clients generally look like this:
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///
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/// if (AddStreamFn AddStream = Cache(Task, Key))
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/// ProduceContent(AddStream);
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typedef std::function<AddStreamFn(unsigned Task, StringRef Key)>
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NativeObjectCache;
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/// A ThinBackend defines what happens after the thin-link phase during ThinLTO.
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/// The details of this type definition aren't important; clients can only
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/// create a ThinBackend using one of the create*ThinBackend() functions below.
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typedef std::function<std::unique_ptr<ThinBackendProc>(
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Config &C, ModuleSummaryIndex &CombinedIndex,
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StringMap<GVSummaryMapTy> &ModuleToDefinedGVSummaries,
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AddStreamFn AddStream, NativeObjectCache Cache)>
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ThinBackend;
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/// This ThinBackend runs the individual backend jobs in-process.
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ThinBackend createInProcessThinBackend(unsigned ParallelismLevel);
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/// This ThinBackend writes individual module indexes to files, instead of
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/// running the individual backend jobs. This backend is for distributed builds
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/// where separate processes will invoke the real backends.
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///
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/// To find the path to write the index to, the backend checks if the path has a
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/// prefix of OldPrefix; if so, it replaces that prefix with NewPrefix. It then
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/// appends ".thinlto.bc" and writes the index to that path. If
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/// ShouldEmitImportsFiles is true it also writes a list of imported files to a
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/// similar path with ".imports" appended instead.
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/// OnWrite is callback which receives module identifier and notifies LTO user
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/// that index file for the module (and optionally imports file) was created.
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using IndexWriteCallback = std::function<void(const std::string &)>;
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ThinBackend createWriteIndexesThinBackend(std::string OldPrefix,
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std::string NewPrefix,
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bool ShouldEmitImportsFiles,
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std::string LinkedObjectsFile,
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IndexWriteCallback OnWrite);
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/// This class implements a resolution-based interface to LLVM's LTO
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/// functionality. It supports regular LTO, parallel LTO code generation and
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/// ThinLTO. You can use it from a linker in the following way:
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/// - Set hooks and code generation options (see lto::Config struct defined in
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/// Config.h), and use the lto::Config object to create an lto::LTO object.
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/// - Create lto::InputFile objects using lto::InputFile::create(), then use
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/// the symbols() function to enumerate its symbols and compute a resolution
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/// for each symbol (see SymbolResolution below).
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/// - After the linker has visited each input file (and each regular object
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/// file) and computed a resolution for each symbol, take each lto::InputFile
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/// and pass it and an array of symbol resolutions to the add() function.
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/// - Call the getMaxTasks() function to get an upper bound on the number of
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/// native object files that LTO may add to the link.
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/// - Call the run() function. This function will use the supplied AddStream
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/// and Cache functions to add up to getMaxTasks() native object files to
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/// the link.
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class LTO {
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friend InputFile;
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public:
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/// Create an LTO object. A default constructed LTO object has a reasonable
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/// production configuration, but you can customize it by passing arguments to
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/// this constructor.
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/// FIXME: We do currently require the DiagHandler field to be set in Conf.
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/// Until that is fixed, a Config argument is required.
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LTO(Config Conf, ThinBackend Backend = nullptr,
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unsigned ParallelCodeGenParallelismLevel = 1);
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~LTO();
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/// Add an input file to the LTO link, using the provided symbol resolutions.
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/// The symbol resolutions must appear in the enumeration order given by
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/// InputFile::symbols().
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Error add(std::unique_ptr<InputFile> Obj, ArrayRef<SymbolResolution> Res);
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/// Returns an upper bound on the number of tasks that the client may expect.
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/// This may only be called after all IR object files have been added. For a
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/// full description of tasks see LTOBackend.h.
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unsigned getMaxTasks() const;
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/// Runs the LTO pipeline. This function calls the supplied AddStream
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/// function to add native object files to the link.
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///
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/// The Cache parameter is optional. If supplied, it will be used to cache
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/// native object files and add them to the link.
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///
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/// The client will receive at most one callback (via either AddStream or
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/// Cache) for each task identifier.
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Error run(AddStreamFn AddStream, NativeObjectCache Cache = nullptr);
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private:
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Config Conf;
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struct RegularLTOState {
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RegularLTOState(unsigned ParallelCodeGenParallelismLevel, Config &Conf);
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struct CommonResolution {
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uint64_t Size = 0;
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unsigned Align = 0;
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/// Record if at least one instance of the common was marked as prevailing
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bool Prevailing = false;
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};
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std::map<std::string, CommonResolution> Commons;
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unsigned ParallelCodeGenParallelismLevel;
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LTOLLVMContext Ctx;
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std::unique_ptr<Module> CombinedModule;
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std::unique_ptr<IRMover> Mover;
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// This stores the information about a regular LTO module that we have added
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// to the link. It will either be linked immediately (for modules without
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// summaries) or after summary-based dead stripping (for modules with
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// summaries).
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struct AddedModule {
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std::unique_ptr<Module> M;
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std::vector<GlobalValue *> Keep;
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};
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std::vector<AddedModule> ModsWithSummaries;
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} RegularLTO;
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struct ThinLTOState {
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ThinLTOState(ThinBackend Backend);
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ThinBackend Backend;
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ModuleSummaryIndex CombinedIndex;
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MapVector<StringRef, BitcodeModule> ModuleMap;
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DenseMap<GlobalValue::GUID, StringRef> PrevailingModuleForGUID;
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} ThinLTO;
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// The global resolution for a particular (mangled) symbol name. This is in
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// particular necessary to track whether each symbol can be internalized.
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// Because any input file may introduce a new cross-partition reference, we
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// cannot make any final internalization decisions until all input files have
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// been added and the client has called run(). During run() we apply
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// internalization decisions either directly to the module (for regular LTO)
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// or to the combined index (for ThinLTO).
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struct GlobalResolution {
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/// The unmangled name of the global.
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std::string IRName;
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/// Keep track if the symbol is visible outside of a module with a summary
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/// (i.e. in either a regular object or a regular LTO module without a
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/// summary).
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bool VisibleOutsideSummary = false;
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bool UnnamedAddr = true;
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/// True if module contains the prevailing definition.
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bool Prevailing = false;
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/// Returns true if module contains the prevailing definition and symbol is
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/// an IR symbol. For example when module-level inline asm block is used,
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/// symbol can be prevailing in module but have no IR name.
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bool isPrevailingIRSymbol() const { return Prevailing && !IRName.empty(); }
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/// This field keeps track of the partition number of this global. The
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/// regular LTO object is partition 0, while each ThinLTO object has its own
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/// partition number from 1 onwards.
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///
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/// Any global that is defined or used by more than one partition, or that
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/// is referenced externally, may not be internalized.
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///
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/// Partitions generally have a one-to-one correspondence with tasks, except
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/// that we use partition 0 for all parallel LTO code generation partitions.
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/// Any partitioning of the combined LTO object is done internally by the
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/// LTO backend.
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unsigned Partition = Unknown;
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/// Special partition numbers.
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enum : unsigned {
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/// A partition number has not yet been assigned to this global.
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Unknown = -1u,
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/// This global is either used by more than one partition or has an
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/// external reference, and therefore cannot be internalized.
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External = -2u,
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/// The RegularLTO partition
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RegularLTO = 0,
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};
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};
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// Global mapping from mangled symbol names to resolutions.
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StringMap<GlobalResolution> GlobalResolutions;
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void addModuleToGlobalRes(ArrayRef<InputFile::Symbol> Syms,
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ArrayRef<SymbolResolution> Res, unsigned Partition,
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bool InSummary);
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// These functions take a range of symbol resolutions [ResI, ResE) and consume
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// the resolutions used by a single input module by incrementing ResI. After
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// these functions return, [ResI, ResE) will refer to the resolution range for
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// the remaining modules in the InputFile.
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Error addModule(InputFile &Input, unsigned ModI,
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const SymbolResolution *&ResI, const SymbolResolution *ResE);
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Expected<RegularLTOState::AddedModule>
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addRegularLTO(BitcodeModule BM, ArrayRef<InputFile::Symbol> Syms,
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const SymbolResolution *&ResI, const SymbolResolution *ResE);
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Error linkRegularLTO(RegularLTOState::AddedModule Mod,
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bool LivenessFromIndex);
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Error addThinLTO(BitcodeModule BM, ArrayRef<InputFile::Symbol> Syms,
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const SymbolResolution *&ResI, const SymbolResolution *ResE);
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Error runRegularLTO(AddStreamFn AddStream);
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Error runThinLTO(AddStreamFn AddStream, NativeObjectCache Cache);
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mutable bool CalledGetMaxTasks = false;
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};
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/// The resolution for a symbol. The linker must provide a SymbolResolution for
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/// each global symbol based on its internal resolution of that symbol.
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struct SymbolResolution {
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SymbolResolution()
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: Prevailing(0), FinalDefinitionInLinkageUnit(0), VisibleToRegularObj(0),
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LinkerRedefined(0) {}
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/// The linker has chosen this definition of the symbol.
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unsigned Prevailing : 1;
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/// The definition of this symbol is unpreemptable at runtime and is known to
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/// be in this linkage unit.
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unsigned FinalDefinitionInLinkageUnit : 1;
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/// The definition of this symbol is visible outside of the LTO unit.
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unsigned VisibleToRegularObj : 1;
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/// Linker redefined version of the symbol which appeared in -wrap or -defsym
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/// linker option.
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unsigned LinkerRedefined : 1;
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};
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} // namespace lto
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} // namespace llvm
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#endif
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