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07b85fee55
There is no real reason the index has to have the concept of an exporting Module. We should be able to have one single unique instance of the Index, and it should be read-only after creation for the whole ThinLTO processing. The linker plugin should be able to process multiple modules (in parallel or in sequence) with the same index. The only reason the ExportingModule was present seems to be to implement hasExportedFunctions() that is used by the Module linker to decide what to do with the current Module. For now I replaced it with a query to the map of Modules path to see if this module was declared in the Index and consider that if it is the case then it is probably exporting function. On the long term the Linker interface needs to evolve and this call should not be needed anymore. From: Mehdi Amini <mehdi.amini@apple.com> llvm-svn: 254581
242 lines
9.5 KiB
C++
242 lines
9.5 KiB
C++
//===-- llvm/FunctionInfo.h - Function Info Index ---------------*- 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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/// FunctionInfo.h This file contains the declarations the classes that hold
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/// the function info index and summary.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_IR_FUNCTIONINFO_H
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#define LLVM_IR_FUNCTIONINFO_H
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#include "llvm/ADT/SmallString.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/IR/Module.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include "llvm/Support/raw_ostream.h"
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namespace llvm {
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/// \brief Function summary information to aid decisions and implementation of
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/// importing.
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///
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/// This is a separate class from FunctionInfo to enable lazy reading of this
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/// function summary information from the combined index file during imporing.
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class FunctionSummary {
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private:
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/// \brief Path of module containing function IR, used to locate module when
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/// importing this function.
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///
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/// This is only used during parsing of the combined function index, or when
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/// parsing the per-module index for creation of the combined function index,
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/// not during writing of the per-module index which doesn't contain a
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/// module path string table.
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StringRef ModulePath;
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/// \brief Used to flag functions that have local linkage types and need to
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/// have module identifier appended before placing into the combined
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/// index, to disambiguate from other functions with the same name.
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///
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/// This is only used in the per-module function index, as it is consumed
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/// while creating the combined index.
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bool IsLocalFunction;
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// The rest of the information is used to help decide whether importing
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// is likely to be profitable.
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// Other information will be added as the importing is tuned, such
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// as hotness (when profile available), and other function characteristics.
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/// Number of instructions (ignoring debug instructions, e.g.) computed
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/// during the initial compile step when the function index is first built.
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unsigned InstCount;
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public:
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/// Construct a summary object from summary data expected for all
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/// summary records.
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FunctionSummary(unsigned NumInsts) : InstCount(NumInsts) {}
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/// Set the path to the module containing this function, for use in
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/// the combined index.
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void setModulePath(StringRef ModPath) { ModulePath = ModPath; }
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/// Get the path to the module containing this function.
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StringRef modulePath() const { return ModulePath; }
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/// Record whether this is a local function in the per-module index.
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void setLocalFunction(bool IsLocal) { IsLocalFunction = IsLocal; }
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/// Check whether this was a local function, for use in creating
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/// the combined index.
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bool isLocalFunction() const { return IsLocalFunction; }
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/// Get the instruction count recorded for this function.
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unsigned instCount() const { return InstCount; }
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};
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/// \brief Class to hold pointer to function summary and information required
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/// for parsing it.
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///
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/// For the per-module index, this holds the bitcode offset
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/// of the corresponding function block. For the combined index,
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/// after parsing of the \a ValueSymbolTable, this initially
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/// holds the offset of the corresponding function summary bitcode
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/// record. After parsing the associated summary information from the summary
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/// block the \a FunctionSummary is populated and stored here.
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class FunctionInfo {
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private:
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/// Function summary information used to help make ThinLTO importing
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/// decisions.
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std::unique_ptr<FunctionSummary> Summary;
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/// \brief The bitcode offset corresponding to either the associated
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/// function's function body record, or its function summary record,
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/// depending on whether this is a per-module or combined index.
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///
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/// This bitcode offset is written to or read from the associated
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/// \a ValueSymbolTable entry for the function.
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/// For the per-module index this holds the bitcode offset of the
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/// function's body record within bitcode module block in its module,
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/// which is used during lazy function parsing or ThinLTO importing.
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/// For the combined index this holds the offset of the corresponding
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/// function summary record, to enable associating the combined index
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/// VST records with the summary records.
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uint64_t BitcodeIndex;
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public:
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/// Constructor used during parsing of VST entries.
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FunctionInfo(uint64_t FuncOffset)
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: Summary(nullptr), BitcodeIndex(FuncOffset) {}
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/// Constructor used for per-module index bitcode writing.
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FunctionInfo(uint64_t FuncOffset,
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std::unique_ptr<FunctionSummary> FuncSummary)
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: Summary(std::move(FuncSummary)), BitcodeIndex(FuncOffset) {}
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/// Record the function summary information parsed out of the function
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/// summary block during parsing or combined index creation.
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void setFunctionSummary(std::unique_ptr<FunctionSummary> FuncSummary) {
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Summary = std::move(FuncSummary);
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}
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/// Get the function summary recorded for this function.
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FunctionSummary *functionSummary() const { return Summary.get(); }
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/// Get the bitcode index recorded for this function, depending on
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/// the index type.
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uint64_t bitcodeIndex() const { return BitcodeIndex; }
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/// Record the bitcode index for this function, depending on
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/// the index type.
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void setBitcodeIndex(uint64_t FuncOffset) { BitcodeIndex = FuncOffset; }
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};
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/// List of function info structures for a particular function name held
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/// in the FunctionMap. Requires a vector in the case of multiple
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/// COMDAT functions of the same name.
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typedef std::vector<std::unique_ptr<FunctionInfo>> FunctionInfoList;
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/// Map from function name to corresponding function info structures.
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typedef StringMap<FunctionInfoList> FunctionInfoMapTy;
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/// Type used for iterating through the function info map.
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typedef FunctionInfoMapTy::const_iterator const_funcinfo_iterator;
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typedef FunctionInfoMapTy::iterator funcinfo_iterator;
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/// String table to hold/own module path strings, which additionally holds the
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/// module ID assigned to each module during the plugin step. The StringMap
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/// makes a copy of and owns inserted strings.
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typedef StringMap<uint64_t> ModulePathStringTableTy;
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/// Class to hold module path string table and function map,
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/// and encapsulate methods for operating on them.
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class FunctionInfoIndex {
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private:
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/// Map from function name to list of function information instances
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/// for functions of that name (may be duplicates in the COMDAT case, e.g.).
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FunctionInfoMapTy FunctionMap;
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/// Holds strings for combined index, mapping to the corresponding module ID.
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ModulePathStringTableTy ModulePathStringTable;
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public:
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FunctionInfoIndex() = default;
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// Disable the copy constructor and assignment operators, so
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// no unexpected copying/moving occurs.
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FunctionInfoIndex(const FunctionInfoIndex &) = delete;
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void operator=(const FunctionInfoIndex &) = delete;
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funcinfo_iterator begin() { return FunctionMap.begin(); }
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const_funcinfo_iterator begin() const { return FunctionMap.begin(); }
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funcinfo_iterator end() { return FunctionMap.end(); }
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const_funcinfo_iterator end() const { return FunctionMap.end(); }
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/// Get the list of function info objects for a given function.
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const FunctionInfoList &getFunctionInfoList(StringRef FuncName) {
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return FunctionMap[FuncName];
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}
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/// Get the list of function info objects for a given function.
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const const_funcinfo_iterator findFunctionInfoList(StringRef FuncName) const {
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return FunctionMap.find(FuncName);
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}
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/// Add a function info for a function of the given name.
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void addFunctionInfo(StringRef FuncName, std::unique_ptr<FunctionInfo> Info) {
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FunctionMap[FuncName].push_back(std::move(Info));
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}
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/// Iterator to allow writer to walk through table during emission.
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iterator_range<StringMap<uint64_t>::const_iterator>
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modPathStringEntries() const {
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return llvm::make_range(ModulePathStringTable.begin(),
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ModulePathStringTable.end());
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}
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/// Get the module ID recorded for the given module path.
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uint64_t getModuleId(const StringRef ModPath) const {
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return ModulePathStringTable.lookup(ModPath);
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}
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/// Add the given per-module index into this function index/summary,
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/// assigning it the given module ID. Each module merged in should have
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/// a unique ID, necessary for consistent renaming of promoted
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/// static (local) variables.
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void mergeFrom(std::unique_ptr<FunctionInfoIndex> Other,
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uint64_t NextModuleId);
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/// Convenience method for creating a promoted global name
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/// for the given value name of a local, and its original module's ID.
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static std::string getGlobalNameForLocal(StringRef Name, uint64_t ModId) {
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SmallString<256> NewName(Name);
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NewName += ".llvm.";
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raw_svector_ostream(NewName) << ModId;
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return NewName.str();
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}
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/// Add a new module path, mapped to the given module Id, and return StringRef
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/// owned by string table map.
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StringRef addModulePath(StringRef ModPath, uint64_t ModId) {
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return ModulePathStringTable.insert(std::make_pair(ModPath, ModId))
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.first->first();
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}
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/// Check if the given Module has any functions available for exporting
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/// in the index. We consider any module present in the ModulePathStringTable
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/// to have exported functions.
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bool hasExportedFunctions(const Module &M) const {
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return ModulePathStringTable.count(M.getModuleIdentifier());
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}
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};
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} // End llvm namespace
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#endif
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