//===-- llvm/CodeGen/DwarfDebug.h - Dwarf Debug Framework ------*- C++ -*--===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file contains support for writing dwarf debug info into asm files. // //===----------------------------------------------------------------------===// #ifndef CODEGEN_ASMPRINTER_DWARFDEBUG_H__ #define CODEGEN_ASMPRINTER_DWARFDEBUG_H__ #include "AsmPrinterHandler.h" #include "DIE.h" #include "llvm/ADT/DenseMap.h" #include "llvm/ADT/FoldingSet.h" #include "llvm/ADT/MapVector.h" #include "llvm/ADT/SetVector.h" #include "llvm/ADT/SmallPtrSet.h" #include "llvm/ADT/StringMap.h" #include "llvm/CodeGen/AsmPrinter.h" #include "llvm/CodeGen/LexicalScopes.h" #include "llvm/IR/DebugInfo.h" #include "llvm/IR/DebugLoc.h" #include "llvm/MC/MachineLocation.h" #include "llvm/Support/Allocator.h" namespace llvm { class ByteStreamer; class DwarfUnit; class DwarfCompileUnit; class ConstantInt; class ConstantFP; class DbgVariable; class MachineFrameInfo; class MachineModuleInfo; class MachineOperand; class MCAsmInfo; class MCObjectFileInfo; class DIEAbbrev; class DIE; class DIELoc; class DIEEntry; //===----------------------------------------------------------------------===// /// \brief This class is used to record source line correspondence. class SrcLineInfo { unsigned Line; // Source line number. unsigned Column; // Source column. unsigned SourceID; // Source ID number. MCSymbol *Label; // Label in code ID number. public: SrcLineInfo(unsigned L, unsigned C, unsigned S, MCSymbol *label) : Line(L), Column(C), SourceID(S), Label(label) {} // Accessors unsigned getLine() const { return Line; } unsigned getColumn() const { return Column; } unsigned getSourceID() const { return SourceID; } MCSymbol *getLabel() const { return Label; } }; /// \brief This struct describes location entries emitted in the .debug_loc /// section. class DotDebugLocEntry { // Begin and end symbols for the address range that this location is valid. const MCSymbol *Begin; const MCSymbol *End; // Type of entry that this represents. enum EntryType { E_Location, E_Integer, E_ConstantFP, E_ConstantInt }; enum EntryType EntryKind; union { int64_t Int; const ConstantFP *CFP; const ConstantInt *CIP; } Constants; // The location in the machine frame. MachineLocation Loc; // The variable to which this location entry corresponds. const MDNode *Variable; // Whether this location has been merged. bool Merged; public: DotDebugLocEntry() : Begin(0), End(0), Variable(0), Merged(false) { Constants.Int = 0; } DotDebugLocEntry(const MCSymbol *B, const MCSymbol *E, MachineLocation &L, const MDNode *V) : Begin(B), End(E), Loc(L), Variable(V), Merged(false) { Constants.Int = 0; EntryKind = E_Location; } DotDebugLocEntry(const MCSymbol *B, const MCSymbol *E, int64_t i) : Begin(B), End(E), Variable(0), Merged(false) { Constants.Int = i; EntryKind = E_Integer; } DotDebugLocEntry(const MCSymbol *B, const MCSymbol *E, const ConstantFP *FPtr) : Begin(B), End(E), Variable(0), Merged(false) { Constants.CFP = FPtr; EntryKind = E_ConstantFP; } DotDebugLocEntry(const MCSymbol *B, const MCSymbol *E, const ConstantInt *IPtr) : Begin(B), End(E), Variable(0), Merged(false) { Constants.CIP = IPtr; EntryKind = E_ConstantInt; } /// \brief Empty entries are also used as a trigger to emit temp label. Such /// labels are referenced is used to find debug_loc offset for a given DIE. bool isEmpty() const { return Begin == 0 && End == 0; } bool isMerged() const { return Merged; } void Merge(DotDebugLocEntry *Next) { if (!(Begin && Loc == Next->Loc && End == Next->Begin)) return; Next->Begin = Begin; Merged = true; } bool isLocation() const { return EntryKind == E_Location; } bool isInt() const { return EntryKind == E_Integer; } bool isConstantFP() const { return EntryKind == E_ConstantFP; } bool isConstantInt() const { return EntryKind == E_ConstantInt; } int64_t getInt() const { return Constants.Int; } const ConstantFP *getConstantFP() const { return Constants.CFP; } const ConstantInt *getConstantInt() const { return Constants.CIP; } const MDNode *getVariable() const { return Variable; } const MCSymbol *getBeginSym() const { return Begin; } const MCSymbol *getEndSym() const { return End; } MachineLocation getLoc() const { return Loc; } }; //===----------------------------------------------------------------------===// /// \brief This class is used to track local variable information. class DbgVariable { DIVariable Var; // Variable Descriptor. DIE *TheDIE; // Variable DIE. unsigned DotDebugLocOffset; // Offset in DotDebugLocEntries. DbgVariable *AbsVar; // Corresponding Abstract variable, if any. const MachineInstr *MInsn; // DBG_VALUE instruction of the variable. int FrameIndex; DwarfDebug *DD; public: // AbsVar may be NULL. DbgVariable(DIVariable V, DbgVariable *AV, DwarfDebug *DD) : Var(V), TheDIE(0), DotDebugLocOffset(~0U), AbsVar(AV), MInsn(0), FrameIndex(~0), DD(DD) {} // Accessors. DIVariable getVariable() const { return Var; } void setDIE(DIE *D) { TheDIE = D; } DIE *getDIE() const { return TheDIE; } void setDotDebugLocOffset(unsigned O) { DotDebugLocOffset = O; } unsigned getDotDebugLocOffset() const { return DotDebugLocOffset; } StringRef getName() const { return Var.getName(); } DbgVariable *getAbstractVariable() const { return AbsVar; } const MachineInstr *getMInsn() const { return MInsn; } void setMInsn(const MachineInstr *M) { MInsn = M; } int getFrameIndex() const { return FrameIndex; } void setFrameIndex(int FI) { FrameIndex = FI; } // Translate tag to proper Dwarf tag. uint16_t getTag() const { if (Var.getTag() == dwarf::DW_TAG_arg_variable) return dwarf::DW_TAG_formal_parameter; return dwarf::DW_TAG_variable; } /// \brief Return true if DbgVariable is artificial. bool isArtificial() const { if (Var.isArtificial()) return true; if (getType().isArtificial()) return true; return false; } bool isObjectPointer() const { if (Var.isObjectPointer()) return true; if (getType().isObjectPointer()) return true; return false; } bool variableHasComplexAddress() const { assert(Var.isVariable() && "Invalid complex DbgVariable!"); return Var.hasComplexAddress(); } bool isBlockByrefVariable() const { assert(Var.isVariable() && "Invalid complex DbgVariable!"); return Var.isBlockByrefVariable(); } unsigned getNumAddrElements() const { assert(Var.isVariable() && "Invalid complex DbgVariable!"); return Var.getNumAddrElements(); } uint64_t getAddrElement(unsigned i) const { return Var.getAddrElement(i); } DIType getType() const; private: /// resolve - Look in the DwarfDebug map for the MDNode that /// corresponds to the reference. template T resolve(DIRef Ref) const; }; /// \brief Collects and handles information specific to a particular /// collection of units. This collection represents all of the units /// that will be ultimately output into a single object file. class DwarfFile { // Target of Dwarf emission, used for sizing of abbreviations. AsmPrinter *Asm; // Used to uniquely define abbreviations. FoldingSet AbbreviationsSet; // A list of all the unique abbreviations in use. std::vector Abbreviations; // A pointer to all units in the section. SmallVector CUs; // Collection of strings for this unit and assorted symbols. // A String->Symbol mapping of strings used by indirect // references. typedef StringMap, BumpPtrAllocator &> StrPool; StrPool StringPool; unsigned NextStringPoolNumber; std::string StringPref; struct AddressPoolEntry { unsigned Number; bool TLS; AddressPoolEntry(unsigned Number, bool TLS) : Number(Number), TLS(TLS) {} }; // Collection of addresses for this unit and assorted labels. // A Symbol->unsigned mapping of addresses used by indirect // references. typedef DenseMap AddrPool; AddrPool AddressPool; unsigned NextAddrPoolNumber; public: DwarfFile(AsmPrinter *AP, const char *Pref, BumpPtrAllocator &DA) : Asm(AP), StringPool(DA), NextStringPoolNumber(0), StringPref(Pref), AddressPool(), NextAddrPoolNumber(0) {} ~DwarfFile(); const SmallVectorImpl &getUnits() { return CUs; } /// \brief Compute the size and offset of a DIE given an incoming Offset. unsigned computeSizeAndOffset(DIE *Die, unsigned Offset); /// \brief Compute the size and offset of all the DIEs. void computeSizeAndOffsets(); /// \brief Define a unique number for the abbreviation. void assignAbbrevNumber(DIEAbbrev &Abbrev); /// \brief Add a unit to the list of CUs. void addUnit(DwarfUnit *CU) { CUs.push_back(CU); } /// \brief Emit all of the units to the section listed with the given /// abbreviation section. void emitUnits(DwarfDebug *DD, const MCSection *ASection, const MCSymbol *ASectionSym); /// \brief Emit a set of abbreviations to the specific section. void emitAbbrevs(const MCSection *); /// \brief Emit all of the strings to the section given. void emitStrings(const MCSection *StrSection, const MCSection *OffsetSection, const MCSymbol *StrSecSym); /// \brief Emit all of the addresses to the section given. void emitAddresses(const MCSection *AddrSection); /// \brief Returns the entry into the start of the pool. MCSymbol *getStringPoolSym(); /// \brief Returns an entry into the string pool with the given /// string text. MCSymbol *getStringPoolEntry(StringRef Str); /// \brief Returns the index into the string pool with the given /// string text. unsigned getStringPoolIndex(StringRef Str); /// \brief Returns the string pool. StrPool *getStringPool() { return &StringPool; } /// \brief Returns the index into the address pool with the given /// label/symbol. unsigned getAddrPoolIndex(const MCSymbol *Sym, bool TLS = false); /// \brief Returns the address pool. AddrPool *getAddrPool() { return &AddressPool; } }; /// \brief Helper used to pair up a symbol and its DWARF compile unit. struct SymbolCU { SymbolCU(DwarfCompileUnit *CU, const MCSymbol *Sym) : Sym(Sym), CU(CU) {} const MCSymbol *Sym; DwarfCompileUnit *CU; }; /// \brief Collects and handles dwarf debug information. class DwarfDebug : public AsmPrinterHandler { // Target of Dwarf emission. AsmPrinter *Asm; // Collected machine module information. MachineModuleInfo *MMI; // All DIEValues are allocated through this allocator. BumpPtrAllocator DIEValueAllocator; // Handle to the compile unit used for the inline extension handling, // this is just so that the DIEValue allocator has a place to store // the particular elements. // FIXME: Store these off of DwarfDebug instead? DwarfCompileUnit *FirstCU; // Maps MDNode with its corresponding DwarfCompileUnit. MapVector CUMap; // Maps subprogram MDNode with its corresponding DwarfCompileUnit. DenseMap SPMap; // Maps a CU DIE with its corresponding DwarfCompileUnit. DenseMap CUDieMap; /// Maps MDNodes for type sysstem with the corresponding DIEs. These DIEs can /// be shared across CUs, that is why we keep the map here instead /// of in DwarfCompileUnit. DenseMap MDTypeNodeToDieMap; // Used to unique C++ member function declarations. StringMap OdrMemberMap; // Stores the current file ID for a given compile unit. DenseMap FileIDCUMap; // Source id map, i.e. CUID, source filename and directory, // separated by a zero byte, mapped to a unique id. StringMap SourceIdMap; // List of all labels used in aranges generation. std::vector ArangeLabels; // Size of each symbol emitted (for those symbols that have a specific size). DenseMap SymSize; // Provides a unique id per text section. typedef DenseMap > SectionMapType; SectionMapType SectionMap; // List of arguments for current function. SmallVector CurrentFnArguments; LexicalScopes LScopes; // Collection of abstract subprogram DIEs. DenseMap AbstractSPDies; // Collection of dbg variables of a scope. typedef DenseMap > ScopeVariablesMap; ScopeVariablesMap ScopeVariables; // Collection of abstract variables. DenseMap AbstractVariables; // Collection of DotDebugLocEntry. SmallVector DotDebugLocEntries; // Collection of subprogram DIEs that are marked (at the end of the module) // as DW_AT_inline. SmallPtrSet InlinedSubprogramDIEs; // This is a collection of subprogram MDNodes that are processed to // create DIEs. SmallPtrSet ProcessedSPNodes; // Maps instruction with label emitted before instruction. DenseMap LabelsBeforeInsn; // Maps instruction with label emitted after instruction. DenseMap LabelsAfterInsn; // Every user variable mentioned by a DBG_VALUE instruction in order of // appearance. SmallVector UserVariables; // For each user variable, keep a list of DBG_VALUE instructions in order. // The list can also contain normal instructions that clobber the previous // DBG_VALUE. typedef DenseMap > DbgValueHistoryMap; DbgValueHistoryMap DbgValues; // Previous instruction's location information. This is used to determine // label location to indicate scope boundries in dwarf debug info. DebugLoc PrevInstLoc; MCSymbol *PrevLabel; // This location indicates end of function prologue and beginning of function // body. DebugLoc PrologEndLoc; // If nonnull, stores the current machine function we're processing. const MachineFunction *CurFn; // If nonnull, stores the current machine instruction we're processing. const MachineInstr *CurMI; // Section Symbols: these are assembler temporary labels that are emitted at // the beginning of each supported dwarf section. These are used to form // section offsets and are created by EmitSectionLabels. MCSymbol *DwarfInfoSectionSym, *DwarfAbbrevSectionSym; MCSymbol *DwarfStrSectionSym, *TextSectionSym, *DwarfDebugRangeSectionSym; MCSymbol *DwarfDebugLocSectionSym, *DwarfLineSectionSym, *DwarfAddrSectionSym; MCSymbol *FunctionBeginSym, *FunctionEndSym; MCSymbol *DwarfInfoDWOSectionSym, *DwarfAbbrevDWOSectionSym; MCSymbol *DwarfStrDWOSectionSym; MCSymbol *DwarfGnuPubNamesSectionSym, *DwarfGnuPubTypesSectionSym; // As an optimization, there is no need to emit an entry in the directory // table for the same directory as DW_AT_comp_dir. StringRef CompilationDir; // Counter for assigning globally unique IDs for ranges. unsigned GlobalRangeCount; // Holder for the file specific debug information. DwarfFile InfoHolder; // Holders for the various debug information flags that we might need to // have exposed. See accessor functions below for description. // Holder for imported entities. typedef SmallVector, 32> ImportedEntityMap; ImportedEntityMap ScopesWithImportedEntities; // Map from MDNodes for user-defined types to the type units that describe // them. DenseMap DwarfTypeUnits; // Whether to emit the pubnames/pubtypes sections. bool HasDwarfPubSections; // Whether or not to use AT_ranges for compilation units. bool HasCURanges; // Whether we emitted a function into a section other than the default // text. bool UsedNonDefaultText; // Version of dwarf we're emitting. unsigned DwarfVersion; // Maps from a type identifier to the actual MDNode. DITypeIdentifierMap TypeIdentifierMap; // DWARF5 Experimental Options bool HasDwarfAccelTables; bool HasSplitDwarf; // Separated Dwarf Variables // In general these will all be for bits that are left in the // original object file, rather than things that are meant // to be in the .dwo sections. // Holder for the skeleton information. DwarfFile SkeletonHolder; void addScopeVariable(LexicalScope *LS, DbgVariable *Var); const SmallVectorImpl &getUnits() { return InfoHolder.getUnits(); } /// \brief Find abstract variable associated with Var. DbgVariable *findAbstractVariable(DIVariable &Var, DebugLoc Loc); /// \brief Find DIE for the given subprogram and attach appropriate /// DW_AT_low_pc and DW_AT_high_pc attributes. If there are global /// variables in this scope then create and insert DIEs for these /// variables. DIE *updateSubprogramScopeDIE(DwarfCompileUnit *SPCU, DISubprogram SP); /// \brief A helper function to check whether the DIE for a given Scope is /// going to be null. bool isLexicalScopeDIENull(LexicalScope *Scope); /// \brief A helper function to construct a RangeSpanList for a given /// lexical scope. void addScopeRangeList(DwarfCompileUnit *TheCU, DIE *ScopeDIE, const SmallVectorImpl &Range); /// \brief Construct new DW_TAG_lexical_block for this scope and /// attach DW_AT_low_pc/DW_AT_high_pc labels. DIE *constructLexicalScopeDIE(DwarfCompileUnit *TheCU, LexicalScope *Scope); /// \brief This scope represents inlined body of a function. Construct /// DIE to represent this concrete inlined copy of the function. DIE *constructInlinedScopeDIE(DwarfCompileUnit *TheCU, LexicalScope *Scope); /// \brief Construct a DIE for this scope. DIE *constructScopeDIE(DwarfCompileUnit *TheCU, LexicalScope *Scope); /// A helper function to create children of a Scope DIE. DIE *createScopeChildrenDIE(DwarfCompileUnit *TheCU, LexicalScope *Scope, SmallVectorImpl &Children); /// \brief Emit initial Dwarf sections with a label at the start of each one. void emitSectionLabels(); /// \brief Compute the size and offset of a DIE given an incoming Offset. unsigned computeSizeAndOffset(DIE *Die, unsigned Offset); /// \brief Compute the size and offset of all the DIEs. void computeSizeAndOffsets(); /// \brief Attach DW_AT_inline attribute with inlined subprogram DIEs. void computeInlinedDIEs(); /// \brief Collect info for variables that were optimized out. void collectDeadVariables(); /// \brief Finish off debug information after all functions have been /// processed. void finalizeModuleInfo(); /// \brief Emit labels to close any remaining sections that have been left /// open. void endSections(); /// \brief Emit the debug info section. void emitDebugInfo(); /// \brief Emit the abbreviation section. void emitAbbreviations(); /// \brief Emit the last address of the section and the end of /// the line matrix. void emitEndOfLineMatrix(unsigned SectionEnd); /// \brief Emit visible names into a hashed accelerator table section. void emitAccelNames(); /// \brief Emit objective C classes and categories into a hashed /// accelerator table section. void emitAccelObjC(); /// \brief Emit namespace dies into a hashed accelerator table. void emitAccelNamespaces(); /// \brief Emit type dies into a hashed accelerator table. void emitAccelTypes(); /// \brief Emit visible names into a debug pubnames section. /// \param GnuStyle determines whether or not we want to emit /// additional information into the table ala newer gcc for gdb /// index. void emitDebugPubNames(bool GnuStyle = false); /// \brief Emit visible types into a debug pubtypes section. /// \param GnuStyle determines whether or not we want to emit /// additional information into the table ala newer gcc for gdb /// index. void emitDebugPubTypes(bool GnuStyle = false); void emitDebugPubSection(bool GnuStyle, const MCSection *PSec, StringRef Name, const StringMap &(DwarfUnit::*Accessor)() const); /// \brief Emit visible names into a debug str section. void emitDebugStr(); /// \brief Emit visible names into a debug loc section. void emitDebugLoc(); /// \brief Emit visible names into a debug aranges section. void emitDebugARanges(); /// \brief Emit visible names into a debug ranges section. void emitDebugRanges(); /// \brief Emit inline info using custom format. void emitDebugInlineInfo(); /// DWARF 5 Experimental Split Dwarf Emitters /// \brief Initialize common features of skeleton units. void initSkeletonUnit(const DwarfUnit *U, DIE *Die, DwarfUnit *NewU); /// \brief Construct the split debug info compile unit for the debug info /// section. DwarfCompileUnit *constructSkeletonCU(const DwarfCompileUnit *CU); /// \brief Construct the split debug info compile unit for the debug info /// section. DwarfTypeUnit *constructSkeletonTU(DwarfTypeUnit *TU); /// \brief Emit the debug info dwo section. void emitDebugInfoDWO(); /// \brief Emit the debug abbrev dwo section. void emitDebugAbbrevDWO(); /// \brief Emit the debug str dwo section. void emitDebugStrDWO(); /// Flags to let the linker know we have emitted new style pubnames. Only /// emit it here if we don't have a skeleton CU for split dwarf. void addGnuPubAttributes(DwarfUnit *U, DIE *D) const; /// \brief Create new DwarfCompileUnit for the given metadata node with tag /// DW_TAG_compile_unit. DwarfCompileUnit *constructDwarfCompileUnit(DICompileUnit DIUnit); /// \brief Construct subprogram DIE. void constructSubprogramDIE(DwarfCompileUnit *TheCU, const MDNode *N); /// \brief Construct imported_module or imported_declaration DIE. void constructImportedEntityDIE(DwarfCompileUnit *TheCU, const MDNode *N); /// \brief Construct import_module DIE. void constructImportedEntityDIE(DwarfCompileUnit *TheCU, const MDNode *N, DIE *Context); /// \brief Construct import_module DIE. void constructImportedEntityDIE(DwarfCompileUnit *TheCU, const DIImportedEntity &Module, DIE *Context); /// \brief Register a source line with debug info. Returns the unique /// label that was emitted and which provides correspondence to the /// source line list. void recordSourceLine(unsigned Line, unsigned Col, const MDNode *Scope, unsigned Flags); /// \brief Indentify instructions that are marking the beginning of or /// ending of a scope. void identifyScopeMarkers(); /// \brief If Var is an current function argument that add it in /// CurrentFnArguments list. bool addCurrentFnArgument(DbgVariable *Var, LexicalScope *Scope); /// \brief Populate LexicalScope entries with variables' info. void collectVariableInfo(SmallPtrSet &ProcessedVars); /// \brief Collect variable information from the side table maintained /// by MMI. void collectVariableInfoFromMMITable(SmallPtrSet &P); /// \brief Ensure that a label will be emitted before MI. void requestLabelBeforeInsn(const MachineInstr *MI) { LabelsBeforeInsn.insert(std::make_pair(MI, (MCSymbol *)0)); } /// \brief Return Label preceding the instruction. MCSymbol *getLabelBeforeInsn(const MachineInstr *MI); /// \brief Ensure that a label will be emitted after MI. void requestLabelAfterInsn(const MachineInstr *MI) { LabelsAfterInsn.insert(std::make_pair(MI, (MCSymbol *)0)); } /// \brief Return Label immediately following the instruction. MCSymbol *getLabelAfterInsn(const MachineInstr *MI); void attachLowHighPC(DwarfCompileUnit *Unit, DIE *D, MCSymbol *Begin, MCSymbol *End); public: //===--------------------------------------------------------------------===// // Main entry points. // DwarfDebug(AsmPrinter *A, Module *M); void insertDIE(const MDNode *TypeMD, DIE *Die) { MDTypeNodeToDieMap.insert(std::make_pair(TypeMD, Die)); } DIE *getDIE(const MDNode *TypeMD) { return MDTypeNodeToDieMap.lookup(TypeMD); } /// \brief Look up or create an entry in the OdrMemberMap. const MDNode *&getOrCreateOdrMember(StringRef Key) { return OdrMemberMap.GetOrCreateValue(Key).getValue(); } /// \brief Emit all Dwarf sections that should come prior to the /// content. void beginModule(); /// \brief Emit all Dwarf sections that should come after the content. void endModule() override; /// \brief Gather pre-function debug information. void beginFunction(const MachineFunction *MF) override; /// \brief Gather and emit post-function debug information. void endFunction(const MachineFunction *MF) override; /// \brief Process beginning of an instruction. void beginInstruction(const MachineInstr *MI) override; /// \brief Process end of an instruction. void endInstruction() override; /// \brief Add a DIE to the set of types that we're going to pull into /// type units. void addDwarfTypeUnitType(DwarfCompileUnit &CU, StringRef Identifier, DIE *Die, DICompositeType CTy); /// \brief Add a label so that arange data can be generated for it. void addArangeLabel(SymbolCU SCU) { ArangeLabels.push_back(SCU); } /// \brief For symbols that have a size designated (e.g. common symbols), /// this tracks that size. void setSymbolSize(const MCSymbol *Sym, uint64_t Size) override { SymSize[Sym] = Size; } /// \brief Look up the source id with the given directory and source file /// names. If none currently exists, create a new id and insert it in the /// SourceIds map. unsigned getOrCreateSourceID(StringRef DirName, StringRef FullName, unsigned CUID); /// \brief Recursively Emits a debug information entry. void emitDIE(DIE *Die); // Experimental DWARF5 features. /// \brief Returns whether or not to emit tables that dwarf consumers can /// use to accelerate lookup. bool useDwarfAccelTables() const { return HasDwarfAccelTables; } /// \brief Returns whether or not to change the current debug info for the /// split dwarf proposal support. bool useSplitDwarf() const { return HasSplitDwarf; } /// \brief Returns whether or not to use AT_ranges for compilation units. bool useCURanges() const { return HasCURanges; } /// Returns the Dwarf Version. unsigned getDwarfVersion() const { return DwarfVersion; } /// Returns the section symbol for the .debug_loc section. MCSymbol *getDebugLocSym() const { return DwarfDebugLocSectionSym; } /// Returns the entries for the .debug_loc section. const SmallVectorImpl &getDebugLocEntries() const { return DotDebugLocEntries; } /// \brief Emit an entry for the debug loc section. This can be used to /// handle an entry that's going to be emitted into the debug loc section. void emitDebugLocEntry(ByteStreamer &Streamer, const DotDebugLocEntry &Entry); /// Find the MDNode for the given reference. template T resolve(DIRef Ref) const { return Ref.resolve(TypeIdentifierMap); } /// Find the DwarfCompileUnit for the given CU Die. DwarfCompileUnit *lookupUnit(const DIE *CU) const { return CUDieMap.lookup(CU); } /// isSubprogramContext - Return true if Context is either a subprogram /// or another context nested inside a subprogram. bool isSubprogramContext(const MDNode *Context); }; } // End of namespace llvm #endif