//===-- llvm/CodeGen/DebugLocEntry.h - Entry in debug_loc list -*- C++ -*--===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #ifndef LLVM_LIB_CODEGEN_ASMPRINTER_DEBUGLOCENTRY_H #define LLVM_LIB_CODEGEN_ASMPRINTER_DEBUGLOCENTRY_H #include "DebugLocStream.h" #include "llvm/Config/llvm-config.h" #include "llvm/IR/Constants.h" #include "llvm/IR/DebugInfo.h" #include "llvm/MC/MCSymbol.h" #include "llvm/MC/MachineLocation.h" #include "llvm/Support/Debug.h" namespace llvm { class AsmPrinter; /// This struct describes target specific location. struct TargetIndexLocation { int Index; int Offset; TargetIndexLocation() = default; TargetIndexLocation(unsigned Idx, int64_t Offset) : Index(Idx), Offset(Offset) {} bool operator==(const TargetIndexLocation &Other) const { return Index == Other.Index && Offset == Other.Offset; } }; /// A single location or constant within a variable location description, with /// either a single entry (with an optional DIExpression) used for a DBG_VALUE, /// or a list of entries used for a DBG_VALUE_LIST. class DbgValueLocEntry { /// Type of entry that this represents. enum EntryType { E_Location, E_Integer, E_ConstantFP, E_ConstantInt, E_TargetIndexLocation }; enum EntryType EntryKind; /// Either a constant, union { int64_t Int; const ConstantFP *CFP; const ConstantInt *CIP; } Constant; union { /// Or a location in the machine frame. MachineLocation Loc; /// Or a location from target specific location. TargetIndexLocation TIL; }; public: DbgValueLocEntry(int64_t i) : EntryKind(E_Integer) { Constant.Int = i; } DbgValueLocEntry(const ConstantFP *CFP) : EntryKind(E_ConstantFP) { Constant.CFP = CFP; } DbgValueLocEntry(const ConstantInt *CIP) : EntryKind(E_ConstantInt) { Constant.CIP = CIP; } DbgValueLocEntry(MachineLocation Loc) : EntryKind(E_Location), Loc(Loc) {} DbgValueLocEntry(TargetIndexLocation Loc) : EntryKind(E_TargetIndexLocation), TIL(Loc) {} bool isLocation() const { return EntryKind == E_Location; } bool isIndirectLocation() const { return EntryKind == E_Location && Loc.isIndirect(); } bool isTargetIndexLocation() const { return EntryKind == E_TargetIndexLocation; } 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 Constant.Int; } const ConstantFP *getConstantFP() const { return Constant.CFP; } const ConstantInt *getConstantInt() const { return Constant.CIP; } MachineLocation getLoc() const { return Loc; } TargetIndexLocation getTargetIndexLocation() const { return TIL; } friend bool operator==(const DbgValueLocEntry &, const DbgValueLocEntry &); #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) LLVM_DUMP_METHOD void dump() const { if (isLocation()) { llvm::dbgs() << "Loc = { reg=" << Loc.getReg() << " "; if (Loc.isIndirect()) llvm::dbgs() << "+0"; llvm::dbgs() << "} "; } else if (isConstantInt()) Constant.CIP->dump(); else if (isConstantFP()) Constant.CFP->dump(); } #endif }; /// The location of a single variable, composed of an expression and 0 or more /// DbgValueLocEntries. class DbgValueLoc { /// Any complex address location expression for this DbgValueLoc. const DIExpression *Expression; SmallVector ValueLocEntries; bool IsVariadic; public: DbgValueLoc(const DIExpression *Expr, ArrayRef Locs) : Expression(Expr), ValueLocEntries(Locs.begin(), Locs.end()), IsVariadic(true) {} DbgValueLoc(const DIExpression *Expr, ArrayRef Locs, bool IsVariadic) : Expression(Expr), ValueLocEntries(Locs.begin(), Locs.end()), IsVariadic(IsVariadic) { #ifndef NDEBUG assert(Expr->isValid() || !any_of(Locs, [](auto LE) { return LE.isLocation(); })); if (!IsVariadic) { assert(ValueLocEntries.size() == 1); } #endif } DbgValueLoc(const DIExpression *Expr, DbgValueLocEntry Loc) : Expression(Expr), ValueLocEntries(1, Loc), IsVariadic(false) { assert(((Expr && Expr->isValid()) || !Loc.isLocation()) && "DBG_VALUE with a machine location must have a valid expression."); } bool isFragment() const { return getExpression()->isFragment(); } bool isEntryVal() const { return getExpression()->isEntryValue(); } bool isVariadic() const { return IsVariadic; } bool isEquivalent(const DbgValueLoc &Other) const { // Cannot be equivalent with different numbers of entries. if (ValueLocEntries.size() != Other.ValueLocEntries.size()) return false; bool ThisIsIndirect = !IsVariadic && ValueLocEntries[0].isIndirectLocation(); bool OtherIsIndirect = !Other.IsVariadic && Other.ValueLocEntries[0].isIndirectLocation(); // Check equivalence of DIExpressions + Directness together. if (!DIExpression::isEqualExpression(Expression, ThisIsIndirect, Other.Expression, OtherIsIndirect)) return false; // Indirectness should have been accounted for in the above check, so just // compare register values directly here. if (ThisIsIndirect || OtherIsIndirect) { DbgValueLocEntry ThisOp = ValueLocEntries[0]; DbgValueLocEntry OtherOp = Other.ValueLocEntries[0]; return ThisOp.isLocation() && OtherOp.isLocation() && ThisOp.getLoc().getReg() == OtherOp.getLoc().getReg(); } // If neither are indirect, then just compare the loc entries directly. return ValueLocEntries == Other.ValueLocEntries; } const DIExpression *getExpression() const { return Expression; } ArrayRef getLocEntries() const { return ValueLocEntries; } friend bool operator==(const DbgValueLoc &, const DbgValueLoc &); friend bool operator<(const DbgValueLoc &, const DbgValueLoc &); #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) LLVM_DUMP_METHOD void dump() const { for (const DbgValueLocEntry &DV : ValueLocEntries) DV.dump(); if (Expression) Expression->dump(); } #endif }; /// This struct describes location entries emitted in the .debug_loc /// section. class DebugLocEntry { /// Begin and end symbols for the address range that this location is valid. const MCSymbol *Begin; const MCSymbol *End; /// A nonempty list of locations/constants belonging to this entry, /// sorted by offset. SmallVector Values; public: /// Create a location list entry for the range [\p Begin, \p End). /// /// \param Vals One or more values describing (parts of) the variable. DebugLocEntry(const MCSymbol *Begin, const MCSymbol *End, ArrayRef Vals) : Begin(Begin), End(End) { addValues(Vals); } /// Attempt to merge this DebugLocEntry with Next and return /// true if the merge was successful. Entries can be merged if they /// share the same Loc/Constant and if Next immediately follows this /// Entry. bool MergeRanges(const DebugLocEntry &Next) { // If this and Next are describing the same variable, merge them. if (End != Next.Begin) return false; if (Values.size() != Next.Values.size()) return false; for (unsigned EntryIdx = 0; EntryIdx < Values.size(); ++EntryIdx) if (!Values[EntryIdx].isEquivalent(Next.Values[EntryIdx])) return false; End = Next.End; return true; } const MCSymbol *getBeginSym() const { return Begin; } const MCSymbol *getEndSym() const { return End; } ArrayRef getValues() const { return Values; } void addValues(ArrayRef Vals) { Values.append(Vals.begin(), Vals.end()); sortUniqueValues(); assert((Values.size() == 1 || all_of(Values, [](DbgValueLoc V) { return V.isFragment(); })) && "must either have a single value or multiple pieces"); } // Sort the pieces by offset. // Remove any duplicate entries by dropping all but the first. void sortUniqueValues() { // Values is either 1 item that does not have a fragment, or many items // that all do. No need to sort if the former and also prevents operator< // being called on a non fragment item when _GLIBCXX_DEBUG is defined. if (Values.size() == 1) return; llvm::sort(Values); Values.erase(llvm::unique(Values, [](const DbgValueLoc &A, const DbgValueLoc &B) { return A.getExpression() == B.getExpression(); }), Values.end()); } /// Lower this entry into a DWARF expression. void finalize(const AsmPrinter &AP, DebugLocStream::ListBuilder &List, const DIBasicType *BT, DwarfCompileUnit &TheCU); }; /// Compare two DbgValueLocEntries for equality. inline bool operator==(const DbgValueLocEntry &A, const DbgValueLocEntry &B) { if (A.EntryKind != B.EntryKind) return false; switch (A.EntryKind) { case DbgValueLocEntry::E_Location: return A.Loc == B.Loc; case DbgValueLocEntry::E_TargetIndexLocation: return A.TIL == B.TIL; case DbgValueLocEntry::E_Integer: return A.Constant.Int == B.Constant.Int; case DbgValueLocEntry::E_ConstantFP: return A.Constant.CFP == B.Constant.CFP; case DbgValueLocEntry::E_ConstantInt: return A.Constant.CIP == B.Constant.CIP; } llvm_unreachable("unhandled EntryKind"); } /// Compare two DbgValueLocs for equality. inline bool operator==(const DbgValueLoc &A, const DbgValueLoc &B) { return A.ValueLocEntries == B.ValueLocEntries && A.Expression == B.Expression && A.IsVariadic == B.IsVariadic; } /// Compare two fragments based on their offset. inline bool operator<(const DbgValueLoc &A, const DbgValueLoc &B) { return A.getExpression()->getFragmentInfo()->OffsetInBits < B.getExpression()->getFragmentInfo()->OffsetInBits; } } #endif