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02474a32eb
argument of the llvm.dbg.declare/llvm.dbg.value intrinsics. Previously, DIVariable was a variable-length field that has an optional reference to a Metadata array consisting of a variable number of complex address expressions. In the case of OpPiece expressions this is wasting a lot of storage in IR, because when an aggregate type is, e.g., SROA'd into all of its n individual members, the IR will contain n copies of the DIVariable, all alike, only differing in the complex address reference at the end. By making the complex address into an extra argument of the dbg.value/dbg.declare intrinsics, all of the pieces can reference the same variable and the complex address expressions can be uniqued across the CU, too. Down the road, this will allow us to move other flags, such as "indirection" out of the DIVariable, too. The new intrinsics look like this: declare void @llvm.dbg.declare(metadata %storage, metadata %var, metadata %expr) declare void @llvm.dbg.value(metadata %storage, i64 %offset, metadata %var, metadata %expr) This patch adds a new LLVM-local tag to DIExpressions, so we can detect and pretty-print DIExpression metadata nodes. What this patch doesn't do: This patch does not touch the "Indirect" field in DIVariable; but moving that into the expression would be a natural next step. http://reviews.llvm.org/D4919 rdar://problem/17994491 Thanks to dblaikie and dexonsmith for reviewing this patch! Note: I accidentally committed a bogus older version of this patch previously. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@218787 91177308-0d34-0410-b5e6-96231b3b80d8
186 lines
6.3 KiB
C++
186 lines
6.3 KiB
C++
//===-- llvm/CodeGen/DebugLocEntry.h - Entry in debug_loc list -*- 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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#ifndef LLVM_LIB_CODEGEN_ASMPRINTER_DEBUGLOCENTRY_H
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#define LLVM_LIB_CODEGEN_ASMPRINTER_DEBUGLOCENTRY_H
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#include "llvm/IR/Constants.h"
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#include "llvm/IR/DebugInfo.h"
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#include "llvm/MC/MachineLocation.h"
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#include "llvm/MC/MCSymbol.h"
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namespace llvm {
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class MDNode;
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/// \brief This struct describes location entries emitted in the .debug_loc
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/// section.
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class DebugLocEntry {
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// Begin and end symbols for the address range that this location is valid.
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const MCSymbol *Begin;
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const MCSymbol *End;
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public:
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/// A single location or constant.
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struct Value {
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Value(const MDNode *Var, const MDNode *Expr, int64_t i)
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: Variable(Var), Expression(Expr), EntryKind(E_Integer) {
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Constant.Int = i;
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}
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Value(const MDNode *Var, const MDNode *Expr, const ConstantFP *CFP)
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: Variable(Var), Expression(Expr), EntryKind(E_ConstantFP) {
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Constant.CFP = CFP;
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}
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Value(const MDNode *Var, const MDNode *Expr, const ConstantInt *CIP)
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: Variable(Var), Expression(Expr), EntryKind(E_ConstantInt) {
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Constant.CIP = CIP;
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}
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Value(const MDNode *Var, const MDNode *Expr, MachineLocation Loc)
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: Variable(Var), Expression(Expr), EntryKind(E_Location), Loc(Loc) {
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assert(DIVariable(Var).Verify());
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assert(DIExpression(Expr).Verify());
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}
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// The variable to which this location entry corresponds.
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const MDNode *Variable;
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// Any complex address location expression for this Value.
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const MDNode *Expression;
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// Type of entry that this represents.
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enum EntryType { E_Location, E_Integer, E_ConstantFP, E_ConstantInt };
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enum EntryType EntryKind;
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// Either a constant,
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union {
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int64_t Int;
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const ConstantFP *CFP;
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const ConstantInt *CIP;
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} Constant;
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// Or a location in the machine frame.
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MachineLocation Loc;
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bool isLocation() const { return EntryKind == E_Location; }
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bool isInt() const { return EntryKind == E_Integer; }
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bool isConstantFP() const { return EntryKind == E_ConstantFP; }
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bool isConstantInt() const { return EntryKind == E_ConstantInt; }
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int64_t getInt() const { return Constant.Int; }
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const ConstantFP *getConstantFP() const { return Constant.CFP; }
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const ConstantInt *getConstantInt() const { return Constant.CIP; }
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MachineLocation getLoc() const { return Loc; }
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const MDNode *getVariableNode() const { return Variable; }
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DIVariable getVariable() const { return DIVariable(Variable); }
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bool isVariablePiece() const { return getExpression().isVariablePiece(); }
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DIExpression getExpression() const { return DIExpression(Expression); }
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friend bool operator==(const Value &, const Value &);
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friend bool operator<(const Value &, const Value &);
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};
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private:
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/// A nonempty list of locations/constants belonging to this entry,
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/// sorted by offset.
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SmallVector<Value, 1> Values;
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public:
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DebugLocEntry(const MCSymbol *B, const MCSymbol *E, Value Val)
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: Begin(B), End(E) {
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Values.push_back(std::move(Val));
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}
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/// \brief If this and Next are describing different pieces of the same
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// variable, merge them by appending Next's values to the current
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// list of values.
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// Return true if the merge was successful.
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bool MergeValues(const DebugLocEntry &Next) {
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if (Begin == Next.Begin) {
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DIExpression Expr(Values[0].Expression);
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DIVariable Var(Values[0].Variable);
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DIExpression NextExpr(Next.Values[0].Expression);
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DIVariable NextVar(Next.Values[0].Variable);
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if (Var == NextVar && Expr.isVariablePiece() &&
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NextExpr.isVariablePiece()) {
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addValues(Next.Values);
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End = Next.End;
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return true;
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}
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}
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return false;
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}
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/// \brief Attempt to merge this DebugLocEntry with Next and return
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/// true if the merge was successful. Entries can be merged if they
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/// share the same Loc/Constant and if Next immediately follows this
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/// Entry.
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bool MergeRanges(const DebugLocEntry &Next) {
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// If this and Next are describing the same variable, merge them.
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if ((End == Next.Begin && Values == Next.Values)) {
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End = Next.End;
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return true;
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}
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return false;
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}
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const MCSymbol *getBeginSym() const { return Begin; }
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const MCSymbol *getEndSym() const { return End; }
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ArrayRef<Value> getValues() const { return Values; }
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void addValues(ArrayRef<DebugLocEntry::Value> Vals) {
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Values.append(Vals.begin(), Vals.end());
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sortUniqueValues();
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assert(std::all_of(Values.begin(), Values.end(), [](DebugLocEntry::Value V){
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return V.isVariablePiece();
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}) && "value must be a piece");
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}
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// Sort the pieces by offset.
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// Remove any duplicate entries by dropping all but the first.
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void sortUniqueValues() {
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std::sort(Values.begin(), Values.end());
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Values.erase(std::unique(Values.begin(), Values.end(),
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[](const Value &A, const Value &B) {
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return A.getVariable() == B.getVariable() &&
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A.getExpression() == B.getExpression();
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}),
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Values.end());
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}
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};
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/// Compare two Values for equality.
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inline bool operator==(const DebugLocEntry::Value &A,
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const DebugLocEntry::Value &B) {
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if (A.EntryKind != B.EntryKind)
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return false;
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if (A.Expression != B.Expression)
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return false;
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if (A.Variable != B.Variable)
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return false;
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switch (A.EntryKind) {
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case DebugLocEntry::Value::E_Location:
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return A.Loc == B.Loc;
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case DebugLocEntry::Value::E_Integer:
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return A.Constant.Int == B.Constant.Int;
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case DebugLocEntry::Value::E_ConstantFP:
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return A.Constant.CFP == B.Constant.CFP;
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case DebugLocEntry::Value::E_ConstantInt:
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return A.Constant.CIP == B.Constant.CIP;
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}
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llvm_unreachable("unhandled EntryKind");
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}
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/// Compare two pieces based on their offset.
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inline bool operator<(const DebugLocEntry::Value &A,
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const DebugLocEntry::Value &B) {
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return A.getExpression().getPieceOffset() <
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B.getExpression().getPieceOffset();
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}
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}
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#endif
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