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1e6362c860
Summary: Hopefully this also clarifies exactly when and why we're rewriting certiain S_LOCALs using reference types: We're using the reference type to stand in for a zero-offset load. Reviewers: inglorion Subscribers: llvm-commits, hiraditya Differential Revision: https://reviews.llvm.org/D37309 llvm-svn: 312247
321 lines
9.7 KiB
C++
321 lines
9.7 KiB
C++
//===-- llvm/lib/CodeGen/AsmPrinter/DebugHandlerBase.cpp -------*- 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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// Common functionality for different debug information format backends.
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// LLVM currently supports DWARF and CodeView.
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//
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//===----------------------------------------------------------------------===//
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#include "DebugHandlerBase.h"
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#include "llvm/ADT/Optional.h"
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#include "llvm/ADT/Twine.h"
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#include "llvm/CodeGen/AsmPrinter.h"
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#include "llvm/CodeGen/MachineFunction.h"
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#include "llvm/CodeGen/MachineInstr.h"
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#include "llvm/CodeGen/MachineModuleInfo.h"
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#include "llvm/IR/DebugInfo.h"
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#include "llvm/MC/MCStreamer.h"
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#include "llvm/Target/TargetSubtargetInfo.h"
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using namespace llvm;
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Optional<DbgVariableLocation>
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DbgVariableLocation::extractFromMachineInstruction(
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const MachineInstr &Instruction) {
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DbgVariableLocation Location;
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if (!Instruction.isDebugValue())
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return None;
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if (!Instruction.getOperand(0).isReg())
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return None;
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Location.Register = Instruction.getOperand(0).getReg();
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Location.FragmentInfo.reset();
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// We only handle expressions generated by DIExpression::appendOffset,
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// which doesn't require a full stack machine.
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int64_t Offset = 0;
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const DIExpression *DIExpr = Instruction.getDebugExpression();
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auto Op = DIExpr->expr_op_begin();
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while (Op != DIExpr->expr_op_end()) {
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switch (Op->getOp()) {
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case dwarf::DW_OP_constu: {
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int Value = Op->getArg(0);
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++Op;
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if (Op != DIExpr->expr_op_end()) {
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switch (Op->getOp()) {
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case dwarf::DW_OP_minus:
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Offset -= Value;
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break;
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case dwarf::DW_OP_plus:
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Offset += Value;
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break;
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default:
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continue;
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}
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}
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} break;
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case dwarf::DW_OP_plus_uconst:
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Offset += Op->getArg(0);
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break;
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case dwarf::DW_OP_LLVM_fragment:
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Location.FragmentInfo = {Op->getArg(1), Op->getArg(0)};
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break;
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case dwarf::DW_OP_deref:
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Location.LoadChain.push_back(Offset);
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Offset = 0;
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break;
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default:
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return None;
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}
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++Op;
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}
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// Do one final implicit DW_OP_deref if this was an indirect DBG_VALUE
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// instruction.
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// FIXME: Replace these with DIExpression.
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if (Instruction.isIndirectDebugValue())
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Location.LoadChain.push_back(Offset);
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return Location;
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}
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DebugHandlerBase::DebugHandlerBase(AsmPrinter *A) : Asm(A), MMI(Asm->MMI) {}
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// Each LexicalScope has first instruction and last instruction to mark
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// beginning and end of a scope respectively. Create an inverse map that list
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// scopes starts (and ends) with an instruction. One instruction may start (or
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// end) multiple scopes. Ignore scopes that are not reachable.
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void DebugHandlerBase::identifyScopeMarkers() {
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SmallVector<LexicalScope *, 4> WorkList;
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WorkList.push_back(LScopes.getCurrentFunctionScope());
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while (!WorkList.empty()) {
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LexicalScope *S = WorkList.pop_back_val();
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const SmallVectorImpl<LexicalScope *> &Children = S->getChildren();
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if (!Children.empty())
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WorkList.append(Children.begin(), Children.end());
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if (S->isAbstractScope())
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continue;
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for (const InsnRange &R : S->getRanges()) {
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assert(R.first && "InsnRange does not have first instruction!");
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assert(R.second && "InsnRange does not have second instruction!");
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requestLabelBeforeInsn(R.first);
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requestLabelAfterInsn(R.second);
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}
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}
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}
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// Return Label preceding the instruction.
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MCSymbol *DebugHandlerBase::getLabelBeforeInsn(const MachineInstr *MI) {
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MCSymbol *Label = LabelsBeforeInsn.lookup(MI);
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assert(Label && "Didn't insert label before instruction");
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return Label;
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}
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// Return Label immediately following the instruction.
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MCSymbol *DebugHandlerBase::getLabelAfterInsn(const MachineInstr *MI) {
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return LabelsAfterInsn.lookup(MI);
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}
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int DebugHandlerBase::fragmentCmp(const DIExpression *P1,
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const DIExpression *P2) {
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auto Fragment1 = *P1->getFragmentInfo();
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auto Fragment2 = *P2->getFragmentInfo();
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unsigned l1 = Fragment1.OffsetInBits;
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unsigned l2 = Fragment2.OffsetInBits;
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unsigned r1 = l1 + Fragment1.SizeInBits;
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unsigned r2 = l2 + Fragment2.SizeInBits;
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if (r1 <= l2)
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return -1;
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else if (r2 <= l1)
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return 1;
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else
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return 0;
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}
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bool DebugHandlerBase::fragmentsOverlap(const DIExpression *P1,
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const DIExpression *P2) {
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if (!P1->isFragment() || !P2->isFragment())
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return true;
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return fragmentCmp(P1, P2) == 0;
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}
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/// If this type is derived from a base type then return base type size.
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uint64_t DebugHandlerBase::getBaseTypeSize(const DITypeRef TyRef) {
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DIType *Ty = TyRef.resolve();
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assert(Ty);
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DIDerivedType *DDTy = dyn_cast<DIDerivedType>(Ty);
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if (!DDTy)
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return Ty->getSizeInBits();
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unsigned Tag = DDTy->getTag();
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if (Tag != dwarf::DW_TAG_member && Tag != dwarf::DW_TAG_typedef &&
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Tag != dwarf::DW_TAG_const_type && Tag != dwarf::DW_TAG_volatile_type &&
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Tag != dwarf::DW_TAG_restrict_type && Tag != dwarf::DW_TAG_atomic_type)
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return DDTy->getSizeInBits();
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DIType *BaseType = DDTy->getBaseType().resolve();
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assert(BaseType && "Unexpected invalid base type");
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// If this is a derived type, go ahead and get the base type, unless it's a
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// reference then it's just the size of the field. Pointer types have no need
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// of this since they're a different type of qualification on the type.
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if (BaseType->getTag() == dwarf::DW_TAG_reference_type ||
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BaseType->getTag() == dwarf::DW_TAG_rvalue_reference_type)
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return Ty->getSizeInBits();
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return getBaseTypeSize(BaseType);
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}
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static bool hasDebugInfo(const MachineModuleInfo *MMI,
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const MachineFunction *MF) {
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if (!MMI->hasDebugInfo())
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return false;
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auto *SP = MF->getFunction()->getSubprogram();
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if (!SP)
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return false;
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assert(SP->getUnit());
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auto EK = SP->getUnit()->getEmissionKind();
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if (EK == DICompileUnit::NoDebug)
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return false;
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return true;
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}
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void DebugHandlerBase::beginFunction(const MachineFunction *MF) {
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PrevInstBB = nullptr;
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if (!Asm || !hasDebugInfo(MMI, MF)) {
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skippedNonDebugFunction();
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return;
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}
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// Grab the lexical scopes for the function, if we don't have any of those
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// then we're not going to be able to do anything.
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LScopes.initialize(*MF);
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if (LScopes.empty()) {
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beginFunctionImpl(MF);
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return;
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}
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// Make sure that each lexical scope will have a begin/end label.
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identifyScopeMarkers();
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// Calculate history for local variables.
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assert(DbgValues.empty() && "DbgValues map wasn't cleaned!");
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calculateDbgValueHistory(MF, Asm->MF->getSubtarget().getRegisterInfo(),
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DbgValues);
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// Request labels for the full history.
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for (const auto &I : DbgValues) {
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const auto &Ranges = I.second;
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if (Ranges.empty())
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continue;
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// The first mention of a function argument gets the CurrentFnBegin
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// label, so arguments are visible when breaking at function entry.
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const DILocalVariable *DIVar = Ranges.front().first->getDebugVariable();
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if (DIVar->isParameter() &&
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getDISubprogram(DIVar->getScope())->describes(MF->getFunction())) {
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LabelsBeforeInsn[Ranges.front().first] = Asm->getFunctionBegin();
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if (Ranges.front().first->getDebugExpression()->isFragment()) {
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// Mark all non-overlapping initial fragments.
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for (auto I = Ranges.begin(); I != Ranges.end(); ++I) {
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const DIExpression *Fragment = I->first->getDebugExpression();
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if (std::all_of(Ranges.begin(), I,
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[&](DbgValueHistoryMap::InstrRange Pred) {
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return !fragmentsOverlap(
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Fragment, Pred.first->getDebugExpression());
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}))
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LabelsBeforeInsn[I->first] = Asm->getFunctionBegin();
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else
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break;
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}
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}
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}
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for (const auto &Range : Ranges) {
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requestLabelBeforeInsn(Range.first);
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if (Range.second)
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requestLabelAfterInsn(Range.second);
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}
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}
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PrevInstLoc = DebugLoc();
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PrevLabel = Asm->getFunctionBegin();
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beginFunctionImpl(MF);
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}
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void DebugHandlerBase::beginInstruction(const MachineInstr *MI) {
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if (!MMI->hasDebugInfo())
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return;
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assert(CurMI == nullptr);
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CurMI = MI;
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// Insert labels where requested.
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DenseMap<const MachineInstr *, MCSymbol *>::iterator I =
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LabelsBeforeInsn.find(MI);
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// No label needed.
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if (I == LabelsBeforeInsn.end())
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return;
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// Label already assigned.
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if (I->second)
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return;
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if (!PrevLabel) {
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PrevLabel = MMI->getContext().createTempSymbol();
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Asm->OutStreamer->EmitLabel(PrevLabel);
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}
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I->second = PrevLabel;
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}
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void DebugHandlerBase::endInstruction() {
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if (!MMI->hasDebugInfo())
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return;
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assert(CurMI != nullptr);
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// Don't create a new label after DBG_VALUE and other instructions that don't
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// generate code.
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if (!CurMI->isMetaInstruction()) {
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PrevLabel = nullptr;
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PrevInstBB = CurMI->getParent();
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}
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DenseMap<const MachineInstr *, MCSymbol *>::iterator I =
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LabelsAfterInsn.find(CurMI);
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CurMI = nullptr;
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// No label needed.
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if (I == LabelsAfterInsn.end())
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return;
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// Label already assigned.
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if (I->second)
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return;
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// We need a label after this instruction.
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if (!PrevLabel) {
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PrevLabel = MMI->getContext().createTempSymbol();
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Asm->OutStreamer->EmitLabel(PrevLabel);
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}
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I->second = PrevLabel;
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}
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void DebugHandlerBase::endFunction(const MachineFunction *MF) {
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if (hasDebugInfo(MMI, MF))
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endFunctionImpl(MF);
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DbgValues.clear();
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LabelsBeforeInsn.clear();
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LabelsAfterInsn.clear();
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}
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