forked from OSchip/llvm-project
450 lines
15 KiB
C++
450 lines
15 KiB
C++
//===- Debugify.cpp - Attach synthetic debug info to everything -----------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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///
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/// \file This pass attaches synthetic debug info to everything. It can be used
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/// to create targeted tests for debug info preservation.
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///
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//===----------------------------------------------------------------------===//
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#include "llvm/Transforms/Utils/Debugify.h"
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#include "llvm/ADT/BitVector.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/IR/DIBuilder.h"
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#include "llvm/IR/DebugInfo.h"
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#include "llvm/IR/InstIterator.h"
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#include "llvm/IR/Instructions.h"
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#include "llvm/IR/IntrinsicInst.h"
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#include "llvm/IR/Module.h"
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#include "llvm/Pass.h"
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#include "llvm/Support/CommandLine.h"
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using namespace llvm;
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namespace {
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cl::opt<bool> Quiet("debugify-quiet",
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cl::desc("Suppress verbose debugify output"));
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enum class Level {
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Locations,
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LocationsAndVariables
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};
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cl::opt<Level> DebugifyLevel(
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"debugify-level", cl::desc("Kind of debug info to add"),
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cl::values(clEnumValN(Level::Locations, "locations", "Locations only"),
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clEnumValN(Level::LocationsAndVariables, "location+variables",
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"Locations and Variables")),
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cl::init(Level::LocationsAndVariables));
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raw_ostream &dbg() { return Quiet ? nulls() : errs(); }
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uint64_t getAllocSizeInBits(Module &M, Type *Ty) {
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return Ty->isSized() ? M.getDataLayout().getTypeAllocSizeInBits(Ty) : 0;
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}
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bool isFunctionSkipped(Function &F) {
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return F.isDeclaration() || !F.hasExactDefinition();
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}
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/// Find the basic block's terminating instruction.
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///
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/// Special care is needed to handle musttail and deopt calls, as these behave
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/// like (but are in fact not) terminators.
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Instruction *findTerminatingInstruction(BasicBlock &BB) {
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if (auto *I = BB.getTerminatingMustTailCall())
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return I;
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if (auto *I = BB.getTerminatingDeoptimizeCall())
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return I;
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return BB.getTerminator();
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}
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bool applyDebugifyMetadata(Module &M,
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iterator_range<Module::iterator> Functions,
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StringRef Banner) {
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// Skip modules with debug info.
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if (M.getNamedMetadata("llvm.dbg.cu")) {
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dbg() << Banner << "Skipping module with debug info\n";
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return false;
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}
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DIBuilder DIB(M);
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LLVMContext &Ctx = M.getContext();
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// Get a DIType which corresponds to Ty.
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DenseMap<uint64_t, DIType *> TypeCache;
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auto getCachedDIType = [&](Type *Ty) -> DIType * {
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uint64_t Size = getAllocSizeInBits(M, Ty);
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DIType *&DTy = TypeCache[Size];
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if (!DTy) {
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std::string Name = "ty" + utostr(Size);
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DTy = DIB.createBasicType(Name, Size, dwarf::DW_ATE_unsigned);
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}
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return DTy;
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};
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unsigned NextLine = 1;
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unsigned NextVar = 1;
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auto File = DIB.createFile(M.getName(), "/");
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auto CU = DIB.createCompileUnit(dwarf::DW_LANG_C, File, "debugify",
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/*isOptimized=*/true, "", 0);
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// Visit each instruction.
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for (Function &F : Functions) {
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if (isFunctionSkipped(F))
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continue;
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auto SPType = DIB.createSubroutineType(DIB.getOrCreateTypeArray(None));
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DISubprogram::DISPFlags SPFlags =
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DISubprogram::SPFlagDefinition | DISubprogram::SPFlagOptimized;
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if (F.hasPrivateLinkage() || F.hasInternalLinkage())
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SPFlags |= DISubprogram::SPFlagLocalToUnit;
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auto SP = DIB.createFunction(CU, F.getName(), F.getName(), File, NextLine,
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SPType, NextLine, DINode::FlagZero, SPFlags);
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F.setSubprogram(SP);
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for (BasicBlock &BB : F) {
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// Attach debug locations.
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for (Instruction &I : BB)
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I.setDebugLoc(DILocation::get(Ctx, NextLine++, 1, SP));
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if (DebugifyLevel < Level::LocationsAndVariables)
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continue;
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// Inserting debug values into EH pads can break IR invariants.
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if (BB.isEHPad())
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continue;
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// Find the terminating instruction, after which no debug values are
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// attached.
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Instruction *LastInst = findTerminatingInstruction(BB);
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assert(LastInst && "Expected basic block with a terminator");
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// Maintain an insertion point which can't be invalidated when updates
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// are made.
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BasicBlock::iterator InsertPt = BB.getFirstInsertionPt();
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assert(InsertPt != BB.end() && "Expected to find an insertion point");
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Instruction *InsertBefore = &*InsertPt;
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// Attach debug values.
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for (Instruction *I = &*BB.begin(); I != LastInst; I = I->getNextNode()) {
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// Skip void-valued instructions.
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if (I->getType()->isVoidTy())
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continue;
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// Phis and EH pads must be grouped at the beginning of the block.
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// Only advance the insertion point when we finish visiting these.
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if (!isa<PHINode>(I) && !I->isEHPad())
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InsertBefore = I->getNextNode();
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std::string Name = utostr(NextVar++);
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const DILocation *Loc = I->getDebugLoc().get();
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auto LocalVar = DIB.createAutoVariable(SP, Name, File, Loc->getLine(),
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getCachedDIType(I->getType()),
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/*AlwaysPreserve=*/true);
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DIB.insertDbgValueIntrinsic(I, LocalVar, DIB.createExpression(), Loc,
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InsertBefore);
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}
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}
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DIB.finalizeSubprogram(SP);
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}
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DIB.finalize();
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// Track the number of distinct lines and variables.
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NamedMDNode *NMD = M.getOrInsertNamedMetadata("llvm.debugify");
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auto *IntTy = Type::getInt32Ty(Ctx);
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auto addDebugifyOperand = [&](unsigned N) {
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NMD->addOperand(MDNode::get(
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Ctx, ValueAsMetadata::getConstant(ConstantInt::get(IntTy, N))));
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};
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addDebugifyOperand(NextLine - 1); // Original number of lines.
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addDebugifyOperand(NextVar - 1); // Original number of variables.
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assert(NMD->getNumOperands() == 2 &&
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"llvm.debugify should have exactly 2 operands!");
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// Claim that this synthetic debug info is valid.
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StringRef DIVersionKey = "Debug Info Version";
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if (!M.getModuleFlag(DIVersionKey))
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M.addModuleFlag(Module::Warning, DIVersionKey, DEBUG_METADATA_VERSION);
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return true;
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}
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/// Return true if a mis-sized diagnostic is issued for \p DVI.
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bool diagnoseMisSizedDbgValue(Module &M, DbgValueInst *DVI) {
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// The size of a dbg.value's value operand should match the size of the
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// variable it corresponds to.
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//
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// TODO: This, along with a check for non-null value operands, should be
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// promoted to verifier failures.
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Value *V = DVI->getValue();
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if (!V)
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return false;
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// For now, don't try to interpret anything more complicated than an empty
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// DIExpression. Eventually we should try to handle OP_deref and fragments.
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if (DVI->getExpression()->getNumElements())
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return false;
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Type *Ty = V->getType();
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uint64_t ValueOperandSize = getAllocSizeInBits(M, Ty);
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Optional<uint64_t> DbgVarSize = DVI->getFragmentSizeInBits();
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if (!ValueOperandSize || !DbgVarSize)
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return false;
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bool HasBadSize = false;
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if (Ty->isIntegerTy()) {
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auto Signedness = DVI->getVariable()->getSignedness();
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if (Signedness && *Signedness == DIBasicType::Signedness::Signed)
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HasBadSize = ValueOperandSize < *DbgVarSize;
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} else {
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HasBadSize = ValueOperandSize != *DbgVarSize;
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}
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if (HasBadSize) {
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dbg() << "ERROR: dbg.value operand has size " << ValueOperandSize
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<< ", but its variable has size " << *DbgVarSize << ": ";
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DVI->print(dbg());
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dbg() << "\n";
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}
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return HasBadSize;
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}
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bool checkDebugifyMetadata(Module &M,
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iterator_range<Module::iterator> Functions,
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StringRef NameOfWrappedPass, StringRef Banner,
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bool Strip, DebugifyStatsMap *StatsMap) {
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// Skip modules without debugify metadata.
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NamedMDNode *NMD = M.getNamedMetadata("llvm.debugify");
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if (!NMD) {
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dbg() << Banner << "Skipping module without debugify metadata\n";
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return false;
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}
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auto getDebugifyOperand = [&](unsigned Idx) -> unsigned {
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return mdconst::extract<ConstantInt>(NMD->getOperand(Idx)->getOperand(0))
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->getZExtValue();
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};
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assert(NMD->getNumOperands() == 2 &&
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"llvm.debugify should have exactly 2 operands!");
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unsigned OriginalNumLines = getDebugifyOperand(0);
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unsigned OriginalNumVars = getDebugifyOperand(1);
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bool HasErrors = false;
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// Track debug info loss statistics if able.
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DebugifyStatistics *Stats = nullptr;
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if (StatsMap && !NameOfWrappedPass.empty())
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Stats = &StatsMap->operator[](NameOfWrappedPass);
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BitVector MissingLines{OriginalNumLines, true};
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BitVector MissingVars{OriginalNumVars, true};
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for (Function &F : Functions) {
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if (isFunctionSkipped(F))
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continue;
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// Find missing lines.
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for (Instruction &I : instructions(F)) {
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if (isa<DbgValueInst>(&I) || isa<PHINode>(&I))
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continue;
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auto DL = I.getDebugLoc();
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if (DL && DL.getLine() != 0) {
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MissingLines.reset(DL.getLine() - 1);
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continue;
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}
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if (!DL) {
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dbg() << "ERROR: Instruction with empty DebugLoc in function ";
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dbg() << F.getName() << " --";
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I.print(dbg());
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dbg() << "\n";
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HasErrors = true;
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}
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}
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// Find missing variables and mis-sized debug values.
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for (Instruction &I : instructions(F)) {
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auto *DVI = dyn_cast<DbgValueInst>(&I);
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if (!DVI)
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continue;
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unsigned Var = ~0U;
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(void)to_integer(DVI->getVariable()->getName(), Var, 10);
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assert(Var <= OriginalNumVars && "Unexpected name for DILocalVariable");
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bool HasBadSize = diagnoseMisSizedDbgValue(M, DVI);
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if (!HasBadSize)
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MissingVars.reset(Var - 1);
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HasErrors |= HasBadSize;
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}
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}
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// Print the results.
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for (unsigned Idx : MissingLines.set_bits())
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dbg() << "WARNING: Missing line " << Idx + 1 << "\n";
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for (unsigned Idx : MissingVars.set_bits())
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dbg() << "WARNING: Missing variable " << Idx + 1 << "\n";
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// Update DI loss statistics.
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if (Stats) {
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Stats->NumDbgLocsExpected += OriginalNumLines;
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Stats->NumDbgLocsMissing += MissingLines.count();
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Stats->NumDbgValuesExpected += OriginalNumVars;
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Stats->NumDbgValuesMissing += MissingVars.count();
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}
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dbg() << Banner;
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if (!NameOfWrappedPass.empty())
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dbg() << " [" << NameOfWrappedPass << "]";
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dbg() << ": " << (HasErrors ? "FAIL" : "PASS") << '\n';
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// Strip the Debugify Metadata if required.
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if (Strip) {
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StripDebugInfo(M);
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M.eraseNamedMetadata(NMD);
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return true;
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}
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return false;
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}
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/// ModulePass for attaching synthetic debug info to everything, used with the
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/// legacy module pass manager.
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struct DebugifyModulePass : public ModulePass {
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bool runOnModule(Module &M) override {
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return applyDebugifyMetadata(M, M.functions(), "ModuleDebugify: ");
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}
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DebugifyModulePass() : ModulePass(ID) {}
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void getAnalysisUsage(AnalysisUsage &AU) const override {
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AU.setPreservesAll();
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}
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static char ID; // Pass identification.
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};
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/// FunctionPass for attaching synthetic debug info to instructions within a
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/// single function, used with the legacy module pass manager.
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struct DebugifyFunctionPass : public FunctionPass {
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bool runOnFunction(Function &F) override {
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Module &M = *F.getParent();
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auto FuncIt = F.getIterator();
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return applyDebugifyMetadata(M, make_range(FuncIt, std::next(FuncIt)),
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"FunctionDebugify: ");
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}
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DebugifyFunctionPass() : FunctionPass(ID) {}
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void getAnalysisUsage(AnalysisUsage &AU) const override {
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AU.setPreservesAll();
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}
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static char ID; // Pass identification.
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};
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/// ModulePass for checking debug info inserted by -debugify, used with the
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/// legacy module pass manager.
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struct CheckDebugifyModulePass : public ModulePass {
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bool runOnModule(Module &M) override {
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return checkDebugifyMetadata(M, M.functions(), NameOfWrappedPass,
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"CheckModuleDebugify", Strip, StatsMap);
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}
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CheckDebugifyModulePass(bool Strip = false, StringRef NameOfWrappedPass = "",
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DebugifyStatsMap *StatsMap = nullptr)
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: ModulePass(ID), Strip(Strip), NameOfWrappedPass(NameOfWrappedPass),
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StatsMap(StatsMap) {}
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void getAnalysisUsage(AnalysisUsage &AU) const override {
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AU.setPreservesAll();
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}
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static char ID; // Pass identification.
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private:
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bool Strip;
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StringRef NameOfWrappedPass;
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DebugifyStatsMap *StatsMap;
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};
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/// FunctionPass for checking debug info inserted by -debugify-function, used
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/// with the legacy module pass manager.
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struct CheckDebugifyFunctionPass : public FunctionPass {
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bool runOnFunction(Function &F) override {
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Module &M = *F.getParent();
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auto FuncIt = F.getIterator();
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return checkDebugifyMetadata(M, make_range(FuncIt, std::next(FuncIt)),
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NameOfWrappedPass, "CheckFunctionDebugify",
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Strip, StatsMap);
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}
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CheckDebugifyFunctionPass(bool Strip = false,
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StringRef NameOfWrappedPass = "",
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DebugifyStatsMap *StatsMap = nullptr)
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: FunctionPass(ID), Strip(Strip), NameOfWrappedPass(NameOfWrappedPass),
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StatsMap(StatsMap) {}
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void getAnalysisUsage(AnalysisUsage &AU) const override {
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AU.setPreservesAll();
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}
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static char ID; // Pass identification.
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private:
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bool Strip;
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StringRef NameOfWrappedPass;
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DebugifyStatsMap *StatsMap;
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};
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} // end anonymous namespace
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ModulePass *createDebugifyModulePass() { return new DebugifyModulePass(); }
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FunctionPass *createDebugifyFunctionPass() {
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return new DebugifyFunctionPass();
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}
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PreservedAnalyses NewPMDebugifyPass::run(Module &M, ModuleAnalysisManager &) {
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applyDebugifyMetadata(M, M.functions(), "ModuleDebugify: ");
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return PreservedAnalyses::all();
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}
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ModulePass *createCheckDebugifyModulePass(bool Strip,
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StringRef NameOfWrappedPass,
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DebugifyStatsMap *StatsMap) {
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return new CheckDebugifyModulePass(Strip, NameOfWrappedPass, StatsMap);
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}
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FunctionPass *createCheckDebugifyFunctionPass(bool Strip,
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StringRef NameOfWrappedPass,
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DebugifyStatsMap *StatsMap) {
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return new CheckDebugifyFunctionPass(Strip, NameOfWrappedPass, StatsMap);
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}
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PreservedAnalyses NewPMCheckDebugifyPass::run(Module &M,
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ModuleAnalysisManager &) {
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checkDebugifyMetadata(M, M.functions(), "", "CheckModuleDebugify", false,
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nullptr);
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return PreservedAnalyses::all();
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}
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char DebugifyModulePass::ID = 0;
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static RegisterPass<DebugifyModulePass> DM("debugify",
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"Attach debug info to everything");
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char CheckDebugifyModulePass::ID = 0;
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static RegisterPass<CheckDebugifyModulePass>
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CDM("check-debugify", "Check debug info from -debugify");
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char DebugifyFunctionPass::ID = 0;
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static RegisterPass<DebugifyFunctionPass> DF("debugify-function",
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"Attach debug info to a function");
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char CheckDebugifyFunctionPass::ID = 0;
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static RegisterPass<CheckDebugifyFunctionPass>
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CDF("check-debugify-function", "Check debug info from -debugify-function");
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