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0ac3f0a4d9
This is r334704 (which was reverted in r334732) with a fix for types like x86_fp80. We need to use getTypeAllocSizeInBits and not getTypeStoreSizeInBits to avoid dropping debug info for such types. Original commit msg: > Summary: > Do not convert a DbgDeclare to DbgValue if the store > instruction only refer to a fragment of the variable > described by the DbgDeclare. > > Problem was seen when for example having an alloca for an > array or struct, and there were stores to individual elements. > In the past we inserted a DbgValue intrinsics for each store, > just as if the store wrote the whole variable. > > When handling store instructions we insert a DbgValue that > indicates that the variable is "undefined", as we do not know > which part of the variable that is updated by the store. > > When ConvertDebugDeclareToDebugValue is used with a load/phi > instruction we assert that the referenced value is large enough > to cover the whole variable. Afaict this should be true for all > scenarios where those methods are used on trunk. If the assert > blows in the future I guess we could simply skip to insert a > dbg.value instruction. > > In the future I think we should examine which part of the variable > that is accessed, and add a DbgValue instrinsic with an appropriate > DW_OP_LLVM_fragment expression. > > Reviewers: dblaikie, aprantl, rnk > > Reviewed By: aprantl > > Subscribers: JDevlieghere, llvm-commits > > Tags: #debug-info > > Differential Revision: https://reviews.llvm.org/D48024 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@334830 91177308-0d34-0410-b5e6-96231b3b80d8
167 lines
6.0 KiB
C++
167 lines
6.0 KiB
C++
//===-- InstrinsicInst.cpp - Intrinsic Instruction Wrappers ---------------===//
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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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// This file implements methods that make it really easy to deal with intrinsic
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// functions.
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//
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// All intrinsic function calls are instances of the call instruction, so these
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// are all subclasses of the CallInst class. Note that none of these classes
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// has state or virtual methods, which is an important part of this gross/neat
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// hack working.
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//
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// In some cases, arguments to intrinsics need to be generic and are defined as
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// type pointer to empty struct { }*. To access the real item of interest the
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// cast instruction needs to be stripped away.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/IR/IntrinsicInst.h"
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#include "llvm/ADT/StringSwitch.h"
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#include "llvm/IR/Constants.h"
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#include "llvm/IR/DebugInfoMetadata.h"
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#include "llvm/IR/GlobalVariable.h"
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#include "llvm/IR/Metadata.h"
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#include "llvm/IR/Module.h"
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#include "llvm/Support/raw_ostream.h"
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using namespace llvm;
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//===----------------------------------------------------------------------===//
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/// DbgInfoIntrinsic - This is the common base class for debug info intrinsics
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///
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Value *DbgInfoIntrinsic::getVariableLocation(bool AllowNullOp) const {
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Value *Op = getArgOperand(0);
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if (AllowNullOp && !Op)
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return nullptr;
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auto *MD = cast<MetadataAsValue>(Op)->getMetadata();
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if (auto *V = dyn_cast<ValueAsMetadata>(MD))
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return V->getValue();
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// When the value goes to null, it gets replaced by an empty MDNode.
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assert(!cast<MDNode>(MD)->getNumOperands() && "Expected an empty MDNode");
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return nullptr;
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}
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Optional<uint64_t> DbgInfoIntrinsic::getFragmentSizeInBits() const {
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if (auto Fragment = getExpression()->getFragmentInfo())
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return Fragment->SizeInBits;
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return getVariable()->getSizeInBits();
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}
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int llvm::Intrinsic::lookupLLVMIntrinsicByName(ArrayRef<const char *> NameTable,
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StringRef Name) {
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assert(Name.startswith("llvm."));
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// Do successive binary searches of the dotted name components. For
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// "llvm.gc.experimental.statepoint.p1i8.p1i32", we will find the range of
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// intrinsics starting with "llvm.gc", then "llvm.gc.experimental", then
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// "llvm.gc.experimental.statepoint", and then we will stop as the range is
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// size 1. During the search, we can skip the prefix that we already know is
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// identical. By using strncmp we consider names with differing suffixes to
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// be part of the equal range.
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size_t CmpStart = 0;
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size_t CmpEnd = 4; // Skip the "llvm" component.
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const char *const *Low = NameTable.begin();
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const char *const *High = NameTable.end();
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const char *const *LastLow = Low;
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while (CmpEnd < Name.size() && High - Low > 0) {
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CmpStart = CmpEnd;
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CmpEnd = Name.find('.', CmpStart + 1);
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CmpEnd = CmpEnd == StringRef::npos ? Name.size() : CmpEnd;
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auto Cmp = [CmpStart, CmpEnd](const char *LHS, const char *RHS) {
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return strncmp(LHS + CmpStart, RHS + CmpStart, CmpEnd - CmpStart) < 0;
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};
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LastLow = Low;
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std::tie(Low, High) = std::equal_range(Low, High, Name.data(), Cmp);
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}
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if (High - Low > 0)
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LastLow = Low;
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if (LastLow == NameTable.end())
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return -1;
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StringRef NameFound = *LastLow;
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if (Name == NameFound ||
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(Name.startswith(NameFound) && Name[NameFound.size()] == '.'))
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return LastLow - NameTable.begin();
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return -1;
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}
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Value *InstrProfIncrementInst::getStep() const {
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if (InstrProfIncrementInstStep::classof(this)) {
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return const_cast<Value *>(getArgOperand(4));
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}
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const Module *M = getModule();
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LLVMContext &Context = M->getContext();
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return ConstantInt::get(Type::getInt64Ty(Context), 1);
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}
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ConstrainedFPIntrinsic::RoundingMode
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ConstrainedFPIntrinsic::getRoundingMode() const {
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unsigned NumOperands = getNumArgOperands();
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Metadata *MD =
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dyn_cast<MetadataAsValue>(getArgOperand(NumOperands - 2))->getMetadata();
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if (!MD || !isa<MDString>(MD))
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return rmInvalid;
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StringRef RoundingArg = cast<MDString>(MD)->getString();
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// For dynamic rounding mode, we use round to nearest but we will set the
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// 'exact' SDNodeFlag so that the value will not be rounded.
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return StringSwitch<RoundingMode>(RoundingArg)
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.Case("round.dynamic", rmDynamic)
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.Case("round.tonearest", rmToNearest)
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.Case("round.downward", rmDownward)
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.Case("round.upward", rmUpward)
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.Case("round.towardzero", rmTowardZero)
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.Default(rmInvalid);
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}
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ConstrainedFPIntrinsic::ExceptionBehavior
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ConstrainedFPIntrinsic::getExceptionBehavior() const {
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unsigned NumOperands = getNumArgOperands();
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Metadata *MD =
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dyn_cast<MetadataAsValue>(getArgOperand(NumOperands - 1))->getMetadata();
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if (!MD || !isa<MDString>(MD))
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return ebInvalid;
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StringRef ExceptionArg = cast<MDString>(MD)->getString();
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return StringSwitch<ExceptionBehavior>(ExceptionArg)
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.Case("fpexcept.ignore", ebIgnore)
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.Case("fpexcept.maytrap", ebMayTrap)
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.Case("fpexcept.strict", ebStrict)
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.Default(ebInvalid);
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}
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bool ConstrainedFPIntrinsic::isUnaryOp() const {
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switch (getIntrinsicID()) {
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default:
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return false;
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case Intrinsic::experimental_constrained_sqrt:
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case Intrinsic::experimental_constrained_sin:
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case Intrinsic::experimental_constrained_cos:
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case Intrinsic::experimental_constrained_exp:
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case Intrinsic::experimental_constrained_exp2:
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case Intrinsic::experimental_constrained_log:
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case Intrinsic::experimental_constrained_log10:
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case Intrinsic::experimental_constrained_log2:
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case Intrinsic::experimental_constrained_rint:
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case Intrinsic::experimental_constrained_nearbyint:
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return true;
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}
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}
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bool ConstrainedFPIntrinsic::isTernaryOp() const {
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switch (getIntrinsicID()) {
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default:
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return false;
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case Intrinsic::experimental_constrained_fma:
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return true;
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}
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}
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