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e6584b2b7b
teak-llvm/llvm/lib/IR/IntrinsicInst.cpp
Serge Pavlov e6584b2b7b Move floating point related entities to namespace level 
Enumerations that describe rounding mode and exception behavior were
defined inside ConstrainedFPIntrinsic. It makes sense to use the same
definitions to represent the same properties in other cases, not only
in constrained intrinsics. It was however inconvenient as required to
include constrained intrinsics definitions even if they were not needed.
Also using long scope prefix reduced readability.

This change moves these definitioins to the namespace llvm::fp.
No functional changes.

Differential Revision: https://reviews.llvm.org/D69552
2019-11-15 19:56:33 +07:00

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//===-- InstrinsicInst.cpp - Intrinsic Instruction Wrappers ---------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// This file implements methods that make it really easy to deal with intrinsic
// functions.
//
// All intrinsic function calls are instances of the call instruction, so these
// are all subclasses of the CallInst class. Note that none of these classes
// has state or virtual methods, which is an important part of this gross/neat
// hack working.
//
// In some cases, arguments to intrinsics need to be generic and are defined as
// type pointer to empty struct { }*. To access the real item of interest the
// cast instruction needs to be stripped away.
//
//===----------------------------------------------------------------------===//
#include "llvm/IR/IntrinsicInst.h"
#include "llvm/IR/Operator.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/DebugInfoMetadata.h"
#include "llvm/IR/GlobalVariable.h"
#include "llvm/IR/Metadata.h"
#include "llvm/IR/Module.h"
#include "llvm/Support/raw_ostream.h"
using namespace llvm;
//===----------------------------------------------------------------------===//
/// DbgVariableIntrinsic - This is the common base class for debug info
/// intrinsics for variables.
///
Value *DbgVariableIntrinsic::getVariableLocation(bool AllowNullOp) const {
Value *Op = getArgOperand(0);
if (AllowNullOp && !Op)
return nullptr;
auto *MD = cast<MetadataAsValue>(Op)->getMetadata();
if (auto *V = dyn_cast<ValueAsMetadata>(MD))
return V->getValue();
// When the value goes to null, it gets replaced by an empty MDNode.
assert(!cast<MDNode>(MD)->getNumOperands() && "Expected an empty MDNode");
return nullptr;
}
Optional<uint64_t> DbgVariableIntrinsic::getFragmentSizeInBits() const {
if (auto Fragment = getExpression()->getFragmentInfo())
return Fragment->SizeInBits;
return getVariable()->getSizeInBits();
}
int llvm::Intrinsic::lookupLLVMIntrinsicByName(ArrayRef<const char *> NameTable,
StringRef Name) {
assert(Name.startswith("llvm."));
// Do successive binary searches of the dotted name components. For
// "llvm.gc.experimental.statepoint.p1i8.p1i32", we will find the range of
// intrinsics starting with "llvm.gc", then "llvm.gc.experimental", then
// "llvm.gc.experimental.statepoint", and then we will stop as the range is
// size 1. During the search, we can skip the prefix that we already know is
// identical. By using strncmp we consider names with differing suffixes to
// be part of the equal range.
size_t CmpEnd = 4; // Skip the "llvm" component.
const char *const *Low = NameTable.begin();
const char *const *High = NameTable.end();
const char *const *LastLow = Low;
while (CmpEnd < Name.size() && High - Low > 0) {
size_t CmpStart = CmpEnd;
CmpEnd = Name.find('.', CmpStart + 1);
CmpEnd = CmpEnd == StringRef::npos ? Name.size() : CmpEnd;
auto Cmp = [CmpStart, CmpEnd](const char *LHS, const char *RHS) {
return strncmp(LHS + CmpStart, RHS + CmpStart, CmpEnd - CmpStart) < 0;
};
LastLow = Low;
std::tie(Low, High) = std::equal_range(Low, High, Name.data(), Cmp);
}
if (High - Low > 0)
LastLow = Low;
if (LastLow == NameTable.end())
return -1;
StringRef NameFound = *LastLow;
if (Name == NameFound ||
(Name.startswith(NameFound) && Name[NameFound.size()] == '.'))
return LastLow - NameTable.begin();
return -1;
}
Value *InstrProfIncrementInst::getStep() const {
if (InstrProfIncrementInstStep::classof(this)) {
return const_cast<Value *>(getArgOperand(4));
}
const Module *M = getModule();
LLVMContext &Context = M->getContext();
return ConstantInt::get(Type::getInt64Ty(Context), 1);
}
Optional<fp::RoundingMode> ConstrainedFPIntrinsic::getRoundingMode() const {
unsigned NumOperands = getNumArgOperands();
Metadata *MD =
cast<MetadataAsValue>(getArgOperand(NumOperands - 2))->getMetadata();
if (!MD || !isa<MDString>(MD))
return None;
return StrToRoundingMode(cast<MDString>(MD)->getString());
}
Optional<fp::ExceptionBehavior>
ConstrainedFPIntrinsic::getExceptionBehavior() const {
unsigned NumOperands = getNumArgOperands();
Metadata *MD =
cast<MetadataAsValue>(getArgOperand(NumOperands - 1))->getMetadata();
if (!MD || !isa<MDString>(MD))
return None;
return StrToExceptionBehavior(cast<MDString>(MD)->getString());
}
bool ConstrainedFPIntrinsic::isUnaryOp() const {
switch (getIntrinsicID()) {
default:
return false;
case Intrinsic::experimental_constrained_fptosi:
case Intrinsic::experimental_constrained_fptoui:
case Intrinsic::experimental_constrained_fptrunc:
case Intrinsic::experimental_constrained_fpext:
case Intrinsic::experimental_constrained_sqrt:
case Intrinsic::experimental_constrained_sin:
case Intrinsic::experimental_constrained_cos:
case Intrinsic::experimental_constrained_exp:
case Intrinsic::experimental_constrained_exp2:
case Intrinsic::experimental_constrained_log:
case Intrinsic::experimental_constrained_log10:
case Intrinsic::experimental_constrained_log2:
case Intrinsic::experimental_constrained_lrint:
case Intrinsic::experimental_constrained_llrint:
case Intrinsic::experimental_constrained_rint:
case Intrinsic::experimental_constrained_nearbyint:
case Intrinsic::experimental_constrained_ceil:
case Intrinsic::experimental_constrained_floor:
case Intrinsic::experimental_constrained_lround:
case Intrinsic::experimental_constrained_llround:
case Intrinsic::experimental_constrained_round:
case Intrinsic::experimental_constrained_trunc:
return true;
}
}
bool ConstrainedFPIntrinsic::isTernaryOp() const {
switch (getIntrinsicID()) {
default:
return false;
case Intrinsic::experimental_constrained_fma:
return true;
}
}
Instruction::BinaryOps BinaryOpIntrinsic::getBinaryOp() const {
switch (getIntrinsicID()) {
case Intrinsic::uadd_with_overflow:
case Intrinsic::sadd_with_overflow:
case Intrinsic::uadd_sat:
case Intrinsic::sadd_sat:
return Instruction::Add;
case Intrinsic::usub_with_overflow:
case Intrinsic::ssub_with_overflow:
case Intrinsic::usub_sat:
case Intrinsic::ssub_sat:
return Instruction::Sub;
case Intrinsic::umul_with_overflow:
case Intrinsic::smul_with_overflow:
return Instruction::Mul;
default:
llvm_unreachable("Invalid intrinsic");
}
}
bool BinaryOpIntrinsic::isSigned() const {
switch (getIntrinsicID()) {
case Intrinsic::sadd_with_overflow:
case Intrinsic::ssub_with_overflow:
case Intrinsic::smul_with_overflow:
case Intrinsic::sadd_sat:
case Intrinsic::ssub_sat:
return true;
default:
return false;
}
}
unsigned BinaryOpIntrinsic::getNoWrapKind() const {
if (isSigned())
return OverflowingBinaryOperator::NoSignedWrap;
else
return OverflowingBinaryOperator::NoUnsignedWrap;
}
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