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llvm/lib/Transforms/Utils/LibCallsShrinkWrap.cpp
David L. Jones 32028c8f08 [Analysis] Add LibFunc_ prefix to enums in TargetLibraryInfo. (NFC) 
Summary:
The LibFunc::Func enum holds enumerators named for libc functions.
Unfortunately, there are real situations, including libc implementations, where
function names are actually macros (musl uses "#define fopen64 fopen", for
example; any other transitively visible macro would have similar effects).

Strictly speaking, a conforming C++ Standard Library should provide any such
macros as functions instead (via <cstdio>). However, there are some "library"
functions which are not part of the standard, and thus not subject to this
rule (fopen64, for example). So, in order to be both portable and consistent,
the enum should not use the bare function names.

The old enum naming used a namespace LibFunc and an enum Func, with bare
enumerators. This patch changes LibFunc to be an enum with enumerators prefixed
with "LibFFunc_". (Unfortunately, a scoped enum is not sufficient to override
macros.)

There are additional changes required in clang.

Reviewers: rsmith

Subscribers: mehdi_amini, mzolotukhin, nemanjai, llvm-commits

Differential Revision: https://reviews.llvm.org/D28476

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@292848 91177308-0d34-0410-b5e6-96231b3b80d8
2017-01-23 23:16:46 +00:00

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//===-- LibCallsShrinkWrap.cpp ----------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This pass shrink-wraps a call to function if the result is not used.
// The call can set errno but is otherwise side effect free. For example:
// sqrt(val);
// is transformed to
// if (val < 0)
// sqrt(val);
// Even if the result of library call is not being used, the compiler cannot
// safely delete the call because the function can set errno on error
// conditions.
// Note in many functions, the error condition solely depends on the incoming
// parameter. In this optimization, we can generate the condition can lead to
// the errno to shrink-wrap the call. Since the chances of hitting the error
// condition is low, the runtime call is effectively eliminated.
//
// These partially dead calls are usually results of C++ abstraction penalty
// exposed by inlining.
//
//===----------------------------------------------------------------------===//
#include "llvm/Transforms/Utils/LibCallsShrinkWrap.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/Statistic.h"
#include "llvm/Analysis/GlobalsModRef.h"
#include "llvm/Analysis/TargetLibraryInfo.h"
#include "llvm/IR/CFG.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/Function.h"
#include "llvm/IR/IRBuilder.h"
#include "llvm/IR/InstVisitor.h"
#include "llvm/IR/Instructions.h"
#include "llvm/IR/LLVMContext.h"
#include "llvm/IR/MDBuilder.h"
#include "llvm/Pass.h"
#include "llvm/Transforms/Utils/BasicBlockUtils.h"
using namespace llvm;
#define DEBUG_TYPE "libcalls-shrinkwrap"
STATISTIC(NumWrappedOneCond, "Number of One-Condition Wrappers Inserted");
STATISTIC(NumWrappedTwoCond, "Number of Two-Condition Wrappers Inserted");
static cl::opt<bool> LibCallsShrinkWrapDoDomainError(
"libcalls-shrinkwrap-domain-error", cl::init(true), cl::Hidden,
cl::desc("Perform shrink-wrap on lib calls with domain errors"));
static cl::opt<bool> LibCallsShrinkWrapDoRangeError(
"libcalls-shrinkwrap-range-error", cl::init(true), cl::Hidden,
cl::desc("Perform shrink-wrap on lib calls with range errors"));
static cl::opt<bool> LibCallsShrinkWrapDoPoleError(
"libcalls-shrinkwrap-pole-error", cl::init(true), cl::Hidden,
cl::desc("Perform shrink-wrap on lib calls with pole errors"));
namespace {
class LibCallsShrinkWrapLegacyPass : public FunctionPass {
public:
static char ID; // Pass identification, replacement for typeid
explicit LibCallsShrinkWrapLegacyPass() : FunctionPass(ID) {
initializeLibCallsShrinkWrapLegacyPassPass(
*PassRegistry::getPassRegistry());
}
void getAnalysisUsage(AnalysisUsage &AU) const override;
bool runOnFunction(Function &F) override;
};
}
char LibCallsShrinkWrapLegacyPass::ID = 0;
INITIALIZE_PASS_BEGIN(LibCallsShrinkWrapLegacyPass, "libcalls-shrinkwrap",
"Conditionally eliminate dead library calls", false,
false)
INITIALIZE_PASS_DEPENDENCY(TargetLibraryInfoWrapperPass)
INITIALIZE_PASS_END(LibCallsShrinkWrapLegacyPass, "libcalls-shrinkwrap",
"Conditionally eliminate dead library calls", false, false)
namespace {
class LibCallsShrinkWrap : public InstVisitor<LibCallsShrinkWrap> {
public:
LibCallsShrinkWrap(const TargetLibraryInfo &TLI) : TLI(TLI), Changed(false){};
bool isChanged() const { return Changed; }
void visitCallInst(CallInst &CI) { checkCandidate(CI); }
void perform() {
for (auto &CI : WorkList) {
DEBUG(dbgs() << "CDCE calls: " << CI->getCalledFunction()->getName()
<< "\n");
if (perform(CI)) {
Changed = true;
DEBUG(dbgs() << "Transformed\n");
}
}
}
private:
bool perform(CallInst *CI);
void checkCandidate(CallInst &CI);
void shrinkWrapCI(CallInst *CI, Value *Cond);
bool performCallDomainErrorOnly(CallInst *CI, const LibFunc &Func);
bool performCallErrors(CallInst *CI, const LibFunc &Func);
bool performCallRangeErrorOnly(CallInst *CI, const LibFunc &Func);
Value *generateOneRangeCond(CallInst *CI, const LibFunc &Func);
Value *generateTwoRangeCond(CallInst *CI, const LibFunc &Func);
Value *generateCondForPow(CallInst *CI, const LibFunc &Func);
// Create an OR of two conditions.
Value *createOrCond(CallInst *CI, CmpInst::Predicate Cmp, float Val,
CmpInst::Predicate Cmp2, float Val2) {
IRBuilder<> BBBuilder(CI);
Value *Arg = CI->getArgOperand(0);
auto Cond2 = createCond(BBBuilder, Arg, Cmp2, Val2);
auto Cond1 = createCond(BBBuilder, Arg, Cmp, Val);
return BBBuilder.CreateOr(Cond1, Cond2);
}
// Create a single condition using IRBuilder.
Value *createCond(IRBuilder<> &BBBuilder, Value *Arg, CmpInst::Predicate Cmp,
float Val) {
Constant *V = ConstantFP::get(BBBuilder.getContext(), APFloat(Val));
if (!Arg->getType()->isFloatTy())
V = ConstantExpr::getFPExtend(V, Arg->getType());
return BBBuilder.CreateFCmp(Cmp, Arg, V);
}
// Create a single condition.
Value *createCond(CallInst *CI, CmpInst::Predicate Cmp, float Val) {
IRBuilder<> BBBuilder(CI);
Value *Arg = CI->getArgOperand(0);
return createCond(BBBuilder, Arg, Cmp, Val);
}
const TargetLibraryInfo &TLI;
SmallVector<CallInst *, 16> WorkList;
bool Changed;
};
} // end anonymous namespace
// Perform the transformation to calls with errno set by domain error.
bool LibCallsShrinkWrap::performCallDomainErrorOnly(CallInst *CI,
const LibFunc &Func) {
Value *Cond = nullptr;
switch (Func) {
case LibFunc_acos: // DomainError: (x < -1 || x > 1)
case LibFunc_acosf: // Same as acos
case LibFunc_acosl: // Same as acos
case LibFunc_asin: // DomainError: (x < -1 || x > 1)
case LibFunc_asinf: // Same as asin
case LibFunc_asinl: // Same as asin
{
++NumWrappedTwoCond;
Cond = createOrCond(CI, CmpInst::FCMP_OLT, -1.0f, CmpInst::FCMP_OGT, 1.0f);
break;
}
case LibFunc_cos: // DomainError: (x == +inf || x == -inf)
case LibFunc_cosf: // Same as cos
case LibFunc_cosl: // Same as cos
case LibFunc_sin: // DomainError: (x == +inf || x == -inf)
case LibFunc_sinf: // Same as sin
case LibFunc_sinl: // Same as sin
{
++NumWrappedTwoCond;
Cond = createOrCond(CI, CmpInst::FCMP_OEQ, INFINITY, CmpInst::FCMP_OEQ,
-INFINITY);
break;
}
case LibFunc_acosh: // DomainError: (x < 1)
case LibFunc_acoshf: // Same as acosh
case LibFunc_acoshl: // Same as acosh
{
++NumWrappedOneCond;
Cond = createCond(CI, CmpInst::FCMP_OLT, 1.0f);
break;
}
case LibFunc_sqrt: // DomainError: (x < 0)
case LibFunc_sqrtf: // Same as sqrt
case LibFunc_sqrtl: // Same as sqrt
{
++NumWrappedOneCond;
Cond = createCond(CI, CmpInst::FCMP_OLT, 0.0f);
break;
}
default:
return false;
}
shrinkWrapCI(CI, Cond);
return true;
}
// Perform the transformation to calls with errno set by range error.
bool LibCallsShrinkWrap::performCallRangeErrorOnly(CallInst *CI,
const LibFunc &Func) {
Value *Cond = nullptr;
switch (Func) {
case LibFunc_cosh:
case LibFunc_coshf:
case LibFunc_coshl:
case LibFunc_exp:
case LibFunc_expf:
case LibFunc_expl:
case LibFunc_exp10:
case LibFunc_exp10f:
case LibFunc_exp10l:
case LibFunc_exp2:
case LibFunc_exp2f:
case LibFunc_exp2l:
case LibFunc_sinh:
case LibFunc_sinhf:
case LibFunc_sinhl: {
Cond = generateTwoRangeCond(CI, Func);
break;
}
case LibFunc_expm1: // RangeError: (709, inf)
case LibFunc_expm1f: // RangeError: (88, inf)
case LibFunc_expm1l: // RangeError: (11356, inf)
{
Cond = generateOneRangeCond(CI, Func);
break;
}
default:
return false;
}
shrinkWrapCI(CI, Cond);
return true;
}
// Perform the transformation to calls with errno set by combination of errors.
bool LibCallsShrinkWrap::performCallErrors(CallInst *CI,
const LibFunc &Func) {
Value *Cond = nullptr;
switch (Func) {
case LibFunc_atanh: // DomainError: (x < -1 || x > 1)
// PoleError: (x == -1 || x == 1)
// Overall Cond: (x <= -1 || x >= 1)
case LibFunc_atanhf: // Same as atanh
case LibFunc_atanhl: // Same as atanh
{
if (!LibCallsShrinkWrapDoDomainError || !LibCallsShrinkWrapDoPoleError)
return false;
++NumWrappedTwoCond;
Cond = createOrCond(CI, CmpInst::FCMP_OLE, -1.0f, CmpInst::FCMP_OGE, 1.0f);
break;
}
case LibFunc_log: // DomainError: (x < 0)
// PoleError: (x == 0)
// Overall Cond: (x <= 0)
case LibFunc_logf: // Same as log
case LibFunc_logl: // Same as log
case LibFunc_log10: // Same as log
case LibFunc_log10f: // Same as log
case LibFunc_log10l: // Same as log
case LibFunc_log2: // Same as log
case LibFunc_log2f: // Same as log
case LibFunc_log2l: // Same as log
case LibFunc_logb: // Same as log
case LibFunc_logbf: // Same as log
case LibFunc_logbl: // Same as log
{
if (!LibCallsShrinkWrapDoDomainError || !LibCallsShrinkWrapDoPoleError)
return false;
++NumWrappedOneCond;
Cond = createCond(CI, CmpInst::FCMP_OLE, 0.0f);
break;
}
case LibFunc_log1p: // DomainError: (x < -1)
// PoleError: (x == -1)
// Overall Cond: (x <= -1)
case LibFunc_log1pf: // Same as log1p
case LibFunc_log1pl: // Same as log1p
{
if (!LibCallsShrinkWrapDoDomainError || !LibCallsShrinkWrapDoPoleError)
return false;
++NumWrappedOneCond;
Cond = createCond(CI, CmpInst::FCMP_OLE, -1.0f);
break;
}
case LibFunc_pow: // DomainError: x < 0 and y is noninteger
// PoleError: x == 0 and y < 0
// RangeError: overflow or underflow
case LibFunc_powf:
case LibFunc_powl: {
if (!LibCallsShrinkWrapDoDomainError || !LibCallsShrinkWrapDoPoleError ||
!LibCallsShrinkWrapDoRangeError)
return false;
Cond = generateCondForPow(CI, Func);
if (Cond == nullptr)
return false;
break;
}
default:
return false;
}
assert(Cond && "performCallErrors should not see an empty condition");
shrinkWrapCI(CI, Cond);
return true;
}
// Checks if CI is a candidate for shrinkwrapping and put it into work list if
// true.
void LibCallsShrinkWrap::checkCandidate(CallInst &CI) {
if (CI.isNoBuiltin())
return;
// A possible improvement is to handle the calls with the return value being
// used. If there is API for fast libcall implementation without setting
// errno, we can use the same framework to direct/wrap the call to the fast
// API in the error free path, and leave the original call in the slow path.
if (!CI.use_empty())
return;
LibFunc Func;
Function *Callee = CI.getCalledFunction();
if (!Callee)
return;
if (!TLI.getLibFunc(*Callee, Func) || !TLI.has(Func))
return;
if (CI.getNumArgOperands() == 0)
return;
// TODO: Handle long double in other formats.
Type *ArgType = CI.getArgOperand(0)->getType();
if (!(ArgType->isFloatTy() || ArgType->isDoubleTy() ||
ArgType->isX86_FP80Ty()))
return;
WorkList.push_back(&CI);
}
// Generate the upper bound condition for RangeError.
Value *LibCallsShrinkWrap::generateOneRangeCond(CallInst *CI,
const LibFunc &Func) {
float UpperBound;
switch (Func) {
case LibFunc_expm1: // RangeError: (709, inf)
UpperBound = 709.0f;
break;
case LibFunc_expm1f: // RangeError: (88, inf)
UpperBound = 88.0f;
break;
case LibFunc_expm1l: // RangeError: (11356, inf)
UpperBound = 11356.0f;
break;
default:
llvm_unreachable("Should be reach here");
}
++NumWrappedOneCond;
return createCond(CI, CmpInst::FCMP_OGT, UpperBound);
}
// Generate the lower and upper bound condition for RangeError.
Value *LibCallsShrinkWrap::generateTwoRangeCond(CallInst *CI,
const LibFunc &Func) {
float UpperBound, LowerBound;
switch (Func) {
case LibFunc_cosh: // RangeError: (x < -710 || x > 710)
case LibFunc_sinh: // Same as cosh
LowerBound = -710.0f;
UpperBound = 710.0f;
break;
case LibFunc_coshf: // RangeError: (x < -89 || x > 89)
case LibFunc_sinhf: // Same as coshf
LowerBound = -89.0f;
UpperBound = 89.0f;
break;
case LibFunc_coshl: // RangeError: (x < -11357 || x > 11357)
case LibFunc_sinhl: // Same as coshl
LowerBound = -11357.0f;
UpperBound = 11357.0f;
break;
case LibFunc_exp: // RangeError: (x < -745 || x > 709)
LowerBound = -745.0f;
UpperBound = 709.0f;
break;
case LibFunc_expf: // RangeError: (x < -103 || x > 88)
LowerBound = -103.0f;
UpperBound = 88.0f;
break;
case LibFunc_expl: // RangeError: (x < -11399 || x > 11356)
LowerBound = -11399.0f;
UpperBound = 11356.0f;
break;
case LibFunc_exp10: // RangeError: (x < -323 || x > 308)
LowerBound = -323.0f;
UpperBound = 308.0f;
break;
case LibFunc_exp10f: // RangeError: (x < -45 || x > 38)
LowerBound = -45.0f;
UpperBound = 38.0f;
break;
case LibFunc_exp10l: // RangeError: (x < -4950 || x > 4932)
LowerBound = -4950.0f;
UpperBound = 4932.0f;
break;
case LibFunc_exp2: // RangeError: (x < -1074 || x > 1023)
LowerBound = -1074.0f;
UpperBound = 1023.0f;
break;
case LibFunc_exp2f: // RangeError: (x < -149 || x > 127)
LowerBound = -149.0f;
UpperBound = 127.0f;
break;
case LibFunc_exp2l: // RangeError: (x < -16445 || x > 11383)
LowerBound = -16445.0f;
UpperBound = 11383.0f;
break;
default:
llvm_unreachable("Should be reach here");
}
++NumWrappedTwoCond;
return createOrCond(CI, CmpInst::FCMP_OGT, UpperBound, CmpInst::FCMP_OLT,
LowerBound);
}
// For pow(x,y), We only handle the following cases:
// (1) x is a constant && (x >= 1) && (x < MaxUInt8)
// Cond is: (y > 127)
// (2) x is a value coming from an integer type.
// (2.1) if x's bit_size == 8
// Cond: (x <= 0 || y > 128)
// (2.2) if x's bit_size is 16
// Cond: (x <= 0 || y > 64)
// (2.3) if x's bit_size is 32
// Cond: (x <= 0 || y > 32)
// Support for powl(x,y) and powf(x,y) are TBD.
//
// Note that condition can be more conservative than the actual condition
// (i.e. we might invoke the calls that will not set the errno.).
//
Value *LibCallsShrinkWrap::generateCondForPow(CallInst *CI,
const LibFunc &Func) {
// FIXME: LibFunc_powf and powl TBD.
if (Func != LibFunc_pow) {
DEBUG(dbgs() << "Not handled powf() and powl()\n");
return nullptr;
}
Value *Base = CI->getArgOperand(0);
Value *Exp = CI->getArgOperand(1);
IRBuilder<> BBBuilder(CI);
// Constant Base case.
if (ConstantFP *CF = dyn_cast<ConstantFP>(Base)) {
double D = CF->getValueAPF().convertToDouble();
if (D < 1.0f || D > APInt::getMaxValue(8).getZExtValue()) {
DEBUG(dbgs() << "Not handled pow(): constant base out of range\n");
return nullptr;
}
++NumWrappedOneCond;
Constant *V = ConstantFP::get(CI->getContext(), APFloat(127.0f));
if (!Exp->getType()->isFloatTy())
V = ConstantExpr::getFPExtend(V, Exp->getType());
return BBBuilder.CreateFCmp(CmpInst::FCMP_OGT, Exp, V);
}
// If the Base value coming from an integer type.
Instruction *I = dyn_cast<Instruction>(Base);
if (!I) {
DEBUG(dbgs() << "Not handled pow(): FP type base\n");
return nullptr;
}
unsigned Opcode = I->getOpcode();
if (Opcode == Instruction::UIToFP || Opcode == Instruction::SIToFP) {
unsigned BW = I->getOperand(0)->getType()->getPrimitiveSizeInBits();
float UpperV = 0.0f;
if (BW == 8)
UpperV = 128.0f;
else if (BW == 16)
UpperV = 64.0f;
else if (BW == 32)
UpperV = 32.0f;
else {
DEBUG(dbgs() << "Not handled pow(): type too wide\n");
return nullptr;
}
++NumWrappedTwoCond;
Constant *V = ConstantFP::get(CI->getContext(), APFloat(UpperV));
Constant *V0 = ConstantFP::get(CI->getContext(), APFloat(0.0f));
if (!Exp->getType()->isFloatTy())
V = ConstantExpr::getFPExtend(V, Exp->getType());
if (!Base->getType()->isFloatTy())
V0 = ConstantExpr::getFPExtend(V0, Exp->getType());
Value *Cond = BBBuilder.CreateFCmp(CmpInst::FCMP_OGT, Exp, V);
Value *Cond0 = BBBuilder.CreateFCmp(CmpInst::FCMP_OLE, Base, V0);
return BBBuilder.CreateOr(Cond0, Cond);
}
DEBUG(dbgs() << "Not handled pow(): base not from integer convert\n");
return nullptr;
}
// Wrap conditions that can potentially generate errno to the library call.
void LibCallsShrinkWrap::shrinkWrapCI(CallInst *CI, Value *Cond) {
assert(Cond != nullptr && "hrinkWrapCI is not expecting an empty call inst");
MDNode *BranchWeights =
MDBuilder(CI->getContext()).createBranchWeights(1, 2000);
TerminatorInst *NewInst =
SplitBlockAndInsertIfThen(Cond, CI, false, BranchWeights);
BasicBlock *CallBB = NewInst->getParent();
CallBB->setName("cdce.call");
CallBB->getSingleSuccessor()->setName("cdce.end");
CI->removeFromParent();
CallBB->getInstList().insert(CallBB->getFirstInsertionPt(), CI);
DEBUG(dbgs() << "== Basic Block After ==");
DEBUG(dbgs() << *CallBB->getSinglePredecessor() << *CallBB
<< *CallBB->getSingleSuccessor() << "\n");
}
// Perform the transformation to a single candidate.
bool LibCallsShrinkWrap::perform(CallInst *CI) {
LibFunc Func;
Function *Callee = CI->getCalledFunction();
assert(Callee && "perform() should apply to a non-empty callee");
TLI.getLibFunc(*Callee, Func);
assert(Func && "perform() is not expecting an empty function");
if (LibCallsShrinkWrapDoDomainError && performCallDomainErrorOnly(CI, Func))
return true;
if (LibCallsShrinkWrapDoRangeError && performCallRangeErrorOnly(CI, Func))
return true;
return performCallErrors(CI, Func);
}
void LibCallsShrinkWrapLegacyPass::getAnalysisUsage(AnalysisUsage &AU) const {
AU.addPreserved<GlobalsAAWrapperPass>();
AU.addRequired<TargetLibraryInfoWrapperPass>();
}
static bool runImpl(Function &F, const TargetLibraryInfo &TLI) {
if (F.hasFnAttribute(Attribute::OptimizeForSize))
return false;
LibCallsShrinkWrap CCDCE(TLI);
CCDCE.visit(F);
CCDCE.perform();
return CCDCE.isChanged();
}
bool LibCallsShrinkWrapLegacyPass::runOnFunction(Function &F) {
auto &TLI = getAnalysis<TargetLibraryInfoWrapperPass>().getTLI();
return runImpl(F, TLI);
}
namespace llvm {
char &LibCallsShrinkWrapPassID = LibCallsShrinkWrapLegacyPass::ID;
// Public interface to LibCallsShrinkWrap pass.
FunctionPass *createLibCallsShrinkWrapPass() {
return new LibCallsShrinkWrapLegacyPass();
}
PreservedAnalyses LibCallsShrinkWrapPass::run(Function &F,
FunctionAnalysisManager &FAM) {
auto &TLI = FAM.getResult<TargetLibraryAnalysis>(F);
bool Changed = runImpl(F, TLI);
if (!Changed)
return PreservedAnalyses::all();
auto PA = PreservedAnalyses();
PA.preserve<GlobalsAA>();
return PA;
}
}
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