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//===- SimplifyLibCalls.h - Library call simplifier -------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file exposes an interface to build some C language libcalls for
// optimization passes that need to call the various functions.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_TRANSFORMS_UTILS_SIMPLIFYLIBCALLS_H
#define LLVM_TRANSFORMS_UTILS_SIMPLIFYLIBCALLS_H
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Analysis/TargetLibraryInfo.h"
#include "llvm/IR/IRBuilder.h"
namespace llvm {
class Value;
class CallInst;
class DataLayout;
class Instruction;
class TargetLibraryInfo;
class BasicBlock;
class Function;
/// \brief This class implements simplifications for calls to fortified library
/// functions (__st*cpy_chk, __memcpy_chk, __memmove_chk, __memset_chk), to,
/// when possible, replace them with their non-checking counterparts.
/// Other optimizations can also be done, but it's possible to disable them and
/// only simplify needless use of the checking versions (when the object size
/// is unknown) by passing true for OnlyLowerUnknownSize.
class FortifiedLibCallSimplifier {
private:
const TargetLibraryInfo *TLI;
bool OnlyLowerUnknownSize;
public:
FortifiedLibCallSimplifier(const TargetLibraryInfo *TLI,
bool OnlyLowerUnknownSize = false);
/// \brief Take the given call instruction and return a more
/// optimal value to replace the instruction with or 0 if a more
/// optimal form can't be found.
/// The call must not be an indirect call.
Value *optimizeCall(CallInst *CI);
private:
Value *optimizeMemCpyChk(CallInst *CI, IRBuilder<> &B);
Value *optimizeMemMoveChk(CallInst *CI, IRBuilder<> &B);
Value *optimizeMemSetChk(CallInst *CI, IRBuilder<> &B);
// Str/Stp cpy are similar enough to be handled in the same functions.
Value *optimizeStrpCpyChk(CallInst *CI, IRBuilder<> &B, LibFunc::Func Func);
Value *optimizeStrpNCpyChk(CallInst *CI, IRBuilder<> &B, LibFunc::Func Func);
/// \brief Checks whether the call \p CI to a fortified libcall is foldable
/// to the non-fortified version.
bool isFortifiedCallFoldable(CallInst *CI, unsigned ObjSizeOp,
unsigned SizeOp, bool isString);
};
/// LibCallSimplifier - This class implements a collection of optimizations
/// that replace well formed calls to library functions with a more optimal
/// form. For example, replacing 'printf("Hello!")' with 'puts("Hello!")'.
class LibCallSimplifier {
private:
FortifiedLibCallSimplifier FortifiedSimplifier;
const DataLayout &DL;
const TargetLibraryInfo *TLI;
bool UnsafeFPShrink;
function_ref<void(Instruction *, Value *)> Replacer;
/// \brief Internal wrapper for RAUW that is the default implementation.
///
/// Other users may provide an alternate function with this signature instead
/// of this one.
static void replaceAllUsesWithDefault(Instruction *I, Value *With);
/// \brief Replace an instruction's uses with a value using our replacer.
void replaceAllUsesWith(Instruction *I, Value *With);
public:
LibCallSimplifier(const DataLayout &DL, const TargetLibraryInfo *TLI,
function_ref<void(Instruction *, Value *)> Replacer =
&replaceAllUsesWithDefault);
/// optimizeCall - Take the given call instruction and return a more
/// optimal value to replace the instruction with or 0 if a more
/// optimal form can't be found. Note that the returned value may
/// be equal to the instruction being optimized. In this case all
/// other instructions that use the given instruction were modified
/// and the given instruction is dead.
/// The call must not be an indirect call.
Value *optimizeCall(CallInst *CI);
private:
// String and Memory Library Call Optimizations
Value *optimizeStrCat(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrNCat(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrChr(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrRChr(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrCmp(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrNCmp(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrCpy(CallInst *CI, IRBuilder<> &B);
Value *optimizeStpCpy(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrNCpy(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrLen(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrPBrk(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrTo(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrSpn(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrCSpn(CallInst *CI, IRBuilder<> &B);
Value *optimizeStrStr(CallInst *CI, IRBuilder<> &B);
Value *optimizeMemChr(CallInst *CI, IRBuilder<> &B);
Value *optimizeMemCmp(CallInst *CI, IRBuilder<> &B);
Value *optimizeMemCpy(CallInst *CI, IRBuilder<> &B);
Value *optimizeMemMove(CallInst *CI, IRBuilder<> &B);
Value *optimizeMemSet(CallInst *CI, IRBuilder<> &B);
// Wrapper for all String/Memory Library Call Optimizations
Value *optimizeStringMemoryLibCall(CallInst *CI, IRBuilder<> &B);
// Math Library Optimizations
Value *optimizeUnaryDoubleFP(CallInst *CI, IRBuilder<> &B, bool CheckRetType);
Value *optimizeBinaryDoubleFP(CallInst *CI, IRBuilder<> &B);
Value *optimizeCos(CallInst *CI, IRBuilder<> &B);
Value *optimizePow(CallInst *CI, IRBuilder<> &B);
Value *optimizeExp2(CallInst *CI, IRBuilder<> &B);
Value *optimizeFabs(CallInst *CI, IRBuilder<> &B);
Value *optimizeFMinFMax(CallInst *CI, IRBuilder<> &B);
Value *optimizeLog(CallInst *CI, IRBuilder<> &B);
Value *optimizeSqrt(CallInst *CI, IRBuilder<> &B);
Value *optimizeSinCosPi(CallInst *CI, IRBuilder<> &B);
Value *optimizeTan(CallInst *CI, IRBuilder<> &B);
// Integer Library Call Optimizations
Value *optimizeFFS(CallInst *CI, IRBuilder<> &B);
Value *optimizeAbs(CallInst *CI, IRBuilder<> &B);
Value *optimizeIsDigit(CallInst *CI, IRBuilder<> &B);
Value *optimizeIsAscii(CallInst *CI, IRBuilder<> &B);
Value *optimizeToAscii(CallInst *CI, IRBuilder<> &B);
// Formatting and IO Library Call Optimizations
Value *optimizeErrorReporting(CallInst *CI, IRBuilder<> &B,
int StreamArg = -1);
Value *optimizePrintF(CallInst *CI, IRBuilder<> &B);
Value *optimizeSPrintF(CallInst *CI, IRBuilder<> &B);
Value *optimizeFPrintF(CallInst *CI, IRBuilder<> &B);
Value *optimizeFWrite(CallInst *CI, IRBuilder<> &B);
Value *optimizeFPuts(CallInst *CI, IRBuilder<> &B);
Value *optimizePuts(CallInst *CI, IRBuilder<> &B);
// Helper methods
Value *emitStrLenMemCpy(Value *Src, Value *Dst, uint64_t Len, IRBuilder<> &B);
void classifyArgUse(Value *Val, BasicBlock *BB, bool IsFloat,
SmallVectorImpl<CallInst *> &SinCalls,
SmallVectorImpl<CallInst *> &CosCalls,
SmallVectorImpl<CallInst *> &SinCosCalls);
void replaceTrigInsts(SmallVectorImpl<CallInst *> &Calls, Value *Res);
Value *optimizePrintFString(CallInst *CI, IRBuilder<> &B);
Value *optimizeSPrintFString(CallInst *CI, IRBuilder<> &B);
Value *optimizeFPrintFString(CallInst *CI, IRBuilder<> &B);
/// hasFloatVersion - Checks if there is a float version of the specified
/// function by checking for an existing function with name FuncName + f
bool hasFloatVersion(StringRef FuncName);
};
} // End llvm namespace
#endif
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