diff options
author | Shuxin Yang <shuxin.llvm@gmail.com> | 2013-01-07 21:39:23 +0000 |
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committer | Shuxin Yang <shuxin.llvm@gmail.com> | 2013-01-07 21:39:23 +0000 |
commit | d3ae2866d105f6da6375544eb41aea0dad75a9f2 (patch) | |
tree | 657172554ba94af328ded24558b69793423d40fc /lib/Transforms/InstCombine/InstCombineMulDivRem.cpp | |
parent | 2f1bfc4c7937fdf59e2d88e0e23d0657daba79b2 (diff) |
This change is to implement following rules:
o. X/C1 * C2 => X * (C2/C1) (if C2/C1 is neither special FP nor denormal)
o. X/C1 * C2 -> X/(C1/C2) (if C2/C1 is either specical FP or denormal, but C1/C2 is a normal Fp)
Let MDC denote multiplication or dividion with one & only one operand being a constant
o. (MDC ± C1) * C2 => (MDC * C2) ± (C1 * C2)
(so long as the constant-folding doesn't yield any denormal or special value)
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@171793 91177308-0d34-0410-b5e6-96231b3b80d8
Diffstat (limited to 'lib/Transforms/InstCombine/InstCombineMulDivRem.cpp')
-rw-r--r-- | lib/Transforms/InstCombine/InstCombineMulDivRem.cpp | 127 |
1 files changed, 127 insertions, 0 deletions
diff --git a/lib/Transforms/InstCombine/InstCombineMulDivRem.cpp b/lib/Transforms/InstCombine/InstCombineMulDivRem.cpp index bb6bd4e9db..759b32b3f4 100644 --- a/lib/Transforms/InstCombine/InstCombineMulDivRem.cpp +++ b/lib/Transforms/InstCombine/InstCombineMulDivRem.cpp @@ -291,10 +291,90 @@ static void detectLog2OfHalf(Value *&Op, Value *&Y, IntrinsicInst *&Log2) { Y = I->getOperand(0); } +/// Helper function of InstCombiner::visitFMul(BinaryOperator(). It returns +/// true iff the given value is FMul or FDiv with one and only one operand +/// being a normal constant (i.e. not Zero/NaN/Infinity). +static bool isFMulOrFDivWithConstant(Value *V) { + Instruction *I = dyn_cast<Instruction>(V); + if (!I || (I->getOpcode() != Instruction::FMul && + I->getOpcode() != Instruction::FDiv)) { + return false; + } + + ConstantFP *C0 = dyn_cast<ConstantFP>(I->getOperand(0)); + ConstantFP *C1 = dyn_cast<ConstantFP>(I->getOperand(1)); + + if (C0 && C1) + return false; + + return (C0 && C0->getValueAPF().isNormal()) || + (C1 && C1->getValueAPF().isNormal()); +} + +static bool isNormalFp(const ConstantFP *C) { + const APFloat &Flt = C->getValueAPF(); + return Flt.isNormal() && !Flt.isDenormal(); +} + +/// foldFMulConst() is a helper routine of InstCombiner::visitFMul(). +/// The input \p FMulOrDiv is a FMul/FDiv with one and only one operand +/// being a constant (i.e. isFMulOrFDivWithConstant(FMulOrDiv) == true). +/// This function is to simplify "FMulOrDiv * C" and returns the +/// resulting expression. Note that this function could return NULL in +/// case the constants cannot be folded into a normal floating-point. +/// +Value *InstCombiner::foldFMulConst + (Instruction *FMulOrDiv, ConstantFP *C, Instruction *InsertBefore) { + assert(isFMulOrFDivWithConstant(FMulOrDiv) && "V is invalid"); + + Value *Opnd0 = FMulOrDiv->getOperand(0); + Value *Opnd1 = FMulOrDiv->getOperand(1); + + ConstantFP *C0 = dyn_cast<ConstantFP>(Opnd0); + ConstantFP *C1 = dyn_cast<ConstantFP>(Opnd1); + + BinaryOperator *R = 0; + + // (X * C0) * C => X * (C0*C) + if (FMulOrDiv->getOpcode() == Instruction::FMul) { + Constant *F = ConstantExpr::getFMul(C1 ? C1 : C0, C); + if (isNormalFp(cast<ConstantFP>(F))) + R = BinaryOperator::CreateFMul(C1 ? Opnd0 : Opnd1, F); + } else { + if (C0) { + // (C0 / X) * C => (C0 * C) / X + ConstantFP *F = cast<ConstantFP>(ConstantExpr::getFMul(C0, C)); + if (isNormalFp(F)) + R = BinaryOperator::CreateFDiv(F, Opnd1); + } else { + // (X / C1) * C => X * (C/C1) if C/C1 is not a denormal + ConstantFP *F = cast<ConstantFP>(ConstantExpr::getFDiv(C, C1)); + if (isNormalFp(F)) { + R = BinaryOperator::CreateFMul(Opnd0, F); + } else { + // (X / C1) * C => X / (C1/C) + Constant *F = ConstantExpr::getFDiv(C1, C); + if (isNormalFp(cast<ConstantFP>(F))) + R = BinaryOperator::CreateFDiv(Opnd0, F); + } + } + } + + if (R) { + R->setHasUnsafeAlgebra(true); + InsertNewInstWith(R, *InsertBefore); + } + + return R; +} + Instruction *InstCombiner::visitFMul(BinaryOperator &I) { bool Changed = SimplifyAssociativeOrCommutative(I); Value *Op0 = I.getOperand(0), *Op1 = I.getOperand(1); + if (isa<Constant>(Op0)) + std::swap(Op0, Op1); + if (Value *V = SimplifyFMulInst(Op0, Op1, I.getFastMathFlags(), TD)) return ReplaceInstUsesWith(I, V); @@ -308,6 +388,53 @@ Instruction *InstCombiner::visitFMul(BinaryOperator &I) { if (isa<PHINode>(Op0)) if (Instruction *NV = FoldOpIntoPhi(I)) return NV; + + ConstantFP *C = dyn_cast<ConstantFP>(Op1); + if (C && I.hasUnsafeAlgebra() && C->getValueAPF().isNormal()) { + // Let MDC denote an expression in one of these forms: + // X * C, C/X, X/C, where C is a constant. + // + // Try to simplify "MDC * Constant" + if (isFMulOrFDivWithConstant(Op0)) { + Value *V = foldFMulConst(cast<Instruction>(Op0), C, &I); + if (V) + return ReplaceInstUsesWith(I, V); + } + + // (MDC +/- C1) * C2 => (MDC * C2) +/- (C1 * C2) + Instruction *FAddSub = dyn_cast<Instruction>(Op0); + if (FAddSub && + (FAddSub->getOpcode() == Instruction::FAdd || + FAddSub->getOpcode() == Instruction::FSub)) { + Value *Opnd0 = FAddSub->getOperand(0); + Value *Opnd1 = FAddSub->getOperand(1); + ConstantFP *C0 = dyn_cast<ConstantFP>(Opnd0); + ConstantFP *C1 = dyn_cast<ConstantFP>(Opnd1); + bool Swap = false; + if (C0) { + std::swap(C0, C1); std::swap(Opnd0, Opnd1); Swap = true; + } + + if (C1 && C1->getValueAPF().isNormal() && + isFMulOrFDivWithConstant(Opnd0)) { + Value *M0 = ConstantExpr::getFMul(C1, C); + Value *M1 = isNormalFp(cast<ConstantFP>(M0)) ? + foldFMulConst(cast<Instruction>(Opnd0), C, &I) : + 0; + if (M0 && M1) { + if (Swap && FAddSub->getOpcode() == Instruction::FSub) + std::swap(M0, M1); + + Value *R = (FAddSub->getOpcode() == Instruction::FAdd) ? + BinaryOperator::CreateFAdd(M0, M1) : + BinaryOperator::CreateFSub(M0, M1); + Instruction *RI = cast<Instruction>(R); + RI->setHasUnsafeAlgebra(true); + return RI; + } + } + } + } } if (Value *Op0v = dyn_castFNegVal(Op0)) // -X * -Y = X*Y |