/* * Copyright (C) 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "constant_folding.h" namespace art { // This visitor tries to simplify instructions that can be evaluated // as constants. class HConstantFoldingVisitor : public HGraphDelegateVisitor { public: explicit HConstantFoldingVisitor(HGraph* graph) : HGraphDelegateVisitor(graph) {} private: void VisitBasicBlock(HBasicBlock* block) OVERRIDE; void VisitUnaryOperation(HUnaryOperation* inst) OVERRIDE; void VisitBinaryOperation(HBinaryOperation* inst) OVERRIDE; void VisitTypeConversion(HTypeConversion* inst) OVERRIDE; void VisitDivZeroCheck(HDivZeroCheck* inst) OVERRIDE; DISALLOW_COPY_AND_ASSIGN(HConstantFoldingVisitor); }; // This visitor tries to simplify operations with an absorbing input, // yielding a constant. For example `input * 0` is replaced by a // null constant. class InstructionWithAbsorbingInputSimplifier : public HGraphVisitor { public: explicit InstructionWithAbsorbingInputSimplifier(HGraph* graph) : HGraphVisitor(graph) {} private: void VisitShift(HBinaryOperation* shift); void VisitAbove(HAbove* instruction) OVERRIDE; void VisitAboveOrEqual(HAboveOrEqual* instruction) OVERRIDE; void VisitBelow(HBelow* instruction) OVERRIDE; void VisitBelowOrEqual(HBelowOrEqual* instruction) OVERRIDE; void VisitAnd(HAnd* instruction) OVERRIDE; void VisitCompare(HCompare* instruction) OVERRIDE; void VisitMul(HMul* instruction) OVERRIDE; void VisitOr(HOr* instruction) OVERRIDE; void VisitRem(HRem* instruction) OVERRIDE; void VisitShl(HShl* instruction) OVERRIDE; void VisitShr(HShr* instruction) OVERRIDE; void VisitSub(HSub* instruction) OVERRIDE; void VisitUShr(HUShr* instruction) OVERRIDE; void VisitXor(HXor* instruction) OVERRIDE; }; void HConstantFolding::Run() { HConstantFoldingVisitor visitor(graph_); // Process basic blocks in reverse post-order in the dominator tree, // so that an instruction turned into a constant, used as input of // another instruction, may possibly be used to turn that second // instruction into a constant as well. visitor.VisitReversePostOrder(); } void HConstantFoldingVisitor::VisitBasicBlock(HBasicBlock* block) { // Traverse this block's instructions (phis don't need to be // processed) in (forward) order and replace the ones that can be // statically evaluated by a compile-time counterpart. for (HInstructionIterator it(block->GetInstructions()); !it.Done(); it.Advance()) { it.Current()->Accept(this); } } void HConstantFoldingVisitor::VisitUnaryOperation(HUnaryOperation* inst) { // Constant folding: replace `op(a)' with a constant at compile // time if `a' is a constant. HConstant* constant = inst->TryStaticEvaluation(); if (constant != nullptr) { inst->ReplaceWith(constant); inst->GetBlock()->RemoveInstruction(inst); } } void HConstantFoldingVisitor::VisitBinaryOperation(HBinaryOperation* inst) { // Constant folding: replace `op(a, b)' with a constant at // compile time if `a' and `b' are both constants. HConstant* constant = inst->TryStaticEvaluation(); if (constant != nullptr) { inst->ReplaceWith(constant); inst->GetBlock()->RemoveInstruction(inst); } else { InstructionWithAbsorbingInputSimplifier simplifier(GetGraph()); inst->Accept(&simplifier); } } void HConstantFoldingVisitor::VisitTypeConversion(HTypeConversion* inst) { // Constant folding: replace `TypeConversion(a)' with a constant at // compile time if `a' is a constant. HConstant* constant = inst->AsTypeConversion()->TryStaticEvaluation(); if (constant != nullptr) { inst->ReplaceWith(constant); inst->GetBlock()->RemoveInstruction(inst); } } void HConstantFoldingVisitor::VisitDivZeroCheck(HDivZeroCheck* inst) { // We can safely remove the check if the input is a non-null constant. HInstruction* check_input = inst->InputAt(0); if (check_input->IsConstant() && !check_input->AsConstant()->IsArithmeticZero()) { inst->ReplaceWith(check_input); inst->GetBlock()->RemoveInstruction(inst); } } void InstructionWithAbsorbingInputSimplifier::VisitShift(HBinaryOperation* instruction) { DCHECK(instruction->IsShl() || instruction->IsShr() || instruction->IsUShr()); HInstruction* left = instruction->GetLeft(); if (left->IsConstant() && left->AsConstant()->IsArithmeticZero()) { // Replace code looking like // SHL dst, 0, shift_amount // with // CONSTANT 0 instruction->ReplaceWith(left); instruction->GetBlock()->RemoveInstruction(instruction); } } void InstructionWithAbsorbingInputSimplifier::VisitAbove(HAbove* instruction) { if (instruction->GetLeft()->IsConstant() && instruction->GetLeft()->AsConstant()->IsArithmeticZero()) { // Replace code looking like // ABOVE dst, 0, src // unsigned 0 > src is always false // with // CONSTANT false instruction->ReplaceWith(GetGraph()->GetConstant(Primitive::kPrimBoolean, 0)); instruction->GetBlock()->RemoveInstruction(instruction); } } void InstructionWithAbsorbingInputSimplifier::VisitAboveOrEqual(HAboveOrEqual* instruction) { if (instruction->GetRight()->IsConstant() && instruction->GetRight()->AsConstant()->IsArithmeticZero()) { // Replace code looking like // ABOVE_OR_EQUAL dst, src, 0 // unsigned src >= 0 is always true // with // CONSTANT true instruction->ReplaceWith(GetGraph()->GetConstant(Primitive::kPrimBoolean, 1)); instruction->GetBlock()->RemoveInstruction(instruction); } } void InstructionWithAbsorbingInputSimplifier::VisitBelow(HBelow* instruction) { if (instruction->GetRight()->IsConstant() && instruction->GetRight()->AsConstant()->IsArithmeticZero()) { // Replace code looking like // BELOW dst, src, 0 // unsigned src < 0 is always false // with // CONSTANT false instruction->ReplaceWith(GetGraph()->GetConstant(Primitive::kPrimBoolean, 0)); instruction->GetBlock()->RemoveInstruction(instruction); } } void InstructionWithAbsorbingInputSimplifier::VisitBelowOrEqual(HBelowOrEqual* instruction) { if (instruction->GetLeft()->IsConstant() && instruction->GetLeft()->AsConstant()->IsArithmeticZero()) { // Replace code looking like // BELOW_OR_EQUAL dst, 0, src // unsigned 0 <= src is always true // with // CONSTANT true instruction->ReplaceWith(GetGraph()->GetConstant(Primitive::kPrimBoolean, 1)); instruction->GetBlock()->RemoveInstruction(instruction); } } void InstructionWithAbsorbingInputSimplifier::VisitAnd(HAnd* instruction) { HConstant* input_cst = instruction->GetConstantRight(); if ((input_cst != nullptr) && input_cst->IsZeroBitPattern()) { // Replace code looking like // AND dst, src, 0 // with // CONSTANT 0 instruction->ReplaceWith(input_cst); instruction->GetBlock()->RemoveInstruction(instruction); } } void InstructionWithAbsorbingInputSimplifier::VisitCompare(HCompare* instruction) { HConstant* input_cst = instruction->GetConstantRight(); if (input_cst != nullptr) { HInstruction* input_value = instruction->GetLeastConstantLeft(); if (Primitive::IsFloatingPointType(input_value->GetType()) && ((input_cst->IsFloatConstant() && input_cst->AsFloatConstant()->IsNaN()) || (input_cst->IsDoubleConstant() && input_cst->AsDoubleConstant()->IsNaN()))) { // Replace code looking like // CMP{G,L}-{FLOAT,DOUBLE} dst, src, NaN // with // CONSTANT +1 (gt bias) // or // CONSTANT -1 (lt bias) instruction->ReplaceWith(GetGraph()->GetConstant(Primitive::kPrimInt, (instruction->IsGtBias() ? 1 : -1))); instruction->GetBlock()->RemoveInstruction(instruction); } } } void InstructionWithAbsorbingInputSimplifier::VisitMul(HMul* instruction) { HConstant* input_cst = instruction->GetConstantRight(); Primitive::Type type = instruction->GetType(); if (Primitive::IsIntOrLongType(type) && (input_cst != nullptr) && input_cst->IsArithmeticZero()) { // Replace code looking like // MUL dst, src, 0 // with // CONSTANT 0 // Integral multiplication by zero always yields zero, but floating-point // multiplication by zero does not always do. For example `Infinity * 0.0` // should yield a NaN. instruction->ReplaceWith(input_cst); instruction->GetBlock()->RemoveInstruction(instruction); } } void InstructionWithAbsorbingInputSimplifier::VisitOr(HOr* instruction) { HConstant* input_cst = instruction->GetConstantRight(); if (input_cst == nullptr) { return; } if (Int64FromConstant(input_cst) == -1) { // Replace code looking like // OR dst, src, 0xFFF...FF // with // CONSTANT 0xFFF...FF instruction->ReplaceWith(input_cst); instruction->GetBlock()->RemoveInstruction(instruction); } } void InstructionWithAbsorbingInputSimplifier::VisitRem(HRem* instruction) { Primitive::Type type = instruction->GetType(); if (!Primitive::IsIntegralType(type)) { return; } HBasicBlock* block = instruction->GetBlock(); if (instruction->GetLeft()->IsConstant() && instruction->GetLeft()->AsConstant()->IsArithmeticZero()) { // Replace code looking like // REM dst, 0, src // with // CONSTANT 0 instruction->ReplaceWith(instruction->GetLeft()); block->RemoveInstruction(instruction); } HConstant* cst_right = instruction->GetRight()->AsConstant(); if (((cst_right != nullptr) && (cst_right->IsOne() || cst_right->IsMinusOne())) || (instruction->GetLeft() == instruction->GetRight())) { // Replace code looking like // REM dst, src, 1 // or // REM dst, src, -1 // or // REM dst, src, src // with // CONSTANT 0 instruction->ReplaceWith(GetGraph()->GetConstant(type, 0)); block->RemoveInstruction(instruction); } } void InstructionWithAbsorbingInputSimplifier::VisitShl(HShl* instruction) { VisitShift(instruction); } void InstructionWithAbsorbingInputSimplifier::VisitShr(HShr* instruction) { VisitShift(instruction); } void InstructionWithAbsorbingInputSimplifier::VisitSub(HSub* instruction) { Primitive::Type type = instruction->GetType(); if (!Primitive::IsIntegralType(type)) { return; } HBasicBlock* block = instruction->GetBlock(); // We assume that GVN has run before, so we only perform a pointer // comparison. If for some reason the values are equal but the pointers are // different, we are still correct and only miss an optimization // opportunity. if (instruction->GetLeft() == instruction->GetRight()) { // Replace code looking like // SUB dst, src, src // with // CONSTANT 0 // Note that we cannot optimize `x - x` to `0` for floating-point. It does // not work when `x` is an infinity. instruction->ReplaceWith(GetGraph()->GetConstant(type, 0)); block->RemoveInstruction(instruction); } } void InstructionWithAbsorbingInputSimplifier::VisitUShr(HUShr* instruction) { VisitShift(instruction); } void InstructionWithAbsorbingInputSimplifier::VisitXor(HXor* instruction) { if (instruction->GetLeft() == instruction->GetRight()) { // Replace code looking like // XOR dst, src, src // with // CONSTANT 0 Primitive::Type type = instruction->GetType(); HBasicBlock* block = instruction->GetBlock(); instruction->ReplaceWith(GetGraph()->GetConstant(type, 0)); block->RemoveInstruction(instruction); } } } // namespace art