/* * Copyright (C) 2015 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 "instruction_simplifier_arm64.h" #include "common_arm64.h" #include "instruction_simplifier_shared.h" #include "mirror/array-inl.h" #include "mirror/string.h" namespace art { using helpers::CanFitInShifterOperand; using helpers::HasShifterOperand; namespace arm64 { using helpers::ShifterOperandSupportsExtension; class InstructionSimplifierArm64Visitor : public HGraphVisitor { public: InstructionSimplifierArm64Visitor(HGraph* graph, OptimizingCompilerStats* stats) : HGraphVisitor(graph), stats_(stats) {} private: void RecordSimplification() { MaybeRecordStat(stats_, MethodCompilationStat::kInstructionSimplificationsArch); } bool TryMergeIntoUsersShifterOperand(HInstruction* instruction); bool TryMergeIntoShifterOperand(HInstruction* use, HInstruction* bitfield_op, bool do_merge); bool CanMergeIntoShifterOperand(HInstruction* use, HInstruction* bitfield_op) { return TryMergeIntoShifterOperand(use, bitfield_op, /* do_merge= */ false); } bool MergeIntoShifterOperand(HInstruction* use, HInstruction* bitfield_op) { DCHECK(CanMergeIntoShifterOperand(use, bitfield_op)); return TryMergeIntoShifterOperand(use, bitfield_op, /* do_merge= */ true); } /** * This simplifier uses a special-purpose BB visitor. * (1) No need to visit Phi nodes. * (2) Since statements can be removed in a "forward" fashion, * the visitor should test if each statement is still there. */ void VisitBasicBlock(HBasicBlock* block) override { // TODO: fragile iteration, provide more robust iterators? for (HInstructionIterator it(block->GetInstructions()); !it.Done(); it.Advance()) { HInstruction* instruction = it.Current(); if (instruction->IsInBlock()) { instruction->Accept(this); } } } // HInstruction visitors, sorted alphabetically. void VisitAnd(HAnd* instruction) override; void VisitArrayGet(HArrayGet* instruction) override; void VisitArraySet(HArraySet* instruction) override; void VisitMul(HMul* instruction) override; void VisitOr(HOr* instruction) override; void VisitShl(HShl* instruction) override; void VisitShr(HShr* instruction) override; void VisitTypeConversion(HTypeConversion* instruction) override; void VisitUShr(HUShr* instruction) override; void VisitXor(HXor* instruction) override; void VisitVecLoad(HVecLoad* instruction) override; void VisitVecStore(HVecStore* instruction) override; OptimizingCompilerStats* stats_; }; bool InstructionSimplifierArm64Visitor::TryMergeIntoShifterOperand(HInstruction* use, HInstruction* bitfield_op, bool do_merge) { DCHECK(HasShifterOperand(use, InstructionSet::kArm64)); DCHECK(use->IsBinaryOperation() || use->IsNeg()); DCHECK(CanFitInShifterOperand(bitfield_op)); DCHECK(!bitfield_op->HasEnvironmentUses()); DataType::Type type = use->GetType(); if (type != DataType::Type::kInt32 && type != DataType::Type::kInt64) { return false; } HInstruction* left; HInstruction* right; if (use->IsBinaryOperation()) { left = use->InputAt(0); right = use->InputAt(1); } else { DCHECK(use->IsNeg()); right = use->AsNeg()->InputAt(0); left = GetGraph()->GetConstant(right->GetType(), 0); } DCHECK(left == bitfield_op || right == bitfield_op); if (left == right) { // TODO: Handle special transformations in this situation? // For example should we transform `(x << 1) + (x << 1)` into `(x << 2)`? // Or should this be part of a separate transformation logic? return false; } bool is_commutative = use->IsBinaryOperation() && use->AsBinaryOperation()->IsCommutative(); HInstruction* other_input; if (bitfield_op == right) { other_input = left; } else { if (is_commutative) { other_input = right; } else { return false; } } HDataProcWithShifterOp::OpKind op_kind; int shift_amount = 0; HDataProcWithShifterOp::GetOpInfoFromInstruction(bitfield_op, &op_kind, &shift_amount); if (HDataProcWithShifterOp::IsExtensionOp(op_kind) && !ShifterOperandSupportsExtension(use)) { return false; } if (do_merge) { HDataProcWithShifterOp* alu_with_op = new (GetGraph()->GetAllocator()) HDataProcWithShifterOp(use, other_input, bitfield_op->InputAt(0), op_kind, shift_amount, use->GetDexPc()); use->GetBlock()->ReplaceAndRemoveInstructionWith(use, alu_with_op); if (bitfield_op->GetUses().empty()) { bitfield_op->GetBlock()->RemoveInstruction(bitfield_op); } RecordSimplification(); } return true; } // Merge a bitfield move instruction into its uses if it can be merged in all of them. bool InstructionSimplifierArm64Visitor::TryMergeIntoUsersShifterOperand(HInstruction* bitfield_op) { DCHECK(CanFitInShifterOperand(bitfield_op)); if (bitfield_op->HasEnvironmentUses()) { return false; } const HUseList& uses = bitfield_op->GetUses(); // Check whether we can merge the instruction in all its users' shifter operand. for (const HUseListNode& use : uses) { HInstruction* user = use.GetUser(); if (!HasShifterOperand(user, InstructionSet::kArm64)) { return false; } if (!CanMergeIntoShifterOperand(user, bitfield_op)) { return false; } } // Merge the instruction into its uses. for (auto it = uses.begin(), end = uses.end(); it != end; /* ++it below */) { HInstruction* user = it->GetUser(); // Increment `it` now because `*it` will disappear thanks to MergeIntoShifterOperand(). ++it; bool merged = MergeIntoShifterOperand(user, bitfield_op); DCHECK(merged); } return true; } void InstructionSimplifierArm64Visitor::VisitAnd(HAnd* instruction) { if (TryMergeNegatedInput(instruction)) { RecordSimplification(); } } void InstructionSimplifierArm64Visitor::VisitArrayGet(HArrayGet* instruction) { size_t data_offset = CodeGenerator::GetArrayDataOffset(instruction); if (TryExtractArrayAccessAddress(instruction, instruction->GetArray(), instruction->GetIndex(), data_offset)) { RecordSimplification(); } } void InstructionSimplifierArm64Visitor::VisitArraySet(HArraySet* instruction) { size_t access_size = DataType::Size(instruction->GetComponentType()); size_t data_offset = mirror::Array::DataOffset(access_size).Uint32Value(); if (TryExtractArrayAccessAddress(instruction, instruction->GetArray(), instruction->GetIndex(), data_offset)) { RecordSimplification(); } } void InstructionSimplifierArm64Visitor::VisitMul(HMul* instruction) { if (TryCombineMultiplyAccumulate(instruction, InstructionSet::kArm64)) { RecordSimplification(); } } void InstructionSimplifierArm64Visitor::VisitOr(HOr* instruction) { if (TryMergeNegatedInput(instruction)) { RecordSimplification(); } } void InstructionSimplifierArm64Visitor::VisitShl(HShl* instruction) { if (instruction->InputAt(1)->IsConstant()) { TryMergeIntoUsersShifterOperand(instruction); } } void InstructionSimplifierArm64Visitor::VisitShr(HShr* instruction) { if (instruction->InputAt(1)->IsConstant()) { TryMergeIntoUsersShifterOperand(instruction); } } void InstructionSimplifierArm64Visitor::VisitTypeConversion(HTypeConversion* instruction) { DataType::Type result_type = instruction->GetResultType(); DataType::Type input_type = instruction->GetInputType(); if (input_type == result_type) { // We let the arch-independent code handle this. return; } if (DataType::IsIntegralType(result_type) && DataType::IsIntegralType(input_type)) { TryMergeIntoUsersShifterOperand(instruction); } } void InstructionSimplifierArm64Visitor::VisitUShr(HUShr* instruction) { if (instruction->InputAt(1)->IsConstant()) { TryMergeIntoUsersShifterOperand(instruction); } } void InstructionSimplifierArm64Visitor::VisitXor(HXor* instruction) { if (TryMergeNegatedInput(instruction)) { RecordSimplification(); } } void InstructionSimplifierArm64Visitor::VisitVecLoad(HVecLoad* instruction) { if (!instruction->IsStringCharAt() && TryExtractVecArrayAccessAddress(instruction, instruction->GetIndex())) { RecordSimplification(); } } void InstructionSimplifierArm64Visitor::VisitVecStore(HVecStore* instruction) { if (TryExtractVecArrayAccessAddress(instruction, instruction->GetIndex())) { RecordSimplification(); } } bool InstructionSimplifierArm64::Run() { InstructionSimplifierArm64Visitor visitor(graph_, stats_); visitor.VisitReversePostOrder(); return true; } } // namespace arm64 } // namespace art