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/*
* 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 "boolean_simplifier.h"
namespace art {
void HBooleanSimplifier::TryRemovingNegatedCondition(HBasicBlock* block) {
DCHECK(block->EndsWithIf());
// Check if the condition is a Boolean negation.
HIf* if_instruction = block->GetLastInstruction()->AsIf();
HInstruction* boolean_not = if_instruction->InputAt(0);
if (!boolean_not->IsBooleanNot()) {
return;
}
// Make BooleanNot's input the condition of the If and swap branches.
if_instruction->ReplaceInput(boolean_not->InputAt(0), 0);
block->SwapSuccessors();
// Remove the BooleanNot if it is now unused.
if (!boolean_not->HasUses()) {
boolean_not->GetBlock()->RemoveInstruction(boolean_not);
}
}
// Returns true if 'block1' and 'block2' are empty, merge into the same single
// successor and the successor can only be reached from them.
static bool BlocksDoMergeTogether(HBasicBlock* block1, HBasicBlock* block2) {
if (!block1->IsSingleGoto() || !block2->IsSingleGoto()) return false;
HBasicBlock* succ1 = block1->GetSuccessors()[0];
HBasicBlock* succ2 = block2->GetSuccessors()[0];
return succ1 == succ2 && succ1->GetPredecessors().size() == 2u;
}
// Returns true if the outcome of the branching matches the boolean value of
// the branching condition.
static bool PreservesCondition(HInstruction* input_true, HInstruction* input_false) {
return input_true->IsIntConstant() && input_true->AsIntConstant()->IsOne()
&& input_false->IsIntConstant() && input_false->AsIntConstant()->IsZero();
}
// Returns true if the outcome of the branching is exactly opposite of the
// boolean value of the branching condition.
static bool NegatesCondition(HInstruction* input_true, HInstruction* input_false) {
return input_true->IsIntConstant() && input_true->AsIntConstant()->IsZero()
&& input_false->IsIntConstant() && input_false->AsIntConstant()->IsOne();
}
void HBooleanSimplifier::TryRemovingBooleanSelection(HBasicBlock* block) {
DCHECK(block->EndsWithIf());
// Find elements of the pattern.
HIf* if_instruction = block->GetLastInstruction()->AsIf();
HBasicBlock* true_block = if_instruction->IfTrueSuccessor();
HBasicBlock* false_block = if_instruction->IfFalseSuccessor();
if (!BlocksDoMergeTogether(true_block, false_block)) {
return;
}
HBasicBlock* merge_block = true_block->GetSuccessors()[0];
if (!merge_block->HasSinglePhi()) {
return;
}
HPhi* phi = merge_block->GetFirstPhi()->AsPhi();
HInstruction* true_value = phi->InputAt(merge_block->GetPredecessorIndexOf(true_block));
HInstruction* false_value = phi->InputAt(merge_block->GetPredecessorIndexOf(false_block));
// Check if the selection negates/preserves the value of the condition and
// if so, generate a suitable replacement instruction.
HInstruction* if_condition = if_instruction->InputAt(0);
// Don't change FP compares. The definition of compares involving NaNs forces
// the compares to be done as written by the user.
if (if_condition->IsCondition() &&
Primitive::IsFloatingPointType(if_condition->InputAt(0)->GetType())) {
return;
}
HInstruction* replacement;
if (NegatesCondition(true_value, false_value)) {
replacement = graph_->InsertOppositeCondition(if_condition, if_instruction);
} else if (PreservesCondition(true_value, false_value)) {
replacement = if_condition;
} else {
return;
}
// Replace the selection outcome with the new instruction.
phi->ReplaceWith(replacement);
merge_block->RemovePhi(phi);
// Delete the true branch and merge the resulting chain of blocks
// 'block->false_block->merge_block' into one.
true_block->DisconnectAndDelete();
block->MergeWith(false_block);
block->MergeWith(merge_block);
// No need to update any dominance information, as we are simplifying
// a simple diamond shape, where the join block is merged with the
// entry block. Any following blocks would have had the join block
// as a dominator, and `MergeWith` handles changing that to the
// entry block.
}
void HBooleanSimplifier::Run() {
// Iterate in post order in the unlikely case that removing one occurrence of
// the selection pattern empties a branch block of another occurrence.
// Otherwise the order does not matter.
for (HPostOrderIterator it(*graph_); !it.Done(); it.Advance()) {
HBasicBlock* block = it.Current();
if (!block->EndsWithIf()) continue;
// If condition is negated, remove the negation and swap the branches.
TryRemovingNegatedCondition(block);
// If this is a boolean-selection diamond pattern, replace its result with
// the condition value (or its negation) and simplify the graph.
TryRemovingBooleanSelection(block);
}
}
} // namespace art