/*
* Copyright (C) 2013 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.
*/
#ifndef ART_COMPILER_DEX_DATAFLOW_ITERATOR_INL_H_
#define ART_COMPILER_DEX_DATAFLOW_ITERATOR_INL_H_
#include "dataflow_iterator.h"
namespace art {
// Single forward pass over the nodes.
inline BasicBlock* DataflowIterator::ForwardSingleNext() {
BasicBlock* res = nullptr;
// Are we not yet at the end?
if (idx_ < end_idx_) {
// Get the next index.
BasicBlockId bb_id = (*block_id_list_)[idx_];
res = mir_graph_->GetBasicBlock(bb_id);
idx_++;
}
return res;
}
// Repeat full forward passes over all nodes until no change occurs during a complete pass.
inline BasicBlock* DataflowIterator::ForwardRepeatNext() {
BasicBlock* res = nullptr;
// Are we at the end and have we changed something?
if ((idx_ >= end_idx_) && changed_ == true) {
// Reset the index.
idx_ = start_idx_;
repeats_++;
changed_ = false;
}
// Are we not yet at the end?
if (idx_ < end_idx_) {
// Get the BasicBlockId.
BasicBlockId bb_id = (*block_id_list_)[idx_];
res = mir_graph_->GetBasicBlock(bb_id);
idx_++;
}
return res;
}
// Single reverse pass over the nodes.
inline BasicBlock* DataflowIterator::ReverseSingleNext() {
BasicBlock* res = nullptr;
// Are we not yet at the end?
if (idx_ >= 0) {
// Get the BasicBlockId.
BasicBlockId bb_id = (*block_id_list_)[idx_];
res = mir_graph_->GetBasicBlock(bb_id);
idx_--;
}
return res;
}
// Repeat full backwards passes over all nodes until no change occurs during a complete pass.
inline BasicBlock* DataflowIterator::ReverseRepeatNext() {
BasicBlock* res = nullptr;
// Are we done and we changed something during the last iteration?
if ((idx_ < 0) && changed_) {
// Reset the index.
idx_ = start_idx_;
repeats_++;
changed_ = false;
}
// Are we not yet done?
if (idx_ >= 0) {
// Get the BasicBlockId.
BasicBlockId bb_id = (*block_id_list_)[idx_];
res = mir_graph_->GetBasicBlock(bb_id);
idx_--;
}
return res;
}
// AllNodes uses the existing block list, and should be considered unordered.
inline BasicBlock* AllNodesIterator::Next(bool had_change) {
// Update changed: if had_changed is true, we remember it for the whole iteration.
changed_ |= had_change;
BasicBlock* res = nullptr;
while (idx_ != end_idx_) {
BasicBlock* bb = mir_graph_->GetBlockList()[idx_++];
DCHECK(bb != nullptr);
if (!bb->hidden) {
res = bb;
break;
}
}
return res;
}
inline BasicBlock* TopologicalSortIterator::Next(bool had_change) {
// Update changed: if had_changed is true, we remember it for the whole iteration.
changed_ |= had_change;
while (loop_head_stack_->size() != 0u &&
(*loop_ends_)[loop_head_stack_->back().first] == idx_) {
loop_head_stack_->pop_back();
}
if (idx_ == end_idx_) {
return nullptr;
}
// Get next block and return it.
BasicBlockId idx = idx_;
idx_ += 1;
BasicBlock* bb = mir_graph_->GetBasicBlock((*block_id_list_)[idx]);
DCHECK(bb != nullptr);
if ((*loop_ends_)[idx] != 0u) {
loop_head_stack_->push_back(std::make_pair(idx, false)); // Not recalculating.
}
return bb;
}
inline BasicBlock* LoopRepeatingTopologicalSortIterator::Next(bool had_change) {
if (idx_ != 0) {
// Mark last processed block visited.
BasicBlock* bb = mir_graph_->GetBasicBlock((*block_id_list_)[idx_ - 1]);
bb->visited = true;
if (had_change) {
// If we had a change we need to revisit the children.
ChildBlockIterator iter(bb, mir_graph_);
for (BasicBlock* child_bb = iter.Next(); child_bb != nullptr; child_bb = iter.Next()) {
child_bb->visited = false;
}
}
}
while (true) {
// Pop loops we have left and check if we need to recalculate one of them.
// NOTE: We need to do this even if idx_ == end_idx_.
while (loop_head_stack_->size() != 0u &&
(*loop_ends_)[loop_head_stack_->back().first] == idx_) {
auto top = loop_head_stack_->back();
uint16_t loop_head_idx = top.first;
bool recalculated = top.second;
loop_head_stack_->pop_back();
BasicBlock* loop_head = mir_graph_->GetBasicBlock((*block_id_list_)[loop_head_idx]);
DCHECK(loop_head != nullptr);
if (!recalculated || !loop_head->visited) {
// Recalculating this loop.
loop_head_stack_->push_back(std::make_pair(loop_head_idx, true));
idx_ = loop_head_idx + 1;
return loop_head;
}
}
if (idx_ == end_idx_) {
return nullptr;
}
// Get next block and return it if unvisited.
BasicBlockId idx = idx_;
idx_ += 1;
BasicBlock* bb = mir_graph_->GetBasicBlock((*block_id_list_)[idx]);
DCHECK(bb != nullptr);
if ((*loop_ends_)[idx] != 0u) {
// If bb->visited is false, the loop needs to be processed from scratch.
// Otherwise we mark it as recalculating; for a natural loop we will not
// need to recalculate any block in the loop anyway, and for unnatural
// loops we will recalculate the loop head only if one of its predecessors
// actually changes.
bool recalculating = bb->visited;
loop_head_stack_->push_back(std::make_pair(idx, recalculating));
}
if (!bb->visited) {
return bb;
}
}
}
} // namespace art
#endif // ART_COMPILER_DEX_DATAFLOW_ITERATOR_INL_H_