575 lines
23 KiB
C++
575 lines
23 KiB
C++
// Copyright (c) 2017 Google Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef SOURCE_OPT_LOOP_DESCRIPTOR_H_
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#define SOURCE_OPT_LOOP_DESCRIPTOR_H_
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#include <algorithm>
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#include <cstdint>
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#include <map>
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#include <memory>
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#include <unordered_map>
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#include <unordered_set>
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#include <utility>
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#include <vector>
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#include "source/opt/basic_block.h"
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#include "source/opt/dominator_analysis.h"
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#include "source/opt/module.h"
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#include "source/opt/tree_iterator.h"
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namespace spvtools {
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namespace opt {
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class IRContext;
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class CFG;
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class LoopDescriptor;
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// A class to represent and manipulate a loop in structured control flow.
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class Loop {
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// The type used to represent nested child loops.
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using ChildrenList = std::vector<Loop*>;
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public:
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using iterator = ChildrenList::iterator;
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using const_iterator = ChildrenList::const_iterator;
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using BasicBlockListTy = std::unordered_set<uint32_t>;
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explicit Loop(IRContext* context)
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: context_(context),
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loop_header_(nullptr),
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loop_continue_(nullptr),
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loop_merge_(nullptr),
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loop_preheader_(nullptr),
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loop_latch_(nullptr),
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parent_(nullptr),
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loop_is_marked_for_removal_(false) {}
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Loop(IRContext* context, DominatorAnalysis* analysis, BasicBlock* header,
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BasicBlock* continue_target, BasicBlock* merge_target);
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// Iterators over the immediate sub-loops.
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inline iterator begin() { return nested_loops_.begin(); }
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inline iterator end() { return nested_loops_.end(); }
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inline const_iterator begin() const { return cbegin(); }
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inline const_iterator end() const { return cend(); }
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inline const_iterator cbegin() const { return nested_loops_.begin(); }
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inline const_iterator cend() const { return nested_loops_.end(); }
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// Returns the header (first basic block of the loop). This block contains the
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// OpLoopMerge instruction.
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inline BasicBlock* GetHeaderBlock() { return loop_header_; }
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inline const BasicBlock* GetHeaderBlock() const { return loop_header_; }
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inline void SetHeaderBlock(BasicBlock* header) { loop_header_ = header; }
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// Updates the OpLoopMerge instruction to reflect the current state of the
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// loop.
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inline void UpdateLoopMergeInst() {
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assert(GetHeaderBlock()->GetLoopMergeInst() &&
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"The loop is not structured");
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Instruction* merge_inst = GetHeaderBlock()->GetLoopMergeInst();
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merge_inst->SetInOperand(0, {GetMergeBlock()->id()});
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}
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// Returns the continue target basic block. This is the block designated as
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// the continue target by the OpLoopMerge instruction.
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inline BasicBlock* GetContinueBlock() { return loop_continue_; }
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inline const BasicBlock* GetContinueBlock() const { return loop_continue_; }
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// Returns the latch basic block (basic block that holds the back-edge).
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// These functions return nullptr if the loop is not structured (i.e. if it
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// has more than one backedge).
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inline BasicBlock* GetLatchBlock() { return loop_latch_; }
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inline const BasicBlock* GetLatchBlock() const { return loop_latch_; }
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// Sets |latch| as the loop unique block branching back to the header.
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// A latch block must have the following properties:
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// - |latch| must be in the loop;
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// - must be the only block branching back to the header block.
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void SetLatchBlock(BasicBlock* latch);
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// Sets |continue_block| as the continue block of the loop. This should be the
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// continue target of the OpLoopMerge and should dominate the latch block.
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void SetContinueBlock(BasicBlock* continue_block);
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// Returns the basic block which marks the end of the loop.
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// These functions return nullptr if the loop is not structured.
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inline BasicBlock* GetMergeBlock() { return loop_merge_; }
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inline const BasicBlock* GetMergeBlock() const { return loop_merge_; }
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// Sets |merge| as the loop merge block. A merge block must have the following
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// properties:
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// - |merge| must not be in the loop;
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// - all its predecessors must be in the loop.
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// - it must not be already used as merge block.
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// If the loop has an OpLoopMerge in its header, this instruction is also
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// updated.
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void SetMergeBlock(BasicBlock* merge);
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// Returns the loop pre-header, nullptr means that the loop predecessor does
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// not qualify as a preheader.
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// The preheader is the unique predecessor that:
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// - Dominates the loop header;
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// - Has only the loop header as successor.
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inline BasicBlock* GetPreHeaderBlock() { return loop_preheader_; }
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// Returns the loop pre-header.
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inline const BasicBlock* GetPreHeaderBlock() const { return loop_preheader_; }
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// Sets |preheader| as the loop preheader block. A preheader block must have
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// the following properties:
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// - |merge| must not be in the loop;
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// - have an unconditional branch to the loop header.
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void SetPreHeaderBlock(BasicBlock* preheader);
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// Returns the loop pre-header, if there is no suitable preheader it will be
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// created. Returns |nullptr| if it fails to create the preheader.
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BasicBlock* GetOrCreatePreHeaderBlock();
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// Returns true if this loop contains any nested loops.
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inline bool HasNestedLoops() const { return nested_loops_.size() != 0; }
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// Clears and fills |exit_blocks| with all basic blocks that are not in the
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// loop and has at least one predecessor in the loop.
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void GetExitBlocks(std::unordered_set<uint32_t>* exit_blocks) const;
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// Clears and fills |merging_blocks| with all basic blocks that are
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// post-dominated by the merge block. The merge block must exist.
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// The set |merging_blocks| will only contain the merge block if it is
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// unreachable.
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void GetMergingBlocks(std::unordered_set<uint32_t>* merging_blocks) const;
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// Returns true if the loop is in a Loop Closed SSA form.
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// In LCSSA form, all in-loop definitions are used in the loop or in phi
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// instructions in the loop exit blocks.
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bool IsLCSSA() const;
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// Returns the depth of this loop in the loop nest.
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// The outer-most loop has a depth of 1.
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inline size_t GetDepth() const {
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size_t lvl = 1;
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for (const Loop* loop = GetParent(); loop; loop = loop->GetParent()) lvl++;
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return lvl;
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}
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inline size_t NumImmediateChildren() const { return nested_loops_.size(); }
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inline bool HasChildren() const { return !nested_loops_.empty(); }
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// Adds |nested| as a nested loop of this loop. Automatically register |this|
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// as the parent of |nested|.
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inline void AddNestedLoop(Loop* nested) {
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assert(!nested->GetParent() && "The loop has another parent.");
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nested_loops_.push_back(nested);
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nested->SetParent(this);
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}
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inline Loop* GetParent() { return parent_; }
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inline const Loop* GetParent() const { return parent_; }
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inline bool HasParent() const { return parent_; }
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// Returns true if this loop is itself nested within another loop.
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inline bool IsNested() const { return parent_ != nullptr; }
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// Returns the set of all basic blocks contained within the loop. Will be all
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// BasicBlocks dominated by the header which are not also dominated by the
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// loop merge block.
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inline const BasicBlockListTy& GetBlocks() const {
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return loop_basic_blocks_;
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}
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// Returns true if the basic block |bb| is inside this loop.
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inline bool IsInsideLoop(const BasicBlock* bb) const {
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return IsInsideLoop(bb->id());
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}
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// Returns true if the basic block id |bb_id| is inside this loop.
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inline bool IsInsideLoop(uint32_t bb_id) const {
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return loop_basic_blocks_.count(bb_id);
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}
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// Returns true if the instruction |inst| is inside this loop.
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bool IsInsideLoop(Instruction* inst) const;
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// Adds the Basic Block |bb| to this loop and its parents.
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void AddBasicBlock(const BasicBlock* bb) { AddBasicBlock(bb->id()); }
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// Adds the Basic Block with |id| to this loop and its parents.
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void AddBasicBlock(uint32_t id) {
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for (Loop* loop = this; loop != nullptr; loop = loop->parent_) {
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loop->loop_basic_blocks_.insert(id);
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}
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}
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// Removes the Basic Block id |bb_id| from this loop and its parents.
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// It the user responsibility to make sure the removed block is not a merge,
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// header or continue block.
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void RemoveBasicBlock(uint32_t bb_id) {
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for (Loop* loop = this; loop != nullptr; loop = loop->parent_) {
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loop->loop_basic_blocks_.erase(bb_id);
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}
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}
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// Removes all the basic blocks from the set of basic blocks within the loop.
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// This does not affect any of the stored pointers to the header, preheader,
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// merge, or continue blocks.
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void ClearBlocks() { loop_basic_blocks_.clear(); }
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// Adds the Basic Block |bb| this loop and its parents.
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void AddBasicBlockToLoop(const BasicBlock* bb) {
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assert(IsBasicBlockInLoopSlow(bb) &&
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"Basic block does not belong to the loop");
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AddBasicBlock(bb);
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}
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// Returns the list of induction variables within the loop.
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void GetInductionVariables(std::vector<Instruction*>& inductions) const;
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// This function uses the |condition| to find the induction variable which is
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// used by the loop condition within the loop. This only works if the loop is
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// bound by a single condition and single induction variable.
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Instruction* FindConditionVariable(const BasicBlock* condition) const;
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// Returns the number of iterations within a loop when given the |induction|
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// variable and the loop |condition| check. It stores the found number of
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// iterations in the output parameter |iterations| and optionally, the step
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// value in |step_value| and the initial value of the induction variable in
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// |init_value|.
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bool FindNumberOfIterations(const Instruction* induction,
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const Instruction* condition, size_t* iterations,
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int64_t* step_amount = nullptr,
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int64_t* init_value = nullptr) const;
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// Returns the value of the OpLoopMerge control operand as a bool. Loop
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// control can be None(0), Unroll(1), or DontUnroll(2). This function returns
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// true if it is set to Unroll.
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inline bool HasUnrollLoopControl() const {
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assert(loop_header_);
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if (!loop_header_->GetLoopMergeInst()) return false;
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return loop_header_->GetLoopMergeInst()->GetSingleWordOperand(2) == 1;
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}
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// Finds the conditional block with a branch to the merge and continue blocks
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// within the loop body.
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BasicBlock* FindConditionBlock() const;
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// Remove the child loop form this loop.
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inline void RemoveChildLoop(Loop* loop) {
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nested_loops_.erase(
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std::find(nested_loops_.begin(), nested_loops_.end(), loop));
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loop->SetParent(nullptr);
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}
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// Mark this loop to be removed later by a call to
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// LoopDescriptor::PostModificationCleanup.
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inline void MarkLoopForRemoval() { loop_is_marked_for_removal_ = true; }
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// Returns whether or not this loop has been marked for removal.
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inline bool IsMarkedForRemoval() const { return loop_is_marked_for_removal_; }
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// Returns true if all nested loops have been marked for removal.
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inline bool AreAllChildrenMarkedForRemoval() const {
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for (const Loop* child : nested_loops_) {
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if (!child->IsMarkedForRemoval()) {
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return false;
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}
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}
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return true;
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}
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// Checks if the loop contains any instruction that will prevent it from being
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// cloned. If the loop is structured, the merge construct is also considered.
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bool IsSafeToClone() const;
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// Sets the parent loop of this loop, that is, a loop which contains this loop
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// as a nested child loop.
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inline void SetParent(Loop* parent) { parent_ = parent; }
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// Returns true is the instruction is invariant and safe to move wrt loop
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bool ShouldHoistInstruction(IRContext* context, Instruction* inst);
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// Returns true if all operands of inst are in basic blocks not contained in
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// loop
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bool AreAllOperandsOutsideLoop(IRContext* context, Instruction* inst);
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// Extract the initial value from the |induction| variable and store it in
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// |value|. If the function couldn't find the initial value of |induction|
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// return false.
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bool GetInductionInitValue(const Instruction* induction,
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int64_t* value) const;
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// Takes in a phi instruction |induction| and the loop |header| and returns
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// the step operation of the loop.
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Instruction* GetInductionStepOperation(const Instruction* induction) const;
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// Returns true if we can deduce the number of loop iterations in the step
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// operation |step|. IsSupportedCondition must also be true for the condition
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// instruction.
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bool IsSupportedStepOp(SpvOp step) const;
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// Returns true if we can deduce the number of loop iterations in the
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// condition operation |condition|. IsSupportedStepOp must also be true for
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// the step instruction.
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bool IsSupportedCondition(SpvOp condition) const;
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// Creates the list of the loop's basic block in structured order and store
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// the result in |ordered_loop_blocks|. If |include_pre_header| is true, the
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// pre-header block will also be included at the beginning of the list if it
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// exist. If |include_merge| is true, the merge block will also be included at
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// the end of the list if it exist.
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void ComputeLoopStructuredOrder(std::vector<BasicBlock*>* ordered_loop_blocks,
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bool include_pre_header = false,
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bool include_merge = false) const;
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// Given the loop |condition|, |initial_value|, |step_value|, the trip count
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// |number_of_iterations|, and the |unroll_factor| requested, get the new
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// condition value for the residual loop.
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static int64_t GetResidualConditionValue(SpvOp condition,
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int64_t initial_value,
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int64_t step_value,
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size_t number_of_iterations,
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size_t unroll_factor);
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// Returns the condition instruction for entry into the loop
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// Returns nullptr if it can't be found.
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Instruction* GetConditionInst() const;
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// Returns the context associated this loop.
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IRContext* GetContext() const { return context_; }
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// Looks at all the blocks with a branch to the header block to find one
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// which is also dominated by the loop continue block. This block is the latch
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// block. The specification mandates that this block should exist, therefore
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// this function will assert if it is not found.
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BasicBlock* FindLatchBlock();
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private:
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IRContext* context_;
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// The block which marks the start of the loop.
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BasicBlock* loop_header_;
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// The block which begins the body of the loop.
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BasicBlock* loop_continue_;
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// The block which marks the end of the loop.
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BasicBlock* loop_merge_;
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// The block immediately before the loop header.
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BasicBlock* loop_preheader_;
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// The block containing the backedge to the loop header.
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BasicBlock* loop_latch_;
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// A parent of a loop is the loop which contains it as a nested child loop.
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Loop* parent_;
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// Nested child loops of this loop.
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ChildrenList nested_loops_;
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// A set of all the basic blocks which comprise the loop structure. Will be
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// computed only when needed on demand.
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BasicBlockListTy loop_basic_blocks_;
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// Check that |bb| is inside the loop using domination property.
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// Note: this is for assertion purposes only, IsInsideLoop should be used
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// instead.
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bool IsBasicBlockInLoopSlow(const BasicBlock* bb);
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// Returns the loop preheader if it exists, returns nullptr otherwise.
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BasicBlock* FindLoopPreheader(DominatorAnalysis* dom_analysis);
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// Sets |latch| as the loop unique latch block. No checks are performed
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// here.
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inline void SetLatchBlockImpl(BasicBlock* latch) { loop_latch_ = latch; }
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// Sets |merge| as the loop merge block. No checks are performed here.
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inline void SetMergeBlockImpl(BasicBlock* merge) { loop_merge_ = merge; }
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// Each differnt loop |condition| affects how we calculate the number of
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// iterations using the |condition_value|, |init_value|, and |step_values| of
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// the induction variable. This method will return the number of iterations in
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// a loop with those values for a given |condition|.
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int64_t GetIterations(SpvOp condition, int64_t condition_value,
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int64_t init_value, int64_t step_value) const;
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// This is to allow for loops to be removed mid iteration without invalidating
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// the iterators.
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bool loop_is_marked_for_removal_;
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// This is only to allow LoopDescriptor::dummy_top_loop_ to add top level
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// loops as child.
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friend class LoopDescriptor;
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friend class LoopUtils;
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};
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// Loop descriptions class for a given function.
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// For a given function, the class builds loop nests information.
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// The analysis expects a structured control flow.
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class LoopDescriptor {
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public:
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// Iterator interface (depth first postorder traversal).
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using iterator = PostOrderTreeDFIterator<Loop>;
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using const_iterator = PostOrderTreeDFIterator<const Loop>;
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using pre_iterator = TreeDFIterator<Loop>;
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using const_pre_iterator = TreeDFIterator<const Loop>;
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// Creates a loop object for all loops found in |f|.
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LoopDescriptor(IRContext* context, const Function* f);
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// Disable copy constructor, to avoid double-free on destruction.
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LoopDescriptor(const LoopDescriptor&) = delete;
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// Move constructor.
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LoopDescriptor(LoopDescriptor&& other) : dummy_top_loop_(nullptr) {
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// We need to take ownership of the Loop objects in the other
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// LoopDescriptor, to avoid double-free.
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loops_ = std::move(other.loops_);
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other.loops_.clear();
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basic_block_to_loop_ = std::move(other.basic_block_to_loop_);
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other.basic_block_to_loop_.clear();
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dummy_top_loop_ = std::move(other.dummy_top_loop_);
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}
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// Destructor
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~LoopDescriptor();
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// Returns the number of loops found in the function.
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inline size_t NumLoops() const { return loops_.size(); }
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// Returns the loop at a particular |index|. The |index| must be in bounds,
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// check with NumLoops before calling.
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inline Loop& GetLoopByIndex(size_t index) const {
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assert(loops_.size() > index &&
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"Index out of range (larger than loop count)");
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return *loops_[index];
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}
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// Returns the loops in |this| in the order their headers appear in the
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// binary.
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std::vector<Loop*> GetLoopsInBinaryLayoutOrder();
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// Returns the inner most loop that contains the basic block id |block_id|.
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inline Loop* operator[](uint32_t block_id) const {
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return FindLoopForBasicBlock(block_id);
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}
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// Returns the inner most loop that contains the basic block |bb|.
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inline Loop* operator[](const BasicBlock* bb) const {
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return (*this)[bb->id()];
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}
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// Iterators for post order depth first traversal of the loops.
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// Inner most loops will be visited first.
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inline iterator begin() { return iterator::begin(&dummy_top_loop_); }
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inline iterator end() { return iterator::end(&dummy_top_loop_); }
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inline const_iterator begin() const { return cbegin(); }
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inline const_iterator end() const { return cend(); }
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inline const_iterator cbegin() const {
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return const_iterator::begin(&dummy_top_loop_);
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}
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inline const_iterator cend() const {
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return const_iterator::end(&dummy_top_loop_);
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}
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// Iterators for pre-order depth first traversal of the loops.
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// Inner most loops will be visited first.
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inline pre_iterator pre_begin() { return ++pre_iterator(&dummy_top_loop_); }
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inline pre_iterator pre_end() { return pre_iterator(); }
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inline const_pre_iterator pre_begin() const { return pre_cbegin(); }
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inline const_pre_iterator pre_end() const { return pre_cend(); }
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inline const_pre_iterator pre_cbegin() const {
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return ++const_pre_iterator(&dummy_top_loop_);
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}
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inline const_pre_iterator pre_cend() const { return const_pre_iterator(); }
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// Returns the inner most loop that contains the basic block |bb|.
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inline void SetBasicBlockToLoop(uint32_t bb_id, Loop* loop) {
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basic_block_to_loop_[bb_id] = loop;
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}
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// Mark the loop |loop_to_add| as needing to be added when the user calls
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// PostModificationCleanup. |parent| may be null.
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inline void AddLoop(std::unique_ptr<Loop>&& loop_to_add, Loop* parent) {
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loops_to_add_.emplace_back(std::make_pair(parent, std::move(loop_to_add)));
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}
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// Checks all loops in |this| and will create pre-headers for all loops
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// that don't have one. Returns |true| if any blocks were created.
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bool CreatePreHeaderBlocksIfMissing();
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// Should be called to preserve the LoopAnalysis after loops have been marked
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// for addition with AddLoop or MarkLoopForRemoval.
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void PostModificationCleanup();
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// Removes the basic block id |bb_id| from the block to loop mapping.
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inline void ForgetBasicBlock(uint32_t bb_id) {
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basic_block_to_loop_.erase(bb_id);
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}
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// Adds the loop |new_loop| and all its nested loops to the descriptor set.
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// The object takes ownership of all the loops.
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Loop* AddLoopNest(std::unique_ptr<Loop> new_loop);
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// Remove the loop |loop|.
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void RemoveLoop(Loop* loop);
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void SetAsTopLoop(Loop* loop) {
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assert(std::find(dummy_top_loop_.begin(), dummy_top_loop_.end(), loop) ==
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dummy_top_loop_.end() &&
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"already registered");
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dummy_top_loop_.nested_loops_.push_back(loop);
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}
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Loop* GetDummyRootLoop() { return &dummy_top_loop_; }
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const Loop* GetDummyRootLoop() const { return &dummy_top_loop_; }
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private:
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// TODO(dneto): This should be a vector of unique_ptr. But VisualStudio 2013
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// is unable to compile it.
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using LoopContainerType = std::vector<Loop*>;
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using LoopsToAddContainerType =
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std::vector<std::pair<Loop*, std::unique_ptr<Loop>>>;
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// Creates loop descriptors for the function |f|.
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void PopulateList(IRContext* context, const Function* f);
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// Returns the inner most loop that contains the basic block id |block_id|.
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inline Loop* FindLoopForBasicBlock(uint32_t block_id) const {
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std::unordered_map<uint32_t, Loop*>::const_iterator it =
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basic_block_to_loop_.find(block_id);
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return it != basic_block_to_loop_.end() ? it->second : nullptr;
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}
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// Erase all the loop information.
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void ClearLoops();
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// A list of all the loops in the function. This variable owns the Loop
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// objects.
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LoopContainerType loops_;
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// Dummy root: this "loop" is only there to help iterators creation.
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Loop dummy_top_loop_;
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std::unordered_map<uint32_t, Loop*> basic_block_to_loop_;
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// List of the loops marked for addition when PostModificationCleanup is
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// called.
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LoopsToAddContainerType loops_to_add_;
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|
};
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} // namespace opt
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} // namespace spvtools
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#endif // SOURCE_OPT_LOOP_DESCRIPTOR_H_
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