260 lines
8.8 KiB
C++
260 lines
8.8 KiB
C++
//===--------- LoopIterator.h - Iterate over loop blocks --------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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// This file defines iterators to visit the basic blocks within a loop.
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//
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// These iterators currently visit blocks within subloops as well.
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// Unfortunately we have no efficient way of summarizing loop exits which would
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// allow skipping subloops during traversal.
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//
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// If you want to visit all blocks in a loop and don't need an ordered traveral,
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// use Loop::block_begin() instead.
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//
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// This is intentionally designed to work with ill-formed loops in which the
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// backedge has been deleted. The only prerequisite is that all blocks
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// contained within the loop according to the most recent LoopInfo analysis are
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// reachable from the loop header.
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ANALYSIS_LOOPITERATOR_H
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#define LLVM_ANALYSIS_LOOPITERATOR_H
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#include "llvm/ADT/PostOrderIterator.h"
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#include "llvm/Analysis/LoopInfo.h"
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namespace llvm {
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class LoopBlocksTraversal;
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// A traits type that is intended to be used in graph algorithms. The graph
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// traits starts at the loop header, and traverses the BasicBlocks that are in
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// the loop body, but not the loop header. Since the loop header is skipped,
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// the back edges are excluded.
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//
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// TODO: Explore the possibility to implement LoopBlocksTraversal in terms of
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// LoopBodyTraits, so that insertEdge doesn't have to be specialized.
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struct LoopBodyTraits {
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using NodeRef = std::pair<const Loop *, BasicBlock *>;
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// This wraps a const Loop * into the iterator, so we know which edges to
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// filter out.
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class WrappedSuccIterator
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: public iterator_adaptor_base<
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WrappedSuccIterator, succ_iterator,
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typename std::iterator_traits<succ_iterator>::iterator_category,
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NodeRef, std::ptrdiff_t, NodeRef *, NodeRef> {
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using BaseT = iterator_adaptor_base<
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WrappedSuccIterator, succ_iterator,
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typename std::iterator_traits<succ_iterator>::iterator_category,
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NodeRef, std::ptrdiff_t, NodeRef *, NodeRef>;
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const Loop *L;
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public:
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WrappedSuccIterator(succ_iterator Begin, const Loop *L)
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: BaseT(Begin), L(L) {}
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NodeRef operator*() const { return {L, *I}; }
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};
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struct LoopBodyFilter {
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bool operator()(NodeRef N) const {
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const Loop *L = N.first;
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return N.second != L->getHeader() && L->contains(N.second);
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}
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};
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using ChildIteratorType =
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filter_iterator<WrappedSuccIterator, LoopBodyFilter>;
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static NodeRef getEntryNode(const Loop &G) { return {&G, G.getHeader()}; }
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static ChildIteratorType child_begin(NodeRef Node) {
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return make_filter_range(make_range<WrappedSuccIterator>(
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{succ_begin(Node.second), Node.first},
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{succ_end(Node.second), Node.first}),
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LoopBodyFilter{})
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.begin();
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}
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static ChildIteratorType child_end(NodeRef Node) {
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return make_filter_range(make_range<WrappedSuccIterator>(
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{succ_begin(Node.second), Node.first},
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{succ_end(Node.second), Node.first}),
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LoopBodyFilter{})
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.end();
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}
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};
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/// Store the result of a depth first search within basic blocks contained by a
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/// single loop.
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///
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/// TODO: This could be generalized for any CFG region, or the entire CFG.
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class LoopBlocksDFS {
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public:
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/// Postorder list iterators.
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typedef std::vector<BasicBlock*>::const_iterator POIterator;
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typedef std::vector<BasicBlock*>::const_reverse_iterator RPOIterator;
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friend class LoopBlocksTraversal;
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private:
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Loop *L;
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/// Map each block to its postorder number. A block is only mapped after it is
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/// preorder visited by DFS. It's postorder number is initially zero and set
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/// to nonzero after it is finished by postorder traversal.
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DenseMap<BasicBlock*, unsigned> PostNumbers;
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std::vector<BasicBlock*> PostBlocks;
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public:
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LoopBlocksDFS(Loop *Container) :
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L(Container), PostNumbers(NextPowerOf2(Container->getNumBlocks())) {
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PostBlocks.reserve(Container->getNumBlocks());
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}
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Loop *getLoop() const { return L; }
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/// Traverse the loop blocks and store the DFS result.
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void perform(LoopInfo *LI);
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/// Return true if postorder numbers are assigned to all loop blocks.
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bool isComplete() const { return PostBlocks.size() == L->getNumBlocks(); }
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/// Iterate over the cached postorder blocks.
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POIterator beginPostorder() const {
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assert(isComplete() && "bad loop DFS");
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return PostBlocks.begin();
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}
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POIterator endPostorder() const { return PostBlocks.end(); }
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/// Reverse iterate over the cached postorder blocks.
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RPOIterator beginRPO() const {
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assert(isComplete() && "bad loop DFS");
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return PostBlocks.rbegin();
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}
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RPOIterator endRPO() const { return PostBlocks.rend(); }
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/// Return true if this block has been preorder visited.
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bool hasPreorder(BasicBlock *BB) const { return PostNumbers.count(BB); }
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/// Return true if this block has a postorder number.
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bool hasPostorder(BasicBlock *BB) const {
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DenseMap<BasicBlock*, unsigned>::const_iterator I = PostNumbers.find(BB);
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return I != PostNumbers.end() && I->second;
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}
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/// Get a block's postorder number.
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unsigned getPostorder(BasicBlock *BB) const {
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DenseMap<BasicBlock*, unsigned>::const_iterator I = PostNumbers.find(BB);
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assert(I != PostNumbers.end() && "block not visited by DFS");
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assert(I->second && "block not finished by DFS");
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return I->second;
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}
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/// Get a block's reverse postorder number.
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unsigned getRPO(BasicBlock *BB) const {
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return 1 + PostBlocks.size() - getPostorder(BB);
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}
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void clear() {
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PostNumbers.clear();
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PostBlocks.clear();
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}
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};
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/// Wrapper class to LoopBlocksDFS that provides a standard begin()/end()
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/// interface for the DFS reverse post-order traversal of blocks in a loop body.
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class LoopBlocksRPO {
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private:
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LoopBlocksDFS DFS;
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public:
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LoopBlocksRPO(Loop *Container) : DFS(Container) {}
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/// Traverse the loop blocks and store the DFS result.
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void perform(LoopInfo *LI) {
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DFS.perform(LI);
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}
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/// Reverse iterate over the cached postorder blocks.
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LoopBlocksDFS::RPOIterator begin() const { return DFS.beginRPO(); }
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LoopBlocksDFS::RPOIterator end() const { return DFS.endRPO(); }
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};
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/// Specialize po_iterator_storage to record postorder numbers.
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template<> class po_iterator_storage<LoopBlocksTraversal, true> {
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LoopBlocksTraversal &LBT;
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public:
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po_iterator_storage(LoopBlocksTraversal &lbs) : LBT(lbs) {}
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// These functions are defined below.
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bool insertEdge(Optional<BasicBlock *> From, BasicBlock *To);
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void finishPostorder(BasicBlock *BB);
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};
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/// Traverse the blocks in a loop using a depth-first search.
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class LoopBlocksTraversal {
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public:
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/// Graph traversal iterator.
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typedef po_iterator<BasicBlock*, LoopBlocksTraversal, true> POTIterator;
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private:
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LoopBlocksDFS &DFS;
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LoopInfo *LI;
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public:
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LoopBlocksTraversal(LoopBlocksDFS &Storage, LoopInfo *LInfo) :
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DFS(Storage), LI(LInfo) {}
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/// Postorder traversal over the graph. This only needs to be done once.
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/// po_iterator "automatically" calls back to visitPreorder and
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/// finishPostorder to record the DFS result.
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POTIterator begin() {
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assert(DFS.PostBlocks.empty() && "Need clear DFS result before traversing");
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assert(DFS.L->getNumBlocks() && "po_iterator cannot handle an empty graph");
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return po_ext_begin(DFS.L->getHeader(), *this);
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}
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POTIterator end() {
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// po_ext_end interface requires a basic block, but ignores its value.
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return po_ext_end(DFS.L->getHeader(), *this);
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}
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/// Called by po_iterator upon reaching a block via a CFG edge. If this block
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/// is contained in the loop and has not been visited, then mark it preorder
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/// visited and return true.
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///
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/// TODO: If anyone is interested, we could record preorder numbers here.
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bool visitPreorder(BasicBlock *BB) {
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if (!DFS.L->contains(LI->getLoopFor(BB)))
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return false;
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return DFS.PostNumbers.insert(std::make_pair(BB, 0)).second;
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}
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/// Called by po_iterator each time it advances, indicating a block's
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/// postorder.
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void finishPostorder(BasicBlock *BB) {
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assert(DFS.PostNumbers.count(BB) && "Loop DFS skipped preorder");
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DFS.PostBlocks.push_back(BB);
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DFS.PostNumbers[BB] = DFS.PostBlocks.size();
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}
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};
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inline bool po_iterator_storage<LoopBlocksTraversal, true>::insertEdge(
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Optional<BasicBlock *> From, BasicBlock *To) {
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return LBT.visitPreorder(To);
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}
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inline void po_iterator_storage<LoopBlocksTraversal, true>::
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finishPostorder(BasicBlock *BB) {
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LBT.finishPostorder(BB);
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}
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} // End namespace llvm
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#endif
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