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a96a182474
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@164471 91177308-0d34-0410-b5e6-96231b3b80d8
361 lines
13 KiB
C++
361 lines
13 KiB
C++
//===--- DAGDeltaAlgorithm.cpp - A DAG Minimization Algorithm --*- C++ -*--===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//===----------------------------------------------------------------------===//
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//
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// The algorithm we use attempts to exploit the dependency information by
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// minimizing top-down. We start by constructing an initial root set R, and
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// then iteratively:
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//
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// 1. Minimize the set R using the test predicate:
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// P'(S) = P(S union pred*(S))
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//
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// 2. Extend R to R' = R union pred(R).
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//
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// until a fixed point is reached.
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//
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// The idea is that we want to quickly prune entire portions of the graph, so we
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// try to find high-level nodes that can be eliminated with all of their
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// dependents.
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//
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// FIXME: The current algorithm doesn't actually provide a strong guarantee
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// about the minimality of the result. The problem is that after adding nodes to
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// the required set, we no longer consider them for elimination. For strictly
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// well formed predicates, this doesn't happen, but it commonly occurs in
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// practice when there are unmodelled dependencies. I believe we can resolve
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// this by allowing the required set to be minimized as well, but need more test
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// cases first.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ADT/DAGDeltaAlgorithm.h"
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#include "llvm/ADT/DeltaAlgorithm.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/Format.h"
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#include "llvm/Support/raw_ostream.h"
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#include <algorithm>
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#include <cassert>
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#include <iterator>
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#include <map>
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using namespace llvm;
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namespace {
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class DAGDeltaAlgorithmImpl {
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friend class DeltaActiveSetHelper;
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public:
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typedef DAGDeltaAlgorithm::change_ty change_ty;
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typedef DAGDeltaAlgorithm::changeset_ty changeset_ty;
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typedef DAGDeltaAlgorithm::changesetlist_ty changesetlist_ty;
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typedef DAGDeltaAlgorithm::edge_ty edge_ty;
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private:
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typedef std::vector<change_ty>::iterator pred_iterator_ty;
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typedef std::vector<change_ty>::iterator succ_iterator_ty;
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typedef std::set<change_ty>::iterator pred_closure_iterator_ty;
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typedef std::set<change_ty>::iterator succ_closure_iterator_ty;
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DAGDeltaAlgorithm &DDA;
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const changeset_ty &Changes;
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const std::vector<edge_ty> &Dependencies;
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std::vector<change_ty> Roots;
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/// Cache of failed test results. Successful test results are never cached
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/// since we always reduce following a success. We maintain an independent
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/// cache from that used by the individual delta passes because we may get
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/// hits across multiple individual delta invocations.
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mutable std::set<changeset_ty> FailedTestsCache;
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// FIXME: Gross.
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std::map<change_ty, std::vector<change_ty> > Predecessors;
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std::map<change_ty, std::vector<change_ty> > Successors;
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std::map<change_ty, std::set<change_ty> > PredClosure;
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std::map<change_ty, std::set<change_ty> > SuccClosure;
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private:
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pred_iterator_ty pred_begin(change_ty Node) {
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assert(Predecessors.count(Node) && "Invalid node!");
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return Predecessors[Node].begin();
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}
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pred_iterator_ty pred_end(change_ty Node) {
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assert(Predecessors.count(Node) && "Invalid node!");
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return Predecessors[Node].end();
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}
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pred_closure_iterator_ty pred_closure_begin(change_ty Node) {
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assert(PredClosure.count(Node) && "Invalid node!");
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return PredClosure[Node].begin();
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}
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pred_closure_iterator_ty pred_closure_end(change_ty Node) {
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assert(PredClosure.count(Node) && "Invalid node!");
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return PredClosure[Node].end();
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}
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succ_iterator_ty succ_begin(change_ty Node) {
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assert(Successors.count(Node) && "Invalid node!");
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return Successors[Node].begin();
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}
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succ_iterator_ty succ_end(change_ty Node) {
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assert(Successors.count(Node) && "Invalid node!");
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return Successors[Node].end();
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}
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succ_closure_iterator_ty succ_closure_begin(change_ty Node) {
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assert(SuccClosure.count(Node) && "Invalid node!");
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return SuccClosure[Node].begin();
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}
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succ_closure_iterator_ty succ_closure_end(change_ty Node) {
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assert(SuccClosure.count(Node) && "Invalid node!");
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return SuccClosure[Node].end();
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}
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void UpdatedSearchState(const changeset_ty &Changes,
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const changesetlist_ty &Sets,
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const changeset_ty &Required) {
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DDA.UpdatedSearchState(Changes, Sets, Required);
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}
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/// ExecuteOneTest - Execute a single test predicate on the change set \p S.
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bool ExecuteOneTest(const changeset_ty &S) {
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// Check dependencies invariant.
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DEBUG({
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for (changeset_ty::const_iterator it = S.begin(),
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ie = S.end(); it != ie; ++it)
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for (succ_iterator_ty it2 = succ_begin(*it),
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ie2 = succ_end(*it); it2 != ie2; ++it2)
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assert(S.count(*it2) && "Attempt to run invalid changeset!");
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});
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return DDA.ExecuteOneTest(S);
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}
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public:
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DAGDeltaAlgorithmImpl(DAGDeltaAlgorithm &_DDA,
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const changeset_ty &_Changes,
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const std::vector<edge_ty> &_Dependencies);
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changeset_ty Run();
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/// GetTestResult - Get the test result for the active set \p Changes with
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/// \p Required changes from the cache, executing the test if necessary.
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///
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/// \param Changes - The set of active changes being minimized, which should
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/// have their pred closure included in the test.
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/// \param Required - The set of changes which have previously been
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/// established to be required.
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/// \return - The test result.
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bool GetTestResult(const changeset_ty &Changes, const changeset_ty &Required);
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};
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/// Helper object for minimizing an active set of changes.
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class DeltaActiveSetHelper : public DeltaAlgorithm {
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DAGDeltaAlgorithmImpl &DDAI;
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const changeset_ty &Required;
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protected:
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/// UpdatedSearchState - Callback used when the search state changes.
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virtual void UpdatedSearchState(const changeset_ty &Changes,
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const changesetlist_ty &Sets) LLVM_OVERRIDE {
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DDAI.UpdatedSearchState(Changes, Sets, Required);
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}
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virtual bool ExecuteOneTest(const changeset_ty &S) LLVM_OVERRIDE {
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return DDAI.GetTestResult(S, Required);
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}
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public:
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DeltaActiveSetHelper(DAGDeltaAlgorithmImpl &_DDAI,
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const changeset_ty &_Required)
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: DDAI(_DDAI), Required(_Required) {}
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};
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}
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DAGDeltaAlgorithmImpl::DAGDeltaAlgorithmImpl(DAGDeltaAlgorithm &_DDA,
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const changeset_ty &_Changes,
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const std::vector<edge_ty>
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&_Dependencies)
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: DDA(_DDA),
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Changes(_Changes),
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Dependencies(_Dependencies)
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{
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for (changeset_ty::const_iterator it = Changes.begin(),
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ie = Changes.end(); it != ie; ++it) {
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Predecessors.insert(std::make_pair(*it, std::vector<change_ty>()));
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Successors.insert(std::make_pair(*it, std::vector<change_ty>()));
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}
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for (std::vector<edge_ty>::const_iterator it = Dependencies.begin(),
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ie = Dependencies.end(); it != ie; ++it) {
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Predecessors[it->second].push_back(it->first);
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Successors[it->first].push_back(it->second);
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}
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// Compute the roots.
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for (changeset_ty::const_iterator it = Changes.begin(),
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ie = Changes.end(); it != ie; ++it)
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if (succ_begin(*it) == succ_end(*it))
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Roots.push_back(*it);
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// Pre-compute the closure of the successor relation.
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std::vector<change_ty> Worklist(Roots.begin(), Roots.end());
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while (!Worklist.empty()) {
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change_ty Change = Worklist.back();
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Worklist.pop_back();
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std::set<change_ty> &ChangeSuccs = SuccClosure[Change];
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for (pred_iterator_ty it = pred_begin(Change),
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ie = pred_end(Change); it != ie; ++it) {
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SuccClosure[*it].insert(Change);
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SuccClosure[*it].insert(ChangeSuccs.begin(), ChangeSuccs.end());
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Worklist.push_back(*it);
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}
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}
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// Invert to form the predecessor closure map.
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for (changeset_ty::const_iterator it = Changes.begin(),
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ie = Changes.end(); it != ie; ++it)
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PredClosure.insert(std::make_pair(*it, std::set<change_ty>()));
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for (changeset_ty::const_iterator it = Changes.begin(),
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ie = Changes.end(); it != ie; ++it)
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for (succ_closure_iterator_ty it2 = succ_closure_begin(*it),
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ie2 = succ_closure_end(*it); it2 != ie2; ++it2)
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PredClosure[*it2].insert(*it);
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// Dump useful debug info.
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DEBUG({
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llvm::errs() << "-- DAGDeltaAlgorithmImpl --\n";
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llvm::errs() << "Changes: [";
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for (changeset_ty::const_iterator it = Changes.begin(),
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ie = Changes.end(); it != ie; ++it) {
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if (it != Changes.begin()) llvm::errs() << ", ";
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llvm::errs() << *it;
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if (succ_begin(*it) != succ_end(*it)) {
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llvm::errs() << "(";
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for (succ_iterator_ty it2 = succ_begin(*it),
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ie2 = succ_end(*it); it2 != ie2; ++it2) {
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if (it2 != succ_begin(*it)) llvm::errs() << ", ";
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llvm::errs() << "->" << *it2;
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}
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llvm::errs() << ")";
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}
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}
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llvm::errs() << "]\n";
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llvm::errs() << "Roots: [";
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for (std::vector<change_ty>::const_iterator it = Roots.begin(),
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ie = Roots.end(); it != ie; ++it) {
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if (it != Roots.begin()) llvm::errs() << ", ";
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llvm::errs() << *it;
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}
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llvm::errs() << "]\n";
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llvm::errs() << "Predecessor Closure:\n";
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for (changeset_ty::const_iterator it = Changes.begin(),
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ie = Changes.end(); it != ie; ++it) {
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llvm::errs() << format(" %-4d: [", *it);
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for (pred_closure_iterator_ty it2 = pred_closure_begin(*it),
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ie2 = pred_closure_end(*it); it2 != ie2; ++it2) {
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if (it2 != pred_closure_begin(*it)) llvm::errs() << ", ";
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llvm::errs() << *it2;
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}
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llvm::errs() << "]\n";
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}
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llvm::errs() << "Successor Closure:\n";
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for (changeset_ty::const_iterator it = Changes.begin(),
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ie = Changes.end(); it != ie; ++it) {
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llvm::errs() << format(" %-4d: [", *it);
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for (succ_closure_iterator_ty it2 = succ_closure_begin(*it),
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ie2 = succ_closure_end(*it); it2 != ie2; ++it2) {
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if (it2 != succ_closure_begin(*it)) llvm::errs() << ", ";
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llvm::errs() << *it2;
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}
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llvm::errs() << "]\n";
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}
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llvm::errs() << "\n\n";
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});
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}
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bool DAGDeltaAlgorithmImpl::GetTestResult(const changeset_ty &Changes,
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const changeset_ty &Required) {
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changeset_ty Extended(Required);
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Extended.insert(Changes.begin(), Changes.end());
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for (changeset_ty::const_iterator it = Changes.begin(),
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ie = Changes.end(); it != ie; ++it)
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Extended.insert(pred_closure_begin(*it), pred_closure_end(*it));
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if (FailedTestsCache.count(Extended))
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return false;
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bool Result = ExecuteOneTest(Extended);
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if (!Result)
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FailedTestsCache.insert(Extended);
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return Result;
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}
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DAGDeltaAlgorithm::changeset_ty
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DAGDeltaAlgorithmImpl::Run() {
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// The current set of changes we are minimizing, starting at the roots.
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changeset_ty CurrentSet(Roots.begin(), Roots.end());
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// The set of required changes.
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changeset_ty Required;
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// Iterate until the active set of changes is empty. Convergence is guaranteed
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// assuming input was a DAG.
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//
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// Invariant: CurrentSet intersect Required == {}
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// Invariant: Required == (Required union succ*(Required))
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while (!CurrentSet.empty()) {
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DEBUG({
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llvm::errs() << "DAG_DD - " << CurrentSet.size() << " active changes, "
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<< Required.size() << " required changes\n";
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});
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// Minimize the current set of changes.
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DeltaActiveSetHelper Helper(*this, Required);
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changeset_ty CurrentMinSet = Helper.Run(CurrentSet);
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// Update the set of required changes. Since
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// CurrentMinSet subset CurrentSet
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// and after the last iteration,
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// succ(CurrentSet) subset Required
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// then
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// succ(CurrentMinSet) subset Required
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// and our invariant on Required is maintained.
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Required.insert(CurrentMinSet.begin(), CurrentMinSet.end());
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// Replace the current set with the predecssors of the minimized set of
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// active changes.
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CurrentSet.clear();
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for (changeset_ty::const_iterator it = CurrentMinSet.begin(),
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ie = CurrentMinSet.end(); it != ie; ++it)
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CurrentSet.insert(pred_begin(*it), pred_end(*it));
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// FIXME: We could enforce CurrentSet intersect Required == {} here if we
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// wanted to protect against cyclic graphs.
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}
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return Required;
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}
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void DAGDeltaAlgorithm::anchor() {
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}
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DAGDeltaAlgorithm::changeset_ty
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DAGDeltaAlgorithm::Run(const changeset_ty &Changes,
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const std::vector<edge_ty> &Dependencies) {
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return DAGDeltaAlgorithmImpl(*this, Changes, Dependencies).Run();
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}
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