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https://github.com/c64scene-ar/llvm-6502.git
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674be02d52
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@172025 91177308-0d34-0410-b5e6-96231b3b80d8
589 lines
17 KiB
C++
589 lines
17 KiB
C++
//===- IntegersSubsetMapping.h - Mapping subset ==> Successor ---*- 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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//
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/// @file
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/// IntegersSubsetMapping is mapping from A to B, where
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/// Items in A is subsets of integers,
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/// Items in B some pointers (Successors).
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/// If user which to add another subset for successor that is already
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/// exists in mapping, IntegersSubsetMapping merges existing subset with
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/// added one.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_SUPPORT_INTEGERSSUBSETMAPPING_H
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#define LLVM_SUPPORT_INTEGERSSUBSETMAPPING_H
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#include "llvm/Support/IntegersSubset.h"
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#include <list>
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#include <map>
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#include <vector>
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namespace llvm {
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template <class SuccessorClass,
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class IntegersSubsetTy = IntegersSubset,
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class IntTy = IntItem>
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class IntegersSubsetMapping {
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// FIXME: To much similar iterators typedefs, similar names.
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// - Rename RangeIterator to the cluster iterator.
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// - Remove unused "add" methods.
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// - Class contents needs cleaning.
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public:
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typedef IntRange<IntTy> RangeTy;
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struct RangeEx : public RangeTy {
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RangeEx() : Weight(1) {}
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RangeEx(const RangeTy &R) : RangeTy(R), Weight(1) {}
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RangeEx(const RangeTy &R, unsigned W) : RangeTy(R), Weight(W) {}
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RangeEx(const IntTy &C) : RangeTy(C), Weight(1) {}
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RangeEx(const IntTy &L, const IntTy &H) : RangeTy(L, H), Weight(1) {}
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RangeEx(const IntTy &L, const IntTy &H, unsigned W) :
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RangeTy(L, H), Weight(W) {}
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unsigned Weight;
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};
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typedef std::pair<RangeEx, SuccessorClass*> Cluster;
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typedef std::list<RangeTy> RangesCollection;
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typedef typename RangesCollection::iterator RangesCollectionIt;
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typedef typename RangesCollection::const_iterator RangesCollectionConstIt;
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typedef IntegersSubsetMapping<SuccessorClass, IntegersSubsetTy, IntTy> self;
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protected:
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typedef std::list<Cluster> CaseItems;
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typedef typename CaseItems::iterator CaseItemIt;
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typedef typename CaseItems::const_iterator CaseItemConstIt;
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// TODO: Change unclean CRS prefixes to SubsetMap for example.
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typedef std::map<SuccessorClass*, RangesCollection > CRSMap;
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typedef typename CRSMap::iterator CRSMapIt;
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struct ClustersCmp {
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bool operator()(const Cluster &C1, const Cluster &C2) {
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return C1.first < C2.first;
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}
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};
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CaseItems Items;
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bool Sorted;
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bool isIntersected(CaseItemIt& LItem, CaseItemIt& RItem) {
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return LItem->first.getHigh() >= RItem->first.getLow();
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}
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bool isJoinable(CaseItemIt& LItem, CaseItemIt& RItem) {
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if (LItem->second != RItem->second) {
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assert(!isIntersected(LItem, RItem) &&
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"Intersected items with different successors!");
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return false;
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}
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APInt RLow = RItem->first.getLow();
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if (RLow != APInt::getNullValue(RLow.getBitWidth()))
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--RLow;
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return LItem->first.getHigh() >= RLow;
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}
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void sort() {
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if (!Sorted) {
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std::vector<Cluster> clustersVector;
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clustersVector.reserve(Items.size());
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clustersVector.insert(clustersVector.begin(), Items.begin(), Items.end());
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std::sort(clustersVector.begin(), clustersVector.end(), ClustersCmp());
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Items.clear();
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Items.insert(Items.begin(), clustersVector.begin(), clustersVector.end());
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Sorted = true;
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}
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}
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enum DiffProcessState {
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L_OPENED,
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INTERSECT_OPENED,
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R_OPENED,
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ALL_IS_CLOSED
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};
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class DiffStateMachine {
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DiffProcessState State;
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IntTy OpenPt;
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SuccessorClass *CurrentLSuccessor;
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SuccessorClass *CurrentRSuccessor;
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self *LeftMapping;
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self *IntersectionMapping;
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self *RightMapping;
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public:
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typedef
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IntegersSubsetMapping<SuccessorClass, IntegersSubsetTy, IntTy> MappingTy;
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DiffStateMachine(MappingTy *L,
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MappingTy *Intersection,
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MappingTy *R) :
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State(ALL_IS_CLOSED),
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LeftMapping(L),
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IntersectionMapping(Intersection),
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RightMapping(R)
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{}
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void onLOpen(const IntTy &Pt, SuccessorClass *S) {
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switch (State) {
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case R_OPENED:
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if (Pt > OpenPt/*Don't add empty ranges.*/ && RightMapping)
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RightMapping->add(OpenPt, Pt-1, CurrentRSuccessor);
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State = INTERSECT_OPENED;
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break;
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case ALL_IS_CLOSED:
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State = L_OPENED;
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break;
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default:
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assert(0 && "Got unexpected point.");
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break;
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}
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CurrentLSuccessor = S;
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OpenPt = Pt;
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}
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void onLClose(const IntTy &Pt) {
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switch (State) {
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case L_OPENED:
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assert(Pt >= OpenPt &&
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"Subset is not sorted or contains overlapped ranges");
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if (LeftMapping)
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LeftMapping->add(OpenPt, Pt, CurrentLSuccessor);
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State = ALL_IS_CLOSED;
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break;
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case INTERSECT_OPENED:
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if (IntersectionMapping)
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IntersectionMapping->add(OpenPt, Pt, CurrentLSuccessor);
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OpenPt = Pt + 1;
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State = R_OPENED;
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break;
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default:
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assert(0 && "Got unexpected point.");
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break;
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}
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}
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void onROpen(const IntTy &Pt, SuccessorClass *S) {
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switch (State) {
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case L_OPENED:
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if (Pt > OpenPt && LeftMapping)
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LeftMapping->add(OpenPt, Pt-1, CurrentLSuccessor);
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State = INTERSECT_OPENED;
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break;
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case ALL_IS_CLOSED:
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State = R_OPENED;
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break;
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default:
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assert(0 && "Got unexpected point.");
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break;
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}
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CurrentRSuccessor = S;
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OpenPt = Pt;
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}
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void onRClose(const IntTy &Pt) {
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switch (State) {
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case R_OPENED:
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assert(Pt >= OpenPt &&
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"Subset is not sorted or contains overlapped ranges");
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if (RightMapping)
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RightMapping->add(OpenPt, Pt, CurrentRSuccessor);
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State = ALL_IS_CLOSED;
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break;
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case INTERSECT_OPENED:
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if (IntersectionMapping)
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IntersectionMapping->add(OpenPt, Pt, CurrentLSuccessor);
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OpenPt = Pt + 1;
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State = L_OPENED;
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break;
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default:
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assert(0 && "Got unexpected point.");
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break;
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}
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}
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void onLROpen(const IntTy &Pt,
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SuccessorClass *LS,
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SuccessorClass *RS) {
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switch (State) {
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case ALL_IS_CLOSED:
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State = INTERSECT_OPENED;
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break;
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default:
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assert(0 && "Got unexpected point.");
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break;
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}
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CurrentLSuccessor = LS;
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CurrentRSuccessor = RS;
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OpenPt = Pt;
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}
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void onLRClose(const IntTy &Pt) {
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switch (State) {
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case INTERSECT_OPENED:
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if (IntersectionMapping)
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IntersectionMapping->add(OpenPt, Pt, CurrentLSuccessor);
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State = ALL_IS_CLOSED;
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break;
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default:
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assert(0 && "Got unexpected point.");
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break;
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}
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}
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bool isLOpened() { return State == L_OPENED; }
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bool isROpened() { return State == R_OPENED; }
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};
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public:
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// Don't public CaseItems itself. Don't allow edit the Items directly.
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// Just present the user way to iterate over the internal collection
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// sharing iterator, begin() and end(). Editing should be controlled by
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// factory.
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typedef CaseItemIt RangeIterator;
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typedef std::pair<SuccessorClass*, IntegersSubsetTy> Case;
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typedef std::list<Case> Cases;
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typedef typename Cases::iterator CasesIt;
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IntegersSubsetMapping() {
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Sorted = false;
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}
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bool verify() {
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RangeIterator DummyErrItem;
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return verify(DummyErrItem);
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}
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bool verify(RangeIterator& errItem) {
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if (Items.empty())
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return true;
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sort();
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for (CaseItemIt j = Items.begin(), i = j++, e = Items.end();
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j != e; i = j++) {
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if (isIntersected(i, j) && i->second != j->second) {
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errItem = j;
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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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bool isOverlapped(self &RHS) {
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if (Items.empty() || RHS.empty())
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return true;
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for (CaseItemIt L = Items.begin(), R = RHS.Items.begin(),
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el = Items.end(), er = RHS.Items.end(); L != el && R != er;) {
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const RangeTy &LRange = L->first;
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const RangeTy &RRange = R->first;
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if (LRange.getLow() > RRange.getLow()) {
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if (RRange.isSingleNumber() || LRange.getLow() > RRange.getHigh())
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++R;
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else
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return true;
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} else if (LRange.getLow() < RRange.getLow()) {
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if (LRange.isSingleNumber() || LRange.getHigh() < RRange.getLow())
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++L;
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else
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return true;
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} else // iRange.getLow() == jRange.getLow()
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return true;
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}
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return false;
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}
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void optimize() {
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if (Items.size() < 2)
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return;
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sort();
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CaseItems OldItems = Items;
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Items.clear();
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const IntTy *Low = &OldItems.begin()->first.getLow();
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const IntTy *High = &OldItems.begin()->first.getHigh();
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unsigned Weight = OldItems.begin()->first.Weight;
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SuccessorClass *Successor = OldItems.begin()->second;
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for (CaseItemIt j = OldItems.begin(), i = j++, e = OldItems.end();
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j != e; i = j++) {
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if (isJoinable(i, j)) {
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const IntTy *CurHigh = &j->first.getHigh();
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Weight += j->first.Weight;
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if (*CurHigh > *High)
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High = CurHigh;
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} else {
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RangeEx R(*Low, *High, Weight);
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add(R, Successor);
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Low = &j->first.getLow();
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High = &j->first.getHigh();
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Weight = j->first.Weight;
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Successor = j->second;
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}
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}
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RangeEx R(*Low, *High, Weight);
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add(R, Successor);
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// We recollected the Items, but we kept it sorted.
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Sorted = true;
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}
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/// Adds a constant value.
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void add(const IntTy &C, SuccessorClass *S = 0) {
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RangeTy R(C);
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add(R, S);
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}
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/// Adds a range.
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void add(const IntTy &Low, const IntTy &High, SuccessorClass *S = 0) {
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RangeTy R(Low, High);
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add(R, S);
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}
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void add(const RangeTy &R, SuccessorClass *S = 0) {
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RangeEx REx = R;
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add(REx, S);
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}
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void add(const RangeEx &R, SuccessorClass *S = 0) {
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Items.push_back(std::make_pair(R, S));
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Sorted = false;
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}
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/// Adds all ranges and values from given ranges set to the current
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/// mapping.
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void add(const IntegersSubsetTy &CRS, SuccessorClass *S = 0,
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unsigned Weight = 0) {
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unsigned ItemWeight = 1;
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if (Weight)
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// Weight is associated with CRS, for now we perform a division to
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// get the weight for each item.
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ItemWeight = Weight / CRS.getNumItems();
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for (unsigned i = 0, e = CRS.getNumItems(); i < e; ++i) {
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RangeTy R = CRS.getItem(i);
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RangeEx REx(R, ItemWeight);
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add(REx, S);
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}
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}
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void add(self& RHS) {
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Items.insert(Items.end(), RHS.Items.begin(), RHS.Items.end());
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}
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void add(self& RHS, SuccessorClass *S) {
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for (CaseItemIt i = RHS.Items.begin(), e = RHS.Items.end(); i != e; ++i)
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add(i->first, S);
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}
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void add(const RangesCollection& RHS, SuccessorClass *S = 0) {
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for (RangesCollectionConstIt i = RHS.begin(), e = RHS.end(); i != e; ++i)
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add(*i, S);
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}
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/// Removes items from set.
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void removeItem(RangeIterator i) { Items.erase(i); }
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/// Moves whole case from current mapping to the NewMapping object.
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void detachCase(self& NewMapping, SuccessorClass *Succ) {
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for (CaseItemIt i = Items.begin(); i != Items.end();)
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if (i->second == Succ) {
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NewMapping.add(i->first, i->second);
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Items.erase(i++);
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} else
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++i;
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}
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/// Removes all clusters for given successor.
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void removeCase(SuccessorClass *Succ) {
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for (CaseItemIt i = Items.begin(); i != Items.end();)
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if (i->second == Succ) {
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Items.erase(i++);
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} else
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++i;
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}
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/// Find successor that satisfies given value.
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SuccessorClass *findSuccessor(const IntTy& Val) {
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for (CaseItemIt i = Items.begin(); i != Items.end(); ++i) {
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if (i->first.isInRange(Val))
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return i->second;
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}
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return 0;
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}
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/// Calculates the difference between this mapping and RHS.
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/// THIS without RHS is placed into LExclude,
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/// RHS without THIS is placed into RExclude,
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/// THIS intersect RHS is placed into Intersection.
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void diff(self *LExclude, self *Intersection, self *RExclude,
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const self& RHS) {
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DiffStateMachine Machine(LExclude, Intersection, RExclude);
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CaseItemConstIt L = Items.begin(), R = RHS.Items.begin();
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while (L != Items.end() && R != RHS.Items.end()) {
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const Cluster &LCluster = *L;
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const RangeEx &LRange = LCluster.first;
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const Cluster &RCluster = *R;
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const RangeEx &RRange = RCluster.first;
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if (LRange.getHigh() < RRange.getLow()) {
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Machine.onLOpen(LRange.getLow(), LCluster.second);
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Machine.onLClose(LRange.getHigh());
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++L;
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continue;
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}
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if (LRange.getLow() > RRange.getHigh()) {
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Machine.onROpen(RRange.getLow(), RCluster.second);
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Machine.onRClose(RRange.getHigh());
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++R;
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continue;
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}
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if (LRange.getLow() < RRange.getLow()) {
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// May be opened in previous iteration.
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if (!Machine.isLOpened())
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Machine.onLOpen(LRange.getLow(), LCluster.second);
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Machine.onROpen(RRange.getLow(), RCluster.second);
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}
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else if (RRange.getLow() < LRange.getLow()) {
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if (!Machine.isROpened())
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Machine.onROpen(RRange.getLow(), RCluster.second);
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Machine.onLOpen(LRange.getLow(), LCluster.second);
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}
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else
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Machine.onLROpen(LRange.getLow(), LCluster.second, RCluster.second);
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if (LRange.getHigh() < RRange.getHigh()) {
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Machine.onLClose(LRange.getHigh());
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++L;
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while(L != Items.end() && L->first.getHigh() < RRange.getHigh()) {
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Machine.onLOpen(L->first.getLow(), L->second);
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Machine.onLClose(L->first.getHigh());
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++L;
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}
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}
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else if (RRange.getHigh() < LRange.getHigh()) {
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Machine.onRClose(RRange.getHigh());
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++R;
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while(R != RHS.Items.end() && R->first.getHigh() < LRange.getHigh()) {
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Machine.onROpen(R->first.getLow(), R->second);
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Machine.onRClose(R->first.getHigh());
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++R;
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}
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}
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else {
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Machine.onLRClose(LRange.getHigh());
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++L;
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++R;
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}
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}
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if (L != Items.end()) {
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if (Machine.isLOpened()) {
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Machine.onLClose(L->first.getHigh());
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++L;
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}
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if (LExclude)
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while (L != Items.end()) {
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LExclude->add(L->first, L->second);
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++L;
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}
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} else if (R != RHS.Items.end()) {
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if (Machine.isROpened()) {
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Machine.onRClose(R->first.getHigh());
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++R;
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}
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if (RExclude)
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while (R != RHS.Items.end()) {
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RExclude->add(R->first, R->second);
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++R;
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}
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}
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}
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/// Builds the finalized case objects.
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void getCases(Cases& TheCases, bool PreventMerging = false) {
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//FIXME: PreventMerging is a temporary parameter.
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//Currently a set of passes is still knows nothing about
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//switches with case ranges, and if these passes meet switch
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//with complex case that crashs the application.
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if (PreventMerging) {
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for (RangeIterator i = this->begin(); i != this->end(); ++i) {
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RangesCollection SingleRange;
|
|
SingleRange.push_back(i->first);
|
|
TheCases.push_back(std::make_pair(i->second,
|
|
IntegersSubsetTy(SingleRange)));
|
|
}
|
|
return;
|
|
}
|
|
CRSMap TheCRSMap;
|
|
for (RangeIterator i = this->begin(); i != this->end(); ++i)
|
|
TheCRSMap[i->second].push_back(i->first);
|
|
for (CRSMapIt i = TheCRSMap.begin(), e = TheCRSMap.end(); i != e; ++i)
|
|
TheCases.push_back(std::make_pair(i->first, IntegersSubsetTy(i->second)));
|
|
}
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|
|
|
/// Builds the finalized case objects ignoring successor values, as though
|
|
/// all ranges belongs to the same successor.
|
|
IntegersSubsetTy getCase() {
|
|
RangesCollection Ranges;
|
|
for (RangeIterator i = this->begin(); i != this->end(); ++i)
|
|
Ranges.push_back(i->first);
|
|
return IntegersSubsetTy(Ranges);
|
|
}
|
|
|
|
/// Returns pointer to value of case if it is single-numbered or 0
|
|
/// in another case.
|
|
const IntTy* getCaseSingleNumber(SuccessorClass *Succ) {
|
|
const IntTy* Res = 0;
|
|
for (CaseItemIt i = Items.begin(); i != Items.end(); ++i)
|
|
if (i->second == Succ) {
|
|
if (!i->first.isSingleNumber())
|
|
return 0;
|
|
if (Res)
|
|
return 0;
|
|
else
|
|
Res = &(i->first.getLow());
|
|
}
|
|
return Res;
|
|
}
|
|
|
|
/// Returns true if there is no ranges and values inside.
|
|
bool empty() const { return Items.empty(); }
|
|
|
|
void clear() {
|
|
Items.clear();
|
|
// Don't reset Sorted flag:
|
|
// 1. For empty mapping it matters nothing.
|
|
// 2. After first item will added Sorted flag will cleared.
|
|
}
|
|
|
|
// Returns number of clusters
|
|
unsigned size() const {
|
|
return Items.size();
|
|
}
|
|
|
|
RangeIterator begin() { return Items.begin(); }
|
|
RangeIterator end() { return Items.end(); }
|
|
};
|
|
|
|
class BasicBlock;
|
|
typedef IntegersSubsetMapping<BasicBlock> IntegersSubsetToBB;
|
|
|
|
}
|
|
|
|
#endif /* LLVM_SUPPORT_INTEGERSSUBSETMAPPING_CRSBUILDER_H */
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