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18c57a8a09
in favor of the widespread llvm style. Capitalize variables and add newlines for visual parsing. Rename variables for readability. And other cleanup. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@120490 91177308-0d34-0410-b5e6-96231b3b80d8
288 lines
10 KiB
C++
288 lines
10 KiB
C++
//===-- LiveIntervalUnion.h - Live interval union data struct --*- 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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// LiveIntervalUnion is a union of live segments across multiple live virtual
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// registers. This may be used during coalescing to represent a congruence
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// class, or during register allocation to model liveness of a physical
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// register.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_CODEGEN_LIVEINTERVALUNION
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#define LLVM_CODEGEN_LIVEINTERVALUNION
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#include "llvm/CodeGen/LiveInterval.h"
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#include <vector>
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#include <set>
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namespace llvm {
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#ifndef NDEBUG
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// forward declaration
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template <unsigned Element> class SparseBitVector;
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typedef SparseBitVector<128> LiveVirtRegBitSet;
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#endif
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/// A LiveSegment is a copy of a LiveRange object used within
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/// LiveIntervalUnion. LiveSegment additionally contains a pointer to its
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/// original live virtual register (LiveInterval). This allows quick lookup of
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/// the live virtual register as we iterate over live segments in a union. Note
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/// that LiveRange is misnamed and actually represents only a single contiguous
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/// interval within a virtual register's liveness. To limit confusion, in this
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/// file we refer it as a live segment.
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///
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/// Note: This currently represents a half-open interval [Start,End).
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/// If LiveRange is modified to represent a closed interval, so should this.
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struct LiveSegment {
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SlotIndex Start;
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SlotIndex End;
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LiveInterval *VirtReg;
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LiveSegment(const LiveRange& LR, LiveInterval *VReg)
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: Start(LR.start), End(LR.end), VirtReg(VReg) {}
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bool operator==(const LiveSegment &LS) const {
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return Start == LS.Start && End == LS.End && VirtReg == LS.VirtReg;
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}
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bool operator!=(const LiveSegment &LS) const {
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return !operator==(LS);
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}
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// Order segments by starting point only--we expect them to be disjoint.
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bool operator<(const LiveSegment &LS) const { return Start < LS.Start; }
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void dump() const;
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void print(raw_ostream &OS) const;
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};
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inline bool operator<(SlotIndex Idx, const LiveSegment &LS) {
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return Idx < LS.Start;
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}
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inline bool operator<(const LiveSegment &LS, SlotIndex Idx) {
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return LS.Start < Idx;
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}
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/// Compare a live virtual register segment to a LiveIntervalUnion segment.
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inline bool overlap(const LiveRange &VirtRegSegment,
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const LiveSegment &LiveUnionSegment) {
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return VirtRegSegment.start < LiveUnionSegment.End &&
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LiveUnionSegment.Start < VirtRegSegment.end;
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}
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template <> struct isPodLike<LiveSegment> { static const bool value = true; };
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raw_ostream& operator<<(raw_ostream& OS, const LiveSegment &LS);
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/// Abstraction to provide info for the representative register.
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class AbstractRegisterDescription {
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public:
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virtual const char *getName(unsigned Reg) const = 0;
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virtual ~AbstractRegisterDescription() {}
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};
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/// Union of live intervals that are strong candidates for coalescing into a
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/// single register (either physical or virtual depending on the context). We
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/// expect the constituent live intervals to be disjoint, although we may
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/// eventually make exceptions to handle value-based interference.
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class LiveIntervalUnion {
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// A set of live virtual register segments that supports fast insertion,
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// intersection, and removal.
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//
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// FIXME: std::set is a placeholder until we decide how to
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// efficiently represent it. Probably need to roll our own B-tree.
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typedef std::set<LiveSegment> LiveSegments;
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// A set of live virtual registers. Elements have type LiveInterval, where
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// each element represents the liveness of a single live virtual register.
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// This is traditionally known as a live range, but we refer is as a live
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// virtual register to avoid confusing it with the misnamed LiveRange
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// class.
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typedef std::vector<LiveInterval*> LiveVRegs;
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public:
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// SegmentIter can advance to the next segment ordered by starting position
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// which may belong to a different live virtual register. We also must be able
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// to reach the current segment's containing virtual register.
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typedef LiveSegments::iterator SegmentIter;
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class InterferenceResult;
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class Query;
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private:
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unsigned RepReg; // representative register number
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LiveSegments Segments; // union of virtual reg segements
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public:
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// default ctor avoids placement new
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LiveIntervalUnion() : RepReg(0) {}
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// Initialize the union by associating it with a representative register
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// number.
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void init(unsigned Reg) { RepReg = Reg; }
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// Iterate over all segments in the union of live virtual registers ordered
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// by their starting position.
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SegmentIter begin() { return Segments.begin(); }
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SegmentIter end() { return Segments.end(); }
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// Return an iterator to the first segment after or including begin that
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// intersects with LS.
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SegmentIter upperBound(SegmentIter SegBegin, const LiveSegment &LS);
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// Add a live virtual register to this union and merge its segments.
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// Holds a nonconst reference to the VirtReg for later maniplution.
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void unify(LiveInterval &VirtReg);
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// Remove a live virtual register's segments from this union.
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void extract(const LiveInterval &VirtReg);
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void dump(const AbstractRegisterDescription *RegDesc) const;
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// If tri != NULL, use it to decode RepReg
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void print(raw_ostream &OS, const AbstractRegisterDescription *RegDesc) const;
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#ifndef NDEBUG
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// Verify the live intervals in this union and add them to the visited set.
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void verify(LiveVirtRegBitSet& VisitedVRegs);
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#endif
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/// Cache a single interference test result in the form of two intersecting
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/// segments. This allows efficiently iterating over the interferences. The
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/// iteration logic is handled by LiveIntervalUnion::Query which may
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/// filter interferences depending on the type of query.
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class InterferenceResult {
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friend class Query;
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LiveInterval::iterator VirtRegI; // current position in VirtReg
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SegmentIter LiveUnionI; // current position in LiveUnion
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// Internal ctor.
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InterferenceResult(LiveInterval::iterator VRegI, SegmentIter UnionI)
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: VirtRegI(VRegI), LiveUnionI(UnionI) {}
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public:
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// Public default ctor.
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InterferenceResult(): VirtRegI(), LiveUnionI() {}
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// Note: this interface provides raw access to the iterators because the
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// result has no way to tell if it's valid to dereference them.
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// Access the VirtReg segment.
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LiveInterval::iterator virtRegPos() const { return VirtRegI; }
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// Access the LiveUnion segment.
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SegmentIter liveUnionPos() const { return LiveUnionI; }
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bool operator==(const InterferenceResult &IR) const {
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return VirtRegI == IR.VirtRegI && LiveUnionI == IR.LiveUnionI;
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}
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bool operator!=(const InterferenceResult &IR) const {
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return !operator==(IR);
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}
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};
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/// Query interferences between a single live virtual register and a live
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/// interval union.
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class Query {
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LiveIntervalUnion *LiveUnion;
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LiveInterval *VirtReg;
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InterferenceResult FirstInterference;
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SmallVector<LiveInterval*,4> InterferingVRegs;
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bool SeenAllInterferences;
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bool SeenUnspillableVReg;
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public:
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Query(): LiveUnion(), VirtReg() {}
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Query(LiveInterval *VReg, LiveIntervalUnion *LIU):
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LiveUnion(LIU), VirtReg(VReg), SeenAllInterferences(false),
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SeenUnspillableVReg(false)
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{}
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void clear() {
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LiveUnion = NULL;
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VirtReg = NULL;
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FirstInterference = InterferenceResult();
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InterferingVRegs.clear();
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SeenAllInterferences = false;
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SeenUnspillableVReg = false;
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}
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void init(LiveInterval *VReg, LiveIntervalUnion *LIU) {
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if (VirtReg == VReg) {
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// We currently allow query objects to be reused acrossed live virtual
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// registers, but always for the same live interval union.
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assert(LiveUnion == LIU && "inconsistent initialization");
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// Retain cached results, e.g. firstInterference.
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return;
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}
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clear();
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LiveUnion = LIU;
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VirtReg = VReg;
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}
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LiveInterval &virtReg() const {
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assert(VirtReg && "uninitialized");
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return *VirtReg;
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}
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bool isInterference(const InterferenceResult &IR) const {
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if (IR.VirtRegI != VirtReg->end()) {
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assert(overlap(*IR.VirtRegI, *IR.LiveUnionI) &&
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"invalid segment iterators");
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return true;
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}
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return false;
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}
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// Does this live virtual register interfere with the union?
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bool checkInterference() { return isInterference(firstInterference()); }
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// Get the first pair of interfering segments, or a noninterfering result.
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// This initializes the firstInterference_ cache.
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InterferenceResult firstInterference();
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// Treat the result as an iterator and advance to the next interfering pair
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// of segments. Visiting each unique interfering pairs means that the same
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// VirtReg or LiveUnion segment may be visited multiple times.
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bool nextInterference(InterferenceResult &IR) const;
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// Count the virtual registers in this union that interfere with this
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// query's live virtual register, up to maxInterferingRegs.
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unsigned collectInterferingVRegs(unsigned MaxInterferingRegs = UINT_MAX);
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// Was this virtual register visited during collectInterferingVRegs?
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bool isSeenInterference(LiveInterval *VReg) const;
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// Did collectInterferingVRegs collect all interferences?
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bool seenAllInterferences() const { return SeenAllInterferences; }
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// Did collectInterferingVRegs encounter an unspillable vreg?
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bool seenUnspillableVReg() const { return SeenUnspillableVReg; }
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// Vector generated by collectInterferingVRegs.
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const SmallVectorImpl<LiveInterval*> &interferingVRegs() const {
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return InterferingVRegs;
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}
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private:
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Query(const Query&); // DO NOT IMPLEMENT
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void operator=(const Query&); // DO NOT IMPLEMENT
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// Private interface for queries
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void findIntersection(InterferenceResult &IR) const;
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};
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};
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} // end namespace llvm
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#endif // !defined(LLVM_CODEGEN_LIVEINTERVALUNION)
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