include/llvm/CodeGen/LiveIntervalUnion.h - external/github.com/llvm-mirror/llvm - Git at Google

 //===- LiveIntervalUnion.h - Live interval union data struct ---*- C++ -*--===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // LiveIntervalUnion is a union of live segments across multiple live virtual
 // registers. This may be used during coalescing to represent a congruence
 // class, or during register allocation to model liveness of a physical
 // register.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CODEGEN_LIVEINTERVALUNION_H
 #define LLVM_CODEGEN_LIVEINTERVALUNION_H

 #include "llvm/ADT/IntervalMap.h"
 #include "llvm/ADT/SmallVector.h"
 #include "llvm/CodeGen/LiveInterval.h"
 #include "llvm/CodeGen/SlotIndexes.h"
 #include <cassert>
 #include <limits>

 namespace llvm {

 class raw_ostream;
 class TargetRegisterInfo;

 #ifndef NDEBUG
 // forward declaration
 template <unsigned Element> class SparseBitVector;

 using LiveVirtRegBitSet = SparseBitVector<128>;
 #endif

 /// Union of live intervals that are strong candidates for coalescing into a
 /// single register (either physical or virtual depending on the context).  We
 /// expect the constituent live intervals to be disjoint, although we may
 /// eventually make exceptions to handle value-based interference.
 class LiveIntervalUnion {
   // A set of live virtual register segments that supports fast insertion,
   // intersection, and removal.
   // Mapping SlotIndex intervals to virtual register numbers.
   using LiveSegments = IntervalMap<SlotIndex, LiveInterval*>;

 public:
   // SegmentIter can advance to the next segment ordered by starting position
   // which may belong to a different live virtual register. We also must be able
   // to reach the current segment's containing virtual register.
   using SegmentIter = LiveSegments::iterator;

   /// Const version of SegmentIter.
   using ConstSegmentIter = LiveSegments::const_iterator;

   // LiveIntervalUnions share an external allocator.
   using Allocator = LiveSegments::Allocator;

 private:
   unsigned Tag = 0;       // unique tag for current contents.
   LiveSegments Segments;  // union of virtual reg segments

 public:
   explicit LiveIntervalUnion(Allocator &a) : Segments(a) {}

   // Iterate over all segments in the union of live virtual registers ordered
   // by their starting position.
   SegmentIter begin() { return Segments.begin(); }
   SegmentIter end() { return Segments.end(); }
   SegmentIter find(SlotIndex x) { return Segments.find(x); }
   ConstSegmentIter begin() const { return Segments.begin(); }
   ConstSegmentIter end() const { return Segments.end(); }
   ConstSegmentIter find(SlotIndex x) const { return Segments.find(x); }

   bool empty() const { return Segments.empty(); }
   SlotIndex startIndex() const { return Segments.start(); }

   // Provide public access to the underlying map to allow overlap iteration.
   using Map = LiveSegments;
   const Map &getMap() const { return Segments; }

   /// getTag - Return an opaque tag representing the current state of the union.
   unsigned getTag() const { return Tag; }

   /// changedSince - Return true if the union change since getTag returned tag.
   bool changedSince(unsigned tag) const { return tag != Tag; }

   // Add a live virtual register to this union and merge its segments.
   void unify(LiveInterval &VirtReg, const LiveRange &Range);

   // Remove a live virtual register's segments from this union.
   void extract(LiveInterval &VirtReg, const LiveRange &Range);

   // Remove all inserted virtual registers.
   void clear() { Segments.clear(); ++Tag; }

   // Print union, using TRI to translate register names
   void print(raw_ostream &OS, const TargetRegisterInfo *TRI) const;

 #ifndef NDEBUG
   // Verify the live intervals in this union and add them to the visited set.
   void verify(LiveVirtRegBitSet& VisitedVRegs);
 #endif

   /// Query interferences between a single live virtual register and a live
   /// interval union.
   class Query {
     const LiveIntervalUnion *LiveUnion = nullptr;
     const LiveRange *LR = nullptr;
     LiveRange::const_iterator LRI;  ///< current position in LR
     ConstSegmentIter LiveUnionI;    ///< current position in LiveUnion
     SmallVector<LiveInterval*,4> InterferingVRegs;
     bool CheckedFirstInterference = false;
     bool SeenAllInterferences = false;
     unsigned Tag = 0;
     unsigned UserTag = 0;

     void reset(unsigned NewUserTag, const LiveRange &NewLR,
                const LiveIntervalUnion &NewLiveUnion) {
       LiveUnion = &NewLiveUnion;
       LR = &NewLR;
       InterferingVRegs.clear();
       CheckedFirstInterference = false;
       SeenAllInterferences = false;
       Tag = NewLiveUnion.getTag();
       UserTag = NewUserTag;
     }

   public:
     Query() = default;
     Query(const LiveRange &LR, const LiveIntervalUnion &LIU):
       LiveUnion(&LIU), LR(&LR) {}
     Query(const Query &) = delete;
     Query &operator=(const Query &) = delete;

     void init(unsigned NewUserTag, const LiveRange &NewLR,
               const LiveIntervalUnion &NewLiveUnion) {
       if (UserTag == NewUserTag && LR == &NewLR && LiveUnion == &NewLiveUnion &&
           !NewLiveUnion.changedSince(Tag)) {
         // Retain cached results, e.g. firstInterference.
         return;
       }
       reset(NewUserTag, NewLR, NewLiveUnion);
     }

     // Does this live virtual register interfere with the union?
     bool checkInterference() { return collectInterferingVRegs(1); }

     // Count the virtual registers in this union that interfere with this
     // query's live virtual register, up to maxInterferingRegs.
     unsigned collectInterferingVRegs(
         unsigned MaxInterferingRegs = std::numeric_limits<unsigned>::max());

     // Was this virtual register visited during collectInterferingVRegs?
     bool isSeenInterference(LiveInterval *VirtReg) const;

     // Did collectInterferingVRegs collect all interferences?
     bool seenAllInterferences() const { return SeenAllInterferences; }

     // Vector generated by collectInterferingVRegs.
     const SmallVectorImpl<LiveInterval*> &interferingVRegs() const {
       return InterferingVRegs;
     }
   };

   // Array of LiveIntervalUnions.
   class Array {
     unsigned Size = 0;
     LiveIntervalUnion *LIUs = nullptr;

   public:
     Array() = default;
     ~Array() { clear(); }

     // Initialize the array to have Size entries.
     // Reuse an existing allocation if the size matches.
     void init(LiveIntervalUnion::Allocator&, unsigned Size);

     unsigned size() const { return Size; }

     void clear();

     LiveIntervalUnion& operator[](unsigned idx) {
       assert(idx <  Size && "idx out of bounds");
       return LIUs[idx];
     }

     const LiveIntervalUnion& operator[](unsigned Idx) const {
       assert(Idx < Size && "Idx out of bounds");
       return LIUs[Idx];
     }
   };
 };

 } // end namespace llvm

 #endif // LLVM_CODEGEN_LIVEINTERVALUNION_H
	//===- LiveIntervalUnion.h - Live interval union data struct ---- C++ ---===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// LiveIntervalUnion is a union of live segments across multiple live virtual
	// registers. This may be used during coalescing to represent a congruence
	// class, or during register allocation to model liveness of a physical
	// register.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CODEGEN_LIVEINTERVALUNION_H
	#define LLVM_CODEGEN_LIVEINTERVALUNION_H

	#include "llvm/ADT/IntervalMap.h"
	#include "llvm/ADT/SmallVector.h"
	#include "llvm/CodeGen/LiveInterval.h"
	#include "llvm/CodeGen/SlotIndexes.h"
	#include <cassert>
	#include <limits>

	namespace llvm {

	class raw_ostream;
	class TargetRegisterInfo;

	#ifndef NDEBUG
	// forward declaration
	template <unsigned Element> class SparseBitVector;

	using LiveVirtRegBitSet = SparseBitVector<128>;
	#endif

	/// Union of live intervals that are strong candidates for coalescing into a
	/// single register (either physical or virtual depending on the context). We
	/// expect the constituent live intervals to be disjoint, although we may
	/// eventually make exceptions to handle value-based interference.
	class LiveIntervalUnion {
	// A set of live virtual register segments that supports fast insertion,
	// intersection, and removal.
	// Mapping SlotIndex intervals to virtual register numbers.
	using LiveSegments = IntervalMap<SlotIndex, LiveInterval*>;

	public:
	// SegmentIter can advance to the next segment ordered by starting position
	// which may belong to a different live virtual register. We also must be able
	// to reach the current segment's containing virtual register.
	using SegmentIter = LiveSegments::iterator;

	/// Const version of SegmentIter.
	using ConstSegmentIter = LiveSegments::const_iterator;

	// LiveIntervalUnions share an external allocator.
	using Allocator = LiveSegments::Allocator;

	private:
	unsigned Tag = 0; // unique tag for current contents.
	LiveSegments Segments; // union of virtual reg segments

	public:
	explicit LiveIntervalUnion(Allocator &a) : Segments(a) {}

	// Iterate over all segments in the union of live virtual registers ordered
	// by their starting position.
	SegmentIter begin() { return Segments.begin(); }
	SegmentIter end() { return Segments.end(); }
	SegmentIter find(SlotIndex x) { return Segments.find(x); }
	ConstSegmentIter begin() const { return Segments.begin(); }
	ConstSegmentIter end() const { return Segments.end(); }
	ConstSegmentIter find(SlotIndex x) const { return Segments.find(x); }

	bool empty() const { return Segments.empty(); }
	SlotIndex startIndex() const { return Segments.start(); }

	// Provide public access to the underlying map to allow overlap iteration.
	using Map = LiveSegments;
	const Map &getMap() const { return Segments; }

	/// getTag - Return an opaque tag representing the current state of the union.
	unsigned getTag() const { return Tag; }

	/// changedSince - Return true if the union change since getTag returned tag.
	bool changedSince(unsigned tag) const { return tag != Tag; }

	// Add a live virtual register to this union and merge its segments.
	void unify(LiveInterval &VirtReg, const LiveRange &Range);

	// Remove a live virtual register's segments from this union.
	void extract(LiveInterval &VirtReg, const LiveRange &Range);

	// Remove all inserted virtual registers.
	void clear() { Segments.clear(); ++Tag; }

	// Print union, using TRI to translate register names
	void print(raw_ostream &OS, const TargetRegisterInfo *TRI) const;

	#ifndef NDEBUG
	// Verify the live intervals in this union and add them to the visited set.
	void verify(LiveVirtRegBitSet& VisitedVRegs);
	#endif

	/// Query interferences between a single live virtual register and a live
	/// interval union.
	class Query {
	const LiveIntervalUnion *LiveUnion = nullptr;
	const LiveRange *LR = nullptr;
	LiveRange::const_iterator LRI; ///< current position in LR
	ConstSegmentIter LiveUnionI; ///< current position in LiveUnion
	SmallVector<LiveInterval*,4> InterferingVRegs;
	bool CheckedFirstInterference = false;
	bool SeenAllInterferences = false;
	unsigned Tag = 0;
	unsigned UserTag = 0;

	void reset(unsigned NewUserTag, const LiveRange &NewLR,
	const LiveIntervalUnion &NewLiveUnion) {
	LiveUnion = &NewLiveUnion;
	LR = &NewLR;
	InterferingVRegs.clear();
	CheckedFirstInterference = false;
	SeenAllInterferences = false;
	Tag = NewLiveUnion.getTag();
	UserTag = NewUserTag;
	}

	public:
	Query() = default;
	Query(const LiveRange &LR, const LiveIntervalUnion &LIU):
	LiveUnion(&LIU), LR(&LR) {}
	Query(const Query &) = delete;
	Query &operator=(const Query &) = delete;

	void init(unsigned NewUserTag, const LiveRange &NewLR,
	const LiveIntervalUnion &NewLiveUnion) {
	if (UserTag == NewUserTag && LR == &NewLR && LiveUnion == &NewLiveUnion &&
	!NewLiveUnion.changedSince(Tag)) {
	// Retain cached results, e.g. firstInterference.
	return;
	}
	reset(NewUserTag, NewLR, NewLiveUnion);
	}

	// Does this live virtual register interfere with the union?
	bool checkInterference() { return collectInterferingVRegs(1); }

	// Count the virtual registers in this union that interfere with this
	// query's live virtual register, up to maxInterferingRegs.
	unsigned collectInterferingVRegs(
	unsigned MaxInterferingRegs = std::numeric_limits<unsigned>::max());

	// Was this virtual register visited during collectInterferingVRegs?
	bool isSeenInterference(LiveInterval *VirtReg) const;

	// Did collectInterferingVRegs collect all interferences?
	bool seenAllInterferences() const { return SeenAllInterferences; }

	// Vector generated by collectInterferingVRegs.
	const SmallVectorImpl<LiveInterval*> &interferingVRegs() const {
	return InterferingVRegs;
	}
	};

	// Array of LiveIntervalUnions.
	class Array {
	unsigned Size = 0;
	LiveIntervalUnion *LIUs = nullptr;

	public:
	Array() = default;
	~Array() { clear(); }

	// Initialize the array to have Size entries.
	// Reuse an existing allocation if the size matches.
	void init(LiveIntervalUnion::Allocator&, unsigned Size);

	unsigned size() const { return Size; }

	void clear();

	LiveIntervalUnion& operator[](unsigned idx) {
	assert(idx < Size && "idx out of bounds");
	return LIUs[idx];
	}

	const LiveIntervalUnion& operator[](unsigned Idx) const {
	assert(Idx < Size && "Idx out of bounds");
	return LIUs[Idx];
	}
	};
	};

	} // end namespace llvm

	#endif // LLVM_CODEGEN_LIVEINTERVALUNION_H