lib/Transforms/ObjCARC/PtrState.h - llvm - Git at Google

 //===--- PtrState.h - ARC State for a Ptr -------------------*- C++ -*-----===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 //  This file contains declarations for the ARC state associated with a ptr. It
 //  is only used by the ARC Sequence Dataflow computation. By separating this
 //  from the actual dataflow, it is easier to consider the mechanics of the ARC
 //  optimization separate from the actual predicates being used.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_LIB_TRANSFORMS_OBJCARC_PTRSTATE_H
 #define LLVM_LIB_TRANSFORMS_OBJCARC_PTRSTATE_H

 #include "ARCInstKind.h"
 #include "llvm/ADT/SmallPtrSet.h"
 #include "llvm/IR/Instruction.h"
 #include "llvm/IR/Value.h"
 #include "llvm/Support/raw_ostream.h"
 #include "llvm/Support/Debug.h"

 namespace llvm {
 namespace objcarc {

 class ARCMDKindCache;
 class ProvenanceAnalysis;

 /// \enum Sequence
 ///
 /// \brief A sequence of states that a pointer may go through in which an
 /// objc_retain and objc_release are actually needed.
 enum Sequence {
   S_None,
   S_Retain,        ///< objc_retain(x).
   S_CanRelease,    ///< foo(x) -- x could possibly see a ref count decrement.
   S_Use,           ///< any use of x.
   S_Stop,          ///< like S_Release, but code motion is stopped.
   S_Release,       ///< objc_release(x).
   S_MovableRelease ///< objc_release(x), !clang.imprecise_release.
 };

 raw_ostream &operator<<(raw_ostream &OS,
                         const Sequence S) LLVM_ATTRIBUTE_UNUSED;

 /// \brief Unidirectional information about either a
 /// retain-decrement-use-release sequence or release-use-decrement-retain
 /// reverse sequence.
 struct RRInfo {
   /// After an objc_retain, the reference count of the referenced
   /// object is known to be positive. Similarly, before an objc_release, the
   /// reference count of the referenced object is known to be positive. If
   /// there are retain-release pairs in code regions where the retain count
   /// is known to be positive, they can be eliminated, regardless of any side
   /// effects between them.
   ///
   /// Also, a retain+release pair nested within another retain+release
   /// pair all on the known same pointer value can be eliminated, regardless
   /// of any intervening side effects.
   ///
   /// KnownSafe is true when either of these conditions is satisfied.
   bool KnownSafe;

   /// True of the objc_release calls are all marked with the "tail" keyword.
   bool IsTailCallRelease;

   /// If the Calls are objc_release calls and they all have a
   /// clang.imprecise_release tag, this is the metadata tag.
   MDNode *ReleaseMetadata;

   /// For a top-down sequence, the set of objc_retains or
   /// objc_retainBlocks. For bottom-up, the set of objc_releases.
   SmallPtrSet<Instruction *, 2> Calls;

   /// The set of optimal insert positions for moving calls in the opposite
   /// sequence.
   SmallPtrSet<Instruction *, 2> ReverseInsertPts;

   /// If this is true, we cannot perform code motion but can still remove
   /// retain/release pairs.
   bool CFGHazardAfflicted;

   RRInfo()
       : KnownSafe(false), IsTailCallRelease(false), ReleaseMetadata(nullptr),
         CFGHazardAfflicted(false) {}

   void clear();

   /// Conservatively merge the two RRInfo. Returns true if a partial merge has
   /// occurred, false otherwise.
   bool Merge(const RRInfo &Other);
 };

 /// \brief This class summarizes several per-pointer runtime properties which
 /// are propogated through the flow graph.
 class PtrState {
 protected:
   /// True if the reference count is known to be incremented.
   bool KnownPositiveRefCount;

   /// True if we've seen an opportunity for partial RR elimination, such as
   /// pushing calls into a CFG triangle or into one side of a CFG diamond.
   bool Partial;

   /// The current position in the sequence.
   unsigned char Seq : 8;

   /// Unidirectional information about the current sequence.
   RRInfo RRI;

   PtrState() : KnownPositiveRefCount(false), Partial(false), Seq(S_None) {}

 public:
   bool IsKnownSafe() const { return RRI.KnownSafe; }

   void SetKnownSafe(const bool NewValue) { RRI.KnownSafe = NewValue; }

   bool IsTailCallRelease() const { return RRI.IsTailCallRelease; }

   void SetTailCallRelease(const bool NewValue) {
     RRI.IsTailCallRelease = NewValue;
   }

   bool IsTrackingImpreciseReleases() const {
     return RRI.ReleaseMetadata != nullptr;
   }

   const MDNode *GetReleaseMetadata() const { return RRI.ReleaseMetadata; }

   void SetReleaseMetadata(MDNode *NewValue) { RRI.ReleaseMetadata = NewValue; }

   bool IsCFGHazardAfflicted() const { return RRI.CFGHazardAfflicted; }

   void SetCFGHazardAfflicted(const bool NewValue) {
     RRI.CFGHazardAfflicted = NewValue;
   }

   void SetKnownPositiveRefCount();
   void ClearKnownPositiveRefCount();

   bool HasKnownPositiveRefCount() const { return KnownPositiveRefCount; }

   void SetSeq(Sequence NewSeq);

   Sequence GetSeq() const { return static_cast<Sequence>(Seq); }

   void ClearSequenceProgress() { ResetSequenceProgress(S_None); }

   void ResetSequenceProgress(Sequence NewSeq);
   void Merge(const PtrState &Other, bool TopDown);

   void InsertCall(Instruction *I) { RRI.Calls.insert(I); }

   void InsertReverseInsertPt(Instruction *I) { RRI.ReverseInsertPts.insert(I); }

   void ClearReverseInsertPts() { RRI.ReverseInsertPts.clear(); }

   bool HasReverseInsertPts() const { return !RRI.ReverseInsertPts.empty(); }

   const RRInfo &GetRRInfo() const { return RRI; }
 };

 struct BottomUpPtrState : PtrState {
   BottomUpPtrState() : PtrState() {}

   /// (Re-)Initialize this bottom up pointer returning true if we detected a
   /// pointer with nested releases.
   bool InitBottomUp(ARCMDKindCache &Cache, Instruction *I);

   /// Return true if this set of releases can be paired with a release. Modifies
   /// state appropriately to reflect that the matching occured if it is
   /// successful.
   ///
   /// It is assumed that one has already checked that the RCIdentity of the
   /// retain and the RCIdentity of this ptr state are the same.
   bool MatchWithRetain();

   void HandlePotentialUse(BasicBlock *BB, Instruction *Inst, const Value *Ptr,
                           ProvenanceAnalysis &PA, ARCInstKind Class);
   bool HandlePotentialAlterRefCount(Instruction *Inst, const Value *Ptr,
                                     ProvenanceAnalysis &PA, ARCInstKind Class);
 };

 struct TopDownPtrState : PtrState {
   TopDownPtrState() : PtrState() {}

   /// (Re-)Initialize this bottom up pointer returning true if we detected a
   /// pointer with nested releases.
   bool InitTopDown(ARCInstKind Kind, Instruction *I);

   /// Return true if this set of retains can be paired with the given
   /// release. Modifies state appropriately to reflect that the matching
   /// occured.
   bool MatchWithRelease(ARCMDKindCache &Cache, Instruction *Release);

   void HandlePotentialUse(Instruction *Inst, const Value *Ptr,
                           ProvenanceAnalysis &PA, ARCInstKind Class);

   bool HandlePotentialAlterRefCount(Instruction *Inst, const Value *Ptr,
                                     ProvenanceAnalysis &PA, ARCInstKind Class);
 };

 } // end namespace objcarc
 } // end namespace llvm

 #endif
	//===--- PtrState.h - ARC State for a Ptr -------------------- C++ ------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file contains declarations for the ARC state associated with a ptr. It
	// is only used by the ARC Sequence Dataflow computation. By separating this
	// from the actual dataflow, it is easier to consider the mechanics of the ARC
	// optimization separate from the actual predicates being used.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_LIB_TRANSFORMS_OBJCARC_PTRSTATE_H
	#define LLVM_LIB_TRANSFORMS_OBJCARC_PTRSTATE_H

	#include "ARCInstKind.h"
	#include "llvm/ADT/SmallPtrSet.h"
	#include "llvm/IR/Instruction.h"
	#include "llvm/IR/Value.h"
	#include "llvm/Support/raw_ostream.h"
	#include "llvm/Support/Debug.h"

	namespace llvm {
	namespace objcarc {

	class ARCMDKindCache;
	class ProvenanceAnalysis;

	/// \enum Sequence
	///
	/// \brief A sequence of states that a pointer may go through in which an
	/// objc_retain and objc_release are actually needed.
	enum Sequence {
	S_None,
	S_Retain, ///< objc_retain(x).
	S_CanRelease, ///< foo(x) -- x could possibly see a ref count decrement.
	S_Use, ///< any use of x.
	S_Stop, ///< like S_Release, but code motion is stopped.
	S_Release, ///< objc_release(x).
	S_MovableRelease ///< objc_release(x), !clang.imprecise_release.
	};

	raw_ostream &operator<<(raw_ostream &OS,
	const Sequence S) LLVM_ATTRIBUTE_UNUSED;

	/// \brief Unidirectional information about either a
	/// retain-decrement-use-release sequence or release-use-decrement-retain
	/// reverse sequence.
	struct RRInfo {
	/// After an objc_retain, the reference count of the referenced
	/// object is known to be positive. Similarly, before an objc_release, the
	/// reference count of the referenced object is known to be positive. If
	/// there are retain-release pairs in code regions where the retain count
	/// is known to be positive, they can be eliminated, regardless of any side
	/// effects between them.
	///
	/// Also, a retain+release pair nested within another retain+release
	/// pair all on the known same pointer value can be eliminated, regardless
	/// of any intervening side effects.
	///
	/// KnownSafe is true when either of these conditions is satisfied.
	bool KnownSafe;

	/// True of the objc_release calls are all marked with the "tail" keyword.
	bool IsTailCallRelease;

	/// If the Calls are objc_release calls and they all have a
	/// clang.imprecise_release tag, this is the metadata tag.
	MDNode *ReleaseMetadata;

	/// For a top-down sequence, the set of objc_retains or
	/// objc_retainBlocks. For bottom-up, the set of objc_releases.
	SmallPtrSet<Instruction *, 2> Calls;

	/// The set of optimal insert positions for moving calls in the opposite
	/// sequence.
	SmallPtrSet<Instruction *, 2> ReverseInsertPts;

	/// If this is true, we cannot perform code motion but can still remove
	/// retain/release pairs.
	bool CFGHazardAfflicted;

	RRInfo()
	: KnownSafe(false), IsTailCallRelease(false), ReleaseMetadata(nullptr),
	CFGHazardAfflicted(false) {}

	void clear();

	/// Conservatively merge the two RRInfo. Returns true if a partial merge has
	/// occurred, false otherwise.
	bool Merge(const RRInfo &Other);
	};

	/// \brief This class summarizes several per-pointer runtime properties which
	/// are propogated through the flow graph.
	class PtrState {
	protected:
	/// True if the reference count is known to be incremented.
	bool KnownPositiveRefCount;

	/// True if we've seen an opportunity for partial RR elimination, such as
	/// pushing calls into a CFG triangle or into one side of a CFG diamond.
	bool Partial;

	/// The current position in the sequence.
	unsigned char Seq : 8;

	/// Unidirectional information about the current sequence.
	RRInfo RRI;

	PtrState() : KnownPositiveRefCount(false), Partial(false), Seq(S_None) {}

	public:
	bool IsKnownSafe() const { return RRI.KnownSafe; }

	void SetKnownSafe(const bool NewValue) { RRI.KnownSafe = NewValue; }

	bool IsTailCallRelease() const { return RRI.IsTailCallRelease; }

	void SetTailCallRelease(const bool NewValue) {
	RRI.IsTailCallRelease = NewValue;
	}

	bool IsTrackingImpreciseReleases() const {
	return RRI.ReleaseMetadata != nullptr;
	}

	const MDNode *GetReleaseMetadata() const { return RRI.ReleaseMetadata; }

	void SetReleaseMetadata(MDNode *NewValue) { RRI.ReleaseMetadata = NewValue; }

	bool IsCFGHazardAfflicted() const { return RRI.CFGHazardAfflicted; }

	void SetCFGHazardAfflicted(const bool NewValue) {
	RRI.CFGHazardAfflicted = NewValue;
	}

	void SetKnownPositiveRefCount();
	void ClearKnownPositiveRefCount();

	bool HasKnownPositiveRefCount() const { return KnownPositiveRefCount; }

	void SetSeq(Sequence NewSeq);

	Sequence GetSeq() const { return static_cast<Sequence>(Seq); }

	void ClearSequenceProgress() { ResetSequenceProgress(S_None); }

	void ResetSequenceProgress(Sequence NewSeq);
	void Merge(const PtrState &Other, bool TopDown);

	void InsertCall(Instruction *I) { RRI.Calls.insert(I); }

	void InsertReverseInsertPt(Instruction *I) { RRI.ReverseInsertPts.insert(I); }

	void ClearReverseInsertPts() { RRI.ReverseInsertPts.clear(); }

	bool HasReverseInsertPts() const { return !RRI.ReverseInsertPts.empty(); }

	const RRInfo &GetRRInfo() const { return RRI; }
	};

	struct BottomUpPtrState : PtrState {
	BottomUpPtrState() : PtrState() {}

	/// (Re-)Initialize this bottom up pointer returning true if we detected a
	/// pointer with nested releases.
	bool InitBottomUp(ARCMDKindCache &Cache, Instruction *I);

	/// Return true if this set of releases can be paired with a release. Modifies
	/// state appropriately to reflect that the matching occured if it is
	/// successful.
	///
	/// It is assumed that one has already checked that the RCIdentity of the
	/// retain and the RCIdentity of this ptr state are the same.
	bool MatchWithRetain();

	void HandlePotentialUse(BasicBlock BB, Instruction Inst, const Value *Ptr,
	ProvenanceAnalysis &PA, ARCInstKind Class);
	bool HandlePotentialAlterRefCount(Instruction Inst, const Value Ptr,
	ProvenanceAnalysis &PA, ARCInstKind Class);
	};

	struct TopDownPtrState : PtrState {
	TopDownPtrState() : PtrState() {}

	/// (Re-)Initialize this bottom up pointer returning true if we detected a
	/// pointer with nested releases.
	bool InitTopDown(ARCInstKind Kind, Instruction *I);

	/// Return true if this set of retains can be paired with the given
	/// release. Modifies state appropriately to reflect that the matching
	/// occured.
	bool MatchWithRelease(ARCMDKindCache &Cache, Instruction *Release);

	void HandlePotentialUse(Instruction Inst, const Value Ptr,
	ProvenanceAnalysis &PA, ARCInstKind Class);

	bool HandlePotentialAlterRefCount(Instruction Inst, const Value Ptr,
	ProvenanceAnalysis &PA, ARCInstKind Class);
	};

	} // end namespace objcarc
	} // end namespace llvm

	#endif