include/llvm/Analysis/MustExecute.h - llvm - Git at Google

 //===- MustExecute.h - Is an instruction known to execute--------*- 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
 //
 //===----------------------------------------------------------------------===//
 /// \file
 /// Contains a collection of routines for determining if a given instruction is
 /// guaranteed to execute if a given point in control flow is reached.  The most
 /// common example is an instruction within a loop being provably executed if we
 /// branch to the header of it's containing loop.
 ///
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_ANALYSIS_MUSTEXECUTE_H
 #define LLVM_ANALYSIS_MUSTEXECUTE_H

 #include "llvm/ADT/DenseMap.h"
 #include "llvm/Analysis/EHPersonalities.h"
 #include "llvm/Analysis/InstructionPrecedenceTracking.h"
 #include "llvm/Analysis/LoopInfo.h"
 #include "llvm/IR/BasicBlock.h"
 #include "llvm/IR/Dominators.h"
 #include "llvm/IR/Instruction.h"

 namespace llvm {

 class Instruction;
 class DominatorTree;
 class Loop;

 /// Captures loop safety information.
 /// It keep information for loop blocks may throw exception or otherwise
 /// exit abnormaly on any iteration of the loop which might actually execute
 /// at runtime.  The primary way to consume this infromation is via
 /// isGuaranteedToExecute below, but some callers bailout or fallback to
 /// alternate reasoning if a loop contains any implicit control flow.
 /// NOTE: LoopSafetyInfo contains cached information regarding loops and their
 /// particular blocks. This information is only dropped on invocation of
 /// computeLoopSafetyInfo. If the loop or any of its block is deleted, or if
 /// any thrower instructions have been added or removed from them, or if the
 /// control flow has changed, or in case of other meaningful modifications, the
 /// LoopSafetyInfo needs to be recomputed. If a meaningful modifications to the
 /// loop were made and the info wasn't recomputed properly, the behavior of all
 /// methods except for computeLoopSafetyInfo is undefined.
 class LoopSafetyInfo {
   // Used to update funclet bundle operands.
   DenseMap<BasicBlock *, ColorVector> BlockColors;

 protected:
   /// Computes block colors.
   void computeBlockColors(const Loop *CurLoop);

 public:
   /// Returns block colors map that is used to update funclet operand bundles.
   const DenseMap<BasicBlock *, ColorVector> &getBlockColors() const;

   /// Copy colors of block \p Old into the block \p New.
   void copyColors(BasicBlock *New, BasicBlock *Old);

   /// Returns true iff the block \p BB potentially may throw exception. It can
   /// be false-positive in cases when we want to avoid complex analysis.
   virtual bool blockMayThrow(const BasicBlock *BB) const = 0;

   /// Returns true iff any block of the loop for which this info is contains an
   /// instruction that may throw or otherwise exit abnormally.
   virtual bool anyBlockMayThrow() const = 0;

   /// Return true if we must reach the block \p BB under assumption that the
   /// loop \p CurLoop is entered.
   bool allLoopPathsLeadToBlock(const Loop *CurLoop, const BasicBlock *BB,
                                const DominatorTree *DT) const;

   /// Computes safety information for a loop checks loop body & header for
   /// the possibility of may throw exception, it takes LoopSafetyInfo and loop
   /// as argument. Updates safety information in LoopSafetyInfo argument.
   /// Note: This is defined to clear and reinitialize an already initialized
   /// LoopSafetyInfo.  Some callers rely on this fact.
   virtual void computeLoopSafetyInfo(const Loop *CurLoop) = 0;

   /// Returns true if the instruction in a loop is guaranteed to execute at
   /// least once (under the assumption that the loop is entered).
   virtual bool isGuaranteedToExecute(const Instruction &Inst,
                                      const DominatorTree *DT,
                                      const Loop *CurLoop) const = 0;

   LoopSafetyInfo() = default;

   virtual ~LoopSafetyInfo() = default;
 };


 /// Simple and conservative implementation of LoopSafetyInfo that can give
 /// false-positive answers to its queries in order to avoid complicated
 /// analysis.
 class SimpleLoopSafetyInfo: public LoopSafetyInfo {
   bool MayThrow = false;       // The current loop contains an instruction which
                                // may throw.
   bool HeaderMayThrow = false; // Same as previous, but specific to loop header

 public:
   virtual bool blockMayThrow(const BasicBlock *BB) const;

   virtual bool anyBlockMayThrow() const;

   virtual void computeLoopSafetyInfo(const Loop *CurLoop);

   virtual bool isGuaranteedToExecute(const Instruction &Inst,
                                      const DominatorTree *DT,
                                      const Loop *CurLoop) const;

   SimpleLoopSafetyInfo() : LoopSafetyInfo() {};

   virtual ~SimpleLoopSafetyInfo() {};
 };

 /// This implementation of LoopSafetyInfo use ImplicitControlFlowTracking to
 /// give precise answers on "may throw" queries. This implementation uses cache
 /// that should be invalidated by calling the methods insertInstructionTo and
 /// removeInstruction whenever we modify a basic block's contents by adding or
 /// removing instructions.
 class ICFLoopSafetyInfo: public LoopSafetyInfo {
   bool MayThrow = false;       // The current loop contains an instruction which
                                // may throw.
   // Contains information about implicit control flow in this loop's blocks.
   mutable ImplicitControlFlowTracking ICF;
   // Contains information about instruction that may possibly write memory.
   mutable MemoryWriteTracking MW;

 public:
   virtual bool blockMayThrow(const BasicBlock *BB) const;

   virtual bool anyBlockMayThrow() const;

   virtual void computeLoopSafetyInfo(const Loop *CurLoop);

   virtual bool isGuaranteedToExecute(const Instruction &Inst,
                                      const DominatorTree *DT,
                                      const Loop *CurLoop) const;

   /// Returns true if we could not execute a memory-modifying instruction before
   /// we enter \p BB under assumption that \p CurLoop is entered.
   bool doesNotWriteMemoryBefore(const BasicBlock *BB, const Loop *CurLoop)
       const;

   /// Returns true if we could not execute a memory-modifying instruction before
   /// we execute \p I under assumption that \p CurLoop is entered.
   bool doesNotWriteMemoryBefore(const Instruction &I, const Loop *CurLoop)
       const;

   /// Inform the safety info that we are planning to insert a new instruction
   /// \p Inst into the basic block \p BB. It will make all cache updates to keep
   /// it correct after this insertion.
   void insertInstructionTo(const Instruction *Inst, const BasicBlock *BB);

   /// Inform safety info that we are planning to remove the instruction \p Inst
   /// from its block. It will make all cache updates to keep it correct after
   /// this removal.
   void removeInstruction(const Instruction *Inst);

   ICFLoopSafetyInfo(DominatorTree *DT) : LoopSafetyInfo(), ICF(DT), MW(DT) {};

   virtual ~ICFLoopSafetyInfo() {};
 };

 }

 #endif
	//===- MustExecute.h - Is an instruction known to execute--------- 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
	//
	//===----------------------------------------------------------------------===//
	/// \file
	/// Contains a collection of routines for determining if a given instruction is
	/// guaranteed to execute if a given point in control flow is reached. The most
	/// common example is an instruction within a loop being provably executed if we
	/// branch to the header of it's containing loop.
	///
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_ANALYSIS_MUSTEXECUTE_H
	#define LLVM_ANALYSIS_MUSTEXECUTE_H

	#include "llvm/ADT/DenseMap.h"
	#include "llvm/Analysis/EHPersonalities.h"
	#include "llvm/Analysis/InstructionPrecedenceTracking.h"
	#include "llvm/Analysis/LoopInfo.h"
	#include "llvm/IR/BasicBlock.h"
	#include "llvm/IR/Dominators.h"
	#include "llvm/IR/Instruction.h"

	namespace llvm {

	class Instruction;
	class DominatorTree;
	class Loop;

	/// Captures loop safety information.
	/// It keep information for loop blocks may throw exception or otherwise
	/// exit abnormaly on any iteration of the loop which might actually execute
	/// at runtime. The primary way to consume this infromation is via
	/// isGuaranteedToExecute below, but some callers bailout or fallback to
	/// alternate reasoning if a loop contains any implicit control flow.
	/// NOTE: LoopSafetyInfo contains cached information regarding loops and their
	/// particular blocks. This information is only dropped on invocation of
	/// computeLoopSafetyInfo. If the loop or any of its block is deleted, or if
	/// any thrower instructions have been added or removed from them, or if the
	/// control flow has changed, or in case of other meaningful modifications, the
	/// LoopSafetyInfo needs to be recomputed. If a meaningful modifications to the
	/// loop were made and the info wasn't recomputed properly, the behavior of all
	/// methods except for computeLoopSafetyInfo is undefined.
	class LoopSafetyInfo {
	// Used to update funclet bundle operands.
	DenseMap<BasicBlock *, ColorVector> BlockColors;

	protected:
	/// Computes block colors.
	void computeBlockColors(const Loop *CurLoop);

	public:
	/// Returns block colors map that is used to update funclet operand bundles.
	const DenseMap<BasicBlock *, ColorVector> &getBlockColors() const;

	/// Copy colors of block \p Old into the block \p New.
	void copyColors(BasicBlock New, BasicBlock Old);

	/// Returns true iff the block \p BB potentially may throw exception. It can
	/// be false-positive in cases when we want to avoid complex analysis.
	virtual bool blockMayThrow(const BasicBlock *BB) const = 0;

	/// Returns true iff any block of the loop for which this info is contains an
	/// instruction that may throw or otherwise exit abnormally.
	virtual bool anyBlockMayThrow() const = 0;

	/// Return true if we must reach the block \p BB under assumption that the
	/// loop \p CurLoop is entered.
	bool allLoopPathsLeadToBlock(const Loop CurLoop, const BasicBlock BB,
	const DominatorTree *DT) const;

	/// Computes safety information for a loop checks loop body & header for
	/// the possibility of may throw exception, it takes LoopSafetyInfo and loop
	/// as argument. Updates safety information in LoopSafetyInfo argument.
	/// Note: This is defined to clear and reinitialize an already initialized
	/// LoopSafetyInfo. Some callers rely on this fact.
	virtual void computeLoopSafetyInfo(const Loop *CurLoop) = 0;

	/// Returns true if the instruction in a loop is guaranteed to execute at
	/// least once (under the assumption that the loop is entered).
	virtual bool isGuaranteedToExecute(const Instruction &Inst,
	const DominatorTree *DT,
	const Loop *CurLoop) const = 0;

	LoopSafetyInfo() = default;

	virtual ~LoopSafetyInfo() = default;
	};


	/// Simple and conservative implementation of LoopSafetyInfo that can give
	/// false-positive answers to its queries in order to avoid complicated
	/// analysis.
	class SimpleLoopSafetyInfo: public LoopSafetyInfo {
	bool MayThrow = false; // The current loop contains an instruction which
	// may throw.
	bool HeaderMayThrow = false; // Same as previous, but specific to loop header

	public:
	virtual bool blockMayThrow(const BasicBlock *BB) const;

	virtual bool anyBlockMayThrow() const;

	virtual void computeLoopSafetyInfo(const Loop *CurLoop);

	virtual bool isGuaranteedToExecute(const Instruction &Inst,
	const DominatorTree *DT,
	const Loop *CurLoop) const;

	SimpleLoopSafetyInfo() : LoopSafetyInfo() {};

	virtual ~SimpleLoopSafetyInfo() {};
	};

	/// This implementation of LoopSafetyInfo use ImplicitControlFlowTracking to
	/// give precise answers on "may throw" queries. This implementation uses cache
	/// that should be invalidated by calling the methods insertInstructionTo and
	/// removeInstruction whenever we modify a basic block's contents by adding or
	/// removing instructions.
	class ICFLoopSafetyInfo: public LoopSafetyInfo {
	bool MayThrow = false; // The current loop contains an instruction which
	// may throw.
	// Contains information about implicit control flow in this loop's blocks.
	mutable ImplicitControlFlowTracking ICF;
	// Contains information about instruction that may possibly write memory.
	mutable MemoryWriteTracking MW;

	public:
	virtual bool blockMayThrow(const BasicBlock *BB) const;

	virtual bool anyBlockMayThrow() const;

	virtual void computeLoopSafetyInfo(const Loop *CurLoop);

	virtual bool isGuaranteedToExecute(const Instruction &Inst,
	const DominatorTree *DT,
	const Loop *CurLoop) const;

	/// Returns true if we could not execute a memory-modifying instruction before
	/// we enter \p BB under assumption that \p CurLoop is entered.
	bool doesNotWriteMemoryBefore(const BasicBlock BB, const Loop CurLoop)
	const;

	/// Returns true if we could not execute a memory-modifying instruction before
	/// we execute \p I under assumption that \p CurLoop is entered.
	bool doesNotWriteMemoryBefore(const Instruction &I, const Loop *CurLoop)
	const;

	/// Inform the safety info that we are planning to insert a new instruction
	/// \p Inst into the basic block \p BB. It will make all cache updates to keep
	/// it correct after this insertion.
	void insertInstructionTo(const Instruction Inst, const BasicBlock BB);

	/// Inform safety info that we are planning to remove the instruction \p Inst
	/// from its block. It will make all cache updates to keep it correct after
	/// this removal.
	void removeInstruction(const Instruction *Inst);

	ICFLoopSafetyInfo(DominatorTree *DT) : LoopSafetyInfo(), ICF(DT), MW(DT) {};

	virtual ~ICFLoopSafetyInfo() {};
	};

	}

	#endif