include/llvm/IR/Constant.h - llvm - Git at Google

 //===-- llvm/Constant.h - Constant class definition -------------*- 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
 //
 //===----------------------------------------------------------------------===//
 //
 // This file contains the declaration of the Constant class.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_IR_CONSTANT_H
 #define LLVM_IR_CONSTANT_H

 #include "llvm/IR/User.h"
 #include "llvm/IR/Value.h"
 #include "llvm/Support/Casting.h"

 namespace llvm {

 class APInt;

 /// This is an important base class in LLVM. It provides the common facilities
 /// of all constant values in an LLVM program. A constant is a value that is
 /// immutable at runtime. Functions are constants because their address is
 /// immutable. Same with global variables.
 ///
 /// All constants share the capabilities provided in this class. All constants
 /// can have a null value. They can have an operand list. Constants can be
 /// simple (integer and floating point values), complex (arrays and structures),
 /// or expression based (computations yielding a constant value composed of
 /// only certain operators and other constant values).
 ///
 /// Note that Constants are immutable (once created they never change)
 /// and are fully shared by structural equivalence.  This means that two
 /// structurally equivalent constants will always have the same address.
 /// Constants are created on demand as needed and never deleted: thus clients
 /// don't have to worry about the lifetime of the objects.
 /// LLVM Constant Representation
 class Constant : public User {
 protected:
   Constant(Type *ty, ValueTy vty, Use *Ops, unsigned NumOps)
     : User(ty, vty, Ops, NumOps) {}

 public:
   void operator=(const Constant &) = delete;
   Constant(const Constant &) = delete;

   /// Return true if this is the value that would be returned by getNullValue.
   bool isNullValue() const;

   /// Returns true if the value is one.
   bool isOneValue() const;

   /// Return true if this is the value that would be returned by
   /// getAllOnesValue.
   bool isAllOnesValue() const;

   /// Return true if the value is what would be returned by
   /// getZeroValueForNegation.
   bool isNegativeZeroValue() const;

   /// Return true if the value is negative zero or null value.
   bool isZeroValue() const;

   /// Return true if the value is not the smallest signed value.
   bool isNotMinSignedValue() const;

   /// Return true if the value is the smallest signed value.
   bool isMinSignedValue() const;

   /// Return true if this is a finite and non-zero floating-point scalar
   /// constant or a vector constant with all finite and non-zero elements.
   bool isFiniteNonZeroFP() const;

   /// Return true if this is a normal (as opposed to denormal) floating-point
   /// scalar constant or a vector constant with all normal elements.
   bool isNormalFP() const;

   /// Return true if this scalar has an exact multiplicative inverse or this
   /// vector has an exact multiplicative inverse for each element in the vector.
   bool hasExactInverseFP() const;

   /// Return true if this is a floating-point NaN constant or a vector
   /// floating-point constant with all NaN elements.
   bool isNaN() const;

   /// Return true if this is a vector constant that includes any undefined
   /// elements.
   bool containsUndefElement() const;

   /// Return true if this is a vector constant that includes any constant
   /// expressions.
   bool containsConstantExpression() const;

   /// Return true if evaluation of this constant could trap. This is true for
   /// things like constant expressions that could divide by zero.
   bool canTrap() const;

   /// Return true if the value can vary between threads.
   bool isThreadDependent() const;

   /// Return true if the value is dependent on a dllimport variable.
   bool isDLLImportDependent() const;

   /// Return true if the constant has users other than constant expressions and
   /// other dangling things.
   bool isConstantUsed() const;

   /// This method classifies the entry according to whether or not it may
   /// generate a relocation entry.  This must be conservative, so if it might
   /// codegen to a relocatable entry, it should say so.
   ///
   /// FIXME: This really should not be in IR.
   bool needsRelocation() const;

   /// For aggregates (struct/array/vector) return the constant that corresponds
   /// to the specified element if possible, or null if not. This can return null
   /// if the element index is a ConstantExpr, if 'this' is a constant expr or
   /// if the constant does not fit into an uint64_t.
   Constant *getAggregateElement(unsigned Elt) const;
   Constant *getAggregateElement(Constant *Elt) const;

   /// If this is a splat vector constant, meaning that all of the elements have
   /// the same value, return that value. Otherwise return 0.
   Constant *getSplatValue() const;

   /// If C is a constant integer then return its value, otherwise C must be a
   /// vector of constant integers, all equal, and the common value is returned.
   const APInt &getUniqueInteger() const;

   /// Called if some element of this constant is no longer valid.
   /// At this point only other constants may be on the use_list for this
   /// constant.  Any constants on our Use list must also be destroy'd.  The
   /// implementation must be sure to remove the constant from the list of
   /// available cached constants.  Implementations should implement
   /// destroyConstantImpl to remove constants from any pools/maps they are
   /// contained it.
   void destroyConstant();

   //// Methods for support type inquiry through isa, cast, and dyn_cast:
   static bool classof(const Value *V) {
     static_assert(ConstantFirstVal == 0, "V->getValueID() >= ConstantFirstVal always succeeds");
     return V->getValueID() <= ConstantLastVal;
   }

   /// This method is a special form of User::replaceUsesOfWith
   /// (which does not work on constants) that does work
   /// on constants.  Basically this method goes through the trouble of building
   /// a new constant that is equivalent to the current one, with all uses of
   /// From replaced with uses of To.  After this construction is completed, all
   /// of the users of 'this' are replaced to use the new constant, and then
   /// 'this' is deleted.  In general, you should not call this method, instead,
   /// use Value::replaceAllUsesWith, which automatically dispatches to this
   /// method as needed.
   ///
   void handleOperandChange(Value *, Value *);

   static Constant *getNullValue(Type* Ty);

   /// @returns the value for an integer or vector of integer constant of the
   /// given type that has all its bits set to true.
   /// Get the all ones value
   static Constant *getAllOnesValue(Type* Ty);

   /// Return the value for an integer or pointer constant, or a vector thereof,
   /// with the given scalar value.
   static Constant *getIntegerValue(Type *Ty, const APInt &V);

   /// If there are any dead constant users dangling off of this constant, remove
   /// them. This method is useful for clients that want to check to see if a
   /// global is unused, but don't want to deal with potentially dead constants
   /// hanging off of the globals.
   void removeDeadConstantUsers() const;

   const Constant *stripPointerCasts() const {
     return cast<Constant>(Value::stripPointerCasts());
   }

   Constant *stripPointerCasts() {
     return const_cast<Constant*>(
                       static_cast<const Constant *>(this)->stripPointerCasts());
   }
 };

 } // end namespace llvm

 #endif // LLVM_IR_CONSTANT_H
	//===-- llvm/Constant.h - Constant class definition -------------- 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
	//
	//===----------------------------------------------------------------------===//
	//
	// This file contains the declaration of the Constant class.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_IR_CONSTANT_H
	#define LLVM_IR_CONSTANT_H

	#include "llvm/IR/User.h"
	#include "llvm/IR/Value.h"
	#include "llvm/Support/Casting.h"

	namespace llvm {

	class APInt;

	/// This is an important base class in LLVM. It provides the common facilities
	/// of all constant values in an LLVM program. A constant is a value that is
	/// immutable at runtime. Functions are constants because their address is
	/// immutable. Same with global variables.
	///
	/// All constants share the capabilities provided in this class. All constants
	/// can have a null value. They can have an operand list. Constants can be
	/// simple (integer and floating point values), complex (arrays and structures),
	/// or expression based (computations yielding a constant value composed of
	/// only certain operators and other constant values).
	///
	/// Note that Constants are immutable (once created they never change)
	/// and are fully shared by structural equivalence. This means that two
	/// structurally equivalent constants will always have the same address.
	/// Constants are created on demand as needed and never deleted: thus clients
	/// don't have to worry about the lifetime of the objects.
	/// LLVM Constant Representation
	class Constant : public User {
	protected:
	Constant(Type ty, ValueTy vty, Use Ops, unsigned NumOps)
	: User(ty, vty, Ops, NumOps) {}

	public:
	void operator=(const Constant &) = delete;
	Constant(const Constant &) = delete;

	/// Return true if this is the value that would be returned by getNullValue.
	bool isNullValue() const;

	/// Returns true if the value is one.
	bool isOneValue() const;

	/// Return true if this is the value that would be returned by
	/// getAllOnesValue.
	bool isAllOnesValue() const;

	/// Return true if the value is what would be returned by
	/// getZeroValueForNegation.
	bool isNegativeZeroValue() const;

	/// Return true if the value is negative zero or null value.
	bool isZeroValue() const;

	/// Return true if the value is not the smallest signed value.
	bool isNotMinSignedValue() const;

	/// Return true if the value is the smallest signed value.
	bool isMinSignedValue() const;

	/// Return true if this is a finite and non-zero floating-point scalar
	/// constant or a vector constant with all finite and non-zero elements.
	bool isFiniteNonZeroFP() const;

	/// Return true if this is a normal (as opposed to denormal) floating-point
	/// scalar constant or a vector constant with all normal elements.
	bool isNormalFP() const;

	/// Return true if this scalar has an exact multiplicative inverse or this
	/// vector has an exact multiplicative inverse for each element in the vector.
	bool hasExactInverseFP() const;

	/// Return true if this is a floating-point NaN constant or a vector
	/// floating-point constant with all NaN elements.
	bool isNaN() const;

	/// Return true if this is a vector constant that includes any undefined
	/// elements.
	bool containsUndefElement() const;

	/// Return true if this is a vector constant that includes any constant
	/// expressions.
	bool containsConstantExpression() const;

	/// Return true if evaluation of this constant could trap. This is true for
	/// things like constant expressions that could divide by zero.
	bool canTrap() const;

	/// Return true if the value can vary between threads.
	bool isThreadDependent() const;

	/// Return true if the value is dependent on a dllimport variable.
	bool isDLLImportDependent() const;

	/// Return true if the constant has users other than constant expressions and
	/// other dangling things.
	bool isConstantUsed() const;

	/// This method classifies the entry according to whether or not it may
	/// generate a relocation entry. This must be conservative, so if it might
	/// codegen to a relocatable entry, it should say so.
	///
	/// FIXME: This really should not be in IR.
	bool needsRelocation() const;

	/// For aggregates (struct/array/vector) return the constant that corresponds
	/// to the specified element if possible, or null if not. This can return null
	/// if the element index is a ConstantExpr, if 'this' is a constant expr or
	/// if the constant does not fit into an uint64_t.
	Constant *getAggregateElement(unsigned Elt) const;
	Constant getAggregateElement(Constant Elt) const;

	/// If this is a splat vector constant, meaning that all of the elements have
	/// the same value, return that value. Otherwise return 0.
	Constant *getSplatValue() const;

	/// If C is a constant integer then return its value, otherwise C must be a
	/// vector of constant integers, all equal, and the common value is returned.
	const APInt &getUniqueInteger() const;

	/// Called if some element of this constant is no longer valid.
	/// At this point only other constants may be on the use_list for this
	/// constant. Any constants on our Use list must also be destroy'd. The
	/// implementation must be sure to remove the constant from the list of
	/// available cached constants. Implementations should implement
	/// destroyConstantImpl to remove constants from any pools/maps they are
	/// contained it.
	void destroyConstant();

	//// Methods for support type inquiry through isa, cast, and dyn_cast:
	static bool classof(const Value *V) {
	static_assert(ConstantFirstVal == 0, "V->getValueID() >= ConstantFirstVal always succeeds");
	return V->getValueID() <= ConstantLastVal;
	}

	/// This method is a special form of User::replaceUsesOfWith
	/// (which does not work on constants) that does work
	/// on constants. Basically this method goes through the trouble of building
	/// a new constant that is equivalent to the current one, with all uses of
	/// From replaced with uses of To. After this construction is completed, all
	/// of the users of 'this' are replaced to use the new constant, and then
	/// 'this' is deleted. In general, you should not call this method, instead,
	/// use Value::replaceAllUsesWith, which automatically dispatches to this
	/// method as needed.
	///
	void handleOperandChange(Value , Value );

	static Constant getNullValue(Type Ty);

	/// @returns the value for an integer or vector of integer constant of the
	/// given type that has all its bits set to true.
	/// Get the all ones value
	static Constant getAllOnesValue(Type Ty);

	/// Return the value for an integer or pointer constant, or a vector thereof,
	/// with the given scalar value.
	static Constant getIntegerValue(Type Ty, const APInt &V);

	/// If there are any dead constant users dangling off of this constant, remove
	/// them. This method is useful for clients that want to check to see if a
	/// global is unused, but don't want to deal with potentially dead constants
	/// hanging off of the globals.
	void removeDeadConstantUsers() const;

	const Constant *stripPointerCasts() const {
	return cast<Constant>(Value::stripPointerCasts());
	}

	Constant *stripPointerCasts() {
	return const_cast<Constant*>(
	static_cast<const Constant *>(this)->stripPointerCasts());
	}
	};

	} // end namespace llvm

	#endif // LLVM_IR_CONSTANT_H