include/llvm/OperandTraits.h - llvm - Git at Google

 //===-- llvm/OperandTraits.h - OperandTraits class definition ---*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file defines the traits classes that are handy for enforcing the correct
 // layout of various User subclasses. It also provides the means for accessing
 // the operands in the most efficient manner.
 //

 #ifndef LLVM_OPERAND_TRAITS_H
 #define LLVM_OPERAND_TRAITS_H

 #include "llvm/User.h"

 namespace llvm {

 //===----------------------------------------------------------------------===//
 //                          FixedNumOperands Trait Class
 //===----------------------------------------------------------------------===//

 /// FixedNumOperandTraits - determine the allocation regime of the Use array
 /// when it is a prefix to the User object, and the number of Use objects is
 /// known at compile time.

 template <unsigned ARITY>
 struct FixedNumOperandTraits {
   static Use *op_begin(User* U) {
     return reinterpret_cast<Use*>(U) - ARITY;
   }
   static Use *op_end(User* U) {
     return reinterpret_cast<Use*>(U);
   }
   static unsigned operands(const User*) {
     return ARITY;
   }
   struct prefix {
     Use Ops[ARITY];
     prefix(); // DO NOT IMPLEMENT
   };
   template <class U>
   struct Layout {
     struct overlay : prefix, U {
       overlay(); // DO NOT IMPLEMENT
     };
   };
   static inline void *allocate(unsigned); // FIXME
 };

 //===----------------------------------------------------------------------===//
 //                          OptionalOperands Trait Class
 //===----------------------------------------------------------------------===//

 template <unsigned ARITY = 1>
 struct OptionalOperandTraits : FixedNumOperandTraits<ARITY> {
   static unsigned operands(const User *U) {
     return U->getNumOperands();
   }
 };

 //===----------------------------------------------------------------------===//
 //                          VariadicOperand Trait Class
 //===----------------------------------------------------------------------===//

 /// VariadicOperandTraits - determine the allocation regime of the Use array
 /// when it is a prefix to the User object, and the number of Use objects is
 /// only known at allocation time.

 template <unsigned MINARITY = 0>
 struct VariadicOperandTraits {
   static Use *op_begin(User* U) {
     return reinterpret_cast<Use*>(U) - U->getNumOperands();
   }
   static Use *op_end(User* U) {
     return reinterpret_cast<Use*>(U);
   }
   static unsigned operands(const User *U) {
     return U->getNumOperands();
   }
   static inline void *allocate(unsigned); // FIXME
 };

 //===----------------------------------------------------------------------===//
 //                          HungoffOperand Trait Class
 //===----------------------------------------------------------------------===//

 /// HungoffOperandTraits - determine the allocation regime of the Use array
 /// when it is not a prefix to the User object, but allocated at an unrelated
 /// heap address.
 /// Assumes that the User subclass that is determined by this traits class
 /// has an OperandList member of type User::op_iterator. [Note: this is now
 /// trivially satisfied, because User has that member for historic reasons.]
 ///
 /// This is the traits class that is needed when the Use array must be
 /// resizable.

 template <unsigned MINARITY = 1>
 struct HungoffOperandTraits {
   static Use *op_begin(User* U) {
     return U->OperandList;
   }
   static Use *op_end(User* U) {
     return U->OperandList + U->getNumOperands();
   }
   static unsigned operands(const User *U) {
     return U->getNumOperands();
   }
   static inline void *allocate(unsigned); // FIXME
 };

 /// Macro for generating in-class operand accessor declarations.
 /// It should only be called in the public section of the interface.
 ///
 #define DECLARE_TRANSPARENT_OPERAND_ACCESSORS(VALUECLASS) \
   public: \
   inline VALUECLASS *getOperand(unsigned) const; \
   inline void setOperand(unsigned, VALUECLASS*); \
   protected: \
   template <unsigned> inline Use &Op(); \
   template <unsigned> inline const Use &Op() const; \
   public: \
   inline unsigned getNumOperands() const

 /// Macro for generating out-of-class operand accessor definitions
 #define DEFINE_TRANSPARENT_OPERAND_ACCESSORS(CLASS, VALUECLASS) \
 VALUECLASS *CLASS::getOperand(unsigned i_nocapture) const { \
   assert(i_nocapture < OperandTraits<CLASS>::operands(this) \
          && "getOperand() out of range!"); \
   return static_cast<VALUECLASS*>( \
     OperandTraits<CLASS>::op_begin(const_cast<CLASS*>(this))[i_nocapture]); \
 } \
 void CLASS::setOperand(unsigned i_nocapture, VALUECLASS *Val_nocapture) { \
   assert(i_nocapture < OperandTraits<CLASS>::operands(this) \
          && "setOperand() out of range!"); \
   OperandTraits<CLASS>::op_begin(this)[i_nocapture] = Val_nocapture; \
 } \
 unsigned CLASS::getNumOperands() const { \
   return OperandTraits<CLASS>::operands(this);  \
 } \
 template <unsigned Idx_nocapture> Use &CLASS::Op() { \
   return OperandTraits<CLASS>::op_begin(this)[Idx_nocapture]; \
 } \
 template <unsigned Idx_nocapture> const Use &CLASS::Op() const { \
   return OperandTraits<CLASS>::op_begin( \
     const_cast<CLASS*>(this))[Idx_nocapture]; \
 }


 /// Macro for generating out-of-class operand accessor
 /// definitions with casted result
 #define DEFINE_TRANSPARENT_CASTED_OPERAND_ACCESSORS(CLASS, VALUECLASS) \
 VALUECLASS *CLASS::getOperand(unsigned i_nocapture) const { \
   assert(i_nocapture < OperandTraits<CLASS>::operands(this) \
          && "getOperand() out of range!"); \
   return cast<VALUECLASS>( \
     OperandTraits<CLASS>::op_begin(const_cast<CLASS*>(this))[i_nocapture]); \
 } \
 void CLASS::setOperand(unsigned i_nocapture, VALUECLASS *Val_nocapture) { \
   assert(i_nocapture < OperandTraits<CLASS>::operands(this) \
          && "setOperand() out of range!"); \
   OperandTraits<CLASS>::op_begin(this)[i_nocapture] = Val_nocapture; \
 } \
 unsigned CLASS::getNumOperands() const { \
   return OperandTraits<CLASS>::operands(this); \
 } \
 template <unsigned Idx_nocapture> Use &CLASS::Op() { \
   return OperandTraits<CLASS>::op_begin(this)[Idx_nocapture]; \
 } \
 template <unsigned Idx_nocapture> const Use &CLASS::Op() const { \
   return OperandTraits<CLASS>::op_begin( \
     const_cast<CLASS*>(this))[Idx_nocapture]; \
 }


 } // End llvm namespace

 #endif
	//===-- llvm/OperandTraits.h - OperandTraits class definition ---- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines the traits classes that are handy for enforcing the correct
	// layout of various User subclasses. It also provides the means for accessing
	// the operands in the most efficient manner.
	//

	#ifndef LLVM_OPERAND_TRAITS_H
	#define LLVM_OPERAND_TRAITS_H

	#include "llvm/User.h"

	namespace llvm {

	//===----------------------------------------------------------------------===//
	// FixedNumOperands Trait Class
	//===----------------------------------------------------------------------===//

	/// FixedNumOperandTraits - determine the allocation regime of the Use array
	/// when it is a prefix to the User object, and the number of Use objects is
	/// known at compile time.

	template <unsigned ARITY>
	struct FixedNumOperandTraits {
	static Use op_begin(User U) {
	return reinterpret_cast<Use*>(U) - ARITY;
	}
	static Use op_end(User U) {
	return reinterpret_cast<Use*>(U);
	}
	static unsigned operands(const User*) {
	return ARITY;
	}
	struct prefix {
	Use Ops[ARITY];
	prefix(); // DO NOT IMPLEMENT
	};
	template <class U>
	struct Layout {
	struct overlay : prefix, U {
	overlay(); // DO NOT IMPLEMENT
	};
	};
	static inline void *allocate(unsigned); // FIXME
	};

	//===----------------------------------------------------------------------===//
	// OptionalOperands Trait Class
	//===----------------------------------------------------------------------===//

	template <unsigned ARITY = 1>
	struct OptionalOperandTraits : FixedNumOperandTraits<ARITY> {
	static unsigned operands(const User *U) {
	return U->getNumOperands();
	}
	};

	//===----------------------------------------------------------------------===//
	// VariadicOperand Trait Class
	//===----------------------------------------------------------------------===//

	/// VariadicOperandTraits - determine the allocation regime of the Use array
	/// when it is a prefix to the User object, and the number of Use objects is
	/// only known at allocation time.

	template <unsigned MINARITY = 0>
	struct VariadicOperandTraits {
	static Use op_begin(User U) {
	return reinterpret_cast<Use*>(U) - U->getNumOperands();
	}
	static Use op_end(User U) {
	return reinterpret_cast<Use*>(U);
	}
	static unsigned operands(const User *U) {
	return U->getNumOperands();
	}
	static inline void *allocate(unsigned); // FIXME
	};

	//===----------------------------------------------------------------------===//
	// HungoffOperand Trait Class
	//===----------------------------------------------------------------------===//

	/// HungoffOperandTraits - determine the allocation regime of the Use array
	/// when it is not a prefix to the User object, but allocated at an unrelated
	/// heap address.
	/// Assumes that the User subclass that is determined by this traits class
	/// has an OperandList member of type User::op_iterator. [Note: this is now
	/// trivially satisfied, because User has that member for historic reasons.]
	///
	/// This is the traits class that is needed when the Use array must be
	/// resizable.

	template <unsigned MINARITY = 1>
	struct HungoffOperandTraits {
	static Use op_begin(User U) {
	return U->OperandList;
	}
	static Use op_end(User U) {
	return U->OperandList + U->getNumOperands();
	}
	static unsigned operands(const User *U) {
	return U->getNumOperands();
	}
	static inline void *allocate(unsigned); // FIXME
	};

	/// Macro for generating in-class operand accessor declarations.
	/// It should only be called in the public section of the interface.
	///
	#define DECLARE_TRANSPARENT_OPERAND_ACCESSORS(VALUECLASS) \
	public: \
	inline VALUECLASS *getOperand(unsigned) const; \
	inline void setOperand(unsigned, VALUECLASS*); \
	protected: \
	template <unsigned> inline Use &Op(); \
	template <unsigned> inline const Use &Op() const; \
	public: \
	inline unsigned getNumOperands() const

	/// Macro for generating out-of-class operand accessor definitions
	#define DEFINE_TRANSPARENT_OPERAND_ACCESSORS(CLASS, VALUECLASS) \
	VALUECLASS *CLASS::getOperand(unsigned i_nocapture) const { \
	assert(i_nocapture < OperandTraits<CLASS>::operands(this) \
	&& "getOperand() out of range!"); \
	return static_cast<VALUECLASS*>( \
	OperandTraits<CLASS>::op_begin(const_cast<CLASS*>(this))[i_nocapture]); \
	} \
	void CLASS::setOperand(unsigned i_nocapture, VALUECLASS *Val_nocapture) { \
	assert(i_nocapture < OperandTraits<CLASS>::operands(this) \
	&& "setOperand() out of range!"); \
	OperandTraits<CLASS>::op_begin(this)[i_nocapture] = Val_nocapture; \
	} \
	unsigned CLASS::getNumOperands() const { \
	return OperandTraits<CLASS>::operands(this); \
	} \
	template <unsigned Idx_nocapture> Use &CLASS::Op() { \
	return OperandTraits<CLASS>::op_begin(this)[Idx_nocapture]; \
	} \
	template <unsigned Idx_nocapture> const Use &CLASS::Op() const { \
	return OperandTraits<CLASS>::op_begin( \
	const_cast<CLASS*>(this))[Idx_nocapture]; \
	}


	/// Macro for generating out-of-class operand accessor
	/// definitions with casted result
	#define DEFINE_TRANSPARENT_CASTED_OPERAND_ACCESSORS(CLASS, VALUECLASS) \
	VALUECLASS *CLASS::getOperand(unsigned i_nocapture) const { \
	assert(i_nocapture < OperandTraits<CLASS>::operands(this) \
	&& "getOperand() out of range!"); \
	return cast<VALUECLASS>( \
	OperandTraits<CLASS>::op_begin(const_cast<CLASS*>(this))[i_nocapture]); \
	} \
	void CLASS::setOperand(unsigned i_nocapture, VALUECLASS *Val_nocapture) { \
	assert(i_nocapture < OperandTraits<CLASS>::operands(this) \
	&& "setOperand() out of range!"); \
	OperandTraits<CLASS>::op_begin(this)[i_nocapture] = Val_nocapture; \
	} \
	unsigned CLASS::getNumOperands() const { \
	return OperandTraits<CLASS>::operands(this); \
	} \
	template <unsigned Idx_nocapture> Use &CLASS::Op() { \
	return OperandTraits<CLASS>::op_begin(this)[Idx_nocapture]; \
	} \
	template <unsigned Idx_nocapture> const Use &CLASS::Op() const { \
	return OperandTraits<CLASS>::op_begin( \
	const_cast<CLASS*>(this))[Idx_nocapture]; \
	}


	} // End llvm namespace

	#endif