include/clang/Basic/ABI.h - third_party/swift-clang - Git at Google

 //===----- ABI.h - ABI related declarations ---------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 ///
 /// \file
 /// \brief Enums/classes describing ABI related information about constructors,
 /// destructors and thunks.
 ///
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_BASIC_ABI_H
 #define LLVM_CLANG_BASIC_ABI_H

 #include "llvm/Support/DataTypes.h"
 #include <cstring>

 namespace clang {

 /// \brief C++ constructor types.
 enum CXXCtorType {
   Ctor_Complete,       ///< Complete object ctor
   Ctor_Base,           ///< Base object ctor
   Ctor_Comdat,         ///< The COMDAT used for ctors
   Ctor_CopyingClosure, ///< Copying closure variant of a ctor
   Ctor_DefaultClosure, ///< Default closure variant of a ctor
 };

 /// \brief C++ destructor types.
 enum CXXDtorType {
     Dtor_Deleting, ///< Deleting dtor
     Dtor_Complete, ///< Complete object dtor
     Dtor_Base,     ///< Base object dtor
     Dtor_Comdat    ///< The COMDAT used for dtors
 };

 /// \brief A return adjustment.
 struct ReturnAdjustment {
   /// \brief The non-virtual adjustment from the derived object to its
   /// nearest virtual base.
   int64_t NonVirtual;

   /// \brief Holds the ABI-specific information about the virtual return
   /// adjustment, if needed.
   union VirtualAdjustment {
     // Itanium ABI
     struct {
       /// \brief The offset (in bytes), relative to the address point
       /// of the virtual base class offset.
       int64_t VBaseOffsetOffset;
     } Itanium;

     // Microsoft ABI
     struct {
       /// \brief The offset (in bytes) of the vbptr, relative to the beginning
       /// of the derived class.
       uint32_t VBPtrOffset;

       /// \brief Index of the virtual base in the vbtable.
       uint32_t VBIndex;
     } Microsoft;

     VirtualAdjustment() {
       memset(this, 0, sizeof(*this));
     }

     bool Equals(const VirtualAdjustment &Other) const {
       return memcmp(this, &Other, sizeof(Other)) == 0;
     }

     bool isEmpty() const {
       VirtualAdjustment Zero;
       return Equals(Zero);
     }

     bool Less(const VirtualAdjustment &RHS) const {
       return memcmp(this, &RHS, sizeof(RHS)) < 0;
     }
   } Virtual;

   ReturnAdjustment() : NonVirtual(0) {}

   bool isEmpty() const { return !NonVirtual && Virtual.isEmpty(); }

   friend bool operator==(const ReturnAdjustment &LHS,
                          const ReturnAdjustment &RHS) {
     return LHS.NonVirtual == RHS.NonVirtual && LHS.Virtual.Equals(RHS.Virtual);
   }

   friend bool operator!=(const ReturnAdjustment &LHS, const ReturnAdjustment &RHS) {
     return !(LHS == RHS);
   }

   friend bool operator<(const ReturnAdjustment &LHS,
                         const ReturnAdjustment &RHS) {
     if (LHS.NonVirtual < RHS.NonVirtual)
       return true;

     return LHS.NonVirtual == RHS.NonVirtual && LHS.Virtual.Less(RHS.Virtual);
   }
 };

 /// \brief A \c this pointer adjustment.
 struct ThisAdjustment {
   /// \brief The non-virtual adjustment from the derived object to its
   /// nearest virtual base.
   int64_t NonVirtual;

   /// \brief Holds the ABI-specific information about the virtual this
   /// adjustment, if needed.
   union VirtualAdjustment {
     // Itanium ABI
     struct {
       /// \brief The offset (in bytes), relative to the address point,
       /// of the virtual call offset.
       int64_t VCallOffsetOffset;
     } Itanium;

     struct {
       /// \brief The offset of the vtordisp (in bytes), relative to the ECX.
       int32_t VtordispOffset;

       /// \brief The offset of the vbptr of the derived class (in bytes),
       /// relative to the ECX after vtordisp adjustment.
       int32_t VBPtrOffset;

       /// \brief The offset (in bytes) of the vbase offset in the vbtable.
       int32_t VBOffsetOffset;
     } Microsoft;

     VirtualAdjustment() {
       memset(this, 0, sizeof(*this));
     }

     bool Equals(const VirtualAdjustment &Other) const {
       return memcmp(this, &Other, sizeof(Other)) == 0;
     }

     bool isEmpty() const {
       VirtualAdjustment Zero;
       return Equals(Zero);
     }

     bool Less(const VirtualAdjustment &RHS) const {
       return memcmp(this, &RHS, sizeof(RHS)) < 0;
     }
   } Virtual;

   ThisAdjustment() : NonVirtual(0) { }

   bool isEmpty() const { return !NonVirtual && Virtual.isEmpty(); }

   friend bool operator==(const ThisAdjustment &LHS,
                          const ThisAdjustment &RHS) {
     return LHS.NonVirtual == RHS.NonVirtual && LHS.Virtual.Equals(RHS.Virtual);
   }

   friend bool operator!=(const ThisAdjustment &LHS, const ThisAdjustment &RHS) {
     return !(LHS == RHS);
   }

   friend bool operator<(const ThisAdjustment &LHS,
                         const ThisAdjustment &RHS) {
     if (LHS.NonVirtual < RHS.NonVirtual)
       return true;

     return LHS.NonVirtual == RHS.NonVirtual && LHS.Virtual.Less(RHS.Virtual);
   }
 };

 class CXXMethodDecl;

 /// \brief The \c this pointer adjustment as well as an optional return
 /// adjustment for a thunk.
 struct ThunkInfo {
   /// \brief The \c this pointer adjustment.
   ThisAdjustment This;

   /// \brief The return adjustment.
   ReturnAdjustment Return;

   /// \brief Holds a pointer to the overridden method this thunk is for,
   /// if needed by the ABI to distinguish different thunks with equal
   /// adjustments. Otherwise, null.
   /// CAUTION: In the unlikely event you need to sort ThunkInfos, consider using
   /// an ABI-specific comparator.
   const CXXMethodDecl *Method;

   ThunkInfo() : Method(nullptr) { }

   ThunkInfo(const ThisAdjustment &This, const ReturnAdjustment &Return,
             const CXXMethodDecl *Method = nullptr)
       : This(This), Return(Return), Method(Method) {}

   friend bool operator==(const ThunkInfo &LHS, const ThunkInfo &RHS) {
     return LHS.This == RHS.This && LHS.Return == RHS.Return &&
            LHS.Method == RHS.Method;
   }

   bool isEmpty() const {
     return This.isEmpty() && Return.isEmpty() && Method == nullptr;
   }
 };

 } // end namespace clang

 #endif
	//===----- ABI.h - ABI related declarations ---------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	///
	/// \file
	/// \brief Enums/classes describing ABI related information about constructors,
	/// destructors and thunks.
	///
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_BASIC_ABI_H
	#define LLVM_CLANG_BASIC_ABI_H

	#include "llvm/Support/DataTypes.h"
	#include <cstring>

	namespace clang {

	/// \brief C++ constructor types.
	enum CXXCtorType {
	Ctor_Complete, ///< Complete object ctor
	Ctor_Base, ///< Base object ctor
	Ctor_Comdat, ///< The COMDAT used for ctors
	Ctor_CopyingClosure, ///< Copying closure variant of a ctor
	Ctor_DefaultClosure, ///< Default closure variant of a ctor
	};

	/// \brief C++ destructor types.
	enum CXXDtorType {
	Dtor_Deleting, ///< Deleting dtor
	Dtor_Complete, ///< Complete object dtor
	Dtor_Base, ///< Base object dtor
	Dtor_Comdat ///< The COMDAT used for dtors
	};

	/// \brief A return adjustment.
	struct ReturnAdjustment {
	/// \brief The non-virtual adjustment from the derived object to its
	/// nearest virtual base.
	int64_t NonVirtual;

	/// \brief Holds the ABI-specific information about the virtual return
	/// adjustment, if needed.
	union VirtualAdjustment {
	// Itanium ABI
	struct {
	/// \brief The offset (in bytes), relative to the address point
	/// of the virtual base class offset.
	int64_t VBaseOffsetOffset;
	} Itanium;

	// Microsoft ABI
	struct {
	/// \brief The offset (in bytes) of the vbptr, relative to the beginning
	/// of the derived class.
	uint32_t VBPtrOffset;

	/// \brief Index of the virtual base in the vbtable.
	uint32_t VBIndex;
	} Microsoft;

	VirtualAdjustment() {
	memset(this, 0, sizeof(*this));
	}

	bool Equals(const VirtualAdjustment &Other) const {
	return memcmp(this, &Other, sizeof(Other)) == 0;
	}

	bool isEmpty() const {
	VirtualAdjustment Zero;
	return Equals(Zero);
	}

	bool Less(const VirtualAdjustment &RHS) const {
	return memcmp(this, &RHS, sizeof(RHS)) < 0;
	}
	} Virtual;

	ReturnAdjustment() : NonVirtual(0) {}

	bool isEmpty() const { return !NonVirtual && Virtual.isEmpty(); }

	friend bool operator==(const ReturnAdjustment &LHS,
	const ReturnAdjustment &RHS) {
	return LHS.NonVirtual == RHS.NonVirtual && LHS.Virtual.Equals(RHS.Virtual);
	}

	friend bool operator!=(const ReturnAdjustment &LHS, const ReturnAdjustment &RHS) {
	return !(LHS == RHS);
	}

	friend bool operator<(const ReturnAdjustment &LHS,
	const ReturnAdjustment &RHS) {
	if (LHS.NonVirtual < RHS.NonVirtual)
	return true;

	return LHS.NonVirtual == RHS.NonVirtual && LHS.Virtual.Less(RHS.Virtual);
	}
	};

	/// \brief A \c this pointer adjustment.
	struct ThisAdjustment {
	/// \brief The non-virtual adjustment from the derived object to its
	/// nearest virtual base.
	int64_t NonVirtual;

	/// \brief Holds the ABI-specific information about the virtual this
	/// adjustment, if needed.
	union VirtualAdjustment {
	// Itanium ABI
	struct {
	/// \brief The offset (in bytes), relative to the address point,
	/// of the virtual call offset.
	int64_t VCallOffsetOffset;
	} Itanium;

	struct {
	/// \brief The offset of the vtordisp (in bytes), relative to the ECX.
	int32_t VtordispOffset;

	/// \brief The offset of the vbptr of the derived class (in bytes),
	/// relative to the ECX after vtordisp adjustment.
	int32_t VBPtrOffset;

	/// \brief The offset (in bytes) of the vbase offset in the vbtable.
	int32_t VBOffsetOffset;
	} Microsoft;

	VirtualAdjustment() {
	memset(this, 0, sizeof(*this));
	}

	bool Equals(const VirtualAdjustment &Other) const {
	return memcmp(this, &Other, sizeof(Other)) == 0;
	}

	bool isEmpty() const {
	VirtualAdjustment Zero;
	return Equals(Zero);
	}

	bool Less(const VirtualAdjustment &RHS) const {
	return memcmp(this, &RHS, sizeof(RHS)) < 0;
	}
	} Virtual;

	ThisAdjustment() : NonVirtual(0) { }

	bool isEmpty() const { return !NonVirtual && Virtual.isEmpty(); }

	friend bool operator==(const ThisAdjustment &LHS,
	const ThisAdjustment &RHS) {
	return LHS.NonVirtual == RHS.NonVirtual && LHS.Virtual.Equals(RHS.Virtual);
	}

	friend bool operator!=(const ThisAdjustment &LHS, const ThisAdjustment &RHS) {
	return !(LHS == RHS);
	}

	friend bool operator<(const ThisAdjustment &LHS,
	const ThisAdjustment &RHS) {
	if (LHS.NonVirtual < RHS.NonVirtual)
	return true;

	return LHS.NonVirtual == RHS.NonVirtual && LHS.Virtual.Less(RHS.Virtual);
	}
	};

	class CXXMethodDecl;

	/// \brief The \c this pointer adjustment as well as an optional return
	/// adjustment for a thunk.
	struct ThunkInfo {
	/// \brief The \c this pointer adjustment.
	ThisAdjustment This;

	/// \brief The return adjustment.
	ReturnAdjustment Return;

	/// \brief Holds a pointer to the overridden method this thunk is for,
	/// if needed by the ABI to distinguish different thunks with equal
	/// adjustments. Otherwise, null.
	/// CAUTION: In the unlikely event you need to sort ThunkInfos, consider using
	/// an ABI-specific comparator.
	const CXXMethodDecl *Method;

	ThunkInfo() : Method(nullptr) { }

	ThunkInfo(const ThisAdjustment &This, const ReturnAdjustment &Return,
	const CXXMethodDecl *Method = nullptr)
	: This(This), Return(Return), Method(Method) {}

	friend bool operator==(const ThunkInfo &LHS, const ThunkInfo &RHS) {
	return LHS.This == RHS.This && LHS.Return == RHS.Return &&
	LHS.Method == RHS.Method;
	}

	bool isEmpty() const {
	return This.isEmpty() && Return.isEmpty() && Method == nullptr;
	}
	};

	} // end namespace clang

	#endif