third_party/subzero/src/IceFixups.h - SwiftShader - Git at Google

 //===- subzero/src/IceFixups.h - Assembler fixup kinds ----------*- C++ -*-===//
 //
 //                        The Subzero Code Generator
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 ///
 /// \file
 /// \brief Declares generic fixup types.
 ///
 //===----------------------------------------------------------------------===//

 #ifndef SUBZERO_SRC_ICEFIXUPS_H
 #define SUBZERO_SRC_ICEFIXUPS_H

 #include "IceClFlags.h"
 #include "IceDefs.h"
 #include "IceStringPool.h"

 namespace Ice {

 /// Each target and container format has a different namespace of relocations.
 /// This holds the specific target+container format's relocation number.
 using FixupKind = uint32_t;

 struct ELFSym;

 /// Assembler fixups are positions in generated code/data that hold relocation
 /// information that needs to be processed before finalizing the code/data.
 class AssemblerFixup {
   AssemblerFixup &operator=(const AssemblerFixup &) = delete;

 public:
   AssemblerFixup() = default;
   AssemblerFixup(const AssemblerFixup &) = default;
   virtual ~AssemblerFixup() = default;
   intptr_t position() const { return position_; }
   void set_position(intptr_t Position) { position_ = Position; }

   FixupKind kind() const { return kind_; }
   void set_kind(FixupKind Kind) { kind_ = Kind; }

   RelocOffsetT offset() const;
   GlobalString symbol() const;

   static const Constant *NullSymbol;
   bool isNullSymbol() const { return ConstValue == NullSymbol; }

   static constexpr AssemblerFixup *NoFixup = nullptr;

   bool valueIsSymbol() const { return ValueIsSymbol; }
   void set_value(const Constant *Value) {
     ValueIsSymbol = false;
     ConstValue = Value;
   }
   void set_value(const ELFSym *Value) {
     ValueIsSymbol = true;
     SymbolValue = Value;
   }
   const ELFSym *getSymbolValue() const {
     assert(ValueIsSymbol);
     return SymbolValue;
   }

   void set_addend(RelocOffsetT Addend) { addend_ = Addend; }
   RelocOffsetT get_addend() const { return addend_; }

   /// Emits fixup, then returns the number of bytes to skip.
   virtual size_t emit(GlobalContext *Ctx, const Assembler &Asm) const;

   /// Emits offset() (little endian) in position_. If your fixup requires
   /// something smarter, you must create your own fixup type.
   virtual void emitOffset(Assembler *Asm) const;

 private:
   intptr_t position_ = 0;
   FixupKind kind_ = 0;
   // An offset addend to the fixup offset (as returned by offset()), in case the
   // assembler needs to adjust it.
   RelocOffsetT addend_ = 0;

   // Tagged union that holds either a Constant or ELFSym pointer, depending on
   // the ValueIsSymbol tag.
   bool ValueIsSymbol = false;
   union {
     const Constant *ConstValue;
     const ELFSym *SymbolValue;
   };
 };

 /// Extends a fixup to be textual. That is, it emits text instead of a sequence
 /// of bytes. This class is used as a fallback for unimplemented emitIAS
 /// methods, allowing them to generate compilable assembly code.
 class AssemblerTextFixup : public AssemblerFixup {
   AssemblerTextFixup() = delete;
   AssemblerTextFixup(const AssemblerTextFixup &) = delete;
   AssemblerTextFixup &operator=(const AssemblerTextFixup &) = delete;

 public:
   AssemblerTextFixup(const std::string &Message, size_t NumBytes)
       : AssemblerFixup(), Message(Message), NumBytes(NumBytes) {}
   ~AssemblerTextFixup() = default;
   size_t emit(GlobalContext *Ctx, const Assembler &Asm) const override;

 private:
   const std::string Message;
   const size_t NumBytes;
 };

 using FixupList = std::vector<AssemblerFixup>;
 using FixupRefList = std::vector<AssemblerFixup *>;

 } // end of namespace Ice

 #endif // SUBZERO_SRC_ICEFIXUPS_H
	//===- subzero/src/IceFixups.h - Assembler fixup kinds ----------- C++ --===//
	//
	// The Subzero Code Generator
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	///
	/// \file
	/// \brief Declares generic fixup types.
	///
	//===----------------------------------------------------------------------===//

	#ifndef SUBZERO_SRC_ICEFIXUPS_H
	#define SUBZERO_SRC_ICEFIXUPS_H

	#include "IceClFlags.h"
	#include "IceDefs.h"
	#include "IceStringPool.h"

	namespace Ice {

	/// Each target and container format has a different namespace of relocations.
	/// This holds the specific target+container format's relocation number.
	using FixupKind = uint32_t;

	struct ELFSym;

	/// Assembler fixups are positions in generated code/data that hold relocation
	/// information that needs to be processed before finalizing the code/data.
	class AssemblerFixup {
	AssemblerFixup &operator=(const AssemblerFixup &) = delete;

	public:
	AssemblerFixup() = default;
	AssemblerFixup(const AssemblerFixup &) = default;
	virtual ~AssemblerFixup() = default;
	intptr_t position() const { return position_; }
	void set_position(intptr_t Position) { position_ = Position; }

	FixupKind kind() const { return kind_; }
	void set_kind(FixupKind Kind) { kind_ = Kind; }

	RelocOffsetT offset() const;
	GlobalString symbol() const;

	static const Constant *NullSymbol;
	bool isNullSymbol() const { return ConstValue == NullSymbol; }

	static constexpr AssemblerFixup *NoFixup = nullptr;

	bool valueIsSymbol() const { return ValueIsSymbol; }
	void set_value(const Constant *Value) {
	ValueIsSymbol = false;
	ConstValue = Value;
	}
	void set_value(const ELFSym *Value) {
	ValueIsSymbol = true;
	SymbolValue = Value;
	}
	const ELFSym *getSymbolValue() const {
	assert(ValueIsSymbol);
	return SymbolValue;
	}

	void set_addend(RelocOffsetT Addend) { addend_ = Addend; }
	RelocOffsetT get_addend() const { return addend_; }

	/// Emits fixup, then returns the number of bytes to skip.
	virtual size_t emit(GlobalContext *Ctx, const Assembler &Asm) const;

	/// Emits offset() (little endian) in position_. If your fixup requires
	/// something smarter, you must create your own fixup type.
	virtual void emitOffset(Assembler *Asm) const;

	private:
	intptr_t position_ = 0;
	FixupKind kind_ = 0;
	// An offset addend to the fixup offset (as returned by offset()), in case the
	// assembler needs to adjust it.
	RelocOffsetT addend_ = 0;

	// Tagged union that holds either a Constant or ELFSym pointer, depending on
	// the ValueIsSymbol tag.
	bool ValueIsSymbol = false;
	union {
	const Constant *ConstValue;
	const ELFSym *SymbolValue;
	};
	};

	/// Extends a fixup to be textual. That is, it emits text instead of a sequence
	/// of bytes. This class is used as a fallback for unimplemented emitIAS
	/// methods, allowing them to generate compilable assembly code.
	class AssemblerTextFixup : public AssemblerFixup {
	AssemblerTextFixup() = delete;
	AssemblerTextFixup(const AssemblerTextFixup &) = delete;
	AssemblerTextFixup &operator=(const AssemblerTextFixup &) = delete;

	public:
	AssemblerTextFixup(const std::string &Message, size_t NumBytes)
	: AssemblerFixup(), Message(Message), NumBytes(NumBytes) {}
	~AssemblerTextFixup() = default;
	size_t emit(GlobalContext *Ctx, const Assembler &Asm) const override;

	private:
	const std::string Message;
	const size_t NumBytes;
	};

	using FixupList = std::vector<AssemblerFixup>;
	using FixupRefList = std::vector<AssemblerFixup *>;

	} // end of namespace Ice

	#endif // SUBZERO_SRC_ICEFIXUPS_H