src/IceGlobalInits.h - SwiftShader - Git at Google

 //===- subzero/src/IceGlobalInits.h - Global declarations -------*- C++ -*-===//
 //
 //                        The Subzero Code Generator
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file declares the representation of function declarations,
 // global variable declarations, and the corresponding variable
 // initializers in Subzero. Global variable initializers are
 // represented as a sequence of simple initializers.
 //
 //===----------------------------------------------------------------------===//

 #ifndef SUBZERO_SRC_ICEGLOBALINITS_H
 #define SUBZERO_SRC_ICEGLOBALINITS_H

 #include "llvm/IR/CallingConv.h"
 #include "llvm/IR/GlobalValue.h" // for GlobalValue::LinkageTypes

 #include "IceDefs.h"
 #include "IceTypes.h"

 // TODO(kschimpf): Remove ourselves from using LLVM representation for calling
 // conventions and linkage types.

 namespace Ice {

 /// Base class for global variable and function declarations.
 class GlobalDeclaration {
   GlobalDeclaration() = delete;
   GlobalDeclaration(const GlobalDeclaration &) = delete;
   GlobalDeclaration &operator=(const GlobalDeclaration &) = delete;

 public:
   /// Discriminator for LLVM-style RTTI.
   enum GlobalDeclarationKind {
     FunctionDeclarationKind,
     VariableDeclarationKind
   };
   GlobalDeclarationKind getKind() const { return Kind; }
   const IceString &getName() const { return Name; }
   void setName(const IceString &NewName) { Name = NewName; }
   bool hasName() const { return !Name.empty(); }
   bool isInternal() const {
     return Linkage == llvm::GlobalValue::InternalLinkage;
   }
   llvm::GlobalValue::LinkageTypes getLinkage() const { return Linkage; }
   bool isExternal() const {
     return Linkage == llvm::GlobalValue::ExternalLinkage;
   }
   void setLinkage(llvm::GlobalValue::LinkageTypes NewLinkage) {
     Linkage = NewLinkage;
   }
   virtual ~GlobalDeclaration() {}

   /// Prints out type of the global declaration.
   virtual void dumpType(Ostream &Stream) const = 0;

   /// Prints out the global declaration.
   virtual void dump(GlobalContext *Ctx, Ostream &Stream) const = 0;
   void dump(Ostream &Stream) const {
     if (!ALLOW_DUMP)
       return;
     GlobalContext *const Ctx = nullptr;
     dump(Ctx, Stream);
   }

   /// Returns true if when emitting names, we should suppress mangling.
   virtual bool getSuppressMangling() const = 0;

   // Mangles name for cross tests, unless external and not defined locally
   // (so that relocations accross pnacl-sz and pnacl-llc will work).
   virtual IceString mangleName(GlobalContext *Ctx) const {
     return getSuppressMangling() ? Name : Ctx->mangleName(Name);
   }

 protected:
   GlobalDeclaration(GlobalDeclarationKind Kind,
                     llvm::GlobalValue::LinkageTypes Linkage)
       : Kind(Kind), Linkage(Linkage) {}

   const GlobalDeclarationKind Kind;
   IceString Name;
   llvm::GlobalValue::LinkageTypes Linkage;
 };

 // Models a function declaration. This includes the type signature of
 // the function, its calling conventions, and its linkage.
 class FunctionDeclaration : public GlobalDeclaration {
   FunctionDeclaration() = delete;
   FunctionDeclaration(const FunctionDeclaration &) = delete;
   FunctionDeclaration &operator=(const FunctionDeclaration &) = delete;

 public:
   static FunctionDeclaration *create(const FuncSigType &Signature,
                                      llvm::CallingConv::ID CallingConv,
                                      llvm::GlobalValue::LinkageTypes Linkage,
                                      bool IsProto);
   ~FunctionDeclaration() final {}
   const FuncSigType &getSignature() const { return Signature; }
   llvm::CallingConv::ID getCallingConv() const { return CallingConv; }
   // isProto implies that there isn't a (local) definition for the function.
   bool isProto() const { return IsProto; }
   static bool classof(const GlobalDeclaration *Addr) {
     return Addr->getKind() == FunctionDeclarationKind;
   }
   void dumpType(Ostream &Stream) const final;
   void dump(GlobalContext *Ctx, Ostream &Stream) const final;
   bool getSuppressMangling() const final { return isExternal() && IsProto; }

 private:
   const Ice::FuncSigType Signature;
   llvm::CallingConv::ID CallingConv;
   bool IsProto;

   FunctionDeclaration(const FuncSigType &Signature,
                       llvm::CallingConv::ID CallingConv,
                       llvm::GlobalValue::LinkageTypes Linkage, bool IsProto)
       : GlobalDeclaration(FunctionDeclarationKind, Linkage),
         Signature(Signature), CallingConv(CallingConv), IsProto(IsProto) {}
 };

 /// Models a global variable declaration, and its initializers.
 class VariableDeclaration : public GlobalDeclaration {
   VariableDeclaration(const VariableDeclaration &) = delete;
   VariableDeclaration &operator=(const VariableDeclaration &) = delete;

 public:
   /// Base class for a global variable initializer.
   class Initializer {
     Initializer(const Initializer &) = delete;
     Initializer &operator=(const Initializer &) = delete;

   public:
     /// Discriminator for LLVM-style RTTI.
     enum InitializerKind {
       DataInitializerKind,
       ZeroInitializerKind,
       RelocInitializerKind
     };
     InitializerKind getKind() const { return Kind; }
     virtual ~Initializer() {}
     virtual SizeT getNumBytes() const = 0;
     virtual void dump(GlobalContext *Ctx, Ostream &Stream) const = 0;
     void dump(Ostream &Stream) const {
       if (ALLOW_DUMP)
         dump(nullptr, Stream);
     }
     virtual void dumpType(Ostream &Stream) const;

   protected:
     explicit Initializer(InitializerKind Kind) : Kind(Kind) {}

   private:
     const InitializerKind Kind;
   };

   // Models the data in a data initializer.
   typedef std::vector<char> DataVecType;

   /// Defines a sequence of byte values as a data initializer.
   class DataInitializer : public Initializer {
     DataInitializer(const DataInitializer &) = delete;
     DataInitializer &operator=(const DataInitializer &) = delete;

   public:
     template <class IntContainer>
     DataInitializer(const IntContainer &Values)
         : Initializer(DataInitializerKind), Contents(Values.size()) {
       size_t i = 0;
       for (auto &V : Values) {
         Contents[i] = static_cast<int8_t>(V);
         ++i;
       }
     }
     DataInitializer(const char *Str, size_t StrLen)
         : Initializer(DataInitializerKind), Contents(StrLen) {
       for (size_t i = 0; i < StrLen; ++i)
         Contents[i] = Str[i];
     }
     ~DataInitializer() override {}
     const DataVecType &getContents() const { return Contents; }
     SizeT getNumBytes() const final { return Contents.size(); }
     void dump(GlobalContext *Ctx, Ostream &Stream) const final;
     static bool classof(const Initializer *D) {
       return D->getKind() == DataInitializerKind;
     }

   private:
     // The byte contents of the data initializer.
     DataVecType Contents;
   };

   /// Defines a sequence of bytes initialized to zero.
   class ZeroInitializer : public Initializer {
     ZeroInitializer(const ZeroInitializer &) = delete;
     ZeroInitializer &operator=(const ZeroInitializer &) = delete;

   public:
     explicit ZeroInitializer(SizeT Size)
         : Initializer(ZeroInitializerKind), Size(Size) {}
     ~ZeroInitializer() override {}
     SizeT getNumBytes() const final { return Size; }
     void dump(GlobalContext *Ctx, Ostream &Stream) const final;
     static bool classof(const Initializer *Z) {
       return Z->getKind() == ZeroInitializerKind;
     }

   private:
     // The number of bytes to be zero initialized.
     SizeT Size;
   };

   /// Defines the relocation value of another global declaration.
   class RelocInitializer : public Initializer {
     RelocInitializer(const RelocInitializer &) = delete;
     RelocInitializer &operator=(const RelocInitializer &) = delete;

   public:
     RelocInitializer(const GlobalDeclaration *Declaration, RelocOffsetT Offset)
         : Initializer(RelocInitializerKind), Declaration(Declaration),
           Offset(Offset) {}
     ~RelocInitializer() override {}
     RelocOffsetT getOffset() const { return Offset; }
     const GlobalDeclaration *getDeclaration() const { return Declaration; }
     SizeT getNumBytes() const final { return RelocAddrSize; }
     void dump(GlobalContext *Ctx, Ostream &Stream) const final;
     void dumpType(Ostream &Stream) const final;
     static bool classof(const Initializer *R) {
       return R->getKind() == RelocInitializerKind;
     }

   private:
     // The global declaration used in the relocation.
     const GlobalDeclaration *Declaration;
     // The offset to add to the relocation.
     const RelocOffsetT Offset;
   };

   /// Models the list of initializers.
   typedef std::vector<Initializer *> InitializerListType;

   static VariableDeclaration *create();
   ~VariableDeclaration() final;

   const InitializerListType &getInitializers() const { return Initializers; }
   bool getIsConstant() const { return IsConstant; }
   void setIsConstant(bool NewValue) { IsConstant = NewValue; }
   uint32_t getAlignment() const { return Alignment; }
   void setAlignment(uint32_t NewAlignment) { Alignment = NewAlignment; }
   bool hasInitializer() const { return !Initializers.empty(); }
   bool hasNonzeroInitializer() const {
     return !(Initializers.size() == 1 &&
              llvm::isa<ZeroInitializer>(Initializers[0]));
   }

   /// Returns the number of bytes for the initializer of the global
   /// address.
   SizeT getNumBytes() const {
     SizeT Count = 0;
     for (Initializer *Init : Initializers) {
       Count += Init->getNumBytes();
     }
     return Count;
   }

   /// Adds Initializer to the list of initializers. Takes ownership of
   /// the initializer.
   void addInitializer(Initializer *Initializer) {
     Initializers.push_back(Initializer);
   }

   /// Prints out type for initializer associated with the declaration
   /// to Stream.
   void dumpType(Ostream &Stream) const final;

   /// Prints out the definition of the global variable declaration
   /// (including initialization).
   void dump(GlobalContext *Ctx, Ostream &Stream) const final;

   static bool classof(const GlobalDeclaration *Addr) {
     return Addr->getKind() == VariableDeclarationKind;
   }

   bool getSuppressMangling() const final {
     return isExternal() && !hasInitializer();
   }

 private:
   // list of initializers for the declared variable.
   InitializerListType Initializers;
   // The alignment of the declared variable.
   uint32_t Alignment;
   // True if a declared (global) constant.
   bool IsConstant;

   VariableDeclaration()
       : GlobalDeclaration(VariableDeclarationKind,
                           llvm::GlobalValue::InternalLinkage),
         Alignment(0), IsConstant(false) {}
 };

 template <class StreamType>
 inline StreamType &operator<<(StreamType &Stream,
                               const VariableDeclaration::Initializer &Init) {
   Init.dump(Stream);
   return Stream;
 }

 template <class StreamType>
 inline StreamType &operator<<(StreamType &Stream,
                               const GlobalDeclaration &Addr) {
   Addr.dump(Stream);
   return Stream;
 }

 } // end of namespace Ice

 #endif // SUBZERO_SRC_ICEGLOBALINITS_H
	//===- subzero/src/IceGlobalInits.h - Global declarations -------- C++ --===//
	//
	// The Subzero Code Generator
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file declares the representation of function declarations,
	// global variable declarations, and the corresponding variable
	// initializers in Subzero. Global variable initializers are
	// represented as a sequence of simple initializers.
	//
	//===----------------------------------------------------------------------===//

	#ifndef SUBZERO_SRC_ICEGLOBALINITS_H
	#define SUBZERO_SRC_ICEGLOBALINITS_H

	#include "llvm/IR/CallingConv.h"
	#include "llvm/IR/GlobalValue.h" // for GlobalValue::LinkageTypes

	#include "IceDefs.h"
	#include "IceTypes.h"

	// TODO(kschimpf): Remove ourselves from using LLVM representation for calling
	// conventions and linkage types.

	namespace Ice {

	/// Base class for global variable and function declarations.
	class GlobalDeclaration {
	GlobalDeclaration() = delete;
	GlobalDeclaration(const GlobalDeclaration &) = delete;
	GlobalDeclaration &operator=(const GlobalDeclaration &) = delete;

	public:
	/// Discriminator for LLVM-style RTTI.
	enum GlobalDeclarationKind {
	FunctionDeclarationKind,
	VariableDeclarationKind
	};
	GlobalDeclarationKind getKind() const { return Kind; }
	const IceString &getName() const { return Name; }
	void setName(const IceString &NewName) { Name = NewName; }
	bool hasName() const { return !Name.empty(); }
	bool isInternal() const {
	return Linkage == llvm::GlobalValue::InternalLinkage;
	}
	llvm::GlobalValue::LinkageTypes getLinkage() const { return Linkage; }
	bool isExternal() const {
	return Linkage == llvm::GlobalValue::ExternalLinkage;
	}
	void setLinkage(llvm::GlobalValue::LinkageTypes NewLinkage) {
	Linkage = NewLinkage;
	}
	virtual ~GlobalDeclaration() {}

	/// Prints out type of the global declaration.
	virtual void dumpType(Ostream &Stream) const = 0;

	/// Prints out the global declaration.
	virtual void dump(GlobalContext *Ctx, Ostream &Stream) const = 0;
	void dump(Ostream &Stream) const {
	if (!ALLOW_DUMP)
	return;
	GlobalContext *const Ctx = nullptr;
	dump(Ctx, Stream);
	}

	/// Returns true if when emitting names, we should suppress mangling.
	virtual bool getSuppressMangling() const = 0;

	// Mangles name for cross tests, unless external and not defined locally
	// (so that relocations accross pnacl-sz and pnacl-llc will work).
	virtual IceString mangleName(GlobalContext *Ctx) const {
	return getSuppressMangling() ? Name : Ctx->mangleName(Name);
	}

	protected:
	GlobalDeclaration(GlobalDeclarationKind Kind,
	llvm::GlobalValue::LinkageTypes Linkage)
	: Kind(Kind), Linkage(Linkage) {}

	const GlobalDeclarationKind Kind;
	IceString Name;
	llvm::GlobalValue::LinkageTypes Linkage;
	};

	// Models a function declaration. This includes the type signature of
	// the function, its calling conventions, and its linkage.
	class FunctionDeclaration : public GlobalDeclaration {
	FunctionDeclaration() = delete;
	FunctionDeclaration(const FunctionDeclaration &) = delete;
	FunctionDeclaration &operator=(const FunctionDeclaration &) = delete;

	public:
	static FunctionDeclaration *create(const FuncSigType &Signature,
	llvm::CallingConv::ID CallingConv,
	llvm::GlobalValue::LinkageTypes Linkage,
	bool IsProto);
	~FunctionDeclaration() final {}
	const FuncSigType &getSignature() const { return Signature; }
	llvm::CallingConv::ID getCallingConv() const { return CallingConv; }
	// isProto implies that there isn't a (local) definition for the function.
	bool isProto() const { return IsProto; }
	static bool classof(const GlobalDeclaration *Addr) {
	return Addr->getKind() == FunctionDeclarationKind;
	}
	void dumpType(Ostream &Stream) const final;
	void dump(GlobalContext *Ctx, Ostream &Stream) const final;
	bool getSuppressMangling() const final { return isExternal() && IsProto; }

	private:
	const Ice::FuncSigType Signature;
	llvm::CallingConv::ID CallingConv;
	bool IsProto;

	FunctionDeclaration(const FuncSigType &Signature,
	llvm::CallingConv::ID CallingConv,
	llvm::GlobalValue::LinkageTypes Linkage, bool IsProto)
	: GlobalDeclaration(FunctionDeclarationKind, Linkage),
	Signature(Signature), CallingConv(CallingConv), IsProto(IsProto) {}
	};

	/// Models a global variable declaration, and its initializers.
	class VariableDeclaration : public GlobalDeclaration {
	VariableDeclaration(const VariableDeclaration &) = delete;
	VariableDeclaration &operator=(const VariableDeclaration &) = delete;

	public:
	/// Base class for a global variable initializer.
	class Initializer {
	Initializer(const Initializer &) = delete;
	Initializer &operator=(const Initializer &) = delete;

	public:
	/// Discriminator for LLVM-style RTTI.
	enum InitializerKind {
	DataInitializerKind,
	ZeroInitializerKind,
	RelocInitializerKind
	};
	InitializerKind getKind() const { return Kind; }
	virtual ~Initializer() {}
	virtual SizeT getNumBytes() const = 0;
	virtual void dump(GlobalContext *Ctx, Ostream &Stream) const = 0;
	void dump(Ostream &Stream) const {
	if (ALLOW_DUMP)
	dump(nullptr, Stream);
	}
	virtual void dumpType(Ostream &Stream) const;

	protected:
	explicit Initializer(InitializerKind Kind) : Kind(Kind) {}

	private:
	const InitializerKind Kind;
	};

	// Models the data in a data initializer.
	typedef std::vector<char> DataVecType;

	/// Defines a sequence of byte values as a data initializer.
	class DataInitializer : public Initializer {
	DataInitializer(const DataInitializer &) = delete;
	DataInitializer &operator=(const DataInitializer &) = delete;

	public:
	template <class IntContainer>
	DataInitializer(const IntContainer &Values)
	: Initializer(DataInitializerKind), Contents(Values.size()) {
	size_t i = 0;
	for (auto &V : Values) {
	Contents[i] = static_cast<int8_t>(V);
	++i;
	}
	}
	DataInitializer(const char *Str, size_t StrLen)
	: Initializer(DataInitializerKind), Contents(StrLen) {
	for (size_t i = 0; i < StrLen; ++i)
	Contents[i] = Str[i];
	}
	~DataInitializer() override {}
	const DataVecType &getContents() const { return Contents; }
	SizeT getNumBytes() const final { return Contents.size(); }
	void dump(GlobalContext *Ctx, Ostream &Stream) const final;
	static bool classof(const Initializer *D) {
	return D->getKind() == DataInitializerKind;
	}

	private:
	// The byte contents of the data initializer.
	DataVecType Contents;
	};

	/// Defines a sequence of bytes initialized to zero.
	class ZeroInitializer : public Initializer {
	ZeroInitializer(const ZeroInitializer &) = delete;
	ZeroInitializer &operator=(const ZeroInitializer &) = delete;

	public:
	explicit ZeroInitializer(SizeT Size)
	: Initializer(ZeroInitializerKind), Size(Size) {}
	~ZeroInitializer() override {}
	SizeT getNumBytes() const final { return Size; }
	void dump(GlobalContext *Ctx, Ostream &Stream) const final;
	static bool classof(const Initializer *Z) {
	return Z->getKind() == ZeroInitializerKind;
	}

	private:
	// The number of bytes to be zero initialized.
	SizeT Size;
	};

	/// Defines the relocation value of another global declaration.
	class RelocInitializer : public Initializer {
	RelocInitializer(const RelocInitializer &) = delete;
	RelocInitializer &operator=(const RelocInitializer &) = delete;

	public:
	RelocInitializer(const GlobalDeclaration *Declaration, RelocOffsetT Offset)
	: Initializer(RelocInitializerKind), Declaration(Declaration),
	Offset(Offset) {}
	~RelocInitializer() override {}
	RelocOffsetT getOffset() const { return Offset; }
	const GlobalDeclaration *getDeclaration() const { return Declaration; }
	SizeT getNumBytes() const final { return RelocAddrSize; }
	void dump(GlobalContext *Ctx, Ostream &Stream) const final;
	void dumpType(Ostream &Stream) const final;
	static bool classof(const Initializer *R) {
	return R->getKind() == RelocInitializerKind;
	}

	private:
	// The global declaration used in the relocation.
	const GlobalDeclaration *Declaration;
	// The offset to add to the relocation.
	const RelocOffsetT Offset;
	};

	/// Models the list of initializers.
	typedef std::vector<Initializer *> InitializerListType;

	static VariableDeclaration *create();
	~VariableDeclaration() final;

	const InitializerListType &getInitializers() const { return Initializers; }
	bool getIsConstant() const { return IsConstant; }
	void setIsConstant(bool NewValue) { IsConstant = NewValue; }
	uint32_t getAlignment() const { return Alignment; }
	void setAlignment(uint32_t NewAlignment) { Alignment = NewAlignment; }
	bool hasInitializer() const { return !Initializers.empty(); }
	bool hasNonzeroInitializer() const {
	return !(Initializers.size() == 1 &&
	llvm::isa<ZeroInitializer>(Initializers[0]));
	}

	/// Returns the number of bytes for the initializer of the global
	/// address.
	SizeT getNumBytes() const {
	SizeT Count = 0;
	for (Initializer *Init : Initializers) {
	Count += Init->getNumBytes();
	}
	return Count;
	}

	/// Adds Initializer to the list of initializers. Takes ownership of
	/// the initializer.
	void addInitializer(Initializer *Initializer) {
	Initializers.push_back(Initializer);
	}

	/// Prints out type for initializer associated with the declaration
	/// to Stream.
	void dumpType(Ostream &Stream) const final;

	/// Prints out the definition of the global variable declaration
	/// (including initialization).
	void dump(GlobalContext *Ctx, Ostream &Stream) const final;

	static bool classof(const GlobalDeclaration *Addr) {
	return Addr->getKind() == VariableDeclarationKind;
	}

	bool getSuppressMangling() const final {
	return isExternal() && !hasInitializer();
	}

	private:
	// list of initializers for the declared variable.
	InitializerListType Initializers;
	// The alignment of the declared variable.
	uint32_t Alignment;
	// True if a declared (global) constant.
	bool IsConstant;

	VariableDeclaration()
	: GlobalDeclaration(VariableDeclarationKind,
	llvm::GlobalValue::InternalLinkage),
	Alignment(0), IsConstant(false) {}
	};

	template <class StreamType>
	inline StreamType &operator<<(StreamType &Stream,
	const VariableDeclaration::Initializer &Init) {
	Init.dump(Stream);
	return Stream;
	}

	template <class StreamType>
	inline StreamType &operator<<(StreamType &Stream,
	const GlobalDeclaration &Addr) {
	Addr.dump(Stream);
	return Stream;
	}

	} // end of namespace Ice

	#endif // SUBZERO_SRC_ICEGLOBALINITS_H