clang-3977809/prebuilt_include/llvm/include/llvm/ExecutionEngine/JITSymbol.h - platform/prebuilts/clang/host/darwin-x86 - Git at Google

 //===----------- JITSymbol.h - JIT symbol abstraction -----------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // Abstraction for target process addresses.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_EXECUTIONENGINE_JITSYMBOL_H
 #define LLVM_EXECUTIONENGINE_JITSYMBOL_H

 #include <algorithm>
 #include <cassert>
 #include <cstddef>
 #include <cstdint>
 #include <functional>
 #include <string>

 namespace llvm {

 class GlobalValue;

 namespace object {
   class BasicSymbolRef;
 } // end namespace object

 /// @brief Represents an address in the target process's address space.
 typedef uint64_t JITTargetAddress;

 /// @brief Flags for symbols in the JIT.
 class JITSymbolFlags {
 public:
   typedef uint8_t UnderlyingType;

   enum FlagNames : UnderlyingType {
     None = 0,
     Weak = 1U << 0,
     Common = 1U << 1,
     Absolute = 1U << 2,
     Exported = 1U << 3
   };

   /// @brief Default-construct a JITSymbolFlags instance.
   JITSymbolFlags() : Flags(None) {}

   /// @brief Construct a JITSymbolFlags instance from the given flags.
   JITSymbolFlags(FlagNames Flags) : Flags(Flags) {}

   /// @brief Returns true is the Weak flag is set.
   bool isWeak() const {
     return (Flags & Weak) == Weak;
   }

   /// @brief Returns true is the Weak flag is set.
   bool isCommon() const {
     return (Flags & Common) == Common;
   }

   bool isStrongDefinition() const {
     return !isWeak() && !isCommon();
   }

   /// @brief Returns true is the Weak flag is set.
   bool isExported() const {
     return (Flags & Exported) == Exported;
   }

   operator UnderlyingType&() { return Flags; }

   /// Construct a JITSymbolFlags value based on the flags of the given global
   /// value.
   static JITSymbolFlags fromGlobalValue(const GlobalValue &GV);

   /// Construct a JITSymbolFlags value based on the flags of the given libobject
   /// symbol.
   static JITSymbolFlags fromObjectSymbol(const object::BasicSymbolRef &Symbol);

 private:
   UnderlyingType Flags;
 };

 /// @brief Represents a symbol that has been evaluated to an address already.
 class JITEvaluatedSymbol {
 public:
   /// @brief Create a 'null' symbol.
   JITEvaluatedSymbol(std::nullptr_t)
       : Address(0) {}

   /// @brief Create a symbol for the given address and flags.
   JITEvaluatedSymbol(JITTargetAddress Address, JITSymbolFlags Flags)
       : Address(Address), Flags(Flags) {}

   /// @brief An evaluated symbol converts to 'true' if its address is non-zero.
   explicit operator bool() const { return Address != 0; }

   /// @brief Return the address of this symbol.
   JITTargetAddress getAddress() const { return Address; }

   /// @brief Return the flags for this symbol.
   JITSymbolFlags getFlags() const { return Flags; }

 private:
   JITTargetAddress Address;
   JITSymbolFlags Flags;
 };

 /// @brief Represents a symbol in the JIT.
 class JITSymbol {
 public:
   typedef std::function<JITTargetAddress()> GetAddressFtor;

   /// @brief Create a 'null' symbol that represents failure to find a symbol
   ///        definition.
   JITSymbol(std::nullptr_t)
       : CachedAddr(0) {}

   /// @brief Create a symbol for a definition with a known address.
   JITSymbol(JITTargetAddress Addr, JITSymbolFlags Flags)
       : CachedAddr(Addr), Flags(Flags) {}

   /// @brief Construct a JITSymbol from a JITEvaluatedSymbol.
   JITSymbol(JITEvaluatedSymbol Sym)
       : CachedAddr(Sym.getAddress()), Flags(Sym.getFlags()) {}

   /// @brief Create a symbol for a definition that doesn't have a known address
   ///        yet.
   /// @param GetAddress A functor to materialize a definition (fixing the
   ///        address) on demand.
   ///
   ///   This constructor allows a JIT layer to provide a reference to a symbol
   /// definition without actually materializing the definition up front. The
   /// user can materialize the definition at any time by calling the getAddress
   /// method.
   JITSymbol(GetAddressFtor GetAddress, JITSymbolFlags Flags)
       : GetAddress(std::move(GetAddress)), CachedAddr(0), Flags(Flags) {}

   /// @brief Returns true if the symbol exists, false otherwise.
   explicit operator bool() const { return CachedAddr || GetAddress; }

   /// @brief Get the address of the symbol in the target address space. Returns
   ///        '0' if the symbol does not exist.
   JITTargetAddress getAddress() {
     if (GetAddress) {
       CachedAddr = GetAddress();
       assert(CachedAddr && "Symbol could not be materialized.");
       GetAddress = nullptr;
     }
     return CachedAddr;
   }

   JITSymbolFlags getFlags() const { return Flags; }

 private:
   GetAddressFtor GetAddress;
   JITTargetAddress CachedAddr;
   JITSymbolFlags Flags;
 };

 /// \brief Symbol resolution.
 class JITSymbolResolver {
 public:
   virtual ~JITSymbolResolver() = default;

   /// This method returns the address of the specified symbol if it exists
   /// within the logical dynamic library represented by this JITSymbolResolver.
   /// Unlike findSymbol, queries through this interface should return addresses
   /// for hidden symbols.
   ///
   /// This is of particular importance for the Orc JIT APIs, which support lazy
   /// compilation by breaking up modules: Each of those broken out modules
   /// must be able to resolve hidden symbols provided by the others. Clients
   /// writing memory managers for MCJIT can usually ignore this method.
   ///
   /// This method will be queried by RuntimeDyld when checking for previous
   /// definitions of common symbols.
   virtual JITSymbol findSymbolInLogicalDylib(const std::string &Name) = 0;

   /// This method returns the address of the specified function or variable.
   /// It is used to resolve symbols during module linking.
   ///
   /// If the returned symbol's address is equal to ~0ULL then RuntimeDyld will
   /// skip all relocations for that symbol, and the client will be responsible
   /// for handling them manually.
   virtual JITSymbol findSymbol(const std::string &Name) = 0;

 private:
   virtual void anchor();
 };

 } // end namespace llvm

 #endif // LLVM_EXECUTIONENGINE_JITSYMBOL_H
	//===----------- JITSymbol.h - JIT symbol abstraction ------------ C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// Abstraction for target process addresses.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_EXECUTIONENGINE_JITSYMBOL_H
	#define LLVM_EXECUTIONENGINE_JITSYMBOL_H

	#include <algorithm>
	#include <cassert>
	#include <cstddef>
	#include <cstdint>
	#include <functional>
	#include <string>

	namespace llvm {

	class GlobalValue;

	namespace object {
	class BasicSymbolRef;
	} // end namespace object

	/// @brief Represents an address in the target process's address space.
	typedef uint64_t JITTargetAddress;

	/// @brief Flags for symbols in the JIT.
	class JITSymbolFlags {
	public:
	typedef uint8_t UnderlyingType;

	enum FlagNames : UnderlyingType {
	None = 0,
	Weak = 1U << 0,
	Common = 1U << 1,
	Absolute = 1U << 2,
	Exported = 1U << 3
	};

	/// @brief Default-construct a JITSymbolFlags instance.
	JITSymbolFlags() : Flags(None) {}

	/// @brief Construct a JITSymbolFlags instance from the given flags.
	JITSymbolFlags(FlagNames Flags) : Flags(Flags) {}

	/// @brief Returns true is the Weak flag is set.
	bool isWeak() const {
	return (Flags & Weak) == Weak;
	}

	/// @brief Returns true is the Weak flag is set.
	bool isCommon() const {
	return (Flags & Common) == Common;
	}

	bool isStrongDefinition() const {
	return !isWeak() && !isCommon();
	}

	/// @brief Returns true is the Weak flag is set.
	bool isExported() const {
	return (Flags & Exported) == Exported;
	}

	operator UnderlyingType&() { return Flags; }

	/// Construct a JITSymbolFlags value based on the flags of the given global
	/// value.
	static JITSymbolFlags fromGlobalValue(const GlobalValue &GV);

	/// Construct a JITSymbolFlags value based on the flags of the given libobject
	/// symbol.
	static JITSymbolFlags fromObjectSymbol(const object::BasicSymbolRef &Symbol);

	private:
	UnderlyingType Flags;
	};

	/// @brief Represents a symbol that has been evaluated to an address already.
	class JITEvaluatedSymbol {
	public:
	/// @brief Create a 'null' symbol.
	JITEvaluatedSymbol(std::nullptr_t)
	: Address(0) {}

	/// @brief Create a symbol for the given address and flags.
	JITEvaluatedSymbol(JITTargetAddress Address, JITSymbolFlags Flags)
	: Address(Address), Flags(Flags) {}

	/// @brief An evaluated symbol converts to 'true' if its address is non-zero.
	explicit operator bool() const { return Address != 0; }

	/// @brief Return the address of this symbol.
	JITTargetAddress getAddress() const { return Address; }

	/// @brief Return the flags for this symbol.
	JITSymbolFlags getFlags() const { return Flags; }

	private:
	JITTargetAddress Address;
	JITSymbolFlags Flags;
	};

	/// @brief Represents a symbol in the JIT.
	class JITSymbol {
	public:
	typedef std::function<JITTargetAddress()> GetAddressFtor;

	/// @brief Create a 'null' symbol that represents failure to find a symbol
	/// definition.
	JITSymbol(std::nullptr_t)
	: CachedAddr(0) {}

	/// @brief Create a symbol for a definition with a known address.
	JITSymbol(JITTargetAddress Addr, JITSymbolFlags Flags)
	: CachedAddr(Addr), Flags(Flags) {}

	/// @brief Construct a JITSymbol from a JITEvaluatedSymbol.
	JITSymbol(JITEvaluatedSymbol Sym)
	: CachedAddr(Sym.getAddress()), Flags(Sym.getFlags()) {}

	/// @brief Create a symbol for a definition that doesn't have a known address
	/// yet.
	/// @param GetAddress A functor to materialize a definition (fixing the
	/// address) on demand.
	///
	/// This constructor allows a JIT layer to provide a reference to a symbol
	/// definition without actually materializing the definition up front. The
	/// user can materialize the definition at any time by calling the getAddress
	/// method.
	JITSymbol(GetAddressFtor GetAddress, JITSymbolFlags Flags)
	: GetAddress(std::move(GetAddress)), CachedAddr(0), Flags(Flags) {}

	/// @brief Returns true if the symbol exists, false otherwise.
	explicit operator bool() const { return CachedAddr \|\| GetAddress; }

	/// @brief Get the address of the symbol in the target address space. Returns
	/// '0' if the symbol does not exist.
	JITTargetAddress getAddress() {
	if (GetAddress) {
	CachedAddr = GetAddress();
	assert(CachedAddr && "Symbol could not be materialized.");
	GetAddress = nullptr;
	}
	return CachedAddr;
	}

	JITSymbolFlags getFlags() const { return Flags; }

	private:
	GetAddressFtor GetAddress;
	JITTargetAddress CachedAddr;
	JITSymbolFlags Flags;
	};

	/// \brief Symbol resolution.
	class JITSymbolResolver {
	public:
	virtual ~JITSymbolResolver() = default;

	/// This method returns the address of the specified symbol if it exists
	/// within the logical dynamic library represented by this JITSymbolResolver.
	/// Unlike findSymbol, queries through this interface should return addresses
	/// for hidden symbols.
	///
	/// This is of particular importance for the Orc JIT APIs, which support lazy
	/// compilation by breaking up modules: Each of those broken out modules
	/// must be able to resolve hidden symbols provided by the others. Clients
	/// writing memory managers for MCJIT can usually ignore this method.
	///
	/// This method will be queried by RuntimeDyld when checking for previous
	/// definitions of common symbols.
	virtual JITSymbol findSymbolInLogicalDylib(const std::string &Name) = 0;

	/// This method returns the address of the specified function or variable.
	/// It is used to resolve symbols during module linking.
	///
	/// If the returned symbol's address is equal to ~0ULL then RuntimeDyld will
	/// skip all relocations for that symbol, and the client will be responsible
	/// for handling them manually.
	virtual JITSymbol findSymbol(const std::string &Name) = 0;

	private:
	virtual void anchor();
	};

	} // end namespace llvm

	#endif // LLVM_EXECUTIONENGINE_JITSYMBOL_H