src/IceIntrinsics.h - SwiftShader - Git at Google

 //===- subzero/src/IceIntrinsics.h - List of Ice Intrinsics -----*- 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 kinds of intrinsics supported by PNaCl.
 //
 //===----------------------------------------------------------------------===//

 #ifndef SUBZERO_SRC_ICEINTRINSICS_H
 #define SUBZERO_SRC_ICEINTRINSICS_H

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

 namespace Ice {

 class InstCall;

 static const size_t kMaxIntrinsicParameters = 6;

 class Intrinsics {
   Intrinsics(const Intrinsics &) = delete;
   Intrinsics &operator=(const Intrinsics &) = delete;

 public:
   Intrinsics();
   ~Intrinsics();

   // Some intrinsics allow overloading by type. This enum collapses all
   // overloads into a single ID, but the type can still be recovered by the
   // type of the intrinsic function call's return value and parameters.
   enum IntrinsicID {
     UnknownIntrinsic = 0,
     // Arbitrary (alphabetical) order.
     AtomicCmpxchg,
     AtomicFence,
     AtomicFenceAll,
     AtomicIsLockFree,
     AtomicLoad,
     AtomicRMW,
     AtomicStore,
     Bswap,
     Ctlz,
     Ctpop,
     Cttz,
     Longjmp,
     Memcpy,
     Memmove,
     Memset,
     NaClReadTP,
     Setjmp,
     Sqrt,
     Stacksave,
     Stackrestore,
     Trap
   };

   /// Operations that can be represented by the AtomicRMW
   /// intrinsic.
   ///
   /// Do not reorder these values: their order offers forward
   /// compatibility of bitcode targeted to PNaCl.
   enum AtomicRMWOperation {
     AtomicInvalid = 0, // Invalid, keep first.
     AtomicAdd,
     AtomicSub,
     AtomicOr,
     AtomicAnd,
     AtomicXor,
     AtomicExchange,
     AtomicNum // Invalid, keep last.
   };

   /// Memory orderings supported by PNaCl IR.
   ///
   /// Do not reorder these values: their order offers forward
   /// compatibility of bitcode targeted to PNaCl.
   enum MemoryOrder {
     MemoryOrderInvalid = 0, // Invalid, keep first.
     MemoryOrderRelaxed,
     MemoryOrderConsume,
     MemoryOrderAcquire,
     MemoryOrderRelease,
     MemoryOrderAcquireRelease,
     MemoryOrderSequentiallyConsistent,
     MemoryOrderNum // Invalid, keep last.
   };

   // Verify memory ordering rules for atomic intrinsics.  For
   // AtomicCmpxchg, Order is the "success" ordering and OrderOther is
   // the "failure" ordering.  Returns true if valid, false if invalid.
   // TODO(stichnot,kschimpf): Perform memory order validation in the
   // bitcode reader/parser, allowing LLVM and Subzero to share.  See
   // https://code.google.com/p/nativeclient/issues/detail?id=4126 .
   static bool isMemoryOrderValid(IntrinsicID ID, uint64_t Order,
                                  uint64_t OrderOther = MemoryOrderInvalid);

   enum SideEffects { SideEffects_F = 0, SideEffects_T = 1 };

   enum ReturnsTwice { ReturnsTwice_F = 0, ReturnsTwice_T = 1 };

   // Basic attributes related to each intrinsic, that are relevant to
   // code generation. Perhaps the attributes representation can be shared
   // with general function calls, but PNaCl currently strips all
   // attributes from functions.
   struct IntrinsicInfo {
     enum IntrinsicID ID : 30;
     enum SideEffects HasSideEffects : 1;
     enum ReturnsTwice ReturnsTwice : 1;
   };

   // The types of validation values for FullIntrinsicInfo.validateCall.
   enum ValidateCallValue {
     IsValidCall,      // Valid use of instrinsic call.
     BadReturnType,    // Return type invalid for intrinsic.
     WrongNumOfArgs,   // Wrong number of arguments for intrinsic.
     WrongCallArgType, // Argument of wrong type.
   };

   // The complete set of information about an intrinsic.
   struct FullIntrinsicInfo {
     struct IntrinsicInfo Info; // Information that CodeGen would care about.

     // Sanity check during parsing.
     Type Signature[kMaxIntrinsicParameters];
     uint8_t NumTypes;

     // Validates that type signature of call matches intrinsic.
     // If WrongArgumentType is returned, ArgIndex is set to corresponding
     // argument index.
     ValidateCallValue validateCall(const Ice::InstCall *Call,
                                    SizeT &ArgIndex) const;

     // Returns the return type of the intrinsic.
     Type getReturnType() const {
       assert(NumTypes > 1);
       return Signature[0];
     }

     // Returns number of arguments expected.
     SizeT getNumArgs() const {
       assert(NumTypes > 1);
       return NumTypes - 1;
     }

     // Returns type of Index-th argument.
     Type getArgType(SizeT Index) const;
   };

   // Find the information about a given intrinsic, based on function name.  If
   // the function name does not have the common "llvm." prefix, nullptr is
   // returned and Error is set to false.  Otherwise, tries to find a reference
   // to a FullIntrinsicInfo entry (valid for the lifetime of the map).  If
   // found, sets Error to false and returns the reference.  If not found, sets
   // Error to true and returns nullptr (indicating an unknown "llvm.foo"
   // intrinsic).
   const FullIntrinsicInfo *find(const IceString &Name, bool &Error) const;

 private:
   // TODO(jvoung): May want to switch to something like LLVM's StringMap.
   typedef std::map<IceString, FullIntrinsicInfo> IntrinsicMap;
   IntrinsicMap Map;
 };

 } // end of namespace Ice

 #endif // SUBZERO_SRC_ICEINTRINSICS_H
	//===- subzero/src/IceIntrinsics.h - List of Ice Intrinsics ------ 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 kinds of intrinsics supported by PNaCl.
	//
	//===----------------------------------------------------------------------===//

	#ifndef SUBZERO_SRC_ICEINTRINSICS_H
	#define SUBZERO_SRC_ICEINTRINSICS_H

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

	namespace Ice {

	class InstCall;

	static const size_t kMaxIntrinsicParameters = 6;

	class Intrinsics {
	Intrinsics(const Intrinsics &) = delete;
	Intrinsics &operator=(const Intrinsics &) = delete;

	public:
	Intrinsics();
	~Intrinsics();

	// Some intrinsics allow overloading by type. This enum collapses all
	// overloads into a single ID, but the type can still be recovered by the
	// type of the intrinsic function call's return value and parameters.
	enum IntrinsicID {
	UnknownIntrinsic = 0,
	// Arbitrary (alphabetical) order.
	AtomicCmpxchg,
	AtomicFence,
	AtomicFenceAll,
	AtomicIsLockFree,
	AtomicLoad,
	AtomicRMW,
	AtomicStore,
	Bswap,
	Ctlz,
	Ctpop,
	Cttz,
	Longjmp,
	Memcpy,
	Memmove,
	Memset,
	NaClReadTP,
	Setjmp,
	Sqrt,
	Stacksave,
	Stackrestore,
	Trap
	};

	/// Operations that can be represented by the AtomicRMW
	/// intrinsic.
	///
	/// Do not reorder these values: their order offers forward
	/// compatibility of bitcode targeted to PNaCl.
	enum AtomicRMWOperation {
	AtomicInvalid = 0, // Invalid, keep first.
	AtomicAdd,
	AtomicSub,
	AtomicOr,
	AtomicAnd,
	AtomicXor,
	AtomicExchange,
	AtomicNum // Invalid, keep last.
	};

	/// Memory orderings supported by PNaCl IR.
	///
	/// Do not reorder these values: their order offers forward
	/// compatibility of bitcode targeted to PNaCl.
	enum MemoryOrder {
	MemoryOrderInvalid = 0, // Invalid, keep first.
	MemoryOrderRelaxed,
	MemoryOrderConsume,
	MemoryOrderAcquire,
	MemoryOrderRelease,
	MemoryOrderAcquireRelease,
	MemoryOrderSequentiallyConsistent,
	MemoryOrderNum // Invalid, keep last.
	};

	// Verify memory ordering rules for atomic intrinsics. For
	// AtomicCmpxchg, Order is the "success" ordering and OrderOther is
	// the "failure" ordering. Returns true if valid, false if invalid.
	// TODO(stichnot,kschimpf): Perform memory order validation in the
	// bitcode reader/parser, allowing LLVM and Subzero to share. See
	// https://code.google.com/p/nativeclient/issues/detail?id=4126 .
	static bool isMemoryOrderValid(IntrinsicID ID, uint64_t Order,
	uint64_t OrderOther = MemoryOrderInvalid);

	enum SideEffects { SideEffects_F = 0, SideEffects_T = 1 };

	enum ReturnsTwice { ReturnsTwice_F = 0, ReturnsTwice_T = 1 };

	// Basic attributes related to each intrinsic, that are relevant to
	// code generation. Perhaps the attributes representation can be shared
	// with general function calls, but PNaCl currently strips all
	// attributes from functions.
	struct IntrinsicInfo {
	enum IntrinsicID ID : 30;
	enum SideEffects HasSideEffects : 1;
	enum ReturnsTwice ReturnsTwice : 1;
	};

	// The types of validation values for FullIntrinsicInfo.validateCall.
	enum ValidateCallValue {
	IsValidCall, // Valid use of instrinsic call.
	BadReturnType, // Return type invalid for intrinsic.
	WrongNumOfArgs, // Wrong number of arguments for intrinsic.
	WrongCallArgType, // Argument of wrong type.
	};

	// The complete set of information about an intrinsic.
	struct FullIntrinsicInfo {
	struct IntrinsicInfo Info; // Information that CodeGen would care about.

	// Sanity check during parsing.
	Type Signature[kMaxIntrinsicParameters];
	uint8_t NumTypes;

	// Validates that type signature of call matches intrinsic.
	// If WrongArgumentType is returned, ArgIndex is set to corresponding
	// argument index.
	ValidateCallValue validateCall(const Ice::InstCall *Call,
	SizeT &ArgIndex) const;

	// Returns the return type of the intrinsic.
	Type getReturnType() const {
	assert(NumTypes > 1);
	return Signature[0];
	}

	// Returns number of arguments expected.
	SizeT getNumArgs() const {
	assert(NumTypes > 1);
	return NumTypes - 1;
	}

	// Returns type of Index-th argument.
	Type getArgType(SizeT Index) const;
	};

	// Find the information about a given intrinsic, based on function name. If
	// the function name does not have the common "llvm." prefix, nullptr is
	// returned and Error is set to false. Otherwise, tries to find a reference
	// to a FullIntrinsicInfo entry (valid for the lifetime of the map). If
	// found, sets Error to false and returns the reference. If not found, sets
	// Error to true and returns nullptr (indicating an unknown "llvm.foo"
	// intrinsic).
	const FullIntrinsicInfo *find(const IceString &Name, bool &Error) const;

	private:
	// TODO(jvoung): May want to switch to something like LLVM's StringMap.
	typedef std::map<IceString, FullIntrinsicInfo> IntrinsicMap;
	IntrinsicMap Map;
	};

	} // end of namespace Ice

	#endif // SUBZERO_SRC_ICEINTRINSICS_H