+++ /dev/null
------------------------------------------------------------------------
--- $Id: primops.txt,v 1.23 2001/07/26 03:08:38 ken Exp $
---
--- Primitive Operations
---
------------------------------------------------------------------------
-
--- To add a new primop, you currently need to update the following files:
---
--- - this file (ghc/compiler/prelude/primops.txt), which includes
--- the type of the primop, and various other properties (its
--- strictness attributes, whether it is defined as a macro
--- or as out-of-line code, etc.)
---
--- - ghc/lib/std/PrelGHC.hi-boot, to declare the primop
---
--- - if the primop is inline (i.e. a macro), then:
--- ghc/includes/PrimOps.h
--- ghc/compiler/nativeGen/StixPrim.lhs
---
--- - or, for an out-of-line primop:
--- ghc/includes/PrimOps.h (just add the declaration)
--- ghc/rts/PrimOps.hc (define it here)
---
--- - the User's Guide
---
-
-#include "config.h"
-#include "Derived.h"
-
--- The default attribute values which apply if you don't specify
--- other ones. Attribute values can be True, False, or arbitrary
--- text between curly brackets. This is a kludge to enable
--- processors of this file to easily get hold of simple info
--- (eg, out_of_line), whilst avoiding parsing complex expressions
--- needed for strictness and usage info.
-
-defaults
- has_side_effects = False
- out_of_line = False
- commutable = False
- needs_wrapper = False
- can_fail = False
- strictness = { \ arity -> StrictnessInfo (replicate arity wwPrim) False }
- usage = { nomangle other }
-
-
-------------------------------------------------------------------------
---- Support for the bytecode interpreter and linker ---
-------------------------------------------------------------------------
-
--- Convert an Addr# to a followable type
-primop AddrToHValueOp "addrToHValue#" GenPrimOp
- Addr# -> (# a #)
-
-primop MkApUpd0_Op "mkApUpd0#" GenPrimOp
- a -> (# a #)
- with
- out_of_line = True
-
-primop NewBCOOp "newBCO#" GenPrimOp
- ByteArr# -> ByteArr# -> Array# a -> ByteArr# -> State# s -> (# State# s, BCO# #)
- with
- has_side_effects = True
- out_of_line = True
-
-
-------------------------------------------------------------------------
---- Addr# ---
-------------------------------------------------------------------------
-
-primop AddrGtOp "gtAddr#" Compare Addr# -> Addr# -> Bool
-primop AddrGeOp "geAddr#" Compare Addr# -> Addr# -> Bool
-primop AddrEqOp "eqAddr#" Compare Addr# -> Addr# -> Bool
-primop AddrNeOp "neAddr#" Compare Addr# -> Addr# -> Bool
-primop AddrLtOp "ltAddr#" Compare Addr# -> Addr# -> Bool
-primop AddrLeOp "leAddr#" Compare Addr# -> Addr# -> Bool
-
-primop Addr2IntOp "addr2Int#" GenPrimOp Addr# -> Int#
-
-
-------------------------------------------------------------------------
---- Char# ---
-------------------------------------------------------------------------
-
-primop CharGtOp "gtChar#" Compare Char# -> Char# -> Bool
-primop CharGeOp "geChar#" Compare Char# -> Char# -> Bool
-
-primop CharEqOp "eqChar#" Compare
- Char# -> Char# -> Bool
- with commutable = True
-
-primop CharNeOp "neChar#" Compare
- Char# -> Char# -> Bool
- with commutable = True
-
-primop CharLtOp "ltChar#" Compare Char# -> Char# -> Bool
-primop CharLeOp "leChar#" Compare Char# -> Char# -> Bool
-
-primop OrdOp "ord#" GenPrimOp Char# -> Int#
-
-------------------------------------------------------------------------
---- Double# ---
-------------------------------------------------------------------------
-
-primop DoubleGtOp ">##" Compare Double# -> Double# -> Bool
-primop DoubleGeOp ">=##" Compare Double# -> Double# -> Bool
-
-primop DoubleEqOp "==##" Compare
- Double# -> Double# -> Bool
- with commutable = True
-
-primop DoubleNeOp "/=##" Compare
- Double# -> Double# -> Bool
- with commutable = True
-
-primop DoubleLtOp "<##" Compare Double# -> Double# -> Bool
-primop DoubleLeOp "<=##" Compare Double# -> Double# -> Bool
-
-primop DoubleAddOp "+##" Dyadic
- Double# -> Double# -> Double#
- with commutable = True
-
-primop DoubleSubOp "-##" Dyadic Double# -> Double# -> Double#
-
-primop DoubleMulOp "*##" Dyadic
- Double# -> Double# -> Double#
- with commutable = True
-
-primop DoubleDivOp "/##" Dyadic
- Double# -> Double# -> Double#
- with can_fail = True
-
-primop DoubleNegOp "negateDouble#" Monadic Double# -> Double#
-
-primop Double2IntOp "double2Int#" GenPrimOp Double# -> Int#
-primop Double2FloatOp "double2Float#" GenPrimOp Double# -> Float#
-
-primop DoubleExpOp "expDouble#" Monadic
- Double# -> Double#
- with needs_wrapper = True
-
-primop DoubleLogOp "logDouble#" Monadic
- Double# -> Double#
- with
- needs_wrapper = True
- can_fail = True
-
-primop DoubleSqrtOp "sqrtDouble#" Monadic
- Double# -> Double#
- with needs_wrapper = True
-
-primop DoubleSinOp "sinDouble#" Monadic
- Double# -> Double#
- with needs_wrapper = True
-
-primop DoubleCosOp "cosDouble#" Monadic
- Double# -> Double#
- with needs_wrapper = True
-
-primop DoubleTanOp "tanDouble#" Monadic
- Double# -> Double#
- with needs_wrapper = True
-
-primop DoubleAsinOp "asinDouble#" Monadic
- Double# -> Double#
- with
- needs_wrapper = True
- can_fail = True
-
-primop DoubleAcosOp "acosDouble#" Monadic
- Double# -> Double#
- with
- needs_wrapper = True
- can_fail = True
-
-primop DoubleAtanOp "atanDouble#" Monadic
- Double# -> Double#
- with
- needs_wrapper = True
-
-primop DoubleSinhOp "sinhDouble#" Monadic
- Double# -> Double#
- with needs_wrapper = True
-
-primop DoubleCoshOp "coshDouble#" Monadic
- Double# -> Double#
- with needs_wrapper = True
-
-primop DoubleTanhOp "tanhDouble#" Monadic
- Double# -> Double#
- with needs_wrapper = True
-
-primop DoublePowerOp "**##" Dyadic
- Double# -> Double# -> Double#
- with needs_wrapper = True
-
-primop DoubleDecodeOp "decodeDouble#" GenPrimOp
- Double# -> (# Int#, Int#, ByteArr# #)
- with out_of_line = True
-
-------------------------------------------------------------------------
---- Float# ---
-------------------------------------------------------------------------
-
-primop FloatGtOp "gtFloat#" Compare Float# -> Float# -> Bool
-primop FloatGeOp "geFloat#" Compare Float# -> Float# -> Bool
-
-primop FloatEqOp "eqFloat#" Compare
- Float# -> Float# -> Bool
- with commutable = True
-
-primop FloatNeOp "neFloat#" Compare
- Float# -> Float# -> Bool
- with commutable = True
-
-primop FloatLtOp "ltFloat#" Compare Float# -> Float# -> Bool
-primop FloatLeOp "leFloat#" Compare Float# -> Float# -> Bool
-
-primop FloatAddOp "plusFloat#" Dyadic
- Float# -> Float# -> Float#
- with commutable = True
-
-primop FloatSubOp "minusFloat#" Dyadic Float# -> Float# -> Float#
-
-primop FloatMulOp "timesFloat#" Dyadic
- Float# -> Float# -> Float#
- with commutable = True
-
-primop FloatDivOp "divideFloat#" Dyadic
- Float# -> Float# -> Float#
- with can_fail = True
-
-primop FloatNegOp "negateFloat#" Monadic Float# -> Float#
-
-primop Float2IntOp "float2Int#" GenPrimOp Float# -> Int#
-
-primop FloatExpOp "expFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
-
-primop FloatLogOp "logFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
- can_fail = True
-
-primop FloatSqrtOp "sqrtFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
-
-primop FloatSinOp "sinFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
-
-primop FloatCosOp "cosFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
-
-primop FloatTanOp "tanFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
-
-primop FloatAsinOp "asinFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
- can_fail = True
-
-primop FloatAcosOp "acosFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
- can_fail = True
-
-primop FloatAtanOp "atanFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
-
-primop FloatSinhOp "sinhFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
-
-primop FloatCoshOp "coshFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
-
-primop FloatTanhOp "tanhFloat#" Monadic
- Float# -> Float#
- with needs_wrapper = True
-
-primop FloatPowerOp "powerFloat#" Dyadic
- Float# -> Float# -> Float#
- with needs_wrapper = True
-
-primop Float2DoubleOp "float2Double#" GenPrimOp Float# -> Double#
-
-primop FloatDecodeOp "decodeFloat#" GenPrimOp
- Float# -> (# Int#, Int#, ByteArr# #)
- with out_of_line = True
-
-------------------------------------------------------------------------
---- Int# ---
-------------------------------------------------------------------------
-
-primop IntAddOp "+#" Dyadic
- Int# -> Int# -> Int#
- with commutable = True
-
-primop IntSubOp "-#" Dyadic Int# -> Int# -> Int#
-
-primop IntMulOp "*#"
- Dyadic Int# -> Int# -> Int#
- with commutable = True
-
-primop IntQuotOp "quotInt#" Dyadic
- Int# -> Int# -> Int#
- with can_fail = True
-
-primop IntRemOp "remInt#" Dyadic
- Int# -> Int# -> Int#
- with can_fail = True
-
-primop IntGcdOp "gcdInt#" Dyadic Int# -> Int# -> Int#
-primop IntNegOp "negateInt#" Monadic Int# -> Int#
-primop IntAddCOp "addIntC#" GenPrimOp Int# -> Int# -> (# Int#, Int# #)
-primop IntSubCOp "subIntC#" GenPrimOp Int# -> Int# -> (# Int#, Int# #)
-primop IntMulCOp "mulIntC#" GenPrimOp Int# -> Int# -> (# Int#, Int# #)
-primop IntGtOp ">#" Compare Int# -> Int# -> Bool
-primop IntGeOp ">=#" Compare Int# -> Int# -> Bool
-
-primop IntEqOp "==#" Compare
- Int# -> Int# -> Bool
- with commutable = True
-
-primop IntNeOp "/=#" Compare
- Int# -> Int# -> Bool
- with commutable = True
-
-primop IntLtOp "<#" Compare Int# -> Int# -> Bool
-primop IntLeOp "<=#" Compare Int# -> Int# -> Bool
-
-primop ChrOp "chr#" GenPrimOp Int# -> Char#
-
-primop Int2WordOp "int2Word#" GenPrimOp Int# -> Word#
-primop Int2AddrOp "int2Addr#"GenPrimOp Int# -> Addr#
-primop Int2FloatOp "int2Float#" GenPrimOp Int# -> Float#
-primop Int2DoubleOp "int2Double#" GenPrimOp Int# -> Double#
-
-primop Int2IntegerOp "int2Integer#"
- GenPrimOp Int# -> (# Int#, ByteArr# #)
- with out_of_line = True
-
-primop ISllOp "iShiftL#" GenPrimOp Int# -> Int# -> Int#
-primop ISraOp "iShiftRA#" GenPrimOp Int# -> Int# -> Int#
-primop ISrlOp "iShiftRL#" GenPrimOp Int# -> Int# -> Int#
-
-------------------------------------------------------------------------
---- Int64# ---
-------------------------------------------------------------------------
-
-#ifdef SUPPORT_LONG_LONGS
-primop Int64ToIntegerOp "int64ToInteger#" GenPrimOp
- Int64# -> (# Int#, ByteArr# #)
- with out_of_line = True
-#endif
-
-
-------------------------------------------------------------------------
---- Integer# ---
-------------------------------------------------------------------------
-
-primop IntegerAddOp "plusInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with commutable = True
- out_of_line = True
-
-primop IntegerSubOp "minusInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with out_of_line = True
-
-primop IntegerMulOp "timesInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with commutable = True
- out_of_line = True
-
-primop IntegerGcdOp "gcdInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with commutable = True
- out_of_line = True
-
-primop IntegerIntGcdOp "gcdIntegerInt#" GenPrimOp
- Int# -> ByteArr# -> Int# -> Int#
- with commutable = True
-
-primop IntegerDivExactOp "divExactInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with out_of_line = True
-
-primop IntegerQuotOp "quotInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with out_of_line = True
-
-primop IntegerRemOp "remInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with out_of_line = True
-
-primop IntegerCmpOp "cmpInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> Int#
- with needs_wrapper = True
-
-primop IntegerCmpIntOp "cmpIntegerInt#" GenPrimOp
- Int# -> ByteArr# -> Int# -> Int#
- with needs_wrapper = True
-
-primop IntegerQuotRemOp "quotRemInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr#, Int#, ByteArr# #)
- with can_fail = True
- out_of_line = True
-
-primop IntegerDivModOp "divModInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr#, Int#, ByteArr# #)
- with can_fail = True
- out_of_line = True
-
-primop Integer2IntOp "integer2Int#" GenPrimOp
- Int# -> ByteArr# -> Int#
- with needs_wrapper = True
-
-primop Integer2WordOp "integer2Word#" GenPrimOp
- Int# -> ByteArr# -> Word#
- with needs_wrapper = True
-
-#ifdef SUPPORT_LONG_LONGS
-primop IntegerToInt64Op "integerToInt64#" GenPrimOp
- Int# -> ByteArr# -> Int64#
-
-primop IntegerToWord64Op "integerToWord64#" GenPrimOp
- Int# -> ByteArr# -> Word64#
-#endif
-
-primop IntegerAndOp "andInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with out_of_line = True
-
-primop IntegerOrOp "orInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with out_of_line = True
-
-primop IntegerXorOp "xorInteger#" GenPrimOp
- Int# -> ByteArr# -> Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with out_of_line = True
-
-primop IntegerComplementOp "complementInteger#" GenPrimOp
- Int# -> ByteArr# -> (# Int#, ByteArr# #)
- with out_of_line = True
-
-------------------------------------------------------------------------
---- Word# ---
-------------------------------------------------------------------------
-
-primop WordAddOp "plusWord#" Dyadic Word# -> Word# -> Word#
- with commutable = True
-
-primop WordSubOp "minusWord#" Dyadic Word# -> Word# -> Word#
-
-primop WordMulOp "timesWord#" Dyadic Word# -> Word# -> Word#
- with commutable = True
-
-primop WordQuotOp "quotWord#" Dyadic Word# -> Word# -> Word#
- with can_fail = True
-
-primop WordRemOp "remWord#" Dyadic Word# -> Word# -> Word#
- with can_fail = True
-
-primop AndOp "and#" Dyadic Word# -> Word# -> Word#
- with commutable = True
-
-primop OrOp "or#" Dyadic Word# -> Word# -> Word#
- with commutable = True
-
-primop XorOp "xor#" Dyadic Word# -> Word# -> Word#
- with commutable = True
-
-primop NotOp "not#" Monadic Word# -> Word#
-
-primop SllOp "shiftL#" GenPrimOp Word# -> Int# -> Word#
-
-primop SrlOp "shiftRL#" GenPrimOp Word# -> Int# -> Word#
-
-primop Word2IntOp "word2Int#" GenPrimOp Word# -> Int#
-
-primop Word2IntegerOp "word2Integer#" GenPrimOp
- Word# -> (# Int#, ByteArr# #)
- with out_of_line = True
-
-primop WordGtOp "gtWord#" Compare Word# -> Word# -> Bool
-primop WordGeOp "geWord#" Compare Word# -> Word# -> Bool
-primop WordEqOp "eqWord#" Compare Word# -> Word# -> Bool
-primop WordNeOp "neWord#" Compare Word# -> Word# -> Bool
-primop WordLtOp "ltWord#" Compare Word# -> Word# -> Bool
-primop WordLeOp "leWord#" Compare Word# -> Word# -> Bool
-
-------------------------------------------------------------------------
---- Word64# ---
-------------------------------------------------------------------------
-
-#ifdef SUPPORT_LONG_LONGS
-primop Word64ToIntegerOp "word64ToInteger#" GenPrimOp
- Word64# -> (# Int#, ByteArr# #)
- with out_of_line = True
-#endif
-
-------------------------------------------------------------------------
---- Explicitly sized Int# and Word# ---
-------------------------------------------------------------------------
-
-primop IntToInt8Op "intToInt8#" Monadic Int# -> Int#
-primop IntToInt16Op "intToInt16#" Monadic Int# -> Int#
-primop IntToInt32Op "intToInt32#" Monadic Int# -> Int#
-primop WordToWord8Op "wordToWord8#" Monadic Word# -> Word#
-primop WordToWord16Op "wordToWord16#" Monadic Word# -> Word#
-primop WordToWord32Op "wordToWord32#" Monadic Word# -> Word#
-
-------------------------------------------------------------------------
---- Arrays ---
-------------------------------------------------------------------------
-
-primop NewArrayOp "newArray#" GenPrimOp
- Int# -> a -> State# s -> (# State# s, MutArr# s a #)
- with
- strictness = { \ arity -> StrictnessInfo [wwPrim, wwLazy, wwPrim] False }
- usage = { mangle NewArrayOp [mkP, mkM, mkP] mkM }
- out_of_line = True
-
-primop NewByteArrayOp_Char "newByteArray#" GenPrimOp
- Int# -> State# s -> (# State# s, MutByteArr# s #)
- with out_of_line = True
-
-
-primop IndexByteArrayOp_Char "indexCharArray#" GenPrimOp
- ByteArr# -> Int# -> Char#
-
-primop IndexByteArrayOp_WideChar "indexWideCharArray#" GenPrimOp
- ByteArr# -> Int# -> Char#
-
-primop IndexByteArrayOp_Int "indexIntArray#" GenPrimOp
- ByteArr# -> Int# -> Int#
-
-primop IndexByteArrayOp_Word "indexWordArray#" GenPrimOp
- ByteArr# -> Int# -> Word#
-
-primop IndexByteArrayOp_Addr "indexAddrArray#" GenPrimOp
- ByteArr# -> Int# -> Addr#
-
-primop IndexByteArrayOp_Float "indexFloatArray#" GenPrimOp
- ByteArr# -> Int# -> Float#
-
-primop IndexByteArrayOp_Double "indexDoubleArray#" GenPrimOp
- ByteArr# -> Int# -> Double#
-
-primop IndexByteArrayOp_StablePtr "indexStablePtrArray#" GenPrimOp
- ByteArr# -> Int# -> StablePtr# a
-
-primop IndexByteArrayOp_Int8 "indexInt8Array#" GenPrimOp
- ByteArr# -> Int# -> Int#
-
-primop IndexByteArrayOp_Int16 "indexInt16Array#" GenPrimOp
- ByteArr# -> Int# -> Int#
-
-primop IndexByteArrayOp_Int32 "indexInt32Array#" GenPrimOp
- ByteArr# -> Int# -> Int#
-
-#ifdef SUPPORT_LONG_LONGS
-primop IndexByteArrayOp_Int64 "indexInt64Array#" GenPrimOp
- ByteArr# -> Int# -> Int64#
-#endif
-
-primop IndexByteArrayOp_Word8 "indexWord8Array#" GenPrimOp
- ByteArr# -> Int# -> Word#
-
-primop IndexByteArrayOp_Word16 "indexWord16Array#" GenPrimOp
- ByteArr# -> Int# -> Word#
-
-primop IndexByteArrayOp_Word32 "indexWord32Array#" GenPrimOp
- ByteArr# -> Int# -> Word#
-
-#ifdef SUPPORT_LONG_LONGS
-primop IndexByteArrayOp_Word64 "indexWord64Array#" GenPrimOp
- ByteArr# -> Int# -> Word64#
-#endif
-
-
-primop ReadByteArrayOp_Char "readCharArray#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Char# #)
-
-primop ReadByteArrayOp_WideChar "readWideCharArray#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Char# #)
-
-primop ReadByteArrayOp_Int "readIntArray#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Int# #)
-
-primop ReadByteArrayOp_Word "readWordArray#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Word# #)
-
-primop ReadByteArrayOp_Addr "readAddrArray#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Addr# #)
-
-primop ReadByteArrayOp_Float "readFloatArray#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Float# #)
-
-primop ReadByteArrayOp_Double "readDoubleArray#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Double# #)
-
-primop ReadByteArrayOp_StablePtr "readStablePtrArray#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, StablePtr# a #)
-
-primop ReadByteArrayOp_Int8 "readInt8Array#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Int# #)
-
-primop ReadByteArrayOp_Int16 "readInt16Array#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Int# #)
-
-primop ReadByteArrayOp_Int32 "readInt32Array#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Int# #)
-
-#ifdef SUPPORT_LONG_LONGS
-primop ReadByteArrayOp_Int64 "readInt64Array#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Int64# #)
-#endif
-
-primop ReadByteArrayOp_Word8 "readWord8Array#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Word# #)
-
-primop ReadByteArrayOp_Word16 "readWord16Array#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Word# #)
-
-primop ReadByteArrayOp_Word32 "readWord32Array#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Word# #)
-
-#ifdef SUPPORT_LONG_LONGS
-primop ReadByteArrayOp_Word64 "readWord64Array#" GenPrimOp
- MutByteArr# s -> Int# -> State# s -> (# State# s, Word64# #)
-#endif
-
-
-
-primop WriteByteArrayOp_Char "writeCharArray#" GenPrimOp
- MutByteArr# s -> Int# -> Char# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_WideChar "writeWideCharArray#" GenPrimOp
- MutByteArr# s -> Int# -> Char# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_Int "writeIntArray#" GenPrimOp
- MutByteArr# s -> Int# -> Int# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_Word "writeWordArray#" GenPrimOp
- MutByteArr# s -> Int# -> Word# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_Addr "writeAddrArray#" GenPrimOp
- MutByteArr# s -> Int# -> Addr# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_Float "writeFloatArray#" GenPrimOp
- MutByteArr# s -> Int# -> Float# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_Double "writeDoubleArray#" GenPrimOp
- MutByteArr# s -> Int# -> Double# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_StablePtr "writeStablePtrArray#" GenPrimOp
- MutByteArr# s -> Int# -> StablePtr# a -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_Int8 "writeInt8Array#" GenPrimOp
- MutByteArr# s -> Int# -> Int# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_Int16 "writeInt16Array#" GenPrimOp
- MutByteArr# s -> Int# -> Int# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_Int32 "writeInt32Array#" GenPrimOp
- MutByteArr# s -> Int# -> Int# -> State# s -> State# s
- with has_side_effects = True
-
-#ifdef SUPPORT_LONG_LONGS
-primop WriteByteArrayOp_Int64 "writeInt64Array#" GenPrimOp
- MutByteArr# s -> Int# -> Int64# -> State# s -> State# s
- with has_side_effects = True
-#endif
-
-primop WriteByteArrayOp_Word8 "writeWord8Array#" GenPrimOp
- MutByteArr# s -> Int# -> Word# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_Word16 "writeWord16Array#" GenPrimOp
- MutByteArr# s -> Int# -> Word# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteByteArrayOp_Word32 "writeWord32Array#" GenPrimOp
- MutByteArr# s -> Int# -> Word# -> State# s -> State# s
- with has_side_effects = True
-
-#ifdef SUPPORT_LONG_LONGS
-primop WriteByteArrayOp_Word64 "writeWord64Array#" GenPrimOp
- MutByteArr# s -> Int# -> Word64# -> State# s -> State# s
- with has_side_effects = True
-#endif
-
-
-primop IndexOffAddrOp_Char "indexCharOffAddr#" GenPrimOp
- Addr# -> Int# -> Char#
-
-primop IndexOffAddrOp_WideChar "indexWideCharOffAddr#" GenPrimOp
- Addr# -> Int# -> Char#
-
-primop IndexOffAddrOp_Int "indexIntOffAddr#" GenPrimOp
- Addr# -> Int# -> Int#
-
-primop IndexOffAddrOp_Word "indexWordOffAddr#" GenPrimOp
- Addr# -> Int# -> Word#
-
-primop IndexOffAddrOp_Addr "indexAddrOffAddr#" GenPrimOp
- Addr# -> Int# -> Addr#
-
-primop IndexOffAddrOp_Float "indexFloatOffAddr#" GenPrimOp
- Addr# -> Int# -> Float#
-
-primop IndexOffAddrOp_Double "indexDoubleOffAddr#" GenPrimOp
- Addr# -> Int# -> Double#
-
-primop IndexOffAddrOp_StablePtr "indexStablePtrOffAddr#" GenPrimOp
- Addr# -> Int# -> StablePtr# a
-
-primop IndexOffAddrOp_Int8 "indexInt8OffAddr#" GenPrimOp
- Addr# -> Int# -> Int#
-
-primop IndexOffAddrOp_Int16 "indexInt16OffAddr#" GenPrimOp
- Addr# -> Int# -> Int#
-
-primop IndexOffAddrOp_Int32 "indexInt32OffAddr#" GenPrimOp
- Addr# -> Int# -> Int#
-
-#ifdef SUPPORT_LONG_LONGS
-primop IndexOffAddrOp_Int64 "indexInt64OffAddr#" GenPrimOp
- Addr# -> Int# -> Int64#
-#endif
-
-primop IndexOffAddrOp_Word8 "indexWord8OffAddr#" GenPrimOp
- Addr# -> Int# -> Word#
-
-primop IndexOffAddrOp_Word16 "indexWord16OffAddr#" GenPrimOp
- Addr# -> Int# -> Word#
-
-primop IndexOffAddrOp_Word32 "indexWord32OffAddr#" GenPrimOp
- Addr# -> Int# -> Word#
-
-#ifdef SUPPORT_LONG_LONGS
-primop IndexOffAddrOp_Word64 "indexWord64OffAddr#" GenPrimOp
- Addr# -> Int# -> Word64#
-#endif
-
-
-primop EqForeignObj "eqForeignObj#" GenPrimOp
- ForeignObj# -> ForeignObj# -> Bool
- with commutable = True
-
-primop IndexOffForeignObjOp_Char "indexCharOffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Char#
-
-primop IndexOffForeignObjOp_WideChar "indexWideCharOffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Char#
-
-primop IndexOffForeignObjOp_Int "indexIntOffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Int#
-
-primop IndexOffForeignObjOp_Word "indexWordOffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Word#
-
-primop IndexOffForeignObjOp_Addr "indexAddrOffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Addr#
-
-primop IndexOffForeignObjOp_Float "indexFloatOffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Float#
-
-primop IndexOffForeignObjOp_Double "indexDoubleOffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Double#
-
-primop IndexOffForeignObjOp_StablePtr "indexStablePtrOffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> StablePtr# a
-
-primop IndexOffForeignObjOp_Int8 "indexInt8OffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Int#
-
-primop IndexOffForeignObjOp_Int16 "indexInt16OffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Int#
-
-primop IndexOffForeignObjOp_Int32 "indexInt32OffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Int#
-
-#ifdef SUPPORT_LONG_LONGS
-primop IndexOffForeignObjOp_Int64 "indexInt64OffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Int64#
-#endif
-
-primop IndexOffForeignObjOp_Word8 "indexWord8OffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Word#
-
-primop IndexOffForeignObjOp_Word16 "indexWord16OffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Word#
-
-primop IndexOffForeignObjOp_Word32 "indexWord32OffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Word#
-
-#ifdef SUPPORT_LONG_LONGS
-primop IndexOffForeignObjOp_Word64 "indexWord64OffForeignObj#" GenPrimOp
- ForeignObj# -> Int# -> Word64#
-#endif
-
-primop ReadOffAddrOp_Char "readCharOffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Char# #)
-
-primop ReadOffAddrOp_WideChar "readWideCharOffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Char# #)
-
-primop ReadOffAddrOp_Int "readIntOffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Int# #)
-
-primop ReadOffAddrOp_Word "readWordOffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Word# #)
-
-primop ReadOffAddrOp_Addr "readAddrOffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Addr# #)
-
-primop ReadOffAddrOp_Float "readFloatOffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Float# #)
-
-primop ReadOffAddrOp_Double "readDoubleOffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Double# #)
-
-primop ReadOffAddrOp_StablePtr "readStablePtrOffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, StablePtr# a #)
-
-primop ReadOffAddrOp_Int8 "readInt8OffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Int# #)
-
-primop ReadOffAddrOp_Int16 "readInt16OffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Int# #)
-
-primop ReadOffAddrOp_Int32 "readInt32OffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Int# #)
-
-#ifdef SUPPORT_LONG_LONGS
-primop ReadOffAddrOp_Int64 "readInt64OffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Int64# #)
-#endif
-
-primop ReadOffAddrOp_Word8 "readWord8OffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Word# #)
-
-primop ReadOffAddrOp_Word16 "readWord16OffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Word# #)
-
-primop ReadOffAddrOp_Word32 "readWord32OffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Word# #)
-
-#ifdef SUPPORT_LONG_LONGS
-primop ReadOffAddrOp_Word64 "readWord64OffAddr#" GenPrimOp
- Addr# -> Int# -> State# s -> (# State# s, Word64# #)
-#endif
-
-
-primop WriteOffAddrOp_Char "writeCharOffAddr#" GenPrimOp
- Addr# -> Int# -> Char# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_WideChar "writeWideCharOffAddr#" GenPrimOp
- Addr# -> Int# -> Char# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_Int "writeIntOffAddr#" GenPrimOp
- Addr# -> Int# -> Int# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_Word "writeWordOffAddr#" GenPrimOp
- Addr# -> Int# -> Word# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_Addr "writeAddrOffAddr#" GenPrimOp
- Addr# -> Int# -> Addr# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_ForeignObj "writeForeignObjOffAddr#" GenPrimOp
- Addr# -> Int# -> ForeignObj# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_Float "writeFloatOffAddr#" GenPrimOp
- Addr# -> Int# -> Float# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_Double "writeDoubleOffAddr#" GenPrimOp
- Addr# -> Int# -> Double# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_StablePtr "writeStablePtrOffAddr#" GenPrimOp
- Addr# -> Int# -> StablePtr# a -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_Int8 "writeInt8OffAddr#" GenPrimOp
- Addr# -> Int# -> Int# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_Int16 "writeInt16OffAddr#" GenPrimOp
- Addr# -> Int# -> Int# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_Int32 "writeInt32OffAddr#" GenPrimOp
- Addr# -> Int# -> Int# -> State# s -> State# s
- with has_side_effects = True
-
-#ifdef SUPPORT_LONG_LONGS
-primop WriteOffAddrOp_Int64 "writeInt64OffAddr#" GenPrimOp
- Addr# -> Int# -> Int64# -> State# s -> State# s
- with has_side_effects = True
-#endif
-
-primop WriteOffAddrOp_Word8 "writeWord8OffAddr#" GenPrimOp
- Addr# -> Int# -> Word# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_Word16 "writeWord16OffAddr#" GenPrimOp
- Addr# -> Int# -> Word# -> State# s -> State# s
- with has_side_effects = True
-
-primop WriteOffAddrOp_Word32 "writeWord32OffAddr#" GenPrimOp
- Addr# -> Int# -> Word# -> State# s -> State# s
- with has_side_effects = True
-
-#ifdef SUPPORT_LONG_LONGS
-primop WriteOffAddrOp_Word64 "writeWord64OffAddr#" GenPrimOp
- Addr# -> Int# -> Word64# -> State# s -> State# s
- with has_side_effects = True
-#endif
-
-
-
-primop SameMutableArrayOp "sameMutableArray#" GenPrimOp
- MutArr# s a -> MutArr# s a -> Bool
- with
- usage = { mangle SameMutableArrayOp [mkP, mkP] mkM }
-
-primop SameMutableByteArrayOp "sameMutableByteArray#" GenPrimOp
- MutByteArr# s -> MutByteArr# s -> Bool
-
-primop ReadArrayOp "readArray#" GenPrimOp
- MutArr# s a -> Int# -> State# s -> (# State# s, a #)
- with
- usage = { mangle ReadArrayOp [mkM, mkP, mkP] mkM }
-
-primop WriteArrayOp "writeArray#" GenPrimOp
- MutArr# s a -> Int# -> a -> State# s -> State# s
- with
- usage = { mangle WriteArrayOp [mkM, mkP, mkM, mkP] mkR }
- strictness = { \ arity -> StrictnessInfo [wwPrim, wwPrim, wwLazy, wwPrim] False }
- has_side_effects = True
-
-primop IndexArrayOp "indexArray#" GenPrimOp
- Array# a -> Int# -> (# a #)
- with
- usage = { mangle IndexArrayOp [mkM, mkP] mkM }
-
-primop UnsafeFreezeArrayOp "unsafeFreezeArray#" GenPrimOp
- MutArr# s a -> State# s -> (# State# s, Array# a #)
- with
- usage = { mangle UnsafeFreezeArrayOp [mkM, mkP] mkM }
- has_side_effects = True
-
-primop UnsafeFreezeByteArrayOp "unsafeFreezeByteArray#" GenPrimOp
- MutByteArr# s -> State# s -> (# State# s, ByteArr# #)
- with
- has_side_effects = True
-
-primop UnsafeThawArrayOp "unsafeThawArray#" GenPrimOp
- Array# a -> State# s -> (# State# s, MutArr# s a #)
- with
- usage = { mangle UnsafeThawArrayOp [mkM, mkP] mkM }
- out_of_line = True
-
-primop SizeofByteArrayOp "sizeofByteArray#" GenPrimOp
- ByteArr# -> Int#
-
-primop SizeofMutableByteArrayOp "sizeofMutableByteArray#" GenPrimOp
- MutByteArr# s -> Int#
-
-------------------------------------------------------------------------
---- Mutable variables ---
-------------------------------------------------------------------------
-
-primop NewMutVarOp "newMutVar#" GenPrimOp
- a -> State# s -> (# State# s, MutVar# s a #)
- with
- usage = { mangle NewMutVarOp [mkM, mkP] mkM }
- strictness = { \ arity -> StrictnessInfo [wwLazy, wwPrim] False }
- out_of_line = True
-
-primop ReadMutVarOp "readMutVar#" GenPrimOp
- MutVar# s a -> State# s -> (# State# s, a #)
- with
- usage = { mangle ReadMutVarOp [mkM, mkP] mkM }
-
-primop WriteMutVarOp "writeMutVar#" GenPrimOp
- MutVar# s a -> a -> State# s -> State# s
- with
- strictness = { \ arity -> StrictnessInfo [wwPrim, wwLazy, wwPrim] False }
- usage = { mangle WriteMutVarOp [mkM, mkM, mkP] mkR }
- has_side_effects = True
-
-primop SameMutVarOp "sameMutVar#" GenPrimOp
- MutVar# s a -> MutVar# s a -> Bool
- with
- usage = { mangle SameMutVarOp [mkP, mkP] mkM }
-
-------------------------------------------------------------------------
---- Exceptions ---
-------------------------------------------------------------------------
-
-primop CatchOp "catch#" GenPrimOp
- (State# RealWorld -> (# State# RealWorld, a #) )
- -> (b -> State# RealWorld -> (# State# RealWorld, a #) )
- -> State# RealWorld
- -> (# State# RealWorld, a #)
- with
- strictness = { \ arity -> StrictnessInfo [wwLazy, wwLazy, wwPrim] False }
- -- Catch is actually strict in its first argument
- -- but we don't want to tell the strictness
- -- analyser about that!
- usage = { mangle CatchOp [mkM, mkM . (inFun CatchOp mkM mkM), mkP] mkM }
- -- [mkO, mkO . (inFun mkM mkO)] mkO
- -- might use caught action multiply
- out_of_line = True
-
-primop RaiseOp "raise#" GenPrimOp
- a -> b
- with
- strictness = { \ arity -> StrictnessInfo [wwLazy] True }
- -- NB: True => result is bottom
- usage = { mangle RaiseOp [mkM] mkM }
- out_of_line = True
-
-primop BlockAsyncExceptionsOp "blockAsyncExceptions#" GenPrimOp
- (State# RealWorld -> (# State# RealWorld, a #))
- -> (State# RealWorld -> (# State# RealWorld, a #))
- with
- strictness = { \ arity -> StrictnessInfo [wwLazy,wwPrim] False }
- out_of_line = True
-
-primop UnblockAsyncExceptionsOp "unblockAsyncExceptions#" GenPrimOp
- (State# RealWorld -> (# State# RealWorld, a #))
- -> (State# RealWorld -> (# State# RealWorld, a #))
- with
- strictness = { \ arity -> StrictnessInfo [wwLazy,wwPrim] False }
- out_of_line = True
-
-------------------------------------------------------------------------
---- MVars (not the same as mutable variables!) ---
-------------------------------------------------------------------------
-
-primop NewMVarOp "newMVar#" GenPrimOp
- State# s -> (# State# s, MVar# s a #)
- with
- usage = { mangle NewMVarOp [mkP] mkR }
- out_of_line = True
-
-primop TakeMVarOp "takeMVar#" GenPrimOp
- MVar# s a -> State# s -> (# State# s, a #)
- with
- usage = { mangle TakeMVarOp [mkM, mkP] mkM }
- has_side_effects = True
- out_of_line = True
-
-primop TryTakeMVarOp "tryTakeMVar#" GenPrimOp
- MVar# s a -> State# s -> (# State# s, Int#, a #)
- with
- usage = { mangle TryTakeMVarOp [mkM, mkP] mkM }
- has_side_effects = True
- out_of_line = True
-
-primop PutMVarOp "putMVar#" GenPrimOp
- MVar# s a -> a -> State# s -> State# s
- with
- strictness = { \ arity -> StrictnessInfo [wwPrim, wwLazy, wwPrim] False }
- usage = { mangle PutMVarOp [mkM, mkM, mkP] mkR }
- has_side_effects = True
- out_of_line = True
-
-primop TryPutMVarOp "tryPutMVar#" GenPrimOp
- MVar# s a -> a -> State# s -> (# State# s, Int# #)
- with
- strictness = { \ arity -> StrictnessInfo [wwPrim, wwLazy, wwPrim] False }
- usage = { mangle TryPutMVarOp [mkM, mkM, mkP] mkR }
- has_side_effects = True
- out_of_line = True
-
-primop SameMVarOp "sameMVar#" GenPrimOp
- MVar# s a -> MVar# s a -> Bool
- with
- usage = { mangle SameMVarOp [mkP, mkP] mkM }
-
-primop IsEmptyMVarOp "isEmptyMVar#" GenPrimOp
- MVar# s a -> State# s -> (# State# s, Int# #)
- with
- usage = { mangle IsEmptyMVarOp [mkP, mkP] mkM }
-
-
-------------------------------------------------------------------------
---- delay/wait operations ---
-------------------------------------------------------------------------
-
-primop DelayOp "delay#" GenPrimOp
- Int# -> State# s -> State# s
- with
- needs_wrapper = True
- has_side_effects = True
- out_of_line = True
-
-primop WaitReadOp "waitRead#" GenPrimOp
- Int# -> State# s -> State# s
- with
- needs_wrapper = True
- has_side_effects = True
- out_of_line = True
-
-primop WaitWriteOp "waitWrite#" GenPrimOp
- Int# -> State# s -> State# s
- with
- needs_wrapper = True
- has_side_effects = True
- out_of_line = True
-
-------------------------------------------------------------------------
---- concurrency primitives ---
-------------------------------------------------------------------------
-
-primop ForkOp "fork#" GenPrimOp
- a -> State# RealWorld -> (# State# RealWorld, ThreadId# #)
- with
- usage = { mangle ForkOp [mkO, mkP] mkR }
- strictness = { \ arity -> StrictnessInfo [wwLazy, wwPrim] False }
- has_side_effects = True
- out_of_line = True
-
-primop KillThreadOp "killThread#" GenPrimOp
- ThreadId# -> a -> State# RealWorld -> State# RealWorld
- with
- usage = { mangle KillThreadOp [mkP, mkM, mkP] mkR }
- has_side_effects = True
- out_of_line = True
-
-primop YieldOp "yield#" GenPrimOp
- State# RealWorld -> State# RealWorld
- with
- has_side_effects = True
- out_of_line = True
-
-primop MyThreadIdOp "myThreadId#" GenPrimOp
- State# RealWorld -> (# State# RealWorld, ThreadId# #)
-
-------------------------------------------------------------------------
---- foreign objects ---
-------------------------------------------------------------------------
-
-primop MkForeignObjOp "mkForeignObj#" GenPrimOp
- Addr# -> State# RealWorld -> (# State# RealWorld, ForeignObj# #)
- with
- has_side_effects = True
- out_of_line = True
-
-primop WriteForeignObjOp "writeForeignObj#" GenPrimOp
- ForeignObj# -> Addr# -> State# s -> State# s
- with
- has_side_effects = True
-
-primop ForeignObjToAddrOp "foreignObjToAddr#" GenPrimOp
- ForeignObj# -> Addr#
-
-primop TouchOp "touch#" GenPrimOp
- o -> State# RealWorld -> State# RealWorld
- with
- has_side_effects = True
- strictness = { \ arity -> StrictnessInfo [wwLazy, wwPrim] False }
-
-------------------------------------------------------------------------
---- Weak pointers ---
-------------------------------------------------------------------------
-
--- note that tyvar "o" denotes openAlphaTyVar
-
-primop MkWeakOp "mkWeak#" GenPrimOp
- o -> b -> c -> State# RealWorld -> (# State# RealWorld, Weak# b #)
- with
- strictness = { \ arity -> StrictnessInfo [wwLazy, wwLazy, wwLazy, wwPrim] False }
- usage = { mangle MkWeakOp [mkZ, mkM, mkM, mkP] mkM }
- has_side_effects = True
- out_of_line = True
-
-primop DeRefWeakOp "deRefWeak#" GenPrimOp
- Weak# a -> State# RealWorld -> (# State# RealWorld, Int#, a #)
- with
- usage = { mangle DeRefWeakOp [mkM, mkP] mkM }
- has_side_effects = True
-
-primop FinalizeWeakOp "finalizeWeak#" GenPrimOp
- Weak# a -> State# RealWorld -> (# State# RealWorld, Int#,
- (State# RealWorld -> (# State# RealWorld, Unit #)) #)
- with
- usage = { mangle FinalizeWeakOp [mkM, mkP]
- (mkR . (inUB FinalizeWeakOp
- [id,id,inFun FinalizeWeakOp mkR mkM])) }
- has_side_effects = True
- out_of_line = True
-
-------------------------------------------------------------------------
---- Stable pointers and names ---
-------------------------------------------------------------------------
-
-primop MakeStablePtrOp "makeStablePtr#" GenPrimOp
- a -> State# RealWorld -> (# State# RealWorld, StablePtr# a #)
- with
- strictness = { \ arity -> StrictnessInfo [wwLazy, wwPrim] False }
- usage = { mangle MakeStablePtrOp [mkM, mkP] mkM }
- has_side_effects = True
-
-primop DeRefStablePtrOp "deRefStablePtr#" GenPrimOp
- StablePtr# a -> State# RealWorld -> (# State# RealWorld, a #)
- with
- usage = { mangle DeRefStablePtrOp [mkM, mkP] mkM }
- needs_wrapper = True
- has_side_effects = True
-
-primop EqStablePtrOp "eqStablePtr#" GenPrimOp
- StablePtr# a -> StablePtr# a -> Int#
- with
- usage = { mangle EqStablePtrOp [mkP, mkP] mkR }
- has_side_effects = True
-
-primop MakeStableNameOp "makeStableName#" GenPrimOp
- a -> State# RealWorld -> (# State# RealWorld, StableName# a #)
- with
- usage = { mangle MakeStableNameOp [mkZ, mkP] mkR }
- strictness = { \ arity -> StrictnessInfo [wwLazy, wwPrim] False }
- needs_wrapper = True
- has_side_effects = True
- out_of_line = True
-
-primop EqStableNameOp "eqStableName#" GenPrimOp
- StableName# a -> StableName# a -> Int#
- with
- usage = { mangle EqStableNameOp [mkP, mkP] mkR }
-
-primop StableNameToIntOp "stableNameToInt#" GenPrimOp
- StableName# a -> Int#
- with
- usage = { mangle StableNameToIntOp [mkP] mkR }
-
-------------------------------------------------------------------------
---- Unsafe pointer equality (#1 Bad Guy: Alistair Reid :) ---
-------------------------------------------------------------------------
-
-primop ReallyUnsafePtrEqualityOp "reallyUnsafePtrEquality#" GenPrimOp
- a -> a -> Int#
- with
- usage = { mangle ReallyUnsafePtrEqualityOp [mkZ, mkZ] mkR }
-
-------------------------------------------------------------------------
---- Parallelism ---
-------------------------------------------------------------------------
-
-primop SeqOp "seq#" GenPrimOp
- a -> Int#
- with
- usage = { mangle SeqOp [mkO] mkR }
- strictness = { \ arity -> StrictnessInfo [wwStrict] False }
- -- Seq is strict in its argument; see notes in ConFold.lhs
- has_side_effects = True
-
-primop ParOp "par#" GenPrimOp
- a -> Int#
- with
- usage = { mangle ParOp [mkO] mkR }
- strictness = { \ arity -> StrictnessInfo [wwLazy] False }
- -- Note that Par is lazy to avoid that the sparked thing
- -- gets evaluted strictly, which it should *not* be
- has_side_effects = True
-
--- HWL: The first 4 Int# in all par... annotations denote:
--- name, granularity info, size of result, degree of parallelism
--- Same structure as _seq_ i.e. returns Int#
--- KSW: v, the second arg in parAt# and parAtForNow#, is used only to determine
--- `the processor containing the expression v'; it is not evaluated
-
-primop ParGlobalOp "parGlobal#" GenPrimOp
- a -> Int# -> Int# -> Int# -> Int# -> b -> Int#
- with
- usage = { mangle ParGlobalOp [mkO, mkP, mkP, mkP, mkP, mkM] mkM }
- has_side_effects = True
-
-primop ParLocalOp "parLocal#" GenPrimOp
- a -> Int# -> Int# -> Int# -> Int# -> b -> Int#
- with
- usage = { mangle ParLocalOp [mkO, mkP, mkP, mkP, mkP, mkM] mkM }
- has_side_effects = True
-
-primop ParAtOp "parAt#" GenPrimOp
- b -> a -> Int# -> Int# -> Int# -> Int# -> c -> Int#
- with
- usage = { mangle ParAtOp [mkO, mkZ, mkP, mkP, mkP, mkP, mkM] mkM }
- has_side_effects = True
-
-primop ParAtAbsOp "parAtAbs#" GenPrimOp
- a -> Int# -> Int# -> Int# -> Int# -> Int# -> b -> Int#
- with
- usage = { mangle ParAtAbsOp [mkO, mkP, mkP, mkP, mkP, mkM] mkM }
- has_side_effects = True
-
-primop ParAtRelOp "parAtRel#" GenPrimOp
- a -> Int# -> Int# -> Int# -> Int# -> Int# -> b -> Int#
- with
- usage = { mangle ParAtRelOp [mkO, mkP, mkP, mkP, mkP, mkM] mkM }
- has_side_effects = True
-
-primop ParAtForNowOp "parAtForNow#" GenPrimOp
- b -> a -> Int# -> Int# -> Int# -> Int# -> c -> Int#
- with
- usage = { mangle ParAtForNowOp [mkO, mkZ, mkP, mkP, mkP, mkP, mkM] mkM }
- has_side_effects = True
-
--- copyable# and noFollow# are yet to be implemented (for GpH)
---
---primop CopyableOp "copyable#" GenPrimOp
--- a -> Int#
--- with
--- usage = { mangle CopyableOp [mkZ] mkR }
--- has_side_effects = True
---
---primop NoFollowOp "noFollow#" GenPrimOp
--- a -> Int#
--- with
--- usage = { mangle NoFollowOp [mkZ] mkR }
--- has_side_effects = True
-
-
-------------------------------------------------------------------------
---- tag to enum stuff ---
-------------------------------------------------------------------------
-
-primop DataToTagOp "dataToTag#" GenPrimOp
- a -> Int#
- with
- strictness = { \ arity -> StrictnessInfo [wwLazy] False }
-
-primop TagToEnumOp "tagToEnum#" GenPrimOp
- Int# -> a
-
-
-thats_all_folks
-
-------------------------------------------------------------------------
---- ---
-------------------------------------------------------------------------
-
projects / ghc-hetmet.git / blobdiff