1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
|
{- --------------------------------------------------------------------------
// Dirty CPP hackery for CTypes/CTypesISO
//
// (c) The FFI task force, 2000
// --------------------------------------------------------------------------
-}
#ifndef CTYPES__H
#define CTYPES__H
{-
// As long as there is no automatic derivation of classes for newtypes we resort
// to extremely dirty cpp-hackery. :-P Some care has to be taken when the
// macros below are modified, otherwise the layout rule will bite you.
-}
-- // GHC can derive any class for a newtype, so we make use of that here...
#define ARITHMETIC_CLASSES Eq,Ord,Num,Enum,Storable,Real
#define INTEGRAL_CLASSES Bounded,Integral,Bits,FiniteBits
#define FLOATING_CLASSES Fractional,Floating,RealFrac,RealFloat
#define OPAQUE_CLASSES Eq,Ord,Storable
#define ARITHMETIC_TYPE(T,B) \
newtype T = T B deriving (ARITHMETIC_CLASSES) \
deriving newtype (Read, Show);
#define INTEGRAL_TYPE(T,B) \
newtype T = T B deriving (ARITHMETIC_CLASSES, INTEGRAL_CLASSES) \
deriving newtype (Read, Show);
#define INTEGRAL_TYPE_WITH_CTYPE(T,THE_CTYPE,B) \
newtype {-# CTYPE "THE_CTYPE" #-} T = T B \
deriving (ARITHMETIC_CLASSES, INTEGRAL_CLASSES) \
deriving newtype (Read, Show);
#define FLOATING_TYPE(T,B) \
newtype T = T B deriving (ARITHMETIC_CLASSES, FLOATING_CLASSES) \
deriving newtype (Read, Show);
#define FLOATING_TYPE_WITH_CTYPE(T,THE_CTYPE,B) \
newtype {-# CTYPE "THE_CTYPE" #-} T = T B \
deriving (ARITHMETIC_CLASSES, FLOATING_CLASSES) \
deriving newtype (Read, Show);
#define OPAQUE_TYPE_WITH_CTYPE(T,THE_CTYPE,B) \
newtype {-# CTYPE "THE_CTYPE" #-} T = T (B) \
deriving (OPAQUE_CLASSES) \
deriving newtype Show;
#endif
|