dnl kcore/type.h.m → <k/type.h>
dnl ~ lexi hale <lexi@hale.su>
dnl this file gathers information on the environment it's
dnl being compiled in, defining types that our code
dnl needs. it will be emitted as <k/type.h>.
dnl vim: ft=c
changequote(`“',`”')
#ifndef KItype
#define KItype
/* we define 64-bit types first due to an oddity in how
* 128-bit types are handled: we want kc_?big to reference
* the absolute largest type available to the compiler,
* but in some cases, 128-bits may not be among the
* standard C types despite being supported by the
* compiler. to work around this, we first check whether
* 64-bit types are available (__int128_t only works on
* 64-bit systems) and then whether the compiler is one
* that supports the 128-bit extension - but only if a
* native 128-bit type is not available.
*
* once this is done, we can be certain that u128 will
* reference the largest available integer type and can
* safely define kc_?big by reference to it. */
ifdef(“type_bit64”,“
typedef unsigned type_bit64 u64;
typedef signed type_bit64 s64;
ifdef(“type_bit128”,,“
/* even if no native type is 128 bits long, clang and
* gcc have extensions to support 128 bit arithmetic
* on 64-bit hardware */
# if defined(__GNUC__) || defined(__clang__)
typedef __uint128_t u128;
typedef __int128_t s128;
# else
/* if we don`'t have access to that extension
* or native 128-bit types, then we just use
* the largest native type specified in the
* C standard */
typedef unsigned long long u128;
typedef signed long long s128;
# endif
”)”,“dnl
typedef unsigned long long u64;
typedef signed long long s64;
typedef u64 u128;
typedef s64 s128;
”)dnl
ifdef(“type_bit128”,“dnl
typedef unsigned type_bit128 u128;
typedef signed type_bit128 s128;
”)dnl
typedef unsigned char ubyte;
typedef signed char sbyte;
typedef u128 ubig;
typedef s128 sbig;
ifdef(“type_bit8”,“dnl
typedef unsigned type_bit8 u8;
typedef signed type_bit8 s8;
”,“dnl
typedef ubyte u8;
typedef sbyte s8;
”)dnl
ifdef(“type_bit16”,“
typedef unsigned type_bit16 u16;
typedef signed type_bit16 s16;
”,“
typedef ubig u16;
typedef sbig s16;
”)dnl
ifdef(“type_bit32”,“
typedef unsigned type_bit32 u32;
typedef signed type_bit32 s32;
”,“
typedef ubig u32;
typedef sbig s32;
”)dnl
define(“cat”, “$1$2”)
typedef enum kcendian {
kcendian_high,
kcendian_low,
kcendian_system = cat(kcendian_,prop_endian),
} kcendian;
enum /* max-min values of each type */ {
byte_bits = arch_byte_bits,
u8_min = 0, u8_max = ((u8)-1),
u16_min = 0, u16_max = ((u16)-1),
u32_min = 0, u32_max = ((u32)-1),
u64_min = 0, u64_max = ((u64)-1),
u128_min = 0, u128_max = ((u128)-1),
/* assuming two's complement. TODO: check math */
define(“sspec”,“
$1_min = 0 - ((1 << sizeof($1) * byte_bits) / 2),
$1_max = (1 << sizeof($1) * byte_bits) / 2 - 1”)dnl
sspec(s8), sspec(s16), sspec(s32),
sspec(s64), sspec(s128),
kc_uchar_min = 0, kc_uchar_max = type_max_u_char,
kc_ushort_min = 0, kc_ushort_max = type_max_u_short,
kc_uint_min = 0, kc_uint_max = type_max_u_int,
kc_ulong_min = 0, kc_ulong_max = type_max_u_long,
kc_ullong_min = 0, kc_ullong_max = type_max_u_llong,
kc_schar_min = type_min_s_char, kc_schar_max = type_max_s_char,
kc_sshort_min = type_min_s_short, kc_sshort_max = type_max_s_short,
kc_sint_min = type_min_s_int, kc_sint_max = type_max_s_int,
kc_slong_min = type_min_s_long, kc_slong_max = type_max_s_long,
kc_sllong_min = type_min_s_llong, kc_sllong_max = type_max_s_llong,
ubig_min = u128_min, ubig_max = u128_max,
sbig_min = s128_min, sbig_max = s128_max,
ubyte_min = kc_uchar_min, ubyte_max = kc_uchar_max,
sbyte_min = kc_schar_min, sbyte_max = kc_schar_max,
};
ifdef(“type_sz”,“
typedef type_sz sz;
”,“dnl
# ifdef __cplusplus
/* C++ gives us a clean, standardized way to do this */
typedef decltype (sizeof(char)) sz;
# else
# if defined(__GNUC__) || defined(__clang__)
typedef __typeof__ (sizeof(char)) sz;
# else
/* we're stumped - set sz to the safest possible value under
* the circumstances, and warn the user. */
# warning no authoritative sz (size_t) type definition \
available; defaulting to largest unsigned integer type
typedef ubig sz;
# endif
# endif
”)dnl
ifdef(“type_offset”,“
typedef type_offset offset;
”,“dnl
# ifdef __cplusplus
/* C++ gives us a clean, standardized way to do this */
typedef decltype (((void*)-1) - 1) offset;
# else
# if defined(__GNUC__) || defined(__clang__)
typedef __typeof__ (((void*)10) - ((void*)5)) offset;
# else
/* no dice - set offset to the safest possible value under
* the circumstances, and warn the user. */
# warning no authoritative offset (ptrdiff_t) type definition \
available; defaulting to largest unsigned integer type
typedef sbig offset;
# endif
# endif
”)dnl
// exit status integer types - pls use kbad in <k/magic.h> instead
ifelse(target_posix,“yes”,“
/* by convention, posix return values are 8-bit,
* but note that many modern UNIXes do technically
* support higher-bit values. for this reason,
* longstat is defined differently under posix. */
typedef u8 stat;
typedef u32 stat_long;
”,“dnl
ifelse(atom_target_os,“win”,“
typedef u32 stat;
”,“dnl
ifelse(atom_target_os,“vms”,“
typedef u32 stat;
”,“dnl
typedef u8 stat;
/* we don't know a specific exit status type
* for your arch so we're going with a sane
* default. if this is wrong, help us fix it! */
”)”)dnl
typedef stat stat_long;
”)dnl
#endif