/* Copyright (c) 2016-2018 Chung, Hyung-Hwan. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE AUTHOR "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef _HCL_CMN_H_ #define _HCL_CMN_H_ /* WARNING: NEVER CHANGE/DELETE THE FOLLOWING HCL_HAVE_CFG_H DEFINITION. * IT IS USED FOR DEPLOYMENT BY MAKEFILE.AM */ /*#define HCL_HAVE_CFG_H*/ #if defined(HCL_HAVE_CFG_H) # include #elif defined(_WIN32) # include #elif defined(__OS2__) # include #elif defined(__DOS__) || defined(__MSDOS__) # if defined(__MSDOS__) && !defined(__DOS__) # define __DOS__ __MSDOS__ # endif # include #elif defined(macintosh) # include /* classic mac os */ #else # error UNSUPPORTED SYSTEM #endif /* ========================================================================= * ARCHITECTURE/COMPILER TWEAKS * ========================================================================= */ #if defined(EMSCRIPTEN) # if defined(HCL_SIZEOF___INT128) # undef HCL_SIZEOF___INT128 # define HCL_SIZEOF___INT128 0 # endif # if defined(HCL_SIZEOF_LONG) && defined(HCL_SIZEOF_INT) && (HCL_SIZEOF_LONG > HCL_SIZEOF_INT) /* autoconf doesn't seem to match actual emscripten */ # undef HCL_SIZEOF_LONG # define HCL_SIZEOF_LONG HCL_SIZEOF_INT # endif #endif #if defined(__GNUC__) && defined(__arm__) && !defined(__ARM_ARCH) # if defined(__ARM_ARCH_8__) # define __ARM_ARCH 8 # elif defined(__ARM_ARCH_7__) # define __ARM_ARCH 7 # elif defined(__ARM_ARCH_6__) # define __ARM_ARCH 6 # elif defined(__ARM_ARCH_5__) # define __ARM_ARCH 5 # elif defined(__ARM_ARCH_4__) # define __ARM_ARCH 4 # endif #endif /* ========================================================================= * PRIMITIVE TYPE DEFINTIONS * ========================================================================= */ /* hcl_int8_t */ #if defined(HCL_SIZEOF_CHAR) && (HCL_SIZEOF_CHAR == 1) # define HCL_HAVE_UINT8_T # define HCL_HAVE_INT8_T # define HCL_SIZEOF_UINT8_T (HCL_SIZEOF_CHAR) # define HCL_SIZEOF_INT8_T (HCL_SIZEOF_CHAR) typedef unsigned char hcl_uint8_t; typedef signed char hcl_int8_t; #elif defined(HCL_SIZEOF___INT8) && (HCL_SIZEOF___INT8 == 1) # define HCL_HAVE_UINT8_T # define HCL_HAVE_INT8_T # define HCL_SIZEOF_UINT8_T (HCL_SIZEOF___INT8) # define HCL_SIZEOF_INT8_T (HCL_SIZEOF___INT8) typedef unsigned __int8 hcl_uint8_t; typedef signed __int8 hcl_int8_t; #elif defined(HCL_SIZEOF___INT8_T) && (HCL_SIZEOF___INT8_T == 1) # define HCL_HAVE_UINT8_T # define HCL_HAVE_INT8_T # define HCL_SIZEOF_UINT8_T (HCL_SIZEOF___INT8_T) # define HCL_SIZEOF_INT8_T (HCL_SIZEOF___INT8_T) typedef unsigned __int8_t hcl_uint8_t; typedef signed __int8_t hcl_int8_t; #else # define HCL_HAVE_UINT8_T # define HCL_HAVE_INT8_T # define HCL_SIZEOF_UINT8_T (1) # define HCL_SIZEOF_INT8_T (1) typedef unsigned char hcl_uint8_t; typedef signed char hcl_int8_t; #endif /* hcl_int16_t */ #if defined(HCL_SIZEOF_SHORT) && (HCL_SIZEOF_SHORT == 2) # define HCL_HAVE_UINT16_T # define HCL_HAVE_INT16_T # define HCL_SIZEOF_UINT16_T (HCL_SIZEOF_SHORT) # define HCL_SIZEOF_INT16_T (HCL_SIZEOF_SHORT) typedef unsigned short int hcl_uint16_t; typedef signed short int hcl_int16_t; #elif defined(HCL_SIZEOF___INT16) && (HCL_SIZEOF___INT16 == 2) # define HCL_HAVE_UINT16_T # define HCL_HAVE_INT16_T # define HCL_SIZEOF_UINT16_T (HCL_SIZEOF___INT16) # define HCL_SIZEOF_INT16_T (HCL_SIZEOF___INT16) typedef unsigned __int16 hcl_uint16_t; typedef signed __int16 hcl_int16_t; #elif defined(HCL_SIZEOF___INT16_T) && (HCL_SIZEOF___INT16_T == 2) # define HCL_HAVE_UINT16_T # define HCL_HAVE_INT16_T # define HCL_SIZEOF_UINT16_T (HCL_SIZEOF___INT16_T) # define HCL_SIZEOF_INT16_T (HCL_SIZEOF___INT16_T) typedef unsigned __int16_t hcl_uint16_t; typedef signed __int16_t hcl_int16_t; #else # define HCL_HAVE_UINT16_T # define HCL_HAVE_INT16_T # define HCL_SIZEOF_UINT16_T (2) # define HCL_SIZEOF_INT16_T (2) typedef unsigned short int hcl_uint16_t; typedef signed short int hcl_int16_t; #endif /* hcl_int32_t */ #if defined(HCL_SIZEOF_INT) && (HCL_SIZEOF_INT == 4) # define HCL_HAVE_UINT32_T # define HCL_HAVE_INT32_T # define HCL_SIZEOF_UINT32_T (HCL_SIZEOF_INT) # define HCL_SIZEOF_INT32_T (HCL_SIZEOF_INT) typedef unsigned int hcl_uint32_t; typedef signed int hcl_int32_t; #elif defined(HCL_SIZEOF_LONG) && (HCL_SIZEOF_LONG == 4) # define HCL_HAVE_UINT32_T # define HCL_HAVE_INT32_T # define HCL_SIZEOF_UINT32_T (HCL_SIZEOF_LONG) # define HCL_SIZEOF_INT32_T (HCL_SIZEOF_LONG) typedef unsigned long int hcl_uint32_t; typedef signed long int hcl_int32_t; #elif defined(HCL_SIZEOF___INT32) && (HCL_SIZEOF___INT32 == 4) # define HCL_HAVE_UINT32_T # define HCL_HAVE_INT32_T # define HCL_SIZEOF_UINT32_T (HCL_SIZEOF___INT32) # define HCL_SIZEOF_INT32_T (HCL_SIZEOF___INT32) typedef unsigned __int32 hcl_uint32_t; typedef signed __int32 hcl_int32_t; #elif defined(HCL_SIZEOF___INT32_T) && (HCL_SIZEOF___INT32_T == 4) # define HCL_HAVE_UINT32_T # define HCL_HAVE_INT32_T # define HCL_SIZEOF_UINT32_T (HCL_SIZEOF___INT32_T) # define HCL_SIZEOF_INT32_T (HCL_SIZEOF___INT32_T) typedef unsigned __int32_t hcl_uint32_t; typedef signed __int32_t hcl_int32_t; #elif defined(__DOS__) # define HCL_HAVE_UINT32_T # define HCL_HAVE_INT32_T # define HCL_SIZEOF_UINT32_T (4) # define HCL_SIZEOF_INT32_T (4) typedef unsigned long int hcl_uint32_t; typedef signed long int hcl_int32_t; #else # define HCL_HAVE_UINT32_T # define HCL_HAVE_INT32_T # define HCL_SIZEOF_UINT32_T (4) # define HCL_SIZEOF_INT32_T (4) typedef unsigned int hcl_uint32_t; typedef signed int hcl_int32_t; #endif /* hcl_int64_t */ #if defined(HCL_SIZEOF_INT) && (HCL_SIZEOF_INT == 8) # define HCL_HAVE_UINT64_T # define HCL_HAVE_INT64_T # define HCL_SIZEOF_UINT64_T (HCL_SIZEOF_INT) # define HCL_SIZEOF_INT64_T (HCL_SIZEOF_INT) typedef unsigned int hcl_uint64_t; typedef signed int hcl_int64_t; #elif defined(HCL_SIZEOF_LONG) && (HCL_SIZEOF_LONG == 8) # define HCL_HAVE_UINT64_T # define HCL_HAVE_INT64_T # define HCL_SIZEOF_UINT64_T (HCL_SIZEOF_LONG) # define HCL_SIZEOF_INT64_T (HCL_SIZEOF_LONG) typedef unsigned long int hcl_uint64_t; typedef signed long int hcl_int64_t; #elif defined(HCL_SIZEOF_LONG_LONG) && (HCL_SIZEOF_LONG_LONG == 8) # define HCL_HAVE_UINT64_T # define HCL_HAVE_INT64_T # define HCL_SIZEOF_UINT64_T (HCL_SIZEOF_LONG_LONG) # define HCL_SIZEOF_INT64_T (HCL_SIZEOF_LONG_LONG) typedef unsigned long long int hcl_uint64_t; typedef signed long long int hcl_int64_t; #elif defined(HCL_SIZEOF___INT64) && (HCL_SIZEOF___INT64 == 8) # define HCL_HAVE_UINT64_T # define HCL_HAVE_INT64_T # define HCL_SIZEOF_UINT64_T (HCL_SIZEOF_LONG___INT64) # define HCL_SIZEOF_INT64_T (HCL_SIZEOF_LONG___INT64) typedef unsigned __int64 hcl_uint64_t; typedef signed __int64 hcl_int64_t; #elif defined(HCL_SIZEOF___INT64_T) && (HCL_SIZEOF___INT64_T == 8) # define HCL_HAVE_UINT64_T # define HCL_HAVE_INT64_T # define HCL_SIZEOF_UINT64_T (HCL_SIZEOF_LONG___INT64_T) # define HCL_SIZEOF_INT64_T (HCL_SIZEOF_LONG___INT64_T) typedef unsigned __int64_t hcl_uint64_t; typedef signed __int64_t hcl_int64_t; #else /* no 64-bit integer */ #endif /* hcl_int128_t */ #if defined(HCL_SIZEOF_INT) && (HCL_SIZEOF_INT == 16) # define HCL_HAVE_UINT128_T # define HCL_HAVE_INT128_T # define HCL_SIZEOF_UINT128_T (HCL_SIZEOF_INT) # define HCL_SIZEOF_INT128_T (HCL_SIZEOF_INT) typedef unsigned int hcl_uint128_t; typedef signed int hcl_int128_t; #elif defined(HCL_SIZEOF_LONG) && (HCL_SIZEOF_LONG == 16) # define HCL_HAVE_UINT128_T # define HCL_HAVE_INT128_T # define HCL_SIZEOF_UINT128_T (HCL_SIZEOF_LONG) # define HCL_SIZEOF_INT128_T (HCL_SIZEOF_LONG) typedef unsigned long int hcl_uint128_t; typedef signed long int hcl_int128_t; #elif defined(HCL_SIZEOF_LONG_LONG) && (HCL_SIZEOF_LONG_LONG == 16) # define HCL_HAVE_UINT128_T # define HCL_HAVE_INT128_T # define HCL_SIZEOF_UINT128_T (HCL_SIZEOF_LONG_LONG) # define HCL_SIZEOF_INT128_T (HCL_SIZEOF_LONG_LONG) typedef unsigned long long int hcl_uint128_t; typedef signed long long int hcl_int128_t; #elif defined(HCL_SIZEOF___INT128) && (HCL_SIZEOF___INT128 == 16) # define HCL_HAVE_UINT128_T # define HCL_HAVE_INT128_T # define HCL_SIZEOF_UINT128_T (HCL_SIZEOF___INT128) # define HCL_SIZEOF_INT128_T (HCL_SIZEOF___INT128) typedef unsigned __int128 hcl_uint128_t; typedef signed __int128 hcl_int128_t; #elif defined(HCL_SIZEOF___INT128_T) && (HCL_SIZEOF___INT128_T == 16) # define HCL_HAVE_UINT128_T # define HCL_HAVE_INT128_T # define HCL_SIZEOF_UINT128_T (HCL_SIZEOF___INT128_T) # define HCL_SIZEOF_INT128_T (HCL_SIZEOF___INT128_T) #if defined(HCL_SIZEOF___UINT128_T) && (HCL_SIZEOF___UINT128_T == HCL_SIZEOF___INT128_T) typedef __uint128_t hcl_uint128_t; typedef __int128_t hcl_int128_t; #elif defined(__clang__) typedef __uint128_t hcl_uint128_t; typedef __int128_t hcl_int128_t; #else typedef unsigned __int128_t hcl_uint128_t; typedef signed __int128_t hcl_int128_t; #endif #else /* no 128-bit integer */ #endif #if defined(HCL_HAVE_UINT8_T) && (HCL_SIZEOF_VOID_P == 1) # error UNSUPPORTED POINTER SIZE #elif defined(HCL_HAVE_UINT16_T) && (HCL_SIZEOF_VOID_P == 2) typedef hcl_uint16_t hcl_uintptr_t; typedef hcl_int16_t hcl_intptr_t; typedef hcl_uint8_t hcl_ushortptr_t; typedef hcl_int8_t hcl_shortptr_t; #elif defined(HCL_HAVE_UINT32_T) && (HCL_SIZEOF_VOID_P == 4) typedef hcl_uint32_t hcl_uintptr_t; typedef hcl_int32_t hcl_intptr_t; typedef hcl_uint16_t hcl_ushortptr_t; typedef hcl_int16_t hcl_shortptr_t; #elif defined(HCL_HAVE_UINT64_T) && (HCL_SIZEOF_VOID_P == 8) typedef hcl_uint64_t hcl_uintptr_t; typedef hcl_int64_t hcl_intptr_t; typedef hcl_uint32_t hcl_ushortptr_t; typedef hcl_int32_t hcl_shortptr_t; #elif defined(HCL_HAVE_UINT128_T) && (HCL_SIZEOF_VOID_P == 16) typedef hcl_uint128_t hcl_uintptr_t; typedef hcl_int128_t hcl_intptr_t; typedef hcl_uint64_t hcl_ushortptr_t; typedef hcl_int64_t hcl_shortptr_t; #else # error UNKNOWN POINTER SIZE #endif #define HCL_SIZEOF_INTPTR_T HCL_SIZEOF_VOID_P #define HCL_SIZEOF_UINTPTR_T HCL_SIZEOF_VOID_P #define HCL_SIZEOF_SHORTPTR_T (HCL_SIZEOF_VOID_P / 2) #define HCL_SIZEOF_USHORTPTR_T (HCL_SIZEOF_VOID_P / 2) #if defined(HCL_HAVE_INT128_T) # define HCL_SIZEOF_INTMAX_T 16 # define HCL_SIZEOF_UINTMAX_T 16 typedef hcl_int128_t hcl_intmax_t; typedef hcl_uint128_t hcl_uintmax_t; #elif defined(HCL_HAVE_INT64_T) # define HCL_SIZEOF_INTMAX_T 8 # define HCL_SIZEOF_UINTMAX_T 8 typedef hcl_int64_t hcl_intmax_t; typedef hcl_uint64_t hcl_uintmax_t; #elif defined(HCL_HAVE_INT32_T) # define HCL_SIZEOF_INTMAX_T 4 # define HCL_SIZEOF_UINTMAX_T 4 typedef hcl_int32_t hcl_intmax_t; typedef hcl_uint32_t hcl_uintmax_t; #elif defined(HCL_HAVE_INT16_T) # define HCL_SIZEOF_INTMAX_T 2 # define HCL_SIZEOF_UINTMAX_T 2 typedef hcl_int16_t hcl_intmax_t; typedef hcl_uint16_t hcl_uintmax_t; #elif defined(HCL_HAVE_INT8_T) # define HCL_SIZEOF_INTMAX_T 1 # define HCL_SIZEOF_UINTMAX_T 1 typedef hcl_int8_t hcl_intmax_t; typedef hcl_uint8_t hcl_uintmax_t; #else # error UNKNOWN INTMAX SIZE #endif /* ========================================================================= * FLOATING-POINT TYPE * ========================================================================= */ /** \typedef hcl_fltbas_t * The hcl_fltbas_t type defines the largest floating-pointer number type * naturally supported. */ #if defined(__FreeBSD__) || defined(__MINGW32__) /* TODO: check if the support for long double is complete. * if so, use long double for hcl_flt_t */ typedef double hcl_fltbas_t; # define HCL_SIZEOF_FLTBAS_T HCL_SIZEOF_DOUBLE #elif HCL_SIZEOF_LONG_DOUBLE > HCL_SIZEOF_DOUBLE typedef long double hcl_fltbas_t; # define HCL_SIZEOF_FLTBAS_T HCL_SIZEOF_LONG_DOUBLE #else typedef double hcl_fltbas_t; # define HCL_SIZEOF_FLTBAS_T HCL_SIZEOF_DOUBLE #endif /** \typedef hcl_fltmax_t * The hcl_fltmax_t type defines the largest floating-pointer number type * ever supported. */ #if HCL_SIZEOF___FLOAT128 >= HCL_SIZEOF_FLTBAS_T /* the size of long double may be equal to the size of __float128 * for alignment on some platforms */ typedef __float128 hcl_fltmax_t; # define HCL_SIZEOF_FLTMAX_T HCL_SIZEOF___FLOAT128 # define HCL_FLTMAX_REQUIRE_QUADMATH 1 #else typedef hcl_fltbas_t hcl_fltmax_t; # define HCL_SIZEOF_FLTMAX_T HCL_SIZEOF_FLTBAS_T # undef HCL_FLTMAX_REQUIRE_QUADMATH #endif #if defined(HCL_USE_FLTMAX) typedef hcl_fltmax_t hcl_flt_t; #define HCL_SIZEOF_FLT_T HCL_SIZEOF_FLTMAX_T #else typedef hcl_fltbas_t hcl_flt_t; #define HCL_SIZEOF_FLT_T HCL_SIZEOF_FLTBAS_T #endif /* ========================================================================= * BASIC HARD-CODED DEFINES * ========================================================================= */ #define HCL_BITS_PER_BYTE (8) /* the maximum number of bch charaters to represent a single uch character */ #define HCL_BCSIZE_MAX 6 /* ========================================================================= * BASIC HCL TYPES * ========================================================================= */ typedef char hcl_bch_t; typedef int hcl_bci_t; typedef unsigned int hcl_bcu_t; typedef unsigned char hcl_bchu_t; /* unsigned version of hcl_bch_t for inner working */ #define HCL_SIZEOF_BCH_T HCL_SIZEOF_CHAR #define HCL_SIZEOF_BCI_T HCL_SIZEOF_INT #if defined(HCL_WIDE_CHAR_SIZE) && (HCL_WIDE_CHAR_SIZE >= 4) # if defined(__GNUC__) && defined(__CHAR32_TYPE__) typedef __CHAR32_TYPE__ hcl_uch_t; # else typedef hcl_uint32_t hcl_uch_t; # endif typedef hcl_uint32_t hcl_uchu_t; /* same as hcl_uch_t as it is already unsigned */ # define HCL_SIZEOF_UCH_T 4 #elif defined(__GNUC__) && defined(__CHAR16_TYPE__) typedef __CHAR16_TYPE__ hcl_uch_t; typedef hcl_uint16_t hcl_uchu_t; /* same as hcl_uch_t as it is already unsigned */ # define HCL_SIZEOF_UCH_T 2 #else typedef hcl_uint16_t hcl_uch_t; typedef hcl_uint16_t hcl_uchu_t; /* same as hcl_uch_t as it is already unsigned */ # define HCL_SIZEOF_UCH_T 2 #endif typedef hcl_int32_t hcl_uci_t; typedef hcl_uint32_t hcl_ucu_t; #define HCL_SIZEOF_UCI_T 4 typedef hcl_uint8_t hcl_oob_t; /* NOTE: sizeof(hcl_oop_t) must be equal to sizeof(hcl_oow_t) */ typedef hcl_uintptr_t hcl_oow_t; typedef hcl_intptr_t hcl_ooi_t; #define HCL_SIZEOF_OOW_T HCL_SIZEOF_UINTPTR_T #define HCL_SIZEOF_OOI_T HCL_SIZEOF_INTPTR_T #define HCL_OOW_BITS (HCL_SIZEOF_OOW_T * HCL_BITS_PER_BYTE) #define HCL_OOI_BITS (HCL_SIZEOF_OOI_T * HCL_BITS_PER_BYTE) typedef hcl_ushortptr_t hcl_oohw_t; /* half word - half word */ typedef hcl_shortptr_t hcl_oohi_t; /* signed half word */ #define HCL_SIZEOF_OOHW_T HCL_SIZEOF_USHORTPTR_T #define HCL_SIZEOF_OOHI_T HCL_SIZEOF_SHORTPTR_T #define HCL_OOHW_BITS (HCL_SIZEOF_OOHW_T * HCL_BITS_PER_BYTE) #define HCL_OOHI_BITS (HCL_SIZEOF_OOHI_T * HCL_BITS_PER_BYTE) struct hcl_ucs_t { hcl_uch_t* ptr; hcl_oow_t len; }; typedef struct hcl_ucs_t hcl_ucs_t; struct hcl_bcs_t { hcl_bch_t* ptr; hcl_oow_t len; }; typedef struct hcl_bcs_t hcl_bcs_t; #if defined(HCL_ENABLE_WIDE_CHAR) typedef hcl_uch_t hcl_ooch_t; typedef hcl_uchu_t hcl_oochu_t; typedef hcl_uci_t hcl_ooci_t; typedef hcl_ucu_t hcl_oocu_t; typedef hcl_ucs_t hcl_oocs_t; # define HCL_OOCH_IS_UCH # define HCL_SIZEOF_OOCH_T HCL_SIZEOF_UCH_T #else typedef hcl_bch_t hcl_ooch_t; typedef hcl_bchu_t hcl_oochu_t; typedef hcl_bci_t hcl_ooci_t; typedef hcl_bcu_t hcl_oocu_t; typedef hcl_bcs_t hcl_oocs_t; # define HCL_OOCH_IS_BCH # define HCL_SIZEOF_OOCH_T HCL_SIZEOF_BCH_T #endif typedef unsigned int hcl_bitmask_t; /* ========================================================================= * BIGINT TYPES AND MACROS * ========================================================================= */ #if defined(HCL_ENABLE_FULL_LIW) && (HCL_SIZEOF_UINTMAX_T > HCL_SIZEOF_OOW_T) # define HCL_USE_OOW_FOR_LIW #endif #if defined(HCL_USE_OOW_FOR_LIW) typedef hcl_oow_t hcl_liw_t; /* large integer word */ typedef hcl_ooi_t hcl_lii_t; typedef hcl_uintmax_t hcl_lidw_t; /* large integer double word */ typedef hcl_intmax_t hcl_lidi_t; # define HCL_SIZEOF_LIW_T HCL_SIZEOF_OOW_T # define HCL_SIZEOF_LIDW_T HCL_SIZEOF_UINTMAX_T # define HCL_LIW_BITS HCL_OOW_BITS # define HCL_LIDW_BITS (HCL_SIZEOF_UINTMAX_T * HCL_BITS_PER_BYTE) #else typedef hcl_oohw_t hcl_liw_t; typedef hcl_oohi_t hcl_lii_t; typedef hcl_oow_t hcl_lidw_t; typedef hcl_ooi_t hcl_lidi_t; # define HCL_SIZEOF_LIW_T HCL_SIZEOF_OOHW_T # define HCL_SIZEOF_LIDW_T HCL_SIZEOF_OOW_T # define HCL_LIW_BITS HCL_OOHW_BITS # define HCL_LIDW_BITS HCL_OOW_BITS #endif /* ========================================================================= * BASIC OOP ENCODING * ========================================================================= */ /* actual structure defined in hcl.h */ typedef struct hcl_obj_t hcl_obj_t; typedef struct hcl_obj_t* hcl_oop_t; /* * An object pointer(OOP) is an ordinary pointer value to an object. * but some simple numeric values are also encoded into OOP using a simple * bit-shifting and masking. * * A real OOP is stored without any bit-shifting while a non-pointer value encoded * in an OOP is bit-shifted to the left by 2 and the 2 least-significant bits * are set to 1 or 2. * * This scheme works because the object allocators aligns the object size to * a multiple of sizeof(hcl_oop_t). This way, the 2 least-significant bits * of a real OOP are always 0s. * * With 2 bits, i can encode only 3 special types except object pointers. * Since I need more than 3 special types, I extend the tag bits up to 4 bits * to represent a special data type that doesn't require a range as wide * as a small integer. A unicode character, for instance, only requires 21 * bits at most. An error doesn't need to be as diverse as a small integer. */ #define HCL_OOP_TAG_BITS_LO 2 #define HCL_OOP_TAG_BITS_HI 2 #define HCL_OOP_TAG_SMOOI 1 /* 01 */ #define HCL_OOP_TAG_SMPTR 2 /* 10 */ #define HCL_OOP_TAG_EXTENDED 3 /* 11 - internal use only */ #define HCL_OOP_TAG_CHAR 3 /* 0011 */ #define HCL_OOP_TAG_ERROR 7 /* 0111 */ #define HCL_OOP_TAG_RESERVED0 11 /* 1011 */ #define HCL_OOP_TAG_RESERVED1 15 /* 1111 */ #define HCL_OOP_GET_TAG_LO(oop) (((hcl_oow_t)oop) & HCL_LBMASK(hcl_oow_t, HCL_OOP_TAG_BITS_LO)) #define HCL_OOP_GET_TAG_LOHI(oop) (((hcl_oow_t)oop) & HCL_LBMASK(hcl_oow_t, HCL_OOP_TAG_BITS_LO + HCL_OOP_TAG_BITS_HI)) #define HCL_OOP_GET_TAG(oop) (HCL_OOP_GET_TAG_LO(oop) == HCL_OOP_TAG_EXTENDED? HCL_OOP_GET_TAG_LOHI(oop): HCL_OOP_GET_TAG_LO(oop)) #define HCL_OOP_IS_NUMERIC(oop) (HCL_OOP_GET_TAG_LO(oop) != 0) #define HCL_OOP_IS_POINTER(oop) (HCL_OOP_GET_TAG_LO(oop) == 0) #define HCL_OOP_IS_SMOOI(oop) (HCL_OOP_GET_TAG_LO(oop) == HCL_OOP_TAG_SMOOI) #define HCL_OOP_IS_SMPTR(oop) (HCL_OOP_GET_TAG_LO(oop) == HCL_OOP_TAG_SMPTR) #define HCL_SMOOI_TO_OOP(num) ((hcl_oop_t)((((hcl_oow_t)(hcl_ooi_t)(num)) << HCL_OOP_TAG_BITS_LO) | HCL_OOP_TAG_SMOOI)) #define HCL_OOP_TO_SMOOI(oop) (((hcl_ooi_t)oop) >> HCL_OOP_TAG_BITS_LO) /* #define HCL_SMPTR_TO_OOP(ptr) ((hcl_oop_t)((((hcl_oow_t)(ptr)) << HCL_OOP_TAG_BITS_LO) | HCL_OOP_TAG_SMPTR)) #define HCL_OOP_TO_SMPTR(oop) (((hcl_ooi_t)oop) >> HCL_OOP_TAG_BITS_LO) */ #define HCL_SMPTR_TO_OOP(ptr) ((hcl_oop_t)(((hcl_oow_t)ptr) | HCL_OOP_TAG_SMPTR)) #define HCL_OOP_TO_SMPTR(oop) ((void*)(((hcl_oow_t)oop) & ~HCL_LBMASK(hcl_oow_t, HCL_OOP_TAG_BITS_LO))) #define HCL_OOP_IS_CHAR(oop) (HCL_OOP_GET_TAG(oop) == HCL_OOP_TAG_CHAR) #define HCL_OOP_IS_ERROR(oop) (HCL_OOP_GET_TAG(oop) == HCL_OOP_TAG_ERROR) #define HCL_OOP_TO_CHAR(oop) (((hcl_oow_t)oop) >> (HCL_OOP_TAG_BITS_LO + HCL_OOP_TAG_BITS_LO)) #define HCL_CHAR_TO_OOP(num) ((hcl_oop_t)((((hcl_oow_t)(num)) << (HCL_OOP_TAG_BITS_LO + HCL_OOP_TAG_BITS_LO)) | HCL_OOP_TAG_CHAR)) #define HCL_OOP_TO_ERROR(oop) (((hcl_oow_t)oop) >> (HCL_OOP_TAG_BITS_LO + HCL_OOP_TAG_BITS_LO)) #define HCL_ERROR_TO_OOP(num) ((hcl_oop_t)((((hcl_oow_t)(num)) << (HCL_OOP_TAG_BITS_LO + HCL_OOP_TAG_BITS_LO)) | HCL_OOP_TAG_ERROR)) /* SMOOI takes up 62 bit on a 64-bit architecture and 30 bits * on a 32-bit architecture. The absolute value takes up 61 bits and 29 bits * respectively for the 1 sign bit. */ #define HCL_SMOOI_BITS (HCL_OOI_BITS - HCL_OOP_TAG_BITS_LO) #define HCL_SMOOI_ABS_BITS (HCL_SMOOI_BITS - 1) #define HCL_SMOOI_MAX ((hcl_ooi_t)(~((hcl_oow_t)0) >> (HCL_OOP_TAG_BITS_LO + 1))) /* Sacrificing 1 bit pattern for a negative SMOOI makes * implementation a lot eaisier in many respect. */ /*#define HCL_SMOOI_MIN (-HCL_SMOOI_MAX - 1)*/ #define HCL_SMOOI_MIN (-HCL_SMOOI_MAX) #define HCL_IN_SMOOI_RANGE(ooi) ((ooi) >= HCL_SMOOI_MIN && (ooi) <= HCL_SMOOI_MAX) /* SMPTR is a special value which has been devised to encode an address value * whose low HCL_OOP_TAG_BITS_LO bits are 0. its class is SmallPointer. A pointer * returned by most of system functions would be aligned to the pointer size. * you can use the followings macros when converting such a pointer without loss. */ #define HCL_IN_SMPTR_RANGE(ptr) ((((hcl_oow_t)ptr) & HCL_LBMASK(hcl_oow_t, HCL_OOP_TAG_BITS_LO)) == 0) #define HCL_CHAR_BITS (HCL_OOI_BITS - HCL_OOP_TAG_BITS_LO - HCL_OOP_TAG_BITS_HI) #define HCL_CHAR_MIN 0 #define HCL_CHAR_MAX (~((hcl_oow_t)0) >> (HCL_OOP_TAG_BITS_LO + HCL_OOP_TAG_BITS_HI)) #define HCL_ERROR_BITS (HCL_OOI_BITS - HCL_OOP_TAG_BITS_LO - HCL_OOP_TAG_BITS_HI) #define HCL_ERROR_MIN 0 #define HCL_ERROR_MAX (~((hcl_oow_t)0) >> (HCL_OOP_TAG_BITS_LO + HCL_OOP_TAG_BITS_HI)) /* TODO: There are untested code where smint is converted to hcl_oow_t. * for example, the spec making macro treats the number as hcl_oow_t instead of hcl_ooi_t. * as of this writing, i skip testing that part with the spec value exceeding HCL_SMOOI_MAX. * later, please verify it works, probably by limiting the value ranges in such macros */ /* ========================================================================= * TIME-RELATED TYPES * =========================================================================*/ #define HCL_MSECS_PER_SEC (1000) #define HCL_MSECS_PER_MIN (HCL_MSECS_PER_SEC * HCL_SECS_PER_MIN) #define HCL_MSECS_PER_HOUR (HCL_MSECS_PER_SEC * HCL_SECS_PER_HOUR) #define HCL_MSECS_PER_DAY (HCL_MSECS_PER_SEC * HCL_SECS_PER_DAY) #define HCL_USECS_PER_MSEC (1000) #define HCL_NSECS_PER_USEC (1000) #define HCL_NSECS_PER_MSEC (HCL_NSECS_PER_USEC * HCL_USECS_PER_MSEC) #define HCL_USECS_PER_SEC (HCL_USECS_PER_MSEC * HCL_MSECS_PER_SEC) #define HCL_NSECS_PER_SEC (HCL_NSECS_PER_USEC * HCL_USECS_PER_MSEC * HCL_MSECS_PER_SEC) #define HCL_SECNSEC_TO_MSEC(sec,nsec) \ (((hcl_intptr_t)(sec) * HCL_MSECS_PER_SEC) + ((hcl_intptr_t)(nsec) / HCL_NSECS_PER_MSEC)) #define HCL_SECNSEC_TO_USEC(sec,nsec) \ (((hcl_intptr_t)(sec) * HCL_USECS_PER_SEC) + ((hcl_intptr_t)(nsec) / HCL_NSECS_PER_USEC)) #define HCL_SECNSEC_TO_NSEC(sec,nsec) \ (((hcl_intptr_t)(sec) * HCL_NSECS_PER_SEC) + (hcl_intptr_t)(nsec)) #define HCL_SEC_TO_MSEC(sec) ((sec) * HCL_MSECS_PER_SEC) #define HCL_MSEC_TO_SEC(sec) ((sec) / HCL_MSECS_PER_SEC) #define HCL_USEC_TO_NSEC(usec) ((usec) * HCL_NSECS_PER_USEC) #define HCL_NSEC_TO_USEC(nsec) ((nsec) / HCL_NSECS_PER_USEC) #define HCL_MSEC_TO_NSEC(msec) ((msec) * HCL_NSECS_PER_MSEC) #define HCL_NSEC_TO_MSEC(nsec) ((nsec) / HCL_NSECS_PER_MSEC) #define HCL_SEC_TO_NSEC(sec) ((sec) * HCL_NSECS_PER_SEC) #define HCL_NSEC_TO_SEC(nsec) ((nsec) / HCL_NSECS_PER_SEC) #define HCL_SEC_TO_USEC(sec) ((sec) * HCL_USECS_PER_SEC) #define HCL_USEC_TO_SEC(usec) ((usec) / HCL_USECS_PER_SEC) #if defined(HCL_SIZEOF_INT64_T) && (HCL_SIZEOF_INT64_T > 0) typedef hcl_int64_t hcl_ntime_sec_t; #else typedef hcl_int32_t hcl_ntime_sec_t; #endif typedef hcl_int32_t hcl_ntime_nsec_t; typedef struct hcl_ntime_t hcl_ntime_t; struct hcl_ntime_t { hcl_ntime_sec_t sec; hcl_ntime_nsec_t nsec; /* nanoseconds */ }; #define HCL_INIT_NTIME(c,s,ns) (((c)->sec = (s)), ((c)->nsec = (ns))) #define HCL_CLEAR_NTIME(c) HCL_INIT_NTIME(c, 0, 0) #define HCL_ADD_NTIME(c,a,b) \ do { \ (c)->sec = (a)->sec + (b)->sec; \ (c)->nsec = (a)->nsec + (b)->nsec; \ while ((c)->nsec >= HCL_NSECS_PER_SEC) { (c)->sec++; (c)->nsec -= HCL_NSECS_PER_SEC; } \ } while(0) #define HCL_ADD_NTIME_SNS(c,a,s,ns) \ do { \ (c)->sec = (a)->sec + (s); \ (c)->nsec = (a)->nsec + (ns); \ while ((c)->nsec >= HCL_NSECS_PER_SEC) { (c)->sec++; (c)->nsec -= HCL_NSECS_PER_SEC; } \ } while(0) #define HCL_SUB_NTIME(c,a,b) \ do { \ (c)->sec = (a)->sec - (b)->sec; \ (c)->nsec = (a)->nsec - (b)->nsec; \ while ((c)->nsec < 0) { (c)->sec--; (c)->nsec += HCL_NSECS_PER_SEC; } \ } while(0) #define HCL_SUB_NTIME_SNS(c,a,s,ns) \ do { \ (c)->sec = (a)->sec - s; \ (c)->nsec = (a)->nsec - ns; \ while ((c)->nsec < 0) { (c)->sec--; (c)->nsec += HCL_NSECS_PER_SEC; } \ } while(0) #define HCL_CMP_NTIME(a,b) (((a)->sec == (b)->sec)? ((a)->nsec - (b)->nsec): ((a)->sec - (b)->sec)) /* ========================================================================= * PRIMITIVE MACROS * ========================================================================= */ #define HCL_UCI_EOF ((hcl_uci_t)-1) #define HCL_BCI_EOF ((hcl_bci_t)-1) #define HCL_OOCI_EOF ((hcl_ooci_t)-1) #define HCL_SIZEOF(x) (sizeof(x)) #define HCL_COUNTOF(x) (sizeof(x) / sizeof((x)[0])) #define HCL_BITSOF(x) (sizeof(x) * HCL_BITS_PER_BYTE) /** * The HCL_OFFSETOF() macro returns the offset of a field from the beginning * of a structure. */ #define HCL_OFFSETOF(type,member) ((hcl_uintptr_t)&((type*)0)->member) /** * The HCL_ALIGNOF() macro returns the alignment size of a structure. * Note that this macro may not work reliably depending on the type given. */ #define HCL_ALIGNOF(type) HCL_OFFSETOF(struct { hcl_uint8_t d1; type d2; }, d2) /*(sizeof(struct { hcl_uint8_t d1; type d2; }) - sizeof(type))*/ #if defined(__cplusplus) # if (__cplusplus >= 201103L) /* C++11 */ # define HCL_NULL nullptr # else # define HCL_NULL (0) # endif #else # define HCL_NULL ((void*)0) #endif /* make a bit mask that can mask off low n bits */ #define HCL_LBMASK(type,n) (~(~((type)0) << (n))) #define HCL_LBMASK_SAFE(type,n) (((n) < HCL_BITSOF(type))? HCL_LBMASK(type,n): ~(type)0) /* make a bit mask that can mask off hig n bits */ #define HCL_HBMASK(type,n) (~(~((type)0) >> (n))) #define HCL_HBMASK_SAFE(type,n) (((n) < HCL_BITSOF(type))? HCL_HBMASK(type,n): ~(type)0) /* get 'length' bits starting from the bit at the 'offset' */ #define HCL_GETBITS(type,value,offset,length) \ ((((type)(value)) >> (offset)) & HCL_LBMASK(type,length)) #define HCL_CLEARBITS(type,value,offset,length) \ (((type)(value)) & ~(HCL_LBMASK(type,length) << (offset))) #define HCL_SETBITS(type,value,offset,length,bits) \ (value = (HCL_CLEARBITS(type,value,offset,length) | (((bits) & HCL_LBMASK(type,length)) << (offset)))) #define HCL_FLIPBITS(type,value,offset,length) \ (((type)(value)) ^ (HCL_LBMASK(type,length) << (offset))) #define HCL_ORBITS(type,value,offset,length,bits) \ (value = (((type)(value)) | (((bits) & HCL_LBMASK(type,length)) << (offset)))) /** * The HCL_BITS_MAX() macros calculates the maximum value that the 'nbits' * bits of an unsigned integer of the given 'type' can hold. * \code * printf ("%u", HCL_BITS_MAX(unsigned int, 5)); * \endcode */ /*#define HCL_BITS_MAX(type,nbits) ((((type)1) << (nbits)) - 1)*/ #define HCL_BITS_MAX(type,nbits) ((~(type)0) >> (HCL_BITSOF(type) - (nbits))) /* ========================================================================= * MMGR * ========================================================================= */ typedef struct hcl_mmgr_t hcl_mmgr_t; /** * allocate a memory chunk of the size \a n. * \return pointer to a memory chunk on success, #HCL_NULL on failure. */ typedef void* (*hcl_mmgr_alloc_t) (hcl_mmgr_t* mmgr, hcl_oow_t n); /** * resize a memory chunk pointed to by \a ptr to the size \a n. * \return pointer to a memory chunk on success, #HCL_NULL on failure. */ typedef void* (*hcl_mmgr_realloc_t) (hcl_mmgr_t* mmgr, void* ptr, hcl_oow_t n); /** * free a memory chunk pointed to by \a ptr. */ typedef void (*hcl_mmgr_free_t) (hcl_mmgr_t* mmgr, void* ptr); /** * The hcl_mmgr_t type defines the memory management interface. * As the type is merely a structure, it is just used as a single container * for memory management functions with a pointer to user-defined data. * The user-defined data pointer \a ctx is passed to each memory management * function whenever it is called. You can allocate, reallocate, and free * a memory chunk. * * For example, a hcl_xxx_open() function accepts a pointer of the hcl_mmgr_t * type and the xxx object uses it to manage dynamic data within the object. */ struct hcl_mmgr_t { hcl_mmgr_alloc_t allocmem; /**< allocation function */ hcl_mmgr_realloc_t reallocmem; /**< resizing function */ hcl_mmgr_free_t freemem; /**< disposal function */ void* ctx; /**< user-defined data pointer */ }; /** * The HCL_MMGR_ALLOC() macro allocates a memory block of the \a size bytes * using the \a mmgr memory manager. */ #define HCL_MMGR_ALLOC(mmgr,size) ((mmgr)->allocmem(mmgr,size)) /** * The HCL_MMGR_REALLOC() macro resizes a memory block pointed to by \a ptr * to the \a size bytes using the \a mmgr memory manager. */ #define HCL_MMGR_REALLOC(mmgr,ptr,size) ((mmgr)->reallocmem(mmgr,ptr,size)) /** * The HCL_MMGR_FREE() macro deallocates the memory block pointed to by \a ptr. */ #define HCL_MMGR_FREE(mmgr,ptr) ((mmgr)->freemem(mmgr,ptr)) /* ========================================================================= * CMGR * =========================================================================*/ typedef struct hcl_cmgr_t hcl_cmgr_t; typedef hcl_oow_t (*hcl_cmgr_bctouc_t) ( const hcl_bch_t* mb, hcl_oow_t size, hcl_uch_t* wc ); typedef hcl_oow_t (*hcl_cmgr_uctobc_t) ( hcl_uch_t wc, hcl_bch_t* mb, hcl_oow_t size ); /** * The hcl_cmgr_t type defines the character-level interface to * multibyte/wide-character conversion. This interface doesn't * provide any facility to store conversion state in a context * independent manner. This leads to the limitation that it can * handle a stateless multibyte encoding only. */ struct hcl_cmgr_t { hcl_cmgr_bctouc_t bctouc; hcl_cmgr_uctobc_t uctobc; }; /* ========================================================================= * FORWARD DECLARATION FOR MAIN HCL STRUCTURE * =========================================================================*/ typedef struct hcl_t hcl_t; /* ========================================================================= * MACROS THAT CHANGES THE BEHAVIORS OF THE C COMPILER/LINKER * =========================================================================*/ #if defined(__BORLANDC__) && (__BORLANDC__ < 0x500) # define HCL_IMPORT # define HCL_EXPORT # define HCL_PRIVATE #elif defined(_WIN32) || (defined(__WATCOMC__) && (__WATCOMC__ >= 1000) && !defined(__WINDOWS_386__)) # define HCL_IMPORT __declspec(dllimport) # define HCL_EXPORT __declspec(dllexport) # define HCL_PRIVATE #elif defined(__GNUC__) && ((__GNUC__>= 4) || (__GNUC__ == 3 && __GNUC_MINOR__ >= 3)) # define HCL_IMPORT __attribute__((visibility("default"))) # define HCL_EXPORT __attribute__((visibility("default"))) # define HCL_PRIVATE __attribute__((visibility("hidden"))) /*# define HCL_PRIVATE __attribute__((visibility("internal")))*/ #else # define HCL_IMPORT # define HCL_EXPORT # define HCL_PRIVATE #endif #if defined(__cplusplus) || (defined(__STDC_VERSION__) && (__STDC_VERSION__>=199901L)) /* C++/C99 has inline */ # define HCL_INLINE inline # define HCL_HAVE_INLINE #elif defined(__GNUC__) && defined(__GNUC_GNU_INLINE__) /* gcc disables inline when -std=c89 or -ansi is used. * so use __inline__ supported by gcc regardless of the options */ # define HCL_INLINE /*extern*/ __inline__ # define HCL_HAVE_INLINE #else # define HCL_INLINE # undef HCL_HAVE_INLINE #endif #if defined(__GNUC__) && (__GNUC__ > 2 || (__GNUC__ == 2 && __GNUC_MINOR__ > 4)) # define HCL_UNUSED __attribute__((__unused__)) #else # define HCL_UNUSED #endif #if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 202311L) # define HCL_NORETURN noreturn #elif defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 201112L) # define HCL_NORETURN _Noreturn #else # define HCL_NORETURN #endif /** * The HCL_TYPE_IS_SIGNED() macro determines if a type is signed. * \code * printf ("%d\n", (int)HCL_TYPE_IS_SIGNED(int)); * printf ("%d\n", (int)HCL_TYPE_IS_SIGNED(unsigned int)); * \endcode */ #define HCL_TYPE_IS_SIGNED(type) (((type)0) > ((type)-1)) /** * The HCL_TYPE_IS_SIGNED() macro determines if a type is unsigned. * \code * printf ("%d\n", HCL_TYPE_IS_UNSIGNED(int)); * printf ("%d\n", HCL_TYPE_IS_UNSIGNED(unsigned int)); * \endcode */ #define HCL_TYPE_IS_UNSIGNED(type) (((type)0) < ((type)-1)) #define HCL_TYPE_SIGNED_MAX(type) \ ((type)~((type)1 << ((type)HCL_BITSOF(type) - 1))) #define HCL_TYPE_UNSIGNED_MAX(type) ((type)(~(type)0)) #define HCL_TYPE_SIGNED_MIN(type) \ ((type)((type)1 << ((type)HCL_BITSOF(type) - 1))) #define HCL_TYPE_UNSIGNED_MIN(type) ((type)0) #define HCL_TYPE_MAX(type) \ ((HCL_TYPE_IS_SIGNED(type)? HCL_TYPE_SIGNED_MAX(type): HCL_TYPE_UNSIGNED_MAX(type))) #define HCL_TYPE_MIN(type) \ ((HCL_TYPE_IS_SIGNED(type)? HCL_TYPE_SIGNED_MIN(type): HCL_TYPE_UNSIGNED_MIN(type))) /* round up a positive integer x to the nearst multiple of y */ #define HCL_ALIGN(x,y) ((((x) + (y) - 1) / (y)) * (y)) /* round up a positive integer x to the nearst multiple of y where * y must be a multiple of a power of 2*/ #define HCL_ALIGN_POW2(x,y) ((((x) + (y) - 1)) & ~((y) - 1)) #define HCL_IS_UNALIGNED_POW2(x,y) ((x) & ((y) - 1)) #define HCL_IS_ALIGNED_POW2(x,y) (!HCL_IS_UNALIGNED_POW2(x,y)) /* ========================================================================= * COMPILER FEATURE TEST MACROS * =========================================================================*/ #if !defined(__has_builtin) && defined(_INTELC32_) /* intel c code builder 1.0 ended up with an error without this override */ #define __has_builtin(x) 0 #endif /* #if !defined(__is_identifier) #define __is_identifier(x) 0 #endif #if !defined(__has_attribute) #define __has_attribute(x) 0 #endif */ #if defined(__has_builtin) #if __has_builtin(__builtin_ctz) #define HCL_HAVE_BUILTIN_CTZ #endif #if __has_builtin(__builtin_ctzl) #define HCL_HAVE_BUILTIN_CTZL #endif #if __has_builtin(__builtin_ctzll) #define HCL_HAVE_BUILTIN_CTZLL #endif #if __has_builtin(__builtin_clz) #define HCL_HAVE_BUILTIN_CLZ #endif #if __has_builtin(__builtin_clzl) #define HCL_HAVE_BUILTIN_CLZL #endif #if __has_builtin(__builtin_clzll) #define HCL_HAVE_BUILTIN_CLZLL #endif #if __has_builtin(__builtin_uadd_overflow) #define HCL_HAVE_BUILTIN_UADD_OVERFLOW #endif #if __has_builtin(__builtin_uaddl_overflow) #define HCL_HAVE_BUILTIN_UADDL_OVERFLOW #endif #if __has_builtin(__builtin_uaddll_overflow) #define HCL_HAVE_BUILTIN_UADDLL_OVERFLOW #endif #if __has_builtin(__builtin_umul_overflow) #define HCL_HAVE_BUILTIN_UMUL_OVERFLOW #endif #if __has_builtin(__builtin_umull_overflow) #define HCL_HAVE_BUILTIN_UMULL_OVERFLOW #endif #if __has_builtin(__builtin_umulll_overflow) #define HCL_HAVE_BUILTIN_UMULLL_OVERFLOW #endif #if __has_builtin(__builtin_sadd_overflow) #define HCL_HAVE_BUILTIN_SADD_OVERFLOW #endif #if __has_builtin(__builtin_saddl_overflow) #define HCL_HAVE_BUILTIN_SADDL_OVERFLOW #endif #if __has_builtin(__builtin_saddll_overflow) #define HCL_HAVE_BUILTIN_SADDLL_OVERFLOW #endif #if __has_builtin(__builtin_smul_overflow) #define HCL_HAVE_BUILTIN_SMUL_OVERFLOW #endif #if __has_builtin(__builtin_smull_overflow) #define HCL_HAVE_BUILTIN_SMULL_OVERFLOW #endif #if __has_builtin(__builtin_smulll_overflow) #define HCL_HAVE_BUILTIN_SMULLL_OVERFLOW #endif #if __has_builtin(__builtin_expect) #define HCL_HAVE_BUILTIN_EXPECT #endif #if __has_builtin(__sync_lock_test_and_set) #define HCL_HAVE_SYNC_LOCK_TEST_AND_SET #endif #if __has_builtin(__sync_lock_release) #define HCL_HAVE_SYNC_LOCK_RELEASE #endif #if __has_builtin(__sync_synchronize) #define HCL_HAVE_SYNC_SYNCHRONIZE #endif #if __has_builtin(__sync_bool_compare_and_swap) #define HCL_HAVE_SYNC_BOOL_COMPARE_AND_SWAP #endif #if __has_builtin(__sync_val_compare_and_swap) #define HCL_HAVE_SYNC_VAL_COMPARE_AND_SWAP #endif #if __has_builtin(__builtin_bswap16) #define HCL_HAVE_BUILTIN_BSWAP16 #endif #if __has_builtin(__builtin_bswap32) #define HCL_HAVE_BUILTIN_BSWAP32 #endif #if __has_builtin(__builtin_bswap64) #define HCL_HAVE_BUILTIN_BSWAP64 #endif #if __has_builtin(__builtin_bswap128) #define HCL_HAVE_BUILTIN_BSWAP128 #endif #elif defined(__GNUC__) && defined(__GNUC_MINOR__) #if (__GNUC__ >= 4) #define HCL_HAVE_SYNC_LOCK_TEST_AND_SET #define HCL_HAVE_SYNC_LOCK_RELEASE #define HCL_HAVE_SYNC_SYNCHRONIZE #define HCL_HAVE_SYNC_BOOL_COMPARE_AND_SWAP #define HCL_HAVE_SYNC_VAL_COMPARE_AND_SWAP #endif #if (__GNUC__ >= 4) || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) #define HCL_HAVE_BUILTIN_CTZ #define HCL_HAVE_BUILTIN_CTZL #define HCL_HAVE_BUILTIN_CTZLL #define HCL_HAVE_BUILTIN_CLZ #define HCL_HAVE_BUILTIN_CLZL #define HCL_HAVE_BUILTIN_CLZLL #define HCL_HAVE_BUILTIN_EXPECT #endif #if (__GNUC__ >= 5) #define HCL_HAVE_BUILTIN_UADD_OVERFLOW #define HCL_HAVE_BUILTIN_UADDL_OVERFLOW #define HCL_HAVE_BUILTIN_UADDLL_OVERFLOW #define HCL_HAVE_BUILTIN_UMUL_OVERFLOW #define HCL_HAVE_BUILTIN_UMULL_OVERFLOW #define HCL_HAVE_BUILTIN_UMULLL_OVERFLOW #define HCL_HAVE_BUILTIN_SADD_OVERFLOW #define HCL_HAVE_BUILTIN_SADDL_OVERFLOW #define HCL_HAVE_BUILTIN_SADDLL_OVERFLOW #define HCL_HAVE_BUILTIN_SMUL_OVERFLOW #define HCL_HAVE_BUILTIN_SMULL_OVERFLOW #define HCL_HAVE_BUILTIN_SMULLL_OVERFLOW #endif #if (__GNUC__ >= 5) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8) /* 4.8.0 or later */ #define HCL_HAVE_BUILTIN_BSWAP16 #endif #if (__GNUC__ >= 5) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 3) /* 4.3.0 or later */ #define HCL_HAVE_BUILTIN_BSWAP32 #define HCL_HAVE_BUILTIN_BSWAP64 /*#define HCL_HAVE_BUILTIN_BSWAP128*/ #endif #endif #if defined(HCL_HAVE_BUILTIN_EXPECT) # define HCL_LIKELY(x) (__builtin_expect(!!(x),1)) # define HCL_UNLIKELY(x) (__builtin_expect(!!(x),0)) #else # define HCL_LIKELY(x) (x) # define HCL_UNLIKELY(x) (x) #endif /* ========================================================================= * STATIC ASSERTION * =========================================================================*/ #define HCL_STATIC_JOIN_INNER(x, y) x ## y #define HCL_STATIC_JOIN(x, y) HCL_STATIC_JOIN_INNER(x, y) #if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 202311L) # define HCL_STATIC_ASSERT(expr) static_assert (expr, "invalid assertion") #elif defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 201112L) # define HCL_STATIC_ASSERT(expr) _Static_assert (expr, "invalid assertion") #elif defined(__cplusplus) && (__cplusplus >= 201103L) # define HCL_STATIC_ASSERT(expr) static_assert (expr, "invalid assertion") #else # define HCL_STATIC_ASSERT(expr) typedef char HCL_STATIC_JOIN(HCL_STATIC_ASSERT_T_, __LINE__)[(expr)? 1: -1] HCL_UNUSED #endif #define HCL_STATIC_ASSERT_EXPR(expr) ((void)HCL_SIZEOF(char[(expr)? 1: -1])) #endif