hio/mio/lib/utl.c

1369 lines
28 KiB
C

/*
* $Id$
*
Copyright (c) 2015-2016 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 WAfRRANTIES
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.
*/
#include "mio-prv.h"
#define MIO_MT(x) (x)
#define IS_MSPACE(x) ((x) == MIO_MT(' ') || (x) == MIO_MT('\t') || (x) == MIO_MT('\n') || (x) == MIO_MT('\r'))
mio_bch_t* mio_mbsdup (mio_t* mio, const mio_bch_t* src)
{
mio_bch_t* dst;
mio_oow_t len;
dst = (mio_bch_t*)src;
while (*dst != MIO_MT('\0')) dst++;
len = dst - src;
dst = MIO_MMGR_ALLOC (mio->mmgr, (len + 1) * MIO_SIZEOF(*src));
if (!dst)
{
mio->errnum = MIO_ESYSMEM;
return MIO_NULL;
}
MIO_MEMCPY (dst, src, (len + 1) * MIO_SIZEOF(*src));
return dst;
}
mio_oow_t mio_mbscpy (mio_bch_t* buf, const mio_bch_t* str)
{
mio_bch_t* org = buf;
while ((*buf++ = *str++) != MIO_MT('\0'));
return buf - org - 1;
}
int mio_mbsspltrn (
mio_bch_t* s, const mio_bch_t* delim,
mio_bch_t lquote, mio_bch_t rquote,
mio_bch_t escape, const mio_bch_t* trset)
{
mio_bch_t* p = s, *d;
mio_bch_t* sp = MIO_NULL, * ep = MIO_NULL;
int delim_mode;
int cnt = 0;
if (delim == MIO_NULL) delim_mode = 0;
else
{
delim_mode = 1;
for (d = (mio_bch_t*)delim; *d != MIO_MT('\0'); d++)
if (!IS_MSPACE(*d)) delim_mode = 2;
}
if (delim_mode == 0)
{
/* skip preceding space characters */
while (IS_MSPACE(*p)) p++;
/* when 0 is given as "delim", it has an effect of cutting
preceding and trailing space characters off "s". */
if (lquote != MIO_MT('\0') && *p == lquote)
{
mio_mbscpy (p, p + 1);
for (;;)
{
if (*p == MIO_MT('\0')) return -1;
if (escape != MIO_MT('\0') && *p == escape)
{
if (trset != MIO_NULL && p[1] != MIO_MT('\0'))
{
const mio_bch_t* ep = trset;
while (*ep != MIO_MT('\0'))
{
if (p[1] == *ep++)
{
p[1] = *ep;
break;
}
}
}
mio_mbscpy (p, p + 1);
}
else
{
if (*p == rquote)
{
p++;
break;
}
}
if (sp == 0) sp = p;
ep = p;
p++;
}
while (IS_MSPACE(*p)) p++;
if (*p != MIO_MT('\0')) return -1;
if (sp == 0 && ep == 0) s[0] = MIO_MT('\0');
else
{
ep[1] = MIO_MT('\0');
if (s != (mio_bch_t*)sp) mio_mbscpy (s, sp);
cnt++;
}
}
else
{
while (*p)
{
if (!IS_MSPACE(*p))
{
if (sp == 0) sp = p;
ep = p;
}
p++;
}
if (sp == 0 && ep == 0) s[0] = MIO_MT('\0');
else
{
ep[1] = MIO_MT('\0');
if (s != (mio_bch_t*)sp) mio_mbscpy (s, sp);
cnt++;
}
}
}
else if (delim_mode == 1)
{
mio_bch_t* o;
while (*p)
{
o = p;
while (IS_MSPACE(*p)) p++;
if (o != p) { mio_mbscpy (o, p); p = o; }
if (lquote != MIO_MT('\0') && *p == lquote)
{
mio_mbscpy (p, p + 1);
for (;;)
{
if (*p == MIO_MT('\0')) return -1;
if (escape != MIO_MT('\0') && *p == escape)
{
if (trset != MIO_NULL && p[1] != MIO_MT('\0'))
{
const mio_bch_t* ep = trset;
while (*ep != MIO_MT('\0'))
{
if (p[1] == *ep++)
{
p[1] = *ep;
break;
}
}
}
mio_mbscpy (p, p + 1);
}
else
{
if (*p == rquote)
{
*p++ = MIO_MT('\0');
cnt++;
break;
}
}
p++;
}
}
else
{
o = p;
for (;;)
{
if (*p == MIO_MT('\0'))
{
if (o != p) cnt++;
break;
}
if (IS_MSPACE (*p))
{
*p++ = MIO_MT('\0');
cnt++;
break;
}
p++;
}
}
}
}
else /* if (delim_mode == 2) */
{
mio_bch_t* o;
int ok;
while (*p != MIO_MT('\0'))
{
o = p;
while (IS_MSPACE(*p)) p++;
if (o != p) { mio_mbscpy (o, p); p = o; }
if (lquote != MIO_MT('\0') && *p == lquote)
{
mio_mbscpy (p, p + 1);
for (;;)
{
if (*p == MIO_MT('\0')) return -1;
if (escape != MIO_MT('\0') && *p == escape)
{
if (trset != MIO_NULL && p[1] != MIO_MT('\0'))
{
const mio_bch_t* ep = trset;
while (*ep != MIO_MT('\0'))
{
if (p[1] == *ep++)
{
p[1] = *ep;
break;
}
}
}
mio_mbscpy (p, p + 1);
}
else
{
if (*p == rquote)
{
*p++ = MIO_MT('\0');
cnt++;
break;
}
}
p++;
}
ok = 0;
while (IS_MSPACE(*p)) p++;
if (*p == MIO_MT('\0')) ok = 1;
for (d = (mio_bch_t*)delim; *d != MIO_MT('\0'); d++)
{
if (*p == *d)
{
ok = 1;
mio_mbscpy (p, p + 1);
break;
}
}
if (ok == 0) return -1;
}
else
{
o = p; sp = ep = 0;
for (;;)
{
if (*p == MIO_MT('\0'))
{
if (ep)
{
ep[1] = MIO_MT('\0');
p = &ep[1];
}
cnt++;
break;
}
for (d = (mio_bch_t*)delim; *d != MIO_MT('\0'); d++)
{
if (*p == *d)
{
if (sp == MIO_NULL)
{
mio_mbscpy (o, p); p = o;
*p++ = MIO_MT('\0');
}
else
{
mio_mbscpy (&ep[1], p);
mio_mbscpy (o, sp);
o[ep - sp + 1] = MIO_MT('\0');
p = &o[ep - sp + 2];
}
cnt++;
/* last empty field after delim */
if (*p == MIO_MT('\0')) cnt++;
goto exit_point;
}
}
if (!IS_MSPACE (*p))
{
if (sp == MIO_NULL) sp = p;
ep = p;
}
p++;
}
exit_point:
;
}
}
}
return cnt;
}
int mio_mbsspl (
mio_bch_t* s, const mio_bch_t* delim,
mio_bch_t lquote, mio_bch_t rquote, mio_bch_t escape)
{
return mio_mbsspltrn (s, delim, lquote, rquote, escape, MIO_NULL);
}
/* ========================================================================= */
int mio_equal_uchars (const mio_uch_t* str1, const mio_uch_t* str2, mio_oow_t len)
{
mio_oow_t i;
/* NOTE: you should call this function after having ensured that
* str1 and str2 are in the same length */
for (i = 0; i < len; i++)
{
if (str1[i] != str2[i]) return 0;
}
return 1;
}
int mio_equal_bchars (const mio_bch_t* str1, const mio_bch_t* str2, mio_oow_t len)
{
mio_oow_t i;
/* NOTE: you should call this function after having ensured that
* str1 and str2 are in the same length */
for (i = 0; i < len; i++)
{
if (str1[i] != str2[i]) return 0;
}
return 1;
}
int mio_comp_uchars (const mio_uch_t* str1, mio_oow_t len1, const mio_uch_t* str2, mio_oow_t len2)
{
mio_uchu_t c1, c2;
const mio_uch_t* end1 = str1 + len1;
const mio_uch_t* end2 = str2 + len2;
while (str1 < end1)
{
c1 = *str1;
if (str2 < end2)
{
c2 = *str2;
if (c1 > c2) return 1;
if (c1 < c2) return -1;
}
else return 1;
str1++; str2++;
}
return (str2 < end2)? -1: 0;
}
int mio_comp_bchars (const mio_bch_t* str1, mio_oow_t len1, const mio_bch_t* str2, mio_oow_t len2)
{
mio_bchu_t c1, c2;
const mio_bch_t* end1 = str1 + len1;
const mio_bch_t* end2 = str2 + len2;
while (str1 < end1)
{
c1 = *str1;
if (str2 < end2)
{
c2 = *str2;
if (c1 > c2) return 1;
if (c1 < c2) return -1;
}
else return 1;
str1++; str2++;
}
return (str2 < end2)? -1: 0;
}
int mio_comp_ucstr (const mio_uch_t* str1, const mio_uch_t* str2)
{
while (*str1 == *str2)
{
if (*str1 == '\0') return 0;
str1++; str2++;
}
return ((mio_uchu_t)*str1 > (mio_uchu_t)*str2)? 1: -1;
}
int mio_comp_bcstr (const mio_bch_t* str1, const mio_bch_t* str2)
{
while (*str1 == *str2)
{
if (*str1 == '\0') return 0;
str1++; str2++;
}
return ((mio_bchu_t)*str1 > (mio_bchu_t)*str2)? 1: -1;
}
int mio_comp_ucstr_bcstr (const mio_uch_t* str1, const mio_bch_t* str2)
{
while (*str1 == *str2)
{
if (*str1 == '\0') return 0;
str1++; str2++;
}
return ((mio_uchu_t)*str1 > (mio_bchu_t)*str2)? 1: -1;
}
int mio_comp_uchars_ucstr (const mio_uch_t* str1, mio_oow_t len, const mio_uch_t* str2)
{
/* for "abc\0" of length 4 vs "abc", the fourth character
* of the first string is equal to the terminating null of
* the second string. the first string is still considered
* bigger */
const mio_uch_t* end = str1 + len;
while (str1 < end && *str2 != '\0')
{
if (*str1 != *str2) return ((mio_uchu_t)*str1 > (mio_uchu_t)*str2)? 1: -1;
str1++; str2++;
}
return (str1 < end)? 1: (*str2 == '\0'? 0: -1);
}
int mio_comp_uchars_bcstr (const mio_uch_t* str1, mio_oow_t len, const mio_bch_t* str2)
{
const mio_uch_t* end = str1 + len;
while (str1 < end && *str2 != '\0')
{
if (*str1 != *str2) return ((mio_uchu_t)*str1 > (mio_bchu_t)*str2)? 1: -1;
str1++; str2++;
}
return (str1 < end)? 1: (*str2 == '\0'? 0: -1);
}
int mio_comp_bchars_bcstr (const mio_bch_t* str1, mio_oow_t len, const mio_bch_t* str2)
{
const mio_bch_t* end = str1 + len;
while (str1 < end && *str2 != '\0')
{
if (*str1 != *str2) return ((mio_bchu_t)*str1 > (mio_bchu_t)*str2)? 1: -1;
str1++; str2++;
}
return (str1 < end)? 1: (*str2 == '\0'? 0: -1);
}
int mio_comp_bchars_ucstr (const mio_bch_t* str1, mio_oow_t len, const mio_uch_t* str2)
{
const mio_bch_t* end = str1 + len;
while (str1 < end && *str2 != '\0')
{
if (*str1 != *str2) return ((mio_bchu_t)*str1 > (mio_uchu_t)*str2)? 1: -1;
str1++; str2++;
}
return (str1 < end)? 1: (*str2 == '\0'? 0: -1);
}
void mio_copy_uchars (mio_uch_t* dst, const mio_uch_t* src, mio_oow_t len)
{
/* take note of no forced null termination */
mio_oow_t i;
for (i = 0; i < len; i++) dst[i] = src[i];
}
void mio_copy_bchars (mio_bch_t* dst, const mio_bch_t* src, mio_oow_t len)
{
/* take note of no forced null termination */
mio_oow_t i;
for (i = 0; i < len; i++) dst[i] = src[i];
}
void mio_copy_bchars_to_uchars (mio_uch_t* dst, const mio_bch_t* src, mio_oow_t len)
{
/* copy without conversions.
* use mio_bctouchars() for conversion encoding */
mio_oow_t i;
for (i = 0; i < len; i++) dst[i] = src[i];
}
mio_oow_t mio_copy_ucstr (mio_uch_t* dst, mio_oow_t len, const mio_uch_t* src)
{
mio_uch_t* p, * p2;
p = dst; p2 = dst + len - 1;
while (p < p2)
{
if (*src == '\0') break;
*p++ = *src++;
}
if (len > 0) *p = '\0';
return p - dst;
}
mio_oow_t mio_copy_bcstr (mio_bch_t* dst, mio_oow_t len, const mio_bch_t* src)
{
mio_bch_t* p, * p2;
p = dst; p2 = dst + len - 1;
while (p < p2)
{
if (*src == '\0') break;
*p++ = *src++;
}
if (len > 0) *p = '\0';
return p - dst;
}
mio_oow_t mio_count_ucstr (const mio_uch_t* str)
{
const mio_uch_t* ptr = str;
while (*ptr != '\0') ptr++;
return ptr - str;
}
mio_oow_t mio_count_bcstr (const mio_bch_t* str)
{
const mio_bch_t* ptr = str;
while (*ptr != '\0') ptr++;
return ptr - str;
}
mio_uch_t* mio_find_uchar (const mio_uch_t* ptr, mio_oow_t len, mio_uch_t c)
{
const mio_uch_t* end;
end = ptr + len;
while (ptr < end)
{
if (*ptr == c) return (mio_uch_t*)ptr;
ptr++;
}
return MIO_NULL;
}
mio_bch_t* mio_find_bchar (const mio_bch_t* ptr, mio_oow_t len, mio_bch_t c)
{
const mio_bch_t* end;
end = ptr + len;
while (ptr < end)
{
if (*ptr == c) return (mio_bch_t*)ptr;
ptr++;
}
return MIO_NULL;
}
mio_uch_t* mio_rfind_uchar (const mio_uch_t* ptr, mio_oow_t len, mio_uch_t c)
{
const mio_uch_t* cur;
cur = ptr + len;
while (cur > ptr)
{
--cur;
if (*cur == c) return (mio_uch_t*)cur;
}
return MIO_NULL;
}
mio_bch_t* mio_rfind_bchar (const mio_bch_t* ptr, mio_oow_t len, mio_bch_t c)
{
const mio_bch_t* cur;
cur = ptr + len;
while (cur > ptr)
{
--cur;
if (*cur == c) return (mio_bch_t*)cur;
}
return MIO_NULL;
}
mio_uch_t* mio_find_uchar_in_ucstr (const mio_uch_t* ptr, mio_uch_t c)
{
while (*ptr != '\0')
{
if (*ptr == c) return (mio_uch_t*)ptr;
ptr++;
}
return MIO_NULL;
}
mio_bch_t* mio_find_bchar_in_bcstr (const mio_bch_t* ptr, mio_bch_t c)
{
while (*ptr != '\0')
{
if (*ptr == c) return (mio_bch_t*)ptr;
ptr++;
}
return MIO_NULL;
}
/* ========================================================================= */
MIO_INLINE int mio_conv_bchars_to_uchars_with_cmgr (
const mio_bch_t* bcs, mio_oow_t* bcslen,
mio_uch_t* ucs, mio_oow_t* ucslen, mio_cmgr_t* cmgr, int all)
{
const mio_bch_t* p;
int ret = 0;
mio_oow_t mlen;
if (ucs)
{
/* destination buffer is specified.
* copy the conversion result to the buffer */
mio_uch_t* q, * qend;
p = bcs;
q = ucs;
qend = ucs + *ucslen;
mlen = *bcslen;
while (mlen > 0)
{
mio_oow_t n;
if (q >= qend)
{
/* buffer too small */
ret = -2;
break;
}
n = cmgr->bctouc (p, mlen, q);
if (n == 0)
{
/* invalid sequence */
if (all)
{
n = 1;
*q = '?';
}
else
{
ret = -1;
break;
}
}
if (n > mlen)
{
/* incomplete sequence */
if (all)
{
n = 1;
*q = '?';
}
else
{
ret = -3;
break;
}
}
q++;
p += n;
mlen -= n;
}
*ucslen = q - ucs;
*bcslen = p - bcs;
}
else
{
/* no destination buffer is specified. perform conversion
* but don't copy the result. the caller can call this function
* without a buffer to find the required buffer size, allocate
* a buffer with the size and call this function again with
* the buffer. */
mio_uch_t w;
mio_oow_t wlen = 0;
p = bcs;
mlen = *bcslen;
while (mlen > 0)
{
mio_oow_t n;
n = cmgr->bctouc (p, mlen, &w);
if (n == 0)
{
/* invalid sequence */
if (all) n = 1;
else
{
ret = -1;
break;
}
}
if (n > mlen)
{
/* incomplete sequence */
if (all) n = 1;
else
{
ret = -3;
break;
}
}
p += n;
mlen -= n;
wlen += 1;
}
*ucslen = wlen;
*bcslen = p - bcs;
}
return ret;
}
MIO_INLINE int mio_conv_bcs_to_ucs_with_cmgr (
const mio_bch_t* bcs, mio_oow_t* bcslen,
mio_uch_t* ucs, mio_oow_t* ucslen, mio_cmgr_t* cmgr, int all)
{
const mio_bch_t* bp;
mio_oow_t mlen, wlen;
int n;
for (bp = bcs; *bp != '\0'; bp++) /* nothing */ ;
mlen = bp - bcs; wlen = *ucslen;
n = mio_conv_bchars_to_uchars_with_cmgr (bcs, &mlen, ucs, &wlen, cmgr, all);
if (ucs)
{
/* null-terminate the target buffer if it has room for it. */
if (wlen < *ucslen) ucs[wlen] = '\0';
else n = -2; /* buffer too small */
}
*bcslen = mlen; *ucslen = wlen;
return n;
}
MIO_INLINE int mio_conv_uchars_to_bchars_with_cmgr (
const mio_uch_t* ucs, mio_oow_t* ucslen,
mio_bch_t* bcs, mio_oow_t* bcslen, mio_cmgr_t* cmgr)
{
const mio_uch_t* p = ucs;
const mio_uch_t* end = ucs + *ucslen;
int ret = 0;
if (bcs)
{
mio_oow_t rem = *bcslen;
while (p < end)
{
mio_oow_t n;
if (rem <= 0)
{
ret = -2; /* buffer too small */
break;
}
n = cmgr->uctobc (*p, bcs, rem);
if (n == 0)
{
ret = -1;
break; /* illegal character */
}
if (n > rem)
{
ret = -2; /* buffer too small */
break;
}
bcs += n; rem -= n; p++;
}
*bcslen -= rem;
}
else
{
mio_bch_t bcsbuf[MIO_BCSIZE_MAX];
mio_oow_t mlen = 0;
while (p < end)
{
mio_oow_t n;
n = cmgr->uctobc (*p, bcsbuf, MIO_COUNTOF(bcsbuf));
if (n == 0)
{
ret = -1;
break; /* illegal character */
}
/* it assumes that bcsbuf is large enough to hold a character */
/*MIO_ASSERT (mio, n <= MIO_COUNTOF(bcsbuf));*/
p++; mlen += n;
}
/* this length excludes the terminating null character.
* this function doesn't even null-terminate the result. */
*bcslen = mlen;
}
*ucslen = p - ucs;
return ret;
}
MIO_INLINE int mio_conv_ucs_to_bcs_with_cmgr (
const mio_uch_t* ucs, mio_oow_t* ucslen,
mio_bch_t* bcs, mio_oow_t* bcslen, mio_cmgr_t* cmgr)
{
const mio_uch_t* p = ucs;
int ret = 0;
if (bcs)
{
mio_oow_t rem = *bcslen;
while (*p != '\0')
{
mio_oow_t n;
if (rem <= 0)
{
ret = -2;
break;
}
n = cmgr->uctobc(*p, bcs, rem);
if (n == 0)
{
ret = -1;
break; /* illegal character */
}
if (n > rem)
{
ret = -2;
break; /* buffer too small */
}
bcs += n; rem -= n; p++;
}
/* update bcslen to the length of the bcs string converted excluding
* terminating null */
*bcslen -= rem;
/* null-terminate the multibyte sequence if it has sufficient space */
if (rem > 0) *bcs = '\0';
else
{
/* if ret is -2 and cs[cslen] == '\0',
* this means that the bcs buffer was lacking one
* slot for the terminating null */
ret = -2; /* buffer too small */
}
}
else
{
mio_bch_t bcsbuf[MIO_BCSIZE_MAX];
mio_oow_t mlen = 0;
while (*p != '\0')
{
mio_oow_t n;
n = cmgr->uctobc(*p, bcsbuf, MIO_COUNTOF(bcsbuf));
if (n == 0)
{
ret = -1;
break; /* illegal character */
}
/* it assumes that bcs is large enough to hold a character */
/*MIO_ASSERT (mio, n <= MIO_COUNTOF(bcs));*/
p++; mlen += n;
}
/* this length holds the number of resulting multi-byte characters
* excluding the terminating null character */
*bcslen = mlen;
}
*ucslen = p - ucs; /* the number of wide characters handled. */
return ret;
}
/* ----------------------------------------------------------------------- */
static mio_cmgr_t utf8_cmgr =
{
mio_utf8_to_uc,
mio_uc_to_utf8
};
mio_cmgr_t* mio_get_utf8_cmgr (void)
{
return &utf8_cmgr;
}
int mio_conv_utf8_to_uchars (const mio_bch_t* bcs, mio_oow_t* bcslen, mio_uch_t* ucs, mio_oow_t* ucslen)
{
/* the source is length bound */
return mio_conv_bchars_to_uchars_with_cmgr(bcs, bcslen, ucs, ucslen, &utf8_cmgr, 0);
}
int mio_conv_uchars_to_utf8 (const mio_uch_t* ucs, mio_oow_t* ucslen, mio_bch_t* bcs, mio_oow_t* bcslen)
{
/* length bound */
return mio_conv_uchars_to_bchars_with_cmgr(ucs, ucslen, bcs, bcslen, &utf8_cmgr);
}
int mio_conv_utf8_to_ucstr (const mio_bch_t* bcs, mio_oow_t* bcslen, mio_uch_t* ucs, mio_oow_t* ucslen)
{
/* null-terminated. */
return mio_conv_bcs_to_ucs_with_cmgr(bcs, bcslen, ucs, ucslen, &utf8_cmgr, 0);
}
int mio_conv_ucstr_to_utf8 (const mio_uch_t* ucs, mio_oow_t* ucslen, mio_bch_t* bcs, mio_oow_t* bcslen)
{
/* null-terminated */
return mio_conv_ucs_to_bcs_with_cmgr(ucs, ucslen, bcs, bcslen, &utf8_cmgr);
}
/* ----------------------------------------------------------------------- */
int mio_convbtouchars (mio_t* mio, const mio_bch_t* bcs, mio_oow_t* bcslen, mio_uch_t* ucs, mio_oow_t* ucslen)
{
/* length bound */
int n;
n = mio_conv_bchars_to_uchars_with_cmgr(bcs, bcslen, ucs, ucslen, mio->cmgr, 0);
if (n <= -1)
{
/* -1: illegal character, -2: buffer too small, -3: incomplete sequence */
mio_seterrnum (mio, (n == -2)? MIO_EBUFFULL: MIO_EECERR);
}
return n;
}
int mio_convutobchars (mio_t* mio, const mio_uch_t* ucs, mio_oow_t* ucslen, mio_bch_t* bcs, mio_oow_t* bcslen)
{
/* length bound */
int n;
n = mio_conv_uchars_to_bchars_with_cmgr(ucs, ucslen, bcs, bcslen, mio->cmgr);
if (n <= -1)
{
mio_seterrnum (mio, (n == -2)? MIO_EBUFFULL: MIO_EECERR);
}
return n;
}
int mio_convbtoucstr (mio_t* mio, const mio_bch_t* bcs, mio_oow_t* bcslen, mio_uch_t* ucs, mio_oow_t* ucslen)
{
/* null-terminated. */
int n;
n = mio_conv_bcs_to_ucs_with_cmgr(bcs, bcslen, ucs, ucslen, mio->cmgr, 0);
if (n <= -1)
{
mio_seterrnum (mio, (n == -2)? MIO_EBUFFULL: MIO_EECERR);
}
return n;
}
int mio_convutobcstr (mio_t* mio, const mio_uch_t* ucs, mio_oow_t* ucslen, mio_bch_t* bcs, mio_oow_t* bcslen)
{
/* null-terminated */
int n;
n = mio_conv_ucs_to_bcs_with_cmgr(ucs, ucslen, bcs, bcslen, mio->cmgr);
if (n <= -1)
{
mio_seterrnum (mio, (n == -2)? MIO_EBUFFULL: MIO_EECERR);
}
return n;
}
/* ----------------------------------------------------------------------- */
MIO_INLINE mio_uch_t* mio_dupbtoucharswithheadroom (mio_t* mio, mio_oow_t headroom_bytes, const mio_bch_t* bcs, mio_oow_t bcslen, mio_oow_t* ucslen)
{
mio_oow_t inlen, outlen;
mio_uch_t* ptr;
inlen = bcslen;
if (mio_convbtouchars(mio, bcs, &inlen, MIO_NULL, &outlen) <= -1)
{
/* note it's also an error if no full conversion is made in this function */
return MIO_NULL;
}
ptr = (mio_uch_t*)mio_allocmem(mio, headroom_bytes + ((outlen + 1) * MIO_SIZEOF(mio_uch_t)));
if (!ptr) return MIO_NULL;
inlen = bcslen;
ptr = (mio_uch_t*)((mio_oob_t*)ptr + headroom_bytes);
mio_convbtouchars (mio, bcs, &inlen, ptr, &outlen);
/* mio_convbtouchars() doesn't null-terminate the target.
* but in mio_dupbtouchars(), i allocate space. so i don't mind
* null-terminating it with 1 extra character overhead */
ptr[outlen] = '\0';
if (ucslen) *ucslen = outlen;
return ptr;
}
mio_uch_t* mio_dupbtouchars (mio_t* mio, const mio_bch_t* bcs, mio_oow_t bcslen, mio_oow_t* ucslen)
{
return mio_dupbtoucharswithheadroom (mio, 0, bcs, bcslen, ucslen);
}
MIO_INLINE mio_bch_t* mio_duputobcharswithheadroom (mio_t* mio, mio_oow_t headroom_bytes, const mio_uch_t* ucs, mio_oow_t ucslen, mio_oow_t* bcslen)
{
mio_oow_t inlen, outlen;
mio_bch_t* ptr;
inlen = ucslen;
if (mio_convutobchars(mio, ucs, &inlen, MIO_NULL, &outlen) <= -1)
{
/* note it's also an error if no full conversion is made in this function */
return MIO_NULL;
}
ptr = (mio_bch_t*)mio_allocmem(mio, headroom_bytes + ((outlen + 1) * MIO_SIZEOF(mio_bch_t)));
if (!ptr) return MIO_NULL;
inlen = ucslen;
ptr = (mio_bch_t*)((mio_oob_t*)ptr + headroom_bytes);
mio_convutobchars (mio, ucs, &inlen, ptr, &outlen);
ptr[outlen] = '\0';
if (bcslen) *bcslen = outlen;
return ptr;
}
mio_bch_t* mio_duputobchars (mio_t* mio, const mio_uch_t* ucs, mio_oow_t ucslen, mio_oow_t* bcslen)
{
return mio_duputobcharswithheadroom (mio, 0, ucs, ucslen, bcslen);
}
/* ----------------------------------------------------------------------- */
MIO_INLINE mio_uch_t* mio_dupbtoucstrwithheadroom (mio_t* mio, mio_oow_t headroom_bytes, const mio_bch_t* bcs, mio_oow_t* ucslen)
{
mio_oow_t inlen, outlen;
mio_uch_t* ptr;
if (mio_convbtoucstr(mio, bcs, &inlen, MIO_NULL, &outlen) <= -1)
{
/* note it's also an error if no full conversion is made in this function */
return MIO_NULL;
}
outlen++;
ptr = (mio_uch_t*)mio_allocmem(mio, headroom_bytes + (outlen * MIO_SIZEOF(mio_uch_t)));
if (!ptr) return MIO_NULL;
mio_convbtoucstr (mio, bcs, &inlen, ptr, &outlen);
if (ucslen) *ucslen = outlen;
return ptr;
}
mio_uch_t* mio_dupbtoucstr (mio_t* mio, const mio_bch_t* bcs, mio_oow_t* ucslen)
{
return mio_dupbtoucstrwithheadroom (mio, 0, bcs, ucslen);
}
MIO_INLINE mio_bch_t* mio_duputobcstrwithheadroom (mio_t* mio, mio_oow_t headroom_bytes, const mio_uch_t* ucs, mio_oow_t* bcslen)
{
mio_oow_t inlen, outlen;
mio_bch_t* ptr;
if (mio_convutobcstr(mio, ucs, &inlen, MIO_NULL, &outlen) <= -1)
{
/* note it's also an error if no full conversion is made in this function */
return MIO_NULL;
}
outlen++;
ptr = (mio_bch_t*)mio_allocmem(mio, headroom_bytes + (outlen * MIO_SIZEOF(mio_bch_t)));
if (!ptr) return MIO_NULL;
ptr = (mio_bch_t*)((mio_oob_t*)ptr + headroom_bytes);
mio_convutobcstr (mio, ucs, &inlen, ptr, &outlen);
if (bcslen) *bcslen = outlen;
return ptr;
}
mio_bch_t* mio_duputobcstr (mio_t* mio, const mio_uch_t* ucs, mio_oow_t* bcslen)
{
return mio_duputobcstrwithheadroom (mio, 0, ucs, bcslen);
}
/* ----------------------------------------------------------------------- */
mio_uch_t* mio_dupuchars (mio_t* mio, const mio_uch_t* ucs, mio_oow_t ucslen)
{
mio_uch_t* ptr;
ptr = (mio_uch_t*)mio_allocmem(mio, (ucslen + 1) * MIO_SIZEOF(mio_uch_t));
if (!ptr) return MIO_NULL;
mio_copy_uchars (ptr, ucs, ucslen);
ptr[ucslen] = '\0';
return ptr;
}
mio_bch_t* mio_dupbchars (mio_t* mio, const mio_bch_t* bcs, mio_oow_t bcslen)
{
mio_bch_t* ptr;
ptr = (mio_bch_t*)mio_allocmem(mio, (bcslen + 1) * MIO_SIZEOF(mio_bch_t));
if (!ptr) return MIO_NULL;
mio_copy_bchars (ptr, bcs, bcslen);
ptr[bcslen] = '\0';
return ptr;
}
/* ========================================================================= */
#if defined(MIO_HAVE_UINT16_T)
mio_uint16_t mio_ntoh16 (mio_uint16_t x)
{
#if defined(MIO_ENDIAN_BIG)
return x;
#elif defined(MIO_ENDIAN_LITTLE)
mio_uint8_t* c = (mio_uint8_t*)&x;
return (mio_uint16_t)(
((mio_uint16_t)c[0] << 8) |
((mio_uint16_t)c[1] << 0));
#else
# error Unknown endian
#endif
}
mio_uint16_t mio_hton16 (mio_uint16_t x)
{
#if defined(MIO_ENDIAN_BIG)
return x;
#elif defined(MIO_ENDIAN_LITTLE)
mio_uint8_t* c = (mio_uint8_t*)&x;
return (mio_uint16_t)(
((mio_uint16_t)c[0] << 8) |
((mio_uint16_t)c[1] << 0));
#else
# error Unknown endian
#endif
}
#endif
/* ========================================================================= */
#if defined(MIO_HAVE_UINT32_T)
mio_uint32_t mio_ntoh32 (mio_uint32_t x)
{
#if defined(MIO_ENDIAN_BIG)
return x;
#elif defined(MIO_ENDIAN_LITTLE)
mio_uint8_t* c = (mio_uint8_t*)&x;
return (mio_uint32_t)(
((mio_uint32_t)c[0] << 24) |
((mio_uint32_t)c[1] << 16) |
((mio_uint32_t)c[2] << 8) |
((mio_uint32_t)c[3] << 0));
#else
# error Unknown endian
#endif
}
mio_uint32_t mio_hton32 (mio_uint32_t x)
{
#if defined(MIO_ENDIAN_BIG)
return x;
#elif defined(MIO_ENDIAN_LITTLE)
mio_uint8_t* c = (mio_uint8_t*)&x;
return (mio_uint32_t)(
((mio_uint32_t)c[0] << 24) |
((mio_uint32_t)c[1] << 16) |
((mio_uint32_t)c[2] << 8) |
((mio_uint32_t)c[3] << 0));
#else
# error Unknown endian
#endif
}
#endif
/* ========================================================================= */
#if defined(MIO_HAVE_UINT64_T)
mio_uint64_t mio_ntoh64 (mio_uint64_t x)
{
#if defined(MIO_ENDIAN_BIG)
return x;
#elif defined(MIO_ENDIAN_LITTLE)
mio_uint8_t* c = (mio_uint8_t*)&x;
return (mio_uint64_t)(
((mio_uint64_t)c[0] << 56) |
((mio_uint64_t)c[1] << 48) |
((mio_uint64_t)c[2] << 40) |
((mio_uint64_t)c[3] << 32) |
((mio_uint64_t)c[4] << 24) |
((mio_uint64_t)c[5] << 16) |
((mio_uint64_t)c[6] << 8) |
((mio_uint64_t)c[7] << 0));
#else
# error Unknown endian
#endif
}
mio_uint64_t mio_hton64 (mio_uint64_t x)
{
#if defined(MIO_ENDIAN_BIG)
return x;
#elif defined(MIO_ENDIAN_LITTLE)
mio_uint8_t* c = (mio_uint8_t*)&x;
return (mio_uint64_t)(
((mio_uint64_t)c[0] << 56) |
((mio_uint64_t)c[1] << 48) |
((mio_uint64_t)c[2] << 40) |
((mio_uint64_t)c[3] << 32) |
((mio_uint64_t)c[4] << 24) |
((mio_uint64_t)c[5] << 16) |
((mio_uint64_t)c[6] << 8) |
((mio_uint64_t)c[7] << 0));
#else
# error Unknown endian
#endif
}
#endif
/* ========================================================================= */
#if defined(MIO_HAVE_UINT128_T)
mio_uint128_t mio_ntoh128 (mio_uint128_t x)
{
#if defined(MIO_ENDIAN_BIG)
return x;
#elif defined(MIO_ENDIAN_LITTLE)
mio_uint8_t* c = (mio_uint8_t*)&x;
return (mio_uint128_t)(
((mio_uint128_t)c[0] << 120) |
((mio_uint128_t)c[1] << 112) |
((mio_uint128_t)c[2] << 104) |
((mio_uint128_t)c[3] << 96) |
((mio_uint128_t)c[4] << 88) |
((mio_uint128_t)c[5] << 80) |
((mio_uint128_t)c[6] << 72) |
((mio_uint128_t)c[7] << 64) |
((mio_uint128_t)c[8] << 56) |
((mio_uint128_t)c[9] << 48) |
((mio_uint128_t)c[10] << 40) |
((mio_uint128_t)c[11] << 32) |
((mio_uint128_t)c[12] << 24) |
((mio_uint128_t)c[13] << 16) |
((mio_uint128_t)c[14] << 8) |
((mio_uint128_t)c[15] << 0));
#else
# error Unknown endian
#endif
}
mio_uint128_t mio_hton128 (mio_uint128_t x)
{
#if defined(MIO_ENDIAN_BIG)
return x;
#elif defined(MIO_ENDIAN_LITTLE)
mio_uint8_t* c = (mio_uint8_t*)&x;
return (mio_uint128_t)(
((mio_uint128_t)c[0] << 120) |
((mio_uint128_t)c[1] << 112) |
((mio_uint128_t)c[2] << 104) |
((mio_uint128_t)c[3] << 96) |
((mio_uint128_t)c[4] << 88) |
((mio_uint128_t)c[5] << 80) |
((mio_uint128_t)c[6] << 72) |
((mio_uint128_t)c[7] << 64) |
((mio_uint128_t)c[8] << 56) |
((mio_uint128_t)c[9] << 48) |
((mio_uint128_t)c[10] << 40) |
((mio_uint128_t)c[11] << 32) |
((mio_uint128_t)c[12] << 24) |
((mio_uint128_t)c[13] << 16) |
((mio_uint128_t)c[14] << 8) |
((mio_uint128_t)c[15] << 0));
#else
# error Unknown endian
#endif
}
#endif
/* ========================================================================= */