Sweden-Number/libs/unicode/string.c

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/*
* Unicode string manipulation functions
*
* Copyright 2000 Alexandre Julliard
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <limits.h>
#include <stdio.h>
#include "wine/unicode.h"
int strcmpiW( const WCHAR *str1, const WCHAR *str2 )
{
for (;;)
{
int ret = tolowerW(*str1) - tolowerW(*str2);
if (ret || !*str1) return ret;
str1++;
str2++;
}
}
int strncmpiW( const WCHAR *str1, const WCHAR *str2, int n )
{
int ret = 0;
for ( ; n > 0; n--, str1++, str2++)
if ((ret = tolowerW(*str1) - tolowerW(*str2)) || !*str1) break;
return ret;
}
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int memicmpW( const WCHAR *str1, const WCHAR *str2, int n )
{
int ret = 0;
for ( ; n > 0; n--, str1++, str2++)
if ((ret = tolowerW(*str1) - tolowerW(*str2))) break;
return ret;
}
WCHAR *strstrW( const WCHAR *str, const WCHAR *sub )
{
while (*str)
{
const WCHAR *p1 = str, *p2 = sub;
while (*p1 && *p2 && *p1 == *p2) { p1++; p2++; }
if (!*p2) return (WCHAR *)str;
str++;
}
return NULL;
}
/* strtolW and strtoulW implementation based on the GNU C library code */
/* Copyright (C) 1991,92,94,95,96,97,98,99,2000,2001 Free Software Foundation, Inc. */
long int strtolW( const WCHAR *nptr, WCHAR **endptr, int base )
{
int negative;
register unsigned long int cutoff;
register unsigned int cutlim;
register unsigned long int i;
register const WCHAR *s;
register WCHAR c;
const WCHAR *save, *end;
int overflow;
if (base < 0 || base == 1 || base > 36) return 0;
save = s = nptr;
/* Skip white space. */
while (isspaceW (*s))
++s;
if (!*s) goto noconv;
/* Check for a sign. */
negative = 0;
if (*s == '-')
{
negative = 1;
++s;
}
else if (*s == '+')
++s;
/* Recognize number prefix and if BASE is zero, figure it out ourselves. */
if (*s == '0')
{
if ((base == 0 || base == 16) && toupperW(s[1]) == 'X')
{
s += 2;
base = 16;
}
else if (base == 0)
base = 8;
}
else if (base == 0)
base = 10;
/* Save the pointer so we can check later if anything happened. */
save = s;
end = NULL;
cutoff = ULONG_MAX / (unsigned long int) base;
cutlim = ULONG_MAX % (unsigned long int) base;
overflow = 0;
i = 0;
c = *s;
for (;c != '\0'; c = *++s)
{
if (s == end)
break;
if (c >= '0' && c <= '9')
c -= '0';
else if (isalphaW (c))
c = toupperW (c) - 'A' + 10;
else
break;
if ((int) c >= base)
break;
/* Check for overflow. */
if (i > cutoff || (i == cutoff && c > cutlim))
overflow = 1;
else
{
i *= (unsigned long int) base;
i += c;
}
}
/* Check if anything actually happened. */
if (s == save)
goto noconv;
/* Store in ENDPTR the address of one character
past the last character we converted. */
if (endptr != NULL)
*endptr = (WCHAR *)s;
/* Check for a value that is within the range of
`unsigned LONG int', but outside the range of `LONG int'. */
if (overflow == 0
&& i > (negative
? -((unsigned long int) (LONG_MIN + 1)) + 1
: (unsigned long int) LONG_MAX))
overflow = 1;
if (overflow)
{
return negative ? LONG_MIN : LONG_MAX;
}
/* Return the result of the appropriate sign. */
return negative ? -i : i;
noconv:
/* We must handle a special case here: the base is 0 or 16 and the
first two characters are '0' and 'x', but the rest are not
hexadecimal digits. This is no error case. We return 0 and
ENDPTR points to the `x`. */
if (endptr != NULL)
{
if (save - nptr >= 2 && toupperW (save[-1]) == 'X'
&& save[-2] == '0')
*endptr = (WCHAR *)&save[-1];
else
/* There was no number to convert. */
*endptr = (WCHAR *)nptr;
}
return 0L;
}
unsigned long int strtoulW( const WCHAR *nptr, WCHAR **endptr, int base )
{
int negative;
register unsigned long int cutoff;
register unsigned int cutlim;
register unsigned long int i;
register const WCHAR *s;
register WCHAR c;
const WCHAR *save, *end;
int overflow;
if (base < 0 || base == 1 || base > 36) return 0;
save = s = nptr;
/* Skip white space. */
while (isspaceW (*s))
++s;
if (!*s) goto noconv;
/* Check for a sign. */
negative = 0;
if (*s == '-')
{
negative = 1;
++s;
}
else if (*s == '+')
++s;
/* Recognize number prefix and if BASE is zero, figure it out ourselves. */
if (*s == '0')
{
if ((base == 0 || base == 16) && toupperW(s[1]) == 'X')
{
s += 2;
base = 16;
}
else if (base == 0)
base = 8;
}
else if (base == 0)
base = 10;
/* Save the pointer so we can check later if anything happened. */
save = s;
end = NULL;
cutoff = ULONG_MAX / (unsigned long int) base;
cutlim = ULONG_MAX % (unsigned long int) base;
overflow = 0;
i = 0;
c = *s;
for (;c != '\0'; c = *++s)
{
if (s == end)
break;
if (c >= '0' && c <= '9')
c -= '0';
else if (isalphaW (c))
c = toupperW (c) - 'A' + 10;
else
break;
if ((int) c >= base)
break;
/* Check for overflow. */
if (i > cutoff || (i == cutoff && c > cutlim))
overflow = 1;
else
{
i *= (unsigned long int) base;
i += c;
}
}
/* Check if anything actually happened. */
if (s == save)
goto noconv;
/* Store in ENDPTR the address of one character
past the last character we converted. */
if (endptr != NULL)
*endptr = (WCHAR *)s;
if (overflow)
{
return ULONG_MAX;
}
/* Return the result of the appropriate sign. */
return negative ? -i : i;
noconv:
/* We must handle a special case here: the base is 0 or 16 and the
first two characters are '0' and 'x', but the rest are not
hexadecimal digits. This is no error case. We return 0 and
ENDPTR points to the `x`. */
if (endptr != NULL)
{
if (save - nptr >= 2 && toupperW (save[-1]) == 'X'
&& save[-2] == '0')
*endptr = (WCHAR *)&save[-1];
else
/* There was no number to convert. */
*endptr = (WCHAR *)nptr;
}
return 0L;
}
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int vsnprintfW(WCHAR *str, size_t len, const WCHAR *format, va_list valist)
{
unsigned int written = 0;
const WCHAR *iter = format;
char bufa[256], fmtbufa[64], *fmta;
while (*iter)
{
while (*iter && *iter != '%')
{
if (written++ >= len)
return -1;
*str++ = *iter++;
}
if (*iter == '%')
{
if (iter[1] == '%')
{
if (written++ >= len)
return -1;
*str++ = '%'; /* "%%"->'%' */
iter += 2;
continue;
}
fmta = fmtbufa;
*fmta++ = *iter++;
while (*iter == '0' ||
*iter == '+' ||
*iter == '-' ||
*iter == ' ' ||
*iter == '*' ||
*iter == '#')
{
if (*iter == '*')
{
char *buffiter = bufa;
int fieldlen = va_arg(valist, int);
sprintf(buffiter, "%d", fieldlen);
while (*buffiter)
*fmta++ = *buffiter++;
}
else
*fmta++ = *iter;
iter++;
}
while (isdigit(*iter))
*fmta++ = *iter++;
if (*iter == '.')
{
*fmta++ = *iter++;
if (*iter == '*')
{
char *buffiter = bufa;
int fieldlen = va_arg(valist, int);
sprintf(buffiter, "%d", fieldlen);
while (*buffiter)
*fmta++ = *buffiter++;
}
else
while (isdigit(*iter))
*fmta++ = *iter++;
}
if (*iter == 'h' || *iter == 'l')
*fmta++ = *iter++;
switch (*iter)
{
case 's':
{
static const WCHAR none[] = { '(','n','u','l','l',')',0 };
const WCHAR *wstr = va_arg(valist, const WCHAR *);
const WCHAR *striter = wstr ? wstr : none;
while (*striter)
{
if (written++ >= len)
return -1;
*str++ = *striter++;
}
iter++;
break;
}
case 'c':
if (written++ >= len)
return -1;
*str++ = (WCHAR)va_arg(valist, int);
iter++;
break;
default:
{
/* For non wc types, use system sprintf and append to wide char output */
/* FIXME: for unrecognised types, should ignore % when printing */
char *bufaiter = bufa;
if (*iter == 'p')
sprintf(bufaiter, "%08lX", va_arg(valist, long));
else
{
*fmta++ = *iter;
*fmta = '\0';
if (*iter == 'a' || *iter == 'A' ||
*iter == 'e' || *iter == 'E' ||
*iter == 'f' || *iter == 'F' ||
*iter == 'g' || *iter == 'G')
sprintf(bufaiter, fmtbufa, va_arg(valist, double));
else
{
/* FIXME: On 32 bit systems this doesn't handle int 64's.
* on 64 bit systems this doesn't work for 32 bit types
*/
sprintf(bufaiter, fmtbufa, va_arg(valist, void *));
}
}
while (*bufaiter)
{
if (written++ >= len)
return -1;
*str++ = *bufaiter++;
}
iter++;
break;
}
}
}
}
if (written >= len)
return -1;
*str++ = 0;
return (int)written;
}
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int vsprintfW( WCHAR *str, const WCHAR *format, va_list valist )
{
return vsnprintfW( str, INT_MAX, format, valist );
}
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int snprintfW( WCHAR *str, size_t len, const WCHAR *format, ...)
{
int retval;
va_list valist;
va_start(valist, format);
retval = vsnprintfW(str, len, format, valist);
va_end(valist);
return retval;
}
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int sprintfW( WCHAR *str, const WCHAR *format, ...)
{
int retval;
va_list valist;
va_start(valist, format);
retval = vsnprintfW(str, INT_MAX, format, valist);
va_end(valist);
return retval;
}