mirror/mariadb
1
0
Fork 0
mirror of https://github.com/MariaDB/server.git synced 2025-01-16 03:52:35 +01:00
Code Issues Projects Releases Packages Wiki Activity Actions
mariadb/strings/ctype-simple.c
unknown 7191e77539 Fixed portability issue in my_thr_init.c (was added in my last push) 
Fixed compiler warnings (detected by VC++):
- Removed not used variables
- Added casts
- Fixed wrong assignments to bool
- Fixed wrong calls with bool arguments
- Added missing argument to store(longlong), which caused wrong store method to be called.



client/mysqldump.c:
  Removed compiler warning
heap/hp_clear.c:
  Removed compiler warning
include/my_global.h:
  Removed compiler warning
include/my_tree.h:
  Changed memory limits from int to ulong
  (Allowed me to get rid of some compiler warnings)
myisam/mi_create.c:
  Removed compiler warning
myisam/myisampack.c:
  Removed compiler warning
mysys/base64.c:
  Removed compiler warning
mysys/my_thr_init.c:
  Fixed portability issue (detected on windows)
  Added DBUG_ASSERT to detect if we call my_thread_end() too many times
  Don't wait if THR_thread_count == -1 (error condition)
mysys/tree.c:
  Removed compiler warning
sql/field.cc:
  Removed compiler warning
  Fixed wrong parameter to check_date()
  Added missing argument to store(longlong)
sql/ha_archive.cc:
  Removed compiler warning
sql/ha_federated.cc:
  Removed compiler warning
sql/ha_innodb.cc:
  Removed not used variable
sql/handler.cc:
  Removed not used variable
  Fixed wrong if (we didn't detect if rollback or commit failed). Not critical as value is not yet used
sql/item.cc:
  Removed compiler warning
sql/item_func.cc:
  Removed compiler warning
sql/item_strfunc.cc:
  Removed compiler warning
sql/item_timefunc.cc:
  Removed compiler warning
sql/log.cc:
  Removed compiler warning
sql/mysql_priv.h:
  Removed compiler warning
sql/opt_range.cc:
  Removed compiler warning
sql/password.c:
  Removed compiler warning
sql/set_var.cc:
  Removed compiler warning
sql/slave.cc:
  Removed compiler warning
sql/sp.cc:
  Removed compiler warning
sql/sp_cache.cc:
  Removed compiler warning
sql/sp_head.cc:
  Removed compiler warning
  Adjusted argument to reserve() to not use up too much memory that we are probably not going to need
sql/sql_acl.cc:
  Added missing argument to store(longlong)
sql/sql_base.cc:
  Removed compiler warning
sql/sql_db.cc:
  Removed compiler warning
sql/sql_delete.cc:
  Removed compiler warning
sql/sql_handler.cc:
  Removed not used variable
sql/sql_lex.h:
  Removed not used variable
sql/sql_prepare.cc:
  Removed not used variable
sql/sql_rename.cc:
  Removed not used variable
sql/sql_select.cc:
  Fixed that select_options are not 'cut'
  Removed some not used variables
  Removed compiler warnings by adding cast
sql/sql_show.cc:
  Removed not used variables
  Added missing argument to store(longlong)
  Removed compiler warnings
sql/sql_trigger.cc:
  Removed not used variables
  Added cast to remove compiler warnings
sql/sql_update.cc:
  Fixed wrong set of bool variable
sql/sql_view.cc:
  Removed not used variables
  Added cast to get rid of compiler warnings
sql-common/client.c:
  Fixed compiler warning
sql-common/my_time.c:
  Fixed wrong argument to check_date()
  Added casts to get rid of compiler warnings
sql/sql_yacc.yy:
  Removed not used variable
sql/uniques.cc:
  Changes memory size from uint to ulong
  Added casts to get rid of compiler warnings
strings/ctype-simple.c:
  Fixed cast to get rid of compiler warnings
2006-11-30 18:25:05 +02:00

1796 lines
38 KiB
C
Raw Blame History

/* Copyright (C) 2002 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include <my_global.h>
#include "m_string.h"
#include "m_ctype.h"
#include "my_sys.h" /* Needed for MY_ERRNO_ERANGE */
#include <errno.h>
#include "stdarg.h"
/*
Returns the number of bytes required for strnxfrm().
*/
uint my_strnxfrmlen_simple(CHARSET_INFO *cs, uint len)
{
return len * (cs->strxfrm_multiply ? cs->strxfrm_multiply : 1);
}
/*
Converts a string into its sort key.
SYNOPSIS
my_strnxfrm_xxx()
IMPLEMENTATION
The my_strxfrm_xxx() function transforms a string pointed to by
'src' with length 'srclen' according to the charset+collation
pair 'cs' and copies the result key into 'dest'.
Comparing two strings using memcmp() after my_strnxfrm_xxx()
is equal to comparing two original strings with my_strnncollsp_xxx().
Not more than 'dstlen' bytes are written into 'dst'.
To garantee that the whole string is transformed, 'dstlen' must be
at least srclen*cs->strnxfrm_multiply bytes long. Otherwise,
consequent memcmp() may return a non-accurate result.
If the source string is too short to fill whole 'dstlen' bytes,
then the 'dest' string is padded up to 'dstlen', ensuring that:
"a" == "a "
"a\0" < "a"
"a\0" < "a "
my_strnxfrm_simple() is implemented for 8bit charsets and
simple collations with one-to-one string->key transformation.
See also implementations for various charsets/collations in
other ctype-xxx.c files.
RETURN
Target len 'dstlen'.
*/
int my_strnxfrm_simple(CHARSET_INFO * cs,
uchar *dest, uint len,
const uchar *src, uint srclen)
{
uchar *map= cs->sort_order;
uint dstlen= len;
set_if_smaller(len, srclen);
if (dest != src)
{
const uchar *end;
for ( end=src+len; src < end ; )
*dest++= map[*src++];
}
else
{
const uchar *end;
for ( end=dest+len; dest < end ; dest++)
*dest= (char) map[(uchar) *dest];
}
if (dstlen > len)
bfill(dest, dstlen - len, ' ');
return dstlen;
}
int my_strnncoll_simple(CHARSET_INFO * cs, const uchar *s, uint slen,
const uchar *t, uint tlen,
my_bool t_is_prefix)
{
int len = ( slen > tlen ) ? tlen : slen;
uchar *map= cs->sort_order;
if (t_is_prefix && slen > tlen)
slen=tlen;
while (len--)
{
if (map[*s++] != map[*t++])
return ((int) map[s[-1]] - (int) map[t[-1]]);
}
return (int) (slen - tlen);
}
/*
Compare strings, discarding end space
SYNOPSIS
my_strnncollsp_simple()
cs character set handler
a First string to compare
a_length Length of 'a'
b Second string to compare
b_length Length of 'b'
diff_if_only_endspace_difference
Set to 1 if the strings should be regarded as different
if they only difference in end space
IMPLEMENTATION
If one string is shorter as the other, then we space extend the other
so that the strings have equal length.
This will ensure that the following things hold:
"a" == "a "
"a\0" < "a"
"a\0" < "a "
RETURN
< 0 a < b
= 0 a == b
> 0 a > b
*/
int my_strnncollsp_simple(CHARSET_INFO * cs, const uchar *a, uint a_length,
const uchar *b, uint b_length,
my_bool diff_if_only_endspace_difference)
{
const uchar *map= cs->sort_order, *end;
uint length;
int res;
#ifndef VARCHAR_WITH_DIFF_ENDSPACE_ARE_DIFFERENT_FOR_UNIQUE
diff_if_only_endspace_difference= 0;
#endif
end= a + (length= min(a_length, b_length));
while (a < end)
{
if (map[*a++] != map[*b++])
return ((int) map[a[-1]] - (int) map[b[-1]]);
}
res= 0;
if (a_length != b_length)
{
int swap= 1;
if (diff_if_only_endspace_difference)
res= 1; /* Assume 'a' is bigger */
/*
Check the next not space character of the longer key. If it's < ' ',
then it's smaller than the other key.
*/
if (a_length < b_length)
{
/* put shorter key in s */
a_length= b_length;
a= b;
swap= -1; /* swap sign of result */
res= -res;
}
for (end= a + a_length-length; a < end ; a++)
{
if (*a != ' ')
return (*a < ' ') ? -swap : swap;
}
}
return res;
}
uint my_caseup_str_8bit(CHARSET_INFO * cs,char *str)
{
register uchar *map= cs->to_upper;
char *str_orig= str;
while ((*str= (char) map[(uchar) *str]) != 0)
str++;
return str - str_orig;
}
uint my_casedn_str_8bit(CHARSET_INFO * cs,char *str)
{
register uchar *map= cs->to_lower;
char *str_orig= str;
while ((*str= (char) map[(uchar) *str]) != 0)
str++;
return str - str_orig;
}
uint my_caseup_8bit(CHARSET_INFO * cs, char *src, uint srclen,
char *dst __attribute__((unused)),
uint dstlen __attribute__((unused)))
{
uint srclen0= srclen;
register uchar *map= cs->to_upper;
DBUG_ASSERT(src == dst && srclen == dstlen);
for ( ; srclen > 0 ; srclen--, src++)
*src= (char) map[(uchar) *src];
return srclen0;
}
uint my_casedn_8bit(CHARSET_INFO * cs, char *src, uint srclen,
char *dst __attribute__((unused)),
uint dstlen __attribute__((unused)))
{
uint srclen0= srclen;
register uchar *map=cs->to_lower;
DBUG_ASSERT(src == dst && srclen == dstlen);
for ( ; srclen > 0 ; srclen--, src++)
*src= (char) map[(uchar) *src];
return srclen0;
}
int my_strcasecmp_8bit(CHARSET_INFO * cs,const char *s, const char *t)
{
register uchar *map=cs->to_upper;
while (map[(uchar) *s] == map[(uchar) *t++])
if (!*s++) return 0;
return ((int) map[(uchar) s[0]] - (int) map[(uchar) t[-1]]);
}
int my_mb_wc_8bit(CHARSET_INFO *cs,my_wc_t *wc,
const unsigned char *str,
const unsigned char *end __attribute__((unused)))
{
if (str >= end)
return MY_CS_TOOSMALL;
*wc=cs->tab_to_uni[*str];
return (!wc[0] && str[0]) ? -1 : 1;
}
int my_wc_mb_8bit(CHARSET_INFO *cs,my_wc_t wc,
unsigned char *str,
unsigned char *end __attribute__((unused)))
{
MY_UNI_IDX *idx;
if (str >= end)
return MY_CS_TOOSMALL;
for (idx=cs->tab_from_uni; idx->tab ; idx++)
{
if (idx->from <= wc && idx->to >= wc)
{
str[0]= idx->tab[wc - idx->from];
return (!str[0] && wc) ? MY_CS_ILUNI : 1;
}
}
return MY_CS_ILUNI;
}
/*
We can't use vsprintf here as it's not guaranteed to return
the length on all operating systems.
This function is also not called in a safe environment, so the
end buffer must be checked.
*/
int my_snprintf_8bit(CHARSET_INFO *cs __attribute__((unused)),
char* to, uint n __attribute__((unused)),
const char* fmt, ...)
{
va_list args;
int result;
va_start(args,fmt);
result= my_vsnprintf(to, n, fmt, args);
va_end(args);
return result;
}
void my_hash_sort_simple(CHARSET_INFO *cs,
const uchar *key, uint len,
ulong *nr1, ulong *nr2)
{
register uchar *sort_order=cs->sort_order;
const uchar *end= key + len;
/*
Remove end space. We have to do this to be able to compare
'A ' and 'A' as identical
*/
while (end > key && end[-1] == ' ')
end--;
for (; key < (uchar*) end ; key++)
{
nr1[0]^=(ulong) ((((uint) nr1[0] & 63)+nr2[0]) *
((uint) sort_order[(uint) *key])) + (nr1[0] << 8);
nr2[0]+=3;
}
}
long my_strntol_8bit(CHARSET_INFO *cs,
const char *nptr, uint l, int base,
char **endptr, int *err)
{
int negative;
register uint32 cutoff;
register unsigned int cutlim;
register uint32 i;
register const char *s;
register unsigned char c;
const char *save, *e;
int overflow;
*err= 0; /* Initialize error indicator */
#ifdef NOT_USED
if (base < 0 || base == 1 || base > 36)
base = 10;
#endif
s = nptr;
e = nptr+l;
for ( ; s<e && my_isspace(cs, *s) ; s++);
if (s == e)
{
goto noconv;
}
/* Check for a sign. */
if (*s == '-')
{
negative = 1;
++s;
}
else if (*s == '+')
{
negative = 0;
++s;
}
else
negative = 0;
#ifdef NOT_USED
if (base == 16 && s[0] == '0' && (s[1]=='X' || s[1]=='x'))
s += 2;
#endif
#ifdef NOT_USED
if (base == 0)
{
if (*s == '0')
{
if (s[1]=='X' || s[1]=='x')
{
s += 2;
base = 16;
}
else
base = 8;
}
else
base = 10;
}
#endif
save = s;
cutoff = ((uint32)~0L) / (uint32) base;
cutlim = (uint) (((uint32)~0L) % (uint32) base);
overflow = 0;
i = 0;
for (c = *s; s != e; c = *++s)
{
if (c>='0' && c<='9')
c -= '0';
else if (c>='A' && c<='Z')
c = c - 'A' + 10;
else if (c>='a' && c<='z')
c = c - 'a' + 10;
else
break;
if (c >= base)
break;
if (i > cutoff || (i == cutoff && c > cutlim))
overflow = 1;
else
{
i *= (uint32) base;
i += c;
}
}
if (s == save)
goto noconv;
if (endptr != NULL)
*endptr = (char *) s;
if (negative)
{
if (i > (uint32) INT_MIN32)
overflow = 1;
}
else if (i > INT_MAX32)
overflow = 1;
if (overflow)
{
err[0]= ERANGE;
return negative ? INT_MIN32 : INT_MAX32;
}
return (negative ? -((long) i) : (long) i);
noconv:
err[0]= EDOM;
if (endptr != NULL)
*endptr = (char *) nptr;
return 0L;
}
ulong my_strntoul_8bit(CHARSET_INFO *cs,
const char *nptr, uint l, int base,
char **endptr, int *err)
{
int negative;
register uint32 cutoff;
register unsigned int cutlim;
register uint32 i;
register const char *s;
register unsigned char c;
const char *save, *e;
int overflow;
*err= 0; /* Initialize error indicator */
#ifdef NOT_USED
if (base < 0 || base == 1 || base > 36)
base = 10;
#endif
s = nptr;
e = nptr+l;
for( ; s<e && my_isspace(cs, *s); s++);
if (s==e)
{
goto noconv;
}
if (*s == '-')
{
negative = 1;
++s;
}
else if (*s == '+')
{
negative = 0;
++s;
}
else
negative = 0;
#ifdef NOT_USED
if (base == 16 && s[0] == '0' && (s[1]=='X' || s[1]=='x'))
s += 2;
#endif
#ifdef NOT_USED
if (base == 0)
{
if (*s == '0')
{
if (s[1]=='X' || s[1]=='x')
{
s += 2;
base = 16;
}
else
base = 8;
}
else
base = 10;
}
#endif
save = s;
cutoff = ((uint32)~0L) / (uint32) base;
cutlim = (uint) (((uint32)~0L) % (uint32) base);
overflow = 0;
i = 0;
for (c = *s; s != e; c = *++s)
{
if (c>='0' && c<='9')
c -= '0';
else if (c>='A' && c<='Z')
c = c - 'A' + 10;
else if (c>='a' && c<='z')
c = c - 'a' + 10;
else
break;
if (c >= base)
break;
if (i > cutoff || (i == cutoff && c > cutlim))
overflow = 1;
else
{
i *= (uint32) base;
i += c;
}
}
if (s == save)
goto noconv;
if (endptr != NULL)
*endptr = (char *) s;
if (overflow)
{
err[0]= ERANGE;
return (~(uint32) 0);
}
return (negative ? -((long) i) : (long) i);
noconv:
err[0]= EDOM;
if (endptr != NULL)
*endptr = (char *) nptr;
return 0L;
}
longlong my_strntoll_8bit(CHARSET_INFO *cs __attribute__((unused)),
const char *nptr, uint l, int base,
char **endptr,int *err)
{
int negative;
register ulonglong cutoff;
register unsigned int cutlim;
register ulonglong i;
register const char *s, *e;
const char *save;
int overflow;
*err= 0; /* Initialize error indicator */
#ifdef NOT_USED
if (base < 0 || base == 1 || base > 36)
base = 10;
#endif
s = nptr;
e = nptr+l;
for(; s<e && my_isspace(cs,*s); s++);
if (s == e)
{
goto noconv;
}
if (*s == '-')
{
negative = 1;
++s;
}
else if (*s == '+')
{
negative = 0;
++s;
}
else
negative = 0;
#ifdef NOT_USED
if (base == 16 && s[0] == '0' && (s[1]=='X'|| s[1]=='x'))
s += 2;
#endif
#ifdef NOT_USED
if (base == 0)
{
if (*s == '0')
{
if (s[1]=='X' || s[1]=='x')
{
s += 2;
base = 16;
}
else
base = 8;
}
else
base = 10;
}
#endif
save = s;
cutoff = (~(ulonglong) 0) / (unsigned long int) base;
cutlim = (uint) ((~(ulonglong) 0) % (unsigned long int) base);
overflow = 0;
i = 0;
for ( ; s != e; s++)
{
register unsigned char c= *s;
if (c>='0' && c<='9')
c -= '0';
else if (c>='A' && c<='Z')
c = c - 'A' + 10;
else if (c>='a' && c<='z')
c = c - 'a' + 10;
else
break;
if (c >= base)
break;
if (i > cutoff || (i == cutoff && c > cutlim))
overflow = 1;
else
{
i *= (ulonglong) base;
i += c;
}
}
if (s == save)
goto noconv;
if (endptr != NULL)
*endptr = (char *) s;
if (negative)
{
if (i > (ulonglong) LONGLONG_MIN)
overflow = 1;
}
else if (i > (ulonglong) LONGLONG_MAX)
overflow = 1;
if (overflow)
{
err[0]= ERANGE;
return negative ? LONGLONG_MIN : LONGLONG_MAX;
}
return (negative ? -((longlong) i) : (longlong) i);
noconv:
err[0]= EDOM;
if (endptr != NULL)
*endptr = (char *) nptr;
return 0L;
}
ulonglong my_strntoull_8bit(CHARSET_INFO *cs,
const char *nptr, uint l, int base,
char **endptr, int *err)
{
int negative;
register ulonglong cutoff;
register unsigned int cutlim;
register ulonglong i;
register const char *s, *e;
const char *save;
int overflow;
*err= 0; /* Initialize error indicator */
#ifdef NOT_USED
if (base < 0 || base == 1 || base > 36)
base = 10;
#endif
s = nptr;
e = nptr+l;
for(; s<e && my_isspace(cs,*s); s++);
if (s == e)
{
goto noconv;
}
if (*s == '-')
{
negative = 1;
++s;
}
else if (*s == '+')
{
negative = 0;
++s;
}
else
negative = 0;
#ifdef NOT_USED
if (base == 16 && s[0] == '0' && (s[1]=='X' || s[1]=='x'))
s += 2;
#endif
#ifdef NOT_USED
if (base == 0)
{
if (*s == '0')
{
if (s[1]=='X' || s[1]=='x')
{
s += 2;
base = 16;
}
else
base = 8;
}
else
base = 10;
}
#endif
save = s;
cutoff = (~(ulonglong) 0) / (unsigned long int) base;
cutlim = (uint) ((~(ulonglong) 0) % (unsigned long int) base);
overflow = 0;
i = 0;
for ( ; s != e; s++)
{
register unsigned char c= *s;
if (c>='0' && c<='9')
c -= '0';
else if (c>='A' && c<='Z')
c = c - 'A' + 10;
else if (c>='a' && c<='z')
c = c - 'a' + 10;
else
break;
if (c >= base)
break;
if (i > cutoff || (i == cutoff && c > cutlim))
overflow = 1;
else
{
i *= (ulonglong) base;
i += c;
}
}
if (s == save)
goto noconv;
if (endptr != NULL)
*endptr = (char *) s;
if (overflow)
{
err[0]= ERANGE;
return (~(ulonglong) 0);
}
return (negative ? -((longlong) i) : (longlong) i);
noconv:
err[0]= EDOM;
if (endptr != NULL)
*endptr = (char *) nptr;
return 0L;
}
/*
Read double from string
SYNOPSIS:
my_strntod_8bit()
cs Character set information
str String to convert to double
length Optional length for string.
end result pointer to end of converted string
err Error number if failed conversion
NOTES:
If length is not INT_MAX32 or str[length] != 0 then the given str must
be writeable
If length == INT_MAX32 the str must be \0 terminated.
It's implemented this way to save a buffer allocation and a memory copy.
RETURN
Value of number in string
*/
double my_strntod_8bit(CHARSET_INFO *cs __attribute__((unused)),
char *str, uint length,
char **end, int *err)
{
if (length == INT_MAX32)
length= 65535; /* Should be big enough */
*end= str + length;
return my_strtod(str, end, err);
}
/*
This is a fast version optimized for the case of radix 10 / -10
Assume len >= 1
*/
int my_long10_to_str_8bit(CHARSET_INFO *cs __attribute__((unused)),
char *dst, uint len, int radix, long int val)
{
char buffer[66];
register char *p, *e;
long int new_val;
uint sign=0;
e = p = &buffer[sizeof(buffer)-1];
*p= 0;
if (radix < 0)
{
if (val < 0)
{
val= -val;
*dst++= '-';
len--;
sign= 1;
}
}
new_val = (long) ((unsigned long int) val / 10);
*--p = '0'+ (char) ((unsigned long int) val - (unsigned long) new_val * 10);
val = new_val;
while (val != 0)
{
new_val=val/10;
*--p = '0' + (char) (val-new_val*10);
val= new_val;
}
len= min(len, (uint) (e-p));
memcpy(dst, p, len);
return (int) len+sign;
}
int my_longlong10_to_str_8bit(CHARSET_INFO *cs __attribute__((unused)),
char *dst, uint len, int radix, longlong val)
{
char buffer[65];
register char *p, *e;
long long_val;
uint sign= 0;
if (radix < 0)
{
if (val < 0)
{
val = -val;
*dst++= '-';
len--;
sign= 1;
}
}
e = p = &buffer[sizeof(buffer)-1];
*p= 0;
if (val == 0)
{
*--p= '0';
len= 1;
goto cnv;
}
while ((ulonglong) val > (ulonglong) LONG_MAX)
{
ulonglong quo=(ulonglong) val/(uint) 10;
uint rem= (uint) (val- quo* (uint) 10);
*--p = '0' + rem;
val= quo;
}
long_val= (long) val;
while (long_val != 0)
{
long quo= long_val/10;
*--p = (char) ('0' + (long_val - quo*10));
long_val= quo;
}
len= min(len, (uint) (e-p));
cnv:
memcpy(dst, p, len);
return len+sign;
}
/*
** Compare string against string with wildcard
** 0 if matched
** -1 if not matched with wildcard
** 1 if matched with wildcard
*/
#ifdef LIKE_CMP_TOUPPER
#define likeconv(s,A) (uchar) my_toupper(s,A)
#else
#define likeconv(s,A) (uchar) (s)->sort_order[(uchar) (A)]
#endif
#define INC_PTR(cs,A,B) (A)++
int my_wildcmp_8bit(CHARSET_INFO *cs,
const char *str,const char *str_end,
const char *wildstr,const char *wildend,
int escape, int w_one, int w_many)
{
int result= -1; /* Not found, using wildcards */
while (wildstr != wildend)
{
while (*wildstr != w_many && *wildstr != w_one)
{
if (*wildstr == escape && wildstr+1 != wildend)
wildstr++;
if (str == str_end || likeconv(cs,*wildstr++) != likeconv(cs,*str++))
return(1); /* No match */
if (wildstr == wildend)
return(str != str_end); /* Match if both are at end */
result=1; /* Found an anchor char */
}
if (*wildstr == w_one)
{
do
{
if (str == str_end) /* Skip one char if possible */
return(result);
INC_PTR(cs,str,str_end);
} while (++wildstr < wildend && *wildstr == w_one);
if (wildstr == wildend)
break;
}
if (*wildstr == w_many)
{ /* Found w_many */
uchar cmp;
wildstr++;
/* Remove any '%' and '_' from the wild search string */
for (; wildstr != wildend ; wildstr++)
{
if (*wildstr == w_many)
continue;
if (*wildstr == w_one)
{
if (str == str_end)
return(-1);
INC_PTR(cs,str,str_end);
continue;
}
break; /* Not a wild character */
}
if (wildstr == wildend)
return(0); /* Ok if w_many is last */
if (str == str_end)
return(-1);
if ((cmp= *wildstr) == escape && wildstr+1 != wildend)
cmp= *++wildstr;
INC_PTR(cs,wildstr,wildend); /* This is compared trough cmp */
cmp=likeconv(cs,cmp);
do
{
while (str != str_end && (uchar) likeconv(cs,*str) != cmp)
str++;
if (str++ == str_end) return(-1);
{
int tmp=my_wildcmp_8bit(cs,str,str_end,wildstr,wildend,escape,w_one,
w_many);
if (tmp <= 0)
return(tmp);
}
} while (str != str_end && wildstr[0] != w_many);
return(-1);
}
}
return(str != str_end ? 1 : 0);
}
/*
** Calculate min_str and max_str that ranges a LIKE string.
** Arguments:
** ptr Pointer to LIKE string.
** ptr_length Length of LIKE string.
** escape Escape character in LIKE. (Normally '\').
** All escape characters should be removed from min_str and max_str
** res_length Length of min_str and max_str.
** min_str Smallest case sensitive string that ranges LIKE.
** Should be space padded to res_length.
** max_str Largest case sensitive string that ranges LIKE.
** Normally padded with the biggest character sort value.
**
** The function should return 0 if ok and 1 if the LIKE string can't be
** optimized !
*/
my_bool my_like_range_simple(CHARSET_INFO *cs,
const char *ptr,uint ptr_length,
pbool escape, pbool w_one, pbool w_many,
uint res_length,
char *min_str,char *max_str,
uint *min_length,uint *max_length)
{
const char *end= ptr + ptr_length;
char *min_org=min_str;
char *min_end=min_str+res_length;
uint charlen= res_length / cs->mbmaxlen;
for (; ptr != end && min_str != min_end && charlen > 0 ; ptr++, charlen--)
{
if (*ptr == escape && ptr+1 != end)
{
ptr++; /* Skip escape */
*min_str++= *max_str++ = *ptr;
continue;
}
if (*ptr == w_one) /* '_' in SQL */
{
*min_str++='\0'; /* This should be min char */
*max_str++= (char) cs->max_sort_char;
continue;
}
if (*ptr == w_many) /* '%' in SQL */
{
/* Calculate length of keys */
*min_length= ((cs->state & MY_CS_BINSORT) ? (uint) (min_str - min_org) :
res_length);
*max_length= res_length;
do
{
*min_str++= 0;
*max_str++= (char) cs->max_sort_char;
} while (min_str != min_end);
return 0;
}
*min_str++= *max_str++ = *ptr;
}
*min_length= *max_length = (uint) (min_str - min_org);
while (min_str != min_end)
*min_str++= *max_str++ = ' '; /* Because if key compression */
return 0;
}
ulong my_scan_8bit(CHARSET_INFO *cs, const char *str, const char *end, int sq)
{
const char *str0= str;
switch (sq)
{
case MY_SEQ_INTTAIL:
if (*str == '.')
{
for(str++ ; str != end && *str == '0' ; str++);
return (ulong) (str - str0);
}
return 0;
case MY_SEQ_SPACES:
for ( ; str < end ; str++)
{
if (!my_isspace(cs,*str))
break;
}
return (ulong) (str - str0);
default:
return 0;
}
}
void my_fill_8bit(CHARSET_INFO *cs __attribute__((unused)),
char *s, uint l, int fill)
{
bfill(s,l,fill);
}
uint my_numchars_8bit(CHARSET_INFO *cs __attribute__((unused)),
const char *b, const char *e)
{
return (uint) (e - b);
}
uint my_numcells_8bit(CHARSET_INFO *cs __attribute__((unused)),
const char *b, const char *e)
{
return (uint) (e - b);
}
uint my_charpos_8bit(CHARSET_INFO *cs __attribute__((unused)),
const char *b __attribute__((unused)),
const char *e __attribute__((unused)),
uint pos)
{
return pos;
}
uint my_well_formed_len_8bit(CHARSET_INFO *cs __attribute__((unused)),
const char *start, const char *end,
uint nchars, int *error)
{
uint nbytes= (uint) (end-start);
*error= 0;
return min(nbytes, nchars);
}
uint my_lengthsp_8bit(CHARSET_INFO *cs __attribute__((unused)),
const char *ptr, uint length)
{
const char *end= ptr+length;
while (end > ptr && end[-1] == ' ')
end--;
return (uint) (end-ptr);
}
uint my_instr_simple(CHARSET_INFO *cs,
const char *b, uint b_length,
const char *s, uint s_length,
my_match_t *match, uint nmatch)
{
register const uchar *str, *search, *end, *search_end;
if (s_length <= b_length)
{
if (!s_length)
{
if (nmatch)
{
match->beg= 0;
match->end= 0;
match->mblen= 0;
}
return 1; /* Empty string is always found */
}
str= (const uchar*) b;
search= (const uchar*) s;
end= (const uchar*) b+b_length-s_length+1;
search_end= (const uchar*) s + s_length;
skip:
while (str != end)
{
if (cs->sort_order[*str++] == cs->sort_order[*search])
{
register const uchar *i,*j;
i= str;
j= search+1;
while (j != search_end)
if (cs->sort_order[*i++] != cs->sort_order[*j++])
goto skip;
if (nmatch > 0)
{
match[0].beg= 0;
match[0].end= (uint) (str- (const uchar*)b-1);
match[0].mblen= match[0].end;
if (nmatch > 1)
{
match[1].beg= match[0].end;
match[1].end= match[0].end+s_length;
match[1].mblen= match[1].end-match[1].beg;
}
}
return 2;
}
}
}
return 0;
}
typedef struct
{
int nchars;
MY_UNI_IDX uidx;
} uni_idx;
#define PLANE_SIZE 0x100
#define PLANE_NUM 0x100
#define PLANE_NUMBER(x) (((x)>>8) % PLANE_NUM)
static int pcmp(const void * f, const void * s)
{
const uni_idx *F= (const uni_idx*) f;
const uni_idx *S= (const uni_idx*) s;
int res;
if (!(res=((S->nchars)-(F->nchars))))
res=((F->uidx.from)-(S->uidx.to));
return res;
}
static my_bool create_fromuni(CHARSET_INFO *cs, void *(*alloc)(uint))
{
uni_idx idx[PLANE_NUM];
int i,n;
/*
Check that Unicode map is loaded.
It can be not loaded when the collation is
listed in Index.xml but not specified
in the character set specific XML file.
*/
if (!cs->tab_to_uni)
return TRUE;
/* Clear plane statistics */
bzero(idx,sizeof(idx));
/* Count number of characters in each plane */
for (i=0; i< 0x100; i++)
{
uint16 wc=cs->tab_to_uni[i];
int pl= PLANE_NUMBER(wc);
if (wc || !i)
{
if (!idx[pl].nchars)
{
idx[pl].uidx.from=wc;
idx[pl].uidx.to=wc;
}else
{
idx[pl].uidx.from=wc<idx[pl].uidx.from?wc:idx[pl].uidx.from;
idx[pl].uidx.to=wc>idx[pl].uidx.to?wc:idx[pl].uidx.to;
}
idx[pl].nchars++;
}
}
/* Sort planes in descending order */
qsort(&idx,PLANE_NUM,sizeof(uni_idx),&pcmp);
for (i=0; i < PLANE_NUM; i++)
{
int ch,numchars;
/* Skip empty plane */
if (!idx[i].nchars)
break;
numchars=idx[i].uidx.to-idx[i].uidx.from+1;
if (!(idx[i].uidx.tab=(uchar*) alloc(numchars * sizeof(*idx[i].uidx.tab))))
return TRUE;
bzero(idx[i].uidx.tab,numchars*sizeof(*idx[i].uidx.tab));
for (ch=1; ch < PLANE_SIZE; ch++)
{
uint16 wc=cs->tab_to_uni[ch];
if (wc >= idx[i].uidx.from && wc <= idx[i].uidx.to && wc)
{
int ofs= wc - idx[i].uidx.from;
idx[i].uidx.tab[ofs]= ch;
}
}
}
/* Allocate and fill reverse table for each plane */
n=i;
if (!(cs->tab_from_uni= (MY_UNI_IDX*) alloc(sizeof(MY_UNI_IDX)*(n+1))))
return TRUE;
for (i=0; i< n; i++)
cs->tab_from_uni[i]= idx[i].uidx;
/* Set end-of-list marker */
bzero(&cs->tab_from_uni[i],sizeof(MY_UNI_IDX));
return FALSE;
}
static my_bool my_cset_init_8bit(CHARSET_INFO *cs, void *(*alloc)(uint))
{
cs->caseup_multiply= 1;
cs->casedn_multiply= 1;
cs->pad_char= ' ';
return create_fromuni(cs, alloc);
}
static void set_max_sort_char(CHARSET_INFO *cs)
{
uchar max_char;
uint i;
if (!cs->sort_order)
return;
max_char=cs->sort_order[(uchar) cs->max_sort_char];
for (i= 0; i < 256; i++)
{
if ((uchar) cs->sort_order[i] > max_char)
{
max_char=(uchar) cs->sort_order[i];
cs->max_sort_char= i;
}
}
}
static my_bool my_coll_init_simple(CHARSET_INFO *cs,
void *(*alloc)(uint) __attribute__((unused)))
{
set_max_sort_char(cs);
return FALSE;
}
longlong my_strtoll10_8bit(CHARSET_INFO *cs __attribute__((unused)),
const char *nptr, char **endptr, int *error)
{
return my_strtoll10(nptr, endptr, error);
}
#undef ULONGLONG_MAX
/*
Needed under MetroWerks Compiler, since MetroWerks compiler does not
properly handle a constant expression containing a mod operator
*/
#if defined(__NETWARE__) && defined(__MWERKS__)
static ulonglong ulonglong_max= ~(ulonglong) 0;
#define ULONGLONG_MAX ulonglong_max
#else
#define ULONGLONG_MAX (~(ulonglong) 0)
#endif /* __NETWARE__ && __MWERKS__ */
#define CUTOFF (ULONGLONG_MAX / 10)
#define CUTLIM (ULONGLONG_MAX % 10)
#define DIGITS_IN_ULONGLONG 20
static ulonglong d10[DIGITS_IN_ULONGLONG]=
{
1,
10,
100,
1000,
10000,
100000,
1000000,
10000000,
100000000,
1000000000,
10000000000ULL,
100000000000ULL,
1000000000000ULL,
10000000000000ULL,
100000000000000ULL,
1000000000000000ULL,
10000000000000000ULL,
100000000000000000ULL,
1000000000000000000ULL,
10000000000000000000ULL
};
/*
Convert a string to unsigned long long integer value
with rounding.
SYNOPSYS
my_strntoull10_8bit()
cs in pointer to character set
str in pointer to the string to be converted
length in string length
unsigned_flag in whether the number is unsigned
endptr out pointer to the stop character
error out returned error code
DESCRIPTION
This function takes the decimal representation of integer number
from string str and converts it to an signed or unsigned
long long integer value.
Space characters and tab are ignored.
A sign character might precede the digit characters.
The number may have any number of pre-zero digits.
The number may have decimal point and exponent.
Rounding is always done in "away from zero" style:
0.5 -> 1
-0.5 -> -1
The function stops reading the string str after "length" bytes
or at the first character that is not a part of correct number syntax:
<signed numeric literal> ::=
[ <sign> ] <exact numeric literal> [ E [ <sign> ] <unsigned integer> ]
<exact numeric literal> ::=
<unsigned integer> [ <period> [ <unsigned integer> ] ]
| <period> <unsigned integer>
<unsigned integer> ::= <digit>...
RETURN VALUES
Value of string as a signed/unsigned longlong integer
endptr cannot be NULL. The function will store the end pointer
to the stop character here.
The error parameter contains information how things went:
0 ok
ERANGE If the the value of the converted number is out of range
In this case the return value is:
- ULONGLONG_MAX if unsigned_flag and the number was too big
- 0 if unsigned_flag and the number was negative
- LONGLONG_MAX if no unsigned_flag and the number is too big
- LONGLONG_MIN if no unsigned_flag and the number it too big negative
EDOM If the string didn't contain any digits.
In this case the return value is 0.
*/
ulonglong
my_strntoull10rnd_8bit(CHARSET_INFO *cs __attribute__((unused)),
const char *str, uint length, int unsigned_flag,
char **endptr, int *error)
{
const char *dot, *end9, *beg, *end= str + length;
ulonglong ull;
ulong ul;
unsigned char ch;
int shift= 0, digits= 0, negative, addon;
/* Skip leading spaces and tabs */
for ( ; str < end && (*str == ' ' || *str == '\t') ; str++);
if (str >= end)
goto ret_edom;
if ((negative= (*str == '-')) || *str=='+') /* optional sign */
{
if (++str == end)
goto ret_edom;
}
beg= str;
end9= (str + 9) > end ? end : (str + 9);
/* Accumulate small number into ulong, for performance purposes */
for (ul= 0 ; str < end9 && (ch= (unsigned char) (*str - '0')) < 10; str++)
{
ul= ul * 10 + ch;
}
if (str >= end) /* Small number without dots and expanents */
{
*endptr= (char*) str;
if (negative)
{
if (unsigned_flag)
{
*error= ul ? MY_ERRNO_ERANGE : 0;
return 0;
}
else
{
*error= 0;
return (ulonglong) (longlong) -(long) ul;
}
}
else
{
*error=0;
return (ulonglong) ul;
}
}
digits= str - beg;
/* Continue to accumulate into ulonglong */
for (dot= NULL, ull= ul; str < end; str++)
{
if ((ch= (unsigned char) (*str - '0')) < 10)
{
if (ull < CUTOFF || (ull == CUTOFF && ch <= CUTLIM))
{
ull= ull * 10 + ch;
digits++;
continue;
}
/*
Adding the next digit would overflow.
Remember the next digit in "addon", for rounding.
Scan all digits with an optional single dot.
*/
if (ull == CUTOFF)
{
ull= ULONGLONG_MAX;
addon= 1;
str++;
}
else
addon= (*str >= '5');
for ( ; str < end && (ch= (unsigned char) (*str - '0')) < 10; str++)
{
if (!dot)
shift++;
}
if (str < end && *str == '.' && !dot)
{
str++;
for ( ; str < end && (ch= (unsigned char) (*str - '0')) < 10; str++);
}
goto exp;
}
if (*str == '.')
{
if (dot)
{
/* The second dot character */
addon= 0;
goto exp;
}
else
{
dot= str + 1;
}
continue;
}
/* Unknown character, exit the loop */
break;
}
shift= dot ? dot - str : 0; /* Right shift */
addon= 0;
exp: /* [ E [ <sign> ] <unsigned integer> ] */
if (!digits)
{
str= beg;
goto ret_edom;
}
if (str < end && (*str == 'e' || *str == 'E'))
{
str++;
if (str < end)
{
int negative_exp, exp;
if ((negative_exp= (*str == '-')) || *str=='+')
{
if (++str == end)
goto ret_sign;
}
for (exp= 0 ;
str < end && (ch= (unsigned char) (*str - '0')) < 10;
str++)
{
exp= exp * 10 + ch;
}
shift+= negative_exp ? -exp : exp;
}
}
if (shift == 0) /* No shift, check addon digit */
{
if (addon)
{
if (ull == ULONGLONG_MAX)
goto ret_too_big;
ull++;
}
goto ret_sign;
}
if (shift < 0) /* Right shift */
{
ulonglong d, r;
if (-shift >= DIGITS_IN_ULONGLONG)
goto ret_zero; /* Exponent is a big negative number, return 0 */
d= d10[-shift];
r= (ull % d) * 2;
ull /= d;
if (r >= d)
ull++;
goto ret_sign;
}
if (shift > DIGITS_IN_ULONGLONG) /* Huge left shift */
{
if (!ull)
goto ret_sign;
goto ret_too_big;
}
for ( ; shift > 0; shift--, ull*= 10) /* Left shift */
{
if (ull > CUTOFF)
goto ret_too_big; /* Overflow, number too big */
}
ret_sign:
*endptr= (char*) str;
if (!unsigned_flag)
{
if (negative)
{
if (ull > (ulonglong) LONGLONG_MIN)
{
*error= MY_ERRNO_ERANGE;
return (ulonglong) LONGLONG_MIN;
}
*error= 0;
return (ulonglong) -(longlong) ull;
}
else
{
if (ull > (ulonglong) LONGLONG_MAX)
{
*error= MY_ERRNO_ERANGE;
return (ulonglong) LONGLONG_MAX;
}
*error= 0;
return ull;
}
}
/* Unsigned number */
if (negative && ull)
{
*error= MY_ERRNO_ERANGE;
return 0;
}
*error= 0;
return ull;
ret_zero:
*endptr= (char*) str;
*error= 0;
return 0;
ret_edom:
*endptr= (char*) str;
*error= MY_ERRNO_EDOM;
return 0;
ret_too_big:
*endptr= (char*) str;
*error= MY_ERRNO_ERANGE;
return unsigned_flag ?
ULONGLONG_MAX :
negative ? (ulonglong) LONGLONG_MIN : (ulonglong) LONGLONG_MAX;
}
/*
Check if a constant can be propagated
SYNOPSIS:
my_propagate_simple()
cs Character set information
str String to convert to double
length Optional length for string.
NOTES:
Takes the string in the given charset and check
if it can be safely propagated in the optimizer.
create table t1 (
s char(5) character set latin1 collate latin1_german2_ci);
insert into t1 values (0xf6); -- o-umlaut
select * from t1 where length(s)=1 and s='oe';
The above query should return one row.
We cannot convert this query into:
select * from t1 where length('oe')=1 and s='oe';
Currently we don't check the constant itself,
and decide not to propagate a constant
just if the collation itself allows tricky things
like expansions and contractions. In the future
we can write a more sophisticated functions to
check the constants. For example, 'oa' can always
be safety propagated in German2 because unlike
'oe' it does not have any special meaning.
RETURN
1 if constant can be safely propagated
0 if it is not safe to propagate the constant
*/
my_bool my_propagate_simple(CHARSET_INFO *cs __attribute__((unused)),
const uchar *str __attribute__((unused)),
uint length __attribute__((unused)))
{
return 1;
}
my_bool my_propagate_complex(CHARSET_INFO *cs __attribute__((unused)),
const uchar *str __attribute__((unused)),
uint length __attribute__((unused)))
{
return 0;
}
MY_CHARSET_HANDLER my_charset_8bit_handler=
{
my_cset_init_8bit,
NULL, /* ismbchar */
my_mbcharlen_8bit, /* mbcharlen */
my_numchars_8bit,
my_charpos_8bit,
my_well_formed_len_8bit,
my_lengthsp_8bit,
my_numcells_8bit,
my_mb_wc_8bit,
my_wc_mb_8bit,
my_caseup_str_8bit,
my_casedn_str_8bit,
my_caseup_8bit,
my_casedn_8bit,
my_snprintf_8bit,
my_long10_to_str_8bit,
my_longlong10_to_str_8bit,
my_fill_8bit,
my_strntol_8bit,
my_strntoul_8bit,
my_strntoll_8bit,
my_strntoull_8bit,
my_strntod_8bit,
my_strtoll10_8bit,
my_strntoull10rnd_8bit,
my_scan_8bit
};
MY_COLLATION_HANDLER my_collation_8bit_simple_ci_handler =
{
my_coll_init_simple, /* init */
my_strnncoll_simple,
my_strnncollsp_simple,
my_strnxfrm_simple,
my_strnxfrmlen_simple,
my_like_range_simple,
my_wildcmp_8bit,
my_strcasecmp_8bit,
my_instr_simple,
my_hash_sort_simple,
my_propagate_simple
};
Reference in a new issue View git blame Copy permalink