Documentation update.

[wine/gsoc_dplay.git] / ole / ole2nls.c

/*
 *      National Language Support library
 *
 *      Copyright 1995  Martin von Loewis
 *      Copyright 1998  David Lee Lambert
 *      Copyright 2000  Julio César Gázquez
 *
 * 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 "config.h"
#include "wine/port.h"

#include <string.h>
#include <stdio.h>
#include <ctype.h>
#include <stdlib.h>
#include <locale.h>

#include "windef.h"
#include "winbase.h"
#include "wingdi.h"
#include "winuser.h"
#include "winternl.h"
#include "wine/unicode.h"
#include "winver.h"
#include "winnls.h"
#include "winreg.h"
#include "winerror.h"
#include "wine/debug.h"

WINE_DEFAULT_DEBUG_CHANNEL(nls);


/******************************************************************************
 *              ConvertDefaultLocale (KERNEL32.@)
 */
LCID WINAPI ConvertDefaultLocale (LCID lcid)
{       switch (lcid)
        {  case LOCALE_SYSTEM_DEFAULT:
             return GetSystemDefaultLCID();
           case LOCALE_USER_DEFAULT:
             return GetUserDefaultLCID();
           case LOCALE_NEUTRAL:
             return MAKELCID (LANG_NEUTRAL, SUBLANG_NEUTRAL);
        }
        return MAKELANGID( PRIMARYLANGID(lcid), SUBLANG_NEUTRAL);
}


/******************************************************************************
 *              IsValidLocale   [KERNEL32.@]
 */
BOOL WINAPI IsValidLocale(LCID lcid,DWORD flags)
{
    /* check if language is registered in the kernel32 resources */
    if(!FindResourceExW(GetModuleHandleA("KERNEL32"), RT_STRINGW, (LPCWSTR)LOCALE_ILANGUAGE, LOWORD(lcid)))
        return FALSE;
    else
        return TRUE;
}

static BOOL CALLBACK EnumResourceLanguagesProcW(HMODULE hModule, LPCWSTR type,
                LPCWSTR name, WORD LangID, LONG lParam)
{
    CHAR bufA[20];
    WCHAR bufW[20];
    LOCALE_ENUMPROCW lpfnLocaleEnum = (LOCALE_ENUMPROCW)lParam;
    sprintf(bufA, "%08x", (UINT)LangID);
    MultiByteToWideChar(CP_ACP, 0, bufA, -1, bufW, sizeof(bufW)/sizeof(bufW[0]));
    return lpfnLocaleEnum(bufW);
}

/******************************************************************************
 *              EnumSystemLocalesW      [KERNEL32.@]
 */
BOOL WINAPI EnumSystemLocalesW( LOCALE_ENUMPROCW lpfnLocaleEnum,
                                    DWORD flags )
{
    TRACE("(%p,%08lx)\n", lpfnLocaleEnum,flags);

    EnumResourceLanguagesW(GetModuleHandleA("KERNEL32"), RT_STRINGW,
            (LPCWSTR)LOCALE_ILANGUAGE, EnumResourceLanguagesProcW,
            (LONG)lpfnLocaleEnum);

    return TRUE;
}

static BOOL CALLBACK EnumResourceLanguagesProcA(HMODULE hModule, LPCSTR type,
                LPCSTR name, WORD LangID, LONG lParam)
{
    CHAR bufA[20];
    LOCALE_ENUMPROCA lpfnLocaleEnum = (LOCALE_ENUMPROCA)lParam;
    sprintf(bufA, "%08x", (UINT)LangID);
    return lpfnLocaleEnum(bufA);
}

/******************************************************************************
 *              EnumSystemLocalesA      [KERNEL32.@]
 */
BOOL WINAPI EnumSystemLocalesA(LOCALE_ENUMPROCA lpfnLocaleEnum,
                                   DWORD flags)
{
    TRACE("(%p,%08lx)\n", lpfnLocaleEnum,flags);

    EnumResourceLanguagesA(GetModuleHandleA("KERNEL32"), RT_STRINGA,
            (LPCSTR)LOCALE_ILANGUAGE, EnumResourceLanguagesProcA,
            (LONG)lpfnLocaleEnum);

    return TRUE;
}

/***********************************************************************
 *           VerLanguageNameA              [KERNEL32.@]
 */
DWORD WINAPI VerLanguageNameA( UINT wLang, LPSTR szLang, UINT nSize )
{
    if(!szLang)
        return 0;

    return GetLocaleInfoA(MAKELCID(wLang, SORT_DEFAULT), LOCALE_SENGLANGUAGE, szLang, nSize);
}

/***********************************************************************
 *           VerLanguageNameW              [KERNEL32.@]
 */
DWORD WINAPI VerLanguageNameW( UINT wLang, LPWSTR szLang, UINT nSize )
{
    if(!szLang)
        return 0;

    return GetLocaleInfoW(MAKELCID(wLang, SORT_DEFAULT), LOCALE_SENGLANGUAGE, szLang, nSize);
}


static const unsigned char LCM_Unicode_LUT[] = {
  6      ,   3, /*   -   1 */
  6      ,   4, /*   -   2 */
  6      ,   5, /*   -   3 */
  6      ,   6, /*   -   4 */
  6      ,   7, /*   -   5 */
  6      ,   8, /*   -   6 */
  6      ,   9, /*   -   7 */
  6      ,  10, /*   -   8 */
  7      ,   5, /*   -   9 */
  7      ,   6, /*   -  10 */
  7      ,   7, /*   -  11 */
  7      ,   8, /*   -  12 */
  7      ,   9, /*   -  13 */
  6      ,  11, /*   -  14 */
  6      ,  12, /*   -  15 */
  6      ,  13, /*   -  16 */
  6      ,  14, /*   -  17 */
  6      ,  15, /*   -  18 */
  6      ,  16, /*   -  19 */
  6      ,  17, /*   -  20 */
  6      ,  18, /*   -  21 */
  6      ,  19, /*   -  22 */
  6      ,  20, /*   -  23 */
  6      ,  21, /*   -  24 */
  6      ,  22, /*   -  25 */
  6      ,  23, /*   -  26 */
  6      ,  24, /*   -  27 */
  6      ,  25, /*   -  28 */
  6      ,  26, /*   -  29 */
  6      ,  27, /*   -  30 */
  6      ,  28, /*   -  31 */
  7      ,   2, /*   -  32 */
  7      ,  28, /* ! -  33 */
  7      ,  29, /* " -  34 */ /* " */
  7      ,  31, /* # -  35 */
  7      ,  33, /* $ -  36 */
  7      ,  35, /* % -  37 */
  7      ,  37, /* & -  38 */
  6      , 128, /* ' -  39 */
  7      ,  39, /* ( -  40 */
  7      ,  42, /* ) -  41 */
  7      ,  45, /* * -  42 */
  8      ,   3, /* + -  43 */
  7      ,  47, /* , -  44 */
  6      , 130, /* - -  45 */
  7      ,  51, /* . -  46 */
  7      ,  53, /* / -  47 */
 12      ,   3, /* 0 -  48 */
 12      ,  33, /* 1 -  49 */
 12      ,  51, /* 2 -  50 */
 12      ,  70, /* 3 -  51 */
 12      ,  88, /* 4 -  52 */
 12      , 106, /* 5 -  53 */
 12      , 125, /* 6 -  54 */
 12      , 144, /* 7 -  55 */
 12      , 162, /* 8 -  56 */
 12      , 180, /* 9 -  57 */
  7      ,  55, /* : -  58 */
  7      ,  58, /* ; -  59 */
  8      ,  14, /* < -  60 */
  8      ,  18, /* = -  61 */
  8      ,  20, /* > -  62 */
  7      ,  60, /* ? -  63 */
  7      ,  62, /* @ -  64 */
 14      ,   2, /* A -  65 */
 14      ,   9, /* B -  66 */
 14      ,  10, /* C -  67 */
 14      ,  26, /* D -  68 */
 14      ,  33, /* E -  69 */
 14      ,  35, /* F -  70 */
 14      ,  37, /* G -  71 */
 14      ,  44, /* H -  72 */
 14      ,  50, /* I -  73 */
 14      ,  53, /* J -  74 */
 14      ,  54, /* K -  75 */
 14      ,  72, /* L -  76 */
 14      ,  81, /* M -  77 */
 14      , 112, /* N -  78 */
 14      , 124, /* O -  79 */
 14      , 126, /* P -  80 */
 14      , 137, /* Q -  81 */
 14      , 138, /* R -  82 */
 14      , 145, /* S -  83 */
 14      , 153, /* T -  84 */
 14      , 159, /* U -  85 */
 14      , 162, /* V -  86 */
 14      , 164, /* W -  87 */
 14      , 166, /* X -  88 */
 14      , 167, /* Y -  89 */
 14      , 169, /* Z -  90 */
  7      ,  63, /* [ -  91 */
  7      ,  65, /* \ -  92 */
  7      ,  66, /* ] -  93 */
  7      ,  67, /* ^ -  94 */
  7      ,  68, /* _ -  95 */
  7      ,  72, /* ` -  96 */
 14      ,   2, /* a -  97 */
 14      ,   9, /* b -  98 */
 14      ,  10, /* c -  99 */
 14      ,  26, /* d - 100 */
 14      ,  33, /* e - 101 */
 14      ,  35, /* f - 102 */
 14      ,  37, /* g - 103 */
 14      ,  44, /* h - 104 */
 14      ,  50, /* i - 105 */
 14      ,  53, /* j - 106 */
 14      ,  54, /* k - 107 */
 14      ,  72, /* l - 108 */
 14      ,  81, /* m - 109 */
 14      , 112, /* n - 110 */
 14      , 124, /* o - 111 */
 14      , 126, /* p - 112 */
 14      , 137, /* q - 113 */
 14      , 138, /* r - 114 */
 14      , 145, /* s - 115 */
 14      , 153, /* t - 116 */
 14      , 159, /* u - 117 */
 14      , 162, /* v - 118 */
 14      , 164, /* w - 119 */
 14      , 166, /* x - 120 */
 14      , 167, /* y - 121 */
 14      , 169, /* z - 122 */
  7      ,  74, /* { - 123 */
  7      ,  76, /* | - 124 */
  7      ,  78, /* } - 125 */
  7      ,  80, /* ~ - 126 */
  6      ,  29, /* \x7f - 127 */
  6      ,  30, /* € - 128 */
  6      ,  31, /* � - 129 */
  7      , 123, /* ‚ - 130 */
 14      ,  35, /* ƒ - 131 */
  7      , 127, /* „ - 132 */
 10      ,  21, /* … - 133 */
 10      ,  15, /* † - 134 */
 10      ,  16, /* ‡ - 135 */
  7      ,  67, /* ˆ - 136 */
 10      ,  22, /* ‰ - 137 */
 14      , 145, /* Š - 138 */
  7      , 136, /* ‹ - 139 */
 14 + 16 , 124, /* Π- 140 */
  6      ,  43, /* � - 141 */
  6      ,  44, /* Ž - 142 */
  6      ,  45, /* � - 143 */
  6      ,  46, /* � - 144 */
  7      , 121, /* ‘ - 145 */
  7      , 122, /* ’ - 146 */
  7      , 125, /* “ - 147 */
  7      , 126, /* ” - 148 */
 10      ,  17, /* • - 149 */
  6      , 137, /* – - 150 */
  6      , 139, /* — - 151 */
  7      ,  93, /* ˜ - 152 */
 14      , 156, /* ™ - 153 */
 14      , 145, /* š - 154 */
  7      , 137, /* › - 155 */
 14 + 16 , 124, /* œ - 156 */
  6      ,  59, /* � - 157 */
  6      ,  60, /* ž - 158 */
 14      , 167, /* Ÿ - 159 */
  7      ,   4, /*   - 160 */
  7      ,  81, /* ¡ - 161 */
 10      ,   2, /* ¢ - 162 */
 10      ,   3, /* £ - 163 */
 10      ,   4, /* ¤ - 164 */
 10      ,   5, /* ¥ - 165 */
  7      ,  82, /* ¦ - 166 */
 10      ,   6, /* § - 167 */
  7      ,  83, /* ¨ - 168 */
 10      ,   7, /* © - 169 */
 14      ,   2, /* ª - 170 */
  8      ,  24, /* « - 171 */
 10      ,   8, /* ¬ - 172 */
  6      , 131, /* ­ - 173 */
 10      ,   9, /* ® - 174 */
  7      ,  84, /* ¯ - 175 */
 10      ,  10, /* ° - 176 */
  8      ,  23, /* ± - 177 */
 12      ,  51, /* ² - 178 */
 12      ,  70, /* ³ - 179 */
  7      ,  85, /* ´ - 180 */
 10      ,  11, /* µ - 181 */
 10      ,  12, /* ¶ - 182 */
 10      ,  13, /* · - 183 */
  7      ,  86, /* ¸ - 184 */
 12      ,  33, /* ¹ - 185 */
 14      , 124, /* º - 186 */
  8      ,  26, /* » - 187 */
 12      ,  21, /* ¼ - 188 */
 12      ,  25, /* ½ - 189 */
 12      ,  29, /* ¾ - 190 */
  7      ,  87, /* ¿ - 191 */
 14      ,   2, /* À - 192 */
 14      ,   2, /* Á - 193 */
 14      ,   2, /* Â - 194 */
 14      ,   2, /* Ã - 195 */
 14      ,   2, /* Ä - 196 */
 14      ,   2, /* Å - 197 */
 14 + 16 ,   2, /* Æ - 198 */
 14      ,  10, /* Ç - 199 */
 14      ,  33, /* È - 200 */
 14      ,  33, /* É - 201 */
 14      ,  33, /* Ê - 202 */
 14      ,  33, /* Ë - 203 */
 14      ,  50, /* Ì - 204 */
 14      ,  50, /* Í - 205 */
 14      ,  50, /* Î - 206 */
 14      ,  50, /* Ï - 207 */
 14      ,  26, /* Ð - 208 */
 14      , 112, /* Ñ - 209 */
 14      , 124, /* Ò - 210 */
 14      , 124, /* Ó - 211 */
 14      , 124, /* Ô - 212 */
 14      , 124, /* Õ - 213 */
 14      , 124, /* Ö - 214 */
  8      ,  28, /* × - 215 */
 14      , 124, /* Ø - 216 */
 14      , 159, /* Ù - 217 */
 14      , 159, /* Ú - 218 */
 14      , 159, /* Û - 219 */
 14      , 159, /* Ü - 220 */
 14      , 167, /* Ý - 221 */
 14 + 32 , 153, /* Þ - 222 */
 14 + 48 , 145, /* ß - 223 */
 14      ,   2, /* à - 224 */
 14      ,   2, /* á - 225 */
 14      ,   2, /* â - 226 */
 14      ,   2, /* ã - 227 */
 14      ,   2, /* ä - 228 */
 14      ,   2, /* å - 229 */
 14 + 16 ,   2, /* æ - 230 */
 14      ,  10, /* ç - 231 */
 14      ,  33, /* è - 232 */
 14      ,  33, /* é - 233 */
 14      ,  33, /* ê - 234 */
 14      ,  33, /* ë - 235 */
 14      ,  50, /* ì - 236 */
 14      ,  50, /* í - 237 */
 14      ,  50, /* î - 238 */
 14      ,  50, /* ï - 239 */
 14      ,  26, /* ð - 240 */
 14      , 112, /* ñ - 241 */
 14      , 124, /* ò - 242 */
 14      , 124, /* ó - 243 */
 14      , 124, /* ô - 244 */
 14      , 124, /* õ - 245 */
 14      , 124, /* ö - 246 */
  8      ,  29, /* ÷ - 247 */
 14      , 124, /* ø - 248 */
 14      , 159, /* ù - 249 */
 14      , 159, /* ú - 250 */
 14      , 159, /* û - 251 */
 14      , 159, /* ü - 252 */
 14      , 167, /* ý - 253 */
 14 + 32 , 153, /* þ - 254 */
 14      , 167  /* ÿ - 255 */ };

static const unsigned char LCM_Unicode_LUT_2[] = { 33, 44, 145 };

#define LCM_Diacritic_Start 131

static const unsigned char LCM_Diacritic_LUT[] = {
123,  /* ƒ - 131 */
  2,  /* „ - 132 */
  2,  /* … - 133 */
  2,  /* † - 134 */
  2,  /* ‡ - 135 */
  3,  /* ˆ - 136 */
  2,  /* ‰ - 137 */
 20,  /* Š - 138 */
  2,  /* ‹ - 139 */
  2,  /* Π- 140 */
  2,  /* � - 141 */
  2,  /* Ž - 142 */
  2,  /* � - 143 */
  2,  /* � - 144 */
  2,  /* ‘ - 145 */
  2,  /* ’ - 146 */
  2,  /* “ - 147 */
  2,  /* ” - 148 */
  2,  /* • - 149 */
  2,  /* – - 150 */
  2,  /* — - 151 */
  2,  /* ˜ - 152 */
  2,  /* ™ - 153 */
 20,  /* š - 154 */
  2,  /* › - 155 */
  2,  /* œ - 156 */
  2,  /* � - 157 */
  2,  /* ž - 158 */
 19,  /* Ÿ - 159 */
  2,  /*   - 160 */
  2,  /* ¡ - 161 */
  2,  /* ¢ - 162 */
  2,  /* £ - 163 */
  2,  /* ¤ - 164 */
  2,  /* ¥ - 165 */
  2,  /* ¦ - 166 */
  2,  /* § - 167 */
  2,  /* ¨ - 168 */
  2,  /* © - 169 */
  3,  /* ª - 170 */
  2,  /* « - 171 */
  2,  /* ¬ - 172 */
  2,  /* ­ - 173 */
  2,  /* ® - 174 */
  2,  /* ¯ - 175 */
  2,  /* ° - 176 */
  2,  /* ± - 177 */
  2,  /* ² - 178 */
  2,  /* ³ - 179 */
  2,  /* ´ - 180 */
  2,  /* µ - 181 */
  2,  /* ¶ - 182 */
  2,  /* · - 183 */
  2,  /* ¸ - 184 */
  2,  /* ¹ - 185 */
  3,  /* º - 186 */
  2,  /* » - 187 */
  2,  /* ¼ - 188 */
  2,  /* ½ - 189 */
  2,  /* ¾ - 190 */
  2,  /* ¿ - 191 */
 15,  /* À - 192 */
 14,  /* Á - 193 */
 18,  /* Â - 194 */
 25,  /* Ã - 195 */
 19,  /* Ä - 196 */
 26,  /* Å - 197 */
  2,  /* Æ - 198 */
 28,  /* Ç - 199 */
 15,  /* È - 200 */
 14,  /* É - 201 */
 18,  /* Ê - 202 */
 19,  /* Ë - 203 */
 15,  /* Ì - 204 */
 14,  /* Í - 205 */
 18,  /* Î - 206 */
 19,  /* Ï - 207 */
104,  /* Ð - 208 */
 25,  /* Ñ - 209 */
 15,  /* Ò - 210 */
 14,  /* Ó - 211 */
 18,  /* Ô - 212 */
 25,  /* Õ - 213 */
 19,  /* Ö - 214 */
  2,  /* × - 215 */
 33,  /* Ø - 216 */
 15,  /* Ù - 217 */
 14,  /* Ú - 218 */
 18,  /* Û - 219 */
 19,  /* Ü - 220 */
 14,  /* Ý - 221 */
  2,  /* Þ - 222 */
  2,  /* ß - 223 */
 15,  /* à - 224 */
 14,  /* á - 225 */
 18,  /* â - 226 */
 25,  /* ã - 227 */
 19,  /* ä - 228 */
 26,  /* å - 229 */
  2,  /* æ - 230 */
 28,  /* ç - 231 */
 15,  /* è - 232 */
 14,  /* é - 233 */
 18,  /* ê - 234 */
 19,  /* ë - 235 */
 15,  /* ì - 236 */
 14,  /* í - 237 */
 18,  /* î - 238 */
 19,  /* ï - 239 */
104,  /* ð - 240 */
 25,  /* ñ - 241 */
 15,  /* ò - 242 */
 14,  /* ó - 243 */
 18,  /* ô - 244 */
 25,  /* õ - 245 */
 19,  /* ö - 246 */
  2,  /* ÷ - 247 */
 33,  /* ø - 248 */
 15,  /* ù - 249 */
 14,  /* ú - 250 */
 18,  /* û - 251 */
 19,  /* ü - 252 */
 14,  /* ý - 253 */
  2,  /* þ - 254 */
 19,  /* ÿ - 255 */
} ;

/******************************************************************************
 * OLE2NLS_isPunctuation [INTERNAL]
 */
static int OLE2NLS_isPunctuation(unsigned char c)
{
  /* "punctuation character" in this context is a character which is
     considered "less important" during word sort comparison.
     See LCMapString implementation for the precise definition
     of "less important". */

  return (LCM_Unicode_LUT[-2+2*c]==6);
}

/******************************************************************************
 * OLE2NLS_isNonSpacing [INTERNAL]
 */
static int OLE2NLS_isNonSpacing(unsigned char c)
{
  /* This function is used by LCMapStringA.  Characters
     for which it returns true are ignored when mapping a
     string with NORM_IGNORENONSPACE */
  return ((c==136) || (c==170) || (c==186));
}

/******************************************************************************
 * OLE2NLS_isSymbol [INTERNAL]
 * FIXME: handle current locale
 */
static int OLE2NLS_isSymbol(unsigned char c)
{
  /* This function is used by LCMapStringA.  Characters
     for which it returns true are ignored when mapping a
     string with NORM_IGNORESYMBOLS */
  return ( (c!=0) && !(isalpha(c) || isdigit(c)) );
}

/******************************************************************************
 *              identity        [Internal]
 */
static int identity(int c)
{
  return c;
}

/*************************************************************************
 *              LCMapStringA                [KERNEL32.@]
 *
 * Convert a string, or generate a sort key from it.
 *
 * If (mapflags & LCMAP_SORTKEY), the function will generate
 * a sort key for the source string.  Else, it will convert it
 * accordingly to the flags LCMAP_UPPERCASE, LCMAP_LOWERCASE,...
 *
 * RETURNS
 *    Error : 0.
 *    Success : length of the result string.
 *
 * NOTES
 *    If called with scrlen = -1, the function will compute the length
 *      of the 0-terminated string strsrc by itself.
 *
 *    If called with dstlen = 0, returns the buffer length that
 *      would be required.
 *
 *    NORM_IGNOREWIDTH means to compare ASCII and wide characters
 *    as if they are equal.
 *    In the only code page implemented so far, there may not be
 *    wide characters in strings passed to LCMapStringA,
 *    so there is nothing to be done for this flag.
 */
INT WINAPI LCMapStringA(
        LCID lcid,      /* [in] locale identifier created with MAKELCID;
                                LOCALE_SYSTEM_DEFAULT and LOCALE_USER_DEFAULT are
                                predefined values. */
        DWORD mapflags, /* [in] flags */
        LPCSTR srcstr,  /* [in] source buffer */
        INT srclen,     /* [in] source length */
        LPSTR dststr,   /* [out] destination buffer */
        INT dstlen)     /* [in] destination buffer length */
{
  int i;

  TRACE("(0x%04lx,0x%08lx,%s,%d,%p,%d)\n",
        lcid,mapflags,debugstr_an(srcstr,srclen),srclen,dststr,dstlen);

  if ( ((dstlen!=0) && (dststr==NULL)) || (srcstr==NULL) )
  {
    ERR("(src=%s,dest=%s): Invalid NULL string\n",
        debugstr_an(srcstr,srclen), dststr);
    SetLastError(ERROR_INVALID_PARAMETER);
    return 0;
  }
  if (srclen == -1)
    srclen = strlen(srcstr) + 1 ;    /* (include final '\0') */

#define LCMAPSTRINGA_SUPPORTED_FLAGS (LCMAP_UPPERCASE     | \
                                        LCMAP_LOWERCASE     | \
                                        LCMAP_SORTKEY       | \
                                        NORM_IGNORECASE     | \
                                        NORM_IGNORENONSPACE | \
                                        SORT_STRINGSORT     | \
                                        NORM_IGNOREWIDTH    | \
                                        NORM_IGNOREKANATYPE)
  /* FIXME: as long as we don't support Katakana nor Hiragana
   * characters, we can support NORM_IGNOREKANATYPE
   */
  if (mapflags & ~LCMAPSTRINGA_SUPPORTED_FLAGS)
  {
    FIXME("(0x%04lx,0x%08lx,%p,%d,%p,%d): "
          "unimplemented flags: 0x%08lx\n",
          lcid,
          mapflags,
          srcstr,
          srclen,
          dststr,
          dstlen,
          mapflags & ~LCMAPSTRINGA_SUPPORTED_FLAGS
     );
  }

  if ( !(mapflags & LCMAP_SORTKEY) )
  {
    int i,j;
    int (*f)(int) = identity;
    int flag_ignorenonspace = mapflags & NORM_IGNORENONSPACE;
    int flag_ignoresymbols = mapflags & NORM_IGNORESYMBOLS;

    if (flag_ignorenonspace || flag_ignoresymbols)
    {
      /* For some values of mapflags, the length of the resulting
         string is not known at this point.  Windows does map the string
         and does not SetLastError ERROR_INSUFFICIENT_BUFFER in
         these cases. */
      if (dstlen==0)
      {
        /* Compute required length */
        for (i=j=0; i < srclen; i++)
        {
          if ( !(flag_ignorenonspace && OLE2NLS_isNonSpacing(srcstr[i]))
               && !(flag_ignoresymbols && OLE2NLS_isSymbol(srcstr[i])) )
            j++;
        }
        return j;
      }
    }
    else
    {
      if (dstlen==0)
        return srclen;
      if (dstlen<srclen)
           {
             SetLastError(ERROR_INSUFFICIENT_BUFFER);
             return 0;
           }
    }
    if (mapflags & LCMAP_UPPERCASE)
      f = toupper;
    else if (mapflags & LCMAP_LOWERCASE)
      f = tolower;
    /* FIXME: NORM_IGNORENONSPACE requires another conversion */
    for (i=j=0; (i<srclen) && (j<dstlen) ; i++)
    {
      if ( !(flag_ignorenonspace && OLE2NLS_isNonSpacing(srcstr[i]))
           && !(flag_ignoresymbols && OLE2NLS_isSymbol(srcstr[i])) )
      {
        dststr[j] = (CHAR) f(srcstr[i]);
        j++;
      }
    }
    return j;
  }

  /* FIXME: This function completely ignores the "lcid" parameter. */
  /* else ... (mapflags & LCMAP_SORTKEY)  */
  {
    int unicode_len=0;
    int case_len=0;
    int diacritic_len=0;
    int delayed_punctuation_len=0;
    char *case_component;
    char *diacritic_component;
    char *delayed_punctuation_component;
    int room,count;
    int flag_stringsort = mapflags & SORT_STRINGSORT;

    /* compute how much room we will need */
    for (i=0;i<srclen;i++)
    {
      int ofs;
      unsigned char source_char = srcstr[i];
      if (source_char!='\0')
      {
        if (flag_stringsort || !OLE2NLS_isPunctuation(source_char))
        {
          unicode_len++;
          if ( LCM_Unicode_LUT[-2+2*source_char] & ~15 )
            unicode_len++;             /* double letter */
        }
        else
        {
          delayed_punctuation_len++;
        }
      }

      if (isupper(source_char))
        case_len=unicode_len;

      ofs = source_char - LCM_Diacritic_Start;
      if ((ofs>=0) && (LCM_Diacritic_LUT[ofs]!=2))
        diacritic_len=unicode_len;
    }

    if (mapflags & NORM_IGNORECASE)
      case_len=0;
    if (mapflags & NORM_IGNORENONSPACE)
      diacritic_len=0;

    room =  2 * unicode_len              /* "unicode" component */
      +     diacritic_len                /* "diacritic" component */
      +     case_len                     /* "case" component */
      +     4 * delayed_punctuation_len  /* punctuation in word sort mode */
      +     4                            /* four '\1' separators */
      +     1  ;                         /* terminal '\0' */
    if (dstlen==0)
      return room;
    else if (dstlen<room)
    {
      SetLastError(ERROR_INSUFFICIENT_BUFFER);
      return 0;
    }
#if 0
    /*FIXME the Pointercheck should not be nessesary */
    if (IsBadWritePtr (dststr,room))
    { ERR("bad destination buffer (dststr) : %p,%d\n",dststr,dstlen);
      SetLastError(ERROR_INSUFFICIENT_BUFFER);
      return 0;
    }
#endif
    /* locate each component, write separators */
    diacritic_component = dststr + 2*unicode_len ;
    *diacritic_component++ = '\1';
    case_component = diacritic_component + diacritic_len ;
    *case_component++ = '\1';
    delayed_punctuation_component = case_component + case_len ;
    *delayed_punctuation_component++ = '\1';
    *delayed_punctuation_component++ = '\1';

    /* read source string char by char, write
       corresponding weight in each component. */
    for (i=0,count=0;i<srclen;i++)
    {
      unsigned char source_char=srcstr[i];
      if (source_char!='\0')
      {
        int type,longcode;
        type = LCM_Unicode_LUT[-2+2*source_char];
        longcode = type >> 4;
        type &= 15;
        if (!flag_stringsort && OLE2NLS_isPunctuation(source_char))
        {
          WORD encrypted_location = (1<<15) + 7 + 4*count;
          *delayed_punctuation_component++ = (unsigned char) (encrypted_location>>8);
          *delayed_punctuation_component++ = (unsigned char) (encrypted_location&255);
                     /* big-endian is used here because it lets string comparison be
                        compatible with numerical comparison */

          *delayed_punctuation_component++ = type;
          *delayed_punctuation_component++ = LCM_Unicode_LUT[-1+2*source_char];
                     /* assumption : a punctuation character is never a
                        double or accented letter */
        }
        else
        {
          dststr[2*count] = type;
          dststr[2*count+1] = LCM_Unicode_LUT[-1+2*source_char];
          if (longcode)
          {
            if (count<case_len)
              case_component[count] = ( isupper(source_char) ? 18 : 2 ) ;
            if (count<diacritic_len)
              diacritic_component[count] = 2; /* assumption: a double letter
                                                 is never accented */
            count++;

            dststr[2*count] = type;
            dststr[2*count+1] = *(LCM_Unicode_LUT_2 - 1 + longcode);
            /* 16 in the first column of LCM_Unicode_LUT  -->  longcode = 1
               32 in the first column of LCM_Unicode_LUT  -->  longcode = 2
               48 in the first column of LCM_Unicode_LUT  -->  longcode = 3 */
          }

          if (count<case_len)
            case_component[count] = ( isupper(source_char) ? 18 : 2 ) ;
          if (count<diacritic_len)
          {
            int ofs = source_char - LCM_Diacritic_Start;
            diacritic_component[count] = (ofs>=0 ? LCM_Diacritic_LUT[ofs] : 2);
          }
          count++;
        }
      }
    }
    dststr[room-1] = '\0';
    return room;
  }
}

/*************************************************************************
 *              LCMapStringW                [KERNEL32.@]
 *
 * Convert a string, or generate a sort key from it.
 *
 * NOTE
 *
 * See LCMapStringA for documentation
 */
INT WINAPI LCMapStringW(
        LCID lcid,DWORD mapflags,LPCWSTR srcstr,INT srclen,LPWSTR dststr,
        INT dstlen)
{
  int i;

  TRACE("(0x%04lx,0x%08lx,%p,%d,%p,%d)\n",
                 lcid, mapflags, srcstr, srclen, dststr, dstlen);

  if ( ((dstlen!=0) && (dststr==NULL)) || (srcstr==NULL) )
  {
    ERR("(src=%p,dst=%p): Invalid NULL string\n", srcstr, dststr);
    SetLastError(ERROR_INVALID_PARAMETER);
    return 0;
  }
  if (srclen==-1)
    srclen = strlenW(srcstr)+1;

  /* FIXME: Both this function and it's companion LCMapStringA()
   * completely ignore the "lcid" parameter.  In place of the "lcid"
   * parameter the application must set the "LC_COLLATE" or "LC_ALL"
   * environment variable prior to invoking this function.  */
  if (mapflags & LCMAP_SORTKEY)
  {
      /* Possible values of LC_COLLATE. */
      char *lc_collate_default = 0; /* value prior to this function */
      char *lc_collate_env = 0;     /* value retrieved from the environment */

      /* General purpose index into strings of any type. */
      int str_idx = 0;

      /* Lengths of various strings where the length is measured in
       * wide characters for wide character strings and in bytes for
       * native strings.  The lengths include the NULL terminator.  */
      size_t returned_len    = 0;
      size_t src_native_len  = 0;
      size_t dst_native_len  = 0;
      size_t dststr_libc_len = 0;

      /* Native (character set determined by locale) versions of the
       * strings source and destination strings.  */
      LPSTR src_native = 0;
      LPSTR dst_native = 0;

      /* Version of the source and destination strings using the
       * "wchar_t" Unicode data type needed by various libc functions.  */
      wchar_t *srcstr_libc = 0;
      wchar_t *dststr_libc = 0;

      if(!(srcstr_libc = (wchar_t *)HeapAlloc(GetProcessHeap(), 0,
                                       srclen * sizeof(wchar_t))))
      {
          ERR("Unable to allocate %d bytes for srcstr_libc\n",
              srclen * sizeof(wchar_t));
          SetLastError(ERROR_NOT_ENOUGH_MEMORY);
          return 0;
      }

      /* Convert source string to a libc Unicode string. */
      for(str_idx = 0; str_idx < srclen; str_idx++)
      {
          srcstr_libc[str_idx] = srcstr[str_idx];
      }

      /* src_native should contain at most 3 bytes for each
       * multibyte characters in the original srcstr string.  */
      src_native_len = 3 * srclen;
      if(!(src_native = (LPSTR)HeapAlloc(GetProcessHeap(), 0,
                                          src_native_len)))
      {
          ERR("Unable to allocate %d bytes for src_native\n", src_native_len);
          SetLastError(ERROR_NOT_ENOUGH_MEMORY);
          if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
          return 0;
      }

      /* FIXME: Prior to to setting the LC_COLLATE locale category the
       * current value is backed up so it can be restored after the
       * last LC_COLLATE sensitive function returns.
       *
       * Even though the locale is adjusted for a minimum amount of
       * time a race condition exists where other threads may be
       * affected if they invoke LC_COLLATE sensitive functions.  One
       * possible solution is to wrap all LC_COLLATE sensitive Wine
       * functions, like LCMapStringW(), in a mutex.
       *
       * Another enhancement to the following would be to set the
       * LC_COLLATE locale category as a function of the "lcid"
       * parameter instead of the "LC_COLLATE" environment variable. */
      if(!(lc_collate_default = setlocale(LC_COLLATE, NULL)))
      {
          ERR("Unable to query the LC_COLLATE catagory\n");
          SetLastError(ERROR_INVALID_PARAMETER);
          if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
          if(src_native) HeapFree(GetProcessHeap(), 0, src_native);
          return 0;
      }

      if(!(lc_collate_env = setlocale(LC_COLLATE, "")))
      {
          ERR("Unable to inherit the LC_COLLATE locale category from the "
              "environment.  The \"LC_COLLATE\" environment variable is "
              "\"%s\".\n", getenv("LC_COLLATE") ?
              getenv("LC_COLLATE") : "<unset>");
          SetLastError(ERROR_INVALID_PARAMETER);
          if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
          if(src_native) HeapFree(GetProcessHeap(), 0, src_native);
          return 0;
      }

      TRACE("lc_collate_default = %s\n", lc_collate_default);
      TRACE("lc_collate_env = %s\n", lc_collate_env);

      /* Convert the libc Unicode string to a native multibyte character
       * string. */
      returned_len = wcstombs(src_native, srcstr_libc, src_native_len) + 1;
      if(returned_len == 0)
      {
          ERR("wcstombs failed.  The string specified (%s) may contain an invalid character.\n",
              debugstr_w(srcstr));
          SetLastError(ERROR_INVALID_PARAMETER);
          if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
          if(src_native) HeapFree(GetProcessHeap(), 0, src_native);
          setlocale(LC_COLLATE, lc_collate_default);
          return 0;
      }
      else if(returned_len > src_native_len)
      {
          src_native[src_native_len - 1] = 0;
          ERR("wcstombs returned a string (%s) that was longer (%d bytes) "
              "than expected (%d bytes).\n", src_native, returned_len,
              dst_native_len);

          /* Since this is an internal error I'm not sure what the correct
           * error code is.  */
          SetLastError(ERROR_NOT_ENOUGH_MEMORY);

          if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
          if(src_native) HeapFree(GetProcessHeap(), 0, src_native);
          setlocale(LC_COLLATE, lc_collate_default);
          return 0;
      }
      src_native_len = returned_len;

      TRACE("src_native = %s  src_native_len = %d\n",
             src_native, src_native_len);

      /* dst_native seems to contain at most 4 bytes for each byte in
       * the original src_native string.  Change if need be since this
       * isn't documented by the strxfrm() man page. */
      dst_native_len = 4 * src_native_len;
      if(!(dst_native = (LPSTR)HeapAlloc(GetProcessHeap(), 0, dst_native_len)))
      {
          ERR("Unable to allocate %d bytes for dst_native\n", dst_native_len);
          SetLastError(ERROR_NOT_ENOUGH_MEMORY);
          if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
          if(src_native) HeapFree(GetProcessHeap(), 0, src_native);
          setlocale(LC_COLLATE, lc_collate_default);
          return 0;
      }

      /* The actual translation is done by the following call to
       * strxfrm().  The surrounding code could have been simplified
       * by calling wcsxfrm() instead except that wcsxfrm() is not
       * available on older Linux systems (RedHat 4.1 with
       * libc-5.3.12-17).
       *
       * Also, it is possible that the translation could be done by
       * various tables as it is done in LCMapStringA().  However, I'm
       * not sure what those tables are. */
      returned_len = strxfrm(dst_native, src_native, dst_native_len) + 1;

      if(returned_len > dst_native_len)
      {
          dst_native[dst_native_len - 1] = 0;
          ERR("strxfrm returned a string (%s) that was longer (%d bytes) "
              "than expected (%d bytes).\n", dst_native, returned_len,
              dst_native_len);

          /* Since this is an internal error I'm not sure what the correct
           * error code is.  */
          SetLastError(ERROR_NOT_ENOUGH_MEMORY);

          if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
          if(src_native) HeapFree(GetProcessHeap(), 0, src_native);
          if(dst_native) HeapFree(GetProcessHeap(), 0, dst_native);
          setlocale(LC_COLLATE, lc_collate_default);
          return 0;
      }
      dst_native_len = returned_len;

      TRACE("dst_native = %s  dst_native_len = %d\n",
             dst_native, dst_native_len);

      dststr_libc_len = dst_native_len;
      if(!(dststr_libc = (wchar_t *)HeapAlloc(GetProcessHeap(), 0,
                                       dststr_libc_len * sizeof(wchar_t))))
      {
          ERR("Unable to allocate %d bytes for dststr_libc\n",
              dststr_libc_len * sizeof(wchar_t));
          SetLastError(ERROR_NOT_ENOUGH_MEMORY);
          if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
          if(src_native) HeapFree(GetProcessHeap(), 0, src_native);
          if(dst_native) HeapFree(GetProcessHeap(), 0, dst_native);
          setlocale(LC_COLLATE, lc_collate_default);
          return 0;
      }

      /* Convert the native multibyte string to a libc Unicode string. */
      returned_len = mbstowcs(dststr_libc, dst_native, dst_native_len) + 1;

      /* Restore LC_COLLATE now that the last LC_COLLATE sensitive
       * function has returned. */
      setlocale(LC_COLLATE, lc_collate_default);

      if(returned_len == 0)
      {
          ERR("mbstowcs failed.  The native version of the translated string "
              "(%s) may contain an invalid character.\n", dst_native);
          SetLastError(ERROR_INVALID_PARAMETER);
          if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
          if(src_native) HeapFree(GetProcessHeap(), 0, src_native);
          if(dst_native) HeapFree(GetProcessHeap(), 0, dst_native);
          if(dststr_libc) HeapFree(GetProcessHeap(), 0, dststr_libc);
          return 0;
      }
      if(dstlen)
      {
          if(returned_len > dstlen)
          {
              ERR("mbstowcs returned a string that was longer (%d chars) "
                  "than the buffer provided (%d chars).\n", returned_len,
                  dstlen);
              SetLastError(ERROR_INSUFFICIENT_BUFFER);
              if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
              if(src_native) HeapFree(GetProcessHeap(), 0, src_native);
              if(dst_native) HeapFree(GetProcessHeap(), 0, dst_native);
              if(dststr_libc) HeapFree(GetProcessHeap(), 0, dststr_libc);
              return 0;
          }
          dstlen = returned_len;

          /* Convert a libc Unicode string to the destination string. */
          for(str_idx = 0; str_idx < dstlen; str_idx++)
          {
              dststr[str_idx] = dststr_libc[str_idx];
          }
          TRACE("1st 4 int sized chunks of dststr = %x %x %x %x\n",
                         *(((int *)dststr) + 0),
                         *(((int *)dststr) + 1),
                         *(((int *)dststr) + 2),
                         *(((int *)dststr) + 3));
      }
      else
      {
          dstlen = returned_len;
      }
      TRACE("dstlen (return) = %d\n", dstlen);
      if(srcstr_libc) HeapFree(GetProcessHeap(), 0, srcstr_libc);
      if(src_native) HeapFree(GetProcessHeap(), 0, src_native);
      if(dst_native) HeapFree(GetProcessHeap(), 0, dst_native);
      if(dststr_libc) HeapFree(GetProcessHeap(), 0, dststr_libc);
      return dstlen;
  }
  else
  {
    int (*f)(int)=identity;

    if (dstlen==0)
        return srclen;
    if (dstlen<srclen)
    {
        SetLastError(ERROR_INSUFFICIENT_BUFFER);
        return 0;
    }

    if (mapflags & LCMAP_UPPERCASE)
      f = toupper;
    else if (mapflags & LCMAP_LOWERCASE)
      f = tolower;
    for (i=0; i < srclen; i++)
      dststr[i] = (WCHAR) f(srcstr[i]);
    return srclen;
  }
}


/***********************************************************************
 *           OLE2NLS_EstimateMappingLength
 *
 * Estimates the number of characters required to hold the string
 * computed by LCMapStringA.
 *
 * The size is always over-estimated, with a fixed limit on the
 * amount of estimation error.
 *
 * Note that len == -1 is not permitted.
 */
static inline int OLE2NLS_EstimateMappingLength(LCID lcid, DWORD dwMapFlags,
                                                LPCSTR str, DWORD len)
{
    /* Estimate only for small strings to keep the estimation error from
     * becoming too large. */
    if (len < 128) return len * 8 + 5;
    else return LCMapStringA(lcid, dwMapFlags, str, len, NULL, 0);
}

/******************************************************************************
 *              CompareStringA  [KERNEL32.@]
 * Compares two strings using locale
 *
 * RETURNS
 *
 * success: CSTR_LESS_THAN, CSTR_EQUAL, CSTR_GREATER_THAN
 * failure: 0
 *
 * NOTES
 *
 * Defaults to a word sort, but uses a string sort if
 * SORT_STRINGSORT is set.
 * Calls SetLastError for ERROR_INVALID_FLAGS, ERROR_INVALID_PARAMETER.
 *
 * BUGS
 *
 * This implementation ignores the locale
 *
 * FIXME
 *
 * Quite inefficient.
 */
int WINAPI CompareStringA(
    LCID lcid,      /* [in] locale ID */
    DWORD fdwStyle, /* [in] comparison-style options */
    LPCSTR s1,      /* [in] first string */
    int l1,         /* [in] length of first string */
    LPCSTR s2,      /* [in] second string */
    int l2)         /* [in] length of second string */
{
  int mapstring_flags;
  int len1,len2;
  int result;
  LPSTR sk1,sk2;
  TRACE("%s and %s\n",
        debugstr_an (s1,l1), debugstr_an (s2,l2));

  if ( (s1==NULL) || (s2==NULL) )
  {
    ERR("(s1=%s,s2=%s): Invalid NULL string\n",
        debugstr_an(s1,l1), debugstr_an(s2,l2));
    SetLastError(ERROR_INVALID_PARAMETER);
    return 0;
  }

  if(fdwStyle & NORM_IGNORESYMBOLS)
    FIXME("IGNORESYMBOLS not supported\n");

  if (l1 == -1) l1 = strlen(s1);
  if (l2 == -1) l2 = strlen(s2);

  mapstring_flags = LCMAP_SORTKEY | fdwStyle ;
  len1 = OLE2NLS_EstimateMappingLength(lcid, mapstring_flags, s1, l1);
  len2 = OLE2NLS_EstimateMappingLength(lcid, mapstring_flags, s2, l2);

  if ((len1==0)||(len2==0))
    return 0;     /* something wrong happened */

  sk1 = (LPSTR)HeapAlloc(GetProcessHeap(), 0, len1 + len2);
  sk2 = sk1 + len1;
  if ( (!LCMapStringA(lcid,mapstring_flags,s1,l1,sk1,len1))
         || (!LCMapStringA(lcid,mapstring_flags,s2,l2,sk2,len2)) )
  {
    ERR("Bug in LCmapStringA.\n");
    result = 0;
  }
  else
  {
    /* strcmp doesn't necessarily return -1, 0, or 1 */
    result = strcmp(sk1,sk2);
  }
  HeapFree(GetProcessHeap(),0,sk1);

  if (result < 0)
    return 1;
  if (result == 0)
    return 2;

  /* must be greater, if we reach this point */
  return 3;
}

/******************************************************************************
 *              CompareStringW  [KERNEL32.@]
 * This implementation ignores the locale
 * FIXME :  Does only string sort.  Should
 * be reimplemented the same way as CompareStringA.
 */
int WINAPI CompareStringW(LCID lcid, DWORD fdwStyle,
                          LPCWSTR s1, int l1, LPCWSTR s2, int l2)
{
        int len,ret;
        if(fdwStyle & NORM_IGNORENONSPACE)
                FIXME("IGNORENONSPACE not supported\n");
        if(fdwStyle & NORM_IGNORESYMBOLS)
                FIXME("IGNORESYMBOLS not supported\n");

        /* Is strcmp defaulting to string sort or to word sort?? */
        /* FIXME: Handle NORM_STRINGSORT */
        l1 = (l1==-1)?strlenW(s1):l1;
        l2 = (l2==-1)?strlenW(s2):l2;
        len = l1<l2 ? l1:l2;
        ret = (fdwStyle & NORM_IGNORECASE) ? strncmpiW(s1,s2,len) : strncmpW(s1,s2,len);
        /* not equal, return 1 or 3 */
        if(ret!=0) {
                /* need to translate result */
                return ((int)ret < 0) ? 1 : 3;
        }
        /* same len, return 2 */
        if(l1==l2) return 2;
        /* the longer one is lexically greater */
        return (l1<l2)? 1 : 3;
}

/***********************************************************************
 *           lstrcmp    (KERNEL32.@)
 *           lstrcmpA   (KERNEL32.@)
 */
INT WINAPI lstrcmpA( LPCSTR str1, LPCSTR str2 )
{
    return CompareStringA(LOCALE_SYSTEM_DEFAULT,0,str1,-1,str2,-1) - 2 ;
}


/***********************************************************************
 *           lstrcmpW   (KERNEL32.@)
 * FIXME : should call CompareStringW, when it is implemented.
 *    This implementation is not "word sort", as it should.
 */
INT WINAPI lstrcmpW( LPCWSTR str1, LPCWSTR str2 )
{
    TRACE("%s and %s\n",
                   debugstr_w (str1), debugstr_w (str2));
    if (!str1 || !str2) {
        SetLastError(ERROR_INVALID_PARAMETER);
        return 0;
    }
    while (*str1 && (*str1 == *str2)) { str1++; str2++; }
    return (INT)(*str1 - *str2);
}


/***********************************************************************
 *           lstrcmpi    (KERNEL32.@)
 *           lstrcmpiA   (KERNEL32.@)
 */
INT WINAPI lstrcmpiA( LPCSTR str1, LPCSTR str2 )
{    TRACE("strcmpi %s and %s\n",
                   debugstr_a (str1), debugstr_a (str2));
    return CompareStringA(LOCALE_SYSTEM_DEFAULT,NORM_IGNORECASE,str1,-1,str2,-1)-2;
}


/***********************************************************************
 *           lstrcmpiW   (KERNEL32.@)
 */
INT WINAPI lstrcmpiW( LPCWSTR str1, LPCWSTR str2 )
{
    if (!str1 || !str2) {
        SetLastError(ERROR_INVALID_PARAMETER);
        return 0;
    }
    return strcmpiW( str1, str2 );
}


/******************************************************************************
 *              OLE_GetFormatA  [Internal]
 *
 * FIXME
 *    If datelen == 0, it should return the reguired string length.
 *
 This function implements stuff for GetDateFormat() and
 GetTimeFormat().

  d    single-digit (no leading zero) day (of month)
  dd   two-digit day (of month)
  ddd  short day-of-week name
  dddd long day-of-week name
  M    single-digit month
  MM   two-digit month
  MMM  short month name
  MMMM full month name
  y    two-digit year, no leading 0
  yy   two-digit year
  yyyy four-digit year
  gg   era string
  h    hours with no leading zero (12-hour)
  hh   hours with full two digits
  H    hours with no leading zero (24-hour)
  HH   hours with full two digits
  m    minutes with no leading zero
  mm   minutes with full two digits
  s    seconds with no leading zero
  ss   seconds with full two digits
  t    time marker (A or P)
  tt   time marker (AM, PM)
  ''   used to quote literal characters
  ''   (within a quoted string) indicates a literal '

 These functions REQUIRE valid locale, date,  and format.
 */
static INT OLE_GetFormatA(LCID locale,
                            DWORD flags,
                            DWORD tflags,
                            const SYSTEMTIME* xtime,
                            LPCSTR _format,     /*in*/
                            LPSTR date,         /*out*/
                            INT datelen)
{
   INT inpos, outpos;
   int count, type, inquote, Overflow;
   char buf[40];
   char format[40];
   char * pos;
   int buflen;

   const char * _dgfmt[] = { "%d", "%02d" };
   const char ** dgfmt = _dgfmt - 1;

   /* report, for debugging */
   TRACE("(0x%lx,0x%lx, 0x%lx, time(y=%d m=%d wd=%d d=%d,h=%d,m=%d,s=%d), fmt=%p \'%s\' , %p, len=%d)\n",
         locale, flags, tflags,
         xtime->wYear,xtime->wMonth,xtime->wDayOfWeek,xtime->wDay, xtime->wHour, xtime->wMinute, xtime->wSecond,
         _format, _format, date, datelen);

   if(datelen == 0) {
     FIXME("datelen = 0, returning 255\n");
     return 255;
   }

   /* initalize state variables and output buffer */
   inpos = outpos = 0;
   count = 0; inquote = 0; Overflow = 0;
   type = '\0';
   date[0] = buf[0] = '\0';

   strcpy(format,_format);

   /* alter the formatstring, while it works for all languages now in wine
   its possible that it fails when the time looks like ss:mm:hh as example*/
   if (tflags & (TIME_NOMINUTESORSECONDS))
   { if ((pos = strstr ( format, ":mm")))
     { memcpy ( pos, pos+3, strlen(format)-(pos-format)-2 );
     }
   }
   if (tflags & (TIME_NOSECONDS))
   { if ((pos = strstr ( format, ":ss")))
     { memcpy ( pos, pos+3, strlen(format)-(pos-format)-2 );
     }
   }

   for (inpos = 0;; inpos++) {
      /* TRACE("STATE inpos=%2d outpos=%2d count=%d inquote=%d type=%c buf,date = %c,%c\n", inpos, outpos, count, inquote, type, buf[inpos], date[outpos]); */
      if (inquote) {
         if (format[inpos] == '\'') {
            if (format[inpos+1] == '\'') {
               inpos += 1;
               date[outpos++] = '\'';
            } else {
               inquote = 0;
               continue; /* we did nothing to the output */
            }
         } else if (format[inpos] == '\0') {
            date[outpos++] = '\0';
            if (outpos > datelen) Overflow = 1;
            break;
         } else {
            date[outpos++] = format[inpos];
            if (outpos > datelen) {
               Overflow = 1;
               date[outpos-1] = '\0'; /* this is the last place where
                                         it's safe to write */
               break;
            }
         }
      } else if (  (count && (format[inpos] != type))
                   || count == 4
                   || (count == 2 && strchr("ghHmst", type)) ) {
            if (type == 'h' && (tflags & TIME_FORCE24HOURFORMAT)) type= 'H';
            if (type == 'd') {
               if (count == 4) {
                  GetLocaleInfoA(locale,
                                   LOCALE_SDAYNAME1
                                   + (xtime->wDayOfWeek+6)%7,
                                   buf, sizeof(buf));
               } else if (count == 3) {
                           GetLocaleInfoA(locale,
                                            LOCALE_SABBREVDAYNAME1
                                            + (xtime->wDayOfWeek+6)%7,
                                            buf, sizeof(buf));
                      } else {
                  sprintf(buf, dgfmt[count], xtime->wDay);
               }
            } else if (type == 'M') {
               if (count == 3) {
                  GetLocaleInfoA(locale,
                                   LOCALE_SABBREVMONTHNAME1
                                   + xtime->wMonth - 1,
                                   buf, sizeof(buf));
               } else if (count == 4) {
                  GetLocaleInfoA(locale,
                                   LOCALE_SMONTHNAME1
                                   + xtime->wMonth - 1,
                                   buf, sizeof(buf));
                 } else {
                  sprintf(buf, dgfmt[count], xtime->wMonth);
               }
            } else if (type == 'y') {
               if (count == 4) {
                      sprintf(buf, "%d", xtime->wYear);
               } else if (count == 3) {
                  strcpy(buf, "yyy");
                  WARN("unknown format, c=%c, n=%d\n",  type, count);
                 } else {
                  sprintf(buf, dgfmt[count], xtime->wYear % 100);
               }
            } else if (type == 'g') {
               if        (count == 2) {
                  FIXME("LOCALE_ICALENDARTYPE unimp.\n");
                  strcpy(buf, "AD");
            } else {
                  strcpy(buf, "g");
                  WARN("unknown format, c=%c, n=%d\n", type, count);
               }
            } else if (type == 'h') {
               /* gives us hours 1:00 -- 12:00 */
               sprintf(buf, dgfmt[count], (xtime->wHour-1)%12 +1);
            } else if (type == 'H') {
               /* 24-hour time */
               sprintf(buf, dgfmt[count], xtime->wHour);
            } else if ( type == 'm') {
               sprintf(buf, dgfmt[count], xtime->wMinute);
            } else if ( type == 's') {
               sprintf(buf, dgfmt[count], xtime->wSecond);
            } else if (type == 't') {
               if ((tflags & TIME_NOTIMEMARKER))
                  buf[0]='\0';
               else if (count == 1) {
                  sprintf(buf, "%c", (xtime->wHour < 12) ? 'A' : 'P');
               } else if (count == 2) {
                 /* sprintf(buf, "%s", (xtime->wHour < 12) ? "AM" : "PM"); */
                  GetLocaleInfoA(locale,
                           (xtime->wHour<12)
                           ? LOCALE_S1159 : LOCALE_S2359,
                           buf, sizeof(buf));
               }
            };

            /* we need to check the next char in the format string
               again, no matter what happened */
            inpos--;

            /* add the contents of buf to the output */
            buflen = strlen(buf);
            if (outpos + buflen < datelen) {
               date[outpos] = '\0'; /* for strcat to hook onto */
                 strcat(date, buf);
               outpos += buflen;
            } else {
               date[outpos] = '\0';
               strncat(date, buf, datelen - outpos);
                 date[datelen - 1] = '\0';
                 SetLastError(ERROR_INSUFFICIENT_BUFFER);
               WARN("insufficient buffer\n");
                 return 0;
            }

            /* reset the variables we used to keep track of this item */
            count = 0;
            type = '\0';
         } else if (format[inpos] == '\0') {
            /* we can't check for this at the loop-head, because
               that breaks the printing of the last format-item */
            date[outpos] = '\0';
            break;
         } else if (count) {
            /* continuing a code for an item */
            count +=1;
            continue;
         } else if (strchr("hHmstyMdg", format[inpos])) {
            type = format[inpos];
            count = 1;
            continue;
         } else if (format[inpos] == '\'') {
            inquote = 1;
            continue;
       } else {
            date[outpos++] = format[inpos];
         }
      /* now deal with a possible buffer overflow */
      if (outpos >= datelen) {
       date[datelen - 1] = '\0';
       SetLastError(ERROR_INSUFFICIENT_BUFFER);
       return 0;
      }
   }

   if (Overflow) {
      SetLastError(ERROR_INSUFFICIENT_BUFFER);
   };

   /* finish it off with a string terminator */
   outpos++;
   /* sanity check */
   if (outpos > datelen-1) outpos = datelen-1;
   date[outpos] = '\0';

   TRACE("returns string '%s', len %d\n", date, outpos);
   return outpos;
}

/******************************************************************************
 * OLE_GetFormatW [INTERNAL]
 */
static INT OLE_GetFormatW(LCID locale, DWORD flags, DWORD tflags,
                            const SYSTEMTIME* xtime,
                            LPCWSTR format,
                            LPWSTR output, INT outlen)
{
   INT   inpos, outpos;
   int     count, type=0, inquote;
   int     Overflow; /* loop check */
   char    tmp[16];
   WCHAR   buf[40];
   int     buflen=0;
   WCHAR   arg0[] = {0}, arg1[] = {'%','d',0};
   WCHAR   arg2[] = {'%','0','2','d',0};
   WCHAR  *argarr[3];
   int     datevars=0, timevars=0;

   argarr[0] = arg0;
   argarr[1] = arg1;
   argarr[2] = arg2;

   /* make a debug report */
   TRACE("args: 0x%lx, 0x%lx, 0x%lx, time(d=%d,h=%d,m=%d,s=%d), fmt:%s (at %p), "
              "%p with max len %d\n",
         locale, flags, tflags,
         xtime->wDay, xtime->wHour, xtime->wMinute, xtime->wSecond,
         debugstr_w(format), format, output, outlen);

   if(outlen == 0) {
     FIXME("outlen = 0, returning 255\n");
     return 255;
   }

   /* initialize state variables */
   inpos = outpos = 0;
   count = 0;
   inquote = Overflow = 0;
   /* this is really just a sanity check */
   output[0] = buf[0] = 0;

   /* this loop is the core of the function */
   for (inpos = 0; /* we have several break points */ ; inpos++) {
      if (inquote) {
         if (format[inpos] == (WCHAR) '\'') {
            if (format[inpos+1] == '\'') {
               inpos++;
               output[outpos++] = '\'';
            } else {
               inquote = 0;
               continue;
            }
         } else if (format[inpos] == 0) {
            output[outpos++] = 0;
            if (outpos > outlen) Overflow = 1;
            break;  /*  normal exit (within a quote) */
         } else {
            output[outpos++] = format[inpos]; /* copy input */
            if (outpos > outlen) {
               Overflow = 1;
               output[outpos-1] = 0;
               break;
            }
         }
      } else if (  (count && (format[inpos] != type))
                   || ( (count==4 && type =='y') ||
                        (count==4 && type =='M') ||
                        (count==4 && type =='d') ||
                        (count==2 && type =='g') ||
                        (count==2 && type =='h') ||
                        (count==2 && type =='H') ||
                        (count==2 && type =='m') ||
                        (count==2 && type =='s') ||
                        (count==2 && type =='t') )  ) {
          switch(type)
          {
          case 'd':
            if        (count == 4) {
               GetLocaleInfoW(locale,
                             LOCALE_SDAYNAME1 + (xtime->wDayOfWeek +6)%7,
                             buf, sizeof(buf)/sizeof(WCHAR) );
            } else if (count == 3) {
               GetLocaleInfoW(locale,
                                LOCALE_SABBREVDAYNAME1 +
                                (xtime->wDayOfWeek +6)%7,
                                buf, sizeof(buf)/sizeof(WCHAR) );
            } else {
                sprintf( tmp, "%.*d", count, xtime->wDay );
                MultiByteToWideChar( CP_ACP, 0, tmp, -1, buf, sizeof(buf)/sizeof(WCHAR) );
            }
            break;

          case 'M':
            if        (count == 4) {
               GetLocaleInfoW(locale,  LOCALE_SMONTHNAME1 +
                                xtime->wMonth -1, buf,
                                sizeof(buf)/sizeof(WCHAR) );
            } else if (count == 3) {
               GetLocaleInfoW(locale,  LOCALE_SABBREVMONTHNAME1 +
                                xtime->wMonth -1, buf,
                                sizeof(buf)/sizeof(WCHAR) );
            } else {
                sprintf( tmp, "%.*d", count, xtime->wMonth );
                MultiByteToWideChar( CP_ACP, 0, tmp, -1, buf, sizeof(buf)/sizeof(WCHAR) );
            }
            break;
          case 'y':
            if        (count == 4) {
                sprintf( tmp, "%d", xtime->wYear );
            } else if (count == 3) {
                strcpy( tmp, "yyy" );
            } else {
                sprintf( tmp, "%.*d", count, xtime->wYear % 100 );
            }
            MultiByteToWideChar( CP_ACP, 0, tmp, -1, buf, sizeof(buf)/sizeof(WCHAR) );
            break;

          case 'g':
            if        (count == 2) {
               FIXME("LOCALE_ICALENDARTYPE unimplemented\n");
               strcpy( tmp, "AD" );
            } else {
               /* Win API sez we copy it verbatim */
                strcpy( tmp, "g" );
            }
            MultiByteToWideChar( CP_ACP, 0, tmp, -1, buf, sizeof(buf)/sizeof(WCHAR) );
            break;

          case 'h':
              /* hours 1:00-12:00 --- is this right? */
              sprintf( tmp, "%.*d", count, (xtime->wHour-1)%12 +1);
              MultiByteToWideChar( CP_ACP, 0, tmp, -1, buf, sizeof(buf)/sizeof(WCHAR) );
              break;

          case 'H':
              sprintf( tmp, "%.*d", count, xtime->wHour );
              MultiByteToWideChar( CP_ACP, 0, tmp, -1, buf, sizeof(buf)/sizeof(WCHAR) );
              break;

          case 'm':
              sprintf( tmp, "%.*d", count, xtime->wMinute );
              MultiByteToWideChar( CP_ACP, 0, tmp, -1, buf, sizeof(buf)/sizeof(WCHAR) );
              break;

          case 's':
              sprintf( tmp, "%.*d", count, xtime->wSecond );
              MultiByteToWideChar( CP_ACP, 0, tmp, -1, buf, sizeof(buf)/sizeof(WCHAR) );
              break;

          case 't':
            GetLocaleInfoW(locale, (xtime->wHour < 12) ?
                             LOCALE_S1159 : LOCALE_S2359,
                             buf, sizeof(buf) );
            if        (count == 1) {
               buf[1] = 0;
            }
            break;
          }

         /* no matter what happened,  we need to check this next
            character the next time we loop through */
         inpos--;

         /* cat buf onto the output */
         outlen = strlenW(buf);
         if (outpos + buflen < outlen) {
            strcpyW( output + outpos, buf );
            outpos += buflen;
         } else {
            lstrcpynW( output + outpos, buf, outlen - outpos );
            Overflow = 1;
            break; /* Abnormal exit */
         }

         /* reset the variables we used this time */
         count = 0;
         type = '\0';
      } else if (format[inpos] == 0) {
         /* we can't check for this at the beginning,  because that
         would keep us from printing a format spec that ended the
         string */
         output[outpos] = 0;
         break;  /*  NORMAL EXIT  */
      } else if (count) {
         /* how we keep track of the middle of a format spec */
         count++;
         continue;
      } else if ( (datevars && (format[inpos]=='d' ||
                                format[inpos]=='M' ||
                                format[inpos]=='y' ||
                                format[inpos]=='g')  ) ||
                  (timevars && (format[inpos]=='H' ||
                                format[inpos]=='h' ||
                                format[inpos]=='m' ||
                                format[inpos]=='s' ||
                                format[inpos]=='t') )    ) {
         type = format[inpos];
         count = 1;
         continue;
      } else if (format[inpos] == '\'') {
         inquote = 1;
         continue;
      } else {
         /* unquoted literals */
         output[outpos++] = format[inpos];
      }
   }

   if (Overflow) {
      SetLastError(ERROR_INSUFFICIENT_BUFFER);
      WARN(" buffer overflow\n");
   };

   /* final string terminator and sanity check */
   outpos++;
   if (outpos > outlen-1) outpos = outlen-1;
   output[outpos] = '0';

   TRACE(" returning %s\n", debugstr_w(output));

   return (!Overflow) ? outlen : 0;

}


/******************************************************************************
 *              GetDateFormatA  [KERNEL32.@]
 * Makes an ASCII string of the date
 *
 * This function uses format to format the date,  or,  if format
 * is NULL, uses the default for the locale.  format is a string
 * of literal fields and characters as follows:
 *
 * - d    single-digit (no leading zero) day (of month)
 * - dd   two-digit day (of month)
 * - ddd  short day-of-week name
 * - dddd long day-of-week name
 * - M    single-digit month
 * - MM   two-digit month
 * - MMM  short month name
 * - MMMM full month name
 * - y    two-digit year, no leading 0
 * - yy   two-digit year
 * - yyyy four-digit year
 * - gg   era string
 *
 */
INT WINAPI GetDateFormatA(LCID locale,DWORD flags,
                              const SYSTEMTIME* xtime,
                              LPCSTR format, LPSTR date,INT datelen)
{

  char format_buf[40];
  LPCSTR thisformat;
  SYSTEMTIME t;
  LPSYSTEMTIME thistime;
  LCID thislocale;
  INT ret;
  FILETIME ft;
  BOOL res;

  TRACE("(0x%04lx,0x%08lx,%p,%s,%p,%d)\n",
              locale,flags,xtime,format,date,datelen);

  if (!locale) {
     locale = LOCALE_SYSTEM_DEFAULT;
     };

  if (locale == LOCALE_SYSTEM_DEFAULT) {
     thislocale = GetSystemDefaultLCID();
  } else if (locale == LOCALE_USER_DEFAULT) {
     thislocale = GetUserDefaultLCID();
  } else {
     thislocale = locale;
   };

  if (xtime == NULL) {
     GetSystemTime(&t);
  } else {
      /* Silently correct wDayOfWeek by transforming to FileTime and back again */
      res=SystemTimeToFileTime(xtime,&ft);
      /* Check year(?)/month and date for range and set ERROR_INVALID_PARAMETER  on error */
      /*FIXME: SystemTimeToFileTime doesn't yet do that check */
      if(!res)
        {
          SetLastError(ERROR_INVALID_PARAMETER);
          return 0;
        }
      FileTimeToSystemTime(&ft,&t);

  };
  thistime = &t;

  if (format == NULL) {
     GetLocaleInfoA(thislocale, ((flags&DATE_LONGDATE)
                                   ? LOCALE_SLONGDATE
                                   : LOCALE_SSHORTDATE),
                      format_buf, sizeof(format_buf));
     thisformat = format_buf;
  } else {
     thisformat = format;
  };


  ret = OLE_GetFormatA(thislocale, flags, 0, thistime, thisformat,
                       date, datelen);


   TRACE(
               "GetDateFormatA() returning %d, with data=%s\n",
               ret, date);
  return ret;
}

/******************************************************************************
 *              GetDateFormatW  [KERNEL32.@]
 * Makes a Unicode string of the date
 *
 * Acts the same as GetDateFormatA(),  except that it's Unicode.
 * Accepts & returns sizes as counts of Unicode characters.
 *
 */
INT WINAPI GetDateFormatW(LCID locale,DWORD flags,
                              const SYSTEMTIME* xtime,
                              LPCWSTR format,
                              LPWSTR date, INT datelen)
{
   unsigned short datearr[] = {'1','9','9','4','-','1','-','1',0};

   FIXME("STUB (should call OLE_GetFormatW)\n");
   lstrcpynW(date, datearr, datelen);
   return (  datelen < 9) ? datelen : 9;


}

/**************************************************************************
 *              EnumDateFormatsA        (KERNEL32.@)
 */
BOOL WINAPI EnumDateFormatsA(
  DATEFMT_ENUMPROCA lpDateFmtEnumProc, LCID Locale,  DWORD dwFlags)
{
  LCID Loc = GetUserDefaultLCID();
  if(!lpDateFmtEnumProc)
    {
      SetLastError(ERROR_INVALID_PARAMETER);
      return FALSE;
    }

  switch( Loc )
 {

   case 0x00000407:  /* (Loc,"de_DE") */
   {
    switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("dd.MM.yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d.M.yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d.MM.yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d.M.yy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("dddd,d. MMMM yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d. MMMM yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d. MMM yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
     }
   }

   case 0x0000040c:  /* (Loc,"fr_FR") */
   {
    switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("dd/MM/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd.MM.yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd-MM-yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd/MM/yyyy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("dddd d MMMM yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d MMM yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d MMMM yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
     }
   }

   case 0x00000c0c:  /* (Loc,"fr_CA") */
   {
    switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("yy-MM-dd")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd-MM-yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("yy MM dd")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd/MM/yy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("d MMMM, yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d MMM yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
     }
   }

   case 0x00000809:  /* (Loc,"en_UK") */
  {
   switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("dd/MM/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd/MM/yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d/M/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d.M.yy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("dd MMMM yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d MMMM yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
    }
  }

   case 0x00000c09:  /* (Loc,"en_AU") */
  {
   switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("d/MM/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d/M/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd/MM/yy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("dddd,d MMMM yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d MMMM yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
    }
  }

   case 0x00001009:  /* (Loc,"en_CA") */
  {
   switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("dd/MM/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d/M/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("yy-MM-dd")) return TRUE;
        if(!(*lpDateFmtEnumProc)("M/dd/yy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("d-MMM-yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("MMMM d, yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
    }
  }

   case 0x00001409:  /* (Loc,"en_NZ") */
  {
   switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("d/MM/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd/MM/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d.MM.yy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("d MMMM yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dddd, d MMMM yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
    }
  }

   case 0x00001809:  /* (Loc,"en_IE") */
  {
   switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("dd/MM/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d/M/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d.M.yy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("dd MMMM yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("d MMMM yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
    }
  }

   case 0x00001c09:  /* (Loc,"en_ZA") */
  {
   switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("yy/MM/dd")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("dd MMMM yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
    }
  }

   case 0x00002009:  /* (Loc,"en_JM") */
  {
   switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("dd/MM/yyyy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("dddd,MMMM dd,yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("MMMM dd,yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dddd,dd MMMM,yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd MMMM,yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
    }
  }

   case 0x00002809:  /* (Loc,"en_BZ") */
   case 0x00002c09:  /* (Loc,"en_TT") */
  {
   switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("dd/MM/yyyy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("dddd,dd MMMM yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
    }
  }

   default:  /* default to US English "en_US" */
  {
   switch(dwFlags)
    {
      case DATE_SHORTDATE:
        if(!(*lpDateFmtEnumProc)("M/d/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("M/d/yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("MM/dd/yy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("MM/dd/yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("yy/MM/dd")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd-MMM-yy")) return TRUE;
        return TRUE;
      case DATE_LONGDATE:
        if(!(*lpDateFmtEnumProc)("dddd, MMMM dd, yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("MMMM dd, yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dddd, dd MMMM, yyyy")) return TRUE;
        if(!(*lpDateFmtEnumProc)("dd MMMM, yyyy")) return TRUE;
        return TRUE;
      default:
        FIXME("Unknown date format (%ld)\n", dwFlags);
        SetLastError(ERROR_INVALID_PARAMETER);
        return FALSE;
    }
  }
 }
}

/**************************************************************************
 *              EnumDateFormatsW        (KERNEL32.@)
 */
BOOL WINAPI EnumDateFormatsW(
  DATEFMT_ENUMPROCW lpDateFmtEnumProc, LCID Locale, DWORD dwFlags)
{
  FIXME("(%p, %ld, %ld): stub\n", lpDateFmtEnumProc, Locale, dwFlags);
  SetLastError(ERROR_CALL_NOT_IMPLEMENTED);
  return FALSE;
}

/**************************************************************************
 *              EnumTimeFormatsA        (KERNEL32.@)
 */
BOOL WINAPI EnumTimeFormatsA(
  TIMEFMT_ENUMPROCA lpTimeFmtEnumProc, LCID Locale, DWORD dwFlags)
{
  LCID Loc = GetUserDefaultLCID();
  if(!lpTimeFmtEnumProc)
    {
      SetLastError(ERROR_INVALID_PARAMETER);
      return FALSE;
    }
  if(dwFlags)
    {
      FIXME("Unknown time format (%ld)\n", dwFlags);
    }

  switch( Loc )
 {
   case 0x00000407:  /* (Loc,"de_DE") */
   {
    if(!(*lpTimeFmtEnumProc)("HH.mm")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("HH:mm:ss")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("H:mm:ss")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("H.mm")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("H.mm'Uhr'")) return TRUE;
    return TRUE;
   }

   case 0x0000040c:  /* (Loc,"fr_FR") */
   case 0x00000c0c:  /* (Loc,"fr_CA") */
   {
    if(!(*lpTimeFmtEnumProc)("H:mm")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("HH:mm:ss")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("H:mm:ss")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("HH.mm")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("HH'h'mm")) return TRUE;
    return TRUE;
   }

   case 0x00000809:  /* (Loc,"en_UK") */
   case 0x00000c09:  /* (Loc,"en_AU") */
   case 0x00001409:  /* (Loc,"en_NZ") */
   case 0x00001809:  /* (Loc,"en_IE") */
   {
    if(!(*lpTimeFmtEnumProc)("h:mm:ss tt")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("HH:mm:ss")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("H:mm:ss")) return TRUE;
    return TRUE;
   }

   case 0x00001c09:  /* (Loc,"en_ZA") */
   case 0x00002809:  /* (Loc,"en_BZ") */
   case 0x00002c09:  /* (Loc,"en_TT") */
   {
    if(!(*lpTimeFmtEnumProc)("h:mm:ss tt")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("hh:mm:ss tt")) return TRUE;
    return TRUE;
   }

   default:  /* default to US style "en_US" */
   {
    if(!(*lpTimeFmtEnumProc)("h:mm:ss tt")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("hh:mm:ss tt")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("H:mm:ss")) return TRUE;
    if(!(*lpTimeFmtEnumProc)("HH:mm:ss")) return TRUE;
    return TRUE;
   }
 }
}

/**************************************************************************
 *              EnumTimeFormatsW        (KERNEL32.@)
 */
BOOL WINAPI EnumTimeFormatsW(
  TIMEFMT_ENUMPROCW lpTimeFmtEnumProc, LCID Locale, DWORD dwFlags)
{
  FIXME("(%p,%ld,%ld): stub\n", lpTimeFmtEnumProc, Locale, dwFlags);
  SetLastError(ERROR_CALL_NOT_IMPLEMENTED);
  return FALSE;
}

/**************************************************************************
 *           This function is used just locally !
 *  Description: Inverts a string.
 */
static void OLE_InvertString(char* string)
{
    char    sTmpArray[128];
    INT     counter, i = 0;

    for (counter = strlen(string); counter > 0; counter--)
    {
        memcpy(sTmpArray + i, string + counter-1, 1);
        i++;
    }
    memcpy(sTmpArray + i, "\0", 1);
    strcpy(string, sTmpArray);
}

/***************************************************************************************
 *           This function is used just locally !
 *  Description: Test if the given string (psNumber) is valid or not.
 *               The valid characters are the following:
 *               - Characters '0' through '9'.
 *               - One decimal point (dot) if the number is a floating-point value.
 *               - A minus sign in the first character position if the number is
 *                 a negative value.
 *              If the function succeeds, psBefore/psAfter will point to the string
 *              on the right/left of the decimal symbol. pbNegative indicates if the
 *              number is negative.
 */
static INT OLE_GetNumberComponents(char* pInput, char* psBefore, char* psAfter, BOOL* pbNegative)
{
char    sNumberSet[] = "0123456789";
BOOL    bInDecimal = FALSE;

        /* Test if we do have a minus sign */
        if ( *pInput == '-' )
        {
                *pbNegative = TRUE;
                pInput++; /* Jump to the next character. */
        }

        while(*pInput != '\0')
        {
                /* Do we have a valid numeric character */
                if ( strchr(sNumberSet, *pInput) != NULL )
                {
                        if (bInDecimal == TRUE)
                *psAfter++ = *pInput;
                        else
                *psBefore++ = *pInput;
                }
                else
                {
                        /* Is this a decimal point (dot) */
                        if ( *pInput == '.' )
                        {
                                /* Is it the first time we find it */
                                if ((bInDecimal == FALSE))
                                        bInDecimal = TRUE;
                                else
                                        return -1; /* ERROR: Invalid parameter */
                        }
                        else
                        {
                                /* It's neither a numeric character, nor a decimal point.
                                 * Thus, return an error.
                 */
                                return -1;
                        }
                }
        pInput++;
        }

        /* Add an End of Line character to the output buffers */
        *psBefore = '\0';
        *psAfter = '\0';

        return 0;
}

/**************************************************************************
 *           This function is used just locally !
 *  Description: A number could be formatted using different numbers
 *               of "digits in group" (example: 4;3;2;0).
 *               The first parameter of this function is an array
 *               containing the rule to be used. Its format is the following:
 *               |NDG|DG1|DG2|...|0|
 *               where NDG is the number of used "digits in group" and DG1, DG2,
 *               are the corresponding "digits in group".
 *               Thus, this function returns the grouping value in the array
 *               pointed by the second parameter.
 */
static INT OLE_GetGrouping(char* sRule, INT index)
{
    char    sData[2], sRuleSize[2];
    INT     nData, nRuleSize;

    memcpy(sRuleSize, sRule, 1);
    memcpy(sRuleSize+1, "\0", 1);
    nRuleSize = atoi(sRuleSize);

    if (index > 0 && index < nRuleSize)
    {
        memcpy(sData, sRule+index, 1);
        memcpy(sData+1, "\0", 1);
        nData = atoi(sData);
    }

    else
    {
        memcpy(sData, sRule+nRuleSize-1, 1);
        memcpy(sData+1, "\0", 1);
        nData = atoi(sData);
    }

    return nData;
}

/**************************************************************************
 *              GetNumberFormatA        (KERNEL32.@)
 */
INT WINAPI GetNumberFormatA(LCID locale, DWORD dwflags,
                               LPCSTR lpvalue,   const NUMBERFMTA * lpFormat,
                               LPSTR lpNumberStr, int cchNumber)
{
    char   sNumberDigits[3], sDecimalSymbol[5], sDigitsInGroup[11], sDigitGroupSymbol[5], sILZero[2];
    INT    nNumberDigits, nNumberDecimal, i, j, nCounter, nStep, nRuleIndex, nGrouping, nDigits, retVal, nLZ;
    char   sNumber[128], sDestination[128], sDigitsAfterDecimal[10], sDigitsBeforeDecimal[128];
    char   sRule[10], sSemiColumn[]=";", sBuffer[5], sNegNumber[2];
    char   *pStr = NULL, *pTmpStr = NULL;
    LCID   systemDefaultLCID;
    BOOL   bNegative = FALSE;
    enum   Operations
    {
        USE_PARAMETER,
        USE_LOCALEINFO,
        USE_SYSTEMDEFAULT,
        RETURN_ERROR
    } used_operation;

    strncpy(sNumber, lpvalue, 128);
    sNumber[127] = '\0';

    /* Make sure we have a valid input string, get the number
     * of digits before and after the decimal symbol, and check
     * if this is a negative number.
     */
    if ( OLE_GetNumberComponents(sNumber, sDigitsBeforeDecimal, sDigitsAfterDecimal, &bNegative) != -1)
    {
        nNumberDecimal = strlen(sDigitsBeforeDecimal);
        nDigits = strlen(sDigitsAfterDecimal);
    }
    else
    {
        SetLastError(ERROR_INVALID_PARAMETER);
        return 0;
    }

    /* Which source will we use to format the string */
    used_operation = RETURN_ERROR;
    if (lpFormat != NULL)
    {
        if (dwflags == 0)
            used_operation = USE_PARAMETER;
    }
    else
    {
        if (dwflags & LOCALE_NOUSEROVERRIDE)
            used_operation = USE_SYSTEMDEFAULT;
        else
            used_operation = USE_LOCALEINFO;
    }

    /* Load the fields we need */
    switch(used_operation)
    {
    case USE_LOCALEINFO:
        GetLocaleInfoA(locale, LOCALE_IDIGITS, sNumberDigits, sizeof(sNumberDigits));
        GetLocaleInfoA(locale, LOCALE_SDECIMAL, sDecimalSymbol, sizeof(sDecimalSymbol));
        GetLocaleInfoA(locale, LOCALE_SGROUPING, sDigitsInGroup, sizeof(sDigitsInGroup));
        GetLocaleInfoA(locale, LOCALE_STHOUSAND, sDigitGroupSymbol, sizeof(sDigitGroupSymbol));
        GetLocaleInfoA(locale, LOCALE_ILZERO, sILZero, sizeof(sILZero));
        GetLocaleInfoA(locale, LOCALE_INEGNUMBER, sNegNumber, sizeof(sNegNumber));
        break;
    case USE_PARAMETER:
        sprintf(sNumberDigits, "%d",lpFormat->NumDigits);
        strcpy(sDecimalSymbol, lpFormat->lpDecimalSep);
        sprintf(sDigitsInGroup, "%d;0",lpFormat->Grouping);
        strcpy(sDigitGroupSymbol, lpFormat->lpThousandSep);
        sprintf(sILZero, "%d",lpFormat->LeadingZero);
        sprintf(sNegNumber, "%d",lpFormat->NegativeOrder);
        break;
    case USE_SYSTEMDEFAULT:
        systemDefaultLCID = GetSystemDefaultLCID();
        GetLocaleInfoA(systemDefaultLCID, LOCALE_IDIGITS, sNumberDigits, sizeof(sNumberDigits));
        GetLocaleInfoA(systemDefaultLCID, LOCALE_SDECIMAL, sDecimalSymbol, sizeof(sDecimalSymbol));
        GetLocaleInfoA(systemDefaultLCID, LOCALE_SGROUPING, sDigitsInGroup, sizeof(sDigitsInGroup));
        GetLocaleInfoA(systemDefaultLCID, LOCALE_STHOUSAND, sDigitGroupSymbol, sizeof(sDigitGroupSymbol));
        GetLocaleInfoA(systemDefaultLCID, LOCALE_ILZERO, sILZero, sizeof(sILZero));
        GetLocaleInfoA(systemDefaultLCID, LOCALE_INEGNUMBER, sNegNumber, sizeof(sNegNumber));
        break;
    default:
        SetLastError(ERROR_INVALID_PARAMETER);
        return 0;
    }

    nNumberDigits = atoi(sNumberDigits);

    /* Remove the ";" */
    i=0;
    j = 1;
    for (nCounter=0; nCounter<strlen(sDigitsInGroup); nCounter++)
    {
        if ( memcmp(sDigitsInGroup + nCounter, sSemiColumn, 1) != 0 )
        {
            memcpy(sRule + j, sDigitsInGroup + nCounter, 1);
            i++;
            j++;
        }
    }
    sprintf(sBuffer, "%d", i);
    memcpy(sRule, sBuffer, 1); /* Number of digits in the groups ( used by OLE_GetGrouping() ) */
    memcpy(sRule + j, "\0", 1);

    /* First, format the digits before the decimal. */
    if ((nNumberDecimal>0) && (atoi(sDigitsBeforeDecimal) != 0))
    {
        /* Working on an inverted string is easier ! */
        OLE_InvertString(sDigitsBeforeDecimal);

        nStep = nCounter = i = j = 0;
        nRuleIndex = 1;
        nGrouping = OLE_GetGrouping(sRule, nRuleIndex);

        /* Here, we will loop until we reach the end of the string.
         * An internal counter (j) is used in order to know when to
         * insert the "digit group symbol".
         */
        while (nNumberDecimal > 0)
        {
            i = nCounter + nStep;
            memcpy(sDestination + i, sDigitsBeforeDecimal + nCounter, 1);
            nCounter++;
            j++;
            if (j >= nGrouping)
            {
                j = 0;
                if (nRuleIndex < sRule[0])
                    nRuleIndex++;
                nGrouping = OLE_GetGrouping(sRule, nRuleIndex);
                memcpy(sDestination + i+1, sDigitGroupSymbol, strlen(sDigitGroupSymbol));
                nStep+= strlen(sDigitGroupSymbol);
            }

            nNumberDecimal--;
        }

        memcpy(sDestination + i+1, "\0", 1);
        /* Get the string in the right order ! */
        OLE_InvertString(sDestination);
     }
     else
     {
        nLZ = atoi(sILZero);
        if (nLZ != 0)
        {
            /* Use 0.xxx instead of .xxx */
            memcpy(sDestination, "0", 1);
            memcpy(sDestination+1, "\0", 1);
        }
        else
            memcpy(sDestination, "\0", 1);

     }

    /* Second, format the digits after the decimal. */
    j = 0;
    nCounter = nNumberDigits;
    if ( (nDigits>0) && (pStr = strstr (sNumber, ".")) )
    {
        i = strlen(sNumber) - strlen(pStr) + 1;
        strncpy ( sDigitsAfterDecimal, sNumber + i, nNumberDigits);
        j = strlen(sDigitsAfterDecimal);
        if (j < nNumberDigits)
            nCounter = nNumberDigits-j;
    }
    for (i=0;i<nCounter;i++)
         memcpy(sDigitsAfterDecimal+i+j, "0", 1);
    memcpy(sDigitsAfterDecimal + nNumberDigits, "\0", 1);

    i = strlen(sDestination);
    j = strlen(sDigitsAfterDecimal);
    /* Finally, construct the resulting formatted string. */

    for (nCounter=0; nCounter<i; nCounter++)
        memcpy(sNumber + nCounter, sDestination + nCounter, 1);

    memcpy(sNumber + nCounter, sDecimalSymbol, strlen(sDecimalSymbol));

    for (i=0; i<j; i++)
        memcpy(sNumber + nCounter+i+strlen(sDecimalSymbol), sDigitsAfterDecimal + i, 1);
    memcpy(sNumber + nCounter+i+strlen(sDecimalSymbol), "\0", 1);

    /* Is it a negative number */
    if (bNegative == TRUE)
    {
        i = atoi(sNegNumber);
        pStr = sDestination;
        pTmpStr = sNumber;
        switch (i)
        {
        case 0:
            *pStr++ = '(';
            while (*sNumber != '\0')
                *pStr++ =  *pTmpStr++;
            *pStr++ = ')';
            break;
        case 1:
            *pStr++ = '-';
            while (*pTmpStr != '\0')
                *pStr++ =  *pTmpStr++;
            break;
        case 2:
            *pStr++ = '-';
            *pStr++ = ' ';
            while (*pTmpStr != '\0')
                *pStr++ =  *pTmpStr++;
            break;
        case 3:
            while (*pTmpStr != '\0')
                *pStr++ =  *pTmpStr++;
            *pStr++ = '-';
            break;
        case 4:
            while (*pTmpStr != '\0')
                *pStr++ =  *pTmpStr++;
            *pStr++ = ' ';
            *pStr++ = '-';
            break;
        default:
            while (*pTmpStr != '\0')
                *pStr++ =  *pTmpStr++;
            break;
        }
    }
    else
        strcpy(sDestination, sNumber);

    /* If cchNumber is zero, then returns the number of bytes or characters
     * required to hold the formatted number string
     */
    retVal = strlen(sDestination) + 1;
    if (cchNumber!=0)
    {
        memcpy( lpNumberStr, sDestination, min(cchNumber, retVal) );
        if (cchNumber < retVal) retVal = 0;
    }
    return retVal;
}

/**************************************************************************
 *              GetNumberFormatW        (KERNEL32.@)
 */
INT WINAPI GetNumberFormatW(LCID locale, DWORD dwflags,
                               LPCWSTR lpvalue,  const NUMBERFMTW * lpFormat,
                               LPWSTR lpNumberStr, int cchNumber)
{
 FIXME("%s: stub, no reformatting done\n",debugstr_w(lpvalue));

 lstrcpynW( lpNumberStr, lpvalue, cchNumber );
 return cchNumber? strlenW( lpNumberStr ) : 0;
}

/**************************************************************************
 *              GetCurrencyFormatA      (KERNEL32.@)
 */
INT WINAPI GetCurrencyFormatA(LCID locale, DWORD dwflags,
                               LPCSTR lpvalue,   const CURRENCYFMTA * lpFormat,
                               LPSTR lpCurrencyStr, int cchCurrency)
{
    UINT   nPosOrder, nNegOrder;
    INT    retVal;
    char   sDestination[128], sNegOrder[8], sPosOrder[8], sCurrencySymbol[8];
    char   *pDestination = sDestination;
    char   sNumberFormated[128];
    char   *pNumberFormated = sNumberFormated;
    LCID   systemDefaultLCID;
    BOOL   bIsPositive = FALSE, bValidFormat = FALSE;
    enum   Operations
    {
        USE_PARAMETER,
        USE_LOCALEINFO,
        USE_SYSTEMDEFAULT,
        RETURN_ERROR
    } used_operation;

    NUMBERFMTA  numberFmt;

    /* Which source will we use to format the string */
    used_operation = RETURN_ERROR;
    if (lpFormat != NULL)
    {
        if (dwflags == 0)
            used_operation = USE_PARAMETER;
    }
    else
    {
        if (dwflags & LOCALE_NOUSEROVERRIDE)
            used_operation = USE_SYSTEMDEFAULT;
        else
            used_operation = USE_LOCALEINFO;
    }

    /* Load the fields we need */
    switch(used_operation)
    {
    case USE_LOCALEINFO:
        /* Specific to CURRENCYFMTA */
        GetLocaleInfoA(locale, LOCALE_INEGCURR, sNegOrder, sizeof(sNegOrder));
        GetLocaleInfoA(locale, LOCALE_ICURRENCY, sPosOrder, sizeof(sPosOrder));
        GetLocaleInfoA(locale, LOCALE_SCURRENCY, sCurrencySymbol, sizeof(sCurrencySymbol));

        nPosOrder = atoi(sPosOrder);
        nNegOrder = atoi(sNegOrder);
        break;
    case USE_PARAMETER:
        /* Specific to CURRENCYFMTA */
        nNegOrder = lpFormat->NegativeOrder;
        nPosOrder = lpFormat->PositiveOrder;
        strcpy(sCurrencySymbol, lpFormat->lpCurrencySymbol);
        break;
    case USE_SYSTEMDEFAULT:
        systemDefaultLCID = GetSystemDefaultLCID();
        /* Specific to CURRENCYFMTA */
        GetLocaleInfoA(systemDefaultLCID, LOCALE_INEGCURR, sNegOrder, sizeof(sNegOrder));
        GetLocaleInfoA(systemDefaultLCID, LOCALE_ICURRENCY, sPosOrder, sizeof(sPosOrder));
        GetLocaleInfoA(systemDefaultLCID, LOCALE_SCURRENCY, sCurrencySymbol, sizeof(sCurrencySymbol));

        nPosOrder = atoi(sPosOrder);
        nNegOrder = atoi(sNegOrder);
        break;
    default:
        SetLastError(ERROR_INVALID_PARAMETER);
        return 0;
    }

    /* Construct a temporary number format structure */
    if (lpFormat != NULL)
    {
        numberFmt.NumDigits     = lpFormat->NumDigits;
        numberFmt.LeadingZero   = lpFormat->LeadingZero;
        numberFmt.Grouping      = lpFormat->Grouping;
        numberFmt.NegativeOrder = 0;
        numberFmt.lpDecimalSep = lpFormat->lpDecimalSep;
        numberFmt.lpThousandSep = lpFormat->lpThousandSep;
        bValidFormat = TRUE;
    }

    /* Make a call to GetNumberFormatA() */
    if (*lpvalue == '-')
    {
        bIsPositive = FALSE;
        retVal = GetNumberFormatA(locale,0,lpvalue+1,(bValidFormat)?&numberFmt:NULL,pNumberFormated,128);
    }
    else
    {
        bIsPositive = TRUE;
        retVal = GetNumberFormatA(locale,0,lpvalue,(bValidFormat)?&numberFmt:NULL,pNumberFormated,128);
    }

    if (retVal == 0)
        return 0;

    /* construct the formatted string */
    if (bIsPositive)
    {
        switch (nPosOrder)
        {
        case 0:   /* Prefix, no separation */
            strcpy (pDestination, sCurrencySymbol);
            strcat (pDestination, pNumberFormated);
            break;
        case 1:   /* Suffix, no separation */
            strcpy (pDestination, pNumberFormated);
            strcat (pDestination, sCurrencySymbol);
            break;
        case 2:   /* Prefix, 1 char separation */
            strcpy (pDestination, sCurrencySymbol);
            strcat (pDestination, " ");
            strcat (pDestination, pNumberFormated);
            break;
        case 3:   /* Suffix, 1 char separation */
            strcpy (pDestination, pNumberFormated);
            strcat (pDestination, " ");
            strcat (pDestination, sCurrencySymbol);
            break;
        default:
            SetLastError(ERROR_INVALID_PARAMETER);
            return 0;
        }
    }
    else  /* negative number */
    {
        switch (nNegOrder)
        {
        case 0:   /* format: ($1.1) */
            strcpy (pDestination, "(");
            strcat (pDestination, sCurrencySymbol);
            strcat (pDestination, pNumberFormated);
            strcat (pDestination, ")");
            break;
        case 1:   /* format: -$1.1 */
            strcpy (pDestination, "-");
            strcat (pDestination, sCurrencySymbol);
            strcat (pDestination, pNumberFormated);
            break;
        case 2:   /* format: $-1.1 */
            strcpy (pDestination, sCurrencySymbol);
            strcat (pDestination, "-");
            strcat (pDestination, pNumberFormated);
            break;
        case 3:   /* format: $1.1- */
            strcpy (pDestination, sCurrencySymbol);
            strcat (pDestination, pNumberFormated);
            strcat (pDestination, "-");
            break;
        case 4:   /* format: (1.1$) */
            strcpy (pDestination, "(");
            strcat (pDestination, pNumberFormated);
            strcat (pDestination, sCurrencySymbol);
            strcat (pDestination, ")");
            break;
        case 5:   /* format: -1.1$ */
            strcpy (pDestination, "-");
            strcat (pDestination, pNumberFormated);
            strcat (pDestination, sCurrencySymbol);
            break;
        case 6:   /* format: 1.1-$ */
            strcpy (pDestination, pNumberFormated);
            strcat (pDestination, "-");
            strcat (pDestination, sCurrencySymbol);
            break;
        case 7:   /* format: 1.1$- */
            strcpy (pDestination, pNumberFormated);
            strcat (pDestination, sCurrencySymbol);
            strcat (pDestination, "-");
            break;
        case 8:   /* format: -1.1 $ */
            strcpy (pDestination, "-");
            strcat (pDestination, pNumberFormated);
            strcat (pDestination, " ");
            strcat (pDestination, sCurrencySymbol);
            break;
        case 9:   /* format: -$ 1.1 */
            strcpy (pDestination, "-");
            strcat (pDestination, sCurrencySymbol);
            strcat (pDestination, " ");
            strcat (pDestination, pNumberFormated);
            break;
        case 10:   /* format: 1.1 $- */
            strcpy (pDestination, pNumberFormated);
            strcat (pDestination, " ");
            strcat (pDestination, sCurrencySymbol);
            strcat (pDestination, "-");
            break;
        case 11:   /* format: $ 1.1- */
            strcpy (pDestination, sCurrencySymbol);
            strcat (pDestination, " ");
            strcat (pDestination, pNumberFormated);
            strcat (pDestination, "-");
            break;
        case 12:   /* format: $ -1.1 */
            strcpy (pDestination, sCurrencySymbol);
            strcat (pDestination, " ");
            strcat (pDestination, "-");
            strcat (pDestination, pNumberFormated);
            break;
        case 13:   /* format: 1.1- $ */
            strcpy (pDestination, pNumberFormated);
            strcat (pDestination, "-");
            strcat (pDestination, " ");
            strcat (pDestination, sCurrencySymbol);
            break;
        case 14:   /* format: ($ 1.1) */
            strcpy (pDestination, "(");
            strcat (pDestination, sCurrencySymbol);
            strcat (pDestination, " ");
            strcat (pDestination, pNumberFormated);
            strcat (pDestination, ")");
            break;
        case 15:   /* format: (1.1 $) */
            strcpy (pDestination, "(");
            strcat (pDestination, pNumberFormated);
            strcat (pDestination, " ");
            strcat (pDestination, sCurrencySymbol);
            strcat (pDestination, ")");
            break;
        default:
            SetLastError(ERROR_INVALID_PARAMETER);
            return 0;
        }
    }

    retVal = strlen(pDestination) + 1;

    if (cchCurrency)
    {
        memcpy( lpCurrencyStr, pDestination, min(cchCurrency, retVal) );
        if (cchCurrency < retVal) retVal = 0;
    }
    return retVal;
}

/**************************************************************************
 *              GetCurrencyFormatW      (KERNEL32.@)
 */
INT WINAPI GetCurrencyFormatW(LCID locale, DWORD dwflags,
                               LPCWSTR lpvalue,   const CURRENCYFMTW * lpFormat,
                               LPWSTR lpCurrencyStr, int cchCurrency)
{
    FIXME("This API function is NOT implemented !\n");
    return 0;
}

/******************************************************************************
 *              OLE2NLS_CheckLocale     [intern]
 */
static LCID OLE2NLS_CheckLocale (LCID locale)
{
        if (!locale)
        { locale = LOCALE_SYSTEM_DEFAULT;
        }

        if (locale == LOCALE_SYSTEM_DEFAULT)
        { return GetSystemDefaultLCID();
        }
        else if (locale == LOCALE_USER_DEFAULT)
        { return GetUserDefaultLCID();
        }
        else
        { return locale;
        }
}
/******************************************************************************
 *              GetTimeFormatA  [KERNEL32.@]
 * Makes an ASCII string of the time
 *
 * Formats date according to format,  or locale default if format is
 * NULL. The format consists of literal characters and fields as follows:
 *
 * h  hours with no leading zero (12-hour)
 * hh hours with full two digits
 * H  hours with no leading zero (24-hour)
 * HH hours with full two digits
 * m  minutes with no leading zero
 * mm minutes with full two digits
 * s  seconds with no leading zero
 * ss seconds with full two digits
 * t  time marker (A or P)
 * tt time marker (AM, PM)
 *
 */
INT WINAPI
GetTimeFormatA(LCID locale,        /* [in]  */
               DWORD flags,        /* [in]  */
               const SYSTEMTIME* xtime, /* [in]  */
               LPCSTR format,      /* [in]  */
               LPSTR timestr,      /* [out] */
               INT timelen         /* [in]  */)
{ char format_buf[40];
  LPCSTR thisformat;
  SYSTEMTIME t;
  const SYSTEMTIME* thistime;
  LCID thislocale=0;
  DWORD thisflags=LOCALE_STIMEFORMAT; /* standard timeformat */
  INT ret;

  TRACE("GetTimeFormat(0x%04lx,0x%08lx,%p,%s,%p,%d)\n",locale,flags,xtime,format,timestr,timelen);

  thislocale = OLE2NLS_CheckLocale ( locale );

  if (format == NULL)
  { if (flags & LOCALE_NOUSEROVERRIDE)  /* use system default */
    { thislocale = GetSystemDefaultLCID();
    }
    GetLocaleInfoA(thislocale, thisflags, format_buf, sizeof(format_buf));
    thisformat = format_buf;
  }
  else
  { thisformat = format;
  }

  if (xtime == NULL) /* NULL means use the current local time */
  { GetLocalTime(&t);
    thistime = &t;
  }
  else
  { thistime = xtime;
  /* Check that hour,min and sec is in range */
  }
  ret = OLE_GetFormatA(thislocale, thisflags, flags, thistime, thisformat,
                         timestr, timelen);
  return ret;
}


/******************************************************************************
 *              GetTimeFormatW  [KERNEL32.@]
 * Makes a Unicode string of the time
 */
INT WINAPI
GetTimeFormatW(LCID locale,        /* [in]  */
               DWORD flags,        /* [in]  */
               const SYSTEMTIME* xtime, /* [in]  */
               LPCWSTR format,     /* [in]  */
               LPWSTR timestr,     /* [out] */
               INT timelen         /* [in]  */)
{       WCHAR format_buf[40];
        LPCWSTR thisformat;
        SYSTEMTIME t;
        const SYSTEMTIME* thistime;
        LCID thislocale=0;
        DWORD thisflags=LOCALE_STIMEFORMAT; /* standard timeformat */
        INT ret;

        TRACE("GetTimeFormat(0x%04lx,0x%08lx,%p,%s,%p,%d)\n",locale,flags,
        xtime,debugstr_w(format),timestr,timelen);

        thislocale = OLE2NLS_CheckLocale ( locale );

        if (format == NULL)
        { if (flags & LOCALE_NOUSEROVERRIDE)  /* use system default */
          { thislocale = GetSystemDefaultLCID();
          }
          GetLocaleInfoW(thislocale, thisflags, format_buf, 40);
          thisformat = format_buf;
        }
        else
        { thisformat = format;
        }

        if (xtime == NULL) /* NULL means use the current local time */
        { GetLocalTime(&t);
          thistime = &t;
        }
        else
        { thistime = xtime;
        }

        ret = OLE_GetFormatW(thislocale, thisflags, flags, thistime, thisformat,
                         timestr, timelen);
        return ret;
}

/******************************************************************************
 *              EnumCalendarInfoA       [KERNEL32.@]
 */
BOOL WINAPI EnumCalendarInfoA(
        CALINFO_ENUMPROCA calinfoproc,LCID locale,CALID calendar,CALTYPE caltype
) {
        FIXME("(%p,0x%04lx,0x%08lx,0x%08lx),stub!\n",calinfoproc,locale,calendar,caltype);
        return FALSE;
}