2 * Variant formatting functions
4 * Copyright 2008 Damjan Jovanovic
5 * Copyright 2003 Jon Griffiths
7 * This library is free software; you can redistribute it and/or
8 * modify it under the terms of the GNU Lesser General Public
9 * License as published by the Free Software Foundation; either
10 * version 2.1 of the License, or (at your option) any later version.
12 * This library is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15 * Lesser General Public License for more details.
17 * You should have received a copy of the GNU Lesser General Public
18 * License along with this library; if not, write to the Free Software
19 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
22 * Since the formatting functions aren't properly documented, I used the
23 * Visual Basic documentation as a guide to implementing these functions. This
24 * means that some named or user-defined formats may work slightly differently.
25 * Please submit a test case if you find a difference.
35 #define NONAMELESSUNION
36 #define NONAMELESSSTRUCT
39 #include "wine/unicode.h"
42 #include "wine/debug.h"
44 WINE_DEFAULT_DEBUG_CHANNEL(variant
);
46 /* Make sure internal conversions to strings use the '.','+'/'-' and ','
47 * format chars from the US locale. This enables us to parse the created
48 * strings to determine the number of decimal places, exponent, etc.
50 #define LCID_US MAKELCID(MAKELANGID(LANG_ENGLISH,SUBLANG_ENGLISH_US),SORT_DEFAULT)
52 static const WCHAR szPercent_d
[] = { '%','d','\0' };
53 static const WCHAR szPercentZeroTwo_d
[] = { '%','0','2','d','\0' };
54 static const WCHAR szPercentZeroStar_d
[] = { '%','0','*','d','\0' };
57 #define dump_tokens(rgb) do { \
58 int i_; TRACE("Tokens->{\n"); \
59 for (i_ = 0; i_ < rgb[0]; i_++) \
60 TRACE("%s0x%02x", i_?",":"",rgb[i_]); \
65 /******************************************************************************
66 * Variant-Formats {OLEAUT32}
69 * When formatting a variant a variety of format strings may be used to generate
70 * different kinds of formatted output. A format string consists of either a named
71 * format, or a user-defined format.
73 * The following named formats are defined:
76 *| General Date Display Date, and time for non-integer values
77 *| Short Date Short date format as defined by locale settings
78 *| Medium Date Medium date format as defined by locale settings
79 *| Long Date Long date format as defined by locale settings
80 *| Short Time Short Time format as defined by locale settings
81 *| Medium Time Medium time format as defined by locale settings
82 *| Long Time Long time format as defined by locale settings
83 *| True/False Localised text of "True" or "False"
84 *| Yes/No Localised text of "Yes" or "No"
85 *| On/Off Localised text of "On" or "Off"
86 *| General Number No thousands separator. No decimal points for integers
87 *| Currency General currency format using localised characters
88 *| Fixed At least one whole and two fractional digits
89 *| Standard Same as 'Fixed', but including decimal separators
90 *| Percent Multiply by 100 and display a trailing '%' character
91 *| Scientific Display with exponent
93 * User-defined formats consist of a combination of tokens and literal
94 * characters. Literal characters are copied unmodified to the formatted
95 * output at the position they occupy in the format string. Any character
96 * that is not recognised as a token is treated as a literal. A literal can
97 * also be specified by preceding it with a backslash character
98 * (e.g. "\L\i\t\e\r\a\l") or enclosing it in double quotes.
100 * A user-defined format can have up to 4 sections, depending on the type of
101 * format. The following table lists sections and their meaning:
102 *| Format Type Sections Meaning
103 *| ----------- -------- -------
104 *| Number 1 Use the same format for all numbers
105 *| Number 2 Use format 1 for positive and 2 for negative numbers
106 *| Number 3 Use format 1 for positive, 2 for zero, and 3
107 *| for negative numbers.
108 *| Number 4 Use format 1 for positive, 2 for zero, 3 for
109 *| negative, and 4 for null numbers.
110 *| String 1 Use the same format for all strings
111 *| String 2 Use format 2 for null and empty strings, otherwise
113 *| Date 1 Use the same format for all dates
115 * The formatting tokens fall into several categories depending on the type
116 * of formatted output. For more information on each type, see
117 * VarFormat-Dates(), VarFormat-Strings() and VarFormat-Numbers().
120 * VarTokenizeFormatString(), VarFormatFromTokens(), VarFormat(),
121 * VarFormatDateTime(), VarFormatNumber(), VarFormatCurrency().
124 /******************************************************************************
125 * VarFormat-Strings {OLEAUT32}
128 * When formatting a variant as a string, it is first converted to a VT_BSTR.
129 * The user-format string defines which characters are copied into which
130 * positions in the output string. Literals may be inserted in the format
131 * string. When creating the formatted string, excess characters in the string
132 * (those not consumed by a token) are appended to the end of the output. If
133 * there are more tokens than characters in the string to format, spaces will
134 * be inserted at the start of the string if the '@' token was used.
136 * By default strings are converted to lowercase, or uppercase if the '>' token
137 * is encountered. This applies to the whole string: it is not possible to
138 * generate a mixed-case output string.
140 * In user-defined string formats, the following tokens are recognised:
143 *| '@' Copy a char from the source, or a space if no chars are left.
144 *| '&' Copy a char from the source, or write nothing if no chars are left.
145 *| '<' Output the whole string as lower-case (the default).
146 *| '>' Output the whole string as upper-case.
147 *| '!' MSDN indicates that this character should cause right-to-left
148 *| copying, however tests show that it is tokenised but not processed.
152 * Common format definitions
156 #define FMT_TYPE_UNKNOWN 0x0
157 #define FMT_TYPE_GENERAL 0x1
158 #define FMT_TYPE_NUMBER 0x2
159 #define FMT_TYPE_DATE 0x3
160 #define FMT_TYPE_STRING 0x4
162 #define FMT_TO_STRING 0x0 /* If header->size == this, act like VB's Str() fn */
164 typedef struct tagFMT_SHORT_HEADER
166 BYTE size
; /* Size of tokenised block (including header), or FMT_TO_STRING */
167 BYTE type
; /* Allowable types (FMT_TYPE_*) */
168 BYTE offset
[1]; /* Offset of the first (and only) format section */
171 typedef struct tagFMT_HEADER
173 BYTE size
; /* Total size of the whole tokenised block (including header) */
174 BYTE type
; /* Allowable types (FMT_TYPE_*) */
175 BYTE starts
[4]; /* Offset of each of the 4 format sections, or 0 if none */
178 #define FmtGetPositive(x) (x->starts[0])
179 #define FmtGetNegative(x) (x->starts[1] ? x->starts[1] : x->starts[0])
180 #define FmtGetZero(x) (x->starts[2] ? x->starts[2] : x->starts[0])
181 #define FmtGetNull(x) (x->starts[3] ? x->starts[3] : x->starts[0])
187 #define FMT_FLAG_LT 0x1 /* Has '<' (lower case) */
188 #define FMT_FLAG_GT 0x2 /* Has '>' (upper case) */
189 #define FMT_FLAG_RTL 0x4 /* Has '!' (Copy right to left) */
191 typedef struct tagFMT_STRING_HEADER
193 BYTE flags
; /* LT, GT, RTL */
196 BYTE copy_chars
; /* Number of chars to be copied */
204 #define FMT_FLAG_PERCENT 0x1 /* Has '%' (Percentage) */
205 #define FMT_FLAG_EXPONENT 0x2 /* Has 'e' (Exponent/Scientific notation) */
206 #define FMT_FLAG_THOUSANDS 0x4 /* Has ',' (Standard use of the thousands separator) */
207 #define FMT_FLAG_BOOL 0x20 /* Boolean format */
209 typedef struct tagFMT_NUMBER_HEADER
211 BYTE flags
; /* PERCENT, EXPONENT, THOUSANDS, BOOL */
212 BYTE multiplier
; /* Multiplier, 100 for percentages */
213 BYTE divisor
; /* Divisor, 1000 if '%%' was used */
214 BYTE whole
; /* Number of digits before the decimal point */
215 BYTE fractional
; /* Number of digits after the decimal point */
221 typedef struct tagFMT_DATE_HEADER
231 * Format token values
233 #define FMT_GEN_COPY 0x00 /* \n, "lit" => 0,pos,len: Copy len chars from input+pos */
234 #define FMT_GEN_INLINE 0x01 /* => 1,len,[chars]: Copy len chars from token stream */
235 #define FMT_GEN_END 0x02 /* \0,; => 2: End of the tokenised format */
236 #define FMT_DATE_TIME_SEP 0x03 /* Time separator char */
237 #define FMT_DATE_DATE_SEP 0x04 /* Date separator char */
238 #define FMT_DATE_GENERAL 0x05 /* General format date */
239 #define FMT_DATE_QUARTER 0x06 /* Quarter of the year from 1-4 */
240 #define FMT_DATE_TIME_SYS 0x07 /* System long time format */
241 #define FMT_DATE_DAY 0x08 /* Day with no leading 0 */
242 #define FMT_DATE_DAY_0 0x09 /* Day with leading 0 */
243 #define FMT_DATE_DAY_SHORT 0x0A /* Short day name */
244 #define FMT_DATE_DAY_LONG 0x0B /* Long day name */
245 #define FMT_DATE_SHORT 0x0C /* Short date format */
246 #define FMT_DATE_LONG 0x0D /* Long date format */
247 #define FMT_DATE_MEDIUM 0x0E /* Medium date format */
248 #define FMT_DATE_DAY_WEEK 0x0F /* First day of the week */
249 #define FMT_DATE_WEEK_YEAR 0x10 /* First week of the year */
250 #define FMT_DATE_MON 0x11 /* Month with no leading 0 */
251 #define FMT_DATE_MON_0 0x12 /* Month with leading 0 */
252 #define FMT_DATE_MON_SHORT 0x13 /* Short month name */
253 #define FMT_DATE_MON_LONG 0x14 /* Long month name */
254 #define FMT_DATE_YEAR_DOY 0x15 /* Day of the year with no leading 0 */
255 #define FMT_DATE_YEAR_0 0x16 /* 2 digit year with leading 0 */
256 /* NOTE: token 0x17 is not defined, 'yyy' is not valid */
257 #define FMT_DATE_YEAR_LONG 0x18 /* 4 digit year */
258 #define FMT_DATE_MIN 0x1A /* Minutes with no leading 0 */
259 #define FMT_DATE_MIN_0 0x1B /* Minutes with leading 0 */
260 #define FMT_DATE_SEC 0x1C /* Seconds with no leading 0 */
261 #define FMT_DATE_SEC_0 0x1D /* Seconds with leading 0 */
262 #define FMT_DATE_HOUR 0x1E /* Hours with no leading 0 */
263 #define FMT_DATE_HOUR_0 0x1F /* Hours with leading 0 */
264 #define FMT_DATE_HOUR_12 0x20 /* Hours with no leading 0, 12 hour clock */
265 #define FMT_DATE_HOUR_12_0 0x21 /* Hours with leading 0, 12 hour clock */
266 #define FMT_DATE_TIME_UNK2 0x23 /* same as FMT_DATE_HOUR_0, for "short time" format */
267 /* FIXME: probably missing some here */
268 #define FMT_DATE_AMPM_SYS1 0x2E /* AM/PM as defined by system settings */
269 #define FMT_DATE_AMPM_UPPER 0x2F /* Upper-case AM or PM */
270 #define FMT_DATE_A_UPPER 0x30 /* Upper-case A or P */
271 #define FMT_DATE_AMPM_SYS2 0x31 /* AM/PM as defined by system settings */
272 #define FMT_DATE_AMPM_LOWER 0x32 /* Lower-case AM or PM */
273 #define FMT_DATE_A_LOWER 0x33 /* Lower-case A or P */
274 #define FMT_NUM_COPY_ZERO 0x34 /* Copy 1 digit or 0 if no digit */
275 #define FMT_NUM_COPY_SKIP 0x35 /* Copy 1 digit or skip if no digit */
276 #define FMT_NUM_DECIMAL 0x36 /* Decimal separator */
277 #define FMT_NUM_EXP_POS_U 0x37 /* Scientific notation, uppercase, + sign */
278 #define FMT_NUM_EXP_NEG_U 0x38 /* Scientific notation, uppercase, - sign */
279 #define FMT_NUM_EXP_POS_L 0x39 /* Scientific notation, lowercase, + sign */
280 #define FMT_NUM_EXP_NEG_L 0x3A /* Scientific notation, lowercase, - sign */
281 #define FMT_NUM_CURRENCY 0x3B /* Currency symbol */
282 #define FMT_NUM_TRUE_FALSE 0x3D /* Convert to "True" or "False" */
283 #define FMT_NUM_YES_NO 0x3E /* Convert to "Yes" or "No" */
284 #define FMT_NUM_ON_OFF 0x3F /* Convert to "On" or "Off" */
285 #define FMT_STR_COPY_SPACE 0x40 /* Copy len chars with space if no char */
286 #define FMT_STR_COPY_SKIP 0x41 /* Copy len chars or skip if no char */
288 #define FMT_WINE_HOURS_12 0x81 /* Hours using 12 hour clock */
290 /* Named Formats and their tokenised values */
291 static const WCHAR szGeneralDate
[] = { 'G','e','n','e','r','a','l',' ','D','a','t','e','\0' };
292 static const BYTE fmtGeneralDate
[0x0a] =
294 0x0a,FMT_TYPE_DATE
,sizeof(FMT_SHORT_HEADER
),
296 FMT_DATE_GENERAL
,FMT_GEN_END
299 static const WCHAR szShortDate
[] = { 'S','h','o','r','t',' ','D','a','t','e','\0' };
300 static const BYTE fmtShortDate
[0x0a] =
302 0x0a,FMT_TYPE_DATE
,sizeof(FMT_SHORT_HEADER
),
304 FMT_DATE_SHORT
,FMT_GEN_END
307 static const WCHAR szMediumDate
[] = { 'M','e','d','i','u','m',' ','D','a','t','e','\0' };
308 static const BYTE fmtMediumDate
[0x0a] =
310 0x0a,FMT_TYPE_DATE
,sizeof(FMT_SHORT_HEADER
),
312 FMT_DATE_MEDIUM
,FMT_GEN_END
315 static const WCHAR szLongDate
[] = { 'L','o','n','g',' ','D','a','t','e','\0' };
316 static const BYTE fmtLongDate
[0x0a] =
318 0x0a,FMT_TYPE_DATE
,sizeof(FMT_SHORT_HEADER
),
320 FMT_DATE_LONG
,FMT_GEN_END
323 static const WCHAR szShortTime
[] = { 'S','h','o','r','t',' ','T','i','m','e','\0' };
324 static const BYTE fmtShortTime
[0x0c] =
326 0x0c,FMT_TYPE_DATE
,sizeof(FMT_SHORT_HEADER
),
328 FMT_DATE_TIME_UNK2
,FMT_DATE_TIME_SEP
,FMT_DATE_MIN_0
,FMT_GEN_END
331 static const WCHAR szMediumTime
[] = { 'M','e','d','i','u','m',' ','T','i','m','e','\0' };
332 static const BYTE fmtMediumTime
[0x11] =
334 0x11,FMT_TYPE_DATE
,sizeof(FMT_SHORT_HEADER
),
336 FMT_DATE_HOUR_12_0
,FMT_DATE_TIME_SEP
,FMT_DATE_MIN_0
,
337 FMT_GEN_INLINE
,0x01,' ','\0',FMT_DATE_AMPM_SYS1
,FMT_GEN_END
340 static const WCHAR szLongTime
[] = { 'L','o','n','g',' ','T','i','m','e','\0' };
341 static const BYTE fmtLongTime
[0x0d] =
343 0x0a,FMT_TYPE_DATE
,sizeof(FMT_SHORT_HEADER
),
345 FMT_DATE_TIME_SYS
,FMT_GEN_END
348 static const WCHAR szTrueFalse
[] = { 'T','r','u','e','/','F','a','l','s','e','\0' };
349 static const BYTE fmtTrueFalse
[0x0d] =
351 0x0d,FMT_TYPE_NUMBER
,sizeof(FMT_HEADER
),0x0,0x0,0x0,
352 FMT_FLAG_BOOL
,0x0,0x0,0x0,0x0,
353 FMT_NUM_TRUE_FALSE
,FMT_GEN_END
356 static const WCHAR szYesNo
[] = { 'Y','e','s','/','N','o','\0' };
357 static const BYTE fmtYesNo
[0x0d] =
359 0x0d,FMT_TYPE_NUMBER
,sizeof(FMT_HEADER
),0x0,0x0,0x0,
360 FMT_FLAG_BOOL
,0x0,0x0,0x0,0x0,
361 FMT_NUM_YES_NO
,FMT_GEN_END
364 static const WCHAR szOnOff
[] = { 'O','n','/','O','f','f','\0' };
365 static const BYTE fmtOnOff
[0x0d] =
367 0x0d,FMT_TYPE_NUMBER
,sizeof(FMT_HEADER
),0x0,0x0,0x0,
368 FMT_FLAG_BOOL
,0x0,0x0,0x0,0x0,
369 FMT_NUM_ON_OFF
,FMT_GEN_END
372 static const WCHAR szGeneralNumber
[] = { 'G','e','n','e','r','a','l',' ','N','u','m','b','e','r','\0' };
373 static const BYTE fmtGeneralNumber
[sizeof(FMT_HEADER
)] =
375 sizeof(FMT_HEADER
),FMT_TYPE_GENERAL
,sizeof(FMT_HEADER
),0x0,0x0,0x0
378 static const WCHAR szCurrency
[] = { 'C','u','r','r','e','n','c','y','\0' };
379 static const BYTE fmtCurrency
[0x26] =
381 0x26,FMT_TYPE_NUMBER
,sizeof(FMT_HEADER
),0x12,0x0,0x0,
382 /* Positive numbers */
383 FMT_FLAG_THOUSANDS
,0xcc,0x0,0x1,0x2,
384 FMT_NUM_CURRENCY
,FMT_NUM_COPY_ZERO
,0x1,FMT_NUM_DECIMAL
,FMT_NUM_COPY_ZERO
,0x2,
386 /* Negative numbers */
387 FMT_FLAG_THOUSANDS
,0xcc,0x0,0x1,0x2,
388 FMT_GEN_INLINE
,0x1,'(','\0',FMT_NUM_CURRENCY
,FMT_NUM_COPY_ZERO
,0x1,
389 FMT_NUM_DECIMAL
,FMT_NUM_COPY_ZERO
,0x2,FMT_GEN_INLINE
,0x1,')','\0',
393 static const WCHAR szFixed
[] = { 'F','i','x','e','d','\0' };
394 static const BYTE fmtFixed
[0x11] =
396 0x11,FMT_TYPE_NUMBER
,sizeof(FMT_HEADER
),0x0,0x0,0x0,
398 FMT_NUM_COPY_ZERO
,0x1,FMT_NUM_DECIMAL
,FMT_NUM_COPY_ZERO
,0x2,FMT_GEN_END
401 static const WCHAR szStandard
[] = { 'S','t','a','n','d','a','r','d','\0' };
402 static const BYTE fmtStandard
[0x11] =
404 0x11,FMT_TYPE_NUMBER
,sizeof(FMT_HEADER
),0x0,0x0,0x0,
405 FMT_FLAG_THOUSANDS
,0x0,0x0,0x1,0x2,
406 FMT_NUM_COPY_ZERO
,0x1,FMT_NUM_DECIMAL
,FMT_NUM_COPY_ZERO
,0x2,FMT_GEN_END
409 static const WCHAR szPercent
[] = { 'P','e','r','c','e','n','t','\0' };
410 static const BYTE fmtPercent
[0x15] =
412 0x15,FMT_TYPE_NUMBER
,sizeof(FMT_HEADER
),0x0,0x0,0x0,
413 FMT_FLAG_PERCENT
,0x1,0x0,0x1,0x2,
414 FMT_NUM_COPY_ZERO
,0x1,FMT_NUM_DECIMAL
,FMT_NUM_COPY_ZERO
,0x2,
415 FMT_GEN_INLINE
,0x1,'%','\0',FMT_GEN_END
418 static const WCHAR szScientific
[] = { 'S','c','i','e','n','t','i','f','i','c','\0' };
419 static const BYTE fmtScientific
[0x13] =
421 0x13,FMT_TYPE_NUMBER
,sizeof(FMT_HEADER
),0x0,0x0,0x0,
422 FMT_FLAG_EXPONENT
,0x0,0x0,0x1,0x2,
423 FMT_NUM_COPY_ZERO
,0x1,FMT_NUM_DECIMAL
,FMT_NUM_COPY_ZERO
,0x2,FMT_NUM_EXP_POS_U
,0x2,FMT_GEN_END
426 typedef struct tagNAMED_FORMAT
432 /* Format name to tokenised format. Must be kept sorted by name */
433 static const NAMED_FORMAT VARIANT_NamedFormats
[] =
435 { szCurrency
, fmtCurrency
},
436 { szFixed
, fmtFixed
},
437 { szGeneralDate
, fmtGeneralDate
},
438 { szGeneralNumber
, fmtGeneralNumber
},
439 { szLongDate
, fmtLongDate
},
440 { szLongTime
, fmtLongTime
},
441 { szMediumDate
, fmtMediumDate
},
442 { szMediumTime
, fmtMediumTime
},
443 { szOnOff
, fmtOnOff
},
444 { szPercent
, fmtPercent
},
445 { szScientific
, fmtScientific
},
446 { szShortDate
, fmtShortDate
},
447 { szShortTime
, fmtShortTime
},
448 { szStandard
, fmtStandard
},
449 { szTrueFalse
, fmtTrueFalse
},
450 { szYesNo
, fmtYesNo
}
452 typedef const NAMED_FORMAT
*LPCNAMED_FORMAT
;
454 static int FormatCompareFn(const void *l
, const void *r
)
456 return strcmpiW(((LPCNAMED_FORMAT
)l
)->name
, ((LPCNAMED_FORMAT
)r
)->name
);
459 static inline const BYTE
*VARIANT_GetNamedFormat(LPCWSTR lpszFormat
)
464 key
.name
= lpszFormat
;
465 fmt
= bsearch(&key
, VARIANT_NamedFormats
,
466 sizeof(VARIANT_NamedFormats
)/sizeof(NAMED_FORMAT
),
467 sizeof(NAMED_FORMAT
), FormatCompareFn
);
468 return fmt
? fmt
->format
: NULL
;
471 /* Return an error if the token for the value will not fit in the destination */
472 #define NEED_SPACE(x) if (cbTok < (int)(x)) return TYPE_E_BUFFERTOOSMALL; cbTok -= (x)
474 /* Non-zero if the format is unknown or a given type */
475 #define COULD_BE(typ) ((!fmt_number && header->type==FMT_TYPE_UNKNOWN)||header->type==typ)
477 /* State during tokenising */
478 #define FMT_STATE_OPEN_COPY 0x1 /* Last token written was a copy */
479 #define FMT_STATE_WROTE_DECIMAL 0x2 /* Already wrote a decimal separator */
480 #define FMT_STATE_SEEN_HOURS 0x4 /* See the hh specifier */
481 #define FMT_STATE_WROTE_MINUTES 0x8 /* Wrote minutes */
483 /**********************************************************************
484 * VarTokenizeFormatString [OLEAUT32.140]
486 * Convert a format string into tokenised form.
489 * lpszFormat [I] Format string to tokenise
490 * rgbTok [O] Destination for tokenised format
491 * cbTok [I] Size of rgbTok in bytes
492 * nFirstDay [I] First day of the week (1-7, or 0 for current system default)
493 * nFirstWeek [I] How to treat the first week (see notes)
494 * lcid [I] Locale Id of the format string
495 * pcbActual [O] If non-NULL, filled with the first token generated
498 * Success: S_OK. rgbTok contains the tokenised format.
499 * Failure: E_INVALIDARG, if any argument is invalid.
500 * TYPE_E_BUFFERTOOSMALL, if rgbTok is not large enough.
503 * Valid values for the nFirstWeek parameter are:
506 *| 0 Use the current system default
507 *| 1 The first week is that containing Jan 1
508 *| 2 Four or more days of the first week are in the current year
509 *| 3 The first week is 7 days long
510 * See Variant-Formats(), VarFormatFromTokens().
512 HRESULT WINAPI
VarTokenizeFormatString(LPOLESTR lpszFormat
, LPBYTE rgbTok
,
513 int cbTok
, int nFirstDay
, int nFirstWeek
,
514 LCID lcid
, int *pcbActual
)
516 /* Note: none of these strings should be NUL terminated */
517 static const WCHAR szTTTTT
[] = { 't','t','t','t','t' };
518 static const WCHAR szAMPM
[] = { 'A','M','P','M' };
519 static const WCHAR szampm
[] = { 'a','m','p','m' };
520 static const WCHAR szAMSlashPM
[] = { 'A','M','/','P','M' };
521 static const WCHAR szamSlashpm
[] = { 'a','m','/','p','m' };
522 const BYTE
*namedFmt
;
523 FMT_HEADER
*header
= (FMT_HEADER
*)rgbTok
;
524 FMT_STRING_HEADER
*str_header
= (FMT_STRING_HEADER
*)(rgbTok
+ sizeof(FMT_HEADER
));
525 FMT_NUMBER_HEADER
*num_header
= (FMT_NUMBER_HEADER
*)str_header
;
526 BYTE
* pOut
= rgbTok
+ sizeof(FMT_HEADER
) + sizeof(FMT_STRING_HEADER
);
527 BYTE
* pLastHours
= NULL
;
530 LPCWSTR pFormat
= lpszFormat
;
532 TRACE("(%s,%p,%d,%d,%d,0x%08x,%p)\n", debugstr_w(lpszFormat
), rgbTok
, cbTok
,
533 nFirstDay
, nFirstWeek
, lcid
, pcbActual
);
536 nFirstDay
< 0 || nFirstDay
> 7 || nFirstWeek
< 0 || nFirstWeek
> 3)
539 if (!lpszFormat
|| !*lpszFormat
)
541 /* An empty string means 'general format' */
542 NEED_SPACE(sizeof(BYTE
));
543 *rgbTok
= FMT_TO_STRING
;
545 *pcbActual
= FMT_TO_STRING
;
550 cbTok
= 255; /* Ensure we error instead of wrapping */
553 namedFmt
= VARIANT_GetNamedFormat(lpszFormat
);
556 NEED_SPACE(namedFmt
[0]);
557 memcpy(rgbTok
, namedFmt
, namedFmt
[0]);
558 TRACE("Using pre-tokenised named format %s\n", debugstr_w(lpszFormat
));
559 /* FIXME: pcbActual */
564 NEED_SPACE(sizeof(FMT_HEADER
) + sizeof(FMT_STRING_HEADER
));
565 memset(header
, 0, sizeof(FMT_HEADER
));
566 memset(str_header
, 0, sizeof(FMT_STRING_HEADER
));
568 header
->starts
[fmt_number
] = sizeof(FMT_HEADER
);
578 while (*pFormat
== ';')
581 if (++fmt_number
> 3)
582 return E_INVALIDARG
; /* too many formats */
587 TRACE("New header\n");
588 NEED_SPACE(sizeof(BYTE
) + sizeof(FMT_STRING_HEADER
));
589 *pOut
++ = FMT_GEN_END
;
591 header
->starts
[fmt_number
] = pOut
- rgbTok
;
592 str_header
= (FMT_STRING_HEADER
*)pOut
;
593 num_header
= (FMT_NUMBER_HEADER
*)pOut
;
594 memset(str_header
, 0, sizeof(FMT_STRING_HEADER
));
595 pOut
+= sizeof(FMT_STRING_HEADER
);
600 else if (*pFormat
== '\\')
602 /* Escaped character */
605 NEED_SPACE(3 * sizeof(BYTE
));
607 *pOut
++ = FMT_GEN_COPY
;
608 *pOut
++ = pFormat
- lpszFormat
;
610 fmt_state
|= FMT_STATE_OPEN_COPY
;
614 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
617 else if (*pFormat
== '"')
620 * Note: Native encodes "" as a copy of length zero. That's just dumb, so
621 * here we avoid encoding anything in this case.
625 else if (pFormat
[1] == '"')
631 LPCWSTR start
= ++pFormat
;
632 while (*pFormat
&& *pFormat
!= '"')
634 NEED_SPACE(3 * sizeof(BYTE
));
635 *pOut
++ = FMT_GEN_COPY
;
636 *pOut
++ = start
- lpszFormat
;
637 *pOut
++ = pFormat
- start
;
640 TRACE("Quoted string pos %d, len %d\n", pOut
[-2], pOut
[-1]);
642 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
648 else if (*pFormat
== '0' && COULD_BE(FMT_TYPE_NUMBER
))
650 /* Number formats: Digit from number or '0' if no digits
651 * Other formats: Literal
652 * Types the format if found
654 header
->type
= FMT_TYPE_NUMBER
;
655 NEED_SPACE(2 * sizeof(BYTE
));
656 *pOut
++ = FMT_NUM_COPY_ZERO
;
658 while (*pFormat
== '0')
663 if (fmt_state
& FMT_STATE_WROTE_DECIMAL
)
664 num_header
->fractional
+= *pOut
;
666 num_header
->whole
+= *pOut
;
667 TRACE("%d 0's\n", *pOut
);
669 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
671 else if (*pFormat
== '#' && COULD_BE(FMT_TYPE_NUMBER
))
673 /* Number formats: Digit from number or blank if no digits
674 * Other formats: Literal
675 * Types the format if found
677 header
->type
= FMT_TYPE_NUMBER
;
678 NEED_SPACE(2 * sizeof(BYTE
));
679 *pOut
++ = FMT_NUM_COPY_SKIP
;
681 while (*pFormat
== '#')
686 if (fmt_state
& FMT_STATE_WROTE_DECIMAL
)
687 num_header
->fractional
+= *pOut
;
689 num_header
->whole
+= *pOut
;
690 TRACE("%d #'s\n", *pOut
);
692 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
694 else if (*pFormat
== '.' && COULD_BE(FMT_TYPE_NUMBER
) &&
695 !(fmt_state
& FMT_STATE_WROTE_DECIMAL
))
697 /* Number formats: Decimal separator when 1st seen, literal thereafter
698 * Other formats: Literal
699 * Types the format if found
701 header
->type
= FMT_TYPE_NUMBER
;
702 NEED_SPACE(sizeof(BYTE
));
703 *pOut
++ = FMT_NUM_DECIMAL
;
704 fmt_state
|= FMT_STATE_WROTE_DECIMAL
;
705 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
707 TRACE("decimal sep\n");
709 else if ((*pFormat
== 'e' || *pFormat
== 'E') && (pFormat
[1] == '-' ||
710 pFormat
[1] == '+') && header
->type
== FMT_TYPE_NUMBER
)
712 /* Number formats: Exponent specifier
713 * Other formats: Literal
715 num_header
->flags
|= FMT_FLAG_EXPONENT
;
716 NEED_SPACE(2 * sizeof(BYTE
));
717 if (*pFormat
== 'e') {
718 if (pFormat
[1] == '+')
719 *pOut
= FMT_NUM_EXP_POS_L
;
721 *pOut
= FMT_NUM_EXP_NEG_L
;
723 if (pFormat
[1] == '+')
724 *pOut
= FMT_NUM_EXP_POS_U
;
726 *pOut
= FMT_NUM_EXP_NEG_U
;
730 while (*pFormat
== '0')
738 /* FIXME: %% => Divide by 1000 */
739 else if (*pFormat
== ',' && header
->type
== FMT_TYPE_NUMBER
)
741 /* Number formats: Use the thousands separator
742 * Other formats: Literal
744 num_header
->flags
|= FMT_FLAG_THOUSANDS
;
746 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
747 TRACE("thousands sep\n");
753 else if (*pFormat
== '/' && COULD_BE(FMT_TYPE_DATE
))
755 /* Date formats: Date separator
756 * Other formats: Literal
757 * Types the format if found
759 header
->type
= FMT_TYPE_DATE
;
760 NEED_SPACE(sizeof(BYTE
));
761 *pOut
++ = FMT_DATE_DATE_SEP
;
763 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
766 else if (*pFormat
== ':' && COULD_BE(FMT_TYPE_DATE
))
768 /* Date formats: Time separator
769 * Other formats: Literal
770 * Types the format if found
772 header
->type
= FMT_TYPE_DATE
;
773 NEED_SPACE(sizeof(BYTE
));
774 *pOut
++ = FMT_DATE_TIME_SEP
;
776 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
779 else if ((*pFormat
== 'a' || *pFormat
== 'A') &&
780 !strncmpiW(pFormat
, szAMPM
, sizeof(szAMPM
)/sizeof(WCHAR
)))
782 /* Date formats: System AM/PM designation
783 * Other formats: Literal
784 * Types the format if found
786 header
->type
= FMT_TYPE_DATE
;
787 NEED_SPACE(sizeof(BYTE
));
788 pFormat
+= sizeof(szAMPM
)/sizeof(WCHAR
);
789 if (!strncmpW(pFormat
, szampm
, sizeof(szampm
)/sizeof(WCHAR
)))
790 *pOut
++ = FMT_DATE_AMPM_SYS2
;
792 *pOut
++ = FMT_DATE_AMPM_SYS1
;
794 *pLastHours
= *pLastHours
+ 2;
797 else if (*pFormat
== 'a' && pFormat
[1] == '/' &&
798 (pFormat
[2] == 'p' || pFormat
[2] == 'P'))
800 /* Date formats: lowercase a or p designation
801 * Other formats: Literal
802 * Types the format if found
804 header
->type
= FMT_TYPE_DATE
;
805 NEED_SPACE(sizeof(BYTE
));
807 *pOut
++ = FMT_DATE_A_LOWER
;
809 *pLastHours
= *pLastHours
+ 2;
812 else if (*pFormat
== 'A' && pFormat
[1] == '/' &&
813 (pFormat
[2] == 'p' || pFormat
[2] == 'P'))
815 /* Date formats: Uppercase a or p designation
816 * Other formats: Literal
817 * Types the format if found
819 header
->type
= FMT_TYPE_DATE
;
820 NEED_SPACE(sizeof(BYTE
));
822 *pOut
++ = FMT_DATE_A_UPPER
;
824 *pLastHours
= *pLastHours
+ 2;
827 else if (*pFormat
== 'a' &&
828 !strncmpW(pFormat
, szamSlashpm
, sizeof(szamSlashpm
)/sizeof(WCHAR
)))
830 /* Date formats: lowercase AM or PM designation
831 * Other formats: Literal
832 * Types the format if found
834 header
->type
= FMT_TYPE_DATE
;
835 NEED_SPACE(sizeof(BYTE
));
836 pFormat
+= sizeof(szamSlashpm
)/sizeof(WCHAR
);
837 *pOut
++ = FMT_DATE_AMPM_LOWER
;
839 *pLastHours
= *pLastHours
+ 2;
842 else if (*pFormat
== 'A' &&
843 !strncmpW(pFormat
, szAMSlashPM
, sizeof(szAMSlashPM
)/sizeof(WCHAR
)))
845 /* Date formats: Uppercase AM or PM designation
846 * Other formats: Literal
847 * Types the format if found
849 header
->type
= FMT_TYPE_DATE
;
850 NEED_SPACE(sizeof(BYTE
));
851 pFormat
+= sizeof(szAMSlashPM
)/sizeof(WCHAR
);
852 *pOut
++ = FMT_DATE_AMPM_UPPER
;
855 else if ((*pFormat
== 'c' || *pFormat
== 'C') && COULD_BE(FMT_TYPE_DATE
))
857 /* Date formats: General date format
858 * Other formats: Literal
859 * Types the format if found
861 header
->type
= FMT_TYPE_DATE
;
862 NEED_SPACE(sizeof(BYTE
));
863 pFormat
+= sizeof(szAMSlashPM
)/sizeof(WCHAR
);
864 *pOut
++ = FMT_DATE_GENERAL
;
867 else if ((*pFormat
== 'd' || *pFormat
== 'D') && COULD_BE(FMT_TYPE_DATE
))
869 /* Date formats: Day specifier
870 * Other formats: Literal
871 * Types the format if found
874 header
->type
= FMT_TYPE_DATE
;
875 while ((*pFormat
== 'd' || *pFormat
== 'D') && count
< 6)
880 NEED_SPACE(sizeof(BYTE
));
881 *pOut
++ = FMT_DATE_DAY
+ count
;
882 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
883 /* When we find the days token, reset the seen hours state so that
884 * 'mm' is again written as month when encountered.
886 fmt_state
&= ~FMT_STATE_SEEN_HOURS
;
887 TRACE("%d d's\n", count
+ 1);
889 else if ((*pFormat
== 'h' || *pFormat
== 'H') && COULD_BE(FMT_TYPE_DATE
))
891 /* Date formats: Hour specifier
892 * Other formats: Literal
893 * Types the format if found
895 header
->type
= FMT_TYPE_DATE
;
896 NEED_SPACE(sizeof(BYTE
));
898 /* Record the position of the hours specifier - if we encounter
899 * an am/pm specifier we will change the hours from 24 to 12.
902 if (*pFormat
== 'h' || *pFormat
== 'H')
905 *pOut
++ = FMT_DATE_HOUR_0
;
910 *pOut
++ = FMT_DATE_HOUR
;
913 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
914 /* Note that now we have seen an hours token, the next occurrence of
915 * 'mm' indicates minutes, not months.
917 fmt_state
|= FMT_STATE_SEEN_HOURS
;
919 else if ((*pFormat
== 'm' || *pFormat
== 'M') && COULD_BE(FMT_TYPE_DATE
))
921 /* Date formats: Month specifier (or Minute specifier, after hour specifier)
922 * Other formats: Literal
923 * Types the format if found
926 header
->type
= FMT_TYPE_DATE
;
927 while ((*pFormat
== 'm' || *pFormat
== 'M') && count
< 4)
932 NEED_SPACE(sizeof(BYTE
));
933 if (count
<= 1 && fmt_state
& FMT_STATE_SEEN_HOURS
&&
934 !(fmt_state
& FMT_STATE_WROTE_MINUTES
))
936 /* We have seen an hours specifier and not yet written a minutes
937 * specifier. Write this as minutes and thereafter as months.
939 *pOut
++ = count
== 1 ? FMT_DATE_MIN_0
: FMT_DATE_MIN
;
940 fmt_state
|= FMT_STATE_WROTE_MINUTES
; /* Hereafter write months */
943 *pOut
++ = FMT_DATE_MON
+ count
; /* Months */
944 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
945 TRACE("%d m's\n", count
+ 1);
947 else if ((*pFormat
== 'n' || *pFormat
== 'N') && COULD_BE(FMT_TYPE_DATE
))
949 /* Date formats: Minute specifier
950 * Other formats: Literal
951 * Types the format if found
953 header
->type
= FMT_TYPE_DATE
;
954 NEED_SPACE(sizeof(BYTE
));
956 if (*pFormat
== 'n' || *pFormat
== 'N')
959 *pOut
++ = FMT_DATE_MIN_0
;
964 *pOut
++ = FMT_DATE_MIN
;
967 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
969 else if ((*pFormat
== 'q' || *pFormat
== 'Q') && COULD_BE(FMT_TYPE_DATE
))
971 /* Date formats: Quarter specifier
972 * Other formats: Literal
973 * Types the format if found
975 header
->type
= FMT_TYPE_DATE
;
976 NEED_SPACE(sizeof(BYTE
));
977 *pOut
++ = FMT_DATE_QUARTER
;
979 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
982 else if ((*pFormat
== 's' || *pFormat
== 'S') && COULD_BE(FMT_TYPE_DATE
))
984 /* Date formats: Second specifier
985 * Other formats: Literal
986 * Types the format if found
988 header
->type
= FMT_TYPE_DATE
;
989 NEED_SPACE(sizeof(BYTE
));
991 if (*pFormat
== 's' || *pFormat
== 'S')
994 *pOut
++ = FMT_DATE_SEC_0
;
999 *pOut
++ = FMT_DATE_SEC
;
1002 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
1004 else if ((*pFormat
== 't' || *pFormat
== 'T') &&
1005 !strncmpiW(pFormat
, szTTTTT
, sizeof(szTTTTT
)/sizeof(WCHAR
)))
1007 /* Date formats: System time specifier
1008 * Other formats: Literal
1009 * Types the format if found
1011 header
->type
= FMT_TYPE_DATE
;
1012 pFormat
+= sizeof(szTTTTT
)/sizeof(WCHAR
);
1013 NEED_SPACE(sizeof(BYTE
));
1014 *pOut
++ = FMT_DATE_TIME_SYS
;
1015 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
1017 else if ((*pFormat
== 'w' || *pFormat
== 'W') && COULD_BE(FMT_TYPE_DATE
))
1019 /* Date formats: Week of the year/Day of the week
1020 * Other formats: Literal
1021 * Types the format if found
1023 header
->type
= FMT_TYPE_DATE
;
1025 if (*pFormat
== 'w' || *pFormat
== 'W')
1027 NEED_SPACE(3 * sizeof(BYTE
));
1029 *pOut
++ = FMT_DATE_WEEK_YEAR
;
1030 *pOut
++ = nFirstDay
;
1031 *pOut
++ = nFirstWeek
;
1036 NEED_SPACE(2 * sizeof(BYTE
));
1037 *pOut
++ = FMT_DATE_DAY_WEEK
;
1038 *pOut
++ = nFirstDay
;
1042 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
1044 else if ((*pFormat
== 'y' || *pFormat
== 'Y') && COULD_BE(FMT_TYPE_DATE
))
1046 /* Date formats: Day of year/Year specifier
1047 * Other formats: Literal
1048 * Types the format if found
1051 header
->type
= FMT_TYPE_DATE
;
1052 while ((*pFormat
== 'y' || *pFormat
== 'Y') && count
< 4)
1059 count
--; /* 'yyy' has no meaning, despite what MSDN says */
1062 NEED_SPACE(sizeof(BYTE
));
1063 *pOut
++ = FMT_DATE_YEAR_DOY
+ count
;
1064 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
1065 TRACE("%d y's\n", count
+ 1);
1071 else if (*pFormat
== '@' && COULD_BE(FMT_TYPE_STRING
))
1073 /* String formats: Character from string or space if no char
1074 * Other formats: Literal
1075 * Types the format if found
1077 header
->type
= FMT_TYPE_STRING
;
1078 NEED_SPACE(2 * sizeof(BYTE
));
1079 *pOut
++ = FMT_STR_COPY_SPACE
;
1081 while (*pFormat
== '@')
1084 str_header
->copy_chars
++;
1087 TRACE("%d @'s\n", *pOut
);
1089 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
1091 else if (*pFormat
== '&' && COULD_BE(FMT_TYPE_STRING
))
1093 /* String formats: Character from string or skip if no char
1094 * Other formats: Literal
1095 * Types the format if found
1097 header
->type
= FMT_TYPE_STRING
;
1098 NEED_SPACE(2 * sizeof(BYTE
));
1099 *pOut
++ = FMT_STR_COPY_SKIP
;
1101 while (*pFormat
== '&')
1104 str_header
->copy_chars
++;
1107 TRACE("%d &'s\n", *pOut
);
1109 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
1111 else if ((*pFormat
== '<' || *pFormat
== '>') && COULD_BE(FMT_TYPE_STRING
))
1113 /* String formats: Use upper/lower case
1114 * Other formats: Literal
1115 * Types the format if found
1117 header
->type
= FMT_TYPE_STRING
;
1118 if (*pFormat
== '<')
1119 str_header
->flags
|= FMT_FLAG_LT
;
1121 str_header
->flags
|= FMT_FLAG_GT
;
1122 TRACE("to %s case\n", *pFormat
== '<' ? "lower" : "upper");
1124 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
1126 else if (*pFormat
== '!' && COULD_BE(FMT_TYPE_STRING
))
1128 /* String formats: Copy right to left
1129 * Other formats: Literal
1130 * Types the format if found
1132 header
->type
= FMT_TYPE_STRING
;
1133 str_header
->flags
|= FMT_FLAG_RTL
;
1135 fmt_state
&= ~FMT_STATE_OPEN_COPY
;
1136 TRACE("copy right-to-left\n");
1142 /* FIXME: [ seems to be ignored */
1145 if (*pFormat
== '%' && header
->type
== FMT_TYPE_NUMBER
)
1147 /* Number formats: Percentage indicator, also a literal
1148 * Other formats: Literal
1149 * Doesn't type the format
1151 num_header
->flags
|= FMT_FLAG_PERCENT
;
1154 if (fmt_state
& FMT_STATE_OPEN_COPY
)
1156 pOut
[-1] = pOut
[-1] + 1; /* Increase the length of the open copy */
1157 TRACE("extend copy (char '%c'), length now %d\n", *pFormat
, pOut
[-1]);
1161 /* Create a new open copy */
1162 TRACE("New copy (char '%c')\n", *pFormat
);
1163 NEED_SPACE(3 * sizeof(BYTE
));
1164 *pOut
++ = FMT_GEN_COPY
;
1165 *pOut
++ = pFormat
- lpszFormat
;
1167 fmt_state
|= FMT_STATE_OPEN_COPY
;
1173 *pOut
++ = FMT_GEN_END
;
1175 header
->size
= pOut
- rgbTok
;
1177 *pcbActual
= header
->size
;
1182 /* Number formatting state flags */
1183 #define NUM_WROTE_DEC 0x01 /* Written the decimal separator */
1184 #define NUM_WRITE_ON 0x02 /* Started to write the number */
1185 #define NUM_WROTE_SIGN 0x04 /* Written the negative sign */
1187 /* Format a variant using a number format */
1188 static HRESULT
VARIANT_FormatNumber(LPVARIANT pVarIn
, LPOLESTR lpszFormat
,
1189 LPBYTE rgbTok
, ULONG dwFlags
,
1190 BSTR
*pbstrOut
, LCID lcid
)
1192 BYTE rgbDig
[256], *prgbDig
;
1194 int have_int
, need_int
= 0, have_frac
, need_frac
, exponent
= 0, pad
= 0;
1195 WCHAR buff
[256], *pBuff
= buff
;
1196 WCHAR thousandSeparator
[32];
1197 VARIANT vString
, vBool
;
1199 FMT_HEADER
*header
= (FMT_HEADER
*)rgbTok
;
1200 FMT_NUMBER_HEADER
*numHeader
;
1201 const BYTE
* pToken
= NULL
;
1202 HRESULT hRes
= S_OK
;
1204 TRACE("(%s,%s,%p,0x%08x,%p,0x%08x)\n", debugstr_variant(pVarIn
), debugstr_w(lpszFormat
),
1205 rgbTok
, dwFlags
, pbstrOut
, lcid
);
1207 V_VT(&vString
) = VT_EMPTY
;
1208 V_VT(&vBool
) = VT_BOOL
;
1210 if (V_TYPE(pVarIn
) == VT_EMPTY
|| V_TYPE(pVarIn
) == VT_NULL
)
1212 have_int
= have_frac
= 0;
1213 numHeader
= (FMT_NUMBER_HEADER
*)(rgbTok
+ FmtGetNull(header
));
1214 V_BOOL(&vBool
) = VARIANT_FALSE
;
1218 /* Get a number string from pVarIn, and parse it */
1219 hRes
= VariantChangeTypeEx(&vString
, pVarIn
, LCID_US
, VARIANT_NOUSEROVERRIDE
, VT_BSTR
);
1223 np
.cDig
= sizeof(rgbDig
);
1224 np
.dwInFlags
= NUMPRS_STD
;
1225 hRes
= VarParseNumFromStr(V_BSTR(&vString
), LCID_US
, 0, &np
, rgbDig
);
1231 exponent
= np
.nPwr10
;
1233 /* Figure out which format to use */
1234 if (np
.dwOutFlags
& NUMPRS_NEG
)
1236 numHeader
= (FMT_NUMBER_HEADER
*)(rgbTok
+ FmtGetNegative(header
));
1237 V_BOOL(&vBool
) = VARIANT_TRUE
;
1239 else if (have_int
== 1 && !exponent
&& rgbDig
[0] == 0)
1241 numHeader
= (FMT_NUMBER_HEADER
*)(rgbTok
+ FmtGetZero(header
));
1242 V_BOOL(&vBool
) = VARIANT_FALSE
;
1246 numHeader
= (FMT_NUMBER_HEADER
*)(rgbTok
+ FmtGetPositive(header
));
1247 V_BOOL(&vBool
) = VARIANT_TRUE
;
1250 TRACE("num header: flags = 0x%x, mult=%d, div=%d, whole=%d, fract=%d\n",
1251 numHeader
->flags
, numHeader
->multiplier
, numHeader
->divisor
,
1252 numHeader
->whole
, numHeader
->fractional
);
1254 need_int
= numHeader
->whole
;
1255 need_frac
= numHeader
->fractional
;
1257 if (numHeader
->flags
& FMT_FLAG_PERCENT
&&
1258 !(have_int
== 1 && !exponent
&& rgbDig
[0] == 0))
1261 if (numHeader
->flags
& FMT_FLAG_EXPONENT
)
1263 /* Exponent format: length of the integral number part is fixed and
1264 specified by the format. */
1265 pad
= need_int
- have_int
;
1269 have_int
= need_int
;
1276 /* Convert the exponent */
1277 pad
= max(exponent
, -have_int
);
1285 if(exponent
< 0 && exponent
> (-256 + have_int
+ have_frac
))
1287 /* Remove exponent notation */
1288 memmove(rgbDig
- exponent
, rgbDig
, have_int
+ have_frac
);
1289 ZeroMemory(rgbDig
, -exponent
);
1290 have_frac
-= exponent
;
1295 /* Rounding the number */
1296 if (have_frac
> need_frac
)
1298 prgbDig
= &rgbDig
[have_int
+ need_frac
];
1299 have_frac
= need_frac
;
1302 while (prgbDig
-- > rgbDig
&& *prgbDig
== 9)
1304 if (prgbDig
< rgbDig
)
1306 /* We reached the first digit and that was also a 9 */
1308 if (numHeader
->flags
& FMT_FLAG_EXPONENT
)
1312 rgbDig
[have_int
+ need_frac
] = 0;
1322 /* We converted trailing digits to zeroes => have_frac has changed */
1323 while (have_frac
> 0 && rgbDig
[have_int
+ have_frac
- 1] == 0)
1326 TRACE("have_int=%d,need_int=%d,have_frac=%d,need_frac=%d,pad=%d,exp=%d\n",
1327 have_int
, need_int
, have_frac
, need_frac
, pad
, exponent
);
1330 if (numHeader
->flags
& FMT_FLAG_THOUSANDS
)
1332 if (!GetLocaleInfoW(lcid
, LOCALE_STHOUSAND
, thousandSeparator
,
1333 sizeof(thousandSeparator
)/sizeof(WCHAR
)))
1335 thousandSeparator
[0] = ',';
1336 thousandSeparator
[1] = 0;
1340 pToken
= (const BYTE
*)numHeader
+ sizeof(FMT_NUMBER_HEADER
);
1343 while (SUCCEEDED(hRes
) && *pToken
!= FMT_GEN_END
)
1345 WCHAR defaultChar
= '?';
1346 DWORD boolFlag
, localeValue
= 0;
1347 BOOL shouldAdvance
= TRUE
;
1349 if (pToken
- rgbTok
> header
->size
)
1351 ERR("Ran off the end of the format!\n");
1352 hRes
= E_INVALIDARG
;
1353 goto VARIANT_FormatNumber_Exit
;
1359 TRACE("copy %s\n", debugstr_wn(lpszFormat
+ pToken
[1], pToken
[2]));
1360 memcpy(pBuff
, lpszFormat
+ pToken
[1], pToken
[2] * sizeof(WCHAR
));
1365 case FMT_GEN_INLINE
:
1367 TRACE("copy %s\n", debugstr_a((LPCSTR
)pToken
));
1369 *pBuff
++ = *pToken
++;
1372 case FMT_NUM_YES_NO
:
1373 boolFlag
= VAR_BOOLYESNO
;
1374 goto VARIANT_FormatNumber_Bool
;
1376 case FMT_NUM_ON_OFF
:
1377 boolFlag
= VAR_BOOLONOFF
;
1378 goto VARIANT_FormatNumber_Bool
;
1380 case FMT_NUM_TRUE_FALSE
:
1381 boolFlag
= VAR_LOCALBOOL
;
1383 VARIANT_FormatNumber_Bool
:
1385 BSTR boolStr
= NULL
;
1387 if (pToken
[1] != FMT_GEN_END
)
1389 ERR("Boolean token not at end of format!\n");
1390 hRes
= E_INVALIDARG
;
1391 goto VARIANT_FormatNumber_Exit
;
1393 hRes
= VarBstrFromBool(V_BOOL(&vBool
), lcid
, boolFlag
, &boolStr
);
1394 if (SUCCEEDED(hRes
))
1396 strcpyW(pBuff
, boolStr
);
1397 SysFreeString(boolStr
);
1404 case FMT_NUM_DECIMAL
:
1405 if ((np
.dwOutFlags
& NUMPRS_NEG
) && !(dwState
& NUM_WROTE_SIGN
) && !header
->starts
[1])
1407 /* last chance for a negative sign in the .# case */
1408 TRACE("write negative sign\n");
1409 localeValue
= LOCALE_SNEGATIVESIGN
;
1411 dwState
|= NUM_WROTE_SIGN
;
1412 shouldAdvance
= FALSE
;
1415 TRACE("write decimal separator\n");
1416 localeValue
= LOCALE_SDECIMAL
;
1418 dwState
|= NUM_WROTE_DEC
;
1421 case FMT_NUM_CURRENCY
:
1422 TRACE("write currency symbol\n");
1423 localeValue
= LOCALE_SCURRENCY
;
1427 case FMT_NUM_EXP_POS_U
:
1428 case FMT_NUM_EXP_POS_L
:
1429 case FMT_NUM_EXP_NEG_U
:
1430 case FMT_NUM_EXP_NEG_L
:
1431 if (*pToken
== FMT_NUM_EXP_POS_L
|| *pToken
== FMT_NUM_EXP_NEG_L
)
1438 sprintfW(pBuff
, szPercentZeroStar_d
, pToken
[1], -exponent
);
1442 if (*pToken
== FMT_NUM_EXP_POS_L
|| *pToken
== FMT_NUM_EXP_POS_U
)
1444 sprintfW(pBuff
, szPercentZeroStar_d
, pToken
[1], exponent
);
1451 case FMT_NUM_COPY_ZERO
:
1452 dwState
|= NUM_WRITE_ON
;
1455 case FMT_NUM_COPY_SKIP
:
1456 TRACE("write %d %sdigits or %s\n", pToken
[1],
1457 dwState
& NUM_WROTE_DEC
? "fractional " : "",
1458 *pToken
== FMT_NUM_COPY_ZERO
? "0" : "skip");
1460 if (dwState
& NUM_WROTE_DEC
)
1464 if (!(numHeader
->flags
& FMT_FLAG_EXPONENT
) && exponent
< 0)
1466 /* Pad with 0 before writing the fractional digits */
1467 pad
= max(exponent
, -pToken
[1]);
1469 count
= min(have_frac
, pToken
[1] + pad
);
1470 for (i
= 0; i
> pad
; i
--)
1474 count
= min(have_frac
, pToken
[1]);
1476 pad
+= pToken
[1] - count
;
1479 *pBuff
++ = '0' + *prgbDig
++;
1480 if (*pToken
== FMT_NUM_COPY_ZERO
)
1482 for (; pad
> 0; pad
--)
1483 *pBuff
++ = '0'; /* Write zeros for missing trailing digits */
1488 int count
, count_max
, position
;
1490 if ((np
.dwOutFlags
& NUMPRS_NEG
) && !(dwState
& NUM_WROTE_SIGN
) && !header
->starts
[1])
1492 TRACE("write negative sign\n");
1493 localeValue
= LOCALE_SNEGATIVESIGN
;
1495 dwState
|= NUM_WROTE_SIGN
;
1496 shouldAdvance
= FALSE
;
1500 position
= have_int
+ pad
;
1501 if (dwState
& NUM_WRITE_ON
)
1502 position
= max(position
, need_int
);
1503 need_int
-= pToken
[1];
1504 count_max
= have_int
+ pad
- need_int
;
1507 if (dwState
& NUM_WRITE_ON
)
1509 count
= pToken
[1] - count_max
;
1510 TRACE("write %d leading zeros\n", count
);
1514 if ((numHeader
->flags
& FMT_FLAG_THOUSANDS
) &&
1515 position
> 1 && (--position
% 3) == 0)
1518 TRACE("write thousand separator\n");
1519 for (k
= 0; thousandSeparator
[k
]; k
++)
1520 *pBuff
++ = thousandSeparator
[k
];
1524 if (*pToken
== FMT_NUM_COPY_ZERO
|| have_int
> 1 ||
1525 (have_int
> 0 && *prgbDig
> 0))
1527 count
= min(count_max
, have_int
);
1530 TRACE("write %d whole number digits\n", count
);
1533 dwState
|= NUM_WRITE_ON
;
1534 *pBuff
++ = '0' + *prgbDig
++;
1535 if ((numHeader
->flags
& FMT_FLAG_THOUSANDS
) &&
1536 position
> 1 && (--position
% 3) == 0)
1539 TRACE("write thousand separator\n");
1540 for (k
= 0; thousandSeparator
[k
]; k
++)
1541 *pBuff
++ = thousandSeparator
[k
];
1545 count
= min(count_max
, pad
);
1547 TRACE("write %d whole trailing 0's\n", count
);
1551 if ((numHeader
->flags
& FMT_FLAG_THOUSANDS
) &&
1552 position
> 1 && (--position
% 3) == 0)
1555 TRACE("write thousand separator\n");
1556 for (k
= 0; thousandSeparator
[k
]; k
++)
1557 *pBuff
++ = thousandSeparator
[k
];
1565 ERR("Unknown token 0x%02x!\n", *pToken
);
1566 hRes
= E_INVALIDARG
;
1567 goto VARIANT_FormatNumber_Exit
;
1571 if (GetLocaleInfoW(lcid
, localeValue
, pBuff
,
1572 sizeof(buff
)/sizeof(WCHAR
)-(pBuff
-buff
)))
1574 TRACE("added %s\n", debugstr_w(pBuff
));
1580 TRACE("added %d '%c'\n", defaultChar
, defaultChar
);
1581 *pBuff
++ = defaultChar
;
1588 VARIANT_FormatNumber_Exit
:
1589 VariantClear(&vString
);
1591 TRACE("buff is %s\n", debugstr_w(buff
));
1592 if (SUCCEEDED(hRes
))
1594 *pbstrOut
= SysAllocString(buff
);
1596 hRes
= E_OUTOFMEMORY
;
1601 /* Format a variant using a date format */
1602 static HRESULT
VARIANT_FormatDate(LPVARIANT pVarIn
, LPOLESTR lpszFormat
,
1603 LPBYTE rgbTok
, ULONG dwFlags
,
1604 BSTR
*pbstrOut
, LCID lcid
)
1606 WCHAR buff
[256], *pBuff
= buff
;
1609 FMT_HEADER
*header
= (FMT_HEADER
*)rgbTok
;
1610 FMT_DATE_HEADER
*dateHeader
;
1611 const BYTE
* pToken
= NULL
;
1614 TRACE("(%s,%s,%p,0x%08x,%p,0x%08x)\n", debugstr_variant(pVarIn
),
1615 debugstr_w(lpszFormat
), rgbTok
, dwFlags
, pbstrOut
, lcid
);
1617 V_VT(&vDate
) = VT_EMPTY
;
1619 if (V_TYPE(pVarIn
) == VT_EMPTY
|| V_TYPE(pVarIn
) == VT_NULL
)
1621 dateHeader
= (FMT_DATE_HEADER
*)(rgbTok
+ FmtGetNegative(header
));
1626 USHORT usFlags
= dwFlags
& VARIANT_CALENDAR_HIJRI
? VAR_CALENDAR_HIJRI
: 0;
1628 hRes
= VariantChangeTypeEx(&vDate
, pVarIn
, LCID_US
, usFlags
, VT_DATE
);
1631 dateHeader
= (FMT_DATE_HEADER
*)(rgbTok
+ FmtGetPositive(header
));
1634 hRes
= VarUdateFromDate(V_DATE(&vDate
), 0 /* FIXME: flags? */, &udate
);
1637 pToken
= (const BYTE
*)dateHeader
+ sizeof(FMT_DATE_HEADER
);
1639 while (*pToken
!= FMT_GEN_END
)
1641 DWORD dwVal
= 0, localeValue
= 0, dwFmt
= 0;
1642 LPCWSTR szPrintFmt
= NULL
;
1643 WCHAR defaultChar
= '?';
1645 if (pToken
- rgbTok
> header
->size
)
1647 ERR("Ran off the end of the format!\n");
1648 hRes
= E_INVALIDARG
;
1649 goto VARIANT_FormatDate_Exit
;
1655 TRACE("copy %s\n", debugstr_wn(lpszFormat
+ pToken
[1], pToken
[2]));
1656 memcpy(pBuff
, lpszFormat
+ pToken
[1], pToken
[2] * sizeof(WCHAR
));
1661 case FMT_GEN_INLINE
:
1663 TRACE("copy %s\n", debugstr_a((LPCSTR
)pToken
));
1665 *pBuff
++ = *pToken
++;
1668 case FMT_DATE_TIME_SEP
:
1669 TRACE("time separator\n");
1670 localeValue
= LOCALE_STIME
;
1674 case FMT_DATE_DATE_SEP
:
1675 TRACE("date separator\n");
1676 localeValue
= LOCALE_SDATE
;
1680 case FMT_DATE_GENERAL
:
1684 hRes
= VarBstrFromDate(V_DATE(&vDate
), lcid
, 0, &date
);
1686 goto VARIANT_FormatDate_Exit
;
1689 *pBuff
++ = *pDate
++;
1690 SysFreeString(date
);
1694 case FMT_DATE_QUARTER
:
1695 if (udate
.st
.wMonth
<= 3)
1697 else if (udate
.st
.wMonth
<= 6)
1699 else if (udate
.st
.wMonth
<= 9)
1705 case FMT_DATE_TIME_SYS
:
1707 /* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
1710 hRes
= VarBstrFromDate(V_DATE(&vDate
), lcid
, VAR_TIMEVALUEONLY
, &date
);
1712 goto VARIANT_FormatDate_Exit
;
1715 *pBuff
++ = *pDate
++;
1716 SysFreeString(date
);
1721 szPrintFmt
= szPercent_d
;
1722 dwVal
= udate
.st
.wDay
;
1725 case FMT_DATE_DAY_0
:
1726 szPrintFmt
= szPercentZeroTwo_d
;
1727 dwVal
= udate
.st
.wDay
;
1730 case FMT_DATE_DAY_SHORT
:
1731 /* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
1732 TRACE("short day\n");
1733 localeValue
= LOCALE_SABBREVDAYNAME1
+ (udate
.st
.wDayOfWeek
+ 6)%7;
1737 case FMT_DATE_DAY_LONG
:
1738 /* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
1739 TRACE("long day\n");
1740 localeValue
= LOCALE_SDAYNAME1
+ (udate
.st
.wDayOfWeek
+ 6)%7;
1744 case FMT_DATE_SHORT
:
1745 /* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
1746 dwFmt
= LOCALE_SSHORTDATE
;
1750 /* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
1751 dwFmt
= LOCALE_SLONGDATE
;
1754 case FMT_DATE_MEDIUM
:
1755 FIXME("Medium date treated as long date\n");
1756 dwFmt
= LOCALE_SLONGDATE
;
1759 case FMT_DATE_DAY_WEEK
:
1760 szPrintFmt
= szPercent_d
;
1762 dwVal
= udate
.st
.wDayOfWeek
+ 2 - pToken
[1];
1765 GetLocaleInfoW(lcid
,LOCALE_RETURN_NUMBER
|LOCALE_IFIRSTDAYOFWEEK
,
1766 (LPWSTR
)&dwVal
, sizeof(dwVal
)/sizeof(WCHAR
));
1767 dwVal
= udate
.st
.wDayOfWeek
+ 1 - dwVal
;
1772 case FMT_DATE_WEEK_YEAR
:
1773 szPrintFmt
= szPercent_d
;
1774 dwVal
= udate
.wDayOfYear
/ 7 + 1;
1776 FIXME("Ignoring nFirstDay of %d, nFirstWeek of %d\n", pToken
[0], pToken
[1]);
1780 szPrintFmt
= szPercent_d
;
1781 dwVal
= udate
.st
.wMonth
;
1784 case FMT_DATE_MON_0
:
1785 szPrintFmt
= szPercentZeroTwo_d
;
1786 dwVal
= udate
.st
.wMonth
;
1789 case FMT_DATE_MON_SHORT
:
1790 /* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
1791 TRACE("short month\n");
1792 localeValue
= LOCALE_SABBREVMONTHNAME1
+ udate
.st
.wMonth
- 1;
1796 case FMT_DATE_MON_LONG
:
1797 /* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
1798 TRACE("long month\n");
1799 localeValue
= LOCALE_SMONTHNAME1
+ udate
.st
.wMonth
- 1;
1803 case FMT_DATE_YEAR_DOY
:
1804 szPrintFmt
= szPercent_d
;
1805 dwVal
= udate
.wDayOfYear
;
1808 case FMT_DATE_YEAR_0
:
1809 szPrintFmt
= szPercentZeroTwo_d
;
1810 dwVal
= udate
.st
.wYear
% 100;
1813 case FMT_DATE_YEAR_LONG
:
1814 szPrintFmt
= szPercent_d
;
1815 dwVal
= udate
.st
.wYear
;
1819 szPrintFmt
= szPercent_d
;
1820 dwVal
= udate
.st
.wMinute
;
1823 case FMT_DATE_MIN_0
:
1824 szPrintFmt
= szPercentZeroTwo_d
;
1825 dwVal
= udate
.st
.wMinute
;
1829 szPrintFmt
= szPercent_d
;
1830 dwVal
= udate
.st
.wSecond
;
1833 case FMT_DATE_SEC_0
:
1834 szPrintFmt
= szPercentZeroTwo_d
;
1835 dwVal
= udate
.st
.wSecond
;
1839 szPrintFmt
= szPercent_d
;
1840 dwVal
= udate
.st
.wHour
;
1843 case FMT_DATE_HOUR_0
:
1844 case FMT_DATE_TIME_UNK2
:
1845 szPrintFmt
= szPercentZeroTwo_d
;
1846 dwVal
= udate
.st
.wHour
;
1849 case FMT_DATE_HOUR_12
:
1850 szPrintFmt
= szPercent_d
;
1851 dwVal
= udate
.st
.wHour
? udate
.st
.wHour
> 12 ? udate
.st
.wHour
- 12 : udate
.st
.wHour
: 12;
1854 case FMT_DATE_HOUR_12_0
:
1855 szPrintFmt
= szPercentZeroTwo_d
;
1856 dwVal
= udate
.st
.wHour
? udate
.st
.wHour
> 12 ? udate
.st
.wHour
- 12 : udate
.st
.wHour
: 12;
1859 case FMT_DATE_AMPM_SYS1
:
1860 case FMT_DATE_AMPM_SYS2
:
1861 localeValue
= udate
.st
.wHour
< 12 ? LOCALE_S1159
: LOCALE_S2359
;
1865 case FMT_DATE_AMPM_UPPER
:
1866 *pBuff
++ = udate
.st
.wHour
< 12 ? 'A' : 'P';
1870 case FMT_DATE_A_UPPER
:
1871 *pBuff
++ = udate
.st
.wHour
< 12 ? 'A' : 'P';
1874 case FMT_DATE_AMPM_LOWER
:
1875 *pBuff
++ = udate
.st
.wHour
< 12 ? 'a' : 'p';
1879 case FMT_DATE_A_LOWER
:
1880 *pBuff
++ = udate
.st
.wHour
< 12 ? 'a' : 'p';
1884 ERR("Unknown token 0x%02x!\n", *pToken
);
1885 hRes
= E_INVALIDARG
;
1886 goto VARIANT_FormatDate_Exit
;
1891 if (GetLocaleInfoW(lcid
, localeValue
, pBuff
,
1892 sizeof(buff
)/sizeof(WCHAR
)-(pBuff
-buff
)))
1894 TRACE("added %s\n", debugstr_w(pBuff
));
1900 TRACE("added %d %c\n", defaultChar
, defaultChar
);
1901 *pBuff
++ = defaultChar
;
1908 if (!GetLocaleInfoW(lcid
, dwFmt
, fmt_buff
, sizeof(fmt_buff
)/sizeof(WCHAR
)) ||
1909 !get_date_format(lcid
, 0, &udate
.st
, fmt_buff
, pBuff
,
1910 sizeof(buff
)/sizeof(WCHAR
)-(pBuff
-buff
)))
1912 hRes
= E_INVALIDARG
;
1913 goto VARIANT_FormatDate_Exit
;
1918 else if (szPrintFmt
)
1920 sprintfW(pBuff
, szPrintFmt
, dwVal
);
1927 VARIANT_FormatDate_Exit
:
1929 TRACE("buff is %s\n", debugstr_w(buff
));
1930 if (SUCCEEDED(hRes
))
1932 *pbstrOut
= SysAllocString(buff
);
1934 hRes
= E_OUTOFMEMORY
;
1939 /* Format a variant using a string format */
1940 static HRESULT
VARIANT_FormatString(LPVARIANT pVarIn
, LPOLESTR lpszFormat
,
1941 LPBYTE rgbTok
, ULONG dwFlags
,
1942 BSTR
*pbstrOut
, LCID lcid
)
1944 static WCHAR szEmpty
[] = { '\0' };
1945 WCHAR buff
[256], *pBuff
= buff
;
1947 FMT_HEADER
*header
= (FMT_HEADER
*)rgbTok
;
1948 FMT_STRING_HEADER
*strHeader
;
1949 const BYTE
* pToken
= NULL
;
1952 BOOL bUpper
= FALSE
;
1953 HRESULT hRes
= S_OK
;
1955 TRACE("%s,%s,%p,0x%08x,%p,0x%08x)\n", debugstr_variant(pVarIn
), debugstr_w(lpszFormat
),
1956 rgbTok
, dwFlags
, pbstrOut
, lcid
);
1958 V_VT(&vStr
) = VT_EMPTY
;
1960 if (V_TYPE(pVarIn
) == VT_EMPTY
|| V_TYPE(pVarIn
) == VT_NULL
)
1962 strHeader
= (FMT_STRING_HEADER
*)(rgbTok
+ FmtGetNegative(header
));
1963 V_BSTR(&vStr
) = szEmpty
;
1967 hRes
= VariantChangeTypeEx(&vStr
, pVarIn
, LCID_US
, VARIANT_NOUSEROVERRIDE
, VT_BSTR
);
1971 if (V_BSTR(&vStr
)[0] == '\0')
1972 strHeader
= (FMT_STRING_HEADER
*)(rgbTok
+ FmtGetNegative(header
));
1974 strHeader
= (FMT_STRING_HEADER
*)(rgbTok
+ FmtGetPositive(header
));
1976 pSrc
= V_BSTR(&vStr
);
1977 if ((strHeader
->flags
& (FMT_FLAG_LT
|FMT_FLAG_GT
)) == FMT_FLAG_GT
)
1979 blanks_first
= strHeader
->copy_chars
- strlenW(pSrc
);
1980 pToken
= (const BYTE
*)strHeader
+ sizeof(FMT_DATE_HEADER
);
1982 while (*pToken
!= FMT_GEN_END
)
1986 if (pToken
- rgbTok
> header
->size
)
1988 ERR("Ran off the end of the format!\n");
1989 hRes
= E_INVALIDARG
;
1990 goto VARIANT_FormatString_Exit
;
1996 TRACE("copy %s\n", debugstr_wn(lpszFormat
+ pToken
[1], pToken
[2]));
1997 memcpy(pBuff
, lpszFormat
+ pToken
[1], pToken
[2] * sizeof(WCHAR
));
2002 case FMT_STR_COPY_SPACE
:
2003 case FMT_STR_COPY_SKIP
:
2004 dwCount
= pToken
[1];
2005 if (*pToken
== FMT_STR_COPY_SPACE
&& blanks_first
> 0)
2007 TRACE("insert %d initial spaces\n", blanks_first
);
2008 while (dwCount
> 0 && blanks_first
> 0)
2015 TRACE("copy %d chars%s\n", dwCount
,
2016 *pToken
== FMT_STR_COPY_SPACE
? " with space" :"");
2017 while (dwCount
> 0 && *pSrc
)
2020 *pBuff
++ = toupperW(*pSrc
);
2022 *pBuff
++ = tolowerW(*pSrc
);
2026 if (*pToken
== FMT_STR_COPY_SPACE
&& dwCount
> 0)
2028 TRACE("insert %d spaces\n", dwCount
);
2029 while (dwCount
-- > 0)
2036 ERR("Unknown token 0x%02x!\n", *pToken
);
2037 hRes
= E_INVALIDARG
;
2038 goto VARIANT_FormatString_Exit
;
2043 VARIANT_FormatString_Exit
:
2044 /* Copy out any remaining chars */
2048 *pBuff
++ = toupperW(*pSrc
);
2050 *pBuff
++ = tolowerW(*pSrc
);
2053 VariantClear(&vStr
);
2055 TRACE("buff is %s\n", debugstr_w(buff
));
2056 if (SUCCEEDED(hRes
))
2058 *pbstrOut
= SysAllocString(buff
);
2060 hRes
= E_OUTOFMEMORY
;
2065 #define NUMBER_VTBITS (VTBIT_I1|VTBIT_UI1|VTBIT_I2|VTBIT_UI2| \
2066 VTBIT_I4|VTBIT_UI4|VTBIT_I8|VTBIT_UI8| \
2067 VTBIT_R4|VTBIT_R8|VTBIT_CY|VTBIT_DECIMAL| \
2068 VTBIT_BOOL|VTBIT_INT|VTBIT_UINT)
2070 /**********************************************************************
2071 * VarFormatFromTokens [OLEAUT32.139]
2073 HRESULT WINAPI
VarFormatFromTokens(LPVARIANT pVarIn
, LPOLESTR lpszFormat
,
2074 LPBYTE rgbTok
, ULONG dwFlags
,
2075 BSTR
*pbstrOut
, LCID lcid
)
2077 FMT_SHORT_HEADER
*header
= (FMT_SHORT_HEADER
*)rgbTok
;
2081 TRACE("(%p,%s,%p,%x,%p,0x%08x)\n", pVarIn
, debugstr_w(lpszFormat
),
2082 rgbTok
, dwFlags
, pbstrOut
, lcid
);
2085 return E_INVALIDARG
;
2089 if (!pVarIn
|| !rgbTok
)
2090 return E_INVALIDARG
;
2092 if (V_VT(pVarIn
) == VT_NULL
)
2095 if (*rgbTok
== FMT_TO_STRING
|| header
->type
== FMT_TYPE_GENERAL
)
2097 /* According to MSDN, general format acts somewhat like the 'Str'
2098 * function in Visual Basic.
2100 VarFormatFromTokens_AsStr
:
2101 V_VT(&vTmp
) = VT_EMPTY
;
2102 hres
= VariantChangeTypeEx(&vTmp
, pVarIn
, lcid
, dwFlags
, VT_BSTR
);
2103 *pbstrOut
= V_BSTR(&vTmp
);
2107 if (header
->type
== FMT_TYPE_NUMBER
||
2108 (header
->type
== FMT_TYPE_UNKNOWN
&& ((1 << V_TYPE(pVarIn
)) & NUMBER_VTBITS
)))
2110 hres
= VARIANT_FormatNumber(pVarIn
, lpszFormat
, rgbTok
, dwFlags
, pbstrOut
, lcid
);
2112 else if (header
->type
== FMT_TYPE_DATE
||
2113 (header
->type
== FMT_TYPE_UNKNOWN
&& V_TYPE(pVarIn
) == VT_DATE
))
2115 hres
= VARIANT_FormatDate(pVarIn
, lpszFormat
, rgbTok
, dwFlags
, pbstrOut
, lcid
);
2117 else if (header
->type
== FMT_TYPE_STRING
|| V_TYPE(pVarIn
) == VT_BSTR
)
2119 hres
= VARIANT_FormatString(pVarIn
, lpszFormat
, rgbTok
, dwFlags
, pbstrOut
, lcid
);
2123 ERR("unrecognised format type 0x%02x\n", header
->type
);
2124 return E_INVALIDARG
;
2126 /* If the coercion failed, still try to create output, unless the
2127 * VAR_FORMAT_NOSUBSTITUTE flag is set.
2129 if ((hres
== DISP_E_OVERFLOW
|| hres
== DISP_E_TYPEMISMATCH
) &&
2130 !(dwFlags
& VAR_FORMAT_NOSUBSTITUTE
))
2131 goto VarFormatFromTokens_AsStr
;
2137 /**********************************************************************
2138 * VarFormat [OLEAUT32.87]
2140 * Format a variant from a format string.
2143 * pVarIn [I] Variant to format
2144 * lpszFormat [I] Format string (see notes)
2145 * nFirstDay [I] First day of the week, (See VarTokenizeFormatString() for details)
2146 * nFirstWeek [I] First week of the year (See VarTokenizeFormatString() for details)
2147 * dwFlags [I] Flags for the format (VAR_ flags from "oleauto.h")
2148 * pbstrOut [O] Destination for formatted string.
2151 * Success: S_OK. pbstrOut contains the formatted value.
2152 * Failure: E_INVALIDARG, if any parameter is invalid.
2153 * E_OUTOFMEMORY, if enough memory cannot be allocated.
2154 * DISP_E_TYPEMISMATCH, if the variant cannot be formatted.
2157 * - See Variant-Formats for details concerning creating format strings.
2158 * - This function uses LOCALE_USER_DEFAULT when calling VarTokenizeFormatString()
2159 * and VarFormatFromTokens().
2161 HRESULT WINAPI
VarFormat(LPVARIANT pVarIn
, LPOLESTR lpszFormat
,
2162 int nFirstDay
, int nFirstWeek
, ULONG dwFlags
,
2168 TRACE("(%s,%s,%d,%d,0x%08x,%p)\n", debugstr_variant(pVarIn
), debugstr_w(lpszFormat
),
2169 nFirstDay
, nFirstWeek
, dwFlags
, pbstrOut
);
2172 return E_INVALIDARG
;
2175 hres
= VarTokenizeFormatString(lpszFormat
, buff
, sizeof(buff
), nFirstDay
,
2176 nFirstWeek
, LOCALE_USER_DEFAULT
, NULL
);
2177 if (SUCCEEDED(hres
))
2178 hres
= VarFormatFromTokens(pVarIn
, lpszFormat
, buff
, dwFlags
,
2179 pbstrOut
, LOCALE_USER_DEFAULT
);
2180 TRACE("returning 0x%08x, %s\n", hres
, debugstr_w(*pbstrOut
));
2184 /**********************************************************************
2185 * VarFormatDateTime [OLEAUT32.97]
2187 * Format a variant value as a date and/or time.
2190 * pVarIn [I] Variant to format
2191 * nFormat [I] Format type (see notes)
2192 * dwFlags [I] Flags for the format (VAR_ flags from "oleauto.h")
2193 * pbstrOut [O] Destination for formatted string.
2196 * Success: S_OK. pbstrOut contains the formatted value.
2197 * Failure: E_INVALIDARG, if any parameter is invalid.
2198 * E_OUTOFMEMORY, if enough memory cannot be allocated.
2199 * DISP_E_TYPEMISMATCH, if the variant cannot be formatted.
2202 * This function uses LOCALE_USER_DEFAULT when determining the date format
2203 * characters to use.
2204 * Possible values for the nFormat parameter are:
2207 *| 0 General date format
2208 *| 1 Long date format
2209 *| 2 Short date format
2210 *| 3 Long time format
2211 *| 4 Short time format
2213 HRESULT WINAPI
VarFormatDateTime(LPVARIANT pVarIn
, INT nFormat
, ULONG dwFlags
, BSTR
*pbstrOut
)
2215 static WCHAR szEmpty
[] = { '\0' };
2216 const BYTE
* lpFmt
= NULL
;
2218 TRACE("%s,%d,0x%08x,%p)\n", debugstr_variant(pVarIn
), nFormat
, dwFlags
, pbstrOut
);
2220 if (!pVarIn
|| !pbstrOut
|| nFormat
< 0 || nFormat
> 4)
2221 return E_INVALIDARG
;
2225 case 0: lpFmt
= fmtGeneralDate
; break;
2226 case 1: lpFmt
= fmtLongDate
; break;
2227 case 2: lpFmt
= fmtShortDate
; break;
2228 case 3: lpFmt
= fmtLongTime
; break;
2229 case 4: lpFmt
= fmtShortTime
; break;
2231 return VarFormatFromTokens(pVarIn
, szEmpty
, (BYTE
*)lpFmt
, dwFlags
,
2232 pbstrOut
, LOCALE_USER_DEFAULT
);
2235 #define GETLOCALENUMBER(type,field) GetLocaleInfoW(LOCALE_USER_DEFAULT, \
2236 type|LOCALE_RETURN_NUMBER, \
2237 (LPWSTR)&numfmt.field, \
2238 sizeof(numfmt.field)/sizeof(WCHAR))
2240 /**********************************************************************
2241 * VarFormatNumber [OLEAUT32.107]
2243 * Format a variant value as a number.
2246 * pVarIn [I] Variant to format
2247 * nDigits [I] Number of digits following the decimal point (-1 = user default)
2248 * nLeading [I] Use a leading zero (-2 = user default, -1 = yes, 0 = no)
2249 * nParens [I] Use brackets for values < 0 (-2 = user default, -1 = yes, 0 = no)
2250 * nGrouping [I] Use grouping characters (-2 = user default, -1 = yes, 0 = no)
2251 * dwFlags [I] Currently unused, set to zero
2252 * pbstrOut [O] Destination for formatted string.
2255 * Success: S_OK. pbstrOut contains the formatted value.
2256 * Failure: E_INVALIDARG, if any parameter is invalid.
2257 * E_OUTOFMEMORY, if enough memory cannot be allocated.
2258 * DISP_E_TYPEMISMATCH, if the variant cannot be formatted.
2261 * This function uses LOCALE_USER_DEFAULT when determining the number format
2262 * characters to use.
2264 HRESULT WINAPI
VarFormatNumber(LPVARIANT pVarIn
, INT nDigits
, INT nLeading
, INT nParens
,
2265 INT nGrouping
, ULONG dwFlags
, BSTR
*pbstrOut
)
2270 TRACE("(%s,%d,%d,%d,%d,0x%08x,%p)\n", debugstr_variant(pVarIn
), nDigits
, nLeading
,
2271 nParens
, nGrouping
, dwFlags
, pbstrOut
);
2273 if (!pVarIn
|| !pbstrOut
|| nDigits
> 9)
2274 return E_INVALIDARG
;
2278 V_VT(&vStr
) = VT_EMPTY
;
2279 hRet
= VariantCopyInd(&vStr
, pVarIn
);
2281 if (SUCCEEDED(hRet
))
2282 hRet
= VariantChangeTypeEx(&vStr
, &vStr
, LCID_US
, 0, VT_BSTR
);
2284 if (SUCCEEDED(hRet
))
2286 WCHAR buff
[256], decimal
[8], thousands
[8];
2289 /* Although MSDN makes it clear that the native versions of these functions
2290 * are implemented using VarTokenizeFormatString()/VarFormatFromTokens(),
2291 * using NLS gives us the same result.
2294 GETLOCALENUMBER(LOCALE_IDIGITS
, NumDigits
);
2296 numfmt
.NumDigits
= nDigits
;
2299 GETLOCALENUMBER(LOCALE_ILZERO
, LeadingZero
);
2300 else if (nLeading
== -1)
2301 numfmt
.LeadingZero
= 1;
2303 numfmt
.LeadingZero
= 0;
2305 if (nGrouping
== -2)
2309 GetLocaleInfoW(LOCALE_USER_DEFAULT
, LOCALE_SDECIMAL
, grouping
,
2310 sizeof(grouping
)/sizeof(WCHAR
));
2311 numfmt
.Grouping
= grouping
[2] == '2' ? 32 : grouping
[0] - '0';
2313 else if (nGrouping
== -1)
2314 numfmt
.Grouping
= 3; /* 3 = "n,nnn.nn" */
2316 numfmt
.Grouping
= 0; /* 0 = No grouping */
2319 GETLOCALENUMBER(LOCALE_INEGNUMBER
, NegativeOrder
);
2320 else if (nParens
== -1)
2321 numfmt
.NegativeOrder
= 0; /* 0 = "(xxx)" */
2323 numfmt
.NegativeOrder
= 1; /* 1 = "-xxx" */
2325 numfmt
.lpDecimalSep
= decimal
;
2326 GetLocaleInfoW(LOCALE_USER_DEFAULT
, LOCALE_SDECIMAL
, decimal
,
2327 sizeof(decimal
)/sizeof(WCHAR
));
2328 numfmt
.lpThousandSep
= thousands
;
2329 GetLocaleInfoW(LOCALE_USER_DEFAULT
, LOCALE_SDECIMAL
, thousands
,
2330 sizeof(thousands
)/sizeof(WCHAR
));
2332 if (GetNumberFormatW(LOCALE_USER_DEFAULT
, 0, V_BSTR(&vStr
), &numfmt
,
2333 buff
, sizeof(buff
)/sizeof(WCHAR
)))
2335 *pbstrOut
= SysAllocString(buff
);
2337 hRet
= E_OUTOFMEMORY
;
2340 hRet
= DISP_E_TYPEMISMATCH
;
2342 SysFreeString(V_BSTR(&vStr
));
2347 /**********************************************************************
2348 * VarFormatPercent [OLEAUT32.117]
2350 * Format a variant value as a percentage.
2353 * pVarIn [I] Variant to format
2354 * nDigits [I] Number of digits following the decimal point (-1 = user default)
2355 * nLeading [I] Use a leading zero (-2 = user default, -1 = yes, 0 = no)
2356 * nParens [I] Use brackets for values < 0 (-2 = user default, -1 = yes, 0 = no)
2357 * nGrouping [I] Use grouping characters (-2 = user default, -1 = yes, 0 = no)
2358 * dwFlags [I] Currently unused, set to zero
2359 * pbstrOut [O] Destination for formatted string.
2362 * Success: S_OK. pbstrOut contains the formatted value.
2363 * Failure: E_INVALIDARG, if any parameter is invalid.
2364 * E_OUTOFMEMORY, if enough memory cannot be allocated.
2365 * DISP_E_OVERFLOW, if overflow occurs during the conversion.
2366 * DISP_E_TYPEMISMATCH, if the variant cannot be formatted.
2369 * This function uses LOCALE_USER_DEFAULT when determining the number format
2370 * characters to use.
2372 HRESULT WINAPI
VarFormatPercent(LPVARIANT pVarIn
, INT nDigits
, INT nLeading
, INT nParens
,
2373 INT nGrouping
, ULONG dwFlags
, BSTR
*pbstrOut
)
2375 static const WCHAR szPercent
[] = { '%','\0' };
2376 static const WCHAR szPercentBracket
[] = { '%',')','\0' };
2381 TRACE("(%s,%d,%d,%d,%d,0x%08x,%p)\n", debugstr_variant(pVarIn
), nDigits
, nLeading
,
2382 nParens
, nGrouping
, dwFlags
, pbstrOut
);
2384 if (!pVarIn
|| !pbstrOut
|| nDigits
> 9)
2385 return E_INVALIDARG
;
2389 V_VT(&vDbl
) = VT_EMPTY
;
2390 hRet
= VariantCopyInd(&vDbl
, pVarIn
);
2392 if (SUCCEEDED(hRet
))
2394 hRet
= VariantChangeTypeEx(&vDbl
, &vDbl
, LOCALE_USER_DEFAULT
, 0, VT_R8
);
2396 if (SUCCEEDED(hRet
))
2398 if (V_R8(&vDbl
) > (R8_MAX
/ 100.0))
2399 return DISP_E_OVERFLOW
;
2401 V_R8(&vDbl
) *= 100.0;
2402 hRet
= VarFormatNumber(&vDbl
, nDigits
, nLeading
, nParens
,
2403 nGrouping
, dwFlags
, pbstrOut
);
2405 if (SUCCEEDED(hRet
))
2407 DWORD dwLen
= strlenW(*pbstrOut
);
2408 BOOL bBracket
= (*pbstrOut
)[dwLen
] == ')';
2411 memcpy(buff
, *pbstrOut
, dwLen
* sizeof(WCHAR
));
2412 strcpyW(buff
+ dwLen
, bBracket
? szPercentBracket
: szPercent
);
2413 SysFreeString(*pbstrOut
);
2414 *pbstrOut
= SysAllocString(buff
);
2416 hRet
= E_OUTOFMEMORY
;
2423 /**********************************************************************
2424 * VarFormatCurrency [OLEAUT32.127]
2426 * Format a variant value as a currency.
2429 * pVarIn [I] Variant to format
2430 * nDigits [I] Number of digits following the decimal point (-1 = user default)
2431 * nLeading [I] Use a leading zero (-2 = user default, -1 = yes, 0 = no)
2432 * nParens [I] Use brackets for values < 0 (-2 = user default, -1 = yes, 0 = no)
2433 * nGrouping [I] Use grouping characters (-2 = user default, -1 = yes, 0 = no)
2434 * dwFlags [I] Currently unused, set to zero
2435 * pbstrOut [O] Destination for formatted string.
2438 * Success: S_OK. pbstrOut contains the formatted value.
2439 * Failure: E_INVALIDARG, if any parameter is invalid.
2440 * E_OUTOFMEMORY, if enough memory cannot be allocated.
2441 * DISP_E_TYPEMISMATCH, if the variant cannot be formatted.
2444 * This function uses LOCALE_USER_DEFAULT when determining the currency format
2445 * characters to use.
2447 HRESULT WINAPI
VarFormatCurrency(LPVARIANT pVarIn
, INT nDigits
, INT nLeading
,
2448 INT nParens
, INT nGrouping
, ULONG dwFlags
,
2454 TRACE("(%s,%d,%d,%d,%d,0x%08x,%p)\n", debugstr_variant(pVarIn
), nDigits
, nLeading
,
2455 nParens
, nGrouping
, dwFlags
, pbstrOut
);
2457 if (!pVarIn
|| !pbstrOut
|| nDigits
> 9)
2458 return E_INVALIDARG
;
2462 V_VT(&vStr
) = VT_EMPTY
;
2463 hRet
= VariantCopyInd(&vStr
, pVarIn
);
2465 if (SUCCEEDED(hRet
))
2466 hRet
= VariantChangeTypeEx(&vStr
, &vStr
, LOCALE_USER_DEFAULT
, 0, VT_BSTR
);
2468 if (SUCCEEDED(hRet
))
2470 WCHAR buff
[256], decimal
[8], thousands
[8], currency
[8];
2471 CURRENCYFMTW numfmt
;
2474 GETLOCALENUMBER(LOCALE_IDIGITS
, NumDigits
);
2476 numfmt
.NumDigits
= nDigits
;
2479 GETLOCALENUMBER(LOCALE_ILZERO
, LeadingZero
);
2480 else if (nLeading
== -1)
2481 numfmt
.LeadingZero
= 1;
2483 numfmt
.LeadingZero
= 0;
2485 if (nGrouping
== -2)
2489 GetLocaleInfoW(LOCALE_USER_DEFAULT
, LOCALE_SDECIMAL
, grouping
,
2490 sizeof(grouping
)/sizeof(WCHAR
));
2491 numfmt
.Grouping
= grouping
[2] == '2' ? 32 : grouping
[0] - '0';
2493 else if (nGrouping
== -1)
2494 numfmt
.Grouping
= 3; /* 3 = "n,nnn.nn" */
2496 numfmt
.Grouping
= 0; /* 0 = No grouping */
2499 GETLOCALENUMBER(LOCALE_INEGCURR
, NegativeOrder
);
2500 else if (nParens
== -1)
2501 numfmt
.NegativeOrder
= 0; /* 0 = "(xxx)" */
2503 numfmt
.NegativeOrder
= 1; /* 1 = "-xxx" */
2505 GETLOCALENUMBER(LOCALE_ICURRENCY
, PositiveOrder
);
2507 numfmt
.lpDecimalSep
= decimal
;
2508 GetLocaleInfoW(LOCALE_USER_DEFAULT
, LOCALE_SDECIMAL
, decimal
,
2509 sizeof(decimal
)/sizeof(WCHAR
));
2510 numfmt
.lpThousandSep
= thousands
;
2511 GetLocaleInfoW(LOCALE_USER_DEFAULT
, LOCALE_SDECIMAL
, thousands
,
2512 sizeof(thousands
)/sizeof(WCHAR
));
2513 numfmt
.lpCurrencySymbol
= currency
;
2514 GetLocaleInfoW(LOCALE_USER_DEFAULT
, LOCALE_SDECIMAL
, currency
,
2515 sizeof(currency
)/sizeof(WCHAR
));
2517 /* use NLS as per VarFormatNumber() */
2518 if (GetCurrencyFormatW(LOCALE_USER_DEFAULT
, 0, V_BSTR(&vStr
), &numfmt
,
2519 buff
, sizeof(buff
)/sizeof(WCHAR
)))
2521 *pbstrOut
= SysAllocString(buff
);
2523 hRet
= E_OUTOFMEMORY
;
2526 hRet
= DISP_E_TYPEMISMATCH
;
2528 SysFreeString(V_BSTR(&vStr
));
2533 /**********************************************************************
2534 * VarMonthName [OLEAUT32.129]
2536 * Print the specified month as localized name.
2539 * iMonth [I] month number 1..12
2540 * fAbbrev [I] 0 - full name, !0 - abbreviated name
2541 * dwFlags [I] flag stuff. only VAR_CALENDAR_HIJRI possible.
2542 * pbstrOut [O] Destination for month name
2545 * Success: S_OK. pbstrOut contains the name.
2546 * Failure: E_INVALIDARG, if any parameter is invalid.
2547 * E_OUTOFMEMORY, if enough memory cannot be allocated.
2549 HRESULT WINAPI
VarMonthName(INT iMonth
, INT fAbbrev
, ULONG dwFlags
, BSTR
*pbstrOut
)
2554 if ((iMonth
< 1) || (iMonth
> 12))
2555 return E_INVALIDARG
;
2558 FIXME("Does not support dwFlags 0x%x, ignoring.\n", dwFlags
);
2561 localeValue
= LOCALE_SABBREVMONTHNAME1
+ iMonth
- 1;
2563 localeValue
= LOCALE_SMONTHNAME1
+ iMonth
- 1;
2565 size
= GetLocaleInfoW(LOCALE_USER_DEFAULT
,localeValue
, NULL
, 0);
2567 ERR("GetLocaleInfo 0x%x failed.\n", localeValue
);
2568 return HRESULT_FROM_WIN32(GetLastError());
2570 *pbstrOut
= SysAllocStringLen(NULL
,size
- 1);
2572 return E_OUTOFMEMORY
;
2573 size
= GetLocaleInfoW(LOCALE_USER_DEFAULT
,localeValue
, *pbstrOut
, size
);
2575 ERR("GetLocaleInfo of 0x%x failed in 2nd stage?!\n", localeValue
);
2576 SysFreeString(*pbstrOut
);
2577 return HRESULT_FROM_WIN32(GetLastError());
2582 /**********************************************************************
2583 * VarWeekdayName [OLEAUT32.129]
2585 * Print the specified weekday as localized name.
2588 * iWeekday [I] day of week, 1..7, 1="the first day of the week"
2589 * fAbbrev [I] 0 - full name, !0 - abbreviated name
2590 * iFirstDay [I] first day of week,
2591 * 0=system default, 1=Sunday, 2=Monday, .. (contrary to MSDN)
2592 * dwFlags [I] flag stuff. only VAR_CALENDAR_HIJRI possible.
2593 * pbstrOut [O] Destination for weekday name.
2596 * Success: S_OK, pbstrOut contains the name.
2597 * Failure: E_INVALIDARG, if any parameter is invalid.
2598 * E_OUTOFMEMORY, if enough memory cannot be allocated.
2600 HRESULT WINAPI
VarWeekdayName(INT iWeekday
, INT fAbbrev
, INT iFirstDay
,
2601 ULONG dwFlags
, BSTR
*pbstrOut
)
2606 /* Windows XP oleaut32.dll doesn't allow iWekday==0, contrary to MSDN */
2607 if (iWeekday
< 1 || iWeekday
> 7)
2608 return E_INVALIDARG
;
2609 if (iFirstDay
< 0 || iFirstDay
> 7)
2610 return E_INVALIDARG
;
2612 return E_INVALIDARG
;
2615 FIXME("Does not support dwFlags 0x%x, ignoring.\n", dwFlags
);
2617 /* If we have to use the default firstDay, find which one it is */
2618 if (iFirstDay
== 0) {
2620 localeValue
= LOCALE_RETURN_NUMBER
| LOCALE_IFIRSTDAYOFWEEK
;
2621 size
= GetLocaleInfoW(LOCALE_USER_DEFAULT
, localeValue
,
2622 (LPWSTR
)&firstDay
, sizeof(firstDay
) / sizeof(WCHAR
));
2624 ERR("GetLocaleInfo 0x%x failed.\n", localeValue
);
2625 return HRESULT_FROM_WIN32(GetLastError());
2627 iFirstDay
= firstDay
+ 2;
2630 /* Determine what we need to return */
2631 localeValue
= fAbbrev
? LOCALE_SABBREVDAYNAME1
: LOCALE_SDAYNAME1
;
2632 localeValue
+= (7 + iWeekday
- 1 + iFirstDay
- 2) % 7;
2634 /* Determine the size of the data, allocate memory and retrieve the data */
2635 size
= GetLocaleInfoW(LOCALE_USER_DEFAULT
, localeValue
, NULL
, 0);
2637 ERR("GetLocaleInfo 0x%x failed.\n", localeValue
);
2638 return HRESULT_FROM_WIN32(GetLastError());
2640 *pbstrOut
= SysAllocStringLen(NULL
, size
- 1);
2642 return E_OUTOFMEMORY
;
2643 size
= GetLocaleInfoW(LOCALE_USER_DEFAULT
, localeValue
, *pbstrOut
, size
);
2645 ERR("GetLocaleInfo 0x%x failed in 2nd stage?!\n", localeValue
);
2646 SysFreeString(*pbstrOut
);
2647 return HRESULT_FROM_WIN32(GetLastError());