Sweden-Number/dlls/oleaut32/varformat.c

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/*
* Variant formatting functions
*
* Copyright 2003 Jon Griffiths
*
* 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
*
* NOTES
* Since the formatting functions aren't properly documented, I used the
* Visual Basic documentation as a guide to implementing these functions. This
* means that some named or user-defined formats may work slightly differently.
* Please submit a test case if you find a difference.
*/
#include "config.h"
#include <string.h>
#include <stdlib.h>
#include <stdarg.h>
#include <stdio.h>
#define NONAMELESSUNION
#define NONAMELESSSTRUCT
#include "windef.h"
#include "winbase.h"
#include "wine/unicode.h"
#include "winerror.h"
#include "variant.h"
#include "wine/debug.h"
WINE_DEFAULT_DEBUG_CHANNEL(variant);
/* Make sure internal conversions to strings use the '.','+'/'-' and ','
* format chars from the US locale. This enables us to parse the created
* strings to determine the number of decimal places, exponent, etc.
*/
#define LCID_US MAKELCID(MAKELANGID(LANG_ENGLISH,SUBLANG_ENGLISH_US),SORT_DEFAULT)
static const WCHAR szPercent_d[] = { '%','d','\0' };
static const WCHAR szPercentZeroTwo_d[] = { '%','0','2','d','\0' };
static const WCHAR szPercentZeroFour_d[] = { '%','0','4','d','\0' };
static const WCHAR szPercentZeroStar_d[] = { '%','0','*','d','\0' };
#if 0
#define dump_tokens(rgb) do { \
int i_; TRACE("Tokens->{ \n"); \
for (i_ = 0; i_ < rgb[0]; i_++) \
TRACE("%s0x%02x", i_?",":"",rgb[i_]); \
TRACE(" }\n"); \
} while(0)
#endif
/******************************************************************************
* Variant-Formats {OLEAUT32}
*
* NOTES
* When formatting a variant a variety of format strings may be used to generate
* different kinds of formatted output. A format string consists of either a named
* format, or a user-defined format.
*
* The following named formats are defined:
*| Name Description
*| ---- -----------
*| General Date Display Date, and time for non-integer values
*| Short Date Short date format as defined by locale settings
*| Medium Date Medium date format as defined by locale settings
*| Long Date Long date format as defined by locale settings
*| Short Time Short Time format as defined by locale settings
*| Medium Time Medium time format as defined by locale settings
*| Long Time Long time format as defined by locale settings
*| True/False Localised text of "True" or "False"
*| Yes/No Localised text of "Yes" or "No"
*| On/Off Localised text of "On" or "Off"
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*| General Number No thousands separator. No decimal points for integers
*| Currency General currency format using localised characters
*| Fixed At least one whole and two fractional digits
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*| Standard Same as 'Fixed', but including decimal separators
*| Percent Multiply by 100 and display a trailing '%' character
*| Scientific Display with exponent
*
* User-defined formats consist of a combination of tokens and literal
* characters. Literal characters are copied unmodified to the formatted
* output at the position they occupy in the format string. Any character
* that is not recognised as a token is treated as a literal. A literal can
* also be specified by preceeding it with a backslash character
* (e.g. "\L\i\t\e\r\a\l") or enclosing it in double quotes.
*
* A user-defined format can have up to 4 sections, depending on the type of
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* format. The following table lists sections and their meaning:
*| Format Type Sections Meaning
*| ----------- -------- -------
*| Number 1 Use the same format for all numbers
*| Number 2 Use format 1 for positive and 2 for negative numbers
*| Number 3 Use format 1 for positive, 2 for zero, and 3
*| for negative numbers.
*| Number 4 Use format 1 for positive, 2 for zero, 3 for
*| negative, and 4 for null numbers.
*| String 1 Use the same format for all strings
*| String 2 Use format 2 for null and empty strings, otherwise
*| use format 1.
*| Date 1 Use the same format for all dates
*
* The formatting tokens fall into several categories depending on the type
* of formatted output. For more information on each type, see
* VarFormat-Dates(), VarFormat-Strings() and VarFormat-Numbers().
*
* SEE ALSO
* VarTokenizeFormatString(), VarFormatFromTokens(), VarFormat(),
* VarFormatDateTime(), VarFormatNumber(), VarFormatCurrency().
*/
/******************************************************************************
* VarFormat-Strings {OLEAUT32}
*
* NOTES
* When formatting a variant as a string, it is first converted to a VT_BSTR.
* The user-format string defines which characters are copied into which
* positions in the output string. Literals may be inserted in the format
* string. When creating the formatted string, excess characters in the string
* (those not consumed by a token) are appended to the end of the output. If
* there are more tokens than characters in the string to format, spaces will
* be inserted at the start of the string if the '@' token was used.
*
* By default strings are converted to lowercase, or uppercase if the '>' token
* is encountered. This applies to the whole string: it is not possible to
* generate a mixed-case output string.
*
* In user-defined string formats, the following tokens are recognised:
*| Token Description
*| ----- -----------
*| '@' Copy a char from the source, or a space if no chars are left.
*| '&' Copy a char from the source, or write nothing if no chars are left.
*| '<' Output the whole string as lower-case (the default).
*| '>' Output the whole string as upper-case.
*| '!' MSDN indicates that this character should cause right-to-left
*| copying, however tests show that it is tokenised but not processed.
*/
/*
* Common format definitions
*/
/* Fomat types */
#define FMT_TYPE_UNKNOWN 0x0
#define FMT_TYPE_GENERAL 0x1
#define FMT_TYPE_NUMBER 0x2
#define FMT_TYPE_DATE 0x3
#define FMT_TYPE_STRING 0x4
#define FMT_TO_STRING 0x0 /* If header->size == this, act like VB's Str() fn */
typedef struct tagFMT_SHORT_HEADER
{
BYTE size; /* Size of tokenised block (including header), or FMT_TO_STRING */
BYTE type; /* Allowable types (FMT_TYPE_*) */
BYTE offset[1]; /* Offset of the first (and only) format section */
} FMT_SHORT_HEADER;
typedef struct tagFMT_HEADER
{
BYTE size; /* Total size of the whole tokenised block (including header) */
BYTE type; /* Allowable types (FMT_TYPE_*) */
BYTE starts[4]; /* Offset of each of the 4 format sections, or 0 if none */
} FMT_HEADER;
#define FmtGetPositive(x) (x->starts[0])
#define FmtGetNegative(x) (x->starts[1] ? x->starts[1] : x->starts[0])
#define FmtGetZero(x) (x->starts[2] ? x->starts[2] : x->starts[0])
#define FmtGetNull(x) (x->starts[3] ? x->starts[3] : x->starts[0])
/*
* String formats
*/
#define FMT_FLAG_LT 0x1 /* Has '<' (lower case) */
#define FMT_FLAG_GT 0x2 /* Has '>' (upper case) */
#define FMT_FLAG_RTL 0x4 /* Has '!' (Copy right to left) */
typedef struct tagFMT_STRING_HEADER
{
BYTE flags; /* LT, GT, RTL */
BYTE unknown1;
BYTE unknown2;
BYTE copy_chars; /* Number of chars to be copied */
BYTE unknown3;
} FMT_STRING_HEADER;
/*
* Number formats
*/
#define FMT_FLAG_PERCENT 0x1 /* Has '%' (Percentage) */
#define FMT_FLAG_EXPONENT 0x2 /* Has 'e' (Exponent/Scientific notation) */
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#define FMT_FLAG_THOUSANDS 0x4 /* Has ',' (Standard use of the thousands separator) */
#define FMT_FLAG_BOOL 0x20 /* Boolean format */
typedef struct tagFMT_NUMBER_HEADER
{
BYTE flags; /* PERCENT, EXPONENT, THOUSANDS, BOOL */
BYTE multiplier; /* Multiplier, 100 for percentages */
BYTE divisor; /* Divisor, 1000 if '%%' was used */
BYTE whole; /* Number of digits before the decimal point */
BYTE fractional; /* Number of digits after the decimal point */
} FMT_NUMBER_HEADER;
/*
* Date Formats
*/
typedef struct tagFMT_DATE_HEADER
{
BYTE flags;
BYTE unknown1;
BYTE unknown2;
BYTE unknown3;
BYTE unknown4;
} FMT_DATE_HEADER;
/*
* Format token values
*/
#define FMT_GEN_COPY 0x00 /* \n, "lit" => 0,pos,len: Copy len chars from input+pos */
#define FMT_GEN_INLINE 0x01 /* => 1,len,[chars]: Copy len chars from token stream */
#define FMT_GEN_END 0x02 /* \0,; => 2: End of the tokenised format */
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#define FMT_DATE_TIME_SEP 0x03 /* Time separator char */
#define FMT_DATE_DATE_SEP 0x04 /* Date separator char */
#define FMT_DATE_GENERAL 0x05 /* General format date */
#define FMT_DATE_QUARTER 0x06 /* Quarter of the year from 1-4 */
#define FMT_DATE_TIME_SYS 0x07 /* System long time format */
#define FMT_DATE_DAY 0x08 /* Day with no leading 0 */
#define FMT_DATE_DAY_0 0x09 /* Day with leading 0 */
#define FMT_DATE_DAY_SHORT 0x0A /* Short day name */
#define FMT_DATE_DAY_LONG 0x0B /* Long day name */
#define FMT_DATE_SHORT 0x0C /* Short date format */
#define FMT_DATE_LONG 0x0D /* Long date format */
#define FMT_DATE_MEDIUM 0x0E /* Medium date format */
#define FMT_DATE_DAY_WEEK 0x0F /* First day of the week */
#define FMT_DATE_WEEK_YEAR 0x10 /* First week of the year */
#define FMT_DATE_MON 0x11 /* Month with no leading 0 */
#define FMT_DATE_MON_0 0x12 /* Month with leading 0 */
#define FMT_DATE_MON_SHORT 0x13 /* Short month name */
#define FMT_DATE_MON_LONG 0x14 /* Long month name */
#define FMT_DATE_YEAR_DOY 0x15 /* Day of the year with no leading 0 */
#define FMT_DATE_YEAR_0 0x16 /* 2 digit year with leading 0 */
/* NOTE: token 0x17 is not defined, 'yyy' is not valid */
#define FMT_DATE_YEAR_LONG 0x18 /* 4 digit year */
#define FMT_DATE_MIN 0x1A /* Minutes with no leading 0 */
#define FMT_DATE_MIN_0 0x1B /* Minutes with leading 0 */
#define FMT_DATE_SEC 0x1C /* Seconds with no leading 0 */
#define FMT_DATE_SEC_0 0x1D /* Seconds with leading 0 */
#define FMT_DATE_HOUR 0x1E /* Hours with no leading 0 */
#define FMT_DATE_HOUR_0 0x1F /* Hours with leading 0 */
#define FMT_DATE_HOUR_12 0x20 /* Hours with no leading 0, 12 hour clock */
#define FMT_DATE_HOUR_12_0 0x21 /* Hours with leading 0, 12 hour clock */
#define FMT_DATE_TIME_UNK2 0x23
/* FIXME: probably missing some here */
#define FMT_DATE_AMPM_SYS1 0x2E /* AM/PM as defined by system settings */
#define FMT_DATE_AMPM_UPPER 0x2F /* Upper-case AM or PM */
#define FMT_DATE_A_UPPER 0x30 /* Upper-case A or P */
#define FMT_DATE_AMPM_SYS2 0x31 /* AM/PM as defined by system settings */
#define FMT_DATE_AMPM_LOWER 0x32 /* Lower-case AM or PM */
#define FMT_DATE_A_LOWER 0x33 /* Lower-case A or P */
#define FMT_NUM_COPY_ZERO 0x34 /* Copy 1 digit or 0 if no digit */
#define FMT_NUM_COPY_SKIP 0x35 /* Copy 1 digit or skip if no digit */
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#define FMT_NUM_DECIMAL 0x36 /* Decimal separator */
#define FMT_NUM_EXP_POS_U 0x37 /* Scientific notation, uppercase, + sign */
#define FMT_NUM_EXP_NEG_U 0x38 /* Scientific notation, lowercase, - sign */
#define FMT_NUM_EXP_POS_L 0x39 /* Scientific notation, uppercase, + sign */
#define FMT_NUM_EXP_NEG_L 0x3A /* Scientific notation, lowercase, - sign */
#define FMT_NUM_CURRENCY 0x3B /* Currency symbol */
#define FMT_NUM_TRUE_FALSE 0x3D /* Convert to "True" or "False" */
#define FMT_NUM_YES_NO 0x3E /* Convert to "Yes" or "No" */
#define FMT_NUM_ON_OFF 0x3F /* Convert to "On" or "Off" */
#define FMT_STR_COPY_SPACE 0x40 /* Copy len chars with space if no char */
#define FMT_STR_COPY_SKIP 0x41 /* Copy len chars or skip if no char */
/* Wine additions */
#define FMT_WINE_HOURS_12 0x81 /* Hours using 12 hour clockhourCopy len chars or skip if no char */
/* Named Formats and their tokenised values */
static const WCHAR szGeneralDate[] = { 'G','e','n','e','r','a','l',' ','D','a','t','e','\0' };
static const BYTE fmtGeneralDate[0x0a] =
{
0x0a,FMT_TYPE_DATE,sizeof(FMT_SHORT_HEADER),
0x0,0x0,0x0,0x0,0x0,
FMT_DATE_GENERAL,FMT_GEN_END
};
static const WCHAR szShortDate[] = { 'S','h','o','r','t',' ','D','a','t','e','\0' };
static const BYTE fmtShortDate[0x0a] =
{
0x0a,FMT_TYPE_DATE,sizeof(FMT_SHORT_HEADER),
0x0,0x0,0x0,0x0,0x0,
FMT_DATE_SHORT,FMT_GEN_END
};
static const WCHAR szMediumDate[] = { 'M','e','d','i','u','m',' ','D','a','t','e','\0' };
static const BYTE fmtMediumDate[0x0a] =
{
0x0a,FMT_TYPE_DATE,sizeof(FMT_SHORT_HEADER),
0x0,0x0,0x0,0x0,0x0,
FMT_DATE_MEDIUM,FMT_GEN_END
};
static const WCHAR szLongDate[] = { 'L','o','n','g',' ','D','a','t','e','\0' };
static const BYTE fmtLongDate[0x0a] =
{
0x0a,FMT_TYPE_DATE,sizeof(FMT_SHORT_HEADER),
0x0,0x0,0x0,0x0,0x0,
FMT_DATE_LONG,FMT_GEN_END
};
static const WCHAR szShortTime[] = { 'S','h','o','r','t',' ','T','i','m','e','\0' };
static const BYTE fmtShortTime[0x0c] =
{
0x0c,FMT_TYPE_DATE,sizeof(FMT_SHORT_HEADER),
0x0,0x0,0x0,0x0,0x0,
FMT_DATE_TIME_UNK2,FMT_DATE_TIME_SEP,FMT_DATE_MIN_0,FMT_GEN_END
};
static const WCHAR szMediumTime[] = { 'M','e','d','i','u','m',' ','T','i','m','e','\0' };
static const BYTE fmtMediumTime[0x11] =
{
0x11,FMT_TYPE_DATE,sizeof(FMT_SHORT_HEADER),
0x0,0x0,0x0,0x0,0x0,
FMT_DATE_HOUR_12_0,FMT_DATE_TIME_SEP,FMT_DATE_MIN_0,
FMT_GEN_INLINE,0x01,' ','\0',FMT_DATE_AMPM_SYS1,FMT_GEN_END
};
static const WCHAR szLongTime[] = { 'L','o','n','g',' ','T','i','m','e','\0' };
static const BYTE fmtLongTime[0x0d] =
{
0x0a,FMT_TYPE_DATE,sizeof(FMT_SHORT_HEADER),
0x0,0x0,0x0,0x0,0x0,
FMT_DATE_TIME_SYS,FMT_GEN_END
};
static const WCHAR szTrueFalse[] = { 'T','r','u','e','/','F','a','l','s','e','\0' };
static const BYTE fmtTrueFalse[0x0d] =
{
0x0d,FMT_TYPE_NUMBER,sizeof(FMT_HEADER),0x0,0x0,0x0,
FMT_FLAG_BOOL,0x0,0x0,0x0,0x0,
FMT_NUM_TRUE_FALSE,FMT_GEN_END
};
static const WCHAR szYesNo[] = { 'Y','e','s','/','N','o','\0' };
static const BYTE fmtYesNo[0x0d] =
{
0x0d,FMT_TYPE_NUMBER,sizeof(FMT_HEADER),0x0,0x0,0x0,
FMT_FLAG_BOOL,0x0,0x0,0x0,0x0,
FMT_NUM_YES_NO,FMT_GEN_END
};
static const WCHAR szOnOff[] = { 'O','n','/','O','f','f','\0' };
static const BYTE fmtOnOff[0x0d] =
{
0x0d,FMT_TYPE_NUMBER,sizeof(FMT_HEADER),0x0,0x0,0x0,
FMT_FLAG_BOOL,0x0,0x0,0x0,0x0,
FMT_NUM_ON_OFF,FMT_GEN_END
};
static const WCHAR szGeneralNumber[] = { 'G','e','n','e','r','a','l',' ','N','u','m','b','e','r','\0' };
static const BYTE fmtGeneralNumber[sizeof(FMT_HEADER)] =
{
sizeof(FMT_HEADER),FMT_TYPE_GENERAL,sizeof(FMT_HEADER),0x0,0x0,0x0
};
static const WCHAR szCurrency[] = { 'C','u','r','r','e','n','c','y','\0' };
static const BYTE fmtCurrency[0x26] =
{
0x26,FMT_TYPE_NUMBER,sizeof(FMT_HEADER),0x12,0x0,0x0,
/* Positive numbers */
FMT_FLAG_THOUSANDS,0xcc,0x0,0x1,0x2,
FMT_NUM_CURRENCY,FMT_NUM_COPY_ZERO,0x1,FMT_NUM_DECIMAL,FMT_NUM_COPY_ZERO,0x2,
FMT_GEN_END,
/* Negative numbers */
FMT_FLAG_THOUSANDS,0xcc,0x0,0x1,0x2,
FMT_GEN_INLINE,0x1,'(','\0',FMT_NUM_CURRENCY,FMT_NUM_COPY_ZERO,0x1,
FMT_NUM_DECIMAL,FMT_NUM_COPY_ZERO,0x2,FMT_GEN_INLINE,0x1,')','\0',
FMT_GEN_END
};
static const WCHAR szFixed[] = { 'F','i','x','e','d','\0' };
static const BYTE fmtFixed[0x11] =
{
0x11,FMT_TYPE_NUMBER,sizeof(FMT_HEADER),0x0,0x0,0x0,
0x0,0x0,0x0,0x1,0x2,
FMT_NUM_COPY_ZERO,0x1,FMT_NUM_DECIMAL,FMT_NUM_COPY_ZERO,0x2,FMT_GEN_END
};
static const WCHAR szStandard[] = { 'S','t','a','n','d','a','r','d','\0' };
static const BYTE fmtStandard[0x11] =
{
0x11,FMT_TYPE_NUMBER,sizeof(FMT_HEADER),0x0,0x0,0x0,
FMT_FLAG_THOUSANDS,0x0,0x0,0x1,0x2,
FMT_NUM_COPY_ZERO,0x1,FMT_NUM_DECIMAL,FMT_NUM_COPY_ZERO,0x2,FMT_GEN_END
};
static const WCHAR szPercent[] = { 'P','e','r','c','e','n','t','\0' };
static const BYTE fmtPercent[0x15] =
{
0x15,FMT_TYPE_NUMBER,sizeof(FMT_HEADER),0x0,0x0,0x0,
FMT_FLAG_PERCENT,0x1,0x0,0x1,0x2,
FMT_NUM_COPY_ZERO,0x1,FMT_NUM_DECIMAL,FMT_NUM_COPY_ZERO,0x2,
FMT_GEN_INLINE,0x1,'%','\0',FMT_GEN_END
};
static const WCHAR szScientific[] = { 'S','c','i','e','n','t','i','f','i','c','\0' };
static const BYTE fmtScientific[0x13] =
{
0x13,FMT_TYPE_NUMBER,sizeof(FMT_HEADER),0x0,0x0,0x0,
FMT_FLAG_EXPONENT,0x0,0x0,0x1,0x2,
FMT_NUM_COPY_ZERO,0x1,FMT_NUM_DECIMAL,FMT_NUM_COPY_ZERO,0x2,FMT_NUM_EXP_POS_U,0x2,FMT_GEN_END
};
typedef struct tagNAMED_FORMAT
{
LPCWSTR name;
const BYTE* format;
} NAMED_FORMAT;
/* Format name to tokenised format. Must be kept sorted by name */
static const NAMED_FORMAT VARIANT_NamedFormats[] =
{
{ szCurrency, fmtCurrency },
{ szFixed, fmtFixed },
{ szGeneralDate, fmtGeneralDate },
{ szGeneralNumber, fmtGeneralNumber },
{ szLongDate, fmtLongDate },
{ szLongTime, fmtLongTime },
{ szMediumDate, fmtMediumDate },
{ szMediumTime, fmtMediumTime },
{ szOnOff, fmtOnOff },
{ szPercent, fmtPercent },
{ szScientific, fmtScientific },
{ szShortDate, fmtShortDate },
{ szShortTime, fmtShortTime },
{ szStandard, fmtStandard },
{ szTrueFalse, fmtTrueFalse },
{ szYesNo, fmtYesNo }
};
typedef const NAMED_FORMAT *LPCNAMED_FORMAT;
static int FormatCompareFn(const void *l, const void *r)
{
return strcmpiW(((LPCNAMED_FORMAT)l)->name, ((LPCNAMED_FORMAT)r)->name);
}
static inline const BYTE *VARIANT_GetNamedFormat(LPCWSTR lpszFormat)
{
NAMED_FORMAT key;
LPCNAMED_FORMAT fmt;
key.name = lpszFormat;
fmt = (LPCNAMED_FORMAT)bsearch(&key, VARIANT_NamedFormats,
sizeof(VARIANT_NamedFormats)/sizeof(NAMED_FORMAT),
sizeof(NAMED_FORMAT), FormatCompareFn);
return fmt ? fmt->format : NULL;
}
/* Return an error if the token for the value will not fit in the destination */
#define NEED_SPACE(x) if (cbTok < (int)(x)) return TYPE_E_BUFFERTOOSMALL; cbTok -= (x)
/* Non-zero if the format is unknown or a given type */
#define COULD_BE(typ) ((!fmt_number && header->type==FMT_TYPE_UNKNOWN)||header->type==typ)
/* State during tokenising */
#define FMT_STATE_OPEN_COPY 0x1 /* Last token written was a copy */
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#define FMT_STATE_WROTE_DECIMAL 0x2 /* Already wrote a decimal separator */
#define FMT_STATE_SEEN_HOURS 0x4 /* See the hh specifier */
#define FMT_STATE_WROTE_MINUTES 0x8 /* Wrote minutes */
/**********************************************************************
* VarTokenizeFormatString [OLEAUT32.140]
*
* Convert a format string into tokenised form.
*
* PARAMS
* lpszFormat [I] Format string to tokenise
* rgbTok [O] Destination for tokenised format
* cbTok [I] Size of rgbTok in bytes
* nFirstDay [I] First day of the week (1-7, or 0 for current system default)
* nFirstWeek [I] How to treat the first week (see notes)
* lcid [I] Locale Id of the format string
* pcbActual [O] If non-NULL, filled with the first token generated
*
* RETURNS
* Success: S_OK. rgbTok contains the tokenised format.
* Failure: E_INVALIDARG, if any argument is invalid.
* TYPE_E_BUFFERTOOSMALL, if rgbTok is not large enough.
*
* NOTES
* Valid values for the nFirstWeek parameter are:
*| Value Meaning
*| ----- -------
*| 0 Use the current system default
*| 1 The first week is that containing Jan 1
*| 2 Four or more days of the first week are in the current year
*| 3 The first week is 7 days long
* See Variant-Formats(), VarFormatFromTokens().
*/
HRESULT WINAPI VarTokenizeFormatString(LPOLESTR lpszFormat, LPBYTE rgbTok,
int cbTok, int nFirstDay, int nFirstWeek,
LCID lcid, int *pcbActual)
{
/* Note: none of these strings should be NUL terminated */
static const WCHAR szTTTTT[] = { 't','t','t','t','t' };
static const WCHAR szAMPM[] = { 'A','M','P','M' };
static const WCHAR szampm[] = { 'a','m','p','m' };
static const WCHAR szAMSlashPM[] = { 'A','M','/','P','M' };
static const WCHAR szamSlashpm[] = { 'a','m','/','p','m' };
const BYTE *namedFmt;
FMT_HEADER *header = (FMT_HEADER*)rgbTok;
FMT_STRING_HEADER *str_header = (FMT_STRING_HEADER*)(rgbTok + sizeof(FMT_HEADER));
FMT_NUMBER_HEADER *num_header = (FMT_NUMBER_HEADER*)str_header;
FMT_DATE_HEADER *date_header = (FMT_DATE_HEADER*)str_header;
BYTE* pOut = rgbTok + sizeof(FMT_HEADER) + sizeof(FMT_STRING_HEADER);
BYTE* pLastHours = NULL;
BYTE fmt_number = 0;
DWORD fmt_state = 0;
LPCWSTR pFormat = lpszFormat;
TRACE("(%s,%p,%d,%d,%d,0x%08lx,%p)\n", debugstr_w(lpszFormat), rgbTok, cbTok,
nFirstDay, nFirstWeek, lcid, pcbActual);
if (!rgbTok ||
nFirstDay < 0 || nFirstDay > 7 || nFirstWeek < 0 || nFirstWeek > 3)
return E_INVALIDARG;
if (!lpszFormat || !*lpszFormat)
{
/* An empty string means 'general format' */
NEED_SPACE(sizeof(BYTE));
*rgbTok = FMT_TO_STRING;
if (pcbActual)
*pcbActual = FMT_TO_STRING;
return S_OK;
}
if (cbTok > 255)
cbTok = 255; /* Ensure we error instead of wrapping */
/* Named formats */
namedFmt = VARIANT_GetNamedFormat(lpszFormat);
if (namedFmt)
{
NEED_SPACE(namedFmt[0]);
memcpy(rgbTok, namedFmt, namedFmt[0]);
TRACE("Using pre-tokenised named format %s\n", debugstr_w(lpszFormat));
/* FIXME: pcbActual */
return S_OK;
}
/* Insert header */
NEED_SPACE(sizeof(FMT_HEADER) + sizeof(FMT_STRING_HEADER));
memset(header, 0, sizeof(FMT_HEADER));
memset(str_header, 0, sizeof(FMT_STRING_HEADER));
header->starts[fmt_number] = sizeof(FMT_HEADER);
while (*pFormat)
{
/* --------------
* General tokens
* --------------
*/
if (*pFormat == ';')
{
while (*pFormat == ';')
{
TRACE(";\n");
if (++fmt_number > 3)
return E_INVALIDARG; /* too many formats */
pFormat++;
}
if (*pFormat)
{
TRACE("New header\n");
NEED_SPACE(sizeof(BYTE) + sizeof(FMT_STRING_HEADER));
*pOut++ = FMT_GEN_END;
header->starts[fmt_number] = pOut - rgbTok;
str_header = (FMT_STRING_HEADER*)pOut;
num_header = (FMT_NUMBER_HEADER*)pOut;
date_header = (FMT_DATE_HEADER*)pOut;
memset(str_header, 0, sizeof(FMT_STRING_HEADER));
pOut += sizeof(FMT_STRING_HEADER);
fmt_state = 0;
pLastHours = NULL;
}
}
else if (*pFormat == '\\')
{
/* Escaped character */
if (pFormat[1])
{
NEED_SPACE(3 * sizeof(BYTE));
pFormat++;
*pOut++ = FMT_GEN_COPY;
*pOut++ = pFormat - lpszFormat;
*pOut++ = 0x1;
fmt_state |= FMT_STATE_OPEN_COPY;
TRACE("'\\'\n");
}
else
fmt_state &= ~FMT_STATE_OPEN_COPY;
pFormat++;
}
else if (*pFormat == '"')
{
/* Escaped string
2004-01-06 23:08:33 +01:00
* Note: Native encodes "" as a copy of length zero. That's just dumb, so
* here we avoid encoding anything in this case.
*/
if (!pFormat[1])
pFormat++;
else if (pFormat[1] == '"')
{
pFormat += 2;
}
else
{
LPCWSTR start = ++pFormat;
while (*pFormat && *pFormat != '"')
pFormat++;
NEED_SPACE(3 * sizeof(BYTE));
*pOut++ = FMT_GEN_COPY;
*pOut++ = start - lpszFormat;
*pOut++ = pFormat - start;
if (*pFormat == '"')
pFormat++;
TRACE("Quoted string pos %d, len %d\n", pOut[-2], pOut[-1]);
}
fmt_state &= ~FMT_STATE_OPEN_COPY;
}
/* -------------
* Number tokens
* -------------
*/
else if (*pFormat == '0' && COULD_BE(FMT_TYPE_NUMBER))
{
/* Number formats: Digit from number or '0' if no digits
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_NUMBER;
NEED_SPACE(2 * sizeof(BYTE));
*pOut++ = FMT_NUM_COPY_ZERO;
*pOut = 0x0;
while (*pFormat == '0')
{
*pOut = *pOut + 1;
pFormat++;
}
if (fmt_state & FMT_STATE_WROTE_DECIMAL)
num_header->fractional += *pOut;
else
num_header->whole += *pOut;
TRACE("%d 0's\n", *pOut);
pOut++;
fmt_state &= ~FMT_STATE_OPEN_COPY;
}
else if (*pFormat == '#' && COULD_BE(FMT_TYPE_NUMBER))
{
/* Number formats: Digit from number or blank if no digits
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_NUMBER;
NEED_SPACE(2 * sizeof(BYTE));
*pOut++ = FMT_NUM_COPY_SKIP;
*pOut = 0x0;
while (*pFormat == '#')
{
*pOut = *pOut + 1;
pFormat++;
}
if (fmt_state & FMT_STATE_WROTE_DECIMAL)
num_header->fractional += *pOut;
else
num_header->whole += *pOut;
TRACE("%d #'s\n", *pOut);
pOut++;
fmt_state &= ~FMT_STATE_OPEN_COPY;
}
else if (*pFormat == '.' && COULD_BE(FMT_TYPE_NUMBER) &&
!(fmt_state & FMT_STATE_WROTE_DECIMAL))
{
2004-01-06 23:08:33 +01:00
/* Number formats: Decimal separator when 1st seen, literal thereafter
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_NUMBER;
NEED_SPACE(sizeof(BYTE));
*pOut++ = FMT_NUM_DECIMAL;
fmt_state |= FMT_STATE_WROTE_DECIMAL;
fmt_state &= ~FMT_STATE_OPEN_COPY;
pFormat++;
TRACE("decimal sep\n");
}
/* FIXME: E+ E- e+ e- => Exponent */
/* FIXME: %% => Divide by 1000 */
else if (*pFormat == ',' && header->type == FMT_TYPE_NUMBER)
{
2004-01-06 23:08:33 +01:00
/* Number formats: Use the thousands separator
* Other formats: Literal
*/
num_header->flags |= FMT_FLAG_THOUSANDS;
pFormat++;
fmt_state &= ~FMT_STATE_OPEN_COPY;
TRACE("thousands sep\n");
}
/* -----------
* Date tokens
* -----------
*/
else if (*pFormat == '/' && COULD_BE(FMT_TYPE_DATE))
{
2004-01-06 23:08:33 +01:00
/* Date formats: Date separator
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
*pOut++ = FMT_DATE_DATE_SEP;
pFormat++;
fmt_state &= ~FMT_STATE_OPEN_COPY;
TRACE("date sep\n");
}
else if (*pFormat == ':' && COULD_BE(FMT_TYPE_DATE))
{
2004-01-06 23:08:33 +01:00
/* Date formats: Time separator
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
*pOut++ = FMT_DATE_TIME_SEP;
pFormat++;
fmt_state &= ~FMT_STATE_OPEN_COPY;
TRACE("time sep\n");
}
else if ((*pFormat == 'a' || *pFormat == 'A') &&
!strncmpiW(pFormat, szAMPM, sizeof(szAMPM)/sizeof(WCHAR)))
{
/* Date formats: System AM/PM designation
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
pFormat += sizeof(szAMPM)/sizeof(WCHAR);
if (!strncmpW(pFormat, szampm, sizeof(szampm)/sizeof(WCHAR)))
*pOut++ = FMT_DATE_AMPM_SYS2;
else
*pOut++ = FMT_DATE_AMPM_SYS1;
if (pLastHours)
*pLastHours = *pLastHours + 2;
TRACE("ampm\n");
}
else if (*pFormat == 'a' && pFormat[1] == '/' &&
(pFormat[2] == 'p' || pFormat[2] == 'P'))
{
/* Date formats: lowercase a or p designation
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
pFormat += 3;
*pOut++ = FMT_DATE_A_LOWER;
if (pLastHours)
*pLastHours = *pLastHours + 2;
TRACE("a/p\n");
}
else if (*pFormat == 'A' && pFormat[1] == '/' &&
(pFormat[2] == 'p' || pFormat[2] == 'P'))
{
/* Date formats: Uppercase a or p designation
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
pFormat += 3;
*pOut++ = FMT_DATE_A_UPPER;
if (pLastHours)
*pLastHours = *pLastHours + 2;
TRACE("A/P\n");
}
else if (*pFormat == 'a' &&
!strncmpW(pFormat, szamSlashpm, sizeof(szamSlashpm)/sizeof(WCHAR)))
{
/* Date formats: lowercase AM or PM designation
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
pFormat += sizeof(szamSlashpm)/sizeof(WCHAR);
*pOut++ = FMT_DATE_AMPM_LOWER;
if (pLastHours)
*pLastHours = *pLastHours + 2;
TRACE("AM/PM\n");
}
else if (*pFormat == 'A' &&
!strncmpW(pFormat, szAMSlashPM, sizeof(szAMSlashPM)/sizeof(WCHAR)))
{
/* Date formats: Uppercase AM or PM designation
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
pFormat += sizeof(szAMSlashPM)/sizeof(WCHAR);
*pOut++ = FMT_DATE_AMPM_UPPER;
TRACE("AM/PM\n");
}
else if (*pFormat == 'c' || *pFormat == 'C')
{
/* Date formats: General date format
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
pFormat += sizeof(szAMSlashPM)/sizeof(WCHAR);
*pOut++ = FMT_DATE_GENERAL;
TRACE("gen date\n");
}
else if ((*pFormat == 'd' || *pFormat == 'D') && COULD_BE(FMT_TYPE_DATE))
{
/* Date formats: Day specifier
* Other formats: Literal
* Types the format if found
*/
int count = -1;
header->type = FMT_TYPE_DATE;
while ((*pFormat == 'd' || *pFormat == 'D') && count < 6)
{
pFormat++;
count++;
}
NEED_SPACE(sizeof(BYTE));
*pOut++ = FMT_DATE_DAY + count;
fmt_state &= ~FMT_STATE_OPEN_COPY;
/* When we find the days token, reset the seen hours state so that
* 'mm' is again written as month when encountered.
*/
fmt_state &= ~FMT_STATE_SEEN_HOURS;
TRACE("%d d's\n", count + 1);
}
else if ((*pFormat == 'h' || *pFormat == 'H') && COULD_BE(FMT_TYPE_DATE))
{
/* Date formats: Hour specifier
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
pFormat++;
/* Record the position of the hours specifier - if we encounter
* an am/pm specifier we will change the hours from 24 to 12.
*/
pLastHours = pOut;
if (*pFormat == 'h' || *pFormat == 'H')
{
pFormat++;
*pOut++ = FMT_DATE_HOUR_0;
TRACE("hh\n");
}
else
{
*pOut++ = FMT_DATE_HOUR;
TRACE("h\n");
}
fmt_state &= ~FMT_STATE_OPEN_COPY;
/* Note that now we have seen an hours token, the next occurence of
* 'mm' indicates minutes, not months.
*/
fmt_state |= FMT_STATE_SEEN_HOURS;
}
else if ((*pFormat == 'm' || *pFormat == 'M') && COULD_BE(FMT_TYPE_DATE))
{
/* Date formats: Month specifier (or Minute specifier, after hour specifier)
* Other formats: Literal
* Types the format if found
*/
int count = -1;
header->type = FMT_TYPE_DATE;
while ((*pFormat == 'm' || *pFormat == 'M') && count < 4)
{
pFormat++;
count++;
}
NEED_SPACE(sizeof(BYTE));
if (count <= 1 && fmt_state & FMT_STATE_SEEN_HOURS &&
!(fmt_state & FMT_STATE_WROTE_MINUTES))
{
/* We have seen an hours specifier and not yet written a minutes
* specifier. Write this as minutes and thereafter as months.
*/
*pOut++ = count == 1 ? FMT_DATE_MIN_0 : FMT_DATE_MIN;
fmt_state |= FMT_STATE_WROTE_MINUTES; /* Hereafter write months */
}
else
*pOut++ = FMT_DATE_MON + count; /* Months */
fmt_state &= ~FMT_STATE_OPEN_COPY;
TRACE("%d m's\n", count + 1);
}
else if ((*pFormat == 'n' || *pFormat == 'N') && COULD_BE(FMT_TYPE_DATE))
{
/* Date formats: Minute specifier
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
pFormat++;
if (*pFormat == 'n' || *pFormat == 'N')
{
pFormat++;
*pOut++ = FMT_DATE_MIN_0;
TRACE("nn\n");
}
else
{
*pOut++ = FMT_DATE_MIN;
TRACE("n\n");
}
fmt_state &= ~FMT_STATE_OPEN_COPY;
}
else if ((*pFormat == 'q' || *pFormat == 'q') && COULD_BE(FMT_TYPE_DATE))
{
/* Date formats: Quarter specifier
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
*pOut++ = FMT_DATE_QUARTER;
pFormat++;
fmt_state &= ~FMT_STATE_OPEN_COPY;
TRACE("quarter\n");
}
else if ((*pFormat == 's' || *pFormat == 'S') && COULD_BE(FMT_TYPE_DATE))
{
/* Date formats: Second specifier
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
NEED_SPACE(sizeof(BYTE));
pFormat++;
if (*pFormat == 's' || *pFormat == 'S')
{
pFormat++;
*pOut++ = FMT_DATE_SEC_0;
TRACE("ss\n");
}
else
{
*pOut++ = FMT_DATE_SEC;
TRACE("s\n");
}
fmt_state &= ~FMT_STATE_OPEN_COPY;
}
else if ((*pFormat == 't' || *pFormat == 'T') &&
!strncmpiW(pFormat, szTTTTT, sizeof(szTTTTT)/sizeof(WCHAR)))
{
/* Date formats: System time specifier
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
pFormat += sizeof(szTTTTT)/sizeof(WCHAR);
NEED_SPACE(sizeof(BYTE));
*pOut++ = FMT_DATE_TIME_SYS;
fmt_state &= ~FMT_STATE_OPEN_COPY;
}
else if ((*pFormat == 'w' || *pFormat == 'W') && COULD_BE(FMT_TYPE_DATE))
{
/* Date formats: Week of the year/Day of the week
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_DATE;
pFormat++;
if (*pFormat == 'w' || *pFormat == 'W')
{
NEED_SPACE(3 * sizeof(BYTE));
pFormat++;
*pOut++ = FMT_DATE_WEEK_YEAR;
*pOut++ = nFirstDay;
*pOut++ = nFirstWeek;
TRACE("ww\n");
}
else
{
NEED_SPACE(2 * sizeof(BYTE));
*pOut++ = FMT_DATE_DAY_WEEK;
*pOut++ = nFirstDay;
TRACE("w\n");
}
fmt_state &= ~FMT_STATE_OPEN_COPY;
}
else if ((*pFormat == 'y' || *pFormat == 'Y') && COULD_BE(FMT_TYPE_DATE))
{
/* Date formats: Day of year/Year specifier
* Other formats: Literal
* Types the format if found
*/
int count = -1;
header->type = FMT_TYPE_DATE;
while ((*pFormat == 'y' || *pFormat == 'Y') && count < 4)
{
pFormat++;
count++;
}
if (count == 2)
{
count--; /* 'yyy' has no meaning, despite what MSDN says */
pFormat--;
}
NEED_SPACE(sizeof(BYTE));
*pOut++ = FMT_DATE_YEAR_DOY + count;
fmt_state &= ~FMT_STATE_OPEN_COPY;
TRACE("%d y's\n", count + 1);
}
/* -------------
* String tokens
* -------------
*/
else if (*pFormat == '@' && COULD_BE(FMT_TYPE_STRING))
{
/* String formats: Character from string or space if no char
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_STRING;
NEED_SPACE(2 * sizeof(BYTE));
*pOut++ = FMT_STR_COPY_SPACE;
*pOut = 0x0;
while (*pFormat == '@')
{
*pOut = *pOut + 1;
str_header->copy_chars++;
pFormat++;
}
TRACE("%d @'s\n", *pOut);
pOut++;
fmt_state &= ~FMT_STATE_OPEN_COPY;
}
else if (*pFormat == '&' && COULD_BE(FMT_TYPE_STRING))
{
/* String formats: Character from string or skip if no char
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_STRING;
NEED_SPACE(2 * sizeof(BYTE));
*pOut++ = FMT_STR_COPY_SKIP;
*pOut = 0x0;
while (*pFormat == '&')
{
*pOut = *pOut + 1;
str_header->copy_chars++;
pFormat++;
}
TRACE("%d &'s\n", *pOut);
pOut++;
fmt_state &= ~FMT_STATE_OPEN_COPY;
}
else if ((*pFormat == '<' || *pFormat == '>') && COULD_BE(FMT_TYPE_STRING))
{
/* String formats: Use upper/lower case
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_STRING;
if (*pFormat == '<')
str_header->flags |= FMT_FLAG_LT;
else
str_header->flags |= FMT_FLAG_GT;
TRACE("to %s case\n", *pFormat == '<' ? "lower" : "upper");
pFormat++;
fmt_state &= ~FMT_STATE_OPEN_COPY;
}
else if (*pFormat == '!' && COULD_BE(FMT_TYPE_STRING))
{
/* String formats: Copy right to left
* Other formats: Literal
* Types the format if found
*/
header->type = FMT_TYPE_STRING;
str_header->flags |= FMT_FLAG_RTL;
pFormat++;
fmt_state &= ~FMT_STATE_OPEN_COPY;
TRACE("copy right-to-left\n");
}
/* --------
* Literals
* --------
*/
/* FIXME: [ seems to be ignored */
else
{
if (*pFormat == '%' && header->type == FMT_TYPE_NUMBER)
{
/* Number formats: Percentage indicator, also a literal
* Other formats: Literal
* Doesn't type the format
*/
num_header->flags |= FMT_FLAG_PERCENT;
}
if (fmt_state & FMT_STATE_OPEN_COPY)
{
pOut[-1] = pOut[-1] + 1; /* Increase the length of the open copy */
TRACE("extend copy (char '%c'), length now %d\n", *pFormat, pOut[-1]);
}
else
{
/* Create a new open copy */
TRACE("New copy (char '%c')\n", *pFormat);
NEED_SPACE(3 * sizeof(BYTE));
*pOut++ = FMT_GEN_COPY;
*pOut++ = pFormat - lpszFormat;
*pOut++ = 0x1;
fmt_state |= FMT_STATE_OPEN_COPY;
}
pFormat++;
}
}
*pOut++ = FMT_GEN_END;
header->size = pOut - rgbTok;
if (pcbActual)
*pcbActual = header->size;
return S_OK;
}
/* Number formatting state flags */
2004-01-06 23:08:33 +01:00
#define NUM_WROTE_DEC 0x01 /* Written the decimal separator */
/* Format a variant using a number format */
static HRESULT VARIANT_FormatNumber(LPVARIANT pVarIn, LPOLESTR lpszFormat,
LPBYTE rgbTok, ULONG dwFlags,
BSTR *pbstrOut, LCID lcid)
{
BYTE rgbDig[256];
NUMPARSE np;
int wholeNumberDigits, fractionalDigits, divisor10 = 0, multiplier10 = 0;
WCHAR buff[256], *pBuff = buff;
VARIANT vString, vBool;
DWORD dwState = 0;
FMT_HEADER *header = (FMT_HEADER*)rgbTok;
FMT_NUMBER_HEADER *numHeader;
const BYTE* pToken = NULL;
HRESULT hRes = S_OK;
TRACE("(%p->(%s%s),%s,%p,0x%08lx,%p,0x%08lx)\n", pVarIn, debugstr_VT(pVarIn),
debugstr_VF(pVarIn), debugstr_w(lpszFormat), rgbTok, dwFlags, pbstrOut,
lcid);
V_VT(&vString) = VT_EMPTY;
V_VT(&vBool) = VT_BOOL;
if (V_TYPE(pVarIn) == VT_EMPTY || V_TYPE(pVarIn) == VT_NULL)
{
wholeNumberDigits = fractionalDigits = 0;
numHeader = (FMT_NUMBER_HEADER*)(rgbTok + FmtGetNull(header));
V_BOOL(&vBool) = VARIANT_FALSE;
}
else
{
/* Get a number string from pVarIn, and parse it */
hRes = VariantChangeTypeEx(&vString, pVarIn, LCID_US, VARIANT_NOUSEROVERRIDE, VT_BSTR);
if (FAILED(hRes))
return hRes;
np.cDig = sizeof(rgbDig);
np.dwInFlags = NUMPRS_STD;
hRes = VarParseNumFromStr(V_BSTR(&vString), LCID_US, 0, &np, rgbDig);
if (FAILED(hRes))
return hRes;
if (np.nPwr10 < 0)
{
if (-np.nPwr10 >= np.cDig)
{
/* A real number < +/- 1.0 e.g. 0.1024 or 0.01024 */
wholeNumberDigits = 0;
fractionalDigits = np.cDig;
divisor10 = -np.nPwr10;
}
else
{
/* An exactly represented real number e.g. 1.024 */
wholeNumberDigits = np.cDig + np.nPwr10;
fractionalDigits = np.cDig - wholeNumberDigits;
divisor10 = np.cDig - wholeNumberDigits;
}
}
else if (np.nPwr10 == 0)
{
/* An exactly represented whole number e.g. 1024 */
wholeNumberDigits = np.cDig;
fractionalDigits = 0;
}
else /* np.nPwr10 > 0 */
{
/* A whole number followed by nPwr10 0's e.g. 102400 */
wholeNumberDigits = np.cDig;
fractionalDigits = 0;
multiplier10 = np.nPwr10;
}
/* Figure out which format to use */
if (np.dwOutFlags & NUMPRS_NEG)
{
numHeader = (FMT_NUMBER_HEADER*)(rgbTok + FmtGetNegative(header));
V_BOOL(&vBool) = VARIANT_TRUE;
}
else if (wholeNumberDigits == 1 && !fractionalDigits && !multiplier10 &&
!divisor10 && rgbDig[0] == 0)
{
numHeader = (FMT_NUMBER_HEADER*)(rgbTok + FmtGetZero(header));
V_BOOL(&vBool) = VARIANT_FALSE;
}
else
{
numHeader = (FMT_NUMBER_HEADER*)(rgbTok + FmtGetPositive(header));
V_BOOL(&vBool) = VARIANT_TRUE;
}
TRACE("num header: flags = 0x%x, mult=%d, div=%d, whole=%d, fract=%d\n",
numHeader->flags, numHeader->multiplier, numHeader->divisor,
numHeader->whole, numHeader->fractional);
if (numHeader->flags & FMT_FLAG_PERCENT &&
!(wholeNumberDigits == 1 && !fractionalDigits && !multiplier10 &&
!divisor10 && rgbDig[0] == 0))
{
/* *100 for %'s. Try to 'steal' fractional digits if we can */
TRACE("Fraction - multiply by 100\n");
if (!fractionalDigits)
multiplier10 += 2;
else
{
fractionalDigits--;
wholeNumberDigits++;
if (!fractionalDigits)
multiplier10++;
else
{
fractionalDigits--;
wholeNumberDigits++;
}
}
}
TRACE("cDig %d; nPwr10 %d, whole %d, frac %d ", np.cDig,
np.nPwr10, wholeNumberDigits, fractionalDigits);
TRACE("mult %d; div %d\n", multiplier10, divisor10);
}
pToken = (const BYTE*)numHeader + sizeof(FMT_NUMBER_HEADER);
while (SUCCEEDED(hRes) && *pToken != FMT_GEN_END)
{
WCHAR defaultChar = '?';
DWORD boolFlag, localeValue = 0;
if (pToken - rgbTok > header->size)
{
ERR("Ran off the end of the format!\n");
hRes = E_INVALIDARG;
goto VARIANT_FormatNumber_Exit;
}
switch (*pToken)
{
case FMT_GEN_COPY:
TRACE("copy %s\n", debugstr_wn(lpszFormat + pToken[1], pToken[2]));
memcpy(pBuff, lpszFormat + pToken[1], pToken[2] * sizeof(WCHAR));
pBuff += pToken[2];
pToken += 2;
break;
case FMT_GEN_INLINE:
pToken += 2;
TRACE("copy %s\n", debugstr_a(pToken));
while (*pToken)
*pBuff++ = *pToken++;
break;
case FMT_NUM_YES_NO:
boolFlag = VAR_BOOLYESNO;
goto VARIANT_FormatNumber_Bool;
case FMT_NUM_ON_OFF:
boolFlag = VAR_BOOLONOFF;
goto VARIANT_FormatNumber_Bool;
case FMT_NUM_TRUE_FALSE:
boolFlag = VAR_LOCALBOOL;
VARIANT_FormatNumber_Bool:
{
BSTR boolStr = NULL;
if (pToken[1] != FMT_GEN_END)
{
ERR("Boolean token not at end of format!\n");
hRes = E_INVALIDARG;
goto VARIANT_FormatNumber_Exit;
}
hRes = VarBstrFromBool(V_BOOL(&vBool), lcid, boolFlag, &boolStr);
if (SUCCEEDED(hRes))
{
strcpyW(pBuff, boolStr);
SysFreeString(boolStr);
while (*pBuff)
pBuff++;
}
}
break;
case FMT_NUM_DECIMAL:
2004-01-06 23:08:33 +01:00
TRACE("write decimal separator\n");
localeValue = LOCALE_SDECIMAL;
defaultChar = '.';
dwState |= NUM_WROTE_DEC;
break;
case FMT_NUM_CURRENCY:
TRACE("write currency symbol\n");
localeValue = LOCALE_SCURRENCY;
defaultChar = '$';
break;
case FMT_NUM_EXP_POS_U:
case FMT_NUM_EXP_POS_L:
case FMT_NUM_EXP_NEG_U:
case FMT_NUM_EXP_NEG_L:
if (*pToken == FMT_NUM_EXP_POS_L || *pToken == FMT_NUM_EXP_NEG_L)
*pBuff++ = 'e';
else
*pBuff++ = 'E';
if (divisor10)
{
*pBuff++ = '-';
sprintfW(pBuff, szPercentZeroStar_d, pToken[1], divisor10);
}
else
{
if (*pToken == FMT_NUM_EXP_POS_L || *pToken == FMT_NUM_EXP_POS_U)
*pBuff++ = '+';
sprintfW(pBuff, szPercentZeroStar_d, pToken[1], multiplier10);
}
while (*pBuff)
pBuff++;
pToken++;
break;
case FMT_NUM_COPY_SKIP:
if (dwState & NUM_WROTE_DEC)
{
int count;
TRACE("write %d fractional digits or skip\n", pToken[1]);
for (count = 0; count < fractionalDigits; count++)
pBuff[count] = '0' + rgbDig[wholeNumberDigits + count];
pBuff += fractionalDigits;
}
else
{
int count;
TRACE("write %d digits or skip\n", pToken[1]);
if (wholeNumberDigits > 1 || rgbDig[0] > 0)
{
TRACE("write %d whole number digits\n", wholeNumberDigits);
for (count = 0; count < wholeNumberDigits; count++)
*pBuff++ = '0' + rgbDig[count];
TRACE("write %d whole trailing 0's\n", multiplier10);
for (count = 0; count < multiplier10; count++)
*pBuff++ = '0'; /* Write trailing zeros for multiplied values */
}
}
pToken++;
break;
case FMT_NUM_COPY_ZERO:
if (dwState & NUM_WROTE_DEC)
{
int count;
TRACE("write %d fractional digits or 0's\n", pToken[1]);
for (count = 0; count < fractionalDigits; count++)
pBuff[count] = '0' + rgbDig[wholeNumberDigits + count];
pBuff += fractionalDigits;
if (pToken[1] > fractionalDigits)
{
count = pToken[1] - fractionalDigits;
while (count--)
*pBuff++ = '0'; /* Write trailing zeros for missing digits */
}
}
else
{
int count;
TRACE("write %d digits or 0's\n", pToken[1]);
if (pToken[1] > (wholeNumberDigits + multiplier10))
{
count = pToken[1] - (wholeNumberDigits + multiplier10);
TRACE("write %d leading zeros\n", count);
while(count--)
*pBuff++ = '0'; /* Write leading zeros for missing digits */
}
TRACE("write %d whole number digits\n", wholeNumberDigits);
for (count = 0; count < wholeNumberDigits; count++)
*pBuff++ = '0' + rgbDig[count];
TRACE("write %d whole trailing 0's\n", multiplier10);
for (count = 0; count < multiplier10; count++)
*pBuff++ = '0'; /* Write trailing zeros for multiplied values */
}
pToken++;
break;
default:
ERR("Unknown token 0x%02x!\n", *pToken);
hRes = E_INVALIDARG;
goto VARIANT_FormatNumber_Exit;
}
if (localeValue)
{
if (GetLocaleInfoW(lcid, localeValue, pBuff,
sizeof(buff)/sizeof(WCHAR)-(pBuff-buff)))
{
TRACE("added %s\n", debugstr_w(pBuff));
while (*pBuff)
pBuff++;
}
else
{
TRACE("added %d '%c'\n", defaultChar, defaultChar);
*pBuff++ = defaultChar;
}
}
pToken++;
}
VARIANT_FormatNumber_Exit:
VariantClear(&vString);
*pBuff = '\0';
TRACE("buff is %s\n", debugstr_w(buff));
if (SUCCEEDED(hRes))
{
*pbstrOut = SysAllocString(buff);
if (!*pbstrOut)
hRes = E_OUTOFMEMORY;
}
return hRes;
}
/* Format a variant using a date format */
static HRESULT VARIANT_FormatDate(LPVARIANT pVarIn, LPOLESTR lpszFormat,
LPBYTE rgbTok, ULONG dwFlags,
BSTR *pbstrOut, LCID lcid)
{
WCHAR buff[256], *pBuff = buff;
VARIANT vDate;
UDATE udate;
FMT_HEADER *header = (FMT_HEADER*)rgbTok;
FMT_DATE_HEADER *dateHeader;
const BYTE* pToken = NULL;
HRESULT hRes;
TRACE("(%p->(%s%s),%s,%p,0x%08lx,%p,0x%08lx)\n", pVarIn, debugstr_VT(pVarIn),
debugstr_VF(pVarIn), debugstr_w(lpszFormat), rgbTok, dwFlags, pbstrOut,
lcid);
V_VT(&vDate) = VT_EMPTY;
if (V_TYPE(pVarIn) == VT_EMPTY || V_TYPE(pVarIn) == VT_NULL)
{
dateHeader = (FMT_DATE_HEADER*)(rgbTok + FmtGetNegative(header));
V_DATE(&vDate) = 0;
}
else
{
USHORT usFlags = dwFlags & VARIANT_CALENDAR_HIJRI ? VAR_CALENDAR_HIJRI : 0;
hRes = VariantChangeTypeEx(&vDate, pVarIn, LCID_US, usFlags, VT_DATE);
if (FAILED(hRes))
return hRes;
dateHeader = (FMT_DATE_HEADER*)(rgbTok + FmtGetPositive(header));
}
hRes = VarUdateFromDate(V_DATE(&vDate), 0 /* FIXME: flags? */, &udate);
if (FAILED(hRes))
return hRes;
pToken = (const BYTE*)dateHeader + sizeof(FMT_DATE_HEADER);
while (*pToken != FMT_GEN_END)
{
DWORD dwVal = 0, localeValue = 0, dwFmt = 0;
LPCWSTR szPrintFmt = NULL;
WCHAR defaultChar = '?';
if (pToken - rgbTok > header->size)
{
ERR("Ran off the end of the format!\n");
hRes = E_INVALIDARG;
goto VARIANT_FormatDate_Exit;
}
switch (*pToken)
{
case FMT_GEN_COPY:
TRACE("copy %s\n", debugstr_wn(lpszFormat + pToken[1], pToken[2]));
memcpy(pBuff, lpszFormat + pToken[1], pToken[2] * sizeof(WCHAR));
pBuff += pToken[2];
pToken += 2;
break;
case FMT_DATE_TIME_SEP:
2004-01-06 23:08:33 +01:00
TRACE("time separator\n");
localeValue = LOCALE_STIME;
defaultChar = ':';
break;
case FMT_DATE_DATE_SEP:
2004-01-06 23:08:33 +01:00
TRACE("date separator\n");
localeValue = LOCALE_SDATE;
defaultChar = '/';
break;
case FMT_DATE_GENERAL:
{
BSTR date = NULL;
WCHAR *pDate = date;
hRes = VarBstrFromDate(V_DATE(&vDate), lcid, 0, pbstrOut);
if (FAILED(hRes))
goto VARIANT_FormatDate_Exit;
while (*pDate)
*pBuff++ = *pDate++;
SysFreeString(date);
}
break;
case FMT_DATE_QUARTER:
if (udate.st.wMonth <= 3)
*pBuff++ = '1';
else if (udate.st.wMonth <= 6)
*pBuff++ = '2';
else if (udate.st.wMonth <= 9)
*pBuff++ = '3';
else
*pBuff++ = '4';
break;
case FMT_DATE_TIME_SYS:
{
/* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
BSTR date = NULL;
WCHAR *pDate = date;
hRes = VarBstrFromDate(V_DATE(&vDate), lcid, VAR_TIMEVALUEONLY, pbstrOut);
if (FAILED(hRes))
goto VARIANT_FormatDate_Exit;
while (*pDate)
*pBuff++ = *pDate++;
SysFreeString(date);
}
break;
case FMT_DATE_DAY:
szPrintFmt = szPercent_d;
dwVal = udate.st.wDay;
break;
case FMT_DATE_DAY_0:
szPrintFmt = szPercentZeroTwo_d;
dwVal = udate.st.wDay;
break;
case FMT_DATE_DAY_SHORT:
/* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
TRACE("short day\n");
localeValue = LOCALE_SABBREVDAYNAME1 + udate.st.wMonth - 1;
defaultChar = '?';
break;
case FMT_DATE_DAY_LONG:
/* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
TRACE("long day\n");
localeValue = LOCALE_SDAYNAME1 + udate.st.wMonth - 1;
defaultChar = '?';
break;
case FMT_DATE_SHORT:
/* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
dwFmt = LOCALE_SSHORTDATE;
break;
case FMT_DATE_LONG:
/* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
dwFmt = LOCALE_SLONGDATE;
break;
case FMT_DATE_MEDIUM:
FIXME("Medium date treated as long date\n");
dwFmt = LOCALE_SLONGDATE;
break;
case FMT_DATE_DAY_WEEK:
szPrintFmt = szPercent_d;
if (pToken[1])
dwVal = udate.st.wDayOfWeek + 2 - pToken[1];
else
{
GetLocaleInfoW(lcid,LOCALE_RETURN_NUMBER|LOCALE_IFIRSTDAYOFWEEK,
(LPWSTR)&dwVal, sizeof(dwVal)/sizeof(WCHAR));
dwVal = udate.st.wDayOfWeek + 1 - dwVal;
}
pToken++;
break;
case FMT_DATE_WEEK_YEAR:
szPrintFmt = szPercent_d;
dwVal = udate.wDayOfYear / 7 + 1;
pToken += 2;
FIXME("Ignoring nFirstDay of %d, nFirstWeek of %d\n", pToken[0], pToken[1]);
break;
case FMT_DATE_MON:
szPrintFmt = szPercent_d;
dwVal = udate.st.wMonth;
break;
case FMT_DATE_MON_0:
szPrintFmt = szPercentZeroTwo_d;
dwVal = udate.st.wMonth;
break;
case FMT_DATE_MON_SHORT:
/* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
TRACE("short month\n");
localeValue = LOCALE_SABBREVMONTHNAME1 + udate.st.wMonth - 1;
defaultChar = '?';
break;
case FMT_DATE_MON_LONG:
/* FIXME: VARIANT_CALENDAR HIJRI should cause Hijri output */
TRACE("long month\n");
localeValue = LOCALE_SMONTHNAME1 + udate.st.wMonth - 1;
defaultChar = '?';
break;
case FMT_DATE_YEAR_DOY:
szPrintFmt = szPercent_d;
dwVal = udate.wDayOfYear;
break;
case FMT_DATE_YEAR_0:
szPrintFmt = szPercentZeroTwo_d;
dwVal = udate.st.wYear % 100;
break;
case FMT_DATE_YEAR_LONG:
szPrintFmt = szPercent_d;
dwVal = udate.st.wYear;
break;
case FMT_DATE_MIN:
szPrintFmt = szPercent_d;
dwVal = udate.st.wMinute;
break;
case FMT_DATE_MIN_0:
szPrintFmt = szPercentZeroTwo_d;
dwVal = udate.st.wMinute;
break;
case FMT_DATE_SEC:
szPrintFmt = szPercent_d;
dwVal = udate.st.wSecond;
break;
case FMT_DATE_SEC_0:
szPrintFmt = szPercentZeroTwo_d;
dwVal = udate.st.wSecond;
break;
case FMT_DATE_HOUR:
szPrintFmt = szPercent_d;
dwVal = udate.st.wHour;
break;
case FMT_DATE_HOUR_0:
szPrintFmt = szPercentZeroTwo_d;
dwVal = udate.st.wHour;
break;
case FMT_DATE_HOUR_12:
szPrintFmt = szPercent_d;
dwVal = udate.st.wHour ? udate.st.wHour > 12 ? udate.st.wHour - 12 : udate.st.wHour : 12;
break;
case FMT_DATE_HOUR_12_0:
szPrintFmt = szPercentZeroTwo_d;
dwVal = udate.st.wHour ? udate.st.wHour > 12 ? udate.st.wHour - 12 : udate.st.wHour : 12;
break;
case FMT_DATE_AMPM_SYS1:
case FMT_DATE_AMPM_SYS2:
localeValue = udate.st.wHour < 12 ? LOCALE_S1159 : LOCALE_S2359;
defaultChar = '?';
break;
case FMT_DATE_AMPM_UPPER:
*pBuff++ = udate.st.wHour < 12 ? 'A' : 'P';
*pBuff++ = 'M';
break;
case FMT_DATE_A_UPPER:
*pBuff++ = udate.st.wHour < 12 ? 'A' : 'P';
break;
case FMT_DATE_AMPM_LOWER:
*pBuff++ = udate.st.wHour < 12 ? 'a' : 'p';
*pBuff++ = 'm';
break;
case FMT_DATE_A_LOWER:
*pBuff++ = udate.st.wHour < 12 ? 'a' : 'p';
break;
default:
ERR("Unknown token 0x%02x!\n", *pToken);
hRes = E_INVALIDARG;
goto VARIANT_FormatDate_Exit;
}
if (localeValue)
{
*pBuff = '\0';
if (GetLocaleInfoW(lcid, localeValue, pBuff,
sizeof(buff)/sizeof(WCHAR)-(pBuff-buff)))
{
TRACE("added %s\n", debugstr_w(pBuff));
while (*pBuff)
pBuff++;
}
else
{
TRACE("added %d %c\n", defaultChar, defaultChar);
*pBuff++ = defaultChar;
}
}
else if (dwFmt)
{
WCHAR fmt_buff[80];
if (!GetLocaleInfoW(lcid, dwFmt, fmt_buff, sizeof(fmt_buff)/sizeof(WCHAR)) ||
!GetDateFormatW(lcid, 0, &udate.st, fmt_buff, pBuff,
sizeof(buff)/sizeof(WCHAR)-(pBuff-buff)))
{
hRes = E_INVALIDARG;
goto VARIANT_FormatDate_Exit;
}
while (*pBuff)
pBuff++;
}
else if (szPrintFmt)
{
sprintfW(pBuff, szPrintFmt, dwVal);
while (*pBuff)
pBuff++;
}
pToken++;
}
VARIANT_FormatDate_Exit:
*pBuff = '\0';
TRACE("buff is %s\n", debugstr_w(buff));
if (SUCCEEDED(hRes))
{
*pbstrOut = SysAllocString(buff);
if (!*pbstrOut)
hRes = E_OUTOFMEMORY;
}
return hRes;
}
/* Format a variant using a string format */
static HRESULT VARIANT_FormatString(LPVARIANT pVarIn, LPOLESTR lpszFormat,
LPBYTE rgbTok, ULONG dwFlags,
BSTR *pbstrOut, LCID lcid)
{
static const WCHAR szEmpty[] = { '\0' };
WCHAR buff[256], *pBuff = buff;
WCHAR *pSrc;
FMT_HEADER *header = (FMT_HEADER*)rgbTok;
FMT_STRING_HEADER *strHeader;
const BYTE* pToken = NULL;
VARIANT vStr;
int blanks_first;
BOOL bUpper = FALSE;
HRESULT hRes = S_OK;
TRACE("(%p->(%s%s),%s,%p,0x%08lx,%p,0x%08lx)\n", pVarIn, debugstr_VT(pVarIn),
debugstr_VF(pVarIn), debugstr_w(lpszFormat), rgbTok, dwFlags, pbstrOut,
lcid);
V_VT(&vStr) = VT_EMPTY;
if (V_TYPE(pVarIn) == VT_EMPTY || V_TYPE(pVarIn) == VT_NULL)
{
strHeader = (FMT_STRING_HEADER*)(rgbTok + FmtGetNegative(header));
V_BSTR(&vStr) = (WCHAR*)szEmpty;
}
else
{
hRes = VariantChangeTypeEx(&vStr, pVarIn, LCID_US, VARIANT_NOUSEROVERRIDE, VT_BSTR);
if (FAILED(hRes))
return hRes;
if (V_BSTR(pVarIn)[0] == '\0')
strHeader = (FMT_STRING_HEADER*)(rgbTok + FmtGetNegative(header));
else
strHeader = (FMT_STRING_HEADER*)(rgbTok + FmtGetPositive(header));
}
pSrc = V_BSTR(&vStr);
if ((strHeader->flags & (FMT_FLAG_LT|FMT_FLAG_GT)) == FMT_FLAG_GT)
bUpper = TRUE;
blanks_first = strHeader->copy_chars - strlenW(pSrc);
pToken = (const BYTE*)strHeader + sizeof(FMT_DATE_HEADER);
while (*pToken != FMT_GEN_END)
{
int dwCount = 0;
if (pToken - rgbTok > header->size)
{
ERR("Ran off the end of the format!\n");
hRes = E_INVALIDARG;
goto VARIANT_FormatString_Exit;
}
switch (*pToken)
{
case FMT_GEN_COPY:
TRACE("copy %s\n", debugstr_wn(lpszFormat + pToken[1], pToken[2]));
memcpy(pBuff, lpszFormat + pToken[1], pToken[2] * sizeof(WCHAR));
pBuff += pToken[2];
pToken += 2;
break;
case FMT_STR_COPY_SPACE:
case FMT_STR_COPY_SKIP:
dwCount = pToken[1];
if (*pToken == FMT_STR_COPY_SPACE && blanks_first > 0)
{
TRACE("insert %d initial spaces\n", blanks_first);
while (dwCount > 0 && blanks_first > 0)
{
*pBuff++ = ' ';
dwCount--;
blanks_first--;
}
}
TRACE("copy %d chars%s\n", dwCount,
*pToken == FMT_STR_COPY_SPACE ? " with space" :"");
while (dwCount > 0 && *pSrc)
{
if (bUpper)
*pBuff++ = toupperW(*pSrc);
else
*pBuff++ = tolowerW(*pSrc);
dwCount--;
pSrc++;
}
if (*pToken == FMT_STR_COPY_SPACE && dwCount > 0)
{
TRACE("insert %d spaces\n", dwCount);
while (dwCount-- > 0)
*pBuff++ = ' ';
}
pToken++;
break;
default:
ERR("Unknown token 0x%02x!\n", *pToken);
hRes = E_INVALIDARG;
goto VARIANT_FormatString_Exit;
}
pToken++;
}
VARIANT_FormatString_Exit:
/* Copy out any remaining chars */
while (*pSrc)
{
if (bUpper)
*pBuff++ = toupperW(*pSrc);
else
*pBuff++ = tolowerW(*pSrc);
pSrc++;
}
VariantClear(&vStr);
*pBuff = '\0';
TRACE("buff is %s\n", debugstr_w(buff));
if (SUCCEEDED(hRes))
{
*pbstrOut = SysAllocString(buff);
if (!*pbstrOut)
hRes = E_OUTOFMEMORY;
}
return hRes;
}
#define NUMBER_VTBITS (VTBIT_I1|VTBIT_UI1|VTBIT_I2|VTBIT_UI2| \
VTBIT_I4|VTBIT_UI4|VTBIT_I8|VTBIT_UI8| \
VTBIT_R4|VTBIT_R8|VTBIT_CY|VTBIT_DECIMAL| \
(1<<VT_BOOL)|(1<<VT_INT)|(1<<VT_UINT))
/**********************************************************************
* VarFormatFromTokens [OLEAUT32.139]
*/
HRESULT WINAPI VarFormatFromTokens(LPVARIANT pVarIn, LPOLESTR lpszFormat,
LPBYTE rgbTok, ULONG dwFlags,
BSTR *pbstrOut, LCID lcid)
{
FMT_SHORT_HEADER *header = (FMT_SHORT_HEADER *)rgbTok;
VARIANT vTmp;
HRESULT hres;
TRACE("(%p,%s,%p,%lx,%p,0x%08lx)\n", pVarIn, debugstr_w(lpszFormat),
rgbTok, dwFlags, pbstrOut, lcid);
if (!pbstrOut)
return E_INVALIDARG;
*pbstrOut = NULL;
if (!pVarIn || !rgbTok)
return E_INVALIDARG;
if (*rgbTok == FMT_TO_STRING || header->type == FMT_TYPE_GENERAL)
{
/* According to MSDN, general format acts somewhat like the 'Str'
* function in Visual Basic.
*/
VarFormatFromTokens_AsStr:
V_VT(&vTmp) = VT_EMPTY;
hres = VariantChangeTypeEx(&vTmp, pVarIn, lcid, dwFlags, VT_BSTR);
*pbstrOut = V_BSTR(&vTmp);
}
else
{
if (header->type == FMT_TYPE_NUMBER ||
(header->type == FMT_TYPE_UNKNOWN && ((1 << V_TYPE(pVarIn)) & NUMBER_VTBITS)))
{
hres = VARIANT_FormatNumber(pVarIn, lpszFormat, rgbTok, dwFlags, pbstrOut, lcid);
}
else if (header->type == FMT_TYPE_DATE ||
(header->type == FMT_TYPE_UNKNOWN && V_TYPE(pVarIn) == VT_DATE))
{
hres = VARIANT_FormatDate(pVarIn, lpszFormat, rgbTok, dwFlags, pbstrOut, lcid);
}
else if (header->type == FMT_TYPE_STRING || V_TYPE(pVarIn) == VT_BSTR)
{
hres = VARIANT_FormatString(pVarIn, lpszFormat, rgbTok, dwFlags, pbstrOut, lcid);
}
else
{
ERR("unrecognised format type 0x%02x\n", header->type);
return E_INVALIDARG;
}
/* If the coercion failed, still try to create output, unless the
* VAR_FORMAT_NOSUBSTITUTE flag is set.
*/
if ((hres == DISP_E_OVERFLOW || hres == DISP_E_TYPEMISMATCH) &&
!(dwFlags & VAR_FORMAT_NOSUBSTITUTE))
goto VarFormatFromTokens_AsStr;
}
return hres;
}
/**********************************************************************
* VarFormat [OLEAUT32.87]
*
* Format a variant from a format string.
*
* PARAMS
* pVarIn [I] Variant to format
* lpszFormat [I] Format string (see notes)
* nFirstDay [I] First day of the week, (See VarTokenizeFormatString() for details)
* nFirstWeek [I] First week of the year (See VarTokenizeFormatString() for details)
* dwFlags [I] Flags for the format (VAR_ flags from "oleauto.h")
* pbstrOut [O] Destination for formatted string.
*
* RETURNS
* Success: S_OK. pbstrOut contains the formatted value.
* Failure: E_INVALIDARG, if any parameter is invalid.
* E_OUTOFMEMORY, if enough memory cannot be allocated.
* DISP_E_TYPEMISMATCH, if the variant cannot be formatted.
*
* NOTES
* - See Variant-Formats for details concerning creating format strings.
* - This function uses LOCALE_USER_DEFAULT when calling VarTokenizeFormatString()
* and VarFormatFromTokens().
*/
HRESULT WINAPI VarFormat(LPVARIANT pVarIn, LPOLESTR lpszFormat,
int nFirstDay, int nFirstWeek, ULONG dwFlags,
BSTR *pbstrOut)
{
BYTE buff[256];
HRESULT hres;
TRACE("(%p->(%s%s),%s,%d,%d,0x%08lx,%p)\n", pVarIn, debugstr_VT(pVarIn),
debugstr_VF(pVarIn), debugstr_w(lpszFormat), nFirstDay, nFirstWeek,
dwFlags, pbstrOut);
if (!pbstrOut)
return E_INVALIDARG;
*pbstrOut = NULL;
hres = VarTokenizeFormatString(lpszFormat, buff, sizeof(buff), nFirstDay,
nFirstWeek, LOCALE_USER_DEFAULT, NULL);
if (SUCCEEDED(hres))
hres = VarFormatFromTokens(pVarIn, lpszFormat, buff, dwFlags,
pbstrOut, LOCALE_USER_DEFAULT);
TRACE("returning 0x%08lx, %s\n", hres, debugstr_w(*pbstrOut));
return hres;
}
/**********************************************************************
* VarFormatDateTime [OLEAUT32.97]
*
* Format a variant value as a date and/or time.
*
* PARAMS
* pVarIn [I] Variant to format
* nFormat [I] Format type (see notes)
* dwFlags [I] Flags for the format (VAR_ flags from "oleauto.h")
* pbstrOut [O] Destination for formatted string.
*
* RETURNS
* Success: S_OK. pbstrOut contains the formatted value.
* Failure: E_INVALIDARG, if any parameter is invalid.
* E_OUTOFMEMORY, if enough memory cannot be allocated.
* DISP_E_TYPEMISMATCH, if the variant cannot be formatted.
*
* NOTES
* This function uses LOCALE_USER_DEFAULT when determining the date format
* characters to use.
* Possible values for the nFormat parameter are:
*| Value Meaning
*| ----- -------
*| 0 General date format
*| 1 Long date format
*| 2 Short date format
*| 3 Long time format
*| 4 Short time format
*/
HRESULT WINAPI VarFormatDateTime(LPVARIANT pVarIn, INT nFormat, ULONG dwFlags, BSTR *pbstrOut)
{
static const WCHAR szEmpty[] = { '\0' };
const BYTE* lpFmt = NULL;
TRACE("(%p->(%s%s),%d,0x%08lx,%p)\n", pVarIn, debugstr_VT(pVarIn),
debugstr_VF(pVarIn), nFormat, dwFlags, pbstrOut);
if (!pVarIn || !pbstrOut || nFormat < 0 || nFormat > 4)
return E_INVALIDARG;
switch (nFormat)
{
case 0: lpFmt = fmtGeneralDate; break;
case 1: lpFmt = fmtLongDate; break;
case 2: lpFmt = fmtShortDate; break;
case 3: lpFmt = fmtLongTime; break;
case 4: lpFmt = fmtShortTime; break;
}
return VarFormatFromTokens(pVarIn, (LPWSTR)szEmpty, (BYTE*)lpFmt, dwFlags,
pbstrOut, LOCALE_USER_DEFAULT);
}
#define GETLOCALENUMBER(type,field) GetLocaleInfoW(LOCALE_USER_DEFAULT, \
type|LOCALE_RETURN_NUMBER, \
(LPWSTR)&numfmt.field, \
sizeof(numfmt.field)/sizeof(WCHAR))
/**********************************************************************
* VarFormatNumber [OLEAUT32.107]
*
* Format a variant value as a number.
*
* PARAMS
* pVarIn [I] Variant to format
* nDigits [I] Number of digits following the decimal point (-1 = user default)
* nLeading [I] Use a leading zero (-2 = user default, -1 = yes, 0 = no)
* nParens [I] Use brackets for values < 0 (-2 = user default, -1 = yes, 0 = no)
* nGrouping [I] Use grouping characters (-2 = user default, -1 = yes, 0 = no)
* dwFlags [I] Currently unused, set to zero
* pbstrOut [O] Destination for formatted string.
*
* RETURNS
* Success: S_OK. pbstrOut contains the formatted value.
* Failure: E_INVALIDARG, if any parameter is invalid.
* E_OUTOFMEMORY, if enough memory cannot be allocated.
* DISP_E_TYPEMISMATCH, if the variant cannot be formatted.
*
* NOTES
* This function uses LOCALE_USER_DEFAULT when determining the number format
* characters to use.
*/
HRESULT WINAPI VarFormatNumber(LPVARIANT pVarIn, INT nDigits, INT nLeading, INT nParens,
INT nGrouping, ULONG dwFlags, BSTR *pbstrOut)
{
HRESULT hRet;
VARIANT vStr;
TRACE("(%p->(%s%s),%d,%d,%d,%d,0x%08lx,%p)\n", pVarIn, debugstr_VT(pVarIn),
debugstr_VF(pVarIn), nDigits, nLeading, nParens, nGrouping, dwFlags, pbstrOut);
if (!pVarIn || !pbstrOut || nDigits > 9)
return E_INVALIDARG;
*pbstrOut = NULL;
V_VT(&vStr) = VT_EMPTY;
hRet = VariantCopyInd(&vStr, pVarIn);
if (SUCCEEDED(hRet))
hRet = VariantChangeTypeEx(&vStr, &vStr, LOCALE_USER_DEFAULT, 0, VT_BSTR);
if (SUCCEEDED(hRet))
{
WCHAR buff[256], decimal[8], thousands[8];
NUMBERFMTW numfmt;
/* Although MSDN makes it clear that the native versions of these functions
* are implemented using VarTokenizeFormatString()/VarFormatFromTokens(),
* using NLS gives us the same result.
*/
if (nDigits < 0)
GETLOCALENUMBER(LOCALE_IDIGITS, NumDigits);
else
numfmt.NumDigits = nDigits;
if (nLeading == -2)
GETLOCALENUMBER(LOCALE_ILZERO, LeadingZero);
else if (nLeading == -1)
numfmt.LeadingZero = 1;
else
numfmt.LeadingZero = 0;
if (nGrouping == -2)
{
WCHAR grouping[16];
grouping[2] = '\0';
GetLocaleInfoW(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, grouping,
sizeof(grouping)/sizeof(WCHAR));
numfmt.Grouping = grouping[2] == '2' ? 32 : grouping[0] - '0';
}
else if (nGrouping == -1)
numfmt.Grouping = 3; /* 3 = "n,nnn.nn" */
else
numfmt.Grouping = 0; /* 0 = No grouping */
if (nParens == -2)
GETLOCALENUMBER(LOCALE_INEGNUMBER, NegativeOrder);
else if (nParens == -1)
numfmt.NegativeOrder = 0; /* 0 = "(xxx)" */
else
numfmt.NegativeOrder = 1; /* 1 = "-xxx" */
numfmt.lpDecimalSep = decimal;
GetLocaleInfoW(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, decimal,
sizeof(decimal)/sizeof(WCHAR));
numfmt.lpThousandSep = thousands;
GetLocaleInfoW(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, thousands,
sizeof(thousands)/sizeof(WCHAR));
if (GetNumberFormatW(LOCALE_USER_DEFAULT, 0, V_BSTR(&vStr), &numfmt,
buff, sizeof(buff)/sizeof(WCHAR)))
{
*pbstrOut = SysAllocString(buff);
if (!*pbstrOut)
hRet = E_OUTOFMEMORY;
}
else
hRet = DISP_E_TYPEMISMATCH;
SysFreeString(V_BSTR(&vStr));
}
return hRet;
}
/**********************************************************************
* VarFormatPercent [OLEAUT32.117]
*
* Format a variant value as a percentage.
*
* PARAMS
* pVarIn [I] Variant to format
* nDigits [I] Number of digits following the decimal point (-1 = user default)
* nLeading [I] Use a leading zero (-2 = user default, -1 = yes, 0 = no)
* nParens [I] Use brackets for values < 0 (-2 = user default, -1 = yes, 0 = no)
* nGrouping [I] Use grouping characters (-2 = user default, -1 = yes, 0 = no)
* dwFlags [I] Currently unused, set to zero
* pbstrOut [O] Destination for formatted string.
*
* RETURNS
* Success: S_OK. pbstrOut contains the formatted value.
* Failure: E_INVALIDARG, if any parameter is invalid.
* E_OUTOFMEMORY, if enough memory cannot be allocated.
* DISP_E_OVERFLOW, if overflow occurs during the conversion.
* DISP_E_TYPEMISMATCH, if the variant cannot be formatted.
*
* NOTES
* This function uses LOCALE_USER_DEFAULT when determining the number format
* characters to use.
*/
HRESULT WINAPI VarFormatPercent(LPVARIANT pVarIn, INT nDigits, INT nLeading, INT nParens,
INT nGrouping, ULONG dwFlags, BSTR *pbstrOut)
{
static const WCHAR szPercent[] = { '%','\0' };
static const WCHAR szPercentBracket[] = { '%',')','\0' };
WCHAR buff[256];
HRESULT hRet;
VARIANT vDbl;
TRACE("(%p->(%s%s),%d,%d,%d,%d,0x%08lx,%p)\n", pVarIn, debugstr_VT(pVarIn),
debugstr_VF(pVarIn), nDigits, nLeading, nParens, nGrouping,
dwFlags, pbstrOut);
if (!pVarIn || !pbstrOut || nDigits > 9)
return E_INVALIDARG;
*pbstrOut = NULL;
V_VT(&vDbl) = VT_EMPTY;
hRet = VariantCopyInd(&vDbl, pVarIn);
if (SUCCEEDED(hRet))
{
hRet = VariantChangeTypeEx(&vDbl, &vDbl, LOCALE_USER_DEFAULT, 0, VT_R8);
if (SUCCEEDED(hRet))
{
if (V_R8(&vDbl) > (R8_MAX / 100.0))
return DISP_E_OVERFLOW;
V_R8(&vDbl) *= 100.0;
hRet = VarFormatNumber(&vDbl, nDigits, nLeading, nParens,
nGrouping, dwFlags, pbstrOut);
if (SUCCEEDED(hRet))
{
DWORD dwLen = strlenW(*pbstrOut);
BOOL bBracket = (*pbstrOut)[dwLen] == ')' ? TRUE : FALSE;
dwLen -= bBracket;
memcpy(buff, *pbstrOut, dwLen * sizeof(WCHAR));
strcpyW(buff + dwLen, bBracket ? szPercentBracket : szPercent);
SysFreeString(*pbstrOut);
*pbstrOut = SysAllocString(buff);
if (!*pbstrOut)
hRet = E_OUTOFMEMORY;
}
}
}
return hRet;
}
/**********************************************************************
* VarFormatCurrency [OLEAUT32.127]
*
* Format a variant value as a currency.
*
* PARAMS
* pVarIn [I] Variant to format
* nDigits [I] Number of digits following the decimal point (-1 = user default)
* nLeading [I] Use a leading zero (-2 = user default, -1 = yes, 0 = no)
* nParens [I] Use brackets for values < 0 (-2 = user default, -1 = yes, 0 = no)
* nGrouping [I] Use grouping characters (-2 = user default, -1 = yes, 0 = no)
* dwFlags [I] Currently unused, set to zero
* pbstrOut [O] Destination for formatted string.
*
* RETURNS
* Success: S_OK. pbstrOut contains the formatted value.
* Failure: E_INVALIDARG, if any parameter is invalid.
* E_OUTOFMEMORY, if enough memory cannot be allocated.
* DISP_E_TYPEMISMATCH, if the variant cannot be formatted.
*
* NOTES
* This function uses LOCALE_USER_DEFAULT when determining the currency format
* characters to use.
*/
HRESULT WINAPI VarFormatCurrency(LPVARIANT pVarIn, INT nDigits, INT nLeading,
INT nParens, INT nGrouping, ULONG dwFlags,
BSTR *pbstrOut)
{
HRESULT hRet;
VARIANT vStr;
TRACE("(%p->(%s%s),%d,%d,%d,%d,0x%08lx,%p)\n", pVarIn, debugstr_VT(pVarIn),
debugstr_VF(pVarIn), nDigits, nLeading, nParens, nGrouping, dwFlags, pbstrOut);
if (!pVarIn || !pbstrOut || nDigits > 9)
return E_INVALIDARG;
*pbstrOut = NULL;
V_VT(&vStr) = VT_EMPTY;
hRet = VariantCopyInd(&vStr, pVarIn);
if (SUCCEEDED(hRet))
hRet = VariantChangeTypeEx(&vStr, &vStr, LOCALE_USER_DEFAULT, 0, VT_BSTR);
if (SUCCEEDED(hRet))
{
WCHAR buff[256], decimal[8], thousands[8], currency[8];
CURRENCYFMTW numfmt;
if (nDigits < 0)
GETLOCALENUMBER(LOCALE_IDIGITS, NumDigits);
else
numfmt.NumDigits = nDigits;
if (nLeading == -2)
GETLOCALENUMBER(LOCALE_ILZERO, LeadingZero);
else if (nLeading == -1)
numfmt.LeadingZero = 1;
else
numfmt.LeadingZero = 0;
if (nGrouping == -2)
{
WCHAR nGrouping[16];
nGrouping[2] = '\0';
GetLocaleInfoW(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, nGrouping,
sizeof(nGrouping)/sizeof(WCHAR));
numfmt.Grouping = nGrouping[2] == '2' ? 32 : nGrouping[0] - '0';
}
else if (nGrouping == -1)
numfmt.Grouping = 3; /* 3 = "n,nnn.nn" */
else
numfmt.Grouping = 0; /* 0 = No grouping */
if (nParens == -2)
GETLOCALENUMBER(LOCALE_INEGCURR, NegativeOrder);
else if (nParens == -1)
numfmt.NegativeOrder = 0; /* 0 = "(xxx)" */
else
numfmt.NegativeOrder = 1; /* 1 = "-xxx" */
GETLOCALENUMBER(LOCALE_ICURRENCY, PositiveOrder);
numfmt.lpDecimalSep = decimal;
GetLocaleInfoW(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, decimal,
sizeof(decimal)/sizeof(WCHAR));
numfmt.lpThousandSep = thousands;
GetLocaleInfoW(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, thousands,
sizeof(thousands)/sizeof(WCHAR));
numfmt.lpCurrencySymbol = currency;
GetLocaleInfoW(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, currency,
sizeof(currency)/sizeof(WCHAR));
/* use NLS as per VarFormatNumber() */
if (GetCurrencyFormatW(LOCALE_USER_DEFAULT, 0, V_BSTR(&vStr), &numfmt,
buff, sizeof(buff)/sizeof(WCHAR)))
{
*pbstrOut = SysAllocString(buff);
if (!*pbstrOut)
hRet = E_OUTOFMEMORY;
}
else
hRet = DISP_E_TYPEMISMATCH;
SysFreeString(V_BSTR(&vStr));
}
return hRet;
}