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Sweden-Number/dlls/kernel/tests/locale.c

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/*
* Unit tests for locale functions
*
* Copyright 2002 YASAR Mehmet
* Copyright 2003 Dmitry Timoshkov
* 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
* We must pass LOCALE_NOUSEROVERRIDE (NUO) to formatting functions so that
* even when the user has overridden their default i8n settings (e.g. in
* the control panel i8n page), we will still get the expected results.
*/
#include <stdarg.h>
#include "wine/test.h"
#include "windef.h"
#include "wine/unicode.h"
#include "winbase.h"
#include "winerror.h"
#include "winnls.h"
#define eq(received, expected, label, type) \
ok((received) == (expected), "%s: got " type " instead of " type "\n", \
(label), (received), (expected))
#define BUFFER_SIZE 128
char GlobalBuffer[BUFFER_SIZE]; /* Buffer used by callback function */
#define COUNTOF(x) (sizeof(x)/sizeof(x)[0])
#define EXPECT_LEN(len) ok(ret == len, "Expected Len %d, got %d\n", len, ret)
#define EXPECT_INVALID ok(GetLastError() == ERROR_INVALID_PARAMETER, \
"Expected ERROR_INVALID_PARAMETER, got %ld\n", GetLastError())
#define EXPECT_BUFFER ok(GetLastError() == ERROR_INSUFFICIENT_BUFFER, \
"Expected ERROR_INSUFFICIENT_BUFFER, got %ld\n", GetLastError())
#define EXPECT_FLAGS ok(GetLastError() == ERROR_INVALID_FLAGS, \
"Expected ERROR_INVALID_FLAGS, got %ld\n", GetLastError())
#define EXPECT_INVALIDFLAGS ok(GetLastError() == ERROR_INVALID_FLAGS || \
GetLastError() == ERROR_INVALID_PARAMETER, \
"Expected ERROR_INVALID_FLAGS, got %ld\n", GetLastError())
#define EXPECT_VALID ok(GetLastError() == 0, \
"Expected GetLastError() == 0, got %ld\n", GetLastError())
#define STRINGSA(x,y) strcpy(input, x); strcpy(Expected, y); SetLastError(0); buffer[0] = '\0'
#define EXPECT_LENA EXPECT_LEN(strlen(Expected)+1)
#define EXPECT_EQA ok(strncmp(buffer, Expected, strlen(Expected)) == 0, \
"Expected '%s', got '%s'", Expected, buffer)
#define STRINGSW(x,y) MultiByteToWideChar(CP_ACP,0,x,-1,input,COUNTOF(input)); \
MultiByteToWideChar(CP_ACP,0,y,-1,Expected,COUNTOF(Expected)); \
SetLastError(0); buffer[0] = '\0'
#define EXPECT_LENW EXPECT_LEN(strlenW(Expected)+1)
#define EXPECT_EQW ok(strncmpW(buffer, Expected, strlenW(Expected)) == 0, "Bad conversion\n")
#define NUO LOCALE_NOUSEROVERRIDE
static void test_GetLocaleInfoA()
{
int ret;
LCID lcid = MAKELCID(MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US), SORT_DEFAULT);
char buffer[BUFFER_SIZE];
ok(lcid == 0x409, "wrong LCID calculated - %ld\n", lcid);
/* HTMLKit and "Font xplorer lite" expect GetLocaleInfoA to
* partially fill the buffer even if it is too short. See bug 637.
*/
SetLastError(0); memset(buffer, 0, COUNTOF(buffer));
ret = GetLocaleInfoA(lcid, NUO|LOCALE_SDAYNAME1, buffer, 0);
ok(ret == 7 && !buffer[0], "Expected len=7, got %d\n", ret);
SetLastError(0); memset(buffer, 0, COUNTOF(buffer));
ret = GetLocaleInfoA(lcid, NUO|LOCALE_SDAYNAME1, buffer, 3);
EXPECT_BUFFER; EXPECT_LEN(0);
ok(!strcmp(buffer, "Mon"), "Expected 'Mon', got '%s'\n", buffer);
SetLastError(0); memset(buffer, 0, COUNTOF(buffer));
ret = GetLocaleInfoA(lcid, NUO|LOCALE_SDAYNAME1, buffer, 10);
EXPECT_VALID; EXPECT_LEN(7);
ok(!strcmp(buffer, "Monday"), "Expected 'Monday', got '%s'\n", buffer);
}
static void test_GetTimeFormatA()
{
int ret;
SYSTEMTIME curtime;
LCID lcid = MAKELCID(MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US), SORT_DEFAULT);
char buffer[BUFFER_SIZE], input[BUFFER_SIZE], Expected[BUFFER_SIZE];
memset(&curtime, 2, sizeof(SYSTEMTIME));
STRINGSA("tt HH':'mm'@'ss", ""); /* Invalid time */
ret = GetTimeFormatA(lcid, TIME_FORCE24HOURFORMAT, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
curtime.wHour = 8;
curtime.wMinute = 56;
curtime.wSecond = 13;
curtime.wMilliseconds = 22;
STRINGSA("tt HH':'mm'@'ss", "AM 08:56@13"); /* Valid time */
ret = GetTimeFormatA(lcid, TIME_FORCE24HOURFORMAT, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("tt HH':'mm'@'ss", "A"); /* Insufficent buffer */
ret = GetTimeFormatA(lcid, TIME_FORCE24HOURFORMAT, &curtime, input, buffer, 2);
EXPECT_BUFFER; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("tt HH':'mm'@'ss", "AM 08:56@13"); /* Calculate length only */
ret = GetTimeFormatA(lcid, TIME_FORCE24HOURFORMAT, &curtime, input, NULL, 0);
EXPECT_VALID; EXPECT_LENA;
STRINGSA("", "8 AM"); /* TIME_NOMINUTESORSECONDS, default format */
ret = GetTimeFormatA(lcid, NUO|TIME_NOMINUTESORSECONDS, &curtime, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("m1s2m3s4", ""); /* TIME_NOMINUTESORSECONDS/complex format */
ret = GetTimeFormatA(lcid, TIME_NOMINUTESORSECONDS, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("", "8:56 AM"); /* TIME_NOSECONDS/Default format */
ret = GetTimeFormatA(lcid, NUO|TIME_NOSECONDS, &curtime, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("h:m:s tt", "8:56 AM"); /* TIME_NOSECONDS */
strcpy(Expected, "8:56 AM");
ret = GetTimeFormatA(lcid, TIME_NOSECONDS, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("h.@:m.@:s.@:tt", "8.@:56AM"); /* Multiple delimiters */
ret = GetTimeFormatA(lcid, TIME_NOSECONDS, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("s1s2s3", ""); /* Duplicate tokens */
ret = GetTimeFormatA(lcid, TIME_NOSECONDS, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("t/tt", "A/AM"); /* AM time marker */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
curtime.wHour = 13;
STRINGSA("t/tt", "P/PM"); /* PM time marker */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("h1t2tt3m", "156"); /* TIME_NOTIMEMARKER: removes text around time marker token */
ret = GetTimeFormatA(lcid, TIME_NOTIMEMARKER, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("h:m:s tt", "13:56:13 PM"); /* TIME_FORCE24HOURFORMAT */
ret = GetTimeFormatA(lcid, TIME_FORCE24HOURFORMAT, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("h:m:s", "13:56:13"); /* TIME_FORCE24HOURFORMAT doesn't add time marker */
ret = GetTimeFormatA(lcid, TIME_FORCE24HOURFORMAT, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
curtime.wHour = 14; /* change this to 14 or 2pm */
curtime.wMinute = 5;
curtime.wSecond = 3;
STRINGSA("h hh H HH m mm s ss t tt", "2 02 14 14 5 05 3 03 P PM"); /* 24 hrs, leading 0 */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
curtime.wHour = 0;
STRINGSA("h/H/hh/HH", "12/0/12/00"); /* "hh" and "HH" */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("h:m:s tt", "12:5:3 AM"); /* non-zero flags should fail with format, doesn't */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
/* try to convert formatting strings with more than two letters
* "h:hh:hhh:H:HH:HHH:m:mm:mmm:M:MM:MMM:s:ss:sss:S:SS:SSS"
* NOTE: We expect any letter for which there is an upper case value
* we should see a replacement. For letters that DO NOT have
* upper case values we should see NO REPLACEMENT.
*/
curtime.wHour = 8;
curtime.wMinute = 56;
curtime.wSecond = 13;
curtime.wMilliseconds = 22;
STRINGSA("h:hh:hhh H:HH:HHH m:mm:mmm M:MM:MMM s:ss:sss S:SS:SSS",
"8:08:08 8:08:08 56:56:56 M:MM:MMM 13:13:13 S:SS:SSS");
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("h", "text"); /* Dont write to buffer if len is 0*/
strcpy(buffer, "text");
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, 0);
EXPECT_VALID; EXPECT_LEN(2); EXPECT_EQA;
STRINGSA("h 'h' H 'H' HH 'HH' m 'm' s 's' t 't' tt 'tt'",
"8 h 8 H 08 HH 56 m 13 s A t AM tt"); /* "'" preserves tokens */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("'''", "'"); /* invalid quoted string */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
/* test that msdn suggested single quotation usage works as expected */
STRINGSA("''''", "'"); /* single quote mark */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("''HHHHHH", "08"); /* Normal use */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
/* and test for normal use of the single quotation mark */
STRINGSA("'''HHHHHH'", "'HHHHHH"); /* Normal use */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("'''HHHHHH", "'HHHHHH"); /* Odd use */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("'123'tt", ""); /* TIME_NOTIMEMARKER drops literals too */
ret = GetTimeFormatA(lcid, TIME_NOTIMEMARKER, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
curtime.wHour = 25;
STRINGSA("'123'tt", ""); /* Invalid time */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
curtime.wHour = 12;
curtime.wMonth = 60; /* Invalid */
STRINGSA("h:m:s", "12:56:13"); /* Invalid date */
ret = GetTimeFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
}
static void test_GetDateFormatA()
{
int ret;
SYSTEMTIME curtime;
LCID lcid = MAKELCID(MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US), SORT_DEFAULT);
char buffer[BUFFER_SIZE], input[BUFFER_SIZE], Expected[BUFFER_SIZE];
memset(&curtime, 2, sizeof(SYSTEMTIME)); /* Invalid time */
STRINGSA("ddd',' MMM dd yy","");
ret = GetDateFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
curtime.wYear = 2002;
curtime.wMonth = 5;
curtime.wDay = 4;
curtime.wDayOfWeek = 3;
STRINGSA("ddd',' MMM dd yy","Sat, May 04 02"); /* Simple case */
ret = GetDateFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("ddd',' MMM dd yy","Sat, May 04 02"); /* Format containing "'" */
ret = GetDateFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
curtime.wHour = 36; /* Invalid */
STRINGSA("ddd',' MMM dd ''''yy","Sat, May 04 '02"); /* Invalid time */
ret = GetDateFormatA(lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("ddd',' MMM dd ''''yy",""); /* Get size only */
ret = GetDateFormatA(lcid, 0, &curtime, input, NULL, 0);
EXPECT_VALID; EXPECT_LEN(16); EXPECT_EQA;
STRINGSA("ddd',' MMM dd ''''yy",""); /* Buffer too small */
ret = GetDateFormatA(lcid, 0, &curtime, input, buffer, 2);
EXPECT_BUFFER; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("ddd',' MMM dd ''''yy","5/4/2002"); /* Default to DATE_SHORTDATE */
ret = GetDateFormat(lcid, NUO, &curtime, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("ddd',' MMM dd ''''yy", "Saturday, May 04, 2002"); /* DATE_LONGDATE */
ret = GetDateFormat(lcid, NUO|DATE_LONGDATE, &curtime, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
/* test for expected DATE_YEARMONTH behavior with null format */
/* NT4 returns ERROR_INVALID_FLAGS for DATE_YEARMONTH */
STRINGSA("ddd',' MMM dd ''''yy", ""); /* DATE_YEARMONTH */
ret = GetDateFormat(lcid, NUO|DATE_YEARMONTH, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_FLAGS; EXPECT_LEN(0); EXPECT_EQA;
/* Test that using invalid DATE_* flags results in the correct error */
/* and return values */
STRINGSA("m/d/y", ""); /* Invalid flags */
ret = GetDateFormat(lcid, DATE_YEARMONTH|DATE_SHORTDATE|DATE_LONGDATE,
&curtime, input, buffer, COUNTOF(buffer));
EXPECT_FLAGS; EXPECT_LEN(0); EXPECT_EQA;
}
static void test_GetDateFormatW()
{
int ret;
SYSTEMTIME curtime;
WCHAR buffer[BUFFER_SIZE], input[BUFFER_SIZE], Expected[BUFFER_SIZE];
LCID lcid = MAKELCID(MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US), SORT_DEFAULT);
STRINGSW("",""); /* If flags is not zero then format must be NULL */
ret = GetDateFormatW(LOCALE_SYSTEM_DEFAULT, DATE_LONGDATE, NULL,
input, buffer, COUNTOF(buffer));
if (GetLastError() == ERROR_CALL_NOT_IMPLEMENTED)
return;
EXPECT_FLAGS; EXPECT_LEN(0); EXPECT_EQW;
STRINGSW("",""); /* NULL buffer, len > 0 */
ret = GetDateFormatW (lcid, 0, NULL, input, NULL, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQW;
STRINGSW("",""); /* NULL buffer, len == 0 */
ret = GetDateFormatW (lcid, 0, NULL, input, NULL, 0);
EXPECT_VALID; EXPECT_LENW; EXPECT_EQW;
curtime.wYear = 2002;
curtime.wMonth = 10;
curtime.wDay = 23;
curtime.wDayOfWeek = 45612; /* Should be 3 - Wednesday */
curtime.wHour = 65432; /* Invalid */
curtime.wMinute = 34512; /* Invalid */
curtime.wSecond = 65535; /* Invalid */
curtime.wMilliseconds = 12345;
STRINGSW("dddd d MMMM yyyy","Wednesday 23 October 2002"); /* Incorrect DOW and time */
ret = GetDateFormatW (lcid, 0, &curtime, input, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENW; EXPECT_EQW;
}
#define CY_POS_LEFT 0
#define CY_POS_RIGHT 1
#define CY_POS_LEFT_SPACE 2
#define CY_POS_RIGHT_SPACE 3
static void test_GetCurrencyFormatA()
{
static char szDot[] = { '.', '\0' };
static char szComma[] = { ',', '\0' };
static char szDollar[] = { '$', '\0' };
int ret;
LCID lcid = MAKELCID(MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US), SORT_DEFAULT);
char buffer[BUFFER_SIZE], Expected[BUFFER_SIZE], input[BUFFER_SIZE];
CURRENCYFMTA format;
memset(&format, 0, sizeof(format));
STRINGSA("23",""); /* NULL output, length > 0 --> Error */
ret = GetCurrencyFormatA(lcid, 0, input, NULL, NULL, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("23,53",""); /* Invalid character --> Error */
ret = GetCurrencyFormatA(lcid, 0, input, NULL, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("--",""); /* Double '-' --> Error */
ret = GetCurrencyFormatA(lcid, 0, input, NULL, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("0-",""); /* Trailing '-' --> Error */
ret = GetCurrencyFormatA(lcid, 0, input, NULL, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("0..",""); /* Double '.' --> Error */
ret = GetCurrencyFormatA(lcid, 0, input, NULL, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA(" 0.1",""); /* Leading space --> Error */
ret = GetCurrencyFormatA(lcid, 0, input, NULL, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("1234","$"); /* Length too small --> Write up to length chars */
ret = GetCurrencyFormatA(lcid, NUO, input, NULL, buffer, 2);
EXPECT_BUFFER; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("2353",""); /* Format and flags given --> Error */
ret = GetCurrencyFormatA(lcid, NUO, input, &format, buffer, COUNTOF(buffer));
EXPECT_INVALIDFLAGS; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("2353",""); /* Invalid format --> Error */
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("2353","$2,353.00"); /* Valid number */
ret = GetCurrencyFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("-2353","($2,353.00)"); /* Valid negative number */
ret = GetCurrencyFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("2353.1","$2,353.10"); /* Valid real number */
ret = GetCurrencyFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("2353.111","$2,353.11"); /* Too many DP --> Truncated */
ret = GetCurrencyFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("2353.119","$2,353.12"); /* Too many DP --> Rounded */
ret = GetCurrencyFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NumDigits = 0; /* No decimal seperator */
format.LeadingZero = 0;
format.Grouping = 0; /* No grouping char */
format.NegativeOrder = 0;
format.PositiveOrder = CY_POS_LEFT;
format.lpDecimalSep = szDot;
format.lpThousandSep = szComma;
format.lpCurrencySymbol = szDollar;
STRINGSA("2353","$2353"); /* No decimal or grouping chars expected */
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NumDigits = 1; /* 1 DP --> Expect decimal seperator */
STRINGSA("2353","$2353.0");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.Grouping = 2; /* Group by 100's */
STRINGSA("2353","$23,53.0");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.LeadingZero = 1; /* Always provide leading zero */
STRINGSA(".5","$0.5");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.PositiveOrder = CY_POS_RIGHT;
STRINGSA("1","1.0$");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.PositiveOrder = CY_POS_LEFT_SPACE;
STRINGSA("1","$ 1.0");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.PositiveOrder = CY_POS_RIGHT_SPACE;
STRINGSA("1","1.0 $");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 0;
STRINGSA("-1","($1.0)");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 1;
STRINGSA("-1","-$1.0");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 2;
STRINGSA("-1","$-1.0");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 3;
STRINGSA("-1","$1.0-");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 4;
STRINGSA("-1","(1.0$)");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 5;
STRINGSA("-1","-1.0$");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 6;
STRINGSA("-1","1.0-$");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 7;
STRINGSA("-1","1.0$-");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 8;
STRINGSA("-1","-1.0 $");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 9;
STRINGSA("-1","-$ 1.0");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 10;
STRINGSA("-1","1.0 $-");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 11;
STRINGSA("-1","$ 1.0-");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 12;
STRINGSA("-1","$ -1.0");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 13;
STRINGSA("-1","1.0- $");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 14;
STRINGSA("-1","($ 1.0)");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = 15;
STRINGSA("-1","(1.0 $)");
ret = GetCurrencyFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
}
#define NEG_PARENS 0 /* "(1.1)" */
#define NEG_LEFT 1 /* "-1.1" */
#define NEG_LEFT_SPACE 2 /* "- 1.1" */
#define NEG_RIGHT 3 /* "1.1-" */
#define NEG_RIGHT_SPACE 4 /* "1.1 -" */
static void test_GetNumberFormatA()
{
static char szDot[] = { '.', '\0' };
static char szComma[] = { ',', '\0' };
int ret;
LCID lcid = MAKELCID(MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US), SORT_DEFAULT);
char buffer[BUFFER_SIZE], Expected[BUFFER_SIZE], input[BUFFER_SIZE];
NUMBERFMTA format;
memset(&format, 0, sizeof(format));
STRINGSA("23",""); /* NULL output, length > 0 --> Error */
ret = GetNumberFormatA(lcid, 0, input, NULL, NULL, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("23,53",""); /* Invalid character --> Error */
ret = GetNumberFormatA(lcid, 0, input, NULL, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("--",""); /* Double '-' --> Error */
ret = GetNumberFormatA(lcid, 0, input, NULL, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("0-",""); /* Trailing '-' --> Error */
ret = GetNumberFormatA(lcid, 0, input, NULL, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("0..",""); /* Double '.' --> Error */
ret = GetNumberFormatA(lcid, 0, input, NULL, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA(" 0.1",""); /* Leading space --> Error */
ret = GetNumberFormatA(lcid, 0, input, NULL, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("1234","1"); /* Length too small --> Write up to length chars */
ret = GetNumberFormatA(lcid, NUO, input, NULL, buffer, 2);
EXPECT_BUFFER; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("2353",""); /* Format and flags given --> Error */
ret = GetNumberFormatA(lcid, NUO, input, &format, buffer, COUNTOF(buffer));
EXPECT_INVALIDFLAGS; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("2353",""); /* Invalid format --> Error */
ret = GetNumberFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_INVALID; EXPECT_LEN(0); EXPECT_EQA;
STRINGSA("2353","2,353.00"); /* Valid number */
ret = GetNumberFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("-2353","-2,353.00"); /* Valid negative number */
ret = GetNumberFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("2353.1","2,353.10"); /* Valid real number */
ret = GetNumberFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("2353.111","2,353.11"); /* Too many DP --> Truncated */
ret = GetNumberFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
STRINGSA("2353.119","2,353.12"); /* Too many DP --> Rounded */
ret = GetNumberFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NumDigits = 0; /* No decimal seperator */
format.LeadingZero = 0;
format.Grouping = 0; /* No grouping char */
format.NegativeOrder = 0;
format.lpDecimalSep = szDot;
format.lpThousandSep = szComma;
STRINGSA("2353","2353"); /* No decimal or grouping chars expected */
ret = GetNumberFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NumDigits = 1; /* 1 DP --> Expect decimal seperator */
STRINGSA("2353","2353.0");
ret = GetNumberFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.Grouping = 2; /* Group by 100's */
STRINGSA("2353","23,53.0");
ret = GetNumberFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.LeadingZero = 1; /* Always provide leading zero */
STRINGSA(".5","0.5");
ret = GetNumberFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = NEG_PARENS;
STRINGSA("-1","(1.0)");
ret = GetNumberFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = NEG_LEFT;
STRINGSA("-1","-1.0");
ret = GetNumberFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = NEG_LEFT_SPACE;
STRINGSA("-1","- 1.0");
ret = GetNumberFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = NEG_RIGHT;
STRINGSA("-1","1.0-");
ret = GetNumberFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
format.NegativeOrder = NEG_RIGHT_SPACE;
STRINGSA("-1","1.0 -");
ret = GetNumberFormatA(lcid, 0, input, &format, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
lcid = MAKELCID(MAKELANGID(LANG_FRENCH, SUBLANG_DEFAULT), SORT_DEFAULT);
if (IsValidLocale(lcid, 0))
{
STRINGSA("-12345","-12 345,00"); /* Try French formatting */
Expected[3] = 160; /* Non breaking space */
ret = GetNumberFormatA(lcid, NUO, input, NULL, buffer, COUNTOF(buffer));
EXPECT_VALID; EXPECT_LENA; EXPECT_EQA;
}
}
/* Callback function used by TestEnumTimeFormats */
static BOOL CALLBACK EnumTimeFormatsProc(char * lpTimeFormatString)
{
trace("%s\n", lpTimeFormatString);
strcpy(GlobalBuffer, lpTimeFormatString);
#if 0
return TRUE;
#endif
return FALSE;
}
void test_EnumTimeFormats()
{
int ret;
LCID lcid = MAKELCID(MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US), SORT_DEFAULT);
GlobalBuffer[0] = '\0';
ret = EnumTimeFormatsA(EnumTimeFormatsProc, lcid, 0);
ok (ret == 1 && !strcmp(GlobalBuffer,"h:mm:ss tt"), "Expected %d '%s'\n", ret, GlobalBuffer);
}
static void test_CompareStringA()
{
int ret;
LCID lcid = MAKELCID(MAKELANGID(LANG_FRENCH, SUBLANG_DEFAULT), SORT_DEFAULT);
ret = CompareStringA(lcid, NORM_IGNORECASE, "Salut", -1, "Salute", -1);
ok (ret== 1, "(Salut/Salute) Expected 1, got %d\n", ret);
ret = CompareStringA(lcid, NORM_IGNORECASE, "Salut", -1, "SaLuT", -1);
ok (ret== 2, "(Salut/SaLuT) Expected 2, got %d\n", ret);
ret = CompareStringA(lcid, NORM_IGNORECASE, "Salut", -1, "hola", -1);
ok (ret== 3, "(Salut/hola) Expected 3, got %d\n", ret);
ret = CompareStringA(lcid, NORM_IGNORECASE, "haha", -1, "hoho", -1);
ok (ret== 1, "(haha/hoho) Expected 1, got %d\n", ret);
lcid = MAKELCID(MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US), SORT_DEFAULT);
ret = CompareStringA(lcid, NORM_IGNORECASE, "haha", -1, "hoho", -1);
ok (ret== 1, "(haha/hoho) Expected 1, got %d\n", ret);
ret = CompareStringA(lcid, NORM_IGNORECASE, "haha", -1, "hoho", 0);
ok (ret== 3, "(haha/hoho) Expected 3, got %d\n", ret);
ret = CompareStringA(lcid, NORM_IGNORECASE, "Salut", 5, "SaLuT", -1);
ok (ret== 2, "(Salut/SaLuT) Expected 2, got %d\n", ret);
}
void test_LCMapStringA(void)
{
int ret, ret2;
char buf[256], buf2[256];
static const char upper_case[] = "\tJUST! A, TEST; STRING 1/*+-.\r\n";
static const char lower_case[] = "\tjust! a, test; string 1/*+-.\r\n";
static const char symbols_stripped[] = "justateststring1";
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_LOWERCASE | LCMAP_UPPERCASE,
upper_case, -1, buf, sizeof(buf));
ok(!ret, "LCMAP_LOWERCASE and LCMAP_UPPERCASE are mutually exclusive\n");
ok(GetLastError() == ERROR_INVALID_FLAGS,
"unexpected error code %ld\n", GetLastError());
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_HIRAGANA | LCMAP_KATAKANA,
upper_case, -1, buf, sizeof(buf));
ok(!ret, "LCMAP_HIRAGANA and LCMAP_KATAKANA are mutually exclusive\n");
ok(GetLastError() == ERROR_INVALID_FLAGS,
"unexpected error code %ld\n", GetLastError());
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_HALFWIDTH | LCMAP_FULLWIDTH,
upper_case, -1, buf, sizeof(buf));
ok(!ret, "LCMAP_HALFWIDTH | LCMAP_FULLWIDTH are mutually exclusive\n");
ok(GetLastError() == ERROR_INVALID_FLAGS,
"unexpected error code %ld\n", GetLastError());
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_TRADITIONAL_CHINESE | LCMAP_SIMPLIFIED_CHINESE,
upper_case, -1, buf, sizeof(buf));
ok(!ret, "LCMAP_TRADITIONAL_CHINESE and LCMAP_SIMPLIFIED_CHINESE are mutually exclusive\n");
ok(GetLastError() == ERROR_INVALID_FLAGS,
"unexpected error code %ld\n", GetLastError());
/* SORT_STRINGSORT must be used exclusively with LCMAP_SORTKEY */
SetLastError(0xdeadbeef);
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_LOWERCASE | SORT_STRINGSORT,
upper_case, -1, buf, sizeof(buf));
ok(GetLastError() == ERROR_INVALID_FLAGS, "expected ERROR_INVALID_FLAGS, got %ld\n", GetLastError());
ok(!ret, "SORT_STRINGSORT without LCMAP_SORTKEY must fail\n");
/* test LCMAP_LOWERCASE */
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_LOWERCASE,
upper_case, -1, buf, sizeof(buf));
ok(ret == lstrlenA(upper_case) + 1,
"ret %d, error %ld, expected value %d\n",
ret, GetLastError(), lstrlenA(upper_case) + 1);
ok(!lstrcmpA(buf, lower_case), "LCMapStringA should return %s, but not %s\n", lower_case, buf);
/* test LCMAP_UPPERCASE */
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_UPPERCASE,
lower_case, -1, buf, sizeof(buf));
ok(ret == lstrlenA(lower_case) + 1,
"ret %d, error %ld, expected value %d\n",
ret, GetLastError(), lstrlenA(lower_case) + 1);
ok(!lstrcmpA(buf, upper_case), "LCMapStringA should return %s, but not %s\n", upper_case, buf);
/* LCMAP_UPPERCASE or LCMAP_LOWERCASE should accept src == dst */
lstrcpyA(buf, lower_case);
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_UPPERCASE,
buf, -1, buf, sizeof(buf));
if (!ret) /* Win9x */
trace("Ignoring LCMapStringA(LCMAP_UPPERCASE, buf, buf) error on Win9x\n");
else
{
ok(ret == lstrlenA(lower_case) + 1,
"ret %d, error %ld, expected value %d\n",
ret, GetLastError(), lstrlenA(lower_case) + 1);
ok(!lstrcmpA(buf, upper_case), "LCMapStringA should return %s, but not %s\n", upper_case, buf);
}
lstrcpyA(buf, upper_case);
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_LOWERCASE,
buf, -1, buf, sizeof(buf));
if (!ret) /* Win9x */
trace("Ignoring LCMapStringA(LCMAP_LOWERCASE, buf, buf) error on Win9x\n");
else
{
ok(ret == lstrlenA(upper_case) + 1,
"ret %d, error %ld, expected value %d\n",
ret, GetLastError(), lstrlenA(lower_case) + 1);
ok(!lstrcmpA(buf, lower_case), "LCMapStringA should return %s, but not %s\n", lower_case, buf);
}
/* otherwise src == dst should fail */
SetLastError(0xdeadbeef);
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_SORTKEY | LCMAP_UPPERCASE,
buf, 10, buf, sizeof(buf));
ok(GetLastError() == ERROR_INVALID_FLAGS /* NT */ ||
GetLastError() == ERROR_INVALID_PARAMETER /* Win9x */,
"unexpected error code %ld\n", GetLastError());
ok(!ret, "src == dst without LCMAP_UPPERCASE or LCMAP_LOWERCASE must fail\n");
/* test whether '\0' is always appended */
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_SORTKEY,
upper_case, -1, buf, sizeof(buf));
ok(ret, "LCMapStringA must succeed\n");
ret2 = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_SORTKEY,
upper_case, lstrlenA(upper_case), buf2, sizeof(buf2));
ok(ret, "LCMapStringA must succeed\n");
ok(ret == ret2, "lengths of sort keys must be equal\n");
ok(!lstrcmpA(buf, buf2), "sort keys must be equal\n");
/* test LCMAP_SORTKEY | NORM_IGNORECASE */
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_SORTKEY | NORM_IGNORECASE,
upper_case, -1, buf, sizeof(buf));
ok(ret, "LCMapStringA must succeed\n");
ret2 = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_SORTKEY,
lower_case, -1, buf2, sizeof(buf2));
ok(ret2, "LCMapStringA must succeed\n");
ok(ret == ret2, "lengths of sort keys must be equal\n");
ok(!lstrcmpA(buf, buf2), "sort keys must be equal\n");
/* test LCMAP_SORTKEY | NORM_IGNORENONSPACE */
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_SORTKEY | NORM_IGNORENONSPACE,
lower_case, -1, buf, sizeof(buf));
ok(ret, "LCMapStringA must succeed\n");
ret2 = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_SORTKEY,
lower_case, -1, buf2, sizeof(buf2));
ok(ret2, "LCMapStringA must succeed\n");
ok(ret == ret2, "lengths of sort keys must be equal\n");
ok(!lstrcmpA(buf, buf2), "sort keys must be equal\n");
/* test LCMAP_SORTKEY | NORM_IGNORESYMBOLS */
ret = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_SORTKEY | NORM_IGNORESYMBOLS,
lower_case, -1, buf, sizeof(buf));
ok(ret, "LCMapStringA must succeed\n");
ret2 = LCMapStringA(LOCALE_USER_DEFAULT, LCMAP_SORTKEY,
symbols_stripped, -1, buf2, sizeof(buf2));
ok(ret2, "LCMapStringA must succeed\n");
ok(ret == ret2, "lengths of sort keys must be equal\n");
ok(!lstrcmpA(buf, buf2), "sort keys must be equal\n");
/* test NORM_IGNORENONSPACE */
lstrcpyA(buf, "foo");
ret = LCMapStringA(LOCALE_USER_DEFAULT, NORM_IGNORENONSPACE,
lower_case, -1, buf, sizeof(buf));
ok(ret == lstrlenA(lower_case) + 1, "LCMapStringA should return %d, ret = %d\n",
lstrlenA(lower_case) + 1, ret);
ok(!lstrcmpA(buf, lower_case), "LCMapStringA should return %s, but not %s\n", lower_case, buf);
/* test NORM_IGNORESYMBOLS */
lstrcpyA(buf, "foo");
ret = LCMapStringA(LOCALE_USER_DEFAULT, NORM_IGNORESYMBOLS,
lower_case, -1, buf, sizeof(buf));
ok(ret == lstrlenA(symbols_stripped) + 1, "LCMapStringA should return %d, ret = %d\n",
lstrlenA(symbols_stripped) + 1, ret);
ok(!lstrcmpA(buf, symbols_stripped), "LCMapStringA should return %s, but not %s\n", lower_case, buf);
}
void test_LCMapStringW(void)
{
int ret, ret2;
WCHAR buf[256], buf2[256];
char *p_buf = (char *)buf, *p_buf2 = (char *)buf2;
static const WCHAR upper_case[] = {'\t','J','U','S','T','!',' ','A',',',' ','T','E','S','T',';',' ','S','T','R','I','N','G',' ','1','/','*','+','-','.','\r','\n',0};
static const WCHAR lower_case[] = {'\t','j','u','s','t','!',' ','a',',',' ','t','e','s','t',';',' ','s','t','r','i','n','g',' ','1','/','*','+','-','.','\r','\n',0};
static const WCHAR symbols_stripped[] = {'j','u','s','t','a','t','e','s','t','s','t','r','i','n','g','1',0};
static const WCHAR fooW[] = {'f','o','o',0};
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_LOWERCASE | LCMAP_UPPERCASE,
upper_case, -1, buf, sizeof(buf)/sizeof(WCHAR));
if (GetLastError() == ERROR_CALL_NOT_IMPLEMENTED)
{
trace("Skipping LCMapStringW tests on Win9x\n");
return;
}
ok(!ret, "LCMAP_LOWERCASE and LCMAP_UPPERCASE are mutually exclusive\n");
ok(GetLastError() == ERROR_INVALID_FLAGS,
"unexpected error code %ld\n", GetLastError());
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_HIRAGANA | LCMAP_KATAKANA,
upper_case, -1, buf, sizeof(buf)/sizeof(WCHAR));
ok(!ret, "LCMAP_HIRAGANA and LCMAP_KATAKANA are mutually exclusive\n");
ok(GetLastError() == ERROR_INVALID_FLAGS,
"unexpected error code %ld\n", GetLastError());
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_HALFWIDTH | LCMAP_FULLWIDTH,
upper_case, -1, buf, sizeof(buf)/sizeof(WCHAR));
ok(!ret, "LCMAP_HALFWIDTH | LCMAP_FULLWIDTH are mutually exclusive\n");
ok(GetLastError() == ERROR_INVALID_FLAGS,
"unexpected error code %ld\n", GetLastError());
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_TRADITIONAL_CHINESE | LCMAP_SIMPLIFIED_CHINESE,
upper_case, -1, buf, sizeof(buf)/sizeof(WCHAR));
ok(!ret, "LCMAP_TRADITIONAL_CHINESE and LCMAP_SIMPLIFIED_CHINESE are mutually exclusive\n");
ok(GetLastError() == ERROR_INVALID_FLAGS,
"unexpected error code %ld\n", GetLastError());
/* SORT_STRINGSORT must be used exclusively with LCMAP_SORTKEY */
SetLastError(0xdeadbeef);
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_LOWERCASE | SORT_STRINGSORT,
upper_case, -1, buf, sizeof(buf)/sizeof(WCHAR));
ok(GetLastError() == ERROR_INVALID_FLAGS, "expected ERROR_INVALID_FLAGS, got %ld\n", GetLastError());
ok(!ret, "SORT_STRINGSORT without LCMAP_SORTKEY must fail\n");
/* test LCMAP_LOWERCASE */
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_LOWERCASE,
upper_case, -1, buf, sizeof(buf)/sizeof(WCHAR));
ok(ret == lstrlenW(upper_case) + 1,
"ret %d, error %ld, expected value %d\n",
ret, GetLastError(), lstrlenW(upper_case) + 1);
ok(!lstrcmpW(buf, lower_case), "string compare mismatch\n");
/* test LCMAP_UPPERCASE */
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_UPPERCASE,
lower_case, -1, buf, sizeof(buf)/sizeof(WCHAR));
ok(ret == lstrlenW(lower_case) + 1,
"ret %d, error %ld, expected value %d\n",
ret, GetLastError(), lstrlenW(lower_case) + 1);
ok(!lstrcmpW(buf, upper_case), "string compare mismatch\n");
/* LCMAP_UPPERCASE or LCMAP_LOWERCASE should accept src == dst */
lstrcpyW(buf, lower_case);
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_UPPERCASE,
buf, -1, buf, sizeof(buf)/sizeof(WCHAR));
ok(ret == lstrlenW(lower_case) + 1,
"ret %d, error %ld, expected value %d\n",
ret, GetLastError(), lstrlenW(lower_case) + 1);
ok(!lstrcmpW(buf, upper_case), "string compare mismatch\n");
lstrcpyW(buf, upper_case);
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_LOWERCASE,
buf, -1, buf, sizeof(buf)/sizeof(WCHAR));
ok(ret == lstrlenW(upper_case) + 1,
"ret %d, error %ld, expected value %d\n",
ret, GetLastError(), lstrlenW(lower_case) + 1);
ok(!lstrcmpW(buf, lower_case), "string compare mismatch\n");
/* otherwise src == dst should fail */
SetLastError(0xdeadbeef);
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_SORTKEY | LCMAP_UPPERCASE,
buf, 10, buf, sizeof(buf));
ok(GetLastError() == ERROR_INVALID_FLAGS /* NT */ ||
GetLastError() == ERROR_INVALID_PARAMETER /* Win9x */,
"unexpected error code %ld\n", GetLastError());
ok(!ret, "src == dst without LCMAP_UPPERCASE or LCMAP_LOWERCASE must fail\n");
/* test whether '\0' is always appended */
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_SORTKEY,
upper_case, -1, buf, sizeof(buf));
ok(ret, "LCMapStringW must succeed\n");
ret2 = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_SORTKEY,
upper_case, lstrlenW(upper_case), buf2, sizeof(buf2));
ok(ret, "LCMapStringW must succeed\n");
ok(ret == ret2, "lengths of sort keys must be equal\n");
ok(!lstrcmpA(p_buf, p_buf2), "sort keys must be equal\n");
/* test LCMAP_SORTKEY | NORM_IGNORECASE */
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_SORTKEY | NORM_IGNORECASE,
upper_case, -1, buf, sizeof(buf));
ok(ret, "LCMapStringW must succeed\n");
ret2 = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_SORTKEY,
lower_case, -1, buf2, sizeof(buf2));
ok(ret2, "LCMapStringW must succeed\n");
ok(ret == ret2, "lengths of sort keys must be equal\n");
ok(!lstrcmpA(p_buf, p_buf2), "sort keys must be equal\n");
/* test LCMAP_SORTKEY | NORM_IGNORENONSPACE */
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_SORTKEY | NORM_IGNORENONSPACE,
lower_case, -1, buf, sizeof(buf));
ok(ret, "LCMapStringW must succeed\n");
ret2 = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_SORTKEY,
lower_case, -1, buf2, sizeof(buf2));
ok(ret2, "LCMapStringW must succeed\n");
ok(ret == ret2, "lengths of sort keys must be equal\n");
ok(!lstrcmpA(p_buf, p_buf2), "sort keys must be equal\n");
/* test LCMAP_SORTKEY | NORM_IGNORESYMBOLS */
ret = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_SORTKEY | NORM_IGNORESYMBOLS,
lower_case, -1, buf, sizeof(buf));
ok(ret, "LCMapStringW must succeed\n");
ret2 = LCMapStringW(LOCALE_USER_DEFAULT, LCMAP_SORTKEY,
symbols_stripped, -1, buf2, sizeof(buf2));
ok(ret2, "LCMapStringW must succeed\n");
ok(ret == ret2, "lengths of sort keys must be equal\n");
ok(!lstrcmpA(p_buf, p_buf2), "sort keys must be equal\n");
/* test NORM_IGNORENONSPACE */
lstrcpyW(buf, fooW);
ret = LCMapStringW(LOCALE_USER_DEFAULT, NORM_IGNORENONSPACE,
lower_case, -1, buf, sizeof(buf)/sizeof(WCHAR));
ok(ret == lstrlenW(lower_case) + 1, "LCMapStringW should return %d, ret = %d\n",
lstrlenW(lower_case) + 1, ret);
ok(!lstrcmpW(buf, lower_case), "string comparison mismatch\n");
/* test NORM_IGNORESYMBOLS */
lstrcpyW(buf, fooW);
ret = LCMapStringW(LOCALE_USER_DEFAULT, NORM_IGNORESYMBOLS,
lower_case, -1, buf, sizeof(buf)/sizeof(WCHAR));
ok(ret == lstrlenW(symbols_stripped) + 1, "LCMapStringW should return %d, ret = %d\n",
lstrlenW(symbols_stripped) + 1, ret);
ok(!lstrcmpW(buf, symbols_stripped), "string comparison mismatch\n");
}
START_TEST(locale)
{
#if 0
test_EnumTimeFormats();
#endif
test_GetLocaleInfoA();
test_GetTimeFormatA();
test_GetDateFormatA();
test_GetDateFormatW();
test_GetCurrencyFormatA(); /* Also tests the W version */
test_GetNumberFormatA(); /* Also tests the W version */
test_CompareStringA();
test_LCMapStringA();
test_LCMapStringW();
}
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