/* Unit test suite for SHLWAPI string 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include "wine/test.h" #include "winbase.h" #include "winerror.h" #include "winnls.h" #define NO_SHLWAPI_REG #define NO_SHLWAPI_PATH #define NO_SHLWAPI_GDI #define NO_SHLWAPI_STREAM #include "shlwapi.h" #include "shtypes.h" #define expect_eq(expr, val, type, fmt) do { \ type ret = expr; \ ok(ret == val, "Unexpected value of '" #expr "': " #fmt " instead of " #val "\n", ret); \ } while (0); #define expect_eq2(expr, val1, val2, type, fmt) do { \ type ret = expr; \ ok(ret == val1 || ret == val2, "Unexpected value of '" #expr "': " #fmt " instead of " #val1 " or " #val2 "\n", ret); \ } while (0); static BOOL (WINAPI *pChrCmpIA)(CHAR, CHAR); static BOOL (WINAPI *pChrCmpIW)(WCHAR, WCHAR); static BOOL (WINAPI *pIntlStrEqWorkerA)(BOOL,LPCSTR,LPCSTR,int); static BOOL (WINAPI *pIntlStrEqWorkerW)(BOOL,LPCWSTR,LPCWSTR,int); static DWORD (WINAPI *pSHAnsiToAnsi)(LPCSTR,LPSTR,int); static DWORD (WINAPI *pSHUnicodeToUnicode)(LPCWSTR,LPWSTR,int); static LPSTR (WINAPI *pStrCatBuffA)(LPSTR,LPCSTR,INT); static LPWSTR (WINAPI *pStrCatBuffW)(LPWSTR,LPCWSTR,INT); static DWORD (WINAPI *pStrCatChainW)(LPWSTR,DWORD,DWORD,LPCWSTR); static LPSTR (WINAPI *pStrCpyNXA)(LPSTR,LPCSTR,int); static LPWSTR (WINAPI *pStrCpyNXW)(LPWSTR,LPCWSTR,int); static LPSTR (WINAPI *pStrFormatByteSize64A)(LONGLONG,LPSTR,UINT); static LPSTR (WINAPI *pStrFormatKBSizeA)(LONGLONG,LPSTR,UINT); static LPWSTR (WINAPI *pStrFormatKBSizeW)(LONGLONG,LPWSTR,UINT); static BOOL (WINAPI *pStrIsIntlEqualA)(BOOL,LPCSTR,LPCSTR,int); static BOOL (WINAPI *pStrIsIntlEqualW)(BOOL,LPCWSTR,LPCWSTR,int); static LPWSTR (WINAPI *pStrPBrkW)(LPCWSTR,LPCWSTR); static LPSTR (WINAPI *pStrRChrA)(LPCSTR,LPCSTR,WORD); static HRESULT (WINAPI *pStrRetToBSTR)(STRRET*,LPCITEMIDLIST,BSTR*); static HRESULT (WINAPI *pStrRetToBufA)(STRRET*,LPCITEMIDLIST,LPSTR,UINT); static HRESULT (WINAPI *pStrRetToBufW)(STRRET*,LPCITEMIDLIST,LPWSTR,UINT); static LPWSTR (WINAPI *pStrStrNW)(LPCWSTR,LPCWSTR,UINT); static LPWSTR (WINAPI *pStrStrNIW)(LPCWSTR,LPCWSTR,UINT); static INT (WINAPIV *pwnsprintfA)(LPSTR,INT,LPCSTR, ...); static INT (WINAPIV *pwnsprintfW)(LPWSTR,INT,LPCWSTR, ...); static LPWSTR (WINAPI *pStrChrNW)(LPCWSTR,WCHAR,UINT); static BOOL (WINAPI *pStrToInt64ExA)(LPCSTR,DWORD,LONGLONG*); static BOOL (WINAPI *pStrToInt64ExW)(LPCWSTR,DWORD,LONGLONG*); /* StrToInt/StrToIntEx results */ typedef struct tagStrToIntResult { const char* string; int str_to_int; LONGLONG str_to_int64_ex; LONGLONG str_to_int64_hex; BOOL failure; } StrToIntResult; static const StrToIntResult StrToInt_results[] = { { "1099", 1099, 1099, 1099 }, { "4294967319", 23, ((LONGLONG)1 << 32) | 23, ((LONGLONG)1 << 32) | 23 }, { "+88987", 0, 88987, 88987 }, { "012", 12, 12, 12 }, { "-55", -55, -55, -55 }, { "-0", 0, 0, 0 }, { "0x44ff", 0, 0, 0x44ff }, { "0x2bdc546291f4b1", 0, 0, ((LONGLONG)0x2bdc54 << 32) | 0x6291f4b1 }, { "+0x44f4", 0, 0, 0x44f4 }, { "-0x44fd", 0, 0, 0x44fd }, { "+ 88987", 0, 0, 0, TRUE }, { "- 55", 0, 0, 0, TRUE }, { "- 0", 0, 0, 0, TRUE }, { "+ 0x44f4", 0, 0, 0, TRUE }, { "--0x44fd", 0, 0, 0, TRUE }, { " 1999", 0, 1999, 1999 }, { " +88987", 0, 88987, 88987 }, { " 012", 0, 12, 12 }, { " -55", 0, -55, -55 }, { " 0x44ff", 0, 0, 0x44ff }, { " +0x44f4", 0, 0, 0x44f4 }, { " -0x44fd", 0, 0, 0x44fd }, { "\t\n +3", 0, 3, 3 }, { "\v+4", 0, 0, 0, TRUE }, { "\f+5", 0, 0, 0, TRUE }, { "\r+6", 0, 0, 0, TRUE }, { NULL, 0, 0, 0 } }; /* pStrFormatByteSize64/StrFormatKBSize results */ typedef struct tagStrFormatSizeResult { LONGLONG value; const char* byte_size_64; const char* kb_size; int kb_size_broken; const char* kb_size2; } StrFormatSizeResult; static const StrFormatSizeResult StrFormatSize_results[] = { { -1023, "-1023 bytes", "0 KB"}, { -24, "-24 bytes", "0 KB"}, { 309, "309 bytes", "1 KB"}, { 10191, "9.95 KB", "10 KB"}, { 100353, "98.0 KB", "99 KB"}, { 1022286, "998 KB", "999 KB"}, { 1046862, "0.99 MB", "1,023 KB", 1, "1023 KB"}, { 1048574619, "999 MB", "1,023,999 KB", 1, "1023999 KB"}, { 1073741775, "0.99 GB", "1,048,576 KB", 1, "1048576 KB"}, { ((LONGLONG)0x000000f9 << 32) | 0xfffff94e, "999 GB", "1,048,575,999 KB", 1, "1048575999 KB"}, { ((LONGLONG)0x000000ff << 32) | 0xfffffa9b, "0.99 TB", "1,073,741,823 KB", 1, "1073741823 KB"}, { ((LONGLONG)0x0003e7ff << 32) | 0xfffffa9b, "999 TB", "1,073,741,823,999 KB", 1, "4294967295 KB"}, { ((LONGLONG)0x0003ffff << 32) | 0xfffffbe8, "0.99 PB", "1,099,511,627,775 KB", 1, "4294967295 KB"}, { ((LONGLONG)0x0f9fffff << 32) | 0xfffffd35, "999 PB", "1,099,511,627,776,000 KB", 1, "0 KB"}, { ((LONGLONG)0x0fffffff << 32) | 0xfffffa9b, "0.99 EB", "1,125,899,906,842,623 KB", 1, "4294967295 KB"}, { 0, NULL, NULL } }; /* StrFromTimeIntervalA/StrFromTimeIntervalW results */ typedef struct tagStrFromTimeIntervalResult { DWORD ms; int digits; const char* time_interval; } StrFromTimeIntervalResult; static const StrFromTimeIntervalResult StrFromTimeInterval_results[] = { { 1, 1, " 0 sec" }, { 1, 2, " 0 sec" }, { 1, 3, " 0 sec" }, { 1, 4, " 0 sec" }, { 1, 5, " 0 sec" }, { 1, 6, " 0 sec" }, { 1, 7, " 0 sec" }, { 1000000, 1, " 10 min" }, { 1000000, 2, " 16 min" }, { 1000000, 3, " 16 min 40 sec" }, { 1000000, 4, " 16 min 40 sec" }, { 1000000, 5, " 16 min 40 sec" }, { 1000000, 6, " 16 min 40 sec" }, { 1000000, 7, " 16 min 40 sec" }, { 1999999, 1, " 30 min" }, { 1999999, 2, " 33 min" }, { 1999999, 3, " 33 min 20 sec" }, { 1999999, 4, " 33 min 20 sec" }, { 1999999, 5, " 33 min 20 sec" }, { 1999999, 6, " 33 min 20 sec" }, { 1999999, 7, " 33 min 20 sec" }, { 3999997, 1, " 1 hr" }, { 3999997, 2, " 1 hr 6 min" }, { 3999997, 3, " 1 hr 6 min 40 sec" }, { 3999997, 4, " 1 hr 6 min 40 sec" }, { 3999997, 5, " 1 hr 6 min 40 sec" }, { 3999997, 6, " 1 hr 6 min 40 sec" }, { 3999997, 7, " 1 hr 6 min 40 sec" }, { 149999851, 7, " 41 hr 40 min 0 sec" }, { 150999850, 1, " 40 hr" }, { 150999850, 2, " 41 hr" }, { 150999850, 3, " 41 hr 50 min" }, { 150999850, 4, " 41 hr 56 min" }, { 150999850, 5, " 41 hr 56 min 40 sec" }, { 150999850, 6, " 41 hr 56 min 40 sec" }, { 150999850, 7, " 41 hr 56 min 40 sec" }, { 493999507, 1, " 100 hr" }, { 493999507, 2, " 130 hr" }, { 493999507, 3, " 137 hr" }, { 493999507, 4, " 137 hr 10 min" }, { 493999507, 5, " 137 hr 13 min" }, { 493999507, 6, " 137 hr 13 min 20 sec" }, { 493999507, 7, " 137 hr 13 min 20 sec" }, { 0, 0, NULL } }; /* Returns true if the user interface is in English. Note that this does not * presume of the formatting of dates, numbers, etc. */ static BOOL is_lang_english(void) { static HMODULE hkernel32 = NULL; static LANGID (WINAPI *pGetThreadUILanguage)(void) = NULL; static LANGID (WINAPI *pGetUserDefaultUILanguage)(void) = NULL; if (!hkernel32) { hkernel32 = GetModuleHandleA("kernel32.dll"); pGetThreadUILanguage = (void*)GetProcAddress(hkernel32, "GetThreadUILanguage"); pGetUserDefaultUILanguage = (void*)GetProcAddress(hkernel32, "GetUserDefaultUILanguage"); } if (pGetThreadUILanguage) return PRIMARYLANGID(pGetThreadUILanguage()) == LANG_ENGLISH; if (pGetUserDefaultUILanguage) return PRIMARYLANGID(pGetUserDefaultUILanguage()) == LANG_ENGLISH; return PRIMARYLANGID(GetUserDefaultLangID()) == LANG_ENGLISH; } /* Returns true if the dates, numbers, etc. are formatted using English * conventions. */ static BOOL is_locale_english(void) { /* Surprisingly GetThreadLocale() is irrelevant here */ return PRIMARYLANGID(GetUserDefaultLangID()) == LANG_ENGLISH; } static void test_StrChrA(void) { char string[129]; WORD count; /* this test crashes on win2k SP4 */ /*ok(!StrChrA(NULL,'\0'), "found a character in a NULL string!\n");*/ for (count = 32; count < 128; count++) string[count] = (char)count; string[128] = '\0'; for (count = 32; count < 128; count++) { LPSTR result = StrChrA(string+32, count); INT pos = result - string; ok(pos == count, "found char '%c' in wrong place: got %d, expected %d\n", count, pos, count); } for (count = 32; count < 128; count++) { LPSTR result = StrChrA(string+count+1, count); ok(!result, "found char '%c' not in the string\n", count); } } static void test_StrChrW(void) { WCHAR string[16385]; WORD count; /* this test crashes on win2k SP4 */ /*ok(!StrChrW(NULL,'\0'), "found a character in a NULL string!\n");*/ for (count = 32; count < 16384; count++) string[count] = count; string[16384] = '\0'; for (count = 32; count < 16384; count++) { LPWSTR result = StrChrW(string+32, count); ok((result - string) == count, "found char %d in wrong place\n", count); } for (count = 32; count < 16384; count++) { LPWSTR result = StrChrW(string+count+1, count); ok(!result, "found char not in the string\n"); } } static void test_StrChrIA(void) { char string[129]; WORD count; /* this test crashes on win2k SP4 */ /*ok(!StrChrIA(NULL,'\0'), "found a character in a NULL string!\n");*/ for (count = 32; count < 128; count++) string[count] = (char)count; string[128] = '\0'; for (count = 'A'; count <= 'X'; count++) { LPSTR result = StrChrIA(string+32, count); ok(result - string == count, "found char '%c' in wrong place\n", count); ok(StrChrIA(result, count)!=NULL, "didn't find lowercase '%c'\n", count); } for (count = 'a'; count < 'z'; count++) { LPSTR result = StrChrIA(string+count+1, count); ok(!result, "found char not in the string\n"); } } static void test_StrChrIW(void) { WCHAR string[129]; WORD count; /* this test crashes on win2k SP4 */ /*ok(!StrChrIA(NULL,'\0'), "found a character in a NULL string!\n");*/ for (count = 32; count < 128; count++) string[count] = count; string[128] = '\0'; for (count = 'A'; count <= 'X'; count++) { LPWSTR result = StrChrIW(string+32, count); ok(result - string == count, "found char '%c' in wrong place\n", count); ok(StrChrIW(result, count)!=NULL, "didn't find lowercase '%c'\n", count); } for (count = 'a'; count < 'z'; count++) { LPWSTR result = StrChrIW(string+count+1, count); ok(!result, "found char not in the string\n"); } } static void test_StrRChrA(void) { char string[129]; WORD count; /* this test crashes on win2k SP4 */ /*ok(!StrRChrA(NULL, NULL,'\0'), "found a character in a NULL string!\n");*/ for (count = 32; count < 128; count++) string[count] = (char)count; string[128] = '\0'; for (count = 32; count < 128; count++) { LPSTR result = StrRChrA(string+32, NULL, count); ok(result - string == count, "found char %d in wrong place\n", count); } for (count = 32; count < 128; count++) { LPSTR result = StrRChrA(string+count+1, NULL, count); ok(!result, "found char not in the string\n"); } for (count = 32; count < 128; count++) { LPSTR result = StrRChrA(string+count+1, string + 127, count); ok(!result, "found char not in the string\n"); } } static void test_StrRChrW(void) { WCHAR string[129]; WORD count; /* this test crashes on win2k SP4 */ /*ok(!StrRChrW(NULL, NULL,'\0'), "found a character in a NULL string!\n");*/ for (count = 32; count < 128; count++) string[count] = count; string[128] = '\0'; for (count = 32; count < 128; count++) { LPWSTR result = StrRChrW(string+32, NULL, count); INT pos = result - string; ok(pos == count, "found char %d in wrong place: got %d, expected %d\n", count, pos, count); } for (count = 32; count < 128; count++) { LPWSTR result = StrRChrW(string+count+1, NULL, count); ok(!result, "found char %d not in the string\n", count); } for (count = 32; count < 128; count++) { LPWSTR result = StrRChrW(string+count+1, string + 127, count); ok(!result, "found char %d not in the string\n", count); } } static void test_StrCpyW(void) { WCHAR szSrc[256]; WCHAR szBuff[256]; const StrFormatSizeResult* result = StrFormatSize_results; LPWSTR lpRes; while(result->value) { MultiByteToWideChar(CP_ACP, 0, result->byte_size_64, -1, szSrc, ARRAY_SIZE(szSrc)); lpRes = StrCpyW(szBuff, szSrc); ok(!StrCmpW(szSrc, szBuff) && lpRes == szBuff, "Copied string %s wrong\n", result->byte_size_64); result++; } /* this test crashes on win2k SP4 */ /*lpRes = StrCpyW(szBuff, NULL);*/ /*ok(lpRes == szBuff, "Wrong return value: got %p expected %p\n", lpRes, szBuff);*/ /* this test crashes on win2k SP4 */ /*lpRes = StrCpyW(NULL, szSrc);*/ /*ok(lpRes == NULL, "Wrong return value: got %p expected NULL\n", lpRes);*/ /* this test crashes on win2k SP4 */ /*lpRes = StrCpyW(NULL, NULL);*/ /*ok(lpRes == NULL, "Wrong return value: got %p expected NULL\n", lpRes);*/ } static void test_StrChrNW(void) { static const WCHAR string[] = {'T','e','s','t','i','n','g',' ','S','t','r','i','n','g',0}; LPWSTR p; if (!pStrChrNW) { win_skip("StrChrNW not available\n"); return; } p = pStrChrNW(string,'t',10); ok(*p=='t',"Found wrong 't'\n"); ok(*(p+1)=='i',"next should be 'i'\n"); p = pStrChrNW(string,'S',10); ok(*p=='S',"Found wrong 'S'\n"); p = pStrChrNW(string,'r',10); ok(p==NULL,"Should not have found 'r'\n"); } static void test_StrToIntA(void) { const StrToIntResult *result = StrToInt_results; int return_val; while (result->string) { return_val = StrToIntA(result->string); ok(return_val == result->str_to_int, "converted '%s' wrong (%d)\n", result->string, return_val); result++; } } static void test_StrToIntW(void) { WCHAR szBuff[256]; const StrToIntResult *result = StrToInt_results; int return_val; while (result->string) { MultiByteToWideChar(CP_ACP, 0, result->string, -1, szBuff, ARRAY_SIZE(szBuff)); return_val = StrToIntW(szBuff); ok(return_val == result->str_to_int, "converted '%s' wrong (%d)\n", result->string, return_val); result++; } } static void test_StrToIntExA(void) { const StrToIntResult *result = StrToInt_results; int return_val; BOOL bRet; while (result->string) { return_val = -1; bRet = StrToIntExA(result->string,0,&return_val); if (result->failure) ok(!bRet, "Got %d instead of failure for '%s'\n", return_val, result->string); else ok(bRet, "Failed for '%s'\n", result->string); if (bRet) ok(return_val == (int)result->str_to_int64_ex, "converted '%s' wrong (%d)\n", result->string, return_val); result++; } result = StrToInt_results; while (result->string) { return_val = -1; bRet = StrToIntExA(result->string,STIF_SUPPORT_HEX,&return_val); if (result->failure) ok(!bRet, "Got %d instead of failure for '%s'\n", return_val, result->string); else ok(bRet, "Failed for '%s'\n", result->string); if (bRet) ok(return_val == (int)result->str_to_int64_hex, "converted '%s' wrong (%d)\n", result->string, return_val); result++; } } static void test_StrToIntExW(void) { WCHAR szBuff[256]; const StrToIntResult *result = StrToInt_results; int return_val; BOOL bRet; while (result->string) { return_val = -1; MultiByteToWideChar(CP_ACP, 0, result->string, -1, szBuff, ARRAY_SIZE(szBuff)); bRet = StrToIntExW(szBuff, 0, &return_val); if (result->failure) ok(!bRet, "Got %d instead of failure for '%s'\n", return_val, result->string); else ok(bRet, "Failed for '%s'\n", result->string); if (bRet) ok(return_val == (int)result->str_to_int64_ex, "converted '%s' wrong (%d)\n", result->string, return_val); result++; } result = StrToInt_results; while (result->string) { return_val = -1; MultiByteToWideChar(CP_ACP, 0, result->string, -1, szBuff, ARRAY_SIZE(szBuff)); bRet = StrToIntExW(szBuff, STIF_SUPPORT_HEX, &return_val); if (result->failure) ok(!bRet, "Got %d instead of failure for '%s'\n", return_val, result->string); else ok(bRet, "Failed for '%s'\n", result->string); if (bRet) ok(return_val == (int)result->str_to_int64_hex, "converted '%s' wrong (%d)\n", result->string, return_val); result++; } return_val = -1; bRet = StrToIntExW(L"\x0661\x0662", 0, &return_val); ok( !bRet, "Returned %d for Unicode digits\n", return_val ); bRet = StrToIntExW(L"\x07c3\x07c4", 0, &return_val); ok( !bRet, "Returned %d for Unicode digits\n", return_val ); bRet = StrToIntExW(L"\xa0-2", 0, &return_val); ok( !bRet, "Returned %d for Unicode space\n", return_val ); } static void test_StrToInt64ExA(void) { const StrToIntResult *result = StrToInt_results; LONGLONG return_val; BOOL bRet; if (!pStrToInt64ExA) { win_skip("StrToInt64ExA() is not available\n"); return; } while (result->string) { return_val = -1; bRet = pStrToInt64ExA(result->string,0,&return_val); if (result->failure) ok(!bRet, "Got %s instead of failure for '%s'\n", wine_dbgstr_longlong(return_val), result->string); else ok(bRet, "Failed for '%s'\n", result->string); if (bRet) ok(return_val == result->str_to_int64_ex, "converted '%s' wrong (%s)\n", result->string, wine_dbgstr_longlong(return_val)); result++; } result = StrToInt_results; while (result->string) { return_val = -1; bRet = pStrToInt64ExA(result->string,STIF_SUPPORT_HEX,&return_val); if (result->failure) ok(!bRet, "Got %s instead of failure for '%s'\n", wine_dbgstr_longlong(return_val), result->string); else ok(bRet, "Failed for '%s'\n", result->string); if (bRet) ok(return_val == result->str_to_int64_hex, "converted '%s' wrong (%s)\n", result->string, wine_dbgstr_longlong(return_val)); result++; } } static void test_StrToInt64ExW(void) { WCHAR szBuff[256]; const StrToIntResult *result = StrToInt_results; LONGLONG return_val; BOOL bRet; if (!pStrToInt64ExW) { win_skip("StrToInt64ExW() is not available\n"); return; } while (result->string) { return_val = -1; MultiByteToWideChar(CP_ACP, 0, result->string, -1, szBuff, ARRAY_SIZE(szBuff)); bRet = pStrToInt64ExW(szBuff, 0, &return_val); if (result->failure) ok(!bRet, "Got %s instead of failure for '%s'\n", wine_dbgstr_longlong(return_val), result->string); else ok(bRet, "Failed for '%s'\n", result->string); if (bRet) ok(return_val == result->str_to_int64_ex, "converted '%s' wrong (%s)\n", result->string, wine_dbgstr_longlong(return_val)); result++; } result = StrToInt_results; while (result->string) { return_val = -1; MultiByteToWideChar(CP_ACP, 0, result->string, -1, szBuff, ARRAY_SIZE(szBuff)); bRet = pStrToInt64ExW(szBuff, STIF_SUPPORT_HEX, &return_val); if (result->failure) ok(!bRet, "Got %s instead of failure for '%s'\n", wine_dbgstr_longlong(return_val), result->string); else ok(bRet, "Failed for '%s'\n", result->string); if (bRet) ok(return_val == result->str_to_int64_hex, "converted '%s' wrong (%s)\n", result->string, wine_dbgstr_longlong(return_val)); result++; } return_val = -1; bRet = pStrToInt64ExW(L"\x0661\x0662", 0, &return_val); ok( !bRet, "Returned %s for Unicode digits\n", wine_dbgstr_longlong(return_val) ); bRet = pStrToInt64ExW(L"\x07c3\x07c4", 0, &return_val); ok( !bRet, "Returned %s for Unicode digits\n", wine_dbgstr_longlong(return_val) ); bRet = pStrToInt64ExW(L"\xa0-2", 0, &return_val); ok( !bRet, "Returned %s for Unicode space\n", wine_dbgstr_longlong(return_val) ); } static void test_StrDupA(void) { LPSTR lpszStr; const StrFormatSizeResult* result = StrFormatSize_results; while(result->value) { lpszStr = StrDupA(result->byte_size_64); ok(lpszStr != NULL, "Dup failed\n"); if (lpszStr) { ok(!strcmp(result->byte_size_64, lpszStr), "Copied string wrong\n"); LocalFree(lpszStr); } result++; } /* Later versions of shlwapi return NULL for this, but earlier versions * returned an empty string (as Wine does). */ lpszStr = StrDupA(NULL); ok(lpszStr == NULL || *lpszStr == '\0', "NULL string returned %p\n", lpszStr); LocalFree(lpszStr); } static void test_StrFormatByteSize64A(void) { char szBuff[256]; const StrFormatSizeResult* result = StrFormatSize_results; if (!pStrFormatByteSize64A) { win_skip("StrFormatByteSize64A() is not available\n"); return; } while(result->value) { pStrFormatByteSize64A(result->value, szBuff, 256); ok(!strcmp(result->byte_size_64, szBuff), "Formatted %s wrong: got %s, expected %s\n", wine_dbgstr_longlong(result->value), szBuff, result->byte_size_64); result++; } } static void test_StrFormatKBSizeW(void) { WCHAR szBuffW[256]; char szBuff[256]; const StrFormatSizeResult* result = StrFormatSize_results; if (!pStrFormatKBSizeW) { win_skip("StrFormatKBSizeW() is not available\n"); return; } while(result->value) { pStrFormatKBSizeW(result->value, szBuffW, 256); WideCharToMultiByte(CP_ACP, 0, szBuffW, -1, szBuff, ARRAY_SIZE(szBuff), NULL, NULL); ok(!strcmp(result->kb_size, szBuff), "Formatted %s wrong: got %s, expected %s\n", wine_dbgstr_longlong(result->value), szBuff, result->kb_size); result++; } } static void test_StrFormatKBSizeA(void) { char szBuff[256]; const StrFormatSizeResult* result = StrFormatSize_results; if (!pStrFormatKBSizeA) { win_skip("StrFormatKBSizeA() is not available\n"); return; } while(result->value) { pStrFormatKBSizeA(result->value, szBuff, 256); /* shlwapi on Win98 SE does not appear to apply delimiters to the output * and does not correctly handle extremely large values. */ ok(!strcmp(result->kb_size, szBuff) || (result->kb_size_broken && !strcmp(result->kb_size2, szBuff)), "Formatted %s wrong: got %s, expected %s\n", wine_dbgstr_longlong(result->value), szBuff, result->kb_size); result++; } } static void test_StrFromTimeIntervalA(void) { char szBuff[256]; const StrFromTimeIntervalResult* result = StrFromTimeInterval_results; while(result->ms) { StrFromTimeIntervalA(szBuff, 256, result->ms, result->digits); ok(!strcmp(result->time_interval, szBuff), "Formatted %ld %d wrong: %s\n", result->ms, result->digits, szBuff); result++; } } static void test_StrCmpA(void) { static const char str1[] = {'a','b','c','d','e','f'}; static const char str2[] = {'a','B','c','d','e','f'}; ok(0 != StrCmpNA(str1, str2, 6), "StrCmpNA is case-insensitive\n"); ok(0 == StrCmpNIA(str1, str2, 6), "StrCmpNIA is case-sensitive\n"); if (pChrCmpIA) { ok(!pChrCmpIA('a', 'a'), "ChrCmpIA doesn't work at all!\n"); ok(!pChrCmpIA('b', 'B'), "ChrCmpIA is not case-insensitive\n"); ok(pChrCmpIA('a', 'z'), "ChrCmpIA believes that a == z!\n"); } else win_skip("ChrCmpIA() is not available\n"); if (pStrIsIntlEqualA) { ok(pStrIsIntlEqualA(FALSE, str1, str2, 5), "StrIsIntlEqualA(FALSE,...) isn't case-insensitive\n"); ok(!pStrIsIntlEqualA(TRUE, str1, str2, 5), "StrIsIntlEqualA(TRUE,...) isn't case-sensitive\n"); } else win_skip("StrIsIntlEqualA() is not available\n"); if (pIntlStrEqWorkerA) { ok(pIntlStrEqWorkerA(FALSE, str1, str2, 5), "IntlStrEqWorkerA(FALSE,...) isn't case-insensitive\n"); ok(!pIntlStrEqWorkerA(TRUE, str1, str2, 5), "pIntlStrEqWorkerA(TRUE,...) isn't case-sensitive\n"); } else win_skip("IntlStrEqWorkerA() is not available\n"); } static void test_StrCmpW(void) { static const WCHAR str1[] = {'a','b','c','d','e','f'}; static const WCHAR str2[] = {'a','B','c','d','e','f'}; ok(0 != StrCmpNW(str1, str2, 5), "StrCmpNW is case-insensitive\n"); ok(0 == StrCmpNIW(str1, str2, 5), "StrCmpNIW is case-sensitive\n"); if (pChrCmpIW) { ok(!pChrCmpIW('a', 'a'), "ChrCmpIW doesn't work at all!\n"); ok(!pChrCmpIW('b', 'B'), "ChrCmpIW is not case-insensitive\n"); ok(pChrCmpIW('a', 'z'), "ChrCmpIW believes that a == z!\n"); } else win_skip("ChrCmpIW() is not available\n"); if (pStrIsIntlEqualW) { ok(pStrIsIntlEqualW(FALSE, str1, str2, 5), "StrIsIntlEqualW(FALSE,...) isn't case-insensitive\n"); ok(!pStrIsIntlEqualW(TRUE, str1, str2, 5), "StrIsIntlEqualW(TRUE,...) isn't case-sensitive\n"); } else win_skip("StrIsIntlEqualW() is not available\n"); if (pIntlStrEqWorkerW) { ok(pIntlStrEqWorkerW(FALSE, str1, str2, 5), "IntlStrEqWorkerW(FALSE,...) isn't case-insensitive\n"); ok(!pIntlStrEqWorkerW(TRUE, str1, str2, 5), "IntlStrEqWorkerW(TRUE,...) isn't case-sensitive\n"); } else win_skip("IntlStrEqWorkerW() is not available\n"); } static WCHAR *CoDupStrW(const char* src) { INT len = MultiByteToWideChar(CP_ACP, 0, src, -1, NULL, 0); WCHAR* szTemp = CoTaskMemAlloc(len * sizeof(WCHAR)); MultiByteToWideChar(CP_ACP, 0, src, -1, szTemp, len); return szTemp; } static void test_StrRetToBSTR(void) { static const WCHAR szTestW[] = { 'T','e','s','t','\0' }; ITEMIDLIST iidl[10]; BSTR bstr; STRRET strret; HRESULT ret; if (!pStrRetToBSTR) { win_skip("StrRetToBSTR() is not available\n"); return; } strret.uType = STRRET_WSTR; U(strret).pOleStr = CoDupStrW("Test"); bstr = 0; ret = pStrRetToBSTR(&strret, NULL, &bstr); ok(ret == S_OK && bstr && !wcscmp(bstr, szTestW), "STRRET_WSTR: dup failed, ret=0x%08lx, bstr %p\n", ret, bstr); SysFreeString(bstr); strret.uType = STRRET_CSTR; lstrcpyA(U(strret).cStr, "Test"); ret = pStrRetToBSTR(&strret, NULL, &bstr); ok(ret == S_OK && bstr && !wcscmp(bstr, szTestW), "STRRET_CSTR: dup failed, ret=0x%08lx, bstr %p\n", ret, bstr); SysFreeString(bstr); strret.uType = STRRET_OFFSET; U(strret).uOffset = 1; strcpy((char*)&iidl, " Test"); ret = pStrRetToBSTR(&strret, iidl, &bstr); ok(ret == S_OK && bstr && !wcscmp(bstr, szTestW), "STRRET_OFFSET: dup failed, ret=0x%08lx, bstr %p\n", ret, bstr); SysFreeString(bstr); /* Native crashes if str is NULL */ } static void test_StrCpyNXA(void) { LPCSTR lpSrc = "hello"; LPSTR lpszRes; char dest[8]; if (!pStrCpyNXA) { win_skip("StrCpyNXA() is not available\n"); return; } memset(dest, '\n', sizeof(dest)); lpszRes = pStrCpyNXA(dest, lpSrc, ARRAY_SIZE(dest)); ok(lpszRes == dest + 5 && !memcmp(dest, "hello\0\n\n", sizeof(dest)), "StrCpyNXA: expected %p, \"hello\\0\\n\\n\", got %p, \"%d,%d,%d,%d,%d,%d,%d,%d\"\n", dest + 5, lpszRes, dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); } static void test_StrCpyNXW(void) { static const WCHAR lpInit[] = { '\n','\n','\n','\n','\n','\n','\n','\n' }; static const WCHAR lpSrc[] = { 'h','e','l','l','o','\0' }; static const WCHAR lpRes[] = { 'h','e','l','l','o','\0','\n','\n' }; LPWSTR lpszRes; WCHAR dest[8]; if (!pStrCpyNXW) { win_skip("StrCpyNXW() is not available\n"); return; } memcpy(dest, lpInit, sizeof(lpInit)); lpszRes = pStrCpyNXW(dest, lpSrc, ARRAY_SIZE(dest)); ok(lpszRes == dest + 5 && !memcmp(dest, lpRes, sizeof(dest)), "StrCpyNXW: expected %p, \"hello\\0\\n\\n\", got %p, \"%d,%d,%d,%d,%d,%d,%d,%d\"\n", dest + 5, lpszRes, dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); } #define check_strrstri(type, str, pos, needle, exp) \ ret##type = StrRStrI##type(str, str+pos, needle); \ ok(ret##type == (exp), "Type " #type ", expected %p but got %p (string base %p)\n", \ (exp), ret##type, str); static void test_StrRStrI(void) { static const CHAR szTest[] = "yAxxxxAy"; static const CHAR szTest2[] = "ABABABAB"; static const WCHAR wszTest[] = {'y','A','x','x','x','x','A','y',0}; static const WCHAR wszTest2[] = {'A','B','A','B','A','B','A','B',0}; static const WCHAR wszPattern1[] = {'A',0}; static const WCHAR wszPattern2[] = {'a','X',0}; static const WCHAR wszPattern3[] = {'A','y',0}; static const WCHAR wszPattern4[] = {'a','b',0}; LPWSTR retW; LPSTR retA; check_strrstri(A, szTest, 4, "A", szTest+1); check_strrstri(A, szTest, 4, "aX", szTest+1); check_strrstri(A, szTest, 4, "Ay", NULL); check_strrstri(W, wszTest, 4, wszPattern1, wszTest+1); check_strrstri(W, wszTest, 4, wszPattern2, wszTest+1); check_strrstri(W, wszTest, 4, wszPattern3, NULL); check_strrstri(A, szTest2, 4, "ab", szTest2+2); check_strrstri(A, szTest2, 3, "ab", szTest2+2); check_strrstri(A, szTest2, 2, "ab", szTest2); check_strrstri(A, szTest2, 1, "ab", szTest2); check_strrstri(A, szTest2, 0, "ab", NULL); check_strrstri(W, wszTest2, 4, wszPattern4, wszTest2+2); check_strrstri(W, wszTest2, 3, wszPattern4, wszTest2+2); check_strrstri(W, wszTest2, 2, wszPattern4, wszTest2); check_strrstri(W, wszTest2, 1, wszPattern4, wszTest2); check_strrstri(W, wszTest2, 0, wszPattern4, NULL); } static void test_SHAnsiToAnsi(void) { char dest[8]; DWORD dwRet; if (!pSHAnsiToAnsi) { win_skip("SHAnsiToAnsi() is not available\n"); return; } if (pSHAnsiToAnsi == (void *)pStrPBrkW) { win_skip("Ordinal 345 corresponds to StrPBrkW, skipping SHAnsiToAnsi tests\n"); return; } memset(dest, '\n', sizeof(dest)); dwRet = pSHAnsiToAnsi("hello", dest, ARRAY_SIZE(dest)); ok(dwRet == 6 && !memcmp(dest, "hello\0\n\n", sizeof(dest)), "SHAnsiToAnsi: expected 6, \"hello\\0\\n\\n\", got %ld, \"%d,%d,%d,%d,%d,%d,%d,%d\"\n", dwRet, dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); } static void test_SHUnicodeToUnicode(void) { static const WCHAR lpInit[] = { '\n','\n','\n','\n','\n','\n','\n','\n' }; static const WCHAR lpSrc[] = { 'h','e','l','l','o','\0' }; static const WCHAR lpRes[] = { 'h','e','l','l','o','\0','\n','\n' }; WCHAR dest[8]; DWORD dwRet; if (!pSHUnicodeToUnicode) { win_skip("SHUnicodeToUnicode() is not available\n"); return; } if (pSHUnicodeToUnicode == (void *)pStrRChrA) { win_skip("Ordinal 346 corresponds to StrRChrA, skipping SHUnicodeToUnicode tests\n"); return; } memcpy(dest, lpInit, sizeof(lpInit)); dwRet = pSHUnicodeToUnicode(lpSrc, dest, ARRAY_SIZE(dest)); ok(dwRet == 6 && !memcmp(dest, lpRes, sizeof(dest)), "SHUnicodeToUnicode: expected 6, \"hello\\0\\n\\n\", got %ld, \"%d,%d,%d,%d,%d,%d,%d,%d\"\n", dwRet, dest[0], dest[1], dest[2], dest[3], dest[4], dest[5], dest[6], dest[7]); } static void test_StrXXX_overflows(void) { CHAR str1[2*MAX_PATH+1], buf[2*MAX_PATH]; WCHAR wstr1[2*MAX_PATH+1], wbuf[2*MAX_PATH]; const WCHAR fmt[] = {'%','s',0}; STRRET strret; HRESULT hres; int ret; int i; for (i=0; i<2*MAX_PATH; i++) { str1[i] = '0'+(i%10); wstr1[i] = '0'+(i%10); } str1[2*MAX_PATH] = 0; wstr1[2*MAX_PATH] = 0; memset(buf, 0xbf, sizeof(buf)); expect_eq(StrCpyNA(buf, str1, 10), buf, PCHAR, "%p"); expect_eq(buf[9], 0, CHAR, "%x"); expect_eq(buf[10], '\xbf', CHAR, "%x"); if (pStrCatBuffA) { expect_eq(pStrCatBuffA(buf, str1, 100), buf, PCHAR, "%p"); expect_eq(buf[99], 0, CHAR, "%x"); expect_eq(buf[100], '\xbf', CHAR, "%x"); } else win_skip("StrCatBuffA() is not available\n"); if (0) { /* crashes on XP */ StrCpyNW(wbuf, (LPCWSTR)0x1, 10); StrCpyNW((LPWSTR)0x1, wstr1, 10); } memset(wbuf, 0xbf, sizeof(wbuf)); expect_eq(StrCpyNW(wbuf, (LPCWSTR)0x1, 1), wbuf, PWCHAR, "%p"); expect_eq(wbuf[0], 0, WCHAR, "%x"); expect_eq(wbuf[1], (WCHAR)0xbfbf, WCHAR, "%x"); memset(wbuf, 0xbf, sizeof(wbuf)); expect_eq(StrCpyNW(wbuf, 0, 10), wbuf, PWCHAR, "%p"); expect_eq(wbuf[0], 0, WCHAR, "%x"); expect_eq(wbuf[1], (WCHAR)0xbfbf, WCHAR, "%x"); memset(wbuf, 0xbf, sizeof(wbuf)); expect_eq(StrCpyNW(wbuf, 0, 0), wbuf, PWCHAR, "%p"); expect_eq(wbuf[0], (WCHAR)0xbfbf, WCHAR, "%x"); expect_eq(wbuf[1], (WCHAR)0xbfbf, WCHAR, "%x"); memset(wbuf, 0xbf, sizeof(wbuf)); expect_eq(StrCpyNW(wbuf, wstr1, 0), wbuf, PWCHAR, "%p"); expect_eq(wbuf[0], (WCHAR)0xbfbf, WCHAR, "%x"); expect_eq(wbuf[1], (WCHAR)0xbfbf, WCHAR, "%x"); memset(wbuf, 0xbf, sizeof(wbuf)); expect_eq(StrCpyNW(wbuf, wstr1, 10), wbuf, PWCHAR, "%p"); expect_eq(wbuf[9], 0, WCHAR, "%x"); expect_eq(wbuf[10], (WCHAR)0xbfbf, WCHAR, "%x"); if (pStrCatBuffW) { expect_eq(pStrCatBuffW(wbuf, wstr1, 100), wbuf, PWCHAR, "%p"); expect_eq(wbuf[99], 0, WCHAR, "%x"); expect_eq(wbuf[100], (WCHAR)0xbfbf, WCHAR, "%x"); } else win_skip("StrCatBuffW() is not available\n"); if (pStrRetToBufW) { memset(wbuf, 0xbf, sizeof(wbuf)); strret.uType = STRRET_WSTR; U(strret).pOleStr = StrDupW(wstr1); hres = pStrRetToBufW(&strret, NULL, wbuf, 10); ok(hres == E_NOT_SUFFICIENT_BUFFER || broken(hres == S_OK) /* winxp */, "StrRetToBufW returned %08lx\n", hres); if (hres == E_NOT_SUFFICIENT_BUFFER) expect_eq(wbuf[0], 0, WCHAR, "%x"); expect_eq(wbuf[9], 0, WCHAR, "%x"); expect_eq(wbuf[10], (WCHAR)0xbfbf, WCHAR, "%x"); memset(wbuf, 0xbf, sizeof(wbuf)); strret.uType = STRRET_CSTR; StrCpyNA(U(strret).cStr, str1, MAX_PATH); hres = pStrRetToBufW(&strret, NULL, wbuf, 10); ok(hres == S_OK, "StrRetToBufW returned %08lx\n", hres); ok(!memcmp(wbuf, wstr1, 9*sizeof(WCHAR)) && !wbuf[9], "StrRetToBuf returned %s\n", wine_dbgstr_w(wbuf)); memset(wbuf, 0xbf, sizeof(wbuf)); strret.uType = STRRET_WSTR; U(strret).pOleStr = NULL; hres = pStrRetToBufW(&strret, NULL, wbuf, 10); ok(hres == E_FAIL, "StrRetToBufW returned %08lx\n", hres); ok(!wbuf[0], "StrRetToBuf returned %s\n", wine_dbgstr_w(wbuf)); } else win_skip("StrRetToBufW() is not available\n"); if (pStrRetToBufA) { memset(buf, 0xbf, sizeof(buf)); strret.uType = STRRET_CSTR; StrCpyNA(U(strret).cStr, str1, MAX_PATH); expect_eq2(pStrRetToBufA(&strret, NULL, buf, 10), S_OK, E_NOT_SUFFICIENT_BUFFER /* Vista */, HRESULT, "%lx"); expect_eq(buf[9], 0, CHAR, "%x"); expect_eq(buf[10], (CHAR)0xbf, CHAR, "%x"); } else win_skip("StrRetToBufA() is not available\n"); if (pwnsprintfA) { memset(buf, 0xbf, sizeof(buf)); ret = pwnsprintfA(buf, 10, "%s", str1); ok(broken(ret == 9) || ret == -1 /* Vista */, "Unexpected wnsprintfA return %d, expected 9 or -1\n", ret); expect_eq(buf[9], 0, CHAR, "%x"); expect_eq(buf[10], (CHAR)0xbf, CHAR, "%x"); } else win_skip("wnsprintfA() is not available\n"); if (pwnsprintfW) { memset(wbuf, 0xbf, sizeof(wbuf)); ret = pwnsprintfW(wbuf, 10, fmt, wstr1); ok(broken(ret == 9) || ret == -1 /* Vista */, "Unexpected wnsprintfW return %d, expected 9 or -1\n", ret); expect_eq(wbuf[9], 0, WCHAR, "%x"); expect_eq(wbuf[10], (WCHAR)0xbfbf, WCHAR, "%x"); } else win_skip("wnsprintfW() is not available\n"); } static void test_StrStrA(void) { static const char *deadbeefA = "DeAdBeEf"; const struct { const char *search; const char *expect; } StrStrA_cases[] = { {"", NULL}, {"DeAd", deadbeefA}, {"dead", NULL}, {"AdBe", deadbeefA + 2}, {"adbe", NULL}, {"BeEf", deadbeefA + 4}, {"beef", NULL}, }; LPSTR ret; int i; /* Tests crash on Win2k */ if (0) { ret = StrStrA(NULL, NULL); ok(!ret, "Expected StrStrA to return NULL, got %p\n", ret); ret = StrStrA(NULL, ""); ok(!ret, "Expected StrStrA to return NULL, got %p\n", ret); ret = StrStrA("", NULL); ok(!ret, "Expected StrStrA to return NULL, got %p\n", ret); } ret = StrStrA("", ""); ok(!ret, "Expected StrStrA to return NULL, got %p\n", ret); for (i = 0; i < ARRAY_SIZE(StrStrA_cases); i++) { ret = StrStrA(deadbeefA, StrStrA_cases[i].search); ok(ret == StrStrA_cases[i].expect, "[%d] Expected StrStrA to return %p, got %p\n", i, StrStrA_cases[i].expect, ret); } } static void test_StrStrW(void) { static const WCHAR emptyW[] = {0}; static const WCHAR deadbeefW[] = {'D','e','A','d','B','e','E','f',0}; static const WCHAR deadW[] = {'D','e','A','d',0}; static const WCHAR dead_lowerW[] = {'d','e','a','d',0}; static const WCHAR adbeW[] = {'A','d','B','e',0}; static const WCHAR adbe_lowerW[] = {'a','d','b','e',0}; static const WCHAR beefW[] = {'B','e','E','f',0}; static const WCHAR beef_lowerW[] = {'b','e','e','f',0}; const struct { const WCHAR *search; const WCHAR *expect; } StrStrW_cases[] = { {emptyW, NULL}, {deadW, deadbeefW}, {dead_lowerW, NULL}, {adbeW, deadbeefW + 2}, {adbe_lowerW, NULL}, {beefW, deadbeefW + 4}, {beef_lowerW, NULL}, }; LPWSTR ret; int i; /* Tests crash on Win2k */ if (0) { ret = StrStrW(NULL, NULL); ok(!ret, "Expected StrStrW to return NULL, got %p\n", ret); ret = StrStrW(NULL, emptyW); ok(!ret, "Expected StrStrW to return NULL, got %p\n", ret); ret = StrStrW(emptyW, NULL); ok(!ret, "Expected StrStrW to return NULL, got %p\n", ret); } ret = StrStrW(emptyW, emptyW); ok(!ret, "Expected StrStrW to return NULL, got %p\n", ret); for (i = 0; i < ARRAY_SIZE(StrStrW_cases); i++) { ret = StrStrW(deadbeefW, StrStrW_cases[i].search); ok(ret == StrStrW_cases[i].expect, "[%d] Expected StrStrW to return %p, got %p\n", i, StrStrW_cases[i].expect, ret); } } static void test_StrStrIA(void) { static const char *deadbeefA = "DeAdBeEf"; const struct { const char *search; const char *expect; } StrStrIA_cases[] = { {"", NULL}, {"DeAd", deadbeefA}, {"dead", deadbeefA}, {"AdBe", deadbeefA + 2}, {"adbe", deadbeefA + 2}, {"BeEf", deadbeefA + 4}, {"beef", deadbeefA + 4}, {"cafe", NULL}, }; LPSTR ret; int i; /* Tests crash on Win2k */ if (0) { ret = StrStrIA(NULL, NULL); ok(!ret, "Expected StrStrIA to return NULL, got %p\n", ret); ret = StrStrIA(NULL, ""); ok(!ret, "Expected StrStrIA to return NULL, got %p\n", ret); ret = StrStrIA("", NULL); ok(!ret, "Expected StrStrIA to return NULL, got %p\n", ret); } ret = StrStrIA("", ""); ok(!ret, "Expected StrStrIA to return NULL, got %p\n", ret); for (i = 0; i < ARRAY_SIZE(StrStrIA_cases); i++) { ret = StrStrIA(deadbeefA, StrStrIA_cases[i].search); ok(ret == StrStrIA_cases[i].expect, "[%d] Expected StrStrIA to return %p, got %p\n", i, StrStrIA_cases[i].expect, ret); } } static void test_StrStrIW(void) { static const WCHAR emptyW[] = {0}; static const WCHAR deadbeefW[] = {'D','e','A','d','B','e','E','f',0}; static const WCHAR deadW[] = {'D','e','A','d',0}; static const WCHAR dead_lowerW[] = {'d','e','a','d',0}; static const WCHAR adbeW[] = {'A','d','B','e',0}; static const WCHAR adbe_lowerW[] = {'a','d','b','e',0}; static const WCHAR beefW[] = {'B','e','E','f',0}; static const WCHAR beef_lowerW[] = {'b','e','e','f',0}; static const WCHAR cafeW[] = {'c','a','f','e',0}; const struct { const WCHAR *search; const WCHAR *expect; } StrStrIW_cases[] = { {emptyW, NULL}, {deadW, deadbeefW}, {dead_lowerW, deadbeefW}, {adbeW, deadbeefW + 2}, {adbe_lowerW, deadbeefW + 2}, {beefW, deadbeefW + 4}, {beef_lowerW, deadbeefW + 4}, {cafeW, NULL}, }; LPWSTR ret; int i; /* Tests crash on Win2k */ if (0) { ret = StrStrIW(NULL, NULL); ok(!ret, "Expected StrStrIW to return NULL, got %p\n", ret); ret = StrStrIW(NULL, emptyW); ok(!ret, "Expected StrStrIW to return NULL, got %p\n", ret); ret = StrStrIW(emptyW, NULL); ok(!ret, "Expected StrStrIW to return NULL, got %p\n", ret); } ret = StrStrIW(emptyW, emptyW); ok(!ret, "Expected StrStrIW to return NULL, got %p\n", ret); for (i = 0; i < ARRAY_SIZE(StrStrIW_cases); i++) { ret = StrStrIW(deadbeefW, StrStrIW_cases[i].search); ok(ret == StrStrIW_cases[i].expect, "[%d] Expected StrStrIW to return %p, got %p\n", i, StrStrIW_cases[i].expect, ret); } } static void test_StrStrNW(void) { static const WCHAR emptyW[] = {0}; static const WCHAR deadbeefW[] = {'D','e','A','d','B','e','E','f',0}; static const WCHAR deadW[] = {'D','e','A','d',0}; static const WCHAR dead_lowerW[] = {'d','e','a','d',0}; static const WCHAR adbeW[] = {'A','d','B','e',0}; static const WCHAR adbe_lowerW[] = {'a','d','b','e',0}; static const WCHAR beefW[] = {'B','e','E','f',0}; static const WCHAR beef_lowerW[] = {'b','e','e','f',0}; const struct { const WCHAR *search; const UINT count; const WCHAR *expect; } StrStrNW_cases[] = { {emptyW, ARRAY_SIZE(deadbeefW), NULL}, {deadW, ARRAY_SIZE(deadbeefW), deadbeefW}, {dead_lowerW, ARRAY_SIZE(deadbeefW), NULL}, {adbeW, ARRAY_SIZE(deadbeefW), deadbeefW + 2}, {adbe_lowerW, ARRAY_SIZE(deadbeefW), NULL}, {beefW, ARRAY_SIZE(deadbeefW), deadbeefW + 4}, {beef_lowerW, ARRAY_SIZE(deadbeefW), NULL}, {beefW, 0, NULL}, {beefW, 1, NULL}, {beefW, 2, NULL}, {beefW, 3, NULL}, {beefW, 4, NULL}, {beefW, 5, deadbeefW + 4}, {beefW, 6, deadbeefW + 4}, {beefW, 7, deadbeefW + 4}, {beefW, 8, deadbeefW + 4}, {beefW, 9, deadbeefW + 4}, }; LPWSTR ret; UINT i; if (!pStrStrNW) { win_skip("StrStrNW() is not available\n"); return; } ret = pStrStrNW(NULL, NULL, 0); ok(!ret, "Expected StrStrNW to return NULL, got %p\n", ret); ret = pStrStrNW(NULL, NULL, 10); ok(!ret, "Expected StrStrNW to return NULL, got %p\n", ret); ret = pStrStrNW(NULL, emptyW, 10); ok(!ret, "Expected StrStrNW to return NULL, got %p\n", ret); ret = pStrStrNW(emptyW, NULL, 10); ok(!ret, "Expected StrStrNW to return NULL, got %p\n", ret); ret = pStrStrNW(emptyW, emptyW, 10); ok(!ret, "Expected StrStrNW to return NULL, got %p\n", ret); for (i = 0; i < ARRAY_SIZE(StrStrNW_cases); i++) { ret = pStrStrNW(deadbeefW, StrStrNW_cases[i].search, StrStrNW_cases[i].count); ok(ret == StrStrNW_cases[i].expect, "[%d] Expected StrStrNW to return %p, got %p\n", i, StrStrNW_cases[i].expect, ret); } /* StrStrNW accepts counts larger than the search string length but rejects * counts larger than around 2G. The limit seems to change based on the * caller executable itself. */ ret = pStrStrNW(deadbeefW, beefW, 100); ok(ret == deadbeefW + 4, "Expected StrStrNW to return deadbeefW + 4, got %p\n", ret); if (0) { ret = pStrStrNW(deadbeefW, beefW, ~0U); ok(!ret, "Expected StrStrNW to return NULL, got %p\n", ret); } } static void test_StrStrNIW(void) { static const WCHAR emptyW[] = {0}; static const WCHAR deadbeefW[] = {'D','e','A','d','B','e','E','f',0}; static const WCHAR deadW[] = {'D','e','A','d',0}; static const WCHAR dead_lowerW[] = {'d','e','a','d',0}; static const WCHAR adbeW[] = {'A','d','B','e',0}; static const WCHAR adbe_lowerW[] = {'a','d','b','e',0}; static const WCHAR beefW[] = {'B','e','E','f',0}; static const WCHAR beef_lowerW[] = {'b','e','e','f',0}; static const WCHAR cafeW[] = {'c','a','f','e',0}; const struct { const WCHAR *search; const UINT count; const WCHAR *expect; } StrStrNIW_cases[] = { {emptyW, ARRAY_SIZE(deadbeefW), NULL}, {deadW, ARRAY_SIZE(deadbeefW), deadbeefW}, {dead_lowerW, ARRAY_SIZE(deadbeefW), deadbeefW}, {adbeW, ARRAY_SIZE(deadbeefW), deadbeefW + 2}, {adbe_lowerW, ARRAY_SIZE(deadbeefW), deadbeefW + 2}, {beefW, ARRAY_SIZE(deadbeefW), deadbeefW + 4}, {beef_lowerW, ARRAY_SIZE(deadbeefW), deadbeefW + 4}, {cafeW, ARRAY_SIZE(deadbeefW), NULL}, {beefW, 0, NULL}, {beefW, 1, NULL}, {beefW, 2, NULL}, {beefW, 3, NULL}, {beefW, 4, NULL}, {beefW, 5, deadbeefW + 4}, {beefW, 6, deadbeefW + 4}, {beefW, 7, deadbeefW + 4}, {beefW, 8, deadbeefW + 4}, {beefW, 9, deadbeefW + 4}, {beef_lowerW, 0, NULL}, {beef_lowerW, 1, NULL}, {beef_lowerW, 2, NULL}, {beef_lowerW, 3, NULL}, {beef_lowerW, 4, NULL}, {beef_lowerW, 5, deadbeefW + 4}, {beef_lowerW, 6, deadbeefW + 4}, {beef_lowerW, 7, deadbeefW + 4}, {beef_lowerW, 8, deadbeefW + 4}, {beef_lowerW, 9, deadbeefW + 4}, }; LPWSTR ret; UINT i; if (!pStrStrNIW) { win_skip("StrStrNIW() is not available\n"); return; } ret = pStrStrNIW(NULL, NULL, 0); ok(!ret, "Expected StrStrNIW to return NULL, got %p\n", ret); ret = pStrStrNIW(NULL, NULL, 10); ok(!ret, "Expected StrStrNIW to return NULL, got %p\n", ret); ret = pStrStrNIW(NULL, emptyW, 10); ok(!ret, "Expected StrStrNIW to return NULL, got %p\n", ret); ret = pStrStrNIW(emptyW, NULL, 10); ok(!ret, "Expected StrStrNIW to return NULL, got %p\n", ret); ret = pStrStrNIW(emptyW, emptyW, 10); ok(!ret, "Expected StrStrNIW to return NULL, got %p\n", ret); for (i = 0; i < ARRAY_SIZE(StrStrNIW_cases); i++) { ret = pStrStrNIW(deadbeefW, StrStrNIW_cases[i].search, StrStrNIW_cases[i].count); ok(ret == StrStrNIW_cases[i].expect, "[%d] Expected StrStrNIW to return %p, got %p\n", i, StrStrNIW_cases[i].expect, ret); } /* StrStrNIW accepts counts larger than the search string length but rejects * counts larger than around 2G. The limit seems to change based on the * caller executable itself. */ ret = pStrStrNIW(deadbeefW, beefW, 100); ok(ret == deadbeefW + 4, "Expected StrStrNIW to return deadbeefW + 4, got %p\n", ret); if (0) { ret = pStrStrNIW(deadbeefW, beefW, ~0U); ok(!ret, "Expected StrStrNIW to return NULL, got %p\n", ret); } } static void test_StrCatChainW(void) { static const WCHAR deadbeefW[] = {'D','e','A','d','B','e','E','f',0}; static const WCHAR deadW[] = {'D','e','A','d',0}; static const WCHAR beefW[] = {'B','e','E','f',0}; WCHAR buf[32 + 1]; DWORD ret; if (!pStrCatChainW) { win_skip("StrCatChainW is not available\n"); return; } /* Test with NULL buffer */ ret = pStrCatChainW(NULL, 0, 0, beefW); ok(ret == 0, "Expected StrCatChainW to return 0, got %lu\n", ret); /* Test with empty buffer */ memset(buf, 0x11, sizeof(buf)); ret = pStrCatChainW(buf, 0, 0, beefW); ok(ret == 0, "Expected StrCatChainW to return 0, got %lu\n", ret); ok(buf[0] == 0x1111, "Expected buf[0] = 0x1111, got %x\n", buf[0]); memcpy(buf, deadbeefW, sizeof(deadbeefW)); ret = pStrCatChainW(buf, 0, -1, beefW); ok(ret == 8, "Expected StrCatChainW to return 8, got %lu\n", ret); ok(!memcmp(buf, deadbeefW, sizeof(deadbeefW)), "Buffer contains wrong data\n"); /* Append data to existing string with offset = -1 */ memset(buf, 0x11, sizeof(buf)); ret = pStrCatChainW(buf, 32, 0, deadW); ok(ret == 4, "Expected StrCatChainW to return 4, got %lu\n", ret); ok(!memcmp(buf, deadW, sizeof(deadW)), "Buffer contains wrong data\n"); ret = pStrCatChainW(buf, 32, -1, beefW); ok(ret == 8, "Expected StrCatChainW to return 8, got %lu\n", ret); ok(!memcmp(buf, deadbeefW, sizeof(deadbeefW)), "Buffer contains wrong data\n"); /* Append data at a fixed offset */ memset(buf, 0x11, sizeof(buf)); ret = pStrCatChainW(buf, 32, 0, deadW); ok(ret == 4, "Expected StrCatChainW to return 4, got %lu\n", ret); ok(!memcmp(buf, deadW, sizeof(deadW)), "Buffer contains wrong data\n"); ret = pStrCatChainW(buf, 32, 4, beefW); ok(ret == 8, "Expected StrCatChainW to return 8, got %lu\n", ret); ok(!memcmp(buf, deadbeefW, sizeof(deadbeefW)), "Buffer contains wrong data\n"); /* Buffer exactly sufficient for string + terminating null */ memset(buf, 0x11, sizeof(buf)); ret = pStrCatChainW(buf, 5, 0, deadW); ok(ret == 4, "Expected StrCatChainW to return 4, got %lu\n", ret); ok(!memcmp(buf, deadW, sizeof(deadW)), "Buffer contains wrong data\n"); /* Buffer too small, string will be truncated */ memset(buf, 0x11, sizeof(buf)); ret = pStrCatChainW(buf, 4, 0, deadW); if (ret == 4) { /* Windows 2000 and XP uses a slightly different implementation * for StrCatChainW, which doesn't ensure that strings are null- * terminated. Skip test if we detect such an implementation. */ win_skip("Windows2000/XP behaviour detected for StrCatChainW, skipping tests\n"); return; } ok(ret == 3, "Expected StrCatChainW to return 3, got %lu\n", ret); ok(!memcmp(buf, deadW, 3 * sizeof(WCHAR)), "Buffer contains wrong data\n"); ok(!buf[3], "String is not nullterminated\n"); ok(buf[4] == 0x1111, "Expected buf[4] = 0x1111, got %x\n", buf[4]); /* Overwrite part of an existing string */ ret = pStrCatChainW(buf, 4, 1, beefW); ok(ret == 3, "Expected StrCatChainW to return 3, got %lu\n", ret); ok(buf[0] == 'D', "Expected buf[0] = 'D', got %x\n", buf[0]); ok(buf[1] == 'B', "Expected buf[1] = 'B', got %x\n", buf[1]); ok(buf[2] == 'e', "Expected buf[2] = 'e', got %x\n", buf[2]); ok(!buf[3], "String is not nullterminated\n"); ok(buf[4] == 0x1111, "Expected buf[4] = 0x1111, got %x\n", buf[4]); /* Test appending to full buffer */ memset(buf, 0x11, sizeof(buf)); memcpy(buf, deadbeefW, sizeof(deadbeefW)); memcpy(buf + 9, deadW, sizeof(deadW)); ret = pStrCatChainW(buf, 9, 8, beefW); ok(ret == 8, "Expected StrCatChainW to return 8, got %lu\n", ret); ok(!memcmp(buf, deadbeefW, sizeof(deadbeefW)), "Buffer contains wrong data\n"); ok(!memcmp(buf + 9, deadW, sizeof(deadW)), "Buffer contains wrong data\n"); /* Offset points at the end of the buffer */ ret = pStrCatChainW(buf, 9, 9, beefW); ok(ret == 8, "Expected StrCatChainW to return 8, got %lu\n", ret); ok(!memcmp(buf, deadbeefW, sizeof(deadbeefW)), "Buffer contains wrong data\n"); ok(!memcmp(buf + 9, deadW, sizeof(deadW)), "Buffer contains wrong data\n"); /* Offset points outside of the buffer */ ret = pStrCatChainW(buf, 9, 10, beefW); ok(ret == 10, "Expected StrCatChainW to return 10, got %lu\n", ret); ok(!memcmp(buf, deadbeefW, sizeof(deadbeefW)), "Buffer contains wrong data\n"); ok(!memcmp(buf + 9, deadW, sizeof(deadW)), "Buffer contains wrong data\n"); /* The same but without nullterminated string */ memcpy(buf, deadbeefW, sizeof(deadbeefW)); ret = pStrCatChainW(buf, 5, -1, deadW); ok(ret == 8, "Expected StrCatChainW to return 8, got %lu\n", ret); ok(!memcmp(buf, deadbeefW, sizeof(deadbeefW)), "Buffer contains wrong data\n"); ret = pStrCatChainW(buf, 5, 5, deadW); ok(ret == 4, "Expected StrCatChainW to return 4, got %lu\n", ret); ok(!memcmp(buf, deadW, sizeof(deadW)), "Buffer contains wrong data\n"); ok(buf[5] == 'e', "Expected buf[5] = 'e', got %x\n", buf[5]); ret = pStrCatChainW(buf, 5, 6, deadW); ok(ret == 6, "Expected StrCatChainW to return 6, got %lu\n", ret); ok(!memcmp(buf, deadW, sizeof(deadW)), "Buffer contains wrong data\n"); ok(buf[5] == 'e', "Expected buf[5] = 'e', got %x\n", buf[5]); } START_TEST(string) { HMODULE hShlwapi; CHAR thousandDelim[8]; CHAR decimalDelim[8]; CoInitialize(0); GetLocaleInfoA(LOCALE_USER_DEFAULT, LOCALE_STHOUSAND, thousandDelim, 8); GetLocaleInfoA(LOCALE_USER_DEFAULT, LOCALE_SDECIMAL, decimalDelim, 8); hShlwapi = GetModuleHandleA("shlwapi"); pChrCmpIA = (void *)GetProcAddress(hShlwapi, "ChrCmpIA"); pChrCmpIW = (void *)GetProcAddress(hShlwapi, "ChrCmpIW"); pIntlStrEqWorkerA = (void *)GetProcAddress(hShlwapi, "IntlStrEqWorkerA"); pIntlStrEqWorkerW = (void *)GetProcAddress(hShlwapi, "IntlStrEqWorkerW"); pSHAnsiToAnsi = (void *)GetProcAddress(hShlwapi, (LPSTR)345); pSHUnicodeToUnicode = (void *)GetProcAddress(hShlwapi, (LPSTR)346); pStrCatBuffA = (void *)GetProcAddress(hShlwapi, "StrCatBuffA"); pStrCatBuffW = (void *)GetProcAddress(hShlwapi, "StrCatBuffW"); pStrCatChainW = (void *)GetProcAddress(hShlwapi, "StrCatChainW"); pStrCpyNXA = (void *)GetProcAddress(hShlwapi, (LPSTR)399); pStrCpyNXW = (void *)GetProcAddress(hShlwapi, (LPSTR)400); pStrChrNW = (void *)GetProcAddress(hShlwapi, "StrChrNW"); pStrFormatByteSize64A = (void *)GetProcAddress(hShlwapi, "StrFormatByteSize64A"); pStrFormatKBSizeA = (void *)GetProcAddress(hShlwapi, "StrFormatKBSizeA"); pStrFormatKBSizeW = (void *)GetProcAddress(hShlwapi, "StrFormatKBSizeW"); pStrIsIntlEqualA = (void *)GetProcAddress(hShlwapi, "StrIsIntlEqualA"); pStrIsIntlEqualW = (void *)GetProcAddress(hShlwapi, "StrIsIntlEqualW"); pStrPBrkW = (void *)GetProcAddress(hShlwapi, "StrPBrkW"); pStrRChrA = (void *)GetProcAddress(hShlwapi, "StrRChrA"); pStrRetToBSTR = (void *)GetProcAddress(hShlwapi, "StrRetToBSTR"); pStrRetToBufA = (void *)GetProcAddress(hShlwapi, "StrRetToBufA"); pStrRetToBufW = (void *)GetProcAddress(hShlwapi, "StrRetToBufW"); pStrStrNW = (void *)GetProcAddress(hShlwapi, "StrStrNW"); pStrStrNIW = (void *)GetProcAddress(hShlwapi, "StrStrNIW"); pwnsprintfA = (void *)GetProcAddress(hShlwapi, "wnsprintfA"); pwnsprintfW = (void *)GetProcAddress(hShlwapi, "wnsprintfW"); pStrToInt64ExA = (void *)GetProcAddress(hShlwapi, "StrToInt64ExA"); pStrToInt64ExW = (void *)GetProcAddress(hShlwapi, "StrToInt64ExW"); test_StrChrA(); test_StrChrW(); test_StrChrIA(); test_StrChrIW(); test_StrRChrA(); test_StrRChrW(); test_StrCpyW(); test_StrChrNW(); test_StrToIntA(); test_StrToIntW(); test_StrToIntExA(); test_StrToIntExW(); test_StrToInt64ExA(); test_StrToInt64ExW(); test_StrDupA(); /* language-dependent test */ if (is_lang_english() && is_locale_english()) { test_StrFormatByteSize64A(); test_StrFormatKBSizeA(); test_StrFormatKBSizeW(); } else skip("An English UI and locale is required for the StrFormat*Size tests\n"); if (is_lang_english()) test_StrFromTimeIntervalA(); else skip("An English UI is required for the StrFromTimeInterval tests\n"); test_StrCmpA(); test_StrCmpW(); test_StrRetToBSTR(); test_StrCpyNXA(); test_StrCpyNXW(); test_StrRStrI(); test_SHAnsiToAnsi(); test_SHUnicodeToUnicode(); test_StrXXX_overflows(); test_StrStrA(); test_StrStrW(); test_StrStrIA(); test_StrStrIW(); test_StrStrNW(); test_StrStrNIW(); test_StrCatChainW(); CoUninitialize(); }