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reactos/modules/rostests/apitests/kernel32/ConsoleCP.c
Hermès Bélusca-Maïto ba516ff0f5
[KERNEL32_APITESTS] Add a test showing thread locale/LangID sync with console (#4301) 
This test shows how a console program's thread's language ID changes,
or not, when changing the console output code page (or indirectly
when starting on/connecting to a new console), depending on whether
or not the console is running on a CJK/on a non-CJK system, and the
selected code page is a CJK/a non-CJK one.

By that, the test indirectly tests the (non-exposed) consoles GetLangId
+ SetThreadLocale() calls being made under the hood.
2022-02-08 15:58:00 +01:00

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/*
* PROJECT: ReactOS api tests
* LICENSE: GPL-2.0-or-later (https://spdx.org/licenses/GPL-2.0-or-later)
* PURPOSE: Tests for i18n console.
* COPYRIGHT: Copyright 2017-2020 Katayama Hirofumi MZ
* Copyright 2020-2022 Hermès Bélusca-Maïto
*/
#include "precomp.h"
#define okCURSOR(hCon, c) \
do { \
CONSOLE_SCREEN_BUFFER_INFO __sbi; \
BOOL expect = GetConsoleScreenBufferInfo((hCon), &__sbi) && \
__sbi.dwCursorPosition.X == (c).X && __sbi.dwCursorPosition.Y == (c).Y; \
ok(expect, "Expected cursor at (%d,%d), got (%d,%d)\n", \
(c).X, (c).Y, __sbi.dwCursorPosition.X, __sbi.dwCursorPosition.Y); \
} while (0)
#define ATTR (FOREGROUND_BLUE | FOREGROUND_GREEN | FOREGROUND_RED)
static const WCHAR u0414[] = {0x0414, 0}; /* Д */
static const WCHAR u9580[] = {0x9580, 0}; /* 門 */
static const WCHAR space[] = {L' ', 0};
static const WCHAR ideograph_space = (WCHAR)0x3000; /* fullwidth space */
static const WCHAR s_str[] = {L'A', 0x9580, 'B', 0};
static const LCID lcidJapanese = MAKELCID(MAKELANGID(LANG_JAPANESE, SUBLANG_DEFAULT), SORT_DEFAULT);
static const LCID lcidRussian = MAKELCID(MAKELANGID(LANG_RUSSIAN , SUBLANG_DEFAULT), SORT_DEFAULT);
static UINT s_uOEMCP;
static BOOL s_bIs8Plus;
static BOOL IsCJKCodePage(_In_ UINT CodePage)
{
switch (CodePage)
{
case 932: // Japanese
case 949: // Korean
case 1361: // Korean (Johab)
case 936: // Chinese PRC
case 950: // Taiwan
return TRUE;
}
return FALSE;
}
static __inline
LANGID MapCJKCPToLangId(_In_ UINT CodePage)
{
switch (CodePage)
{
case 932: // Japanese (Shift-JIS)
return MAKELANGID(LANG_JAPANESE, SUBLANG_DEFAULT);
case 949: // Korean (Hangul/Wansung)
// case 1361: // Korean (Johab)
return MAKELANGID(LANG_KOREAN, SUBLANG_KOREAN);
case 936: // Chinese PRC (Chinese Simplified)
return MAKELANGID(LANG_CHINESE, SUBLANG_CHINESE_SIMPLIFIED);
case 950: // Taiwan (Chinese Traditional)
return MAKELANGID(LANG_CHINESE, SUBLANG_CHINESE_TRADITIONAL);
default:
return MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US);
}
}
static BOOL ChangeOutputCP_(
_In_ const char* file,
_In_ int line,
_In_ UINT CodePage)
{
BOOL bSuccess;
/* Validate the code page */
bSuccess = IsValidCodePage(CodePage);
if (!bSuccess)
{
skip_(file, line)("Code page %d not available\n", CodePage);
return FALSE;
}
/* Set the new code page */
SetLastError(0xdeadbeef);
bSuccess = SetConsoleOutputCP(CodePage);
if (!bSuccess)
skip_(file, line)("SetConsoleOutputCP(%d) failed with last error %lu\n", CodePage, GetLastError());
return bSuccess;
}
#define ChangeOutputCP(CodePage) \
ChangeOutputCP_(__FILE__, __LINE__, CodePage)
#define cmpThreadLangId(file, line, ExpectedLangId) \
do { \
LANGID ThreadLangId; \
ThreadLangId = LANGIDFROMLCID(NtCurrentTeb()->CurrentLocale); \
trace_((file), (line))("Thread LangId %d, expecting %d...\n", \
ThreadLangId, (ExpectedLangId)); \
ok_((file), (line))(ThreadLangId == (ExpectedLangId), \
"Thread LangId %d, expected %d\n", \
ThreadLangId, (ExpectedLangId)); \
} while (0)
static BOOL
doTest_CP_ThreadLang_(
_In_ const char* file,
_In_ int line,
_In_ UINT CodePage,
_In_ LANGID ExpectedLangId)
{
UINT newcp;
/* Verify and set the new code page */
if (!ChangeOutputCP_(file, line, CodePage))
{
skip_(file, line)("Code page %d expected to be valid!\n", CodePage);
return FALSE;
}
newcp = GetConsoleOutputCP();
ok_(file, line)(newcp == CodePage, "Console output CP is %d, expected %d\n", newcp, CodePage);
/* Verify that the thread lang ID is the expected one */
cmpThreadLangId(file, line, ExpectedLangId);
return TRUE;
}
#define doTest_CP_ThreadLang(...) \
doTest_CP_ThreadLang_(__FILE__, __LINE__, ##__VA_ARGS__)
static VOID test_CP_ThreadLang(VOID)
{
/* Save the initial current thread locale. It is (re)initialized after
* attaching to a console. Don't use GetThreadLocale() as the latter
* can return a replacement value in case CurrentLocale is 0. */
LANGID ThreadLangId = LANGIDFROMLCID(NtCurrentTeb()->CurrentLocale);
UINT oldcp = GetConsoleOutputCP();
if (IsCJKCodePage(s_uOEMCP))
{
/* We are on a CJK system */
/* Is the console in CJK? If so, current thread should be in CJK language */
if (!IsCJKCodePage(oldcp))
{
skip("CJK system but console CP not in CJK\n");
}
else
{
/* Check that the thread lang ID matches what the console set */
LANGID LangId = MapCJKCPToLangId(oldcp);
cmpThreadLangId(__FILE__, __LINE__, LangId);
}
/* Set the code page to OEM USA (non-CJK codepage that is supported).
* Verify that the thread lang ID has changed to non-CJK language. */
doTest_CP_ThreadLang(437, MapCJKCPToLangId(437));
/* Set the code page to the default system CJK codepage.
* Check that the thread lang ID matches what the console set. */
doTest_CP_ThreadLang(s_uOEMCP, MapCJKCPToLangId(s_uOEMCP));
}
else
{
/* We are on a non-CJK system */
/* Code pages: Japanese, Korean, Chinese Simplified/Traditional */
UINT CJKCodePages[] = {932, 949, 936, 950};
UINT newcp;
USHORT i;
/* Switch to a different code page (OEM USA) than the current one.
* In such setup, the current thread lang ID should not change. */
newcp = (s_uOEMCP == 437 ? 850 : 437);
doTest_CP_ThreadLang(newcp, ThreadLangId);
/* Try switching to a CJK codepage, if possible, but
* the thread lang ID should not change either... */
/* Retry as long as no valid CJK codepage has been found */
for (i = 0; i < ARRAYSIZE(CJKCodePages); ++i)
{
newcp = CJKCodePages[i];
if (IsValidCodePage(newcp))
break; // Found a valid one.
}
if (i >= ARRAYSIZE(CJKCodePages))
{
/* No valid CJK code pages on the system */
skip("CJK system but console CP not in CJK\n");
}
else
{
/* Verify that the thread lang ID remains the same */
doTest_CP_ThreadLang(newcp, ThreadLangId);
}
}
/* Restore code page */
SetConsoleOutputCP(oldcp);
}
/* Russian Code Page 855 */
// NOTE that CP 866 can also be used
static void test_cp855(HANDLE hConOut)
{
BOOL ret;
UINT oldcp;
int n;
DWORD len;
COORD c;
CONSOLE_SCREEN_BUFFER_INFO csbi;
int count;
WCHAR str[32];
WORD attrs[16];
/* Set code page */
oldcp = GetConsoleOutputCP();
if (!ChangeOutputCP(855))
{
skip("Codepage 855 not available\n");
return;
}
/* Get info */
ret = GetConsoleScreenBufferInfo(hConOut, &csbi);
ok(ret, "GetConsoleScreenBufferInfo failed\n");
trace("csbi.dwSize.X:%d, csbi.dwSize.Y:%d\n", csbi.dwSize.X, csbi.dwSize.Y);
count = 200;
/* "\u0414" */
{
/* Output u0414 "count" times at (0,0) */
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
for (n = 0; n < count; ++n)
{
ret = WriteConsoleW(hConOut, u0414, lstrlenW(u0414), &len, NULL);
ok(ret && len == lstrlenW(u0414), "WriteConsoleW failed\n");
}
/* Check cursor */
len = count; /* u0414 is normal width in Russian */
c.X = (SHORT)(len % csbi.dwSize.X);
c.Y = (SHORT)(len / csbi.dwSize.X);
okCURSOR(hConOut, c);
/* Read characters at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputCharacterW(hConOut, str, 3 * sizeof(WCHAR), c, &len);
ok(ret, "ReadConsoleOutputCharacterW failed\n");
ok_long(len, 6);
ok_int(str[0], 0x414);
ok_int(str[1], 0x414);
ok_int(str[2], 0x414);
/* Read attributes at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 6, c, &len);
ok(ret, "ReadConsoleOutputAttribute failed\n");
ok_long(len, 6);
ok_int(attrs[0], ATTR);
/* Check cursor */
c.X = 1;
c.Y = 0;
ret = SetConsoleCursorPosition(hConOut, c);
ok(ret, "SetConsoleCursorPosition failed\n");
okCURSOR(hConOut, c);
/* Fill by space */
c.X = c.Y = 0;
FillConsoleOutputCharacterW(hConOut, L' ', csbi.dwSize.X * csbi.dwSize.Y, c, &len);
/* Output u0414 "count" times at (1,0) */
c.X = 1;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
for (n = 0; n < count; ++n)
{
ret = WriteConsoleW(hConOut, u0414, lstrlenW(u0414), &len, NULL);
ok(ret && len == lstrlenW(u0414), "WriteConsoleW failed\n");
}
/* Check cursor */
len = 1 + count;
c.X = (SHORT)(len % csbi.dwSize.X);
c.Y = (SHORT)(len / csbi.dwSize.X);
okCURSOR(hConOut, c);
/* Read characters at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputCharacterW(hConOut, str, 3 * sizeof(WCHAR), c, &len);
ok(ret, "ReadConsoleOutputCharacterW failed\n");
ok_long(len, 6);
ok_int(str[0], L' ');
ok_int(str[1], 0x414);
ok_int(str[2], 0x414);
}
/* "\u9580" */
{
/* Output u9580 "count" times at (0,0) */
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
for (n = 0; n < count; ++n)
{
ret = WriteConsoleW(hConOut, u9580, lstrlenW(u9580), &len, NULL);
ok(ret && len == lstrlenW(u9580), "WriteConsoleW failed\n");
}
/* Check cursor */
len = count; /* u9580 is normal width in Russian */
c.X = (SHORT)(len % csbi.dwSize.X);
c.Y = (SHORT)(len / csbi.dwSize.X);
okCURSOR(hConOut, c);
/* Check cursor */
c.X = 1;
c.Y = 0;
ret = SetConsoleCursorPosition(hConOut, c);
ok(ret, "SetConsoleCursorPosition failed\n");
okCURSOR(hConOut, c);
/* Fill by space */
c.X = c.Y = 0;
ret = FillConsoleOutputCharacterW(hConOut, L' ', csbi.dwSize.X * csbi.dwSize.Y, c, &len);
ok(ret, "FillConsoleOutputCharacterW failed\n");
ok_long(len, csbi.dwSize.X * csbi.dwSize.Y);
/* Output u9580 "count" times at (1,0) */
c.X = 1;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
for (n = 0; n < count; ++n)
{
ret = WriteConsoleW(hConOut, u9580, lstrlenW(u9580), &len, NULL);
ok(ret && len == lstrlenW(u9580), "WriteConsoleW failed\n");
}
/* Check cursor */
len = 1 + count;
c.X = (SHORT)(len % csbi.dwSize.X);
c.Y = (SHORT)(len / csbi.dwSize.X);
okCURSOR(hConOut, c);
/* Fill by ideograph space */
c.X = c.Y = 0;
ret = FillConsoleOutputCharacterW(hConOut, ideograph_space, csbi.dwSize.X * csbi.dwSize.Y, c, &len);
ok(ret, "FillConsoleOutputCharacterW failed\n");
ok_long(len, csbi.dwSize.X * csbi.dwSize.Y);
/* Read characters at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputCharacterW(hConOut, str, 3 * sizeof(WCHAR), c, &len);
ok(ret, "ReadConsoleOutputCharacterW failed\n");
ok_long(len, 6);
ok(str[0] == ideograph_space || str[0] == L'?', "str[0] was: 0x%04X\n", str[0]);
ok(str[1] == ideograph_space || str[1] == L'?', "str[1] was: 0x%04X\n", str[1]);
ok(str[2] == ideograph_space || str[2] == L'?', "str[2] was: 0x%04X\n", str[2]);
/* Read attributes at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 6, c, &len);
ok(ret, "ReadConsoleOutputAttribute failed\n");
ok_long(len, 6);
ok_int(attrs[0], ATTR);
/* Read characters at (1,0) */
c.X = 1;
c.Y = 0;
ret = ReadConsoleOutputCharacterW(hConOut, str, 3 * sizeof(WCHAR), c, &len);
ok(ret, "ReadConsoleOutputCharacterW failed\n");
ok_long(len, 6);
ok(str[0] == ideograph_space || str[0] == L'?', "str[0] was: 0x%04X\n", str[0]);
ok(str[1] == ideograph_space || str[1] == L'?', "str[1] was: 0x%04X\n", str[1]);
ok(str[2] == ideograph_space || str[2] == L'?', "str[2] was: 0x%04X\n", str[2]);
/* Output u9580 "count" once at (1,0) */
c.X = 1;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
ret = WriteConsoleW(hConOut, u9580, lstrlenW(u9580), &len, NULL);
ok(ret && len == lstrlenW(u9580), "WriteConsoleW failed\n");
/* Read attributes at (1,0) */
c.X = 1;
c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 1, c, &len);
ok(ret, "ReadConsoleOutputAttribute failed\n");
ok_long(len, 1);
ok_int(attrs[0], ATTR);
/* Check cursor */
c.X = 2;
c.Y = 0;
okCURSOR(hConOut, c);
/* Read characters at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputCharacterW(hConOut, str, 3 * sizeof(WCHAR), c, &len);
ok(ret, "ReadConsoleOutputCharacterW failed\n");
ok_long(len, 6);
ok(str[0] == ideograph_space || str[0] == L'?', "str[0] was: 0x%04X\n", str[0]);
ok(str[1] == u9580[0] || str[1] == L'?', "str[1] was: 0x%04X\n", str[1]);
ok(str[2] == ideograph_space || str[2] == L'?', "str[2] was: 0x%04X\n", str[2]);
}
/* Restore code page */
SetConsoleOutputCP(oldcp);
}
/* Japanese Code Page 932 */
static void test_cp932(HANDLE hConOut)
{
BOOL ret;
UINT oldcp;
int n;
DWORD len;
COORD c, buffSize;
CONSOLE_SCREEN_BUFFER_INFO csbi;
int count;
WCHAR str[32];
WORD attrs[16];
CHAR_INFO buff[16];
SMALL_RECT sr;
/* Set code page */
oldcp = GetConsoleOutputCP();
if (!ChangeOutputCP(932))
{
skip("Codepage 932 not available\n");
return;
}
/* Get info */
ret = GetConsoleScreenBufferInfo(hConOut, &csbi);
ok(ret, "GetConsoleScreenBufferInfo failed\n");
trace("csbi.dwSize.X:%d, csbi.dwSize.Y:%d\n", csbi.dwSize.X, csbi.dwSize.Y);
count = 200;
/* "\u0414" */
{
/* Output u0414 "count" times at (0,0) */
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
for (n = 0; n < count; ++n)
{
ret = WriteConsoleW(hConOut, u0414, lstrlenW(u0414), &len, NULL);
ok(ret && len == lstrlenW(u0414), "WriteConsoleW failed\n");
}
/* Check cursor */
GetConsoleScreenBufferInfo(hConOut, &csbi);
len = count * 2; /* u0414 is fullwidth in Japanese */
c.X = (SHORT)(len % csbi.dwSize.X);
c.Y = (SHORT)(len / csbi.dwSize.X);
okCURSOR(hConOut, c);
/* Read characters at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputCharacterW(hConOut, str, 3 * sizeof(WCHAR), c, &len);
ok(ret, "ReadConsoleOutputCharacterW failed\n");
ok_long(len, 3);
ok_int(str[0], 0x414);
ok_int(str[1], 0x414);
ok_int(str[2], 0x414);
/* Read attributes at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 6, c, &len);
ok(ret, "ReadConsoleOutputAttribute failed\n");
ok_long(len, 6);
ok_int(attrs[0], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[1], ATTR | COMMON_LVB_TRAILING_BYTE);
/* Check cursor */
c.X = 1;
c.Y = 0;
ret = SetConsoleCursorPosition(hConOut, c);
ok(ret, "SetConsoleCursorPosition failed\n");
okCURSOR(hConOut, c);
/* Fill by space */
c.X = c.Y = 0;
FillConsoleOutputCharacterW(hConOut, L' ', csbi.dwSize.X * csbi.dwSize.Y, c, &len);
/* Output u0414 "count" times at (1,0) */
c.X = 1;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
for (n = 0; n < count; ++n)
{
ret = WriteConsoleW(hConOut, u0414, lstrlenW(u0414), &len, NULL);
ok(ret && len == lstrlenW(u0414), "WriteConsoleW failed\n");
}
/* Check cursor */
len = csbi.dwSize.X + (count - (csbi.dwSize.X - 1) / 2) * 2;
c.X = (SHORT)(len % csbi.dwSize.X);
c.Y = (SHORT)(len / csbi.dwSize.X);
okCURSOR(hConOut, c);
/* Read characters at (0,0) */
c.X = 0;
c.Y = 0;
ret = ReadConsoleOutputCharacterW(hConOut, str, 3 * sizeof(WCHAR), c, &len);
ok(ret, "ReadConsoleOutputCharacterW failed\n");
ok_long(len, 4);
ok_int(str[0], L' ');
ok_int(str[1], 0x414);
ok_int(str[2], 0x414);
}
/* "\u9580" */
{
/* Output u9580 "count" times at (0,0) */
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
for (n = 0; n < count; ++n)
{
ret = WriteConsoleW(hConOut, u9580, lstrlenW(u9580), &len, NULL);
ok(ret && len == lstrlenW(u9580), "WriteConsoleW failed\n");
}
/* Check cursor */
len = count * 2; /* u9580 is fullwidth in Japanese */
c.X = (SHORT)(len % csbi.dwSize.X);
c.Y = (SHORT)(len / csbi.dwSize.X);
okCURSOR(hConOut, c);
/* Check cursor */
c.X = 1;
c.Y = 0;
ret = SetConsoleCursorPosition(hConOut, c);
ok(ret, "SetConsoleCursorPosition failed\n");
okCURSOR(hConOut, c);
/* Fill by space */
c.X = c.Y = 0;
ret = FillConsoleOutputCharacterW(hConOut, L' ', csbi.dwSize.X * csbi.dwSize.Y, c, &len);
ok(ret, "FillConsoleOutputCharacterW failed\n");
ok_long(len, csbi.dwSize.X * csbi.dwSize.Y);
/* Output u9580 "count" times at (1,0) */
c.X = 1;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
for (n = 0; n < count; ++n)
{
ret = WriteConsoleW(hConOut, u9580, lstrlenW(u9580), &len, NULL);
ok(ret && len == lstrlenW(u9580), "WriteConsoleW failed\n");
}
/* Check cursor */
len = csbi.dwSize.X + (count - (csbi.dwSize.X - 1) / 2) * 2;
c.X = (SHORT)(len % csbi.dwSize.X);
c.Y = (SHORT)(len / csbi.dwSize.X);
okCURSOR(hConOut, c);
/* Fill by ideograph space */
c.X = c.Y = 0;
ret = FillConsoleOutputCharacterW(hConOut, ideograph_space, csbi.dwSize.X * csbi.dwSize.Y, c, &len);
ok(ret, "FillConsoleOutputCharacterW failed\n");
if (s_bIs8Plus)
ok_long(len, csbi.dwSize.X * csbi.dwSize.Y / 2);
else
ok_long(len, csbi.dwSize.X * csbi.dwSize.Y);
/* Read characters at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputCharacterW(hConOut, str, 3 * sizeof(WCHAR), c, &len);
ok(ret, "ReadConsoleOutputCharacterW failed\n");
ok_long(len, 3);
ok_int(str[0], ideograph_space);
ok_int(str[1], ideograph_space);
ok_int(str[2], ideograph_space);
/* Read attributes at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 6, c, &len);
ok(ret, "ReadConsoleOutputAttribute failed\n");
ok_long(len, 6);
ok_int(attrs[0], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[1], ATTR | COMMON_LVB_TRAILING_BYTE);
ok_int(attrs[2], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[3], ATTR | COMMON_LVB_TRAILING_BYTE);
ok_int(attrs[4], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[5], ATTR | COMMON_LVB_TRAILING_BYTE);
/* Output u9580 "count" once at (1,0) */
c.X = 1;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
ret = WriteConsoleW(hConOut, u9580, lstrlenW(u9580), &len, NULL);
ok(ret && len == lstrlenW(u9580), "WriteConsoleW failed\n");
/*
* Read attributes at (1,0) -
* Note that if only one attribute of a fullwidth character
* is retrieved, no leading/trailing byte flag is set!
*/
c.X = 1;
c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 1, c, &len);
ok(ret, "ReadConsoleOutputAttribute failed\n");
ok_long(len, 1);
ok_int(attrs[0], ATTR);
/* Check that the same problem happens for the trailing byte */
c.X = 2;
c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 1, c, &len);
ok(ret, "ReadConsoleOutputAttribute failed\n");
ok_long(len, 1);
ok_int(attrs[0], ATTR);
/* Read attributes at (1,0) */
c.X = 1;
c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 2, c, &len);
ok(ret, "ReadConsoleOutputAttribute failed\n");
ok_long(len, 2);
ok_int(attrs[0], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[1], ATTR | COMMON_LVB_TRAILING_BYTE);
/* Read attributes at (1,0) */
ret = ReadConsoleOutputAttribute(hConOut, attrs, 3, c, &len);
ok(ret, "ReadConsoleOutputAttribute failed\n");
ok_long(len, 3);
ok_int(attrs[0], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[1], ATTR | COMMON_LVB_TRAILING_BYTE);
if (s_bIs8Plus)
ok_int(attrs[2], ATTR | COMMON_LVB_TRAILING_BYTE);
else
ok_int(attrs[2], ATTR);
/* Read attributes at (0,0) */
c.X = c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 4, c, &len);
ok(ret, "ReadConsoleOutputAttribute failed\n");
ok_long(len, 4);
if (s_bIs8Plus)
ok_int(attrs[0], ATTR | COMMON_LVB_LEADING_BYTE);
else
ok_int(attrs[0], ATTR);
ok_int(attrs[1], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[2], ATTR | COMMON_LVB_TRAILING_BYTE);
if (s_bIs8Plus)
ok_int(attrs[3], ATTR | COMMON_LVB_TRAILING_BYTE);
else
ok_int(attrs[3], ATTR);
/* Check cursor */
c.X = 3;
c.Y = 0;
okCURSOR(hConOut, c);
/* Read characters */
c.X = c.Y = 0;
ret = ReadConsoleOutputCharacterW(hConOut, str, 3 * sizeof(WCHAR), c, &len);
ok(ret, "ReadConsoleOutputCharacterW failed\n");
if (s_bIs8Plus)
{
ok_long(len, 3);
ok_int(str[0], ideograph_space);
ok_int(str[1], u9580[0]);
ok_int(str[2], ideograph_space);
}
else
{
ok_long(len, 4);
ok_int(str[0], L' ');
ok_int(str[1], u9580[0]);
ok_int(str[2], L' ');
}
}
/* COMMON_LVB_LEADING_BYTE and COMMON_LVB_TRAILING_BYTE for u0414 */
{
/* set cursor */
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
/* fill by 'A' */
ret = FillConsoleOutputCharacterW(hConOut, L'A', csbi.dwSize.X * 2, c, &len);
ok_int(ret, 1);
ok_long(len, csbi.dwSize.X * 2);
/* reset buff */
buffSize.X = ARRAYSIZE(buff);
buffSize.Y = 1;
memset(buff, 0x7F, sizeof(buff));
/* read output */
c.X = c.Y = 0;
ZeroMemory(&sr, sizeof(sr));
sr.Right = buffSize.X - 1;
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, 0);
ok_int(sr.Top, 0);
ok_int(sr.Right, buffSize.X - 1);
ok_int(sr.Bottom, 0);
/* check buff */
ok_int(buff[0].Char.UnicodeChar, L'A');
ok_int(buff[0].Attributes, ATTR);
/* read attr */
ret = ReadConsoleOutputAttribute(hConOut, attrs, 1, c, &len);
ok_int(ret, 1);
ok_long(len, 1);
ok_int(attrs[0], ATTR);
/* read char */
c.X = c.Y = 0;
memset(str, 0x7F, sizeof(str));
ret = ReadConsoleOutputCharacterW(hConOut, str, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 4);
ok_int(str[0], L'A');
ok_int(str[1], L'A');
ok_int(str[2], L'A');
ok_int(str[3], L'A');
/* set cursor */
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
/* write u0414 */
ret = WriteConsoleW(hConOut, u0414, 1, &len, NULL);
ok_int(ret, 1);
ok_long(len, 1);
/* reset buff */
buffSize.X = ARRAYSIZE(buff);
buffSize.Y = 1;
memset(buff, 0x7F, sizeof(buff));
/* read output */
c.X = c.Y = 0;
ZeroMemory(&sr, sizeof(sr));
sr.Right = buffSize.X - 1;
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, 0);
ok_int(sr.Top, 0);
ok_int(sr.Right, buffSize.X - 1);
ok_int(sr.Bottom, 0);
/* check buff */
if (s_bIs8Plus)
{
ok_int(buff[0].Char.UnicodeChar, 0x0414);
ok_int(buff[0].Attributes, ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(buff[1].Char.UnicodeChar, 0x0414);
ok_int(buff[1].Attributes, ATTR | COMMON_LVB_TRAILING_BYTE);
}
else
{
ok_int(buff[0].Char.UnicodeChar, 0x0414);
ok_int(buff[0].Attributes, ATTR);
ok_int(buff[1].Char.UnicodeChar, L'A');
ok_int(buff[1].Attributes, ATTR);
}
ok_int(buff[2].Char.UnicodeChar, L'A');
ok_int(buff[2].Attributes, ATTR);
ok_int(buff[3].Char.UnicodeChar, L'A');
ok_int(buff[3].Attributes, ATTR);
/* read attr */
ret = ReadConsoleOutputAttribute(hConOut, attrs, ARRAYSIZE(attrs), c, &len);
ok_int(ret, 1);
ok_long(len, ARRAYSIZE(attrs));
ok_int(attrs[0], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[1], ATTR | COMMON_LVB_TRAILING_BYTE);
ok_int(attrs[2], ATTR);
ok_int(attrs[3], ATTR);
/* read char */
c.X = c.Y = 0;
memset(str, 0x7F, sizeof(str));
ret = ReadConsoleOutputCharacterW(hConOut, str, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 3);
ok_int(str[0], 0x0414);
ok_int(str[1], L'A');
ok_int(str[2], L'A');
if (s_bIs8Plus)
ok_int(str[3], 0);
else
ok_int(str[3], 0x7F7F);
/* set cursor */
c.X = 1;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
/* write u0414 */
ret = WriteConsoleW(hConOut, u0414, 1, &len, NULL);
ok_int(ret, 1);
ok_long(len, 1);
/* read output */
c.X = c.Y = 0;
ZeroMemory(&sr, sizeof(sr));
sr.Right = buffSize.X - 1;
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, 0);
ok_int(sr.Top, 0);
ok_int(sr.Right, buffSize.X - 1);
ok_int(sr.Bottom, 0);
/* check buff */
if (s_bIs8Plus)
{
ok_int(buff[0].Char.UnicodeChar, 0x0414);
ok_int(buff[0].Attributes, ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(buff[1].Char.UnicodeChar, 0x0414);
ok_int(buff[1].Attributes, ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(buff[2].Char.UnicodeChar, 0x0414);
ok_int(buff[2].Attributes, ATTR | COMMON_LVB_TRAILING_BYTE);
}
else
{
ok_int(buff[0].Char.UnicodeChar, L' ');
ok_int(buff[0].Attributes, ATTR);
ok_int(buff[1].Char.UnicodeChar, 0x0414);
ok_int(buff[1].Attributes, ATTR);
ok_int(buff[2].Char.UnicodeChar, L'A');
ok_int(buff[2].Attributes, ATTR);
}
ok_int(buff[3].Char.UnicodeChar, L'A');
ok_int(buff[3].Attributes, ATTR);
/* read attr */
c.X = c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, ARRAYSIZE(attrs), c, &len);
ok_int(ret, 1);
ok_long(len, ARRAYSIZE(attrs));
if (s_bIs8Plus)
ok_int(attrs[0], ATTR | COMMON_LVB_LEADING_BYTE);
else
ok_int(attrs[0], ATTR);
ok_int(attrs[1], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[2], ATTR | COMMON_LVB_TRAILING_BYTE);
ok_int(attrs[3], ATTR);
/* read char */
c.X = c.Y = 0;
memset(str, 0x7F, sizeof(str));
ret = ReadConsoleOutputCharacterW(hConOut, str, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 3);
if (s_bIs8Plus)
{
ok_int(str[0], 0x0414);
ok_int(str[1], 0x0414);
ok_int(str[2], L'A');
ok_int(str[3], 0);
}
else
{
ok_int(str[0], L' ');
ok_int(str[1], 0x0414);
ok_int(str[2], L'A');
ok_int(str[3], 0x7F7F);
}
/* set cursor */
c.X = csbi.dwSize.X - 1;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
/* write u0414 */
WriteConsoleW(hConOut, u0414, 1, &len, NULL);
ok_int(ret, 1);
ok_long(len, 1);
/* reset buff */
buffSize.X = ARRAYSIZE(buff);
buffSize.Y = 1;
memset(buff, 0x7F, sizeof(buff));
/* read output */
c.X = c.Y = 0;
sr.Left = csbi.dwSize.X - 2;
sr.Top = 0;
sr.Right = csbi.dwSize.X - 1;
sr.Bottom = 0;
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, csbi.dwSize.X - 2);
ok_int(sr.Top, 0);
ok_int(sr.Right, csbi.dwSize.X - 1);
ok_int(sr.Bottom, 0);
/* check buff */
ok_int(buff[0].Char.UnicodeChar, L'A');
ok_int(buff[0].Attributes, ATTR);
ok_int(buff[1].Char.UnicodeChar, L'A');
ok_int(buff[1].Attributes, ATTR);
/* read attrs */
c.X = csbi.dwSize.X - 2;
c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, ARRAYSIZE(attrs), c, &len);
ok_int(ret, 1);
ok_long(len, ARRAYSIZE(attrs));
ok_int(attrs[0], ATTR);
ok_int(attrs[1], ATTR);
/* read char */
ret = ReadConsoleOutputCharacterW(hConOut, str, 2, c, &len);
ok_int(ret, 1);
ok_long(len, 2);
ok_int(str[0], L'A');
ok_int(str[1], L'A');
/* fill by 'A' */
c.X = c.Y = 0;
ret = FillConsoleOutputCharacterW(hConOut, L'A', 10, c, &len);
ok_int(ret, 1);
ok_long(len, 10);
/* fill by u0414 */
c.X = 1;
c.Y = 0;
ret = FillConsoleOutputCharacterW(hConOut, 0x0414, 1, c, &len);
c.X = c.Y = 0;
ok_int(ret, 1);
ok_long(len, 1);
/* reset buff */
buffSize.X = ARRAYSIZE(buff);
buffSize.Y = 1;
memset(buff, 0x7F, sizeof(buff));
/* read output */
c.X = c.Y = 0;
sr.Left = 0;
sr.Top = 0;
sr.Right = 4;
sr.Bottom = 0;
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, 0);
ok_int(sr.Top, 0);
ok_int(sr.Right, 4);
ok_int(sr.Bottom, 0);
/* check buff */
ok_int(buff[0].Char.UnicodeChar, L'A');
ok_int(buff[0].Attributes, ATTR);
if (s_bIs8Plus)
{
ok_int(buff[1].Char.UnicodeChar, 0x0414);
ok_int(buff[1].Attributes, ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(buff[2].Char.UnicodeChar, 0x0414);
ok_int(buff[2].Attributes, ATTR | COMMON_LVB_TRAILING_BYTE);
}
else
{
ok_int(buff[1].Char.UnicodeChar, L' ');
ok_int(buff[1].Attributes, ATTR);
ok_int(buff[2].Char.UnicodeChar, L'A');
ok_int(buff[2].Attributes, ATTR);
}
ok_int(buff[3].Char.UnicodeChar, L'A');
ok_int(buff[3].Attributes, ATTR);
ok_int(buff[4].Char.UnicodeChar, L'A');
ok_int(buff[4].Attributes, ATTR);
/* read attrs */
c.X = 0;
c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 4);
ok_int(attrs[0], ATTR);
if (s_bIs8Plus)
{
ok_int(attrs[1], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[2], ATTR | COMMON_LVB_TRAILING_BYTE);
}
else
{
ok_int(attrs[1], ATTR);
ok_int(attrs[2], ATTR);
}
ok_int(attrs[3], ATTR);
}
/* COMMON_LVB_LEADING_BYTE and COMMON_LVB_TRAILING_BYTE for u9580 */
{
/* set cursor */
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
/* fill by 'A' */
ret = FillConsoleOutputCharacterW(hConOut, L'A', csbi.dwSize.X * 2, c, &len);
ok_int(ret, 1);
ok_long(len, csbi.dwSize.X * 2);
/* reset buff */
buffSize.X = ARRAYSIZE(buff);
buffSize.Y = 1;
memset(buff, 0x7F, sizeof(buff));
/* read output */
c.X = c.Y = 0;
ZeroMemory(&sr, sizeof(sr));
sr.Right = buffSize.X - 1;
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, 0);
ok_int(sr.Top, 0);
ok_int(sr.Right, buffSize.X - 1);
ok_int(sr.Bottom, 0);
/* check buff */
ok_int(buff[0].Char.UnicodeChar, L'A');
ok_int(buff[0].Attributes, ATTR);
/* read attr */
ret = ReadConsoleOutputAttribute(hConOut, attrs, 1, c, &len);
ok_int(ret, 1);
ok_long(len, 1);
ok_int(attrs[0], ATTR);
/* read char */
memset(str, 0x7F, sizeof(str));
ret = ReadConsoleOutputCharacterW(hConOut, str, 2, c, &len);
ok_int(ret, 1);
ok_long(len, 2);
ok_int(str[0], L'A');
ok_int(str[1], L'A');
/* set cursor */
c.X = 0;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
/* write u9580 */
ret = WriteConsoleW(hConOut, u9580, 1, &len, NULL);
ok_int(ret, 1);
ok_long(len, 1);
/* reset buff */
buffSize.X = ARRAYSIZE(buff);
buffSize.Y = 1;
memset(buff, 0x7F, sizeof(buff));
/* read output */
c.X = c.Y = 0;
ZeroMemory(&sr, sizeof(sr));
sr.Right = buffSize.X - 1;
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, 0);
ok_int(sr.Top, 0);
ok_int(sr.Right, buffSize.X - 1);
ok_int(sr.Bottom, 0);
/* check buff */
if (s_bIs8Plus)
{
ok_int(buff[0].Char.UnicodeChar, u9580[0]);
ok_int(buff[0].Attributes, ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(buff[1].Char.UnicodeChar, u9580[0]);
ok_int(buff[1].Attributes, ATTR | COMMON_LVB_TRAILING_BYTE);
}
else
{
ok_int(buff[0].Char.UnicodeChar, u9580[0]);
ok_int(buff[0].Attributes, ATTR);
ok_int(buff[1].Char.UnicodeChar, L'A');
ok_int(buff[1].Attributes, ATTR);
}
ok_int(buff[2].Char.UnicodeChar, L'A');
ok_int(buff[2].Attributes, ATTR);
ok_int(buff[3].Char.UnicodeChar, L'A');
ok_int(buff[3].Attributes, ATTR);
/* read attr */
ret = ReadConsoleOutputAttribute(hConOut, attrs, ARRAYSIZE(attrs), c, &len);
ok_int(ret, 1);
ok_long(len, ARRAYSIZE(attrs));
ok_int(attrs[0], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[1], ATTR | COMMON_LVB_TRAILING_BYTE);
ok_int(attrs[2], ATTR);
ok_int(attrs[3], ATTR);
/* read char */
c.X = c.Y = 0;
memset(str, 0x7F, sizeof(str));
ret = ReadConsoleOutputCharacterW(hConOut, str, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 3);
ok_int(str[0], u9580[0]);
ok_int(str[1], L'A');
ok_int(str[2], L'A');
if (s_bIs8Plus)
ok_int(str[3], 0);
else
ok_int(str[3], 0x7F7F);
/* set cursor */
c.X = 1;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
/* write u9580 */
ret = WriteConsoleW(hConOut, u9580, 1, &len, NULL);
ok_int(ret, 1);
ok_long(len, 1);
/* read output */
c.X = c.Y = 0;
ZeroMemory(&sr, sizeof(sr));
sr.Right = buffSize.X - 1;
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, 0);
ok_int(sr.Top, 0);
ok_int(sr.Right, buffSize.X - 1);
ok_int(sr.Bottom, 0);
/* check buff */
if (s_bIs8Plus)
{
ok_int(buff[0].Char.UnicodeChar, u9580[0]);
ok_int(buff[0].Attributes, ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(buff[1].Char.UnicodeChar, u9580[0]);
ok_int(buff[1].Attributes, ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(buff[2].Char.UnicodeChar, u9580[0]);
ok_int(buff[2].Attributes, ATTR | COMMON_LVB_TRAILING_BYTE);
}
else
{
ok_int(buff[0].Char.UnicodeChar, L' ');
ok_int(buff[0].Attributes, ATTR);
ok_int(buff[1].Char.UnicodeChar, u9580[0]);
ok_int(buff[1].Attributes, ATTR);
ok_int(buff[2].Char.UnicodeChar, L'A');
ok_int(buff[2].Attributes, ATTR);
}
ok_int(buff[3].Char.UnicodeChar, L'A');
ok_int(buff[3].Attributes, ATTR);
/* read attr */
c.X = c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, ARRAYSIZE(attrs), c, &len);
ok_int(ret, 1);
ok_long(len, ARRAYSIZE(attrs));
if (s_bIs8Plus)
{
ok_int(attrs[0], ATTR | COMMON_LVB_LEADING_BYTE);
}
else
{
ok_int(attrs[0], ATTR);
}
ok_int(attrs[1], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[2], ATTR | COMMON_LVB_TRAILING_BYTE);
ok_int(attrs[3], ATTR);
/* set cursor */
c.X = csbi.dwSize.X - 1;
c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
/* write u9580 */
WriteConsoleW(hConOut, u9580, 1, &len, NULL);
ok_int(ret, 1);
ok_long(len, 1);
/* reset buff */
buffSize.X = ARRAYSIZE(buff);
buffSize.Y = 1;
memset(buff, 0x7F, sizeof(buff));
/* read output */
c.X = c.Y = 0;
sr.Left = csbi.dwSize.X - 2;
sr.Top = 0;
sr.Right = csbi.dwSize.X - 1;
sr.Bottom = 0;
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, csbi.dwSize.X - 2);
ok_int(sr.Top, 0);
ok_int(sr.Right, csbi.dwSize.X - 1);
ok_int(sr.Bottom, 0);
/* check buff */
ok_int(buff[0].Char.UnicodeChar, L'A');
ok_int(buff[0].Attributes, ATTR);
ok_int(buff[1].Char.UnicodeChar, L'A');
ok_int(buff[1].Attributes, ATTR);
/* read attr */
c.X = csbi.dwSize.X - 2;
c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, ARRAYSIZE(attrs), c, &len);
ok_int(ret, 1);
ok_long(len, ARRAYSIZE(attrs));
ok_int(attrs[0], ATTR);
ok_int(attrs[1], ATTR);
/* read char */
memset(str, 0x7F, sizeof(str));
ret = ReadConsoleOutputCharacterW(hConOut, str, 2, c, &len);
ok_int(ret, 1);
ok_long(len, 2);
ok_int(str[0], L'A');
ok_int(str[1], L'A');
/* fill by 'A' */
c.X = c.Y = 0;
ret = FillConsoleOutputCharacterW(hConOut, L'A', 10, c, &len);
ok_int(ret, 1);
ok_long(len, 10);
/* fill by u9580 */
c.X = 1;
c.Y = 0;
ret = FillConsoleOutputCharacterW(hConOut, u9580[0], 1, c, &len);
c.X = c.Y = 0;
ok_int(ret, 1);
ok_long(len, 1);
/* reset buff */
buffSize.X = ARRAYSIZE(buff);
buffSize.Y = 1;
memset(buff, 0x7F, sizeof(buff));
/* read output */
c.X = c.Y = 0;
sr.Left = 0;
sr.Top = 0;
sr.Right = 4;
sr.Bottom = 0;
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, 0);
ok_int(sr.Top, 0);
ok_int(sr.Right, 4);
ok_int(sr.Bottom, 0);
/* check buff */
ok_int(buff[0].Char.UnicodeChar, L'A');
ok_int(buff[0].Attributes, ATTR);
if (s_bIs8Plus)
{
ok_int(buff[1].Char.UnicodeChar, u9580[0]);
ok_int(buff[1].Attributes, ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(buff[2].Char.UnicodeChar, u9580[0]);
ok_int(buff[2].Attributes, ATTR | COMMON_LVB_TRAILING_BYTE);
}
else
{
ok_int(buff[1].Char.UnicodeChar, L' ');
ok_int(buff[1].Attributes, ATTR);
ok_int(buff[2].Char.UnicodeChar, L'A');
ok_int(buff[2].Attributes, ATTR);
}
ok_int(buff[3].Char.UnicodeChar, L'A');
ok_int(buff[3].Attributes, ATTR);
ok_int(buff[4].Char.UnicodeChar, L'A');
ok_int(buff[4].Attributes, ATTR);
/* read attrs */
c.X = 0;
c.Y = 0;
ret = ReadConsoleOutputAttribute(hConOut, attrs, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 4);
ok_int(attrs[0], ATTR);
if (s_bIs8Plus)
{
ok_int(attrs[1], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[2], ATTR | COMMON_LVB_TRAILING_BYTE);
}
else
{
ok_int(attrs[1], ATTR);
ok_int(attrs[2], ATTR);
}
ok_int(attrs[3], ATTR);
}
/* FillConsoleOutputAttribute and WriteConsoleOutput */
{
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
for (n = 0; n < count; ++n)
{
ret = WriteConsoleW(hConOut, space, lstrlenW(space), &len, NULL);
ok_int(ret, 1);
ok_long(len, 1);
}
/* fill attrs */
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
ret = FillConsoleOutputAttribute(hConOut, 0xFFFF, 2, c, &len);
ok_int(ret, 1);
ok_long(len, 2);
/* read attrs */
memset(attrs, 0x7F, sizeof(attrs));
ret = ReadConsoleOutputAttribute(hConOut, attrs, 3, c, &len);
ok_int(ret, 1);
ok_long(len, 3);
if (s_bIs8Plus)
{
ok_int(attrs[0], 0xDCFF);
ok_int(attrs[1], 0xDCFF);
}
else
{
ok_int(attrs[0], 0xFCFF);
ok_int(attrs[1], 0xFCFF);
}
ok_int(attrs[2], ATTR);
/* fill attrs */
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
ret = FillConsoleOutputAttribute(hConOut, ATTR, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 4);
/* write */
c.X = c.Y = 0;
sr.Left = 0;
sr.Top = 0;
sr.Right = 4;
sr.Bottom = 0;
// Check how Read/WriteConsoleOutput() handle inconsistent DBCS flags.
buff[0].Char.UnicodeChar = u9580[0];
buff[0].Attributes = ATTR | COMMON_LVB_LEADING_BYTE;
buff[1].Char.UnicodeChar = u9580[0];
buff[1].Attributes = ATTR | COMMON_LVB_LEADING_BYTE;
buff[2].Char.UnicodeChar = u9580[0];
buff[2].Attributes = ATTR | COMMON_LVB_TRAILING_BYTE;
buff[3].Char.UnicodeChar = L'A';
buff[3].Attributes = ATTR;
buff[4].Char.UnicodeChar = L' ';
buff[4].Attributes = 0xFFFF;
buffSize.X = 4;
buffSize.Y = 1;
ret = WriteConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, 0);
ok_int(sr.Top, 0);
ok_int(sr.Right, 3);
ok_int(sr.Bottom, 0);
/* read output */
sr.Left = 0;
sr.Top = 0;
sr.Right = 4;
sr.Bottom = 0;
memset(buff, 0x7F, sizeof(buff));
ret = ReadConsoleOutputW(hConOut, buff, buffSize, c, &sr);
ok_int(ret, 1);
ok_int(sr.Left, 0);
ok_int(sr.Top, 0);
ok_int(sr.Right, 3);
ok_int(sr.Bottom, 0);
/* check buff */
if (s_bIs8Plus)
{
ok_int(buff[0].Char.UnicodeChar, u9580[0]);
ok_int(buff[0].Attributes, ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(buff[1].Char.UnicodeChar, u9580[0]);
ok_int(buff[1].Attributes, ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(buff[2].Char.UnicodeChar, u9580[0]);
ok_int(buff[2].Attributes, ATTR | COMMON_LVB_TRAILING_BYTE);
ok_int(buff[3].Char.UnicodeChar, L'A');
ok_int(buff[3].Attributes, ATTR);
ok_int(buff[4].Char.UnicodeChar, 0x7F7F);
ok_int(buff[4].Attributes, 0x7F7F);
}
else
{
ok_int(buff[0].Char.UnicodeChar, u9580[0]);
ok_int(buff[0].Attributes, ATTR);
ok_int(buff[1].Char.UnicodeChar, u9580[0]);
ok_int(buff[1].Attributes, ATTR);
ok_int(buff[2].Char.UnicodeChar, 0);
ok_int(buff[2].Attributes, 0);
ok_int(buff[3].Char.UnicodeChar, 0);
ok_int(buff[3].Attributes, 0);
ok_int(buff[4].Char.UnicodeChar, 0x7F7F);
ok_int(buff[4].Attributes, 0x7F7F);
}
/* read attrs */
c.X = c.Y = 0;
memset(attrs, 0x7F, sizeof(attrs));
ret = ReadConsoleOutputAttribute(hConOut, attrs, 6, c, &len);
ok_int(ret, 1);
ok_long(len, 6);
ok_int(attrs[0], ATTR | COMMON_LVB_LEADING_BYTE);
if (s_bIs8Plus)
{
ok_int(attrs[1], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[2], ATTR | COMMON_LVB_TRAILING_BYTE);
ok_int(attrs[3], ATTR);
}
else
{
ok_int(attrs[1], ATTR | COMMON_LVB_TRAILING_BYTE);
ok_int(attrs[2], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[3], ATTR | COMMON_LVB_TRAILING_BYTE);
}
ok_int(attrs[4], ATTR);
ok_int(attrs[5], ATTR);
}
/* WriteConsoleOutputCharacterW and WriteConsoleOutputAttribute */
{
c.X = c.Y = 0;
SetConsoleCursorPosition(hConOut, c);
okCURSOR(hConOut, c);
for (n = 0; n < count; ++n)
{
ret = WriteConsoleW(hConOut, space, lstrlenW(space), &len, NULL);
ok_int(ret, 1);
ok_long(len, 1);
}
/* write attrs */
attrs[0] = ATTR;
attrs[1] = 0xFFFF;
attrs[2] = ATTR;
attrs[3] = 0;
ret = WriteConsoleOutputAttribute(hConOut, attrs, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 4);
/* read attrs */
memset(attrs, 0x7F, sizeof(attrs));
ret = ReadConsoleOutputAttribute(hConOut, attrs, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 4);
ok_int(attrs[0], ATTR);
if (s_bIs8Plus)
ok_int(attrs[1], 0xDCFF);
else
ok_int(attrs[1], 0xFCFF);
ok_int(attrs[2], ATTR);
ok_int(attrs[3], 0);
/* fill attr */
ret = FillConsoleOutputAttribute(hConOut, ATTR, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 4);
/* write char */
ret = WriteConsoleOutputCharacterW(hConOut, s_str, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 4);
/* read attrs */
memset(attrs, 0x7F, sizeof(attrs));
ret = ReadConsoleOutputAttribute(hConOut, attrs, 4, c, &len);
ok_int(ret, 1);
ok_long(len, 4);
ok_int(attrs[0], ATTR);
ok_int(attrs[1], ATTR | COMMON_LVB_LEADING_BYTE);
ok_int(attrs[2], ATTR | COMMON_LVB_TRAILING_BYTE);
ok_int(attrs[3], ATTR);
}
/* Restore code page */
SetConsoleOutputCP(oldcp);
}
START_TEST(ConsoleCP)
{
HANDLE hConIn, hConOut;
OSVERSIONINFOA osver = { sizeof(osver) };
// https://github.com/reactos/reactos/pull/2131#issuecomment-563189380
GetVersionExA(&osver);
s_bIs8Plus = (osver.dwMajorVersion > 6) ||
(osver.dwMajorVersion == 6 && osver.dwMinorVersion >= 2);
FreeConsole();
ok(AllocConsole(), "Couldn't alloc console\n");
hConIn = CreateFileA("CONIN$", GENERIC_READ|GENERIC_WRITE, 0, NULL, OPEN_EXISTING, 0, 0);
hConOut = CreateFileA("CONOUT$", GENERIC_READ|GENERIC_WRITE, 0, NULL, OPEN_EXISTING, 0, 0);
ok(hConIn != INVALID_HANDLE_VALUE, "Opening ConIn\n");
ok(hConOut != INVALID_HANDLE_VALUE, "Opening ConOut\n");
/* Retrieve the system OEM code page */
s_uOEMCP = GetOEMCP();
trace("Running on %s system (codepage %d)\n",
IsCJKCodePage(s_uOEMCP) ? "CJK" : "Non-CJK",
s_uOEMCP);
/* Test thread lang ID syncing with console code page */
test_CP_ThreadLang();
if (IsValidLocale(lcidRussian, LCID_INSTALLED))
{
if (!IsCJKCodePage(s_uOEMCP))
test_cp855(hConOut);
else
skip("Russian testcase is skipped because of CJK\n");
}
else
{
skip("Russian locale is not installed\n");
}
if (IsValidLocale(lcidJapanese, LCID_INSTALLED))
{
if (IsCJKCodePage(s_uOEMCP))
test_cp932(hConOut);
else
skip("Japanese testcase is skipped because of not CJK\n");
}
else
{
skip("Japanese locale is not installed\n");
}
CloseHandle(hConIn);
CloseHandle(hConOut);
FreeConsole();
ok(AllocConsole(), "Couldn't alloc console\n");
}
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