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reactos/dll/win32/imm32/compstr.c
Katayama Hirofumi MZ 781fb4a55e
[IMM32] Fix ImmGetCompositionStringA/W (#5105) 
Fix some typos in Imm32GetCompStrA/W. CORE-11700
2023-02-27 12:33:45 +09:00

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/*
* PROJECT: ReactOS IMM32
* LICENSE: LGPL-2.1-or-later (https://spdx.org/licenses/LGPL-2.1-or-later)
* PURPOSE: Implementing composition strings of IMM32
* COPYRIGHT: Copyright 1998 Patrik Stridvall
* Copyright 2002, 2003, 2007 CodeWeavers, Aric Stewart
* Copyright 2017 James Tabor <james.tabor@reactos.org>
* Copyright 2018 Amine Khaldi <amine.khaldi@reactos.org>
* Copyright 2020-2021 Katayama Hirofumi MZ <katayama.hirofumi.mz@gmail.com>
*/
#include "precomp.h"
WINE_DEFAULT_DEBUG_CHANNEL(imm);
BOOL APIENTRY
Imm32OpenICAndCS(HIMC hIMC, LPINPUTCONTEXT *ppIC, LPCOMPOSITIONSTRING *ppCS)
{
LPINPUTCONTEXT pIC;
LPCOMPOSITIONSTRING pCS;
*ppIC = NULL;
*ppCS = NULL;
pIC = ImmLockIMC(hIMC);
if (IS_NULL_UNEXPECTEDLY(pIC))
return FALSE;
pCS = ImmLockIMCC(pIC->hCompStr);
if (IS_NULL_UNEXPECTEDLY(pCS))
{
ImmUnlockIMC(hIMC);
return FALSE;
}
*ppIC = pIC;
*ppCS = pCS;
return TRUE;
}
static inline LONG APIENTRY
Imm32CompStrAnsiToWide(LPCSTR psz, DWORD cb, LPWSTR lpBuf, DWORD dwBufLen, UINT uCodePage)
{
DWORD ret = MultiByteToWideChar(uCodePage, MB_PRECOMPOSED, psz, cb / sizeof(CHAR),
lpBuf, dwBufLen / sizeof(WCHAR));
if (lpBuf && (ret + 1) * sizeof(WCHAR) <= dwBufLen)
lpBuf[ret] = 0;
return ret * sizeof(WCHAR);
}
static inline LONG APIENTRY
Imm32CompStrWideToAnsi(LPCWSTR psz, DWORD cb, LPSTR lpBuf, DWORD dwBufLen, UINT uCodePage)
{
DWORD ret = WideCharToMultiByte(uCodePage, 0, psz, cb / sizeof(WCHAR),
lpBuf, dwBufLen / sizeof(CHAR), NULL, NULL);
if (lpBuf && (ret + 1) * sizeof(CHAR) <= dwBufLen)
lpBuf[ret] = 0;
return ret * sizeof(CHAR);
}
static INT APIENTRY
Imm32CompAttrWideToAnsi(const BYTE *src, INT src_len, LPCWSTR text,
INT str_len, LPBYTE dst, INT dst_len, UINT uCodePage)
{
INT rc;
INT i, j = 0, k = 0, len;
if (!src_len)
return 0;
str_len /= sizeof(WCHAR);
rc = WideCharToMultiByte(uCodePage, 0, text, str_len, NULL, 0, NULL, NULL);
if (dst_len)
{
if (dst_len > rc)
dst_len = rc;
for (i = 0; i < str_len; ++i, ++k)
{
len = WideCharToMultiByte(uCodePage, 0, &text[i], 1, NULL, 0, NULL, NULL);
for (; len > 0; --len)
{
dst[j++] = src[k];
if (dst_len <= j)
goto end;
}
}
end:
rc = j;
}
return rc * sizeof(BYTE);
}
static INT APIENTRY
Imm32CompAttrAnsiToWide(const BYTE *src, INT src_len, LPCSTR text,
INT str_len, LPBYTE dst, INT dst_len, UINT uCodePage)
{
INT rc;
INT i, j = 0;
if (!src_len)
return 0;
str_len /= sizeof(CHAR);
rc = MultiByteToWideChar(uCodePage, MB_PRECOMPOSED, text, str_len, NULL, 0);
if (dst_len)
{
if (dst_len > rc)
dst_len = rc;
for (i = 0; i < str_len; ++i)
{
if (IsDBCSLeadByteEx(uCodePage, text[i]) && text[i + 1])
continue;
dst[j++] = src[i];
if (dst_len <= j)
break;
}
rc = j;
}
return rc * sizeof(BYTE);
}
static INT APIENTRY
Imm32CompClauseAnsiToWide(const DWORD *source, INT slen, LPCSTR text,
LPDWORD target, INT tlen, UINT uCodePage)
{
INT rc, i;
if (!slen)
return 0;
if (tlen)
{
if (tlen > slen)
tlen = slen;
tlen /= sizeof(DWORD);
for (i = 0; i < tlen; ++i)
{
target[i] = MultiByteToWideChar(uCodePage, MB_PRECOMPOSED, text, source[i], NULL, 0);
}
rc = sizeof(DWORD) * i;
}
else
{
rc = slen;
}
return rc;
}
static INT APIENTRY
Imm32CompClauseWideToAnsi(const DWORD *source, INT slen, LPCWSTR text,
LPDWORD target, INT tlen, UINT uCodePage)
{
INT rc, i;
if (!slen)
return 0;
if (tlen)
{
if (tlen > slen)
tlen = slen;
tlen /= sizeof(DWORD);
for (i = 0; i < tlen; ++i)
{
target[i] = WideCharToMultiByte(uCodePage, 0, text, source[i], NULL, 0, NULL, NULL);
}
rc = sizeof(DWORD) * i;
}
else
{
rc = slen;
}
return rc;
}
#define CS_StrA(pCS, Name) ((LPCSTR)(pCS) + (pCS)->dw##Name##Offset)
#define CS_StrW(pCS, Name) ((LPCWSTR)CS_StrA(pCS, Name))
#define CS_Attr(pCS, Name) ((const BYTE *)CS_StrA(pCS, Name))
#define CS_Clause(pCS, Name) ((const DWORD *)CS_StrA(pCS, Name))
#define CS_Size(pCS, Name) ((pCS)->dw##Name##Len)
#define CS_SizeA(pCS, Name) (CS_Size(pCS, Name) * sizeof(CHAR))
#define CS_SizeW(pCS, Name) (CS_Size(pCS, Name) * sizeof(WCHAR))
#define CS_DoStr(pCS, Name, AorW) do { \
if (dwBufLen == 0) { \
dwBufLen = CS_Size##AorW((pCS), Name); \
} else { \
if (dwBufLen > CS_Size##AorW((pCS), Name)) \
dwBufLen = CS_Size##AorW((pCS), Name); \
RtlCopyMemory(lpBuf, CS_Str##AorW((pCS), Name), dwBufLen); \
} \
} while (0)
#define CS_DoStrA(pCS, Name) CS_DoStr(pCS, Name, A)
#define CS_DoStrW(pCS, Name) CS_DoStr(pCS, Name, W)
#define CS_DoAttr CS_DoStrA
#define CS_DoClause CS_DoStrA
// Win: InternalGetCompositionStringA
LONG APIENTRY
Imm32GetCompStrA(HIMC hIMC, const COMPOSITIONSTRING *pCS, DWORD dwIndex,
LPVOID lpBuf, DWORD dwBufLen, BOOL bAnsiClient, UINT uCodePage)
{
if (bAnsiClient)
{
switch (dwIndex)
{
case GCS_COMPREADSTR:
CS_DoStrA(pCS, CompReadStr);
break;
case GCS_COMPREADATTR:
CS_DoAttr(pCS, CompReadAttr);
break;
case GCS_COMPREADCLAUSE:
CS_DoClause(pCS, CompReadClause);
break;
case GCS_COMPSTR:
CS_DoStrA(pCS, CompStr);
break;
case GCS_COMPATTR:
CS_DoAttr(pCS, CompAttr);
break;
case GCS_COMPCLAUSE:
CS_DoClause(pCS, CompClause);
break;
case GCS_CURSORPOS:
dwBufLen = pCS->dwCursorPos;
break;
case GCS_DELTASTART:
dwBufLen = pCS->dwDeltaStart;
break;
case GCS_RESULTREADSTR:
CS_DoStrA(pCS, ResultReadStr);
break;
case GCS_RESULTREADCLAUSE:
CS_DoClause(pCS, ResultReadClause);
break;
case GCS_RESULTSTR:
CS_DoStrA(pCS, ResultStr);
break;
case GCS_RESULTCLAUSE:
CS_DoClause(pCS, ResultClause);
break;
default:
FIXME("0x%X\n", dwIndex);
return IMM_ERROR_GENERAL;
}
}
else /* !bAnsiClient */
{
switch (dwIndex)
{
case GCS_COMPREADSTR:
dwBufLen = Imm32CompStrWideToAnsi(CS_StrW(pCS, CompReadStr),
CS_SizeW(pCS, CompReadStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_COMPREADATTR:
dwBufLen = Imm32CompAttrWideToAnsi(CS_Attr(pCS, CompReadAttr),
CS_Size(pCS, CompReadAttr),
CS_StrW(pCS, CompReadStr),
CS_SizeW(pCS, CompReadStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_COMPREADCLAUSE:
dwBufLen = Imm32CompClauseWideToAnsi(CS_Clause(pCS, CompReadClause),
CS_Size(pCS, CompReadClause),
CS_StrW(pCS, CompReadStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_COMPSTR:
dwBufLen = Imm32CompStrWideToAnsi(CS_StrW(pCS, CompStr),
CS_SizeW(pCS, CompStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_COMPATTR:
dwBufLen = Imm32CompAttrWideToAnsi(CS_Attr(pCS, CompAttr),
CS_Size(pCS, CompAttr),
CS_StrW(pCS, CompStr),
CS_SizeW(pCS, CompStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_COMPCLAUSE:
dwBufLen = Imm32CompClauseWideToAnsi(CS_Clause(pCS, CompClause),
CS_Size(pCS, CompClause),
CS_StrW(pCS, CompStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_CURSORPOS:
dwBufLen = IchAnsiFromWide(pCS->dwCursorPos, CS_StrW(pCS, CompStr), uCodePage);
break;
case GCS_DELTASTART:
dwBufLen = IchAnsiFromWide(pCS->dwDeltaStart, CS_StrW(pCS, CompStr), uCodePage);
break;
case GCS_RESULTREADSTR:
dwBufLen = Imm32CompStrWideToAnsi(CS_StrW(pCS, ResultReadStr),
CS_SizeW(pCS, ResultReadStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_RESULTREADCLAUSE:
dwBufLen = Imm32CompClauseWideToAnsi(CS_Clause(pCS, ResultReadClause),
CS_Size(pCS, ResultReadClause),
CS_StrW(pCS, ResultReadStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_RESULTSTR:
dwBufLen = Imm32CompStrWideToAnsi(CS_StrW(pCS, ResultStr),
CS_SizeW(pCS, ResultStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_RESULTCLAUSE:
dwBufLen = Imm32CompClauseWideToAnsi(CS_Clause(pCS, ResultClause),
CS_Size(pCS, ResultClause),
CS_StrW(pCS, ResultStr),
lpBuf, dwBufLen, uCodePage);
break;
default:
FIXME("0x%X\n", dwIndex);
return IMM_ERROR_GENERAL;
}
}
return dwBufLen;
}
// Win: InternalGetCompositionStringW
LONG APIENTRY
Imm32GetCompStrW(HIMC hIMC, const COMPOSITIONSTRING *pCS, DWORD dwIndex,
LPVOID lpBuf, DWORD dwBufLen, BOOL bAnsiClient, UINT uCodePage)
{
if (bAnsiClient)
{
switch (dwIndex)
{
case GCS_COMPREADSTR:
dwBufLen = Imm32CompStrAnsiToWide(CS_StrA(pCS, CompReadStr),
CS_SizeA(pCS, CompReadStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_COMPREADATTR:
dwBufLen = Imm32CompAttrAnsiToWide(CS_Attr(pCS, CompReadAttr),
CS_Size(pCS, CompReadAttr),
CS_StrA(pCS, CompReadStr),
CS_SizeA(pCS, CompReadStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_COMPREADCLAUSE:
dwBufLen = Imm32CompClauseAnsiToWide(CS_Clause(pCS, CompReadClause),
CS_Size(pCS, CompReadClause),
CS_StrA(pCS, CompReadStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_COMPSTR:
dwBufLen = Imm32CompStrAnsiToWide(CS_StrA(pCS, CompStr),
CS_SizeA(pCS, CompStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_COMPATTR:
dwBufLen = Imm32CompAttrAnsiToWide(CS_Attr(pCS, CompAttr),
CS_Size(pCS, CompAttr),
CS_StrA(pCS, CompStr), CS_SizeA(pCS, CompStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_COMPCLAUSE:
dwBufLen = Imm32CompClauseAnsiToWide(CS_Clause(pCS, CompClause),
CS_Size(pCS, CompClause),
CS_StrA(pCS, CompStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_CURSORPOS:
dwBufLen = IchWideFromAnsi(pCS->dwCursorPos, CS_StrA(pCS, CompStr), uCodePage);
break;
case GCS_DELTASTART:
dwBufLen = IchWideFromAnsi(pCS->dwDeltaStart, CS_StrA(pCS, CompStr), uCodePage);
break;
case GCS_RESULTREADSTR:
dwBufLen = Imm32CompStrAnsiToWide(CS_StrA(pCS, ResultReadStr),
CS_SizeA(pCS, ResultReadStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_RESULTREADCLAUSE:
dwBufLen = Imm32CompClauseAnsiToWide(CS_Clause(pCS, ResultReadClause),
CS_Size(pCS, ResultReadClause),
CS_StrA(pCS, ResultReadStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_RESULTSTR:
dwBufLen = Imm32CompStrAnsiToWide(CS_StrA(pCS, ResultStr),
CS_SizeA(pCS, ResultStr),
lpBuf, dwBufLen, uCodePage);
break;
case GCS_RESULTCLAUSE:
dwBufLen = Imm32CompClauseAnsiToWide(CS_Clause(pCS, ResultClause),
CS_Size(pCS, ResultClause),
CS_StrA(pCS, ResultStr),
lpBuf, dwBufLen, uCodePage);
break;
default:
FIXME("0x%X\n", dwIndex);
return IMM_ERROR_GENERAL;
}
}
else /* !bAnsiClient */
{
switch (dwIndex)
{
case GCS_COMPREADSTR:
CS_DoStrW(pCS, CompReadStr);
break;
case GCS_COMPREADATTR:
CS_DoAttr(pCS, CompReadAttr);
break;
case GCS_COMPREADCLAUSE:
CS_DoClause(pCS, CompReadClause);
break;
case GCS_COMPSTR:
CS_DoStrW(pCS, CompStr);
break;
case GCS_COMPATTR:
CS_DoAttr(pCS, CompAttr);
break;
case GCS_COMPCLAUSE:
CS_DoClause(pCS, CompClause);
break;
case GCS_CURSORPOS:
dwBufLen = pCS->dwCursorPos;
break;
case GCS_DELTASTART:
dwBufLen = pCS->dwDeltaStart;
break;
case GCS_RESULTREADSTR:
CS_DoStrW(pCS, ResultReadStr);
break;
case GCS_RESULTREADCLAUSE:
CS_DoClause(pCS, ResultReadClause);
break;
case GCS_RESULTSTR:
CS_DoStrW(pCS, ResultStr);
break;
case GCS_RESULTCLAUSE:
CS_DoClause(pCS, ResultClause);
break;
default:
FIXME("0x%X\n", dwIndex);
return IMM_ERROR_GENERAL;
}
}
return dwBufLen;
}
// Win: ImmSetCompositionStringWorker
BOOL APIENTRY
ImmSetCompositionStringAW(HIMC hIMC, DWORD dwIndex, LPVOID pComp, DWORD dwCompLen,
LPVOID pRead, DWORD dwReadLen, BOOL bAnsiAPI)
{
BOOL ret = FALSE, bAnsiClient;
LPVOID pCompNew = NULL, pReadNew = NULL;
DWORD dwThreadId, cbCompNew = 0, cbReadNew = 0;
LPINPUTCONTEXT pIC;
LPCOMPOSITIONSTRING pCS;
HKL hKL;
PIMEDPI pImeDpi;
UINT uCodePage;
LPRECONVERTSTRING pRS;
dwThreadId = (DWORD)NtUserQueryInputContext(hIMC, QIC_INPUTTHREADID);
if (dwThreadId != GetCurrentThreadId())
{
ERR("Thread mismatch\n");
return FALSE;
}
hKL = GetKeyboardLayout(dwThreadId);
pImeDpi = ImmLockImeDpi(hKL);
if (IS_NULL_UNEXPECTEDLY(pImeDpi))
return FALSE;
uCodePage = pImeDpi->uCodePage;
bAnsiClient = !ImeDpi_IsUnicode(pImeDpi);
switch (dwIndex)
{
case SCS_SETSTR: case SCS_CHANGEATTR: case SCS_CHANGECLAUSE:
break;
case SCS_SETRECONVERTSTRING: case SCS_QUERYRECONVERTSTRING:
if (pImeDpi->ImeInfo.fdwSCSCaps & SCS_CAP_SETRECONVERTSTRING)
break;
/* FALL THROUGH */
default:
ERR("0x%X\n", dwIndex);
ImmUnlockImeDpi(pImeDpi);
return FALSE;
}
if (bAnsiAPI == bAnsiClient || (!pComp && !pRead)) /* No conversion needed */
{
ret = pImeDpi->ImeSetCompositionString(hIMC, dwIndex, pComp, dwCompLen,
pRead, dwReadLen);
ImmUnlockImeDpi(pImeDpi);
return ret;
}
if (!Imm32OpenICAndCS(hIMC, &pIC, &pCS))
{
ImmUnlockImeDpi(pImeDpi);
return FALSE;
}
/*
* This code is really too complicated. But I cannot simplify.
* It converts like (pComp, dwCompLen) --> (pCompNew, cbCompNew) and
* (pRead, dwReadLen) --> (pReadNew, cbReadNew).
* (1) Check bAnsiClient, (2) Get the size, (3) Allocate a buffer for conversion,
* (4) Store converted data into the buffer.
*/
switch (dwIndex)
{
case SCS_SETSTR:
if (pComp)
{
if (bAnsiClient)
{
cbCompNew = Imm32CompStrWideToAnsi(pComp, dwCompLen, NULL, 0, uCodePage);
pCompNew = ImmLocalAlloc(0, cbCompNew);
if (IS_NULL_UNEXPECTEDLY(pCompNew))
goto Quit;
Imm32CompStrWideToAnsi(pComp, dwCompLen, pCompNew, cbCompNew, uCodePage);
}
else
{
cbCompNew = Imm32CompStrAnsiToWide(pComp, dwCompLen, NULL, 0, uCodePage);
pCompNew = ImmLocalAlloc(0, cbCompNew);
if (IS_NULL_UNEXPECTEDLY(pCompNew))
goto Quit;
Imm32CompStrAnsiToWide(pComp, dwCompLen, pCompNew, cbCompNew, uCodePage);
}
}
if (pRead)
{
if (bAnsiClient)
{
cbReadNew = Imm32CompStrWideToAnsi(pRead, dwReadLen, NULL, 0, uCodePage);
pReadNew = ImmLocalAlloc(0, cbReadNew);
if (IS_NULL_UNEXPECTEDLY(pReadNew))
goto Quit;
Imm32CompStrWideToAnsi(pRead, dwReadLen, pReadNew, cbReadNew, uCodePage);
}
else
{
cbReadNew = Imm32CompStrAnsiToWide(pRead, dwReadLen, NULL, 0, uCodePage);
pReadNew = ImmLocalAlloc(0, cbReadNew);
if (IS_NULL_UNEXPECTEDLY(pReadNew))
goto Quit;
Imm32CompStrAnsiToWide(pRead, dwReadLen, pReadNew, cbReadNew, uCodePage);
}
}
break;
case SCS_CHANGEATTR:
if (pComp)
{
if (bAnsiClient)
{
cbCompNew = Imm32CompAttrWideToAnsi(pComp, dwCompLen,
CS_StrW(pCS, CompStr),
CS_SizeW(pCS, CompStr),
NULL, 0, uCodePage);
pCompNew = ImmLocalAlloc(0, cbCompNew);
if (IS_NULL_UNEXPECTEDLY(pCompNew))
goto Quit;
Imm32CompAttrWideToAnsi(pComp, dwCompLen,
CS_StrW(pCS, CompStr), CS_SizeW(pCS, CompStr),
pCompNew, cbCompNew, uCodePage);
}
else
{
cbCompNew = Imm32CompAttrAnsiToWide(pComp, dwCompLen,
CS_StrA(pCS, CompStr),
CS_SizeA(pCS, CompStr),
NULL, 0, uCodePage);
pCompNew = ImmLocalAlloc(0, cbCompNew);
if (IS_NULL_UNEXPECTEDLY(pCompNew))
goto Quit;
Imm32CompAttrAnsiToWide(pComp, dwCompLen,
CS_StrA(pCS, CompStr), CS_SizeA(pCS, CompStr),
pCompNew, cbCompNew, uCodePage);
}
}
if (pRead)
{
if (bAnsiClient)
{
cbReadNew = Imm32CompAttrWideToAnsi(pRead, dwReadLen,
CS_StrW(pCS, CompReadStr),
CS_SizeW(pCS, CompReadStr),
NULL, 0, uCodePage);
pReadNew = ImmLocalAlloc(0, cbReadNew);
if (IS_NULL_UNEXPECTEDLY(pReadNew))
goto Quit;
Imm32CompAttrWideToAnsi(pRead, dwReadLen,
CS_StrW(pCS, CompReadStr), CS_SizeW(pCS, CompReadStr),
pReadNew, cbReadNew, uCodePage);
}
else
{
cbReadNew = Imm32CompAttrAnsiToWide(pRead, dwReadLen,
CS_StrA(pCS, CompReadStr),
CS_SizeA(pCS, CompReadStr),
NULL, 0, uCodePage);
pReadNew = ImmLocalAlloc(0, cbReadNew);
if (IS_NULL_UNEXPECTEDLY(pReadNew))
goto Quit;
Imm32CompAttrAnsiToWide(pRead, dwReadLen,
CS_StrA(pCS, CompReadStr), CS_SizeA(pCS, CompReadStr),
pReadNew, cbReadNew, uCodePage);
}
}
break;
case SCS_CHANGECLAUSE:
if (pComp)
{
if (bAnsiClient)
{
cbCompNew = Imm32CompClauseWideToAnsi(pComp, dwCompLen, CS_StrW(pCS, CompStr),
NULL, 0, uCodePage);
pCompNew = ImmLocalAlloc(0, cbCompNew);
if (IS_NULL_UNEXPECTEDLY(pCompNew))
goto Quit;
Imm32CompClauseWideToAnsi(pComp, dwCompLen, CS_StrW(pCS, CompStr),
pCompNew, cbCompNew, uCodePage);
}
else
{
cbCompNew = Imm32CompClauseAnsiToWide(pComp, dwCompLen, CS_StrA(pCS, CompStr),
NULL, 0, uCodePage);
pCompNew = ImmLocalAlloc(0, cbCompNew);
if (IS_NULL_UNEXPECTEDLY(pCompNew))
goto Quit;
Imm32CompClauseAnsiToWide(pComp, dwCompLen, CS_StrA(pCS, CompStr),
pCompNew, cbCompNew, uCodePage);
}
}
if (pRead)
{
if (bAnsiClient)
{
cbReadNew = Imm32CompClauseWideToAnsi(pRead, dwReadLen, CS_StrW(pCS, CompReadStr),
NULL, 0, uCodePage);
pReadNew = ImmLocalAlloc(0, cbReadNew);
if (IS_NULL_UNEXPECTEDLY(pReadNew))
goto Quit;
Imm32CompClauseWideToAnsi(pRead, dwReadLen,
CS_StrW(pCS, CompReadStr),
pReadNew, cbReadNew, uCodePage);
}
else
{
cbReadNew = Imm32CompClauseAnsiToWide(pRead, dwReadLen, CS_StrA(pCS, CompReadStr),
NULL, 0, uCodePage);
pReadNew = ImmLocalAlloc(0, cbReadNew);
if (IS_NULL_UNEXPECTEDLY(pReadNew))
goto Quit;
Imm32CompClauseAnsiToWide(pRead, dwReadLen, CS_StrA(pCS, CompReadStr),
pReadNew, cbReadNew, uCodePage);
}
}
break;
case SCS_SETRECONVERTSTRING: case SCS_QUERYRECONVERTSTRING:
{
if (pComp)
{
if (bAnsiClient)
{
cbCompNew = Imm32ReconvertAnsiFromWide(NULL, pComp, uCodePage);
pCompNew = ImmLocalAlloc(0, cbCompNew);
if (IS_NULL_UNEXPECTEDLY(pCompNew))
goto Quit;
pRS = pCompNew;
pRS->dwSize = cbCompNew;
pRS->dwVersion = 0;
Imm32ReconvertAnsiFromWide(pRS, pComp, uCodePage);
}
else
{
cbCompNew = Imm32ReconvertWideFromAnsi(NULL, pComp, uCodePage);
pCompNew = ImmLocalAlloc(0, cbCompNew);
if (IS_NULL_UNEXPECTEDLY(pCompNew))
goto Quit;
pRS = pCompNew;
pRS->dwSize = cbCompNew;
pRS->dwVersion = 0;
Imm32ReconvertWideFromAnsi(pRS, pComp, uCodePage);
}
}
if (pRead)
{
if (bAnsiClient)
{
cbReadNew = Imm32ReconvertAnsiFromWide(NULL, pRead, uCodePage);
pReadNew = ImmLocalAlloc(0, cbReadNew);
if (IS_NULL_UNEXPECTEDLY(pReadNew))
goto Quit;
pRS = pReadNew;
pRS->dwSize = cbReadNew;
pRS->dwVersion = 0;
Imm32ReconvertAnsiFromWide(pRS, pRead, uCodePage);
}
else
{
cbReadNew = Imm32ReconvertWideFromAnsi(NULL, pRead, uCodePage);
pReadNew = ImmLocalAlloc(0, cbReadNew);
if (IS_NULL_UNEXPECTEDLY(pReadNew))
goto Quit;
pRS = pReadNew;
pRS->dwSize = cbReadNew;
pRS->dwVersion = 0;
Imm32ReconvertWideFromAnsi(pRS, pRead, uCodePage);
}
}
break;
}
}
ImmUnlockIMCC(pIC->hCompStr);
pCS = NULL;
ImmUnlockIMC(hIMC);
pIC = NULL;
ret = pImeDpi->ImeSetCompositionString(hIMC, dwIndex, pCompNew, cbCompNew,
pReadNew, cbReadNew);
if (dwIndex == SCS_QUERYRECONVERTSTRING)
{
if (pComp)
{
if (bAnsiClient)
ret = Imm32ReconvertWideFromAnsi(pComp, pCompNew, uCodePage);
else
ret = Imm32ReconvertAnsiFromWide(pComp, pCompNew, uCodePage);
}
if (pRead)
{
if (bAnsiClient)
ret = Imm32ReconvertWideFromAnsi(pRead, pReadNew, uCodePage);
else
ret = Imm32ReconvertAnsiFromWide(pRead, pReadNew, uCodePage);
}
}
Quit:
if (pCS)
ImmUnlockIMCC(pIC->hCompStr);
if (pIC)
ImmUnlockIMC(hIMC);
ImmLocalFree(pCompNew);
ImmLocalFree(pReadNew);
ImmUnlockImeDpi(pImeDpi);
TRACE("ret: %d\n", ret);
return ret;
}
/***********************************************************************
* ImmGetCompositionStringA (IMM32.@)
*/
LONG WINAPI ImmGetCompositionStringA(HIMC hIMC, DWORD dwIndex, LPVOID lpBuf, DWORD dwBufLen)
{
LONG ret = 0;
LPINPUTCONTEXT pIC;
PCLIENTIMC pClientImc;
LPCOMPOSITIONSTRING pCS;
BOOL bAnsiClient;
UINT uCodePage;
TRACE("(%p, %lu, %p, %lu)\n", hIMC, dwIndex, lpBuf, dwBufLen);
if (dwBufLen && IS_NULL_UNEXPECTEDLY(lpBuf))
return 0;
pClientImc = ImmLockClientImc(hIMC);
if (IS_NULL_UNEXPECTEDLY(pClientImc))
return 0;
bAnsiClient = !(pClientImc->dwFlags & CLIENTIMC_WIDE);
uCodePage = pClientImc->uCodePage;
ImmUnlockClientImc(pClientImc);
pIC = ImmLockIMC(hIMC);
if (IS_NULL_UNEXPECTEDLY(pIC))
return 0;
pCS = ImmLockIMCC(pIC->hCompStr);
if (IS_NULL_UNEXPECTEDLY(pCS))
{
ImmUnlockIMC(hIMC);
return 0;
}
ret = Imm32GetCompStrA(hIMC, pCS, dwIndex, lpBuf, dwBufLen, bAnsiClient, uCodePage);
ImmUnlockIMCC(pIC->hCompStr);
ImmUnlockIMC(hIMC);
TRACE("ret: %ld\n", ret);
return ret;
}
/***********************************************************************
* ImmGetCompositionStringW (IMM32.@)
*/
LONG WINAPI ImmGetCompositionStringW(HIMC hIMC, DWORD dwIndex, LPVOID lpBuf, DWORD dwBufLen)
{
LONG ret = 0;
LPINPUTCONTEXT pIC;
PCLIENTIMC pClientImc;
LPCOMPOSITIONSTRING pCS;
BOOL bAnsiClient;
UINT uCodePage;
TRACE("(%p, %lu, %p, %lu)\n", hIMC, dwIndex, lpBuf, dwBufLen);
if (dwBufLen && IS_NULL_UNEXPECTEDLY(lpBuf))
return 0;
pClientImc = ImmLockClientImc(hIMC);
if (IS_NULL_UNEXPECTEDLY(pClientImc))
return 0;
bAnsiClient = !(pClientImc->dwFlags & CLIENTIMC_WIDE);
uCodePage = pClientImc->uCodePage;
ImmUnlockClientImc(pClientImc);
pIC = ImmLockIMC(hIMC);
if (IS_NULL_UNEXPECTEDLY(pIC))
return 0;
pCS = ImmLockIMCC(pIC->hCompStr);
if (IS_NULL_UNEXPECTEDLY(pCS))
{
ImmUnlockIMC(hIMC);
return 0;
}
ret = Imm32GetCompStrW(hIMC, pCS, dwIndex, lpBuf, dwBufLen, bAnsiClient, uCodePage);
ImmUnlockIMCC(pIC->hCompStr);
ImmUnlockIMC(hIMC);
TRACE("ret: %ld\n", ret);
return ret;
}
/***********************************************************************
* ImmSetCompositionStringA (IMM32.@)
*/
BOOL WINAPI
ImmSetCompositionStringA(HIMC hIMC, DWORD dwIndex, LPVOID lpComp, DWORD dwCompLen,
LPVOID lpRead, DWORD dwReadLen)
{
TRACE("(%p, %lu, %p, %lu, %p, %lu)\n",
hIMC, dwIndex, lpComp, dwCompLen, lpRead, dwReadLen);
return ImmSetCompositionStringAW(hIMC, dwIndex, lpComp, dwCompLen, lpRead, dwReadLen, TRUE);
}
/***********************************************************************
* ImmSetCompositionStringW (IMM32.@)
*/
BOOL WINAPI
ImmSetCompositionStringW(HIMC hIMC, DWORD dwIndex, LPVOID lpComp, DWORD dwCompLen,
LPVOID lpRead, DWORD dwReadLen)
{
TRACE("(%p, %lu, %p, %lu, %p, %lu)\n",
hIMC, dwIndex, lpComp, dwCompLen, lpRead, dwReadLen);
return ImmSetCompositionStringAW(hIMC, dwIndex, lpComp, dwCompLen, lpRead, dwReadLen, FALSE);
}
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