Microsoft/Windows2003-3790
Microsoft/Windows2003-3790
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity
master
Windows2003-3790/termsrv/common/uniwrap/uniwrap.cpp
Microsoft 50969b0ea2 First commit
2020-09-30 16:53:55 +02:00

7040 lines
194 KiB
C++
Raw Permalink Blame History

//
// uniwrap.cpp
//
// Unicode wrappers
//
// Copyright(C) Microsoft Corporation 2000
//
// Heavily based on code from shell\shlwapi\unicwrap.*
// Modifications/additions - Nadim Abdo (nadima)
//
#include "stdafx.h"
#include "uniwrap.h"
#include "cstrinout.h"
//Just include wrap function prototypes
//no wrappers (it would be silly to wrap wrappers)
#define DONOT_REPLACE_WITH_WRAPPERS
#include "uwrap.h"
#ifdef InRange
#undef InRange
#endif
#define InRange(id, idFirst, idLast) ((UINT)(id-idFirst) <= (UINT)(idLast-idFirst))
//
// Do this in every wrapper function to make sure the wrapper
// prototype matches the function it is intending to replace.
//
#define VALIDATE_PROTOTYPE(f) if (f##W == f##WrapW) 0
#define VALIDATE_PROTOTYPE_DELAYLOAD(fWrap, fDelay) if (fDelay##W == fWrap##WrapW) 0
#define VALIDATE_OUTBUF(s, cch)
#define UseUnicodeShell32() ( g_bRunningOnNT )
// compiler should do this opt for us (call-thunk => jmp), but it doesn't
// so we do it ourselves (i raided it and they're adding it to vc6.x so
// hopefully we'll get it someday)
#if _X86_
#define PERF_ASM 1 // turn on inline-asm opts
#endif
// todo??? #ifdef SUNDOWN #undef PERF_ASM
#if PERF_ASM // {
// BUGBUG workaround compiler bug
// compiler should know this, but doesn't, so we make it explicit
#define IMPORT_PTR dword ptr // BUGBUG sundown
//*** FORWARD_AW, THUNK_AW -- simple forwarders and thunks
// ENTRY/EXIT
// - declare function w/ FORWARD_API
// - if you're using THUNK_AW, create the 'A' thunk helper
// - make the body FORWARD_AW or THUNK_AW.
// - make sure there's *no* other code in the func. o.w. you'll get bogus
// code.
// EXAMPLE
// int FORWARD_API WINAPI FooWrapW(int i, void *p)
// {
// VALIDATE_PROTOTYPE(Foo);
//
// FORWARD_AW(Foo, (i, p));
// }
//
// int WINAPI BarAThunk(HWND hwnd, WPARAM wParam)
// {
// ... ansi thunk helper ...
// }
//
// int FORWARD_API WINAPI BarWrapW(HWND hwnd, WPARAM wParam)
// {
// VALIDATE_PROTOTYPE(Bar);
//
// THUNK_AW(Bar, (hwnd, wParam));
// }
// NOTES
// - WARNING: can only be used for 'simple' thunks (NAKED => no non-global
// vars, etc.).
// - WARNING: calling func must be declared FORWARD_API. if not you'll
// get bogus code. happily if you forget you get the (obscure) error
// message "error C4035: 'FooW': no return value"
// - note that the macro ends up w/ an extra ";" from the caller, oh well...
// - TODO: perf: better still would be to have a g_pfnCallWndProc, init
// it 1x, and then jmp indirect w/o the test. it would cost us a ptr but
// we only do it for the top-2 funcs (CallWindowProc and SendMessage)
#define FORWARD_API _declspec(naked)
#define FORWARD_AW(_fn, _args) \
if (g_bRunningOnNT) { \
_asm { jmp IMPORT_PTR _fn##W } \
} \
_asm { jmp IMPORT_PTR _fn##A }
#define THUNK_AW(_fn, _args) \
if (g_bRunningOnNT) { \
_asm { jmp IMPORT_PTR _fn##W } \
} \
_asm { jmp _fn##AThunk } // n.b. no IMPORT_PTR
#else // }{
#define FORWARD_API /*NOTHING*/
#define FORWARD_AW(_fn, _args) \
if (g_bRunningOnNT) { \
return _fn##W _args; \
} \
return _fn##A _args;
#define THUNK_AW(_fn, _args) \
if (g_bRunningOnNT) { \
return _fn##W _args; \
} \
return _fn##AThunk _args;
#endif // }
//
// Windows 95 and NT5 do not have the hbmpItem field in their MENUITEMINFO
// structure.
//
#if (WINVER >= 0x0500)
#define MENUITEMINFOSIZE_WIN95 FIELD_OFFSET(MENUITEMINFOW, hbmpItem)
#else
#define MENUITEMINFOSIZE_WIN95 sizeof(MENUITEMINFOW)
#endif
//
// Some W functions are implemented on Win95, so complain if anybody
// writes thunks for them.
//
// Though Win95's implementation of TextOutW is incomplete for FE languages.
// Remove this section when we implement FE-aware TextOutW for Win95.
//
#if defined(TextOutWrap)
#error Do not write thunks for TextOutW; Win95 supports it.
#endif
#define SEE_MASK_FILEANDURL 0x00400000 // defined in private\inc\shlapip.h !
#define MFT_NONSTRING 0x00000904 // defined in private\inc\winuserp.h !
#ifdef FUS9xWRAPAPI
#undef FUS9xWRAPAPI
#endif
#define FUS9xWRAPAPI(type) STDAPI_(type)
#include "strtype.cpp"
//+------------------------------------------------------------------------
//
// Implementation of the wrapped functions
// This part courtesy of shlwapi's unicwrap.c
//
//-------------------------------------------------------------------------
#define NEED_COMDLG32_WRAPPER
#define NEED_USER32_WRAPPER
#define NEED_KERNEL32_WRAPPER
#define NEED_ADVAPI32_WRAPPER
#define NEED_GDI32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
AppendMenuWrapW(
HMENU hMenu,
UINT uFlags,
UINT_PTR uIDnewItem,
LPCWSTR lpnewItem)
{
VALIDATE_PROTOTYPE(AppendMenu);
// Make the InsertMenu wrapper do all the work
return InsertMenuWrapW(hMenu, (UINT)-1,
uFlags | MF_BYPOSITION, uIDnewItem, lpnewItem);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
LRESULT FORWARD_API WINAPI
CallWindowProcWrapW(
WNDPROC lpPrevWndFunc,
HWND hWnd,
UINT Msg,
WPARAM wParam,
LPARAM lParam)
{
VALIDATE_PROTOTYPE(CallWindowProc);
// perf: better still would be to have a g_pfnCallWndProc, init it 1x,
// and then jmp indirect w/o the test. it would cost us a ptr but we
// only do it for the top-2 funcs (CallWindowProc and SendMessage)
FORWARD_AW(CallWindowProc, (lpPrevWndFunc, hWnd, Msg, wParam, lParam));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
STDAPI_(BOOL FORWARD_API) CallMsgFilterWrapW(LPMSG lpMsg, int nCode)
{
VALIDATE_PROTOTYPE(CallMsgFilter);
FORWARD_AW(CallMsgFilter, (lpMsg, nCode));
}
#endif // NEED_USER32_WRAPPER
//----------------------------------------------------------------------
//
// function: CharLowerWrapW( LPWSTR pch )
//
// purpose: Converts character to lowercase. Takes either a pointer
// to a string, or a character masquerading as a pointer.
// In the later case, the HIWORD must be zero. This is
// as spec'd for Win32.
//
// returns: Lowercased character or string. In the string case,
// the lowercasing is done inplace.
//
//----------------------------------------------------------------------
#ifdef NEED_USER32_WRAPPER
LPWSTR WINAPI
CharLowerWrapW( LPWSTR pch )
{
VALIDATE_PROTOTYPE(CharLower);
if (g_bRunningOnNT)
{
return CharLowerW( pch );
}
if (!HIWORD64(pch))
{
WCHAR ch = (WCHAR)(LONG_PTR)pch;
CharLowerBuffWrapW( &ch, 1 );
pch = (LPWSTR)MAKEINTATOM(ch);
}
else
{
CharLowerBuffWrapW( pch, lstrlenW(pch) );
}
return pch;
}
#endif // NEED_USER32_WRAPPER
//----------------------------------------------------------------------
//
// function: CharLowerBuffWrapW( LPWSTR pch, DWORD cch )
//
// purpose: Converts a string to lowercase. String must be cch
// characters in length.
//
// returns: Character count (cch). The lowercasing is done inplace.
//
//----------------------------------------------------------------------
#ifdef NEED_USER32_WRAPPER
DWORD WINAPI
CharLowerBuffWrapW( LPWSTR pch, DWORD cchLength )
{
VALIDATE_PROTOTYPE(CharLowerBuff);
if (g_bRunningOnNT)
{
return CharLowerBuffW( pch, cchLength );
}
DWORD cch;
for ( cch = cchLength; cch-- ; pch++ )
{
WCHAR ch = *pch;
if (IsCharUpperWrapW(ch))
{
if (ch < 0x0100)
{
*pch += 32; // Get Latin-1 out of the way first
}
else if (ch < 0x0531)
{
if (ch < 0x0391)
{
if (ch < 0x01cd)
{
if (ch <= 0x178)
{
if (ch < 0x0178)
{
*pch += (ch == 0x0130) ? 0 : 1;
}
else
{
*pch -= 121;
}
}
else
{
static const BYTE abLookup[] =
{ // 0/8 1/9 2/a 3/b 4/c 5/d 6/e 7/f
/* 0x0179-0x17f */1, 0, 1, 0, 1, 0, 0,
/* 0x0180-0x187 */ 0, 210, 1, 0, 1, 0, 206, 1,
/* 0x0188-0x18f */ 0, 205, 205, 1, 0, 0, 79, 202,
/* 0x0190-0x197 */ 203, 1, 0, 205, 207, 0, 211, 209,
/* 0x0198-0x19f */ 1, 0, 0, 0, 211, 213, 0, 214,
/* 0x01a0-0x1a7 */ 1, 0, 1, 0, 1, 0, 0, 1,
/* 0x01a8-0x1af */ 0, 218, 0, 0, 1, 0, 218, 1,
/* 0x01b0-0x1b7 */ 0, 217, 217, 1, 0, 1, 0, 219,
/* 0x01b8-0x1bf */ 1, 0, 0, 0, 1, 0, 0, 0,
/* 0x01c0-0x1c7 */ 0, 0, 0, 0, 2, 0, 0, 2,
/* 0x01c8-0x1cb */ 0, 0, 2, 0
};
*pch += abLookup[ch-0x0179];
}
}
else if (ch < 0x0386)
{
switch (ch)
{
case 0x01f1: *pch += 2; break;
case 0x01f2: break;
default: *pch += 1;
}
}
else
{
static const BYTE abLookup[] =
{ 38, 0, 37, 37, 37, 0, 64, 0, 63, 63};
*pch += abLookup[ch-0x0386];
}
}
else
{
if (ch < 0x0410)
{
if (ch < 0x0401)
{
if (ch < 0x03e2)
{
if (!InRange(ch, 0x03d2, 0x03d4) &&
!(InRange(ch, 0x3da, 0x03e0) & !(ch & 1)))
{
*pch += 32;
}
}
else
{
*pch += 1;
}
}
else
{
*pch += 80;
}
}
else
{
if (ch < 0x0460)
{
*pch += 32;
}
else
{
*pch += 1;
}
}
}
}
else
{
if (ch < 0x2160)
{
if (ch < 0x1fba)
{
if (ch < 0x1f08)
{
if (ch < 0x1e00)
{
*pch += 48;
}
else
{
*pch += 1;
}
}
else if (!(InRange(ch, 0x1f88, 0x1faf) && (ch & 15)>7))
{
*pch -= 8;
}
}
else
{
static const BYTE abLookup[] =
{ // 8 9 a b c d e f
0, 0, 74, 74, 0, 0, 0, 0,
86, 86, 86, 86, 0, 0, 0, 0,
8, 8, 100, 100, 0, 0, 0, 0,
8, 8, 112, 112, 7, 0, 0, 0,
128, 128, 126, 126, 0, 0, 0, 0
};
int i = (ch-0x1fb0);
*pch -= (int)abLookup[((i>>1) & ~7) | (i & 7)];
}
}
else
{
if (ch < 0xff21)
{
if (ch < 0x24b6)
{
*pch += 16;
}
else
{
*pch += 26;
}
}
else
{
*pch += 32;
}
}
}
}
else
{
// These are Unicode Number Forms. They have lowercase counter-
// parts, but are not considered uppercase. Why, I don't know.
if (InRange(ch, 0x2160, 0x216f))
{
*pch += 16;
}
}
}
return cchLength;
}
#endif // NEED_USER32_WRAPPER
//
// BUGBUG - Do CharNextWrap and CharPrevWrap need to call the
// CharNextW, CharPrevW on WinNT? Couldn't these be MACROS?
//
LPWSTR WINAPI
CharNextWrapW(LPCWSTR lpszCurrent)
{
VALIDATE_PROTOTYPE(CharNext);
if (*lpszCurrent)
{
return(LPWSTR) lpszCurrent + 1;
}
else
{
return(LPWSTR) lpszCurrent;
}
}
LPWSTR WINAPI
CharPrevWrapW(LPCWSTR lpszStart, LPCWSTR lpszCurrent)
{
VALIDATE_PROTOTYPE(CharPrev);
if (lpszCurrent == lpszStart)
{
return(LPWSTR) lpszStart;
}
else
{
return(LPWSTR) lpszCurrent - 1;
}
}
//----------------------------------------------------------------------
//
// function: CharUpperWrapW( LPWSTR pch )
//
// purpose: Converts character to uppercase. Takes either a pointer
// to a string, or a character masquerading as a pointer.
// In the later case, the HIWORD must be zero. This is
// as spec'd for Win32.
//
// returns: Uppercased character or string. In the string case,
// the uppercasing is done inplace.
//
//----------------------------------------------------------------------
#ifdef NEED_USER32_WRAPPER
LPWSTR WINAPI
CharUpperWrapW( LPWSTR pch )
{
VALIDATE_PROTOTYPE(CharUpper);
if (g_bRunningOnNT)
{
return CharUpperW( pch );
}
if (!HIWORD64(pch))
{
WCHAR ch = (WCHAR)(LONG_PTR)pch;
CharUpperBuffWrapW( &ch, 1 );
pch = (LPWSTR)MAKEINTATOM(ch);
}
else
{
CharUpperBuffWrapW( pch, lstrlenW(pch) );
}
return pch;
}
#endif // NEED_USER32_WRAPPER
//----------------------------------------------------------------------
//
// function: CharUpperBuffWrapW( LPWSTR pch, DWORD cch )
//
// purpose: Converts a string to uppercase. String must be cch
// characters in length. Note that this function is
// is messier that CharLowerBuffWrap, and the reason for
// this is many Unicode characters are considered uppercase,
// even when they don't have an uppercase counterpart.
//
// returns: Character count (cch). The uppercasing is done inplace.
//
//----------------------------------------------------------------------
#ifdef NEED_USER32_WRAPPER
DWORD WINAPI
CharUpperBuffWrapW( LPWSTR pch, DWORD cchLength )
{
VALIDATE_PROTOTYPE(CharUpperBuff);
if (g_bRunningOnNT)
{
return CharUpperBuffW( pch, cchLength );
}
DWORD cch;
for ( cch = cchLength; cch-- ; pch++ )
{
WCHAR ch = *pch;
if (IsCharLowerWrapW(ch))
{
if (ch < 0x00ff)
{
*pch -= ((ch != 0xdf) << 5);
}
else if (ch < 0x03b1)
{
if (ch < 0x01f5)
{
if (ch < 0x01ce)
{
if (ch < 0x017f)
{
if (ch < 0x0101)
{
*pch += 121;
}
else
{
*pch -= (ch != 0x0131 &&
ch != 0x0138 &&
ch != 0x0149);
}
}
else if (ch < 0x01c9)
{
static const BYTE abMask[] =
{ // 6543210f edcba987
0xfc, 0xbf, // 11111100 10111111
0xbf, 0x67, // 10111111 01100111
0xff, 0xef, // 11111111 11101111
0xff, 0xf7, // 11111111 11110111
0xbf, 0xfd // 10111111 11111101
};
int i = ch - 0x017f;
*pch -= ((abMask[i>>3] >> (i&7)) & 1) +
(ch == 0x01c6);
}
else
{
*pch -= ((ch != 0x01cb)<<1);
}
}
else
{
if (ch < 0x01df)
{
if (ch < 0x01dd)
{
*pch -= 1;
}
else
{
*pch -= 79;
}
}
else
{
*pch -= 1 + (ch == 0x01f3) -
InRange(ch,0x01f0,0x01f2);
}
}
}
else if (ch < 0x0253)
{
*pch -= (ch < 0x0250);
}
else if (ch < 0x03ac)
{
static const BYTE abLookup[] =
{ // 0/8 1/9 2/a 3/b 4/c 5/d 6/e 7/f
/* 0x0253-0x0257 */210, 206, 0, 205, 205,
/* 0x0258-0x025f */ 0, 202, 0, 203, 0, 0, 0, 0,
/* 0x0260-0x0267 */ 205, 0, 0, 207, 0, 0, 0, 0,
/* 0x0268-0x026f */ 209, 211, 0, 0, 0, 0, 0, 211,
/* 0x0270-0x0277 */ 0, 0, 213, 0, 0, 214, 0, 0,
/* 0x0278-0x027f */ 0, 0, 0, 0, 0, 0, 0, 0,
/* 0x0280-0x0287 */ 0, 0, 0, 218, 0, 0, 0, 0,
/* 0x0288-0x028f */ 218, 0, 217, 217, 0, 0, 0, 0,
/* 0x0290-0x0297 */ 0, 0, 219
};
if (ch <= 0x0292)
{
*pch -= abLookup[ch - 0x0253];
}
}
else
{
*pch -= (ch == 0x03b0) ? 0 : (37 + (ch == 0x03ac));
}
}
else
{
if (ch < 0x0561)
{
if (ch < 0x0451)
{
if (ch < 0x03e3)
{
if (ch < 0x03cc)
{
*pch -= 32 - (ch == 0x03c2);
}
else
{
int i = (ch < 0x03d0);
*pch -= (i<<6) - i + (ch == 0x03cc);
}
}
else if (ch < 0x0430)
{
*pch -= (ch < 0x03f0);
}
else
{
*pch -= 32;
}
}
else if (ch < 0x0461)
{
*pch -= 80;
}
else
{
*pch -= 1;
}
}
else
{
if (ch < 0x1fb0)
{
if (ch < 0x1f70)
{
if (ch < 0x1e01)
{
int i = ch != 0x0587 && ch < 0x10d0;
*pch -= ((i<<5)+(i<<4)); /* 48 */
}
else if (ch < 0x1f00)
{
*pch -= !InRange(ch, 0x1e96, 0x1e9a);
}
else
{
int i = !InRange(ch, 0x1f50, 0x1f56)||(ch & 1);
*pch += (i<<3);
}
}
else
{
static const BYTE abLookup[] =
{ 74, 86, 86, 100, 128, 112, 126};
if ( ch <= 0x1f7d )
{
*pch += abLookup[(ch-0x1f70)>>1];
}
}
}
else
{
if (ch < 0x24d0)
{
if (ch < 0x1fe5)
{
*pch += (0x0023 & (1<<(ch&15))) ? 8 : 0;
}
else if (ch < 0x2170)
{
*pch += (0x0023 & (1<<(ch&15))) ? 7 : 0;
}
else
{
*pch -= ((ch > 0x24b5)<<4);
}
}
else if (ch < 0xff41)
{
int i = !InRange(ch, 0xfb00, 0xfb17);
*pch -= (i<<4)+(i<<3)+(i<<1); /* 26 */
}
else
{
*pch -= 32;
}
}
}
}
}
else
{
int i = InRange(ch, 0x2170, 0x217f);
*pch -= (i<<4);
}
}
return cchLength;
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
int FORWARD_API WINAPI
CopyAcceleratorTableWrapW(
HACCEL hAccelSrc,
LPACCEL lpAccelDst,
int cAccelEntries)
{
VALIDATE_PROTOTYPE(CopyAcceleratorTable);
FORWARD_AW(CopyAcceleratorTable, (hAccelSrc, lpAccelDst, cAccelEntries));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HACCEL FORWARD_API WINAPI
CreateAcceleratorTableWrapW(LPACCEL lpAccel, int cEntries)
{
VALIDATE_PROTOTYPE(CreateAcceleratorTable);
FORWARD_AW(CreateAcceleratorTable, (lpAccel, cEntries));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
typedef HDC (*FnCreateHDCA)(LPCSTR, LPCSTR, LPCSTR, CONST DEVMODEA *);
HDC WINAPI
CreateHDCWrapW(
LPCWSTR lpszDriver,
LPCWSTR lpszDevice,
LPCWSTR lpszOutput,
CONST DEVMODEW * lpInitData,
FnCreateHDCA pfn)
{
DEVMODEA * pdevmode = NULL;
CStrIn strDriver(lpszDriver);
CStrIn strDevice(lpszDevice);
CStrIn strOutput(lpszOutput);
HDC hdcReturn = 0;
if (lpInitData)
{
pdevmode = (DEVMODEA *) LocalAlloc( LPTR, lpInitData->dmSize + lpInitData->dmDriverExtra );
if (pdevmode)
{
// LPBYTE->LPSTR casts below
SHUnicodeToAnsi(lpInitData->dmDeviceName, (LPSTR)pdevmode->dmDeviceName, ARRAYSIZE(pdevmode->dmDeviceName));
memcpy(&pdevmode->dmSpecVersion,
&lpInitData->dmSpecVersion,
FIELD_OFFSET(DEVMODEW,dmFormName) - FIELD_OFFSET(DEVMODEW,dmSpecVersion));
SHUnicodeToAnsi(lpInitData->dmFormName, (LPSTR)pdevmode->dmFormName, ARRAYSIZE(pdevmode->dmFormName));
memcpy(&pdevmode->dmLogPixels,
&lpInitData->dmLogPixels,
lpInitData->dmDriverExtra + lpInitData->dmSize - FIELD_OFFSET(DEVMODEW, dmLogPixels));
pdevmode->dmSize -= (sizeof(BCHAR) - sizeof(char)) * (CCHDEVICENAME + CCHFORMNAME);
}
}
hdcReturn = (*pfn)(strDriver, strDevice, strOutput, pdevmode);
if (pdevmode)
{
LocalFree(pdevmode);
}
return hdcReturn;
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
HDC WINAPI
CreateDCWrapW(
LPCWSTR lpszDriver,
LPCWSTR lpszDevice,
LPCWSTR lpszOutput,
CONST DEVMODEW * lpInitData)
{
VALIDATE_PROTOTYPE(CreateDC);
if (g_bRunningOnNT)
{
return CreateDCW(lpszDriver, lpszDevice, lpszOutput, lpInitData);
}
return CreateHDCWrapW(lpszDriver, lpszDevice, lpszOutput, lpInitData, CreateDCA);
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
HDC WINAPI
CreateICWrapW(
LPCWSTR lpszDriver,
LPCWSTR lpszDevice,
LPCWSTR lpszOutput,
CONST DEVMODEW * lpInitData)
{
VALIDATE_PROTOTYPE(CreateIC);
if (g_bRunningOnNT)
{
return CreateICW(lpszDriver, lpszDevice, lpszOutput, lpInitData);
}
return CreateHDCWrapW(lpszDriver, lpszDevice, lpszOutput, lpInitData, CreateICA);
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HWND WINAPI
CreateDialogIndirectParamWrapW(
HINSTANCE hInstance,
LPCDLGTEMPLATEW hDialogTemplate,
HWND hWndParent,
DLGPROC lpDialogFunc,
LPARAM dwInitParam)
{
VALIDATE_PROTOTYPE(CreateDialogIndirectParam);
if (g_bRunningOnNT)
{
return CreateDialogIndirectParamW(
hInstance,
hDialogTemplate,
hWndParent,
lpDialogFunc,
dwInitParam);
}
return CreateDialogIndirectParamA(
hInstance,
hDialogTemplate,
hWndParent,
lpDialogFunc,
dwInitParam);
}
HWND WINAPI
CreateDialogParamWrapW(
HINSTANCE hInstance,
LPCWSTR lpTemplateName,
HWND hWndParent,
DLGPROC lpDialogFunc,
LPARAM dwInitParam)
{
VALIDATE_PROTOTYPE(CreateDialogParam);
ASSERT(HIWORD64(lpTemplateName) == 0);
if (g_bRunningOnNT)
{
return CreateDialogParamW(hInstance, lpTemplateName, hWndParent, lpDialogFunc, dwInitParam);
}
return CreateDialogParamA(hInstance, (LPSTR) lpTemplateName, hWndParent, lpDialogFunc, dwInitParam);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI
CreateDirectoryWrapW(
LPCWSTR lpPathName,
LPSECURITY_ATTRIBUTES lpSecurityAttributes)
{
VALIDATE_PROTOTYPE(CreateDirectory);
if (g_bRunningOnNT)
{
return CreateDirectoryW(lpPathName, lpSecurityAttributes);
}
CStrIn str(lpPathName);
ASSERT(!lpSecurityAttributes);
return CreateDirectoryA(str, lpSecurityAttributes);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
HANDLE WINAPI
CreateEventWrapW(
LPSECURITY_ATTRIBUTES lpEventAttributes,
BOOL bManualReset,
BOOL bInitialState,
LPCWSTR lpName)
{
VALIDATE_PROTOTYPE(CreateEvent);
//Totally bogus assert.
//ASSERT(!lpName);
// cast means we can't use FORWARD_AW
if (g_bRunningOnNT)
{
return CreateEventW(lpEventAttributes, bManualReset, bInitialState, lpName);
}
return CreateEventA(lpEventAttributes, bManualReset, bInitialState, (LPCSTR)lpName);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
HANDLE WINAPI
CreateFileWrapW(
LPCWSTR lpFileName,
DWORD dwDesiredAccess,
DWORD dwShareMode,
LPSECURITY_ATTRIBUTES lpSecurityAttributes,
DWORD dwCreationDisposition,
DWORD dwFlagsAndAttributes,
HANDLE hTemplateFile)
{
VALIDATE_PROTOTYPE(CreateFile);
if (g_bRunningOnNT)
{
return CreateFileW(
lpFileName,
dwDesiredAccess,
dwShareMode,
lpSecurityAttributes,
dwCreationDisposition,
dwFlagsAndAttributes,
hTemplateFile);
}
CStrIn str(lpFileName);
return CreateFileA(
str,
dwDesiredAccess,
dwShareMode,
lpSecurityAttributes,
dwCreationDisposition,
dwFlagsAndAttributes,
hTemplateFile);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
HFONT WINAPI
CreateFontIndirectWrapW(CONST LOGFONTW * plfw)
{
VALIDATE_PROTOTYPE(CreateFontIndirect);
if (g_bRunningOnNT)
{
return CreateFontIndirectW(plfw);
}
LOGFONTA lfa;
HFONT hFont;
memcpy(&lfa, plfw, FIELD_OFFSET(LOGFONTA, lfFaceName));
SHUnicodeToAnsi(plfw->lfFaceName, lfa.lfFaceName, ARRAYSIZE(lfa.lfFaceName));
hFont = CreateFontIndirectA(&lfa);
return hFont;
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HWND WINAPI
CreateWindowExWrapW(
DWORD dwExStyle,
LPCWSTR lpClassName,
LPCWSTR lpWindowName,
DWORD dwStyle,
int X,
int Y,
int nWidth,
int nHeight,
HWND hWndParent,
HMENU hMenu,
HINSTANCE hInstance,
LPVOID lpParam)
{
VALIDATE_PROTOTYPE(CreateWindowEx);
if (g_bRunningOnNT)
{
return CreateWindowExW(
dwExStyle,
lpClassName,
lpWindowName,
dwStyle,
X,
Y,
nWidth,
nHeight,
hWndParent,
hMenu,
hInstance,
lpParam);
}
CStrIn strClass(lpClassName);
CStrIn strWindow(lpWindowName);
return CreateWindowExA(
dwExStyle,
strClass,
strWindow,
dwStyle,
X,
Y,
nWidth,
nHeight,
hWndParent,
hMenu,
hInstance,
lpParam);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
LRESULT FORWARD_API WINAPI DefWindowProcWrapW(HWND hWnd, UINT msg, WPARAM wParam, LPARAM lParam)
{
VALIDATE_PROTOTYPE(DefWindowProc);
FORWARD_AW(DefWindowProc, (hWnd, msg, wParam, lParam));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI DeleteFileWrapW(LPCWSTR pwsz)
{
VALIDATE_PROTOTYPE(DeleteFile);
if (g_bRunningOnNT)
{
return DeleteFileW(pwsz);
}
CStrIn str(pwsz);
return DeleteFileA(str);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
INT_PTR WINAPI
DialogBoxIndirectParamWrapW(
HINSTANCE hInstance,
LPCDLGTEMPLATEW hDialogTemplate,
HWND hWndParent,
DLGPROC lpDialogFunc,
LPARAM dwInitParam)
{
VALIDATE_PROTOTYPE(DialogBoxIndirectParam);
ASSERT(HIWORD64(hDialogTemplate) == 0);
if (g_bRunningOnNT)
{
return DialogBoxIndirectParamW(
hInstance,
hDialogTemplate,
hWndParent,
lpDialogFunc,
dwInitParam);
}
return DialogBoxIndirectParamA(
hInstance,
hDialogTemplate,
hWndParent,
lpDialogFunc,
dwInitParam);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
INT_PTR WINAPI
DialogBoxParamWrapW(
HINSTANCE hInstance,
LPCWSTR lpszTemplate,
HWND hWndParent,
DLGPROC lpDialogFunc,
LPARAM dwInitParam)
{
VALIDATE_PROTOTYPE(DialogBoxParam);
ASSERT(HIWORD64(lpszTemplate) == 0);
if (g_bRunningOnNT)
{
return DialogBoxParamW(
hInstance,
lpszTemplate,
hWndParent,
lpDialogFunc,
dwInitParam);
}
return DialogBoxParamA(hInstance, (LPCSTR) lpszTemplate, hWndParent, lpDialogFunc, dwInitParam);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
LRESULT FORWARD_API WINAPI
DispatchMessageWrapW(CONST MSG * lpMsg)
{
VALIDATE_PROTOTYPE(DispatchMessage);
FORWARD_AW(DispatchMessage, (lpMsg));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
int WINAPI
DrawTextWrapW(
HDC hDC,
LPCWSTR lpString,
int nCount,
LPRECT lpRect,
UINT uFormat)
{
VALIDATE_PROTOTYPE(DrawText);
if (g_bRunningOnNT)
{
return DrawTextW(hDC, lpString, nCount, lpRect, uFormat);
}
CStrIn str(lpString, nCount);
return DrawTextA(hDC, str, str.strlen(), lpRect, uFormat);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
struct EFFSTAT
{
LPARAM lParam;
FONTENUMPROC lpEnumFontProc;
BOOL fFamilySpecified;
};
int CALLBACK
EnumFontFamiliesCallbackWrap(
ENUMLOGFONTA * lpelf,
NEWTEXTMETRIC * lpntm,
DWORD FontType,
LPARAM lParam)
{
ENUMLOGFONTW elf;
// Convert strings from ANSI to Unicode
if (((EFFSTAT *)lParam)->fFamilySpecified && (FontType & TRUETYPE_FONTTYPE) )
{
// LPBYTE->LPCSTR cast below
SHAnsiToUnicode((LPCSTR)lpelf->elfFullName, elf.elfFullName, ARRAYSIZE(elf.elfFullName));
SHAnsiToUnicode((LPCSTR)lpelf->elfStyle, elf.elfStyle, ARRAYSIZE(elf.elfStyle));
}
else
{
elf.elfStyle[0] = L'\0';
elf.elfFullName[0] = L'\0';
}
SHAnsiToUnicode(lpelf->elfLogFont.lfFaceName, elf.elfLogFont.lfFaceName, ARRAYSIZE(elf.elfLogFont.lfFaceName));
// Copy the non-string data
memcpy(
&elf.elfLogFont,
&lpelf->elfLogFont,
FIELD_OFFSET(LOGFONTA, lfFaceName));
// Chain to the original callback function
return(*((EFFSTAT *) lParam)->lpEnumFontProc)(
(const LOGFONTW *)&elf,
(const TEXTMETRICW *) lpntm,
FontType,
((EFFSTAT *) lParam)->lParam);
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
int WINAPI
EnumFontFamiliesWrapW(
HDC hdc,
LPCWSTR lpszFamily,
FONTENUMPROC lpEnumFontProc,
LPARAM lParam)
{
VALIDATE_PROTOTYPE(EnumFontFamilies);
if (g_bRunningOnNT)
{
return EnumFontFamiliesW(
hdc,
lpszFamily,
lpEnumFontProc,
lParam);
}
CStrIn str(lpszFamily);
EFFSTAT effstat;
effstat.lParam = lParam;
effstat.lpEnumFontProc = lpEnumFontProc;
effstat.fFamilySpecified = lpszFamily != NULL;
return EnumFontFamiliesA(
hdc,
str,
(FONTENUMPROCA) EnumFontFamiliesCallbackWrap,
(LPARAM) &effstat);
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
int WINAPI
EnumFontFamiliesExWrapW(
HDC hdc,
LPLOGFONTW lplfw,
FONTENUMPROC lpEnumFontProc,
LPARAM lParam,
DWORD dwFlags )
{
VALIDATE_PROTOTYPE(EnumFontFamiliesEx);
if (g_bRunningOnNT)
{
return EnumFontFamiliesExW(
hdc,
lplfw,
lpEnumFontProc,
lParam,
dwFlags);
}
LOGFONTA lfa;
CStrIn str(lplfw->lfFaceName);
EFFSTAT effstat;
ASSERT( FIELD_OFFSET(LOGFONTW, lfFaceName) == FIELD_OFFSET(LOGFONTA, lfFaceName) );
memcpy( &lfa, lplfw, sizeof(LOGFONTA) - FIELD_OFFSET(LOGFONTA, lfFaceName) );
memcpy( lfa.lfFaceName, str, LF_FACESIZE );
effstat.lParam = lParam;
effstat.lpEnumFontProc = lpEnumFontProc;
effstat.fFamilySpecified = lplfw->lfFaceName != NULL;
return EnumFontFamiliesExA(
hdc,
&lfa,
(FONTENUMPROCA) EnumFontFamiliesCallbackWrap,
(LPARAM) &effstat,
dwFlags );
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI
EnumResourceNamesWrapW(
HINSTANCE hModule,
LPCWSTR lpType,
ENUMRESNAMEPROCW lpEnumFunc,
LPARAM lParam)
{
VALIDATE_PROTOTYPE(EnumResourceNames);
ASSERT(HIWORD64(lpType) == 0);
if (g_bRunningOnNT)
{
return EnumResourceNamesW(hModule, lpType, lpEnumFunc, lParam);
}
return EnumResourceNamesA(hModule, (LPCSTR) lpType, (ENUMRESNAMEPROCA)lpEnumFunc, lParam);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
HANDLE WINAPI
FindFirstFileWrapW(
LPCWSTR lpFileName,
LPWIN32_FIND_DATAW pwszFd)
{
VALIDATE_PROTOTYPE(FindFirstFile);
if (g_bRunningOnNT)
{
return FindFirstFileW(lpFileName, pwszFd);
}
CStrIn str(lpFileName);
CWin32FindDataInOut fd(pwszFd);
return FindFirstFileA(str, fd);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
HRSRC WINAPI
FindResourceWrapW(HINSTANCE hModule, LPCWSTR lpName, LPCWSTR lpType)
{
VALIDATE_PROTOTYPE(FindResource);
if (g_bRunningOnNT)
{
return FindResourceW(hModule, lpName, lpType);
}
CStrIn strName(lpName);
CStrIn strType(lpType);
return FindResourceA(hModule, strName, strType);
}
LPWSTR lstrcpyWrapW(LPWSTR pszDst, LPCWSTR pszSrc)
{
while((*pszDst++ = *pszSrc++));
return pszDst;
}
LPWSTR lstrcatWrapW(LPWSTR pszDst, LPCWSTR pszSrc)
{
return lstrcpyWrapW(pszDst + lstrlenW(pszDst), pszSrc);
}
LPWSTR
lstrcpynWrapW(
LPWSTR lpString1,
LPCWSTR lpString2,
int iMaxLength
)
{
LPWSTR src,dst;
__try {
src = (LPWSTR)lpString2;
dst = lpString1;
if ( iMaxLength ) {
while(iMaxLength && *src){
*dst++ = *src++;
iMaxLength--;
}
if ( iMaxLength ) {
*dst = '\0';
}
else {
dst--;
*dst = '\0';
}
}
}
__except (EXCEPTION_EXECUTE_HANDLER) {
return NULL;
}
return lpString1;
}
INT
APIENTRY
lstrcmpiWrapW(
LPCWSTR lpString1,
LPCWSTR lpString2
)
{
if (g_bRunningOnNT)
{
return lstrcmpiW(lpString1, lpString2);
}
CStrIn sz1(lpString1);
CStrIn sz2(lpString2);
return lstrcmpiA(sz1, sz2);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HWND WINAPI
FindWindowWrapW(LPCWSTR lpClassName, LPCWSTR lpWindowName)
{
VALIDATE_PROTOTYPE(FindWindow);
if (g_bRunningOnNT)
{
return FindWindowW(lpClassName, lpWindowName);
}
// Let FindWindowExWrapW do the thunking
return FindWindowExWrapW(NULL, NULL, lpClassName, lpWindowName);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HWND WINAPI
FindWindowExWrapW(HWND hwndParent, HWND hwndChildAfter, LPCWSTR pwzClassName, LPCWSTR pwzWindowName)
{
VALIDATE_PROTOTYPE(FindWindowEx);
if (g_bRunningOnNT)
return FindWindowExW(hwndParent, hwndChildAfter, pwzClassName, pwzWindowName);
CStrIn strClass(pwzClassName);
CStrIn strWindow(pwzWindowName);
return FindWindowExA(hwndParent, hwndChildAfter, strClass, strWindow);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
DWORD WINAPI
FormatMessageWrapW(
DWORD dwFlags,
LPCVOID lpSource,
DWORD dwMessageId,
DWORD dwLanguageId,
LPWSTR lpBuffer,
DWORD nSize,
va_list * Arguments)
{
VALIDATE_PROTOTYPE(FormatMessage);
if (!(dwFlags & FORMAT_MESSAGE_ALLOCATE_BUFFER))
{
VALIDATE_OUTBUF(lpBuffer, nSize);
}
DWORD dwResult;
#if DBG
// If a source string is passed, make sure that all string insertions
// have explicit character set markers. Otherwise, you get random
// behavior depending on whether we need to thunk to ANSI or not.
// (We are not clever enough to thunk the inserts; that's the caller's
// responsibility.)
//
if (dwFlags & FORMAT_MESSAGE_FROM_STRING)
{
LPCWSTR pwsz;
for (pwsz = (LPCWSTR)lpSource; *pwsz; pwsz++)
{
if (*pwsz == L'%')
{
pwsz++;
// Found an insertion. Get the digit or two.
if (*pwsz == L'0')
continue; // "%0" is special
if (*pwsz < L'0' || *pwsz > L'9')
continue; // skip % followed by nondigit
pwsz++; // Skip the digit
if (*pwsz >= L'0' && *pwsz <= L'9')
pwsz++; // Skip the optional second digit
// The next character MUST be an exclamation point!
ASSERT(*pwsz == L'!' &&
"FormatMessageWrapW: All string insertions must have explicit character sets.");
// I'm not going to validate that the insertion contains
// an explicit character set override because if you went
// so far as to do a %n!...!, you'll get the last bit right too.
}
}
}
#endif
if (g_bRunningOnNT)
{
return FormatMessageW(
dwFlags,
lpSource,
dwMessageId,
dwLanguageId,
lpBuffer,
nSize,
Arguments);
}
//
// FORMAT_MESSAGE_FROM_STRING means that the source is a string.
// Otherwise, it's an opaque LPVOID (aka, an atom).
//
CStrIn strSource((dwFlags & FORMAT_MESSAGE_FROM_STRING) ? CP_ACP : CP_ATOM,
(LPCWSTR)lpSource, -1);
if (!(dwFlags & FORMAT_MESSAGE_ALLOCATE_BUFFER))
{
CStrOut str(lpBuffer, nSize);
FormatMessageA(
dwFlags,
strSource,
dwMessageId,
dwLanguageId,
str,
str.BufSize(),
Arguments); // We don't handle Arguments != NULL
dwResult = str.ConvertExcludingNul();
}
else
{
LPSTR pszBuffer = NULL;
LPWSTR * ppwzOut = (LPWSTR *)lpBuffer;
*ppwzOut = NULL;
FormatMessageA(
dwFlags,
strSource,
dwMessageId,
dwLanguageId,
(LPSTR)&pszBuffer,
0,
Arguments);
if (pszBuffer)
{
DWORD cchSize = (lstrlenA(pszBuffer) + 1);
LPWSTR pszThunkedBuffer;
if (cchSize < nSize)
cchSize = nSize;
pszThunkedBuffer = (LPWSTR) LocalAlloc(LPTR, cchSize * sizeof(WCHAR));
if (pszThunkedBuffer)
{
*ppwzOut = pszThunkedBuffer;
SHAnsiToUnicode(pszBuffer, pszThunkedBuffer, cchSize);
}
LocalFree(pszBuffer);
}
dwResult = (*ppwzOut ? lstrlenW(*ppwzOut) : 0);
}
return dwResult;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
GetClassInfoWrapW(HINSTANCE hModule, LPCWSTR lpClassName, LPWNDCLASSW lpWndClassW)
{
VALIDATE_PROTOTYPE(GetClassInfo);
if (g_bRunningOnNT)
{
return GetClassInfoW(hModule, lpClassName, lpWndClassW);
}
BOOL ret;
CStrIn strClassName(lpClassName);
ASSERT(sizeof(WNDCLASSA) == sizeof(WNDCLASSW));
ret = GetClassInfoA(hModule, strClassName, (LPWNDCLASSA) lpWndClassW);
lpWndClassW->lpszMenuName = NULL;
lpWndClassW->lpszClassName = NULL;
return ret;
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
DWORD FORWARD_API WINAPI
GetClassLongWrapW(HWND hWnd, int nIndex)
{
VALIDATE_PROTOTYPE(GetClassLong);
FORWARD_AW(GetClassLong, (hWnd, nIndex));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
int WINAPI
GetClassNameWrapW(HWND hWnd, LPWSTR lpClassName, int nMaxCount)
{
VALIDATE_PROTOTYPE(GetClassName);
VALIDATE_OUTBUF(lpClassName, nMaxCount);
if (g_bRunningOnNT)
{
return GetClassNameW(hWnd, lpClassName, nMaxCount);
}
CStrOut strClassName(lpClassName, nMaxCount);
GetClassNameA(hWnd, strClassName, strClassName.BufSize());
return strClassName.ConvertIncludingNul();
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
int WINAPI
GetClipboardFormatNameWrapW(UINT format, LPWSTR lpFormatName, int cchFormatName)
{
VALIDATE_PROTOTYPE(GetClipboardFormatName);
VALIDATE_OUTBUF(lpFormatName, cchFormatName);
if (g_bRunningOnNT)
{
return GetClipboardFormatNameW(format, lpFormatName, cchFormatName);
}
CStrOut strFormatName(lpFormatName, cchFormatName);
GetClipboardFormatNameA(format, strFormatName, strFormatName.BufSize());
return strFormatName.ConvertIncludingNul();
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
DWORD WINAPI
GetCurrentDirectoryWrapW(DWORD nBufferLength, LPWSTR lpBuffer)
{
VALIDATE_PROTOTYPE(GetCurrentDirectory);
VALIDATE_OUTBUF(lpBuffer, nBufferLength);
if (g_bRunningOnNT)
{
return GetCurrentDirectoryW(nBufferLength, lpBuffer);
}
CStrOut str(lpBuffer, nBufferLength);
GetCurrentDirectoryA(str.BufSize(), str);
return str.ConvertExcludingNul();
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
UINT WINAPI
GetDlgItemTextWrapW(
HWND hWndDlg,
int idControl,
LPWSTR lpsz,
int cchMax)
{
VALIDATE_PROTOTYPE(GetDlgItemText);
VALIDATE_OUTBUF(lpsz, cchMax);
if (g_bRunningOnNT)
{
return GetDlgItemTextW(hWndDlg, idControl, lpsz, cchMax);
}
CStrOut str(lpsz, cchMax);
GetDlgItemTextA(hWndDlg, idControl, str, str.BufSize());
return str.ConvertExcludingNul();
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
DWORD WINAPI
GetFileAttributesWrapW(LPCWSTR lpFileName)
{
VALIDATE_PROTOTYPE(GetFileAttributes);
if (g_bRunningOnNT)
{
return GetFileAttributesW(lpFileName);
}
CStrIn str(lpFileName);
return GetFileAttributesA(str);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
int WINAPI
GetLocaleInfoWrapW(LCID Locale, LCTYPE LCType, LPWSTR lpsz, int cchData)
{
VALIDATE_PROTOTYPE(GetLocaleInfo);
VALIDATE_OUTBUF(lpsz, cchData);
if (g_bRunningOnNT)
{
return GetLocaleInfoW(Locale, LCType, lpsz, cchData);
}
CStrOut str(lpsz, cchData);
GetLocaleInfoA(Locale, LCType, str, str.BufSize());
return str.ConvertIncludingNul();
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
int WINAPI
GetMenuStringWrapW(
HMENU hMenu,
UINT uIDItem,
LPWSTR lpString,
int nMaxCount,
UINT uFlag)
{
VALIDATE_PROTOTYPE(GetMenuString);
VALIDATE_OUTBUF(lpString, nMaxCount);
if (g_bRunningOnNT)
{
return GetMenuStringW(hMenu, uIDItem, lpString, nMaxCount, uFlag);
}
CStrOut str(lpString, nMaxCount);
GetMenuStringA(hMenu, uIDItem, str, str.BufSize(), uFlag);
return str.ConvertExcludingNul();
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL FORWARD_API WINAPI
GetMessageWrapW(
LPMSG lpMsg,
HWND hWnd,
UINT wMsgFilterMin,
UINT wMsgFilterMax)
{
VALIDATE_PROTOTYPE(GetMessage);
FORWARD_AW(GetMessage, (lpMsg, hWnd, wMsgFilterMin, wMsgFilterMax));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
DWORD WINAPI
GetModuleFileNameWrapW(HINSTANCE hModule, LPWSTR pwszFilename, DWORD nSize)
{
VALIDATE_PROTOTYPE(GetModuleFileName);
VALIDATE_OUTBUF(pwszFilename, nSize);
if (g_bRunningOnNT)
{
return GetModuleFileNameW(hModule, pwszFilename, nSize);
}
CStrOut str(pwszFilename, nSize);
GetModuleFileNameA(hModule, str, str.BufSize());
return str.ConvertIncludingNul();
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
UINT WINAPI
GetSystemDirectoryWrapW(LPWSTR lpBuffer, UINT uSize)
{
VALIDATE_PROTOTYPE(GetSystemDirectory);
VALIDATE_OUTBUF(lpBuffer, uSize);
if (g_bRunningOnNT)
{
return GetSystemDirectoryW(lpBuffer, uSize);
}
CStrOut str(lpBuffer, uSize);
GetSystemDirectoryA(str, str.BufSize());
return str.ConvertExcludingNul();
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
DWORD WINAPI
SearchPathWrapW(
LPCWSTR lpPathName,
LPCWSTR lpFileName,
LPCWSTR lpExtension,
DWORD cchReturnBuffer,
LPWSTR lpReturnBuffer,
LPWSTR * plpfilePart)
{
VALIDATE_PROTOTYPE(SearchPath);
VALIDATE_OUTBUF(lpReturnBuffer, cchReturnBuffer);
if (g_bRunningOnNT)
{
return SearchPathW(
lpPathName,
lpFileName,
lpExtension,
cchReturnBuffer,
lpReturnBuffer,
plpfilePart);
}
CStrIn strPath(lpPathName);
CStrIn strFile(lpFileName);
CStrIn strExtension(lpExtension);
CStrOut strReturnBuffer(lpReturnBuffer, cchReturnBuffer);
DWORD dwLen = SearchPathA(
strPath,
strFile,
strExtension,
strReturnBuffer.BufSize(),
strReturnBuffer,
(LPSTR *)plpfilePart);
//
// Getting the correct value for plpfilePart requires
// a strrchr on the converted string. If this value
// is needed, just add the code to do it here.
//
*plpfilePart = NULL;
if (cchReturnBuffer == 0)
dwLen = 2*dwLen;
else
dwLen = strReturnBuffer.ConvertExcludingNul();
return dwLen;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
HMODULE WINAPI
GetModuleHandleWrapW(LPCWSTR lpModuleName)
{
VALIDATE_PROTOTYPE(GetModuleHandle);
if (g_bRunningOnNT)
{
return GetModuleHandleW(lpModuleName);
}
CStrIn str(lpModuleName);
return GetModuleHandleA(str);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
int WINAPI
GetObjectWrapW(HGDIOBJ hgdiObj, int cbBuffer, LPVOID lpvObj)
{
VALIDATE_PROTOTYPE(GetObject);
if (g_bRunningOnNT)
{
return GetObjectW(hgdiObj, cbBuffer, lpvObj);
}
int nRet;
if (cbBuffer != sizeof(LOGFONTW))
{
nRet = GetObjectA(hgdiObj, cbBuffer, lpvObj);
}
else
{
LOGFONTA lfa;
nRet = GetObjectA(hgdiObj, sizeof(lfa), &lfa);
if (nRet > 0)
{
memcpy(lpvObj, &lfa, FIELD_OFFSET(LOGFONTW, lfFaceName));
SHAnsiToUnicode(lfa.lfFaceName, ((LOGFONTW*)lpvObj)->lfFaceName, ARRAYSIZE(((LOGFONTW*)lpvObj)->lfFaceName));
nRet = sizeof(LOGFONTW);
}
}
return nRet;
}
#endif // NEED_GDI32_WRAPPER
//
// Demand load shell32 _SHFileOperationW because
// older versions of the Shell on 9x didn't necessarily
// have this function
//
int WINAPI _SHFileOperationW(LPSHFILEOPSTRUCTW pFileOpW)
{
int result = 1;
HMODULE hmodSH32DLL;
typedef HRESULT (STDAPICALLTYPE FNSHFileOperationW)(LPSHFILEOPSTRUCT);
FNSHFileOperationW *pfnSHFileOperationW;
// get the handle to shell32.dll library
hmodSH32DLL = LoadLibraryWrapW(TEXT("SHELL32.DLL"));
if (hmodSH32DLL != NULL) {
// get the proc address for SHFileOperation
pfnSHFileOperationW = (FNSHFileOperationW *)GetProcAddress(
hmodSH32DLL,
"SHFileOperationW");
if (pfnSHFileOperationW != NULL) {
result = (*pfnSHFileOperationW) (pFileOpW);
}
FreeLibrary(hmodSH32DLL);
}
return result ;
}
int WINAPI SHFileOperationWrapW(LPSHFILEOPSTRUCTW pFileOpW)
{
VALIDATE_PROTOTYPE_DELAYLOAD(SHFileOperation, _SHFileOperation);
// We don't thunk multiple files.
ASSERT(!(pFileOpW->fFlags & FOF_MULTIDESTFILES));
if (UseUnicodeShell32())
return _SHFileOperationW(pFileOpW);
int nResult = 1; // non-Zero is failure.
if (pFileOpW)
{
SHFILEOPSTRUCTA FileOpA;
CStrIn strTo(pFileOpW->pTo);
CStrIn strFrom(pFileOpW->pFrom);
CStrIn strProgressTitle(pFileOpW->lpszProgressTitle);
FileOpA = *(LPSHFILEOPSTRUCTA) pFileOpW;
FileOpA.pFrom = strFrom;
FileOpA.pTo = strTo;
FileOpA.lpszProgressTitle = strProgressTitle;
nResult = SHFileOperationA(&FileOpA);
}
return nResult;
}
//
// We don't need many of the shell api's
// so they are no wrapped
//
#ifdef NEED_SHELL32_WRAPPER
LPITEMIDLIST WINAPI SHBrowseForFolderWrapW(LPBROWSEINFOW pbiW)
{
VALIDATE_PROTOTYPE_DELAYLOAD(SHBrowseForFolder, _SHBrowseForFolder);
if (UseUnicodeShell32())
return _SHBrowseForFolderW(pbiW);
LPITEMIDLIST pidl = NULL;
if (EVAL(pbiW))
{
CStrIn strTitle(pbiW->lpszTitle);
CStrOut strDisplayName(pbiW->pszDisplayName, MAX_PATH);
BROWSEINFOA biA;
biA = * (LPBROWSEINFOA) pbiW;
biA.lpszTitle = strTitle;
biA.pszDisplayName = strDisplayName;
pidl = _SHBrowseForFolderA(&biA);
if (pidl)
strDisplayName.ConvertIncludingNul();
}
return pidl;
}
#endif // NEED_SHELL32_WRAPPER
#ifdef NEED_SHELL32_WRAPPER
BOOL WINAPI ShellExecuteExWrapW(LPSHELLEXECUTEINFOW pExecInfoW)
{
VALIDATE_PROTOTYPE_DELAYLOAD(ShellExecuteEx, _ShellExecuteEx);
if (g_bRunningOnNT)
return _ShellExecuteExW(pExecInfoW);
BOOL fResult = FALSE;
if (EVAL(pExecInfoW))
{
SHELLEXECUTEINFOA ExecInfoA;
CStrIn strVerb(pExecInfoW->lpVerb);
CStrIn strParameters(pExecInfoW->lpParameters);
CStrIn strDirectory(pExecInfoW->lpDirectory);
CStrIn strClass(pExecInfoW->lpClass);
CHAR szFile[MAX_PATH + INTERNET_MAX_URL_LENGTH + 2];
ExecInfoA = *(LPSHELLEXECUTEINFOA) pExecInfoW;
ExecInfoA.lpVerb = strVerb;
ExecInfoA.lpParameters = strParameters;
ExecInfoA.lpDirectory = strDirectory;
ExecInfoA.lpClass = strClass;
if (pExecInfoW->lpFile)
{
ExecInfoA.lpFile = szFile;
SHUnicodeToAnsi(pExecInfoW->lpFile, szFile, ARRAYSIZE(szFile));
// SEE_MASK_FILEANDURL passes "file\0url". What a hack!
if (pExecInfoW->fMask & SEE_MASK_FILEANDURL)
{
// We are so lucky that Win9x implements lstrlenW
int cch = lstrlenW(pExecInfoW->lpFile) + 1;
cch += lstrlenW(pExecInfoW->lpFile + cch) + 1;
if (!WideCharToMultiByte(CP_ACP, 0, pExecInfoW->lpFile, cch, szFile, ARRAYSIZE(szFile), NULL, NULL))
{
// Return a completely random error code
pExecInfoW->hInstApp = (HINSTANCE)SE_ERR_OOM;
SetLastError(ERROR_INVALID_PARAMETER);
return FALSE;
}
}
}
fResult = _ShellExecuteExA(&ExecInfoA);
// Out parameters
pExecInfoW->hInstApp = ExecInfoA.hInstApp;
pExecInfoW->hProcess = ExecInfoA.hProcess;
}
else
SetLastError(ERROR_INVALID_PARAMETER);
return fResult;
}
#endif // NEED_SHELL32_WRAPPER
#ifdef NEED_SHELL32_WRAPPER
UINT WINAPI ExtractIconExWrapW(LPCWSTR pwzFile, int nIconIndex, HICON FAR *phiconLarge, HICON FAR *phiconSmall, UINT nIcons)
{
VALIDATE_PROTOTYPE_DELAYLOAD(ExtractIconEx, _ExtractIconEx);
if ( UseUnicodeShell32() )
return _ExtractIconExW(pwzFile, nIconIndex, phiconLarge, phiconSmall, nIcons);
CStrIn str(pwzFile);
return _ExtractIconExA(str, nIconIndex, phiconLarge, phiconSmall, nIcons);
}
#endif // NEED_SHELL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI SetFileAttributesWrapW(LPCWSTR pwzFile, DWORD dwFileAttributes)
{
VALIDATE_PROTOTYPE(SetFileAttributes);
if (g_bRunningOnNT)
return SetFileAttributesW(pwzFile, dwFileAttributes);
CStrIn str(pwzFile);
return SetFileAttributesA(str, dwFileAttributes);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
int WINAPI GetNumberFormatWrapW(LCID Locale, DWORD dwFlags, LPCWSTR pwzValue, CONST NUMBERFMTW * pFormatW, LPWSTR pwzNumberStr, int cchNumber)
{
VALIDATE_PROTOTYPE(GetNumberFormat);
if (g_bRunningOnNT)
return GetNumberFormatW(Locale, dwFlags, pwzValue, pFormatW, pwzNumberStr, cchNumber);
int nResult;
NUMBERFMTA FormatA;
CStrIn strValue(pwzValue);
CStrIn strDecimalSep(pFormatW ? pFormatW->lpDecimalSep : NULL);
CStrIn strThousandSep(pFormatW ? pFormatW->lpThousandSep : NULL);
CStrOut strNumberStr(pwzNumberStr, cchNumber);
if (pFormatW)
{
FormatA = *(NUMBERFMTA *) pFormatW;
FormatA.lpDecimalSep = strDecimalSep;
FormatA.lpThousandSep = strThousandSep;
}
nResult = GetNumberFormatA(Locale, dwFlags, strValue, (pFormatW ? &FormatA : NULL), strNumberStr, strNumberStr.BufSize());
if (ERROR_SUCCESS == nResult)
strNumberStr.ConvertIncludingNul();
return nResult;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
int WINAPI MessageBoxWrapW(HWND hwnd, LPCWSTR pwzText, LPCWSTR pwzCaption, UINT uType)
{
VALIDATE_PROTOTYPE(MessageBox);
if (g_bRunningOnNT)
return MessageBoxW(hwnd, pwzText, pwzCaption, uType);
CStrIn strCaption(pwzCaption);
CStrIn strText(pwzText);
return MessageBoxA(hwnd, strText, strCaption, uType);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI FindNextFileWrapW(HANDLE hSearchHandle, LPWIN32_FIND_DATAW pFindFileDataW)
{
VALIDATE_PROTOTYPE(FindNextFile);
if (g_bRunningOnNT)
return FindNextFileW(hSearchHandle, pFindFileDataW);
CWin32FindDataInOut fd(pFindFileDataW);
return FindNextFileA(hSearchHandle, fd);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
//--------------------------------------------------------------
// GetFullPathNameWrap
//--------------------------------------------------------------
DWORD
WINAPI
GetFullPathNameWrapW( LPCWSTR lpFileName,
DWORD nBufferLength,
LPWSTR lpBuffer,
LPWSTR *lpFilePart)
{
VALIDATE_PROTOTYPE(GetFullPathName);
VALIDATE_OUTBUF(lpBuffer, nBufferLength);
if (g_bRunningOnNT)
{
return GetFullPathNameW(lpFileName, nBufferLength, lpBuffer, lpFilePart);
}
CStrIn strIn(lpFileName);
CStrOut strOut(lpBuffer,nBufferLength);
LPSTR pFile;
DWORD dwRet;
dwRet = GetFullPathNameA(strIn, nBufferLength, strOut, &pFile);
strOut.ConvertIncludingNul();
// BUGBUG raymondc - This is wrong if we had to do DBCS or related goo
*lpFilePart = lpBuffer + (pFile - strOut);
return dwRet;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
DWORD WINAPI
GetShortPathNameWrapW(
LPCWSTR lpszLongPath,
LPWSTR lpszShortPath,
DWORD cchBuffer)
{
VALIDATE_PROTOTYPE(GetShortPathName);
if (g_bRunningOnNT)
{
return GetShortPathNameW(lpszLongPath, lpszShortPath, cchBuffer);
}
CStrIn strLongPath(lpszLongPath);
CStrOut strShortPath(lpszShortPath, cchBuffer);
return GetShortPathNameA(strLongPath, strShortPath, strShortPath.BufSize());
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI
GetStringTypeExWrapW(LCID lcid, DWORD dwInfoType, LPCTSTR lpSrcStr, int cchSrc, LPWORD lpCharType)
{
VALIDATE_PROTOTYPE(GetStringTypeEx);
if (g_bRunningOnNT)
{
return GetStringTypeExW(lcid, dwInfoType, lpSrcStr, cchSrc, lpCharType);
}
CStrIn str(lpSrcStr, cchSrc);
return GetStringTypeExA(lcid, dwInfoType, str, str.strlen(), lpCharType);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
UINT WINAPI
GetPrivateProfileIntWrapW(
LPCWSTR lpAppName,
LPCWSTR lpKeyName,
INT nDefault,
LPCWSTR lpFileName)
{
VALIDATE_PROTOTYPE(GetPrivateProfileInt);
if (g_bRunningOnNT)
{
return GetPrivateProfileIntW(lpAppName, lpKeyName, nDefault, lpFileName);
}
CStrIn strApp(lpAppName);
CStrIn strKey(lpKeyName);
CStrIn strFile(lpFileName);
return GetPrivateProfileIntA(strApp, strKey, nDefault, strFile);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
DWORD WINAPI
GetProfileStringWrapW(
LPCWSTR lpAppName,
LPCWSTR lpKeyName,
LPCWSTR lpDefault,
LPWSTR lpBuffer,
DWORD dwBuffersize)
{
VALIDATE_PROTOTYPE(GetProfileString);
VALIDATE_OUTBUF(lpBuffer, dwBuffersize);
if (g_bRunningOnNT)
{
return GetProfileStringW(lpAppName, lpKeyName, lpDefault, lpBuffer, dwBuffersize);
}
CStrIn strApp(lpAppName);
CStrIn strKey(lpKeyName);
CStrIn strDefault(lpDefault);
CStrOut strBuffer(lpBuffer, dwBuffersize);
GetProfileStringA(strApp, strKey, strDefault, strBuffer, dwBuffersize);
return strBuffer.ConvertIncludingNul();
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HANDLE WINAPI
GetPropWrapW(HWND hWnd, LPCWSTR lpString)
{
VALIDATE_PROTOTYPE(GetProp);
if (g_bRunningOnNT)
{
return GetPropW(hWnd, lpString);
}
CStrIn str(lpString);
return GetPropA(hWnd, str);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
UINT WINAPI
GetTempFileNameWrapW(
LPCWSTR lpPathName,
LPCWSTR lpPrefixString,
UINT uUnique,
LPWSTR lpTempFileName)
{
VALIDATE_PROTOTYPE(GetTempFileName);
VALIDATE_OUTBUF(lpTempFileName, MAX_PATH);
if (g_bRunningOnNT)
{
return GetTempFileNameW(lpPathName, lpPrefixString, uUnique, lpTempFileName);
}
CStrIn strPath(lpPathName);
CStrIn strPrefix(lpPrefixString);
CStrOut strFileName(lpTempFileName, MAX_PATH);
return GetTempFileNameA(strPath, strPrefix, uUnique, strFileName);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
DWORD WINAPI
GetTempPathWrapW(DWORD nBufferLength, LPWSTR lpBuffer)
{
VALIDATE_PROTOTYPE(GetTempPath);
VALIDATE_OUTBUF(lpBuffer, nBufferLength);
if (g_bRunningOnNT)
{
return GetTempPathW(nBufferLength, lpBuffer);
}
CStrOut str(lpBuffer, nBufferLength);
GetTempPathA(str.BufSize(), str);
return str.ConvertExcludingNul();
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
BOOL APIENTRY
GetTextExtentPoint32WrapW(
HDC hdc,
LPCWSTR pwsz,
int cb,
LPSIZE pSize)
{
VALIDATE_PROTOTYPE(GetTextExtentPoint32);
if (g_bRunningOnNT)
{
return GetTextExtentPoint32W(hdc, pwsz, cb, pSize);
}
CStrIn str(pwsz,cb);
return GetTextExtentPoint32A(hdc, str, str.strlen(), pSize);
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
int WINAPI
GetTextFaceWrapW(
HDC hdc,
int cch,
LPWSTR lpFaceName)
{
VALIDATE_PROTOTYPE(GetTextFace);
VALIDATE_OUTBUF(lpFaceName, cch);
if (g_bRunningOnNT)
{
return GetTextFaceW(hdc, cch, lpFaceName);
}
CStrOut str(lpFaceName, cch);
GetTextFaceA(hdc, str.BufSize(), str);
return str.ConvertIncludingNul();
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
BOOL WINAPI
GetTextMetricsWrapW(HDC hdc, LPTEXTMETRICW lptm)
{
VALIDATE_PROTOTYPE(GetTextMetrics);
if (g_bRunningOnNT)
{
return GetTextMetricsW(hdc, lptm);
}
BOOL ret;
TEXTMETRICA tm;
ret = GetTextMetricsA(hdc, &tm);
if (ret)
{
lptm->tmHeight = tm.tmHeight;
lptm->tmAscent = tm.tmAscent;
lptm->tmDescent = tm.tmDescent;
lptm->tmInternalLeading = tm.tmInternalLeading;
lptm->tmExternalLeading = tm.tmExternalLeading;
lptm->tmAveCharWidth = tm.tmAveCharWidth;
lptm->tmMaxCharWidth = tm.tmMaxCharWidth;
lptm->tmWeight = tm.tmWeight;
lptm->tmOverhang = tm.tmOverhang;
lptm->tmDigitizedAspectX = tm.tmDigitizedAspectX;
lptm->tmDigitizedAspectY = tm.tmDigitizedAspectY;
lptm->tmItalic = tm.tmItalic;
lptm->tmUnderlined = tm.tmUnderlined;
lptm->tmStruckOut = tm.tmStruckOut;
lptm->tmPitchAndFamily = tm.tmPitchAndFamily;
lptm->tmCharSet = tm.tmCharSet;
// LPBYTE -> LPCSTR casts below
MultiByteToWideChar(CP_ACP, 0, (LPCSTR)&tm.tmFirstChar, 1, &lptm->tmFirstChar, 1);
MultiByteToWideChar(CP_ACP, 0, (LPCSTR)&tm.tmLastChar, 1, &lptm->tmLastChar, 1);
MultiByteToWideChar(CP_ACP, 0, (LPCSTR)&tm.tmDefaultChar, 1, &lptm->tmDefaultChar, 1);
MultiByteToWideChar(CP_ACP, 0, (LPCSTR)&tm.tmBreakChar, 1, &lptm->tmBreakChar, 1);
}
return ret;
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
BOOL WINAPI GetUserNameWrapW(LPWSTR pszBuffer, LPDWORD pcch)
{
VALIDATE_PROTOTYPE(GetUserName);
BOOL fRet;
if (UseUnicodeShell32())
{
fRet = GetUserNameW(pszBuffer, pcch);
}
else
{
CStrOut stroBuffer(pszBuffer, *pcch);
fRet = GetUserNameA(stroBuffer, pcch);
if (fRet)
*pcch = stroBuffer.ConvertIncludingNul();
}
return fRet;
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_USER32_WRAPPER
LONG FORWARD_API WINAPI
GetWindowLongWrapW(HWND hWnd, int nIndex)
{
VALIDATE_PROTOTYPE(GetWindowLong);
FORWARD_AW(GetWindowLong, (hWnd, nIndex));
}
LONG_PTR FORWARD_API WINAPI
GetWindowLongPtrWrapW(
HWND hWnd,
int nIndex)
{
VALIDATE_PROTOTYPE(GetWindowLongPtr);
FORWARD_AW(GetWindowLongPtr, (hWnd, nIndex));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
int WINAPI
GetWindowTextWrapW(HWND hWnd, LPWSTR lpString, int nMaxCount)
{
VALIDATE_PROTOTYPE(GetWindowText);
VALIDATE_OUTBUF(lpString, nMaxCount);
if (g_bRunningOnNT)
{
return GetWindowTextW(hWnd, lpString, nMaxCount);
}
CStrOut str(lpString, nMaxCount);
GetWindowTextA(hWnd, str, str.BufSize());
return str.ConvertExcludingNul();
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
int WINAPI
GetWindowTextLengthWrapW(HWND hWnd)
{
VALIDATE_PROTOTYPE(GetWindowTextLength);
if (g_bRunningOnNT)
{
return GetWindowTextLengthW(hWnd);
}
return GetWindowTextLengthA(hWnd);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
UINT WINAPI
GetWindowsDirectoryWrapW(LPWSTR lpWinPath, UINT cch)
{
VALIDATE_PROTOTYPE(GetWindowsDirectory);
VALIDATE_OUTBUF(lpWinPath, cch);
if (g_bRunningOnNT)
{
return GetWindowsDirectoryW(lpWinPath, cch);
}
CStrOut str(lpWinPath, cch);
if (!GetWindowsDirectoryA(str, str.BufSize()))
{
return 0;
}
return str.ConvertExcludingNul();
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
InsertMenuWrapW(
HMENU hMenu,
UINT uPosition,
UINT uFlags,
UINT_PTR uIDNewItem,
LPCWSTR lpNewItem)
{
VALIDATE_PROTOTYPE(InsertMenu);
if (g_bRunningOnNT)
{
return InsertMenuW(hMenu, uPosition, uFlags, uIDNewItem, lpNewItem);
}
//
// You can't test for MFT_STRING because MFT_STRING is zero!
// So instead you have to check for everything *other* than
// a string.
//
// The presence of any non-string menu type turns lpnewItem into
// an atom.
//
CStrIn str((uFlags & MFT_NONSTRING) ? CP_ATOM : CP_ACP, lpNewItem);
return InsertMenuA(hMenu, uPosition, uFlags, uIDNewItem, str);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL FORWARD_API WINAPI
IsDialogMessageWrapW(HWND hWndDlg, LPMSG lpMsg)
{
VALIDATE_PROTOTYPE(IsDialogMessage);
FORWARD_AW(IsDialogMessage, (hWndDlg, lpMsg));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HACCEL WINAPI
LoadAcceleratorsWrapW(HINSTANCE hInstance, LPCWSTR lpTableName)
{
VALIDATE_PROTOTYPE(LoadAccelerators);
ASSERT(HIWORD64(lpTableName) == 0);
if (g_bRunningOnNT)
{
return LoadAcceleratorsW(hInstance, lpTableName);
}
return LoadAcceleratorsA(hInstance, (LPCSTR) lpTableName);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HBITMAP WINAPI
LoadBitmapWrapW(HINSTANCE hInstance, LPCWSTR lpBitmapName)
{
VALIDATE_PROTOTYPE(LoadBitmap);
ASSERT(HIWORD64(lpBitmapName) == 0);
if (g_bRunningOnNT)
{
return LoadBitmapW(hInstance, lpBitmapName);
}
return LoadBitmapA(hInstance, (LPCSTR) lpBitmapName);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HCURSOR WINAPI
LoadCursorWrapW(HINSTANCE hInstance, LPCWSTR lpCursorName)
{
VALIDATE_PROTOTYPE(LoadCursor);
ASSERT(HIWORD64(lpCursorName) == 0);
if (g_bRunningOnNT)
{
return LoadCursorW(hInstance, lpCursorName);
}
return LoadCursorA(hInstance, (LPCSTR) lpCursorName);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HICON WINAPI
LoadIconWrapW(HINSTANCE hInstance, LPCWSTR lpIconName)
{
VALIDATE_PROTOTYPE(LoadIcon);
ASSERT(HIWORD64(lpIconName) == 0);
if (g_bRunningOnNT)
{
return LoadIconW(hInstance, lpIconName);
}
return LoadIconA(hInstance, (LPCSTR) lpIconName);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HANDLE WINAPI
LoadImageWrapW(
HINSTANCE hInstance,
LPCWSTR lpName,
UINT uType,
int cxDesired,
int cyDesired,
UINT fuLoad)
{
VALIDATE_PROTOTYPE(LoadImage);
if (g_bRunningOnNT)
{
return LoadImageW(
hInstance,
lpName,
uType,
cxDesired,
cyDesired,
fuLoad);
}
CStrIn str(lpName);
return LoadImageA(
hInstance,
str,
uType,
cxDesired,
cyDesired,
fuLoad);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
HINSTANCE WINAPI
LoadLibraryExWrapW(
LPCWSTR lpLibFileName,
HANDLE hFile,
DWORD dwFlags)
{
VALIDATE_PROTOTYPE(LoadLibraryEx);
if (g_bRunningOnNT)
return LoadLibraryExW(lpLibFileName, hFile, dwFlags);
CStrIn str(lpLibFileName);
// Win9X will crash if the pathname is longer than MAX_PATH bytes.
if (str.strlen() >= MAX_PATH)
{
SetLastError( ERROR_BAD_PATHNAME );
return NULL;
}
else
{
return LoadLibraryExA(str, hFile, dwFlags);
}
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HMENU WINAPI
LoadMenuWrapW(HINSTANCE hInstance, LPCWSTR lpMenuName)
{
VALIDATE_PROTOTYPE(LoadMenu);
ASSERT(HIWORD64(lpMenuName) == 0);
if (g_bRunningOnNT)
{
return LoadMenuW(hInstance, lpMenuName);
}
return LoadMenuA(hInstance, (LPCSTR) lpMenuName);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
int WINAPI
LoadStringWrapW(HINSTANCE hInstance, UINT uID, LPWSTR lpBuffer, int nBufferMax)
{
VALIDATE_PROTOTYPE(LoadString);
if (g_bRunningOnNT)
{
return LoadStringW(hInstance, uID, lpBuffer, nBufferMax);
}
//
// Do it manually. The old code used to call LoadStringA and then
// convert it up to unicode, which is bad since resources are
// physically already Unicode! Just take it out directly.
//
// The old code was also buggy in the case where the loaded string
// contains embedded NULLs.
//
if (nBufferMax <= 0) return 0; // sanity check
PWCHAR pwch;
/*
* String tables are broken up into "bundles" of 16 strings each.
*/
HRSRC hrsrc;
int cwch = 0;
hrsrc = FindResourceA(hInstance, (LPSTR)(LONG_PTR)(1 + uID / 16), (LPSTR)RT_STRING);
if (hrsrc)
{
pwch = (PWCHAR)LoadResource(hInstance, hrsrc);
if (pwch)
{
/*
* Now skip over the strings in the resource until we
* hit the one we want. Each entry is a counted string,
* just like Pascal.
*/
for (uID %= 16; uID; uID--)
{
pwch += *pwch + 1;
}
cwch = min(*pwch, nBufferMax - 1);
memcpy(lpBuffer, pwch+1, cwch * sizeof(WCHAR)); /* Copy the goo */
}
}
lpBuffer[cwch] = L'\0'; /* Terminate the string */
return cwch;
}
#endif // NEED_USER32_WRAPPER
//----------------------------------------------------------------------
//
// function: TransformCharNoOp1( WCHAR **ppch )
//
// purpose: Stand-in for TransformCharWidth. Used by the function
// CompareStringString.
//
// returns: Character at *ppch. The value *ppch is incremented.
//
//----------------------------------------------------------------------
static WCHAR
TransformCharNoOp1( LPCWSTR *ppch, int )
{
WCHAR ch = **ppch;
(*ppch)++;
return ch;
}
//----------------------------------------------------------------------
//
// function: TransformCharWidth( WCHAR **ppch, cchRemaining )
//
// purpose: Converts halfwidth characters to fullwidth characters.
// Also combines voiced (dakuon) and semi-voiced (handakuon)
// characters. *pch is advanced by one, unless there is a
// (semi)voiced character, in which case it is advanced by
// two characters.
//
// Note that unlike the full widechar version, we do not
// combine other characters, notably the combining Hiragana
// characters (U+3099 and U+309A.) This is to keep the
// tables from getting unnecessarily large.
//
// cchRemaining is passed so as to not include the voiced
// marks if it's passed the end of the specified buffer.
//
// returns: Full width character. *pch is incremented.
//
//----------------------------------------------------------------------
static WCHAR
TransformCharWidth( LPCWSTR *ppch, int cchRemaining )
{
WCHAR ch = **ppch;
(*ppch)++;
if (ch == 0x0020)
{
ch = 0x3000;
}
else if (ch == 0x005c)
{
// REVERSE SOLIDUS (aka BACKSLASH) maps to itself
}
else if (InRange(ch, 0x0021, 0x07e))
{
ch += 65248;
}
else if (InRange(ch, 0x00a2, 0x00af))
{
static const WCHAR achFull[] =
{
0xffe0, 0xffe1, 0x00a4, 0xffe5, 0xffe4, 0x00a7, 0x00a8, // 0xa2-0xa8
0x00a9, 0x00aa, 0x00ab, 0xffe2, 0x00ad, 0x00ae, 0xffe3 // 0xa9-0xaf
};
ch = achFull[ch - 0x00a2];
}
else if (ch == 0x20a9) // WON SIGN
{
ch = 0xffe6;
}
else if (InRange(ch, 0xff61, 0xffdc))
{
WCHAR chNext = (cchRemaining > 1) ? **ppch : 0;
if (chNext == 0xff9e && InRange(ch, 0xff73, 0xff8e))
{
if (cchRemaining != 1)
{
static const WCHAR achFull[] =
{
/* 0xff73-0xff79 */0xb0f4, 0x30a8, 0x30aa, 0xb0ac, 0xb0ae, 0xb0b0, 0xb0b2,
/* 0xff7a-0xff80 */ 0xb0b4, 0xb0b6, 0xb0b8, 0xb0ba, 0xb0bc, 0xb0be, 0xb0c0,
/* 0xff81-0xff87 */ 0xb0c2, 0xb0c5, 0xb0c7, 0xb0c9, 0x30ca, 0x30cb, 0x30cc,
/* 0xff88-0xff8e */ 0x30cd, 0x30ce, 0xb0d0, 0xb0d3, 0xb0d6, 0xb0d9, 0xb0dc
};
// HALFWIDTH KATAKANA VOICED SOUND MARK
WCHAR chTemp = achFull[ch - 0xff73];
// Some in the range absorb the sound mark.
// These are indicated by the set high-bit.
ch = chTemp & 0x7fff;
if (chTemp & 0x8000)
{
(*ppch)++;
}
}
}
else if (chNext == 0xff9f && InRange(ch, 0xff8a, 0xff8e))
{
// HALFWIDTH KATAKANA SEMI-VOICED SOUND MARK
ch = 0x30d1 + (ch - 0xff8a) * 3;
(*ppch)++;
}
else
{
static const WCHAR achMapFullFFxx[] =
{
0x3002, 0x300c, 0x300d, 0x3001, 0x30fb, 0x30f2, 0x30a1, // 0xff61-0xff67
0x30a3, 0x30a5, 0x30a7, 0x30a9, 0x30e3, 0x30e5, 0x30e7, // 0xff68-0xff6e
0x30c3, 0x30fc, 0x30a2, 0x30a4, 0x30a6, 0x30a8, 0x30aa, // 0xff6f-0xff75
0x30ab, 0x30ad, 0x30af, 0x30b1, 0x30b3, 0x30b5, 0x30b7, // 0xff76-0xff7c
0x30b9, 0x30bb, 0x30bd, 0x30bf, 0x30c1, 0x30c4, 0x30c6, // 0xff7d-0xff83
0x30c8, 0x30ca, 0x30cb, 0x30cc, 0x30cd, 0x30ce, 0x30cf, // 0xff84-0xff8a
0x30d2, 0x30d5, 0x30d8, 0x30db, 0x30de, 0x30df, 0x30e0, // 0xff8b-0xff91
0x30e1, 0x30e2, 0x30e4, 0x30e6, 0x30e8, 0x30e9, 0x30ea, // 0xff92-0xff98
0x30eb, 0x30ec, 0x30ed, 0x30ef, 0x30f3, 0x309b, 0x309c, // 0xff99-0xff9f
0x3164, 0x3131, 0x3132, 0x3133, 0x3134, 0x3135, 0x3136, // 0xffa0-0xffa6
0x3137, 0x3138, 0x3139, 0x313a, 0x313b, 0x313c, 0x313d, // 0xffa7-0xffad
0x313e, 0x313f, 0x3140, 0x3141, 0x3142, 0x3143, 0x3144, // 0xffae-0xffb4
0x3145, 0x3146, 0x3147, 0x3148, 0x3149, 0x314a, 0x314b, // 0xffb5-0xffbb
0x314c, 0x314d, 0x314e, 0xffbf, 0xffc0, 0xffc1, 0x314f, // 0xffbc-0xffc2
0x3150, 0x3151, 0x3152, 0x3153, 0x3154, 0xffc8, 0xffc9, // 0xffc3-0xffc9
0x3155, 0x3156, 0x3157, 0x3158, 0x3159, 0x315a, 0xffd0, // 0xffca-0xffd0
0xffd1, 0x315b, 0x315c, 0x315d, 0x315e, 0x315f, 0x3160, // 0xffd1-0xffd7
0xffd8, 0xffd9, 0x3161, 0x3162, 0x3163 // 0xffd8-0xffac
};
ch = achMapFullFFxx[ch - 0xff61];
}
}
return ch;
}
//----------------------------------------------------------------------
//
// function: TransformaCharNoOp2( WCHAR ch )
//
// purpose: Stand-in for CharLowerBuffWrap. Used by the function
// CompareStringString.
//
// returns: Original character
//
//----------------------------------------------------------------------
static WCHAR
TransformCharNoOp2( WCHAR ch )
{
return ch;
}
//----------------------------------------------------------------------
//
// function: TransformaCharKana( WCHAR ch )
//
// purpose: Converts Hiragana characters to Katakana characters
//
// returns: Original character if not Hiragana,
// Katanaka character if Hiragana
//
//----------------------------------------------------------------------
static WCHAR
TransformCharKana( WCHAR ch )
{
if (((ch & 0xff00) == 0x3000) &&
(InRange(ch, 0x3041, 0x3094) || InRange(ch, 0x309d, 0x309e)))
{
ch += 0x060;
}
return ch;
}
//----------------------------------------------------------------------
//
// function: TransformCharNoOp3( LPWSTR pch, DWORD cch )
//
// purpose: Stand-in for CharLowerBuffWrap. Used by the function
// CompareStringString.
//
// returns: Character count (cch).
//
//----------------------------------------------------------------------
static DWORD
TransformCharNoOp3( LPWSTR, DWORD cch )
{
return cch;
}
//----------------------------------------------------------------------
//
// function: TransformaCharFinal( WCHAR ch )
//
// purpose: Converts "final" forms to regular forms
//
// returns: Original character if not Hiragana,
// Katanaka character if Hiragana
//
//----------------------------------------------------------------------
// BUGBUG (cthrash) We do not fold Presentation Forms (Alphabetic or Arabic)
static WCHAR
TransformCharFinal( WCHAR ch )
{
WCHAR chRet = ch;
if (ch >= 0x3c2) // short-circuit ASCII +
{
switch (ch)
{
case 0x03c2: // GREEK SMALL LETTER FINAL SIGMA
case 0x05da: // HEBREW LETTER FINAL KAF
case 0x05dd: // HEBREW LETTER FINAL MEM
case 0x05df: // HEBREW LETTER FINAL NUN
case 0x05e3: // HEBREW LETTER FINAL PE
case 0x05e5: // HEBREW LETTER FINAL TSADI
case 0xfb26: // HEBREW LETTER WIDE FINAL MEM
case 0xfb3a: // HEBREW LETTER FINAL KAF WITH DAGESH
case 0xfb43: // HEBREW LETTER FINAL PE WITH DAGESH
chRet++;
break;
}
}
return ch;
}
//----------------------------------------------------------------------
//
// function: CompareStringString( ... )
//
// purpose: Helper for CompareStringWrap.
//
// We handle the string comparsion for CompareStringWrap.
// We can convert each character to (1) fullwidth,
// (2) Katakana, and (3) lowercase, as necessary.
//
// returns: 1 - string A is less in lexical value as string B
// 2 - string B is equal in lexical value as string B
// 3 - string B is greater in lexical value as string B
//
//----------------------------------------------------------------------
#ifdef NEED_USER32_WRAPPER
#if UNUSED_DONOTBUILD
static int
CompareStringString(
DWORD dwFlags,
LPCWSTR lpA,
int cchA,
LPCWSTR lpB,
int cchB )
{
int nRet = 0;
WCHAR wchIgnoreNulA = cchA == -1 ? 0 : -1;
WCHAR wchIgnoreNulB = cchB == -1 ? 0 : -1;
WCHAR (*pfnTransformWidth)(LPCWSTR *, int);
WCHAR (*pfnTransformKana)(WCHAR);
DWORD (*pfnTransformLower)(LPWSTR, DWORD);
WCHAR (*pfnTransformFinal)(WCHAR);
pfnTransformWidth = (dwFlags & NORM_IGNOREWIDTH)
? TransformCharWidth : TransformCharNoOp1;
pfnTransformKana = (dwFlags & NORM_IGNOREKANATYPE)
? TransformCharKana : TransformCharNoOp2;
pfnTransformLower = (dwFlags & NORM_IGNORECASE)
? CharLowerBuffWrap : TransformCharNoOp3;
pfnTransformFinal = (dwFlags & NORM_IGNORECASE)
? TransformCharFinal : TransformCharNoOp2;
while ( !nRet
&& cchA
&& cchB
&& (*lpA | wchIgnoreNulA)
&& (*lpB | wchIgnoreNulB) )
{
WCHAR chA, chB;
LPCWSTR lpAOld = lpA;
LPCWSTR lpBOld = lpB;
chA = (*pfnTransformWidth)(&lpA, cchA);
chA = (*pfnTransformKana)(chA);
(*pfnTransformLower)(&chA, 1);
chA = (*pfnTransformFinal)(chA);
chB = (*pfnTransformWidth)(&lpB, cchB);
chB = (*pfnTransformKana)(chB);
(*pfnTransformLower)(&chB, 1);
chB = (*pfnTransformFinal)(chB);
nRet = (int)chA - (int)chB;
cchA -= (int) (lpA - lpAOld);
cchB -= (int) (lpB - lpBOld);
}
if (!nRet)
{
nRet = cchA - cchB;
}
if (nRet)
{
nRet = nRet > 0 ? 1 : -1;
}
return nRet + 2;
}
#endif //UNUSED_DONOTBUILD
#endif // NEED_USER32_WRAPPER
//----------------------------------------------------------------------
//
// function: CompareStringWord( ... )
//
// purpose: Helper for CompareStringWrap.
//
// We handle the word comparsion for CompareStringWrap.
//
// returns: 1 - string A is less in lexical value as string B
// 2 - string B is equal in lexical value as string B
// 3 - string B is greater in lexical value as string B
//
//----------------------------------------------------------------------
static int
CompareStringWord(
LCID lcid,
DWORD dwFlags,
LPCWSTR lpA,
int cchA,
LPCWSTR lpB,
int cchB )
{
// BUGBUG (cthrash) We won't properly support word compare for the
// time being. Do the same old CP_ACP trick, which should cover
// enough cases.
// fail if either string is NULL, as it causes assert on debug windows
if (!lpA || !lpB)
return 0;
CStrIn strA(lpA, cchA);
CStrIn strB(lpB, cchB);
cchA = strA.strlen();
cchB = strB.strlen();
return CompareStringA(lcid, dwFlags, strA, cchA, strB, cchB);
}
//----------------------------------------------------------------------
//
// function: CompareStringWrapW( ... )
//
// purpose: Unicode wrapper of CompareString for Win95.
//
// Note not all bits in dwFlags are honored; specifically,
// since we don't do a true widechar word compare, we
// won't properly handle NORM_IGNORENONSPACE or
// NORM_IGNORESYMBOLS for arbitrary widechar strings.
//
// returns: 1 - string A is less in lexical value as string B
// 2 - string B is equal in lexical value as string B
// 3 - string B is greater in lexical value as string B
//
//----------------------------------------------------------------------
#if UNUSED_DONOTBUILD
#ifdef NEED_USER32_WRAPPER
FUS9xWRAPAPI(int)
CompareStringAltW(
LCID lcid,
DWORD dwFlags,
LPCWSTR lpA,
int cchA,
LPCWSTR lpB,
int cchB )
{
if (g_bRunningOnNT)
{
return CompareStringW(lcid, dwFlags, lpA, cchA, lpB, cchB);
}
int nRet;
if (dwFlags & SORT_STRINGSORT)
{
nRet = CompareStringString(dwFlags, lpA, cchA, lpB, cchB);
}
else
{
nRet = CompareStringWord(lcid, dwFlags, lpA, cchA, lpB, cchB);
}
return nRet;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
int WINAPI
CompareStringWrapW(
LCID Locale,
DWORD dwCmpFlags,
LPCWSTR lpString1,
int cchCount1,
LPCWSTR lpString2,
int cchCount2)
{
VALIDATE_PROTOTYPE(CompareString);
if (g_bRunningOnNT)
{
return CompareStringW(Locale,
dwCmpFlags,
lpString1,
cchCount1,
lpString2,
cchCount2);
}
// fail if either string is NULL, as it causes assert on debug windows
if (!lpString1 || !lpString2)
return 0;
CStrIn strString1(lpString1, cchCount1);
CStrIn strString2(lpString2, cchCount2);
cchCount1 = strString1.strlen();
cchCount2 = strString2.strlen();
return CompareStringA(Locale, dwCmpFlags & ~NORM_STOP_ON_NULL,
strString1, cchCount1, strString2, cchCount2);
}
#endif // NEED_KERNEL32_WRAPPER
#endif //#if UNUSED_DONOTBUILD
#ifdef NEED_USER32_WRAPPER
#ifndef UNIX
BOOL WINAPI
MessageBoxIndirectWrapW(CONST MSGBOXPARAMS *pmbp)
#else
int WINAPI
MessageBoxIndirectWrapW(LPMSGBOXPARAMS pmbp)
#endif /* UNIX */
{
VALIDATE_PROTOTYPE(MessageBoxIndirect);
ASSERT(HIWORD64(pmbp->lpszIcon) == 0);
if (g_bRunningOnNT)
{
return MessageBoxIndirectW(pmbp);
}
CStrIn strText(pmbp->lpszText);
CStrIn strCaption(pmbp->lpszCaption);
MSGBOXPARAMSA mbp;
memcpy(&mbp, pmbp, sizeof(mbp));
mbp.lpszText = strText;
mbp.lpszCaption = strCaption;
return MessageBoxIndirectA(&mbp);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
DWORD GetCharacterPlacementWrapW(
HDC hdc, // handle to device context
LPCTSTR lpString, // pointer to string
int nCount, // number of characters in string
int nMaxExtent, // maximum extent for displayed string
LPGCP_RESULTS lpResults, // pointer to buffer for placement result
DWORD dwFlags // placement flags
)
{
VALIDATE_PROTOTYPE(GetCharacterPlacement);
// Leave for someone else.
ASSERT (lpResults->lpOutString == NULL);
ASSERT (lpResults->lpClass == NULL);
if (g_bRunningOnNT)
{
return GetCharacterPlacementW (hdc,
lpString,
nCount,
nMaxExtent,
lpResults,
dwFlags);
}
CStrIn strText(lpString);
DWORD dwRet;
dwRet = GetCharacterPlacementA (hdc, strText, nCount, nMaxExtent,
(LPGCP_RESULTSA)lpResults,
dwFlags);
return dwRet;
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
//
// Note that we're calling get GetCharWidthA instead of GetCharWidth32A
// because the 32 version doesn't exist under Win95.
BOOL WINAPI GetCharWidth32WrapW(
HDC hdc,
UINT iFirstChar,
UINT iLastChar,
LPINT lpBuffer)
{
VALIDATE_PROTOTYPE(GetCharWidth32);
if (g_bRunningOnNT)
{
return GetCharWidth32W (hdc, iFirstChar, iLastChar, lpBuffer);
}
// Note that we expect to do only one character at a time for anything but
// ISO Latin 1.
if (iFirstChar > 255)
{
UINT mbChar=0;
WCHAR ch;
// Convert string
ch = (WCHAR)iFirstChar;
WideCharToMultiByte(CP_ACP, 0, &ch, 1,
(char *)&mbChar, 2, NULL, NULL);
}
return(GetCharWidthA (hdc, iFirstChar, iLastChar, lpBuffer));
}
#endif // NEED_GDI32_WRAPPER
//
// Note: Win95 does support ExtTextOutW. This thunk is not for
// ANSI/UNICODE wrapping. It's to work around an ISV app bug.
//
// Y'see, there's an app that patches Win95 GDI and their ExtTextOutW handler
// is broken. It always dereferences the lpStr parameter, even if
// cch is zero. Consequently, any time we are about to pass NULL as
// the lpStr, we have to change our mind and pass a null UNICODE string
// instead.
//
// The name of this app: Lotus SmartSuite ScreenCam 97.
//
FUS9xWRAPAPI(BOOL)
ExtTextOutWrapW(HDC hdc, int x, int y, UINT fuOptions, CONST RECT *lprc, LPCWSTR lpStr, UINT cch, CONST INT *lpDx)
{
VALIDATE_PROTOTYPE(ExtTextOut);
if (lpStr == NULL) // Stupid workaround
lpStr = L""; // for ScreenCam 97
return ExtTextOutW(hdc, x, y, fuOptions, lprc, lpStr, cch, lpDx);
}
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
ModifyMenuWrapW(
HMENU hMenu,
UINT uPosition,
UINT uFlags,
UINT_PTR uIDNewItem,
LPCWSTR lpNewItem)
{
VALIDATE_PROTOTYPE(ModifyMenu);
ASSERT(!(uFlags & MF_BITMAP) && !(uFlags & MF_OWNERDRAW));
if (g_bRunningOnNT)
{
return ModifyMenuW(hMenu, uPosition, uFlags, uIDNewItem, lpNewItem);
}
CStrIn str(lpNewItem);
return ModifyMenuA(hMenu, uPosition, uFlags, uIDNewItem, str);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI
CopyFileWrapW(LPCWSTR lpExistingFileName, LPCWSTR lpNewFileName, BOOL bFailIfExists)
{
VALIDATE_PROTOTYPE(CopyFile);
if (g_bRunningOnNT)
{
return CopyFileW(lpExistingFileName, lpNewFileName, bFailIfExists);
}
CStrIn strOld(lpExistingFileName);
CStrIn strNew(lpNewFileName);
return CopyFileA(strOld, strNew, bFailIfExists);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI
MoveFileWrapW(LPCWSTR lpExistingFileName, LPCWSTR lpNewFileName)
{
VALIDATE_PROTOTYPE(MoveFile);
if (g_bRunningOnNT)
{
return MoveFileW(lpExistingFileName, lpNewFileName);
}
CStrIn strOld(lpExistingFileName);
CStrIn strNew(lpNewFileName);
return MoveFileA(strOld, strNew);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
HANDLE WINAPI
OpenEventWrapW(
DWORD fdwAccess,
BOOL fInherit,
LPCWSTR lpszEventName)
{
VALIDATE_PROTOTYPE(OpenEvent);
if (g_bRunningOnNT)
{
return OpenEventW(fdwAccess, fInherit, lpszEventName);
}
CStrIn strEventName(lpszEventName);
return OpenEventA(fdwAccess, fInherit, strEventName);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
VOID WINAPI
OutputDebugStringWrapW(LPCWSTR lpOutputString)
{
VALIDATE_PROTOTYPE(OutputDebugString);
if (g_bRunningOnNT)
{
OutputDebugStringW(lpOutputString);
return;
}
CStrIn str(lpOutputString);
OutputDebugStringA(str);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL FORWARD_API WINAPI
PeekMessageWrapW(
LPMSG lpMsg,
HWND hWnd,
UINT wMsgFilterMin,
UINT wMsgFilterMax,
UINT wRemoveMsg)
{
VALIDATE_PROTOTYPE(PeekMessage);
FORWARD_AW(PeekMessage, (lpMsg, hWnd, wMsgFilterMin, wMsgFilterMax, wRemoveMsg));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_WINMM_WRAPPER
FUS9xWRAPAPI(BOOL)
PlaySoundWrapW(
LPCWSTR pszSound,
HMODULE hmod,
DWORD fdwSound)
{
VALIDATE_PROTOTYPE_DELAYLOAD(PlaySound, _PlaySound);
if (g_bRunningOnNT)
{
return _PlaySoundW(pszSound, hmod, fdwSound);
}
CStrIn strSound(pszSound);
return _PlaySoundA(strSound, hmod, fdwSound);
}
#endif // NEED_WINMM_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL FORWARD_API WINAPI
PostMessageWrapW(
HWND hWnd,
UINT Msg,
WPARAM wParam,
LPARAM lParam)
{
VALIDATE_PROTOTYPE(PostMessage);
FORWARD_AW(PostMessage, (hWnd, Msg, wParam, lParam));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL FORWARD_API WINAPI
PostThreadMessageWrapW(
DWORD idThread,
UINT Msg,
WPARAM wParam,
LPARAM lParam)
{
VALIDATE_PROTOTYPE(PostThreadMessage);
FORWARD_AW(PostThreadMessage, (idThread, Msg, wParam, lParam));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegCreateKeyWrapW(HKEY hKey, LPCWSTR lpSubKey, PHKEY phkResult)
{
VALIDATE_PROTOTYPE(RegCreateKey);
if (g_bRunningOnNT)
{
return RegCreateKeyW(hKey, lpSubKey, phkResult);
}
CStrIn str(lpSubKey);
return RegCreateKeyA(hKey, str, phkResult);
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegCreateKeyExWrapW(HKEY hKey, LPCTSTR lpSubKey, DWORD Reserved, LPTSTR lpClass, DWORD dwOptions, REGSAM samDesired, LPSECURITY_ATTRIBUTES lpSecurityAttributes, PHKEY phkResult, LPDWORD lpdwDisposition)
{
VALIDATE_PROTOTYPE(RegCreateKeyEx);
if (g_bRunningOnNT)
{
return RegCreateKeyExW(hKey, lpSubKey, Reserved, lpClass, dwOptions, samDesired, lpSecurityAttributes, phkResult, lpdwDisposition);
}
CStrIn strSubKey(lpSubKey);
CStrIn strClass(lpClass);
return RegCreateKeyExA(hKey, strSubKey, Reserved, strClass, dwOptions, samDesired, lpSecurityAttributes, phkResult, lpdwDisposition);
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
//
// Subtle difference: RegDeleteKey on Win9x will recursively delete subkeys.
// On NT, it fails if the key being deleted has subkeys. If you need to
// force NT-style behavior, use SHDeleteEmptyKey. To force 95-style
// behavior, use SHDeleteKey.
//
LONG APIENTRY
RegDeleteKeyWrapW(HKEY hKey, LPCWSTR pwszSubKey)
{
VALIDATE_PROTOTYPE(RegDeleteKey);
if (g_bRunningOnNT)
{
return RegDeleteKeyW(hKey, pwszSubKey);
}
CStrIn str(pwszSubKey);
return RegDeleteKeyA(hKey, str);
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegDeleteValueWrapW(HKEY hKey, LPCWSTR pwszSubKey)
{
VALIDATE_PROTOTYPE(RegDeleteValue);
if (g_bRunningOnNT)
{
return RegDeleteValueW(hKey, pwszSubKey);
}
CStrIn str(pwszSubKey);
return RegDeleteValueA(hKey, str);
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegEnumKeyWrapW(
HKEY hKey,
DWORD dwIndex,
LPWSTR lpName,
DWORD cbName)
{
VALIDATE_PROTOTYPE(RegEnumKey);
VALIDATE_OUTBUF(lpName, cbName);
if (g_bRunningOnNT)
{
return RegEnumKeyW(hKey, dwIndex, lpName, cbName);
}
CStrOut str(lpName, cbName);
return RegEnumKeyA(hKey, dwIndex, str, str.BufSize());
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegEnumKeyExWrapW(
HKEY hKey,
DWORD dwIndex,
LPWSTR lpName,
LPDWORD lpcbName,
LPDWORD lpReserved,
LPWSTR lpClass,
LPDWORD lpcbClass,
PFILETIME lpftLastWriteTime)
{
VALIDATE_PROTOTYPE(RegEnumKeyEx);
if (lpcbName)
{
VALIDATE_OUTBUF(lpName, *lpcbName);
}
if (lpcbClass)
{
VALIDATE_OUTBUF(lpClass, *lpcbClass);
}
if (g_bRunningOnNT)
{
return RegEnumKeyExW(
hKey,
dwIndex,
lpName,
lpcbName,
lpReserved,
lpClass,
lpcbClass,
lpftLastWriteTime);
}
long ret;
DWORD dwClass = 0;
if (!lpcbClass)
{
lpcbClass = &dwClass;
}
CStrOut strName(lpName, *lpcbName);
CStrOut strClass(lpClass, *lpcbClass);
ret = RegEnumKeyExA(
hKey,
dwIndex,
strName,
lpcbName,
lpReserved,
strClass,
lpcbClass,
lpftLastWriteTime);
*lpcbName = strName.ConvertExcludingNul();
*lpcbClass = strClass.ConvertExcludingNul();
return ret;
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG WINAPI RegEnumValueWrapW(HKEY hkey, DWORD dwIndex, LPWSTR lpValueName,
LPDWORD lpcbValueName, LPDWORD lpReserved,
LPDWORD lpType, LPBYTE lpData, LPDWORD lpcbData)
{
VALIDATE_PROTOTYPE(RegEnumValue);
LONG lRet;
if (UseUnicodeShell32())
{
lRet = RegEnumValueW(hkey, dwIndex, lpValueName, lpcbValueName,
lpReserved, lpType, lpData, lpcbData);
}
else
{
CStrOut stroValueName(lpValueName, *lpcbValueName);
DWORD dwTypeTemp;
if (lpData)
{
ASSERT(lpcbData);
CStrOut stroData((LPWSTR)lpData, (*lpcbData) / sizeof(WCHAR));
lRet = RegEnumValueA(hkey, dwIndex, stroValueName, lpcbValueName,
lpReserved, &dwTypeTemp,
(LPBYTE)(LPSTR)stroData, lpcbData);
if (ERROR_SUCCESS == lRet)
{
if (REG_SZ == dwTypeTemp)
{
*lpcbData = sizeof(WCHAR) * stroData.ConvertIncludingNul();
}
else if (REG_BINARY == dwTypeTemp)
{
stroData.CopyNoConvert(*lpcbData);
}
}
}
else
{
lRet = RegEnumValueA(hkey, dwIndex, stroValueName, lpcbValueName,
lpReserved, &dwTypeTemp, lpData, lpcbData);
}
if (ERROR_SUCCESS == lRet)
*lpcbValueName = stroValueName.ConvertExcludingNul();
if (lpType)
*lpType = dwTypeTemp;
}
return lRet;
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegOpenKeyWrapW(HKEY hKey, LPCWSTR pwszSubKey, PHKEY phkResult)
{
VALIDATE_PROTOTYPE(RegOpenKey);
if (g_bRunningOnNT)
{
return RegOpenKeyW(hKey, pwszSubKey, phkResult);
}
CStrIn str(pwszSubKey);
return RegOpenKeyA(hKey, str, phkResult);
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegOpenKeyExWrapW(
HKEY hKey,
LPCWSTR lpSubKey,
DWORD ulOptions,
REGSAM samDesired,
PHKEY phkResult)
{
VALIDATE_PROTOTYPE(RegOpenKeyEx);
if (g_bRunningOnNT)
{
return RegOpenKeyExW(hKey, lpSubKey, ulOptions, samDesired, phkResult);
}
CStrIn str(lpSubKey);
return RegOpenKeyExA(hKey, str, ulOptions, samDesired, phkResult);
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegQueryInfoKeyWrapW(
HKEY hKey,
LPWSTR lpClass,
LPDWORD lpcbClass,
LPDWORD lpReserved,
LPDWORD lpcSubKeys,
LPDWORD lpcbMaxSubKeyLen,
LPDWORD lpcbMaxClassLen,
LPDWORD lpcValues,
LPDWORD lpcbMaxValueNameLen,
LPDWORD lpcbMaxValueLen,
LPDWORD lpcbSecurityDescriptor,
PFILETIME lpftLastWriteTime)
{
VALIDATE_PROTOTYPE(RegQueryInfoKey);
if (g_bRunningOnNT)
{
return RegQueryInfoKeyW(
hKey,
lpClass,
lpcbClass,
lpReserved,
lpcSubKeys,
lpcbMaxSubKeyLen,
lpcbMaxClassLen,
lpcValues,
lpcbMaxValueNameLen,
lpcbMaxValueLen,
lpcbSecurityDescriptor,
lpftLastWriteTime);
}
CStrIn str(lpClass);
return RegQueryInfoKeyA(
hKey,
str,
lpcbClass,
lpReserved,
lpcSubKeys,
lpcbMaxSubKeyLen,
lpcbMaxClassLen,
lpcValues,
lpcbMaxValueNameLen,
lpcbMaxValueLen,
lpcbSecurityDescriptor,
lpftLastWriteTime);
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegQueryValueWrapW(
HKEY hKey,
LPCWSTR pwszSubKey,
LPWSTR pwszValue,
PLONG lpcbValue)
{
VALIDATE_PROTOTYPE(RegQueryValue);
if (lpcbValue)
{
VALIDATE_OUTBUF(pwszValue, *lpcbValue);
}
if (g_bRunningOnNT)
{
return RegQueryValueW(hKey, pwszSubKey, pwszValue, lpcbValue);
}
long ret;
long cb;
CStrIn strKey(pwszSubKey);
CStrOut strValue(pwszValue, (lpcbValue ? ((*lpcbValue) / sizeof(WCHAR)) : 0));
cb = strValue.BufSize();
ret = RegQueryValueA(hKey, strKey, strValue, (lpcbValue ? &cb : NULL));
if (ret != ERROR_SUCCESS)
goto Cleanup;
if (strValue)
{
cb = strValue.ConvertIncludingNul();
}
if (lpcbValue)
*lpcbValue = cb * sizeof(WCHAR);
Cleanup:
return ret;
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegQueryValueExWrapW(
HKEY hKey,
LPCWSTR lpValueName,
LPDWORD lpReserved,
LPDWORD lpType,
LPBYTE lpData,
LPDWORD lpcbData)
{
VALIDATE_PROTOTYPE(RegQueryValueEx);
if (lpcbData)
{
VALIDATE_OUTBUF(lpData, *lpcbData);
}
LONG ret;
DWORD dwTempType;
if (g_bRunningOnNT)
{
#if DBG
if (lpType == NULL)
lpType = &dwTempType;
#endif
ret = RegQueryValueExW(hKey, lpValueName, lpReserved, lpType, lpData, lpcbData);
if (ret == ERROR_SUCCESS)
{
// The Win9x wrapper does not support REG_MULTI_SZ, so it had
// better not be one
ASSERT(*lpType != REG_MULTI_SZ);
}
return ret;
}
CStrIn strValueName(lpValueName);
DWORD cb;
//
// Determine the type of buffer needed
//
ret = RegQueryValueExA(hKey, strValueName, lpReserved, &dwTempType, NULL, (lpcbData ? &cb : NULL));
if (ret != ERROR_SUCCESS)
goto Cleanup;
ASSERT(dwTempType != REG_MULTI_SZ);
switch (dwTempType)
{
case REG_EXPAND_SZ:
case REG_SZ:
{
CStrOut strData((LPWSTR) lpData, (lpcbData ? ((*lpcbData) / sizeof(WCHAR)) : 0));
cb = strData.BufSize();
ret = RegQueryValueExA(hKey, strValueName, lpReserved, lpType, (LPBYTE)(LPSTR)strData, (lpcbData ? &cb : NULL));
if (ret != ERROR_SUCCESS)
break;
if (strData)
{
cb = strData.ConvertIncludingNul();
}
if (lpcbData)
*lpcbData = cb * sizeof(WCHAR);
break;
}
default:
{
ret = RegQueryValueExA(
hKey,
strValueName,
lpReserved,
lpType,
lpData,
lpcbData);
break;
}
}
Cleanup:
return ret;
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegSetValueWrapW(
HKEY hKey,
LPCWSTR lpSubKey,
DWORD dwType,
LPCWSTR lpData,
DWORD cbData)
{
VALIDATE_PROTOTYPE(RegSetValue);
if (g_bRunningOnNT)
{
return RegSetValueW(hKey, lpSubKey, dwType, lpData, cbData);
}
CStrIn strKey(lpSubKey);
CStrIn strValue(lpData);
return RegSetValueA(hKey, strKey, dwType, strValue, cbData);
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_ADVAPI32_WRAPPER
LONG APIENTRY
RegSetValueExWrapW(
HKEY hKey,
LPCWSTR lpValueName,
DWORD Reserved,
DWORD dwType,
CONST BYTE* lpData,
DWORD cbData)
{
VALIDATE_PROTOTYPE(RegSetValueEx);
ASSERT(dwType != REG_MULTI_SZ);
if (g_bRunningOnNT)
{
return RegSetValueExW(
hKey,
lpValueName,
Reserved,
dwType,
lpData,
cbData);
}
CStrIn strKey(lpValueName);
CStrIn strSZ((dwType == REG_SZ || dwType == REG_EXPAND_SZ) ? (LPCWSTR) lpData : NULL);
if (strSZ)
{
lpData = (LPBYTE) (LPSTR) strSZ;
cbData = strSZ.strlen() + 1;
}
return RegSetValueExA(
hKey,
strKey,
Reserved,
dwType,
lpData,
cbData);
}
#endif // NEED_ADVAPI32_WRAPPER
#ifdef NEED_USER32_WRAPPER
ATOM WINAPI
RegisterClassWrapW(CONST WNDCLASSW * lpWndClass)
{
VALIDATE_PROTOTYPE(RegisterClass);
if (g_bRunningOnNT)
{
return RegisterClassW(lpWndClass);
}
WNDCLASSA wc;
CStrIn strMenuName(lpWndClass->lpszMenuName);
CStrIn strClassName(lpWndClass->lpszClassName);
ASSERT(sizeof(wc) == sizeof(*lpWndClass));
memcpy(&wc, lpWndClass, sizeof(wc));
wc.lpszMenuName = strMenuName;
wc.lpszClassName = strClassName;
return RegisterClassA(&wc);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
UINT WINAPI
RegisterClipboardFormatWrapW(LPCWSTR lpString)
{
VALIDATE_PROTOTYPE(RegisterClipboardFormat);
if (g_bRunningOnNT)
{
return RegisterClipboardFormatW(lpString);
}
CStrIn str(lpString);
return RegisterClipboardFormatA(str);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
UINT WINAPI
RegisterWindowMessageWrapW(LPCWSTR lpString)
{
VALIDATE_PROTOTYPE(RegisterWindowMessage);
if (g_bRunningOnNT)
{
return RegisterWindowMessageW(lpString);
}
CStrIn str(lpString);
return RegisterWindowMessageA(str);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI
RemoveDirectoryWrapW(LPCWSTR lpszDir)
{
VALIDATE_PROTOTYPE(RemoveDirectory);
if (g_bRunningOnNT)
{
return RemoveDirectoryW(lpszDir);
}
CStrIn strDir(lpszDir);
return RemoveDirectoryA(strDir);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HANDLE WINAPI
RemovePropWrapW(
HWND hWnd,
LPCWSTR lpString)
{
VALIDATE_PROTOTYPE(RemoveProp);
if (g_bRunningOnNT)
{
return RemovePropW(hWnd, lpString);
}
CStrIn str(lpString);
return RemovePropA(hWnd, str);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
LRESULT WINAPI SendMessageWrapW(HWND hWnd, UINT Msg, WPARAM wParam, LPARAM lParam);
// NOTE (SumitC) Instead of calling SendDlgItemMessageA below, I'm forwarding to
// SendMessageWrap so as not to have to re-do the special-case processing.
LRESULT WINAPI
SendDlgItemMessageWrapW(
HWND hDlg,
int nIDDlgItem,
UINT Msg,
WPARAM wParam,
LPARAM lParam)
{
VALIDATE_PROTOTYPE(SendDlgItemMessage);
if (g_bRunningOnNT)
{
return SendDlgItemMessageW(hDlg, nIDDlgItem, Msg, wParam, lParam);
}
HWND hWnd;
hWnd = GetDlgItem(hDlg, nIDDlgItem);
return SendMessageWrapW(hWnd, Msg, wParam, lParam);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
#if DBG
int g_cSMTot, g_cSMHit;
int g_cSMMod = 100;
#endif
LRESULT WINAPI
SendMessageAThunk(
HWND hWnd,
UINT Msg,
WPARAM wParam,
LPARAM lParam)
{
#if 0 && DBG
if ((g_cSMTot % g_cSMMod) == 0)
TraceMsg(DM_PERF, "sm: tot=%d hit=%d", g_cSMTot, g_cSMHit);
#endif
#if 0 //nadima took this out
DBEXEC(TRUE, g_cSMTot++);
// todo: perf? seems to be pretty common case, at least for now...
DBEXEC(Msg > WM_USER, g_cSMHit++);
#endif
#if 0
if (Msg > WM_USER)
goto Ldef;
#endif
switch (Msg)
{
case WM_GETTEXT:
{
CStrOut str((LPWSTR)lParam, (int) wParam);
return SendMessageA(hWnd, Msg, (WPARAM) str.BufSize(), (LPARAM) (LPSTR) str);
}
case EM_GETLINE:
{
LRESULT nLen;
CStrOut str((LPWSTR) lParam, (* (SHORT *) lParam) + 1);
* (SHORT *) (LPSTR) str = * (SHORT *) lParam;
nLen = SendMessageA(hWnd, Msg, (WPARAM) wParam, (LPARAM) (LPSTR) str);
if (nLen > 0)
((LPSTR) str)[nLen] = '\0';
return nLen;
}
case WM_SETTEXT:
case CB_ADDSTRING:
case EM_REPLACESEL:
ASSERT(wParam == 0 && "wParam should be 0 for these messages");
// fall through
case CB_SELECTSTRING:
case CB_FINDSTRINGEXACT:
case CB_FINDSTRING:
case CB_INSERTSTRING:
{
CStrIn str((LPWSTR) lParam);
return SendMessageA(hWnd, Msg, wParam, (LPARAM) (LPSTR) str);
}
case LB_ADDSTRING:
case LB_INSERTSTRING:
case LB_FINDSTRINGEXACT:
{
LONG wndStyle = GetWindowLongA( hWnd, GWL_STYLE);
// (nadima)
// If the control is an ownerdraw and does not have
// LBS_HASSTRINGS then treat lParam as an opaque ptr
// NOT a string. This fixes a bug in this original code
// which would mess up our browse for servers UI
//
if(hWnd && !(wndStyle & LBS_HASSTRINGS) &&
(wndStyle & (LBS_OWNERDRAWFIXED | LBS_OWNERDRAWVARIABLE)))
{
return SendMessageA(hWnd, Msg, wParam, lParam);
}
else
{
//Otherwise it really is a string so convert it
CStrIn str((LPWSTR) lParam);
return SendMessageA(hWnd, Msg, wParam, (LPARAM) (LPSTR) str);
}
}
case LB_GETTEXT:
case CB_GETLBTEXT:
{
CStrOut str((LPWSTR)lParam, 255);
return SendMessageA(hWnd, Msg, wParam, (LPARAM) (LPSTR) str);
}
case EM_SETPASSWORDCHAR:
{
WPARAM wp = 0;
ASSERT(HIWORD64(wParam) == 0);
SHUnicodeToAnsi((LPWSTR) &wParam, (LPSTR) &wp, sizeof(wp));
ASSERT(HIWORD64(wp) == 0);
return SendMessageA(hWnd, Msg, wp, lParam);
}
case TCM_INSERTITEM:
{
LPTCITEM lptc = (LPTCITEM) lParam;
LPWSTR wszOldStr = NULL;
LRESULT lr;
if(lptc && (lptc->mask & TCIF_TEXT) && lptc->pszText)
{
//
// Cheat by using the same LPTCITEM but converting
// the text field
//
wszOldStr = lptc->pszText;
CStrIn str(lptc->pszText);
// hack to force str to convert to ANSI and then assign
// back to the same structure.
lptc->pszText = (LPTSTR)((char*) str);
//translate the message TCM_INSERTITEMA is a different
//value than TCM_INSERTITEMW
lr = SendMessageA( hWnd, TCM_INSERTITEMA, wParam, (LPARAM) lptc);
//
// replace the old string
//
lptc->pszText = wszOldStr;
return lr;
}
else
{
//translate the message TCM_INSERTITEMA is a different
//value than TCM_INSERTITEMW
return SendMessageA( hWnd, TCM_INSERTITEMA, wParam, lParam);
}
}
break;
case CBEM_INSERTITEM:
{
LPWSTR wszOldStr = NULL;
LRESULT lr;
PCOMBOBOXEXITEM pcex = (PCOMBOBOXEXITEM)lParam;
if(pcex && (pcex->mask & CBEIF_TEXT) && pcex->pszText)
{
//
// Cheat by using the same PCOMBOBOXEXITEM but converting
// the text field
//
wszOldStr = pcex->pszText;
CStrIn str(pcex->pszText);
// hack to force str to convert to ANSI and then assign
// back to the same structure.
pcex->pszText = (LPTSTR)((char*) str);
//translate the message CBEM_INSERTITEMW is a different
//value than CBEM_INSERTITEMA
lr = SendMessageA( hWnd, CBEM_INSERTITEMA, wParam, (LPARAM) pcex);
//
// replace the old string
//
pcex->pszText = wszOldStr;
return lr;
}
else
{
//Just translate the message
return SendMessageA( hWnd, CBEM_INSERTITEMA, wParam, lParam);
}
}
break;
case TVM_INSERTITEM:
{
LPWSTR wszOldStr = NULL;
LRESULT lr;
LPTVINSERTSTRUCT lptv = (LPTVINSERTSTRUCT) lParam;
if(lptv && (lptv->item.mask & TVIF_TEXT) && lptv->item.pszText)
{
//
// Cheat by using the same LPTVINSERTSTRUCT but converting
// the text field
//
wszOldStr = lptv->item.pszText;
CStrIn str(lptv->item.pszText);
// hack to force str to convert to ANSI and then assign
// back to the same structure.
lptv->item.pszText = (LPTSTR)((char*) str);
//translate the message TVM_INSERTITEMW is a different
//value than TVM_INSERTITEMA
lr = SendMessageA( hWnd, TVM_INSERTITEMA, wParam, (LPARAM) lptv);
//
// replace the old string
//
lptv->item.pszText = wszOldStr;
return lr;
}
else
{
//Just translate the message
return SendMessageA( hWnd, TVM_INSERTITEMA, wParam, lParam);
}
return 0;
}
break;
case TVM_GETITEM:
{
//UNHANDLED case: retreiving text from the tree
//this is a nightmare because the memory could normally
//be allocated by the tree control and so there would be
//no good place to free it in UNIWRAP. Luckily nothing in tsclient
//does this right now, but if that changes pop an assert and
//add support.
LPTVITEM ptvi = (LPTVITEM)lParam;
if(ptvi)
{
//Unsupported
ASSERT(!((ptvi->mask & TVIF_TEXT)));
}
return SendMessageA( hWnd, Msg, wParam, lParam);
}
break;
case CBEM_SETITEM:
case CBEM_GETITEM:
case TCM_GETITEM:
case TCM_SETITEM:
case TTM_DELTOOL:
case TTM_ADDTOOL:
case TVM_SETITEM:
{
//UNHANDLED case, need to add support if we start using these
ASSERT(0);
// Bad things can happen here if UNICODE strings
// are not converted
return SendMessageA(hWnd, Msg, wParam, lParam);
}
break;
case TB_ADDBUTTONS:
{
//Translate to the A version
return SendMessageA(hWnd, TB_ADDBUTTONSA, wParam, lParam);
}
break;
default:
//Ldef:
return SendMessageA(hWnd, Msg, wParam, lParam);
}
}
LRESULT FORWARD_API WINAPI
SendMessageWrapW(
HWND hWnd,
UINT Msg,
WPARAM wParam,
LPARAM lParam)
{
VALIDATE_PROTOTYPE(SendMessage);
// perf: we should do _asm here (see CallWindowProcWrapW), but
// to do that we need to 'outline' the below switch (o.w. we
// can't be 'naked'). that in turn slows down the non-NT case...
// n.b. THUNK not FORWARD
THUNK_AW(SendMessage, (hWnd, Msg, wParam, lParam));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI
SetCurrentDirectoryWrapW(LPCWSTR lpszCurDir)
{
VALIDATE_PROTOTYPE(SetCurrentDirectory);
if (g_bRunningOnNT)
{
return SetCurrentDirectoryW(lpszCurDir);
}
CStrIn str(lpszCurDir);
return SetCurrentDirectoryA(str);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
SetDlgItemTextWrapW(HWND hDlg, int nIDDlgItem, LPCWSTR lpString)
{
VALIDATE_PROTOTYPE(SetDlgItemText);
if (g_bRunningOnNT)
{
return SetDlgItemTextW(hDlg, nIDDlgItem, lpString);
}
CStrIn str(lpString);
return SetDlgItemTextA(hDlg, nIDDlgItem, str);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
SetMenuItemInfoWrapW(
HMENU hMenu,
UINT uItem,
BOOL fByPosition,
LPCMENUITEMINFOW lpmiiW)
{
VALIDATE_PROTOTYPE(SetMenuItemInfo);
ASSERT(lpmiiW->cbSize == MENUITEMINFOSIZE_WIN95); // Ensure Win95 compatibility
if (g_bRunningOnNT)
{
return SetMenuItemInfoW( hMenu, uItem, fByPosition, lpmiiW);
}
BOOL fRet;
ASSERT( sizeof(MENUITEMINFOW) == sizeof(MENUITEMINFOA) &&
FIELD_OFFSET(MENUITEMINFOW, dwTypeData) ==
FIELD_OFFSET(MENUITEMINFOA, dwTypeData) );
if ( (MIIM_TYPE & lpmiiW->fMask) &&
0 == (lpmiiW->fType & (MFT_BITMAP | MFT_SEPARATOR)))
{
MENUITEMINFOA miiA;
// the cch is ignored on SetMenuItemInfo
CStrIn str((LPWSTR)lpmiiW->dwTypeData, -1);
memcpy( &miiA, lpmiiW, sizeof(MENUITEMINFOA) );
miiA.dwTypeData = (LPSTR)str;
miiA.cch = str.strlen();
fRet = SetMenuItemInfoA( hMenu, uItem, fByPosition, &miiA );
}
else
{
fRet = SetMenuItemInfoA( hMenu, uItem, fByPosition,
(LPCMENUITEMINFOA)lpmiiW );
}
return fRet;
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
SetPropWrapW(
HWND hWnd,
LPCWSTR lpString,
HANDLE hData)
{
VALIDATE_PROTOTYPE(SetProp);
if (g_bRunningOnNT)
{
return SetPropW(hWnd, lpString, hData);
}
CStrIn str(lpString);
return SetPropA(hWnd, str, hData);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
LONG FORWARD_API WINAPI
SetWindowLongWrapW(HWND hWnd, int nIndex, LONG dwNewLong)
{
VALIDATE_PROTOTYPE(SetWindowLong);
FORWARD_AW(SetWindowLong, (hWnd, nIndex, dwNewLong));
}
LONG_PTR FORWARD_API WINAPI
SetWindowLongPtrWrapW(
HWND hWnd,
int nIndex,
LONG_PTR dwNewLong)
{
VALIDATE_PROTOTYPE(SetWindowLongPtr);
FORWARD_AW(SetWindowLongPtr, (hWnd, nIndex, dwNewLong));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HHOOK
FORWARD_API WINAPI
SetWindowsHookExWrapW(
int idHook,
HOOKPROC lpfn,
HINSTANCE hmod,
DWORD dwThreadId)
{
VALIDATE_PROTOTYPE(SetWindowsHookEx);
FORWARD_AW(SetWindowsHookEx, (idHook, lpfn, hmod, dwThreadId));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
SetWindowTextWrapW(HWND hWnd, LPCWSTR lpString)
{
VALIDATE_PROTOTYPE(SetWindowText);
if (g_bRunningOnNT)
{
return SetWindowTextW(hWnd, lpString);
}
CStrIn str(lpString);
return SetWindowTextA(hWnd, str);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
SystemParametersInfoWrapW(
UINT uiAction,
UINT uiParam,
PVOID pvParam,
UINT fWinIni)
{
VALIDATE_PROTOTYPE(SystemParametersInfo);
if (g_bRunningOnNT)
{
return SystemParametersInfoW(
uiAction,
uiParam,
pvParam,
fWinIni);
}
BOOL ret;
char ach[LF_FACESIZE];
if (uiAction == SPI_SETDESKWALLPAPER)
{
CStrIn str((LPCWSTR) pvParam);
ret = SystemParametersInfoA(
uiAction,
uiParam,
str,
fWinIni);
}
else
ret = SystemParametersInfoA(
uiAction,
uiParam,
pvParam,
fWinIni);
if ((uiAction == SPI_GETICONTITLELOGFONT) && ret)
{
strcpy(ach, ((LPLOGFONTA)pvParam)->lfFaceName);
SHAnsiToUnicode(ach, ((LPLOGFONTW)pvParam)->lfFaceName, ARRAYSIZE(((LPLOGFONTW)pvParam)->lfFaceName));
}
return ret;
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
int FORWARD_API WINAPI
TranslateAcceleratorWrapW(HWND hWnd, HACCEL hAccTable, LPMSG lpMsg)
{
VALIDATE_PROTOTYPE(TranslateAccelerator);
FORWARD_AW(TranslateAccelerator, (hWnd, hAccTable, lpMsg));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
UnregisterClassWrapW(LPCWSTR lpClassName, HINSTANCE hInstance)
{
VALIDATE_PROTOTYPE(UnregisterClass);
if (g_bRunningOnNT)
{
return UnregisterClassW(lpClassName, hInstance);
}
CStrIn str(lpClassName);
return UnregisterClassA(str, hInstance);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
SHORT
WINAPI
VkKeyScanWrapW(WCHAR ch)
{
VALIDATE_PROTOTYPE(VkKeyScan);
if (g_bRunningOnNT)
{
return VkKeyScanW(ch);
}
CStrIn str(&ch, 1);
return VkKeyScanA(*(char *)str);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI
WinHelpWrapW(HWND hwnd, LPCWSTR szFile, UINT uCmd, ULONG_PTR dwData)
{
VALIDATE_PROTOTYPE(WinHelp);
if (g_bRunningOnNT)
{
return WinHelpW(hwnd, szFile, uCmd, dwData);
}
CStrIn str(szFile);
return WinHelpA(hwnd, str, uCmd, dwData);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
//+---------------------------------------------------------------------------
//
// Function: wsprintfW
//
// Synopsis: Nightmare string function
//
// Arguments: [pwszOut] --
// [pwszFormat] --
// [...] --
//
// Returns:
//
// History: 1-06-94 ErikGav Created
//
// Notes: If you're reading this, you're probably having a problem with
// this function. Make sure that your "%s" in the format string
// says "%ws" if you are passing wide strings.
//
// %s on NT means "wide string"
// %s on Chicago means "ANSI string"
//
// BUGBUG: This function should not be used. Use Format instead.
//
//----------------------------------------------------------------------------
int WINAPI
wvsprintfWrapW(LPWSTR pwszOut, LPCWSTR pwszFormat, va_list arglist)
{
VALIDATE_PROTOTYPE(wvsprintf);
if (g_bRunningOnNT)
{
return wvsprintfW(pwszOut, pwszFormat, arglist);
}
// Consider: Out-string bufsize too large or small?
CStrOut strOut(pwszOut, 1024);
CStrIn strFormat(pwszFormat);
#if DBG == 1 /* { */
{
LPCWSTR pwch;
for (pwch = pwszFormat; *pwch; pwch++)
{
ASSERT(pwch[0] != L'%' || pwch[1] != L's');
}
}
#endif /* } */
wvsprintfA(strOut, strFormat, arglist);
return strOut.ConvertExcludingNul();
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_MPR_WRAPPER
//+---------------------------------------------------------------------------
//
// Function: WNetRestoreConnectionWrapW
//
//----------------------------------------------------------------------------
DWORD WINAPI WNetRestoreConnectionWrapW(IN HWND hwndParent, IN LPCWSTR pwzDevice)
{
VALIDATE_PROTOTYPE(WNetRestoreConnection);
if (g_bRunningOnNT)
{
return WNetRestoreConnectionW(hwndParent, pwzDevice);
}
CStrIn strIn(pwzDevice);
return WNetRestoreConnectionA(hwndParent, strIn);
}
#endif // NEED_MPR_WRAPPER
#ifdef NEED_MPR_WRAPPER
//+---------------------------------------------------------------------------
//
// Function: WNetGetLastErrorWrapW
//
//
//----------------------------------------------------------------------------
DWORD WINAPI WNetGetLastErrorWrapW(OUT LPDWORD pdwError, OUT LPWSTR pwzErrorBuf, IN DWORD cchErrorBufSize, OUT LPWSTR pwzNameBuf, IN DWORD cchNameBufSize)
{
VALIDATE_PROTOTYPE(WNetGetLastError);
if (g_bRunningOnNT)
{
return WNetGetLastErrorW(pdwError, pwzErrorBuf, cchErrorBufSize, pwzNameBuf, cchNameBufSize);
}
// Consider: Out-string bufsize too large or small?
CStrOut strErrorOut(pwzErrorBuf, cchErrorBufSize);
CStrOut strNameOut(pwzNameBuf, cchNameBufSize);
DWORD dwResult = WNetGetLastErrorA(pdwError, strErrorOut, strErrorOut.BufSize(), strNameOut, strNameOut.BufSize());
strErrorOut.ConvertExcludingNul();
strNameOut.ConvertExcludingNul();
return dwResult;
}
#endif // NEED_MPR_WRAPPER
#ifdef NEED_USER32_WRAPPER
int WINAPI DrawTextExWrapW(
HDC hdc, // handle of device context
LPWSTR pwzText, // address of string to draw
int cchText, // length of string to draw
LPRECT lprc, // address of rectangle coordinates
UINT dwDTFormat, // formatting options
LPDRAWTEXTPARAMS lpDTParams // address of structure for more options
)
{
VALIDATE_PROTOTYPE(DrawTextEx);
if (g_bRunningOnNT)
return DrawTextExW(hdc, pwzText, cchText, lprc, dwDTFormat, lpDTParams);
CStrIn strText(pwzText, cchText);
return DrawTextExA(hdc, strText, strText.strlen(), lprc, dwDTFormat, lpDTParams);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
void SetThunkMenuItemInfoWToA(LPCMENUITEMINFOW pmiiW, LPMENUITEMINFOA pmiiA, LPSTR pszBuffer, DWORD cchSize)
{
*pmiiA = *(LPMENUITEMINFOA) pmiiW;
// MFT_STRING is Zero. So MFT_STRING & anything evaluates to False.
if ((pmiiW->dwTypeData) && (MFT_STRING & pmiiW->fType) == 0)
{
pmiiA->dwTypeData = pszBuffer;
pmiiA->cch = cchSize;
SHUnicodeToAnsi(pmiiW->dwTypeData, pmiiA->dwTypeData, cchSize);
}
}
void GetThunkMenuItemInfoWToA(LPCMENUITEMINFOW pmiiW, LPMENUITEMINFOA pmiiA, LPSTR pszBuffer, DWORD cchSize)
{
*pmiiA = *(LPMENUITEMINFOA) pmiiW;
if ((pmiiW->dwTypeData) && (MFT_STRING & pmiiW->fType))
{
pszBuffer[0] = 0;
pmiiA->dwTypeData = pszBuffer;
pmiiA->cch = cchSize;
}
}
void GetThunkMenuItemInfoAToW(LPCMENUITEMINFOA pmiiA, LPMENUITEMINFOW pmiiW)
{
LPWSTR pwzText = pmiiW->dwTypeData;
*pmiiW = *(LPMENUITEMINFOW) pmiiA;
pmiiW->dwTypeData = pwzText;
if ((pmiiA->dwTypeData) && (pwzText) && !((MFT_SEPARATOR | MFT_BITMAP) & pmiiW->fType))
SHAnsiToUnicode(pmiiA->dwTypeData, pmiiW->dwTypeData, (pmiiW->cch + 1));
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
#if UNUSED_DONOTBUILD
BOOL WINAPI GetMenuItemInfoWrapW(
HMENU hMenu,
UINT uItem,
BOOL fByPosition,
LPMENUITEMINFOW pmiiW)
{
BOOL fResult;
VALIDATE_PROTOTYPE(GetMenuItemInfo);
ASSERT(pmiiW->cbSize == MENUITEMINFOSIZE_WIN95); // Ensure Win95 compatibility
#ifndef UNIX
// Widechar API's are messed up in MAINWIN. For now assume not ruuning on
// NT for this.
if (g_bRunningOnNT)
fResult = GetMenuItemInfoW(hMenu, uItem, fByPosition, pmiiW);
else
#endif
{
if (pmiiW->fMask & MIIM_TYPE)
{
MENUITEMINFOA miiA = *(LPMENUITEMINFOA)pmiiW;
LPSTR pszText = NULL;
if (pmiiW->cch > 0)
pszText = NEW(char[pmiiW->cch]);
miiA.dwTypeData = pszText;
fResult = GetMenuItemInfoA(hMenu, uItem, fByPosition, &miiA);
GetThunkMenuItemInfoAToW(&miiA, pmiiW);
if (pszText)
delete pszText;
}
else
fResult = GetMenuItemInfoA(hMenu, uItem, fByPosition, (LPMENUITEMINFOA) pmiiW); // It doesn't contain a string so W and A are the same.
}
return fResult;
}
#endif // UNUSED_DONOTBUILD
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
BOOL WINAPI InsertMenuItemWrapW(
HMENU hMenu,
UINT uItem,
BOOL fByPosition,
LPCMENUITEMINFOW pmiiW)
{
VALIDATE_PROTOTYPE(InsertMenuItem);
ASSERT(pmiiW->cbSize == MENUITEMINFOSIZE_WIN95); // Ensure Win95 compatibility
BOOL fResult;
if (g_bRunningOnNT)
return InsertMenuItemW(hMenu, uItem, fByPosition, pmiiW);
MENUITEMINFOA miiA;
CHAR szText[MAX_PATH*3]; //nadima changed from INTERNET_MAX_URL_LENGTH
SetThunkMenuItemInfoWToA(pmiiW, &miiA, szText, ARRAYSIZE(szText));
fResult = InsertMenuItemA(hMenu, uItem, fByPosition, &miiA);
return fResult;
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
HFONT WINAPI
CreateFontWrapW(int nHeight, // logical height of font
int nWidth, // logical average character width
int nEscapement, // angle of escapement
int nOrientation, // base-line orientation angle
int fnWeight, // font weight
DWORD fdwItalic, // italic attribute flag
DWORD fdwUnderline, // underline attribute flag
DWORD fdwStrikeOut, // strikeout attribute flag
DWORD fdwCharSet, // character set identifier
DWORD fdwOutputPrecision, // output precision
DWORD fdwClipPrecision, // clipping precision
DWORD fdwQuality, // output quality
DWORD fdwPitchAndFamily, // pitch and family
LPCWSTR pwzFace) // address of typeface name string )
{
VALIDATE_PROTOTYPE(CreateFont);
if (g_bRunningOnNT)
{
return CreateFontW(nHeight, nWidth, nEscapement, nOrientation, fnWeight, fdwItalic,
fdwUnderline, fdwStrikeOut, fdwCharSet, fdwOutputPrecision,
fdwClipPrecision, fdwQuality, fdwPitchAndFamily, pwzFace);
}
CStrIn str(pwzFace);
return CreateFontA(nHeight, nWidth, nEscapement, nOrientation, fnWeight, fdwItalic,
fdwUnderline, fdwStrikeOut, fdwCharSet, fdwOutputPrecision,
fdwClipPrecision, fdwQuality, fdwPitchAndFamily, str);
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
HANDLE WINAPI CreateMutexWrapW(LPSECURITY_ATTRIBUTES lpMutexAttributes, BOOL bInitialOwner, LPCWSTR pwzName)
{
VALIDATE_PROTOTYPE(CreateMutex);
if (g_bRunningOnNT)
return CreateMutexW(lpMutexAttributes, bInitialOwner, pwzName);
CStrIn strText(pwzName);
return CreateMutexA(lpMutexAttributes, bInitialOwner, strText);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
HDC WINAPI CreateMetaFileWrapW(LPCWSTR pwzFile)
{
VALIDATE_PROTOTYPE(CreateMetaFile);
if (g_bRunningOnNT)
return CreateMetaFileW(pwzFile);
CStrIn strText(pwzFile);
return CreateMetaFileA(strText);
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
DWORD WINAPI ExpandEnvironmentStringsWrapW(LPCWSTR pwzSrc, LPWSTR pwzDst, DWORD cchSize)
{
VALIDATE_PROTOTYPE(ExpandEnvironmentStrings);
if (pwzDst)
{
VALIDATE_OUTBUF(pwzDst, cchSize);
}
if (g_bRunningOnNT)
return ExpandEnvironmentStringsW(pwzSrc, pwzDst, cchSize);
CStrIn strTextIn(pwzSrc);
CStrOut strTextOut(pwzDst, cchSize);
DWORD dwResult = ExpandEnvironmentStringsA(strTextIn, strTextOut, strTextOut.BufSize());
strTextOut.ConvertIncludingNul();
return dwResult;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
HANDLE WINAPI CreateSemaphoreWrapW(LPSECURITY_ATTRIBUTES lpSemaphoreAttributes, LONG lInitialCount, LONG lMaximumCount, LPCWSTR pwzName)
{
VALIDATE_PROTOTYPE(CreateSemaphore);
if (g_bRunningOnNT)
return CreateSemaphoreW(lpSemaphoreAttributes, lInitialCount, lMaximumCount, pwzName);
CStrIn strText(pwzName);
return CreateSemaphoreA(lpSemaphoreAttributes, lInitialCount, lMaximumCount, strText);
}
#endif // NEED_KERNEL32_WRAPPER
// BUGBUG: Todo - GetStartupInfoWrapW
#ifdef NEED_KERNEL32_WRAPPER
#define ISGOOD 0
#define ISBAD 1
BOOL WINAPI IsBadStringPtrWrapW(LPCWSTR pwzString, UINT_PTR ucchMax)
{
VALIDATE_PROTOTYPE(IsBadStringPtr);
if (g_bRunningOnNT)
return IsBadStringPtrW(pwzString, ucchMax);
if (!ucchMax)
return ISGOOD;
if (!pwzString)
return ISBAD;
LPCWSTR pwzStartAddress = pwzString;
// ucchMax maybe -1 but that's ok because the loop down below will just
// look for the terminator.
LPCWSTR pwzEndAddress = &pwzStartAddress[ucchMax - 1];
TCHAR chTest;
_try
{
chTest = *(volatile WCHAR *)pwzStartAddress;
while (chTest && (pwzStartAddress != pwzEndAddress))
{
pwzStartAddress++;
chTest = *(volatile WCHAR *)pwzStartAddress;
}
}
_except (EXCEPTION_EXECUTE_HANDLER)
{
return ISBAD;
}
return ISGOOD;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
HINSTANCE WINAPI LoadLibraryWrapW(LPCWSTR pwzLibFileName)
{
VALIDATE_PROTOTYPE(LoadLibrary);
if (g_bRunningOnNT)
return LoadLibraryW(pwzLibFileName);
CStrIn strFileName(pwzLibFileName);
return LoadLibraryA(strFileName);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
int WINAPI GetTimeFormatWrapW(LCID Locale, DWORD dwFlags, CONST SYSTEMTIME * lpTime, LPCWSTR pwzFormat, LPWSTR pwzTimeStr, int cchTime)
{
VALIDATE_PROTOTYPE(GetTimeFormat);
if (g_bRunningOnNT)
return GetTimeFormatW(Locale, dwFlags, lpTime, pwzFormat, pwzTimeStr, cchTime);
CStrIn strTextIn(pwzFormat);
CStrOut strTextOut(pwzTimeStr, cchTime);
int nResult = GetTimeFormatA(Locale, dwFlags, lpTime, strTextIn, strTextOut, strTextOut.BufSize());
strTextOut.ConvertIncludingNul();
return nResult;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
int WINAPI GetDateFormatWrapW(LCID Locale, DWORD dwFlags, CONST SYSTEMTIME * lpDate, LPCWSTR pwzFormat, LPWSTR pwzDateStr, int cchDate)
{
VALIDATE_PROTOTYPE(GetDateFormat);
if (g_bRunningOnNT)
return GetDateFormatW(Locale, dwFlags, lpDate, pwzFormat, pwzDateStr, cchDate);
CStrIn strTextIn(pwzFormat);
CStrOut strTextOut(pwzDateStr, cchDate);
int nResult = GetDateFormatA(Locale, dwFlags, lpDate, strTextIn, strTextOut, strTextOut.BufSize());
strTextOut.ConvertIncludingNul();
return nResult;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI WritePrivateProfileStringWrapW(LPCWSTR pwzAppName, LPCWSTR pwzKeyName, LPCWSTR pwzString, LPCWSTR pwzFileName)
{
VALIDATE_PROTOTYPE(WritePrivateProfileString);
if (g_bRunningOnNT)
return WritePrivateProfileStringW(pwzAppName, pwzKeyName, pwzString, pwzFileName);
CStrIn strTextAppName(pwzAppName);
CStrIn strTextKeyName(pwzKeyName);
CStrIn strTextString(pwzString);
CStrIn strTextFileName(pwzFileName);
return WritePrivateProfileStringA(strTextAppName, strTextKeyName, strTextString, strTextFileName);
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
DWORD WINAPI GetPrivateProfileStringWrapW(LPCWSTR pwzAppName, LPCWSTR pwzKeyName, LPCWSTR pwzDefault, LPWSTR pwzReturnedString, DWORD cchSize, LPCWSTR pwzFileName)
{
VALIDATE_PROTOTYPE(GetPrivateProfileString);
if (g_bRunningOnNT)
return GetPrivateProfileStringW(pwzAppName, pwzKeyName, pwzDefault, pwzReturnedString, cchSize, pwzFileName);
CStrIn strTextAppName(pwzAppName);
CStrIn strTextKeyName(pwzKeyName);
CStrIn strTextDefault(pwzDefault);
CStrIn strTextFileName(pwzFileName);
CStrOut strTextOut(pwzReturnedString, cchSize);
DWORD dwResult = GetPrivateProfileStringA(strTextAppName, strTextKeyName, strTextDefault, strTextOut, cchSize, strTextFileName);
strTextOut.ConvertIncludingNul();
return dwResult;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_SHELL32_WRAPPER
STDAPI_(DWORD_PTR) SHGetFileInfoWrapW(LPCWSTR pwzPath, DWORD dwFileAttributes, SHFILEINFOW FAR *psfi, UINT cbFileInfo, UINT uFlags)
{
VALIDATE_PROTOTYPE_DELAYLOAD(SHGetFileInfo, _SHGetFileInfo);
if (g_bRunningOnNT)
return _SHGetFileInfoW(pwzPath, dwFileAttributes, psfi, cbFileInfo, uFlags);
SHFILEINFOA shFileInfo;
DWORD_PTR dwResult;
shFileInfo.szDisplayName[0] = 0; // Terminate so we can always thunk afterward.
shFileInfo.szTypeName[0] = 0; // Terminate so we can always thunk afterward.
// Do we need to thunk the Path?
if (SHGFI_PIDL & uFlags)
{
// No, because it's really a pidl pointer.
dwResult = _SHGetFileInfoA((LPCSTR)pwzPath, dwFileAttributes, &shFileInfo, sizeof(shFileInfo), uFlags);
}
else
{
// Yes
CStrIn strPath(pwzPath);
dwResult = _SHGetFileInfoA(strPath, dwFileAttributes, &shFileInfo, sizeof(shFileInfo), uFlags);
}
psfi->hIcon = shFileInfo.hIcon;
psfi->iIcon = shFileInfo.iIcon;
psfi->dwAttributes = shFileInfo.dwAttributes;
SHAnsiToUnicode(shFileInfo.szDisplayName, psfi->szDisplayName, ARRAYSIZE(shFileInfo.szDisplayName));
SHAnsiToUnicode(shFileInfo.szTypeName, psfi->szTypeName, ARRAYSIZE(shFileInfo.szTypeName));
return dwResult;
}
#endif // NEED_SHELL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
STDAPI_(ATOM) RegisterClassExWrapW(CONST WNDCLASSEXW FAR * pwcx)
{
VALIDATE_PROTOTYPE(RegisterClassEx);
if (g_bRunningOnNT)
return RegisterClassExW(pwcx);
CStrIn strMenuName(pwcx->lpszMenuName);
CStrIn strClassName(pwcx->lpszClassName);
WNDCLASSEXA wcx = *(CONST WNDCLASSEXA FAR *) pwcx;
wcx.cbSize = sizeof(wcx);
wcx.lpszMenuName = strMenuName;
wcx.lpszClassName = strClassName;
return RegisterClassExA(&wcx);
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
STDAPI_(BOOL) GetClassInfoExWrapW(HINSTANCE hinst, LPCWSTR pwzClass, LPWNDCLASSEXW lpwcx)
{
VALIDATE_PROTOTYPE(GetClassInfoEx);
if (g_bRunningOnNT)
return GetClassInfoExW(hinst, pwzClass, lpwcx);
BOOL fResult;
CStrIn strClassName(pwzClass);
WNDCLASSEXA wcx;
wcx.cbSize = sizeof(wcx);
fResult = GetClassInfoExA(hinst, strClassName, &wcx);
*(WNDCLASSEXA FAR *) lpwcx = wcx;
lpwcx->lpszMenuName = NULL; // GetClassInfoExA makes this point off to private data that they own.
lpwcx->lpszClassName = pwzClass;
return fResult;
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_GDI32_WRAPPER
//+---------------------------------------------------------------------------
// StartDoc
//----------------------------------------------------------------------------
int
StartDocWrapW( HDC hDC, const DOCINFO * lpdi )
{
VALIDATE_PROTOTYPE(StartDoc);
if (g_bRunningOnNT)
{
return StartDocW( hDC, lpdi );
}
CStrIn strDocName( lpdi->lpszDocName );
CStrIn strOutput( lpdi->lpszOutput );
CStrIn strDatatype( lpdi->lpszDatatype );
DOCINFOA dia;
dia.cbSize = sizeof(DOCINFO);
dia.lpszDocName = strDocName;
dia.lpszOutput = strOutput;
dia.lpszDatatype = strDatatype;
dia.fwType = lpdi->fwType;
return StartDocA( hDC, &dia );
}
#endif // NEED_GDI32_WRAPPER
#ifdef NEED_SHELL32_WRAPPER
STDAPI_(UINT) DragQueryFileWrapW(HDROP hDrop, UINT iFile, LPWSTR lpszFile, UINT cch)
{
VALIDATE_PROTOTYPE_DELAYLOAD(DragQueryFile, _DragQueryFile);
VALIDATE_OUTBUF(lpszFile, cch);
//
// We are lazy and do not support lpszFile == NULL to query the length
// of an individual string.
//
ASSERT(iFile == 0xFFFFFFFF || lpszFile);
if (g_bRunningOnNT)
return _DragQueryFileW(hDrop, iFile, lpszFile, cch);
//
// If iFile is 0xFFFFFFFF, then lpszFile and cch are ignored.
//
if (iFile == 0xFFFFFFFF)
return _DragQueryFileA(hDrop, iFile, NULL, 0);
CStrOut str(lpszFile, cch);
_DragQueryFileA(hDrop, iFile, str, str.BufSize());
return str.ConvertExcludingNul();
}
#endif // NEED_SHELL32_WRAPPER
#ifdef NEED_VERSION_WRAPPER
//
// the version APIs are not conducive to using
// wrap versions of the APIs, but we are going to
// do something reasonable....
//
#define VERSIONINFO_BUFF (MAX_PATH * SIZEOF(WCHAR))
STDAPI_(DWORD)
GetFileVersionInfoSizeWrapW(LPWSTR pwzFilename, LPDWORD lpdwHandle)
{
if (g_bRunningOnNT)
{
return GetFileVersionInfoSizeW(pwzFilename, lpdwHandle);
}
else
{
char szFilename[MAX_PATH];
DWORD dwRet;
ASSERT(pwzFilename);
SHUnicodeToAnsi(pwzFilename, szFilename, ARRAYSIZE(szFilename));
dwRet = GetFileVersionInfoSizeA(szFilename, lpdwHandle);
if (dwRet > 0)
{
// Add a scratch buffer to front for converting to UNICODE
dwRet += VERSIONINFO_BUFF;
}
return dwRet;
}
}
#endif // NEED_VERSION_WRAPPER
#ifdef NEED_VERSION_WRAPPER
STDAPI_(BOOL)
GetFileVersionInfoWrapW(LPWSTR pwzFilename, DWORD dwHandle, DWORD dwLen, LPVOID lpData)
{
if (g_bRunningOnNT)
{
return GetFileVersionInfoW(pwzFilename, dwHandle, dwLen, lpData);
}
else
{
char szFilename[MAX_PATH];
BYTE* pb;
if (dwLen <= VERSIONINFO_BUFF)
{
return FALSE;
}
ASSERT(pwzFilename);
SHUnicodeToAnsi(pwzFilename, szFilename, ARRAYSIZE(szFilename));
//Skip over our scratch buffer at the beginning
pb = (BYTE*)lpData + VERSIONINFO_BUFF;
return GetFileVersionInfoA(szFilename, dwHandle, dwLen - VERSIONINFO_BUFF, (void*)pb);
}
}
#endif // NEED_VERSION_WRAPPER
#ifdef NEED_VERSION_WRAPPER
STDAPI_(BOOL)
VerQueryValueWrapW(const LPVOID pBlock, LPWSTR pwzSubBlock, LPVOID *ppBuffer, PUINT puLen)
{
if (g_bRunningOnNT)
{
return VerQueryValueW(pBlock, pwzSubBlock, ppBuffer, puLen);
}
else
{
const WCHAR pwzStringFileInfo[] = L"\\StringFileInfo";
//
// WARNING: This function wipes out any string previously returned
// for this pBlock because a common buffer at the beginning of the
// block is used for ansi/unicode translation!
//
char szSubBlock[MAX_PATH];
BOOL fRet;
BYTE* pb;
ASSERT(pwzSubBlock);
SHUnicodeToAnsi(pwzSubBlock, szSubBlock, ARRAYSIZE(szSubBlock));
// The first chunk is our scratch buffer for converting to UNICODE
pb = (BYTE*)pBlock + VERSIONINFO_BUFF;
fRet = VerQueryValueA((void*)pb, szSubBlock, ppBuffer, puLen);
// Convert to unicode if ansi string returned
if (fRet && StrCmpNIW(pwzSubBlock, pwzStringFileInfo, ARRAYSIZE(pwzStringFileInfo) - 1) == 0)
{
// Convert returned string to UNICODE. We use the scratch buffer
// at the beginning of pBlock
LPWSTR pwzBuff = (LPWSTR)pBlock;
if (*puLen == 0)
{
pwzBuff[0] = L'\0';
}
else
{
SHAnsiToUnicode((LPCSTR)*ppBuffer, pwzBuff, VERSIONINFO_BUFF/sizeof(WCHAR));
}
*ppBuffer = pwzBuff;
}
return fRet;
}
}
#endif // NEED_VERSION_WRAPPER
#ifdef NEED_SHELL32_WRAPPER
HRESULT WINAPI SHDefExtractIconWrapW(LPCWSTR pszFile, int nIconIndex,
UINT uFlags, HICON *phiconLarge,
HICON *phiconSmall, UINT nIconSize)
{
VALIDATE_PROTOTYPE_DELAYLOAD(SHDefExtractIcon, _SHDefExtractIcon);
HRESULT hr;
if (UseUnicodeShell32())
{
hr = _SHDefExtractIconW(pszFile, nIconIndex, uFlags, phiconLarge,
phiconSmall, nIconSize);
}
else
{
CStrIn striFile(pszFile);
hr = _SHDefExtractIconA(striFile, nIconIndex, uFlags, phiconLarge,
phiconSmall, nIconSize);
}
return hr;
}
#endif // NEED_SHELL32_WRAPPER
#ifdef NEED_SHELL32_WRAPPER
BOOL WINAPI SHGetNewLinkInfoWrapW(LPCWSTR pszpdlLinkTo, LPCWSTR pszDir, LPWSTR pszName, BOOL *pfMustCopy, UINT uFlags)
{
VALIDATE_PROTOTYPE_DELAYLOAD(SHGetNewLinkInfo, _SHGetNewLinkInfo);
BOOL fRet;
if (UseUnicodeShell32())
{
fRet = _SHGetNewLinkInfoW(pszpdlLinkTo, pszDir, pszName, pfMustCopy,
uFlags);
}
else
{
CStrIn striDir(pszDir);
CStrOut stroName(pszName, MAX_PATH);
if (SHGNLI_PIDL & uFlags)
{
fRet = _SHGetNewLinkInfoA((LPCSTR)pszpdlLinkTo, striDir,
stroName, pfMustCopy, uFlags);
}
else
{
CStrIn striLinkTo(pszpdlLinkTo);
fRet = _SHGetNewLinkInfoA(striLinkTo, striDir, stroName,
pfMustCopy, uFlags);
}
if (fRet)
stroName.ConvertIncludingNul();
}
return fRet;
}
#endif // NEED_SHELL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI WritePrivateProfileStructWrapW(LPCWSTR lpszSection, LPCWSTR lpszKey,
LPVOID lpStruct, UINT uSizeStruct,
LPCWSTR szFile)
{
VALIDATE_PROTOTYPE(WritePrivateProfileStruct);
BOOL fRet;
if (UseUnicodeShell32())
{
fRet = WritePrivateProfileStructW(lpszSection, lpszKey, lpStruct,
uSizeStruct, szFile);
}
else
{
CStrIn striSection(lpszSection);
CStrIn striKey(lpszKey);
CStrIn striFile(szFile);
fRet = WritePrivateProfileStructA(striSection, striKey, lpStruct,
uSizeStruct, striFile);
}
return fRet;
}
#endif // NEED_KERNEL32_WRAPPER
#ifdef NEED_KERNEL32_WRAPPER
BOOL WINAPI GetPrivateProfileStructWrapW(LPCWSTR lpszSection, LPCWSTR lpszKey,
LPVOID lpStruct, UINT uSizeStruct,
LPCWSTR szFile)
{
VALIDATE_PROTOTYPE(GetPrivateProfileStruct);
BOOL fRet;
if (UseUnicodeShell32())
{
fRet = GetPrivateProfileStructW(lpszSection, lpszKey, lpStruct,
uSizeStruct, szFile);
}
else
{
CStrIn striSection(lpszSection);
CStrIn striKey(lpszKey);
CStrIn striFile(szFile);
fRet = GetPrivateProfileStructA(striSection, striKey, lpStruct,
uSizeStruct, striFile);
}
return fRet;
}
#endif // NEED_KERNEL32_WRAPPER
BOOL WINAPI CreateProcessWrapW(LPCWSTR lpApplicationName, LPWSTR lpCommandLine,
LPSECURITY_ATTRIBUTES lpProcessAttributes,
LPSECURITY_ATTRIBUTES lpThreadAttributes,
BOOL bInheritHandles,
DWORD dwCreationFlags,
LPVOID lpEnvironment,
LPCWSTR lpCurrentDirectory,
LPSTARTUPINFOW lpStartupInfo,
LPPROCESS_INFORMATION lpProcessInformation)
{
BOOL fRet;
if (UseUnicodeShell32())
{
fRet = CreateProcessW(lpApplicationName, lpCommandLine,
lpProcessAttributes, lpThreadAttributes,
bInheritHandles, dwCreationFlags, lpEnvironment,
lpCurrentDirectory, lpStartupInfo,
lpProcessInformation);
}
else
{
CStrIn striApplicationName(lpApplicationName);
CStrIn striCommandLine(lpCommandLine);
CStrIn striCurrentDirectory(lpCurrentDirectory);
if (NULL == lpStartupInfo)
{
fRet = CreateProcessA(striApplicationName, striCommandLine,
lpProcessAttributes, lpThreadAttributes,
bInheritHandles, dwCreationFlags,
lpEnvironment, striCurrentDirectory,
NULL, lpProcessInformation);
}
else
{
STARTUPINFOA si = *(STARTUPINFOA*)lpStartupInfo;
CStrIn striReserved(lpStartupInfo->lpReserved);
CStrIn striDesktop(lpStartupInfo->lpDesktop);
CStrIn striTitle(lpStartupInfo->lpTitle);
si.lpReserved = striReserved;
si.lpDesktop = striDesktop;
si.lpTitle = striTitle;
fRet = CreateProcessA(striApplicationName, striCommandLine,
lpProcessAttributes, lpThreadAttributes,
bInheritHandles, dwCreationFlags,
lpEnvironment, striCurrentDirectory,
&si, lpProcessInformation);
}
}
return fRet;
}
#ifdef NEED_SHELL32_WRAPPER
HICON WINAPI ExtractIconWrapW(HINSTANCE hInst, LPCWSTR lpszExeFileName, UINT nIconIndex)
{
HICON hicon;
if (UseUnicodeShell32())
{
hicon = _ExtractIconW(hInst, lpszExeFileName, nIconIndex);
}
else
{
CStrIn striExeFileName(lpszExeFileName);
hicon = _ExtractIconA(hInst, striExeFileName, nIconIndex);
}
return hicon;
}
#endif // NEED_SHELL32_WRAPPER
#ifdef NEED_USER32_WRAPPER
UINT WINAPI DdeInitializeWrapW(LPDWORD pidInst, PFNCALLBACK pfnCallback,
DWORD afCmd, DWORD ulRes)
{
UINT uRet;
if (UseUnicodeShell32())
{
uRet = DdeInitializeW(pidInst, pfnCallback, afCmd, ulRes);
}
else
{
//
// This assumes the callback function will used the wrapped dde
// string functions (DdeCreateStringHandle and DdeQueryString)
// to access strings.
//
uRet = DdeInitializeA(pidInst, pfnCallback, afCmd, ulRes);
}
return uRet;
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
HSZ WINAPI DdeCreateStringHandleWrapW(DWORD idInst, LPCWSTR psz, int iCodePage)
{
HSZ hszRet;
if (UseUnicodeShell32())
{
hszRet = DdeCreateStringHandleW(idInst, psz, iCodePage);
}
else
{
CStrIn stripsz(psz);
hszRet = DdeCreateStringHandleA(idInst, stripsz, CP_WINANSI);
}
return hszRet;
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_USER32_WRAPPER
DWORD WINAPI DdeQueryStringWrapW(DWORD idInst, HSZ hsz, LPWSTR psz,
DWORD cchMax, int iCodePage)
{
DWORD dwRet;
if (UseUnicodeShell32())
{
dwRet = DdeQueryStringW(idInst, hsz, psz, cchMax, iCodePage);
}
else
{
CStrOut stropsz(psz, cchMax);
dwRet = DdeQueryStringA(idInst, hsz, stropsz, stropsz.BufSize(),
CP_WINANSI);
if (dwRet && psz)
dwRet = stropsz.ConvertExcludingNul();
}
return dwRet;
}
#endif // NEED_USER32_WRAPPER
#ifdef NEED_COMDLG32_WRAPPER
LPWSTR xxxPathFindExtensionW(
LPWSTR pszPath)
{
LPWSTR pszDot;
for (pszDot = NULL; *pszPath; pszPath = CharNextWrapW(pszPath)) {
switch (*pszPath) {
case L'.':
pszDot = pszPath; // remember the last dot
break;
case L'\\':
case L' ': // extensions can't have spaces
pszDot = NULL; // forget last dot, it was in a directory
break;
}
}
/*
* if we found the extension, return ptr to the dot, else
* ptr to end of the string (NULL extension) (cast->non const)
*/
return pszDot ? (LPWSTR)pszDot : (LPWSTR)pszPath;
}
//
// in:
// path name, either fully qualified or not
//
// returns:
// pointer into the path where the path is. if none is found
// returns a poiter to the start of the path
//
// c:\foo\bar -> bar
// c:\foo -> foo
// c:\foo\ -> c:\foo\ (REVIEW: is this case busted?)
// c:\ -> c:\ (REVIEW: this case is strange)
// c: -> c:
// foo -> foo
LPTSTR xxxPathFindFileNameW(LPWSTR pPath)
{
LPWSTR pT;
for (pT = pPath; *pPath; pPath = CharNextWrapW(pPath)) {
if ((pPath[0] == TEXT('\\') || pPath[0] == TEXT(':') || pPath[0] == TEXT('/'))
&& pPath[1] && pPath[1] != TEXT('\\') && pPath[1] != TEXT('/'))
pT = pPath + 1;
}
return (LPTSTR)pT; // const -> non const
}
BOOL WINAPI GetSaveFileNameWrapW(LPOPENFILENAMEW lpofn)
{
BOOL fRet;
if (UseUnicodeShell32())
{
fRet = GetSaveFileNameW(lpofn);
}
else
{
ASSERT(lpofn);
ASSERT(sizeof(OPENFILENAMEA) == sizeof(OPENFILENAMEW));
OPENFILENAMEA ofnA = *(LPOPENFILENAMEA)lpofn;
// In parameters
CStrInMulti strimFilter(lpofn->lpstrFilter);
CStrIn striInitialDir(lpofn->lpstrInitialDir);
CStrIn striTitle(lpofn->lpstrTitle);
CStrIn striDefExt(lpofn->lpstrDefExt);
CStrIn striTemplateName(lpofn->lpTemplateName);
ASSERT(NULL == lpofn->lpstrCustomFilter); // add support if you need it.
// Out parameters
CStrOut stroFile(lpofn->lpstrFile, lpofn->nMaxFile);
CStrOut stroFileTitle(lpofn->lpstrFileTitle, lpofn->nMaxFileTitle);
//In Out parameters
SHUnicodeToAnsi(lpofn->lpstrFile, stroFile, stroFile.BufSize());
// Set up the parameters
ofnA.lpstrFilter = strimFilter;
ofnA.lpstrInitialDir = striInitialDir;
ofnA.lpstrTitle = striTitle;
ofnA.lpstrDefExt = striDefExt;
ofnA.lpTemplateName = striTemplateName;
ofnA.lpstrFile = stroFile;
ofnA.lpstrFileTitle = stroFileTitle;
fRet = GetSaveFileNameA(&ofnA);
if (fRet)
{
// Copy the out parameters
lpofn->nFilterIndex = ofnA.nFilterIndex;
lpofn->Flags = ofnA.Flags;
// Get the offset to the filename
stroFile.ConvertIncludingNul();
LPWSTR psz = xxxPathFindFileNameW(lpofn->lpstrFile);
if (psz)
{
lpofn->nFileOffset = (int) (psz-lpofn->lpstrFile);
// Get the offset of the extension
psz = xxxPathFindExtensionW(psz);
lpofn->nFileExtension = psz ? (int)(psz-lpofn->lpstrFile) : 0;
}
else
{
lpofn->nFileOffset = 0;
lpofn->nFileExtension = 0;
}
}
}
return fRet;
}
#endif // NEED_COMDLG32_WRAPPER
#ifdef NEED_COMDLG32_WRAPPER
BOOL WINAPI GetOpenFileNameWrapW(LPOPENFILENAMEW lpofn)
{
BOOL fRet;
//VALIDATE_PROTOTYPE_DELAYLOAD(GetOpenFileName, _GetOpenFileName);
if (UseUnicodeShell32())
{
fRet = GetOpenFileNameW(lpofn);
}
else
{
ASSERT(lpofn);
ASSERT(sizeof(OPENFILENAMEA) == sizeof(OPENFILENAMEW));
OPENFILENAMEA ofnA = *(LPOPENFILENAMEA)lpofn;
// In parameters
CStrInMulti strimFilter(lpofn->lpstrFilter);
CStrIn striInitialDir(lpofn->lpstrInitialDir);
CStrIn striTitle(lpofn->lpstrTitle);
CStrIn striDefExt(lpofn->lpstrDefExt);
CStrIn striTemplateName(lpofn->lpTemplateName);
ASSERT(NULL == lpofn->lpstrCustomFilter); // add support if you need it.
// Out parameters
CStrOut stroFile(lpofn->lpstrFile, lpofn->nMaxFile);
CStrOut stroFileTitle(lpofn->lpstrFileTitle, lpofn->nMaxFileTitle);
//In Out parameters
SHUnicodeToAnsi(lpofn->lpstrFile, stroFile, stroFile.BufSize());
// Set up the parameters
ofnA.lpstrFilter = strimFilter;
ofnA.lpstrInitialDir = striInitialDir;
ofnA.lpstrTitle = striTitle;
ofnA.lpstrDefExt = striDefExt;
ofnA.lpTemplateName = striTemplateName;
ofnA.lpstrFile = stroFile;
ofnA.lpstrFileTitle = stroFileTitle;
fRet = GetOpenFileNameA(&ofnA);
if (fRet)
{
// Copy the out parameters
lpofn->nFilterIndex = ofnA.nFilterIndex;
lpofn->Flags = ofnA.Flags;
// Get the offset to the filename
stroFile.ConvertIncludingNul();
LPWSTR psz = xxxPathFindFileNameW(lpofn->lpstrFile);
if (psz)
{
lpofn->nFileOffset = (int) (psz-lpofn->lpstrFile);
// Get the offset of the extension
psz = xxxPathFindExtensionW(psz);
lpofn->nFileExtension = psz ? (int)(psz-lpofn->lpstrFile) : 0;
}
else
{
lpofn->nFileOffset = 0;
lpofn->nFileExtension = 0;
}
}
}
return fRet;
}
#endif // NEED_COMDLG32_WRAPPER
#ifdef NEED_SHELL32_WRAPPER
#define SHCNF_HAS_WSTR_PARAMS(f) ((f & SHCNF_TYPE) == SHCNF_PATHW || \
(f & SHCNF_TYPE) == SHCNF_PRINTERW || \
(f & SHCNF_TYPE) == SHCNF_PRINTJOBW )
void SHChangeNotifyWrap(LONG wEventId, UINT uFlags, LPCVOID dwItem1,
LPCVOID dwItem2)
{
// Can't do this because this is not a "W" function
// VALIDATE_PROTOTYPE(SHChangeNotify);
if (UseUnicodeShell32() || !SHCNF_HAS_WSTR_PARAMS(uFlags))
{
_SHChangeNotify(wEventId, uFlags, dwItem1, dwItem2);
}
else
{
CStrIn striItem1((LPWSTR)dwItem1);
CStrIn striItem2((LPWSTR)dwItem2);
if ((uFlags & SHCNF_TYPE) == SHCNF_PATHW)
{
uFlags = (uFlags & ~SHCNF_TYPE) | SHCNF_PATHA;
}
else if ((uFlags & SHCNF_TYPE) == SHCNF_PRINTERW)
{
uFlags = (uFlags & ~SHCNF_TYPE) | SHCNF_PRINTERA;
}
else
{
uFlags = (uFlags & ~SHCNF_TYPE) | SHCNF_PRINTJOBA;
}
_SHChangeNotify(wEventId, uFlags, (void*)(LPSTR)striItem1,
(void*)(LPSTR)striItem2);
}
return;
}
#endif // NEED_SHELL32_WRAPPER
#ifdef NEED_COMDLG32_WRAPPER
//+---------------------------------------------------------------------------
// PrintDlgWrap, PageSetupDlgWrap - wrappers
// DevNamesAFromDevNamesW, DevNamesWFromDevNamesA - helper functions
//
// Copied from mshtml\src\core\wrappers\unicwrap.cpp with some
// cosmetic changes (peterlee)
//
//+---------------------------------------------------------------------------
HGLOBAL
DevNamesAFromDevNamesW( HGLOBAL hdnw )
{
HGLOBAL hdna = NULL;
if (hdnw)
{
LPDEVNAMES lpdnw = (LPDEVNAMES) GlobalLock( hdnw );
if (lpdnw)
{
CStrIn strDriver( (LPCWSTR) lpdnw + lpdnw->wDriverOffset );
CStrIn strDevice( (LPCWSTR) lpdnw + lpdnw->wDeviceOffset );
CStrIn strOutput( (LPCWSTR) lpdnw + lpdnw->wOutputOffset );
int cchDriver = strDriver.strlen() + 1;
int cchDevice = strDevice.strlen() + 1;
int cchOutput = strOutput.strlen() + 1;
hdna = GlobalAlloc( GHND, sizeof(DEVNAMES) +
cchDriver + cchDevice + cchOutput );
if (hdna)
{
LPDEVNAMES lpdna = (LPDEVNAMES) GlobalLock( hdna );
if (!lpdna)
{
GlobalFree( hdna );
hdna = NULL;
}
else
{
lpdna->wDriverOffset = sizeof(DEVNAMES);
lpdna->wDeviceOffset = lpdna->wDriverOffset + cchDriver;
lpdna->wOutputOffset = lpdna->wDeviceOffset + cchDevice;
lpdna->wDefault = lpdnw->wDefault;
lstrcpyA( (LPSTR) lpdna + lpdna->wDriverOffset, strDriver );
lstrcpyA( (LPSTR) lpdna + lpdna->wDeviceOffset, strDevice );
lstrcpyA( (LPSTR) lpdna + lpdna->wOutputOffset, strOutput );
GlobalUnlock( hdna );
}
}
GlobalUnlock( hdnw );
GlobalFree( hdnw );
}
}
return hdna;
}
HGLOBAL
DevNamesWFromDevNamesA( HGLOBAL hdna )
{
HGLOBAL hdnw = NULL;
if (hdna)
{
LPDEVNAMES lpdna = (LPDEVNAMES) GlobalLock( hdna );
if (lpdna)
{
LPCSTR lpszDriver = (LPCSTR) lpdna + lpdna->wDriverOffset;
LPCSTR lpszDevice = (LPCSTR) lpdna + lpdna->wDeviceOffset;
LPCSTR lpszOutput = (LPCSTR) lpdna + lpdna->wOutputOffset;
int cchDriver = lstrlenA( lpszDriver ) + 1;
int cchDevice = lstrlenA( lpszDevice ) + 1;
int cchOutput = lstrlenA( lpszOutput ) + 1;
// assume the wide charcount won't exceed the multibyte charcount
hdnw = GlobalAlloc( GHND, sizeof(DEVNAMES) +
sizeof(WCHAR) * (cchDriver + cchDevice + cchOutput) );
if (hdnw)
{
LPDEVNAMES lpdnw = (LPDEVNAMES) GlobalLock( hdnw );
if (!lpdnw)
{
GlobalFree( hdnw );
hdnw = NULL;
}
else
{
lpdnw->wDriverOffset = sizeof(DEVNAMES) / sizeof(WCHAR);
lpdnw->wDeviceOffset = lpdnw->wDriverOffset + cchDriver;
lpdnw->wOutputOffset = lpdnw->wDeviceOffset + cchDevice;
lpdnw->wDefault = lpdna->wDefault;
SHAnsiToUnicode( (LPSTR) lpszDriver, (LPWSTR) lpdnw + lpdnw->wDriverOffset,
cchDriver );
SHAnsiToUnicode( lpszDevice, (LPWSTR) lpdnw + lpdnw->wDeviceOffset,
cchDevice);
SHAnsiToUnicode( lpszOutput, (LPWSTR) lpdnw + lpdnw->wOutputOffset,
cchOutput);
GlobalUnlock( hdnw );
}
}
GlobalUnlock( hdna );
GlobalFree( hdna );
}
}
return hdnw;
}
#endif // NEED_COMDLG32_WRAPPER
#ifdef NEED_COMDLG32_WRAPPER
//--------------------------------------------------------------
// PrintDlgW wrapper
//--------------------------------------------------------------
#if UNUSED_DONOTBUILD
BOOL WINAPI
PrintDlgWrapW(LPPRINTDLGW lppd)
{
BOOL fRet;
VALIDATE_PROTOTYPE_DELAYLOAD(PrintDlg, _PrintDlg);
if (UseUnicodeShell32())
{
fRet = _PrintDlgW(lppd);
}
else
{
PRINTDLGA pda;
LPCWSTR lpPrintTemplateName = lppd->lpPrintTemplateName;
LPCWSTR lpSetupTemplateName = lppd->lpSetupTemplateName;
CStrIn strPrintTemplateName( lpPrintTemplateName );
CStrIn strSetupTemplateName( lpSetupTemplateName );
ASSERT( sizeof(pda) == sizeof( *lppd ));
memcpy( &pda, lppd, sizeof(pda) );
// IMPORTANT: We are not converting the DEVMODE structure back and forth
// from ASCII to Unicode on Win95 anymore because we are not touching the
// two strings or any other member. Converting the DEVMODE structure can
// be tricky because of potential and common discrepancies between the
// value of the dmSize member and sizeof(DEVMODE). (25155)
// So instead of: pda.hDevMode = DevModeAFromDevModeW( lppd->hDevMode );
// we just forward the DEVMODE handle:
pda.hDevMode = lppd->hDevMode;
pda.hDevNames = DevNamesAFromDevNamesW( lppd->hDevNames );
pda.lpPrintTemplateName = strPrintTemplateName;
pda.lpSetupTemplateName = strSetupTemplateName;
fRet = _PrintDlgA( &pda );
// copy back wholesale, then restore strings.
memcpy( lppd, &pda, sizeof(pda) );
lppd->lpSetupTemplateName = lpSetupTemplateName;
lppd->lpPrintTemplateName = lpPrintTemplateName;
lppd->hDevNames = DevNamesWFromDevNamesA( pda.hDevNames );
// And instead of: lppd->hDevMode = DevModeWFromDevModeA( pda.hDevMode );
// we just forward the DEVMODE handle:
lppd->hDevMode = pda.hDevMode;
}
return fRet;
}
#endif // UNUSED_DONOTBUILD
#endif // NEED_COMDLG32_WRAPPER
#ifdef NEED_COMDLG32_WRAPPER
//--------------------------------------------------------------
// PageSetupDlgW wrapper
//--------------------------------------------------------------
#if UNUSED_DONOTBUILD
BOOL WINAPI
PageSetupDlgWrapW(LPPAGESETUPDLGW lppsd)
{
BOOL fRet;
VALIDATE_PROTOTYPE_DELAYLOAD(PageSetupDlg, _PageSetupDlg);
if (UseUnicodeShell32())
{
fRet = _PageSetupDlgW(lppsd);
}
else
{
PAGESETUPDLGA psda;
LPCWSTR lpPageSetupTemplateName = lppsd->lpPageSetupTemplateName;
CStrIn strPageSetupTemplateName( lpPageSetupTemplateName );
ASSERT( sizeof(psda) == sizeof( *lppsd ) );
memcpy( &psda, lppsd, sizeof(psda));
// IMPORTANT: We are not converting the DEVMODE structure back and forth
// from ASCII to Unicode on Win95 anymore because we are not touching the
// two strings or any other member. Converting the DEVMODE structure can
// be tricky because of potential and common discrepancies between the
// value of the dmSize member and sizeof(DEVMODE). (25155)
// So instead of: psda.hDevMode = DevModeAFromDevModeW( lppsd->hDevMode );
// we just forward the DEVMODE handle:
psda.hDevMode = lppsd->hDevMode;
psda.hDevNames = DevNamesAFromDevNamesW( lppsd->hDevNames );
psda.lpPageSetupTemplateName = strPageSetupTemplateName;
fRet = _PageSetupDlgA( (LPPAGESETUPDLGA) &psda );
// copy back wholesale, then restore string.
memcpy( lppsd, &psda, sizeof(psda) );
lppsd->lpPageSetupTemplateName = lpPageSetupTemplateName;
lppsd->hDevNames = DevNamesWFromDevNamesA( psda.hDevNames );
// And instead of: lppsd->hDevMode = DevModeWFromDevModeA( psda.hDevMode );
// we just forward the DEVMODE handle:
lppsd->hDevMode = psda.hDevMode;
}
return fRet;
}
#endif // UNUSED_DONOTBUILD
#endif // NEED_COMDLG32_WRAPPER
// Newly added wrappers specifically for ts client (nadima)
HANDLE
WINAPI
CreateFileMappingWrapW(
IN HANDLE hFile,
IN LPSECURITY_ATTRIBUTES lpFileMappingAttributes,
IN DWORD flProtect,
IN DWORD dwMaximumSizeHigh,
IN DWORD dwMaximumSizeLow,
IN LPCWSTR lpName
)
{
VALIDATE_PROTOTYPE(CreateMutex);
if (g_bRunningOnNT)
{
return CreateFileMappingW(hFile, lpFileMappingAttributes,
flProtect, dwMaximumSizeHigh,
dwMaximumSizeLow, lpName);
}
else
{
CStrIn strText(lpName);
return CreateFileMappingA(hFile, lpFileMappingAttributes,
flProtect, dwMaximumSizeHigh,
dwMaximumSizeLow, strText);
}
}
HICON
ExtractIconWrapW(
HINSTANCE hInst,
LPCWSTR lpszExeFileName,
UINT nIconIndex)
{
VALIDATE_PROTOTYPE(ExtractIcon);
if(g_bRunningOnNT)
{
return ExtractIconW( hInst,
lpszExeFileName,
nIconIndex);
}
else
{
CStrIn strText(lpszExeFileName);
return ExtractIconA( hInst,
strText,
nIconIndex);
}
}
BOOL WINAPI SHGetPathFromIDListWrapW(LPCITEMIDLIST pidl, LPWSTR pwzPath)
{
//VALIDATE_PROTOTYPE_DELAYLOAD(SHGetPathFromIDList, _SHGetPathFromIDList);
if (g_bRunningOnNT)
{
//
// SHGetPathFromIDListW is not necessarily available
// as a stub on 9x, so dynamically bind to it for NT
//
HRESULT hr = E_NOTIMPL;
typedef HRESULT (STDAPICALLTYPE FNSHGetPathFromIDListW)
(LPCITEMIDLIST pidl, LPWSTR pwzPath);
FNSHGetPathFromIDListW *pfnSHGetPathFromIDListW = NULL;
// get the handle to shell32.dll library
HMODULE hmodSH32DLL = LoadLibraryWrapW(TEXT("SHELL32.DLL"));
if (hmodSH32DLL != NULL)
{
// get the proc address for SHGetFolderPath
pfnSHGetPathFromIDListW = (FNSHGetPathFromIDListW*)
GetProcAddress(hmodSH32DLL, "SHGetPathFromIDListW");
if (pfnSHGetPathFromIDListW)
{
hr = (*pfnSHGetPathFromIDListW)( pidl, pwzPath );
}
FreeLibrary(hmodSH32DLL);
}
return hr;
}
else
{
CStrOut strPathOut(pwzPath, MAX_PATH);
BOOL fResult = SHGetPathFromIDListA(pidl, strPathOut);
if (fResult)
strPathOut.ConvertIncludingNul();
return fResult;
}
}
SHORT
WINAPI
GetFileTitleWrapW(
LPCWSTR lpszFileW,
LPWSTR lpszTitleW,
WORD cbBuf)
{
VALIDATE_PROTOTYPE(GetFileTitle);
if(g_bRunningOnNT)
{
return GetFileTitleW( lpszFileW, lpszTitleW, cbBuf);
}
else
{
CStrIn strFileName( lpszFileW);
CStrOut strOutTitle(lpszTitleW, cbBuf);
return GetFileTitleA( strFileName, strOutTitle, cbBuf);
}
}
BOOL
WINAPI
GetKeyboardLayoutNameWrapW(
OUT LPWSTR pwszKLID)
{
if(g_bRunningOnNT)
{
return GetKeyboardLayoutNameW( pwszKLID);
}
else
{
CStrOut strOutKeybId( pwszKLID, KL_NAMELENGTH);
return GetKeyboardLayoutNameA( strOutKeybId);
}
}
BOOL
APIENTRY
GetTextExtentPointWrapW(HDC hdc,LPCWSTR pwsz,DWORD cwc,LPSIZE psizl)
{
if(g_bRunningOnNT)
{
return GetTextExtentPointW( hdc, pwsz, cwc, psizl);
}
else
{
CStrIn strIn(pwsz);
return GetTextExtentPointA( hdc, strIn, cwc, psizl);
}
}
BOOL
WINAPI
GetDiskFreeSpaceWrapW(
IN LPCWSTR lpRootPathName,
OUT LPDWORD lpSectorsPerCluster,
OUT LPDWORD lpBytesPerSector,
OUT LPDWORD lpNumberOfFreeClusters,
OUT LPDWORD lpTotalNumberOfClusters
)
{
if(g_bRunningOnNT)
{
return GetDiskFreeSpaceW( lpRootPathName, lpSectorsPerCluster,
lpBytesPerSector, lpNumberOfFreeClusters,
lpTotalNumberOfClusters);
}
else
{
CStrIn strIn(lpRootPathName);
return GetDiskFreeSpaceA( strIn, lpSectorsPerCluster,
lpBytesPerSector, lpNumberOfFreeClusters,
lpTotalNumberOfClusters);
}
}
UINT
WINAPI
GetDriveTypeWrapW(
IN LPCWSTR lpRootPathName
)
{
if(g_bRunningOnNT)
{
return GetDriveTypeW( lpRootPathName);
}
else
{
CStrIn strIn(lpRootPathName);
return GetDriveTypeA(strIn);
}
}
HANDLE
WINAPI
FindFirstChangeNotificationWrapW(
IN LPCWSTR lpPathName,
IN BOOL bWatchSubtree,
IN DWORD dwNotifyFilter
)
{
if(g_bRunningOnNT)
{
return FindFirstChangeNotificationW( lpPathName,
bWatchSubtree,
dwNotifyFilter);
}
else
{
CStrIn strIn(lpPathName);
return FindFirstChangeNotificationA( strIn,
bWatchSubtree,
dwNotifyFilter);
}
}
BOOL
WINAPI
GetVolumeInformationWrapW(
IN LPCWSTR lpRootPathName,
OUT LPWSTR lpVolumeNameBuffer,
IN DWORD nVolumeNameSize,
OUT LPDWORD lpVolumeSerialNumber,
OUT LPDWORD lpMaximumComponentLength,
OUT LPDWORD lpFileSystemFlags,
OUT LPWSTR lpFileSystemNameBuffer,
IN DWORD nFileSystemNameSize
)
{
if(g_bRunningOnNT)
{
return GetVolumeInformationW( lpRootPathName,
lpVolumeNameBuffer,
nVolumeNameSize,
lpVolumeSerialNumber,
lpMaximumComponentLength,
lpFileSystemFlags,
lpFileSystemNameBuffer,
nFileSystemNameSize);
}
else
{
CStrIn strRootPathName(lpRootPathName);
CStrOut strOutVolumeNameBuffer(lpVolumeNameBuffer, nVolumeNameSize);
CStrOut strOutFileSystemName(lpFileSystemNameBuffer, nFileSystemNameSize);
return GetVolumeInformationA( strRootPathName,
strOutVolumeNameBuffer,
nVolumeNameSize,
lpVolumeSerialNumber,
lpMaximumComponentLength,
lpFileSystemFlags,
strOutFileSystemName,
nFileSystemNameSize);
}
}
UINT FORWARD_API WINAPI
MapVirtualKeyWrapW(
IN UINT uCode,
IN UINT uMapType)
{
VALIDATE_PROTOTYPE(MapVirtualKey);
FORWARD_AW(MapVirtualKey, (uCode, uMapType));
}
ULONG_PTR FORWARD_API WINAPI
SetClassLongPtrWrapW(
IN HWND hWnd,
IN int nIndex,
IN LONG_PTR dwNewLong)
{
VALIDATE_PROTOTYPE(SetClassLongPtr);
FORWARD_AW(SetClassLongPtr, (hWnd, nIndex, dwNewLong));
}
BOOL
WINAPI
GetComputerNameWrapW (
OUT LPWSTR lpBuffer,
IN OUT LPDWORD nSize
)
{
VALIDATE_PROTOTYPE(GetComputerName);
if(g_bRunningOnNT)
{
return GetComputerNameW( lpBuffer, nSize);
}
else
{
CStrOut strOutCompName(lpBuffer, *nSize);
return GetComputerNameA(strOutCompName, nSize);
}
}
BOOL
WINAPI
GetFileSecurityWrapW (
IN LPCWSTR lpFileName,
IN SECURITY_INFORMATION RequestedInformation,
OUT PSECURITY_DESCRIPTOR pSecurityDescriptor,
IN DWORD nLength,
OUT LPDWORD lpnLengthNeeded
)
{
VALIDATE_PROTOTYPE(GetFileSecurity);
if(g_bRunningOnNT)
{
return GetFileSecurityW( lpFileName, RequestedInformation,
pSecurityDescriptor, nLength, lpnLengthNeeded);
}
else
{
CStrIn strInFileName( lpFileName);
return GetFileSecurityA( strInFileName, RequestedInformation,
pSecurityDescriptor, nLength, lpnLengthNeeded);
}
}
BOOL
WINAPI
SetFileSecurityWrapW (
IN LPCWSTR lpFileName,
IN SECURITY_INFORMATION SecurityInformation,
IN PSECURITY_DESCRIPTOR pSecurityDescriptor
)
{
VALIDATE_PROTOTYPE(SetFileSecurity);
if(g_bRunningOnNT)
{
return SetFileSecurityW( lpFileName, SecurityInformation,
pSecurityDescriptor);
}
else
{
CStrIn strInFileName( lpFileName);
return SetFileSecurityA( strInFileName, SecurityInformation,
pSecurityDescriptor);
}
}
int WINAPIV wsprintfWrapW(
LPWSTR lpOut,
LPCWSTR lpFmt,
...)
{
va_list arglist;
int ret;
va_start(arglist, lpFmt);
ret = wvsprintfWrapW(lpOut, lpFmt, arglist);
va_end(arglist);
return ret;
}
//This wrapper dynamically binds to shell32
//because the W or A functions are not necessarily available on 9x
STDAPI SHGetFolderPathWrapW(HWND hwnd, int csidl, HANDLE hToken,
DWORD dwFlags, LPWSTR pszPath)
{
HRESULT hr = E_NOTIMPL;
typedef HRESULT (STDAPICALLTYPE FNSHGetFolderPathW)(HWND, int, HANDLE, DWORD, LPWSTR);
typedef HRESULT (STDAPICALLTYPE FNSHGetFolderPathA)(HWND, int, HANDLE, DWORD, LPSTR);
FNSHGetFolderPathW *pfnSHGetFolderPathW = NULL;
FNSHGetFolderPathA *pfnSHGetFolderPathA = NULL;
// get the handle to shell32.dll library
HMODULE hmodSH32DLL = LoadLibraryWrapW(TEXT("SHELL32.DLL"));
if (hmodSH32DLL != NULL)
{
// get the proc address for SHGetFolderPath
if(g_bRunningOnNT)
{
pfnSHGetFolderPathW = (FNSHGetFolderPathW*)GetProcAddress(hmodSH32DLL, "SHGetFolderPathW");
}
else
{
pfnSHGetFolderPathA = (FNSHGetFolderPathA*)GetProcAddress(hmodSH32DLL, "SHGetFolderPathA");
}
if (g_bRunningOnNT && pfnSHGetFolderPathW)
{
hr = (*pfnSHGetFolderPathW)( hwnd, csidl, hToken, dwFlags, pszPath);
}
else if(pfnSHGetFolderPathA)
{
CStrOut strPathOut(pszPath, MAX_PATH);
hr = (*pfnSHGetFolderPathA)( hwnd, csidl, hToken, dwFlags, strPathOut);
}
FreeLibrary(hmodSH32DLL);
}
return hr;
}
STDAPI StrRetToStrWrapW(STRRET *pstr,
LPCITEMIDLIST pidl,
LPWSTR* ppsz)
{
if(g_bRunningOnNT)
{
return StrRetToStrW( pstr, pidl, ppsz);
}
else
{
LPSTR szAnsiOut = NULL;
HRESULT hr = StrRetToStrA( pstr, pidl, &szAnsiOut);
if(SUCCEEDED(hr))
{
int numChars = strlen(szAnsiOut);
*ppsz = (LPWSTR) CoTaskMemAlloc( (numChars + 2) * sizeof(TCHAR) );
if(*ppsz)
{
SHAnsiToUnicode( szAnsiOut, *ppsz, numChars + 1);
//free temp
CoTaskMemFree( szAnsiOut );
return hr;
}
else
{
return E_OUTOFMEMORY;
}
}
else
{
return hr;
}
}
}
BOOL
WINAPI
GetVersionExWrapW(
IN OUT LPOSVERSIONINFOW lpVersionInformation
)
{
if(g_bRunningOnNT)
{
return GetVersionExW( lpVersionInformation );
}
else
{
//NOTE this API will behave exactly like win9x's
//i.e it doesn't process the OSVERSIONINFOEX fields
BOOL ret = FALSE;
OSVERSIONINFOA osvera;
osvera.dwOSVersionInfoSize = sizeof(OSVERSIONINFOA);
ret = GetVersionExA( &osvera );
if(ret)
{
lpVersionInformation->dwBuildNumber = osvera.dwBuildNumber;
lpVersionInformation->dwMajorVersion = osvera.dwMajorVersion;
lpVersionInformation->dwMinorVersion = osvera.dwMinorVersion;
lpVersionInformation->dwPlatformId = osvera.dwPlatformId;
SHAnsiToUnicode( osvera.szCSDVersion,
lpVersionInformation->szCSDVersion,
sizeof(lpVersionInformation->szCSDVersion)/sizeof(TCHAR));
return TRUE;
}
else
{
return FALSE;
}
}
}
BOOL
WINAPI
GetDefaultCommConfigWrapW(
IN LPCWSTR lpszName,
OUT LPCOMMCONFIG lpCC,
IN OUT LPDWORD lpdwSize
)
{
if(g_bRunningOnNT)
{
return GetDefaultCommConfigW( lpszName, lpCC, lpdwSize);
}
else
{
CStrIn strName( lpszName );
return GetDefaultCommConfigA( strName, lpCC, lpdwSize);
}
}
//
// IME thunks dyamically bind to IME dlls outside the unicode wrapper
// layer so we get passed in function pointers
//
UINT ImmGetIMEFileName_DynWrapW(
IN HKL hkl,
OUT LPWSTR szName,
IN UINT uBufLen,
IN PFN_ImmGetIMEFileNameW pfnImmGetIMEFileNameW,
IN PFN_ImmGetIMEFileNameA pfnImmGetIMEFileNameA)
{
UINT result = 0; //assume fail
if (g_bRunningOnNT)
{
if (pfnImmGetIMEFileNameW)
{
result = pfnImmGetIMEFileNameW(hkl, szName, uBufLen);
}
}
else
{
if (pfnImmGetIMEFileNameA)
{
CStrOut strOutName(szName, uBufLen/sizeof(WCHAR));
result = pfnImmGetIMEFileNameA(hkl, strOutName, uBufLen/2);
}
}
return result;
}
//
// IME thunks dyamically bind to IME dlls outside the unicode wrapper
// layer so we get passed in function pointers
//
BOOL ImpGetIME_DynWrapW(
IN HWND hWnd,
OUT LPIMEPROW lpImeProW,
IN PFN_IMPGetIMEW pfnIMPGetIMEW,
IN PFN_IMPGetIMEA pfnIMPGetIMEA)
{
BOOL fRes = FALSE;
if (g_bRunningOnNT)
{
if (pfnIMPGetIMEW)
{
fRes = pfnIMPGetIMEW(hWnd, lpImeProW);
}
}
else
{
if (pfnIMPGetIMEA)
{
IMEPROA imeProA;
fRes = pfnIMPGetIMEA(hWnd, &imeProA);
if (fRes)
{
lpImeProW->hWnd = imeProA.hWnd;
lpImeProW->InstDate = imeProA.InstDate;
lpImeProW->wVersion = imeProA.wVersion;
SHAnsiToUnicode( (LPCSTR)&imeProA.szDescription,
lpImeProW->szDescription,
sizeof(lpImeProW->szDescription)/sizeof(TCHAR));
SHAnsiToUnicode( (LPCSTR)&imeProA.szName,
lpImeProW->szName,
sizeof(lpImeProW->szName)/sizeof(TCHAR));
SHAnsiToUnicode( (LPCSTR)&imeProA.szOptions,
lpImeProW->szOptions,
sizeof(lpImeProW->szOptions)/sizeof(TCHAR));
}
}
}
return fRes;
}
Reference in New Issue View Git Blame Copy Permalink