// // CCSHELL stock definition and declaration header // #ifndef __CCSTOCK_H__ #define __CCSTOCK_H__ #include // for _alloca #ifndef RC_INVOKED // NT and Win95 environments set warnings differently. This makes // our project consistent across environments. #pragma warning(3:4101) // Unreferenced local variable // // Sugar-coating // #define PUBLIC #define PRIVATE #define IN #define OUT #define BLOCK #ifndef DECLARE_STANDARD_TYPES /* * For a type "FOO", define the standard derived types PFOO, CFOO, and PCFOO. */ #define DECLARE_STANDARD_TYPES(type) typedef type *P##type; \ typedef const type C##type; \ typedef const type *PC##type; #endif #ifndef DECLARE_STANDARD_TYPES_U /* * For a type "FOO", define the standard derived UNALIGNED types PFOO, CFOO, and PCFOO. * WINNT: RISC boxes care about ALIGNED, intel does not. */ #define DECLARE_STANDARD_TYPES_U(type) typedef UNALIGNED type *P##type; \ typedef UNALIGNED const type C##type; \ typedef UNALIGNED const type *PC##type; #endif // For string constants that are always wide #define __TEXTW(x) L##x #define TEXTW(x) __TEXTW(x) // // Count of characters to count of bytes // #define CbFromCchW(cch) ((cch)*sizeof(WCHAR)) #define CbFromCchA(cch) ((cch)*sizeof(CHAR)) #ifdef UNICODE #define CbFromCch CbFromCchW #else // UNICODE #define CbFromCch CbFromCchA #endif // UNICODE // // General flag macros // #define SetFlag(obj, f) do {obj |= (f);} while (0) #define ToggleFlag(obj, f) do {obj ^= (f);} while (0) #define ClearFlag(obj, f) do {obj &= ~(f);} while (0) #define IsFlagSet(obj, f) (BOOL)(((obj) & (f)) == (f)) #define IsFlagClear(obj, f) (BOOL)(((obj) & (f)) != (f)) // // String macros // #define IsSzEqual(sz1, sz2) (BOOL)(lstrcmpi(sz1, sz2) == 0) #define IsSzEqualC(sz1, sz2) (BOOL)(lstrcmp(sz1, sz2) == 0) #define lstrnicmpA(sz1, sz2, cch) StrCmpNIA(sz1, sz2, cch) #define lstrnicmpW(sz1, sz2, cch) StrCmpNIW(sz1, sz2, cch) #define lstrncmpA(sz1, sz2, cch) StrCmpNA(sz1, sz2, cch) #define lstrncmpW(sz1, sz2, cch) StrCmpNW(sz1, sz2, cch) // // lstrcatnA and lstrcatnW are #defined here to StrCatBuff which is implemented // in shlwapi. We do this here (and not in shlwapi.h or shlwapip.h) in case the // kernel guys ever decided to implement this. // #define lstrcatnA(sz1, sz2, cchBuffSize) StrCatBuffA(sz1, sz2, cchBuffSize) #define lstrcatnW(sz1, sz2, cchBuffSize) StrCatBuffW(sz1, sz2, cchBuffSize) #ifdef UNICODE #define lstrcatn lstrcatnW #else #define lstrcatn lstrcatnA #endif // UNICODE #ifdef UNICODE #define lstrnicmp lstrnicmpW #define lstrncmp lstrncmpW #else #define lstrnicmp lstrnicmpA #define lstrncmp lstrncmpA #endif #ifndef SIZEOF #define SIZEOF(a) sizeof(a) #endif #ifndef ARRAYSIZE #define ARRAYSIZE(a) (sizeof(a)/sizeof(a[0])) #endif #define SIZECHARS(sz) (sizeof(sz)/sizeof(sz[0])) #define InRange(id, idFirst, idLast) ((UINT)((id)-(idFirst)) <= (UINT)((idLast)-(idFirst))) #define IsInRange InRange // ATOMICRELEASE // #ifndef ATOMICRELEASE # ifdef __cplusplus # define ATOMICRELEASET(p, type) { if(p) { type* punkT=p; p=NULL; punkT->Release();} } # else # define ATOMICRELEASET(p, type) { if(p) { type* punkT=p; p=NULL; punkT->lpVtbl->Release(punkT);} } # endif // doing this as a function instead of inline seems to be a size win. // # ifdef NOATOMICRELESEFUNC # define ATOMICRELEASE(p) ATOMICRELEASET(p, IUnknown) # else # ifdef __cplusplus # define ATOMICRELEASE(p) IUnknown_SafeReleaseAndNullPtr(p) # else # define ATOMICRELEASE(p) IUnknown_AtomicRelease((void **)&p) # endif # endif #endif //ATOMICRELEASE // // IID_PPV_ARG(IType, ppType) // IType is the type of pType // ppType is the variable of type IType that will be filled // // RESULTS in: IID_IType, ppvType // will create a compiler error if wrong level of indirection is used. // // macro for QueryInterface and related functions // that require a IID and a (void **) // this will insure that the cast is safe and appropriate on C++ // // IID_PPV_ARG_NULL(IType, ppType) // // Just like IID_PPV_ARG, except that it sticks a NULL between the // IID and PPV (for IShellFolder::GetUIObjectOf). // // IID_X_PPV_ARG(IType, X, ppType) // // Just like IID_PPV_ARG, except that it sticks X between the // IID and PPV (for SHBindToObject). // // #ifdef __cplusplus #define IID_PPV_ARG(IType, ppType) IID_##IType, reinterpret_cast(static_cast(ppType)) #define IID_X_PPV_ARG(IType, X, ppType) IID_##IType, X, reinterpret_cast(static_cast(ppType)) #else #define IID_PPV_ARG(IType, ppType) &IID_##IType, (void**)(ppType) #define IID_X_PPV_ARG(IType, X, ppType) &IID_##IType, X, (void**)(ppType) #endif #define IID_PPV_ARG_NULL(IType, ppType) IID_X_PPV_ARG(IType, NULL, ppType) #define PPUNK_SET(ppunkDst, punkSrc) \ { ATOMICRELEASE(*ppunkDst); \ if (punkSrc) \ { punkSrc->AddRef(); \ *ppunkDst = punkSrc; \ } \ } // // Helper macro for managing weak pointers to inner interfaces. // (It's the weak version of ATOMICRELEASE.) // // The extra cast to (void **) is to keep C++ from doing strange // inheritance games when all I want to do is change the type. // #ifndef RELEASEINNERINTERFACE #define RELEASEINNERINTERFACE(pOuter, p) \ SHReleaseInnerInterface(pOuter, (IUnknown**)(void **)&(p)) #endif // RELEASEINNERINTERFACE // For checking window charsets #ifdef UNICODE #define IsWindowTchar IsWindowUnicode #else // !UNICODE #define IsWindowTchar !IsWindowUnicode #endif // UNICODE #ifdef DEBUG // This macro is especially useful for cleaner looking code in // declarations or for single lines. For example, instead of: // // { // DWORD dwRet; // #ifdef DEBUG // DWORD dwDebugOnlyVariable; // #endif // // .... // } // // You can type: // // { // DWORD dwRet; // DEBUG_CODE( DWORD dwDebugOnlyVariable; ) // // .... // } #define DEBUG_CODE(x) x #else #define DEBUG_CODE(x) #endif // DEBUG // // SAFECAST(obj, type) // // This macro is extremely useful for enforcing strong typechecking on other // macros. It generates no code. // // Simply insert this macro at the beginning of an expression list for // each parameter that must be typechecked. For example, for the // definition of MYMAX(x, y), where x and y absolutely must be integers, // use: // // #define MYMAX(x, y) (SAFECAST(x, int), SAFECAST(y, int), ((x) > (y) ? (x) : (y))) // // #define SAFECAST(_obj, _type) (((_type)(_obj)==(_obj)?0:0), (_type)(_obj)) // // Bitfields don't get along too well with bools, // so here's an easy way to convert them: // #define BOOLIFY(expr) (!!(expr)) // (scotth): we should probably make this a 'bool', but be careful // because the Alpha compiler might not recognize it yet. Talk to AndyP. // This isn't a BOOL because BOOL is signed and the compiler produces // sloppy code when testing for a single bit. typedef DWORD BITBOOL; // a three state boolean for bools that need initialization typedef enum { TRIBIT_UNDEFINED = 0, TRIBIT_TRUE, TRIBIT_FALSE, } TRIBIT; // // DESTROY_OBJ_WITH_HANDLE(h, fn) // // Kind of like ATOMICRELEASE for handles. Checks for NULL and assigns // NULL when it's done. You supply the destructor function. // #define DESTROY_OBJ_WITH_HANDLE(h, fn) { if (h) { fn(h); (h) = NULL; } } // STOCKLIB util functions // staticIsOS(): returns TRUE/FALSE if the platform is the indicated OS. // This function exists for those who cannot link to shlwapi.dll STDAPI_(BOOL) staticIsOS(DWORD dwOS); #include typedef struct tagDLGTEMPLATEEX { WORD wDlgVer; WORD wSignature; DWORD dwHelpID; DWORD dwExStyle; DWORD dwStyle; WORD cDlgItems; short x; short y; short cx; short cy; } DLGTEMPLATEEX, *LPDLGTEMPLATEEX; #include // // round macro that rounds a to the next multiple of b. // #ifndef ROUNDUP #define ROUNDUP(a,b) ((((a)+(b)-1)/(b))*(b)) #endif #define ROUND_TO_CLUSTER ROUNDUP // // macro that rounds cbSize fields to the nearest pointer size (for alignment) // #define ROUND_TO_POINTER(cbSize) ROUNDUP(cbSize, sizeof(void*)) // // macro that sees if a give char is an number // #define ISDIGIT(c) ((c) >= TEXT('0') && (c) <= TEXT('9')) // // inline that does PathIsDotOrDotDot // __inline BOOL PathIsDotOrDotDotW(LPCWSTR pszPath) { return ((pszPath[0] == L'.') && ((pszPath[1] == L'\0') || ((pszPath[1] == L'.') && (pszPath[2] == L'\0')))); } __inline BOOL PathIsDotOrDotDotA(LPCSTR pszPath) { return ((pszPath[0] == '.') && ((pszPath[1] == '\0') || ((pszPath[1] == '.') && (pszPath[2] == '\0')))); } #ifdef UNICODE #define PathIsDotOrDotDot PathIsDotOrDotDotW #else #define PathIsDotOrDotDot PathIsDotOrDotDotA #endif // // FILETIME helpers // __inline unsigned __int64 _FILETIMEtoInt64(const FILETIME* pft) { return ((unsigned __int64)pft->dwHighDateTime << 32) + pft->dwLowDateTime; } #define FILETIMEtoInt64(ft) _FILETIMEtoInt64(&(ft)) __inline void SetFILETIMEfromInt64(FILETIME *pft, unsigned __int64 i64) { pft->dwLowDateTime = (DWORD)i64; pft->dwHighDateTime = (DWORD)(i64 >> 32); } __inline void IncrementFILETIME(FILETIME *pft, unsigned __int64 iAdjust) { SetFILETIMEfromInt64(pft, _FILETIMEtoInt64(pft) + iAdjust); } __inline void DecrementFILETIME(FILETIME *pft, unsigned __int64 iAdjust) { SetFILETIMEfromInt64(pft, _FILETIMEtoInt64(pft) - iAdjust); } // // FAT and NTFS use different values for "unknown date". // // The FAT "unknown date" is January 1 1980 LOCAL TIME. // The NTFS "unknown date" is January 1 1601 GMT. // // This LOCAL/GMT discrepancy is annoying. // #define FT_FAT_UNKNOWNLOCAL ((unsigned __int64)0x01A8E79FE1D58000) #define FT_NTFS_UNKNOWNGMT ((unsigned __int64)0x0000000000000000) // // FT_ONEHOUR is the number of FILETIME units in an hour. // FT_ONEDAY is the number of FILETIME units in a day. // // 10,000,000 FILETIME units per second * // 3600 seconds per hour * // 24 hours per day. // #define FT_ONESECOND ((unsigned __int64)10000000) #define FT_ONEHOUR ((unsigned __int64)10000000 * 3600) #define FT_ONEDAY ((unsigned __int64)10000000 * 3600 * 24) // // // WindowLong accessor macros and other Win64 niceness // __inline void * GetWindowPtr(HWND hWnd, int nIndex) { return (void *)GetWindowLongPtr(hWnd, nIndex); } __inline void * SetWindowPtr(HWND hWnd, int nIndex, void * p) { return (void *)SetWindowLongPtr(hWnd, nIndex, (LONG_PTR)p); } //*** GetWindowLong0 -- 'fast' GetWindowLong (and GetWindowLongPtr) // DESCRIPTION // what's up w/ this? it's all about perf. GetWindowLong has 'A' and 'W' // versions. however 99% of the time they do the same thing (the other // 0.1% has to do w/ setting the WndProc and having to go thru a thunk). // but we still need wrappers for the general case. but most of the time // we're just doing a GWL(0), e.g. on entry to a wndproc to get our private // data. so by having a special version of that, we save going thru the // wrapper (which was costing us 1-3% of our profile). // NOTES // note that we call the 'A' version since that's guaranteed to exist on // all platforms. __inline LONG GetWindowLong0(HWND hWnd) { return GetWindowLongA(hWnd, 0); } __inline LONG SetWindowLong0(HWND hWnd, LONG l) { return SetWindowLongA(hWnd, 0, l); } __inline void * GetWindowPtr0(HWND hWnd) { return (void *)GetWindowLongPtrA(hWnd, 0); } __inline void * SetWindowPtr0(HWND hWnd, void * p) { return (void *)SetWindowLongPtrA(hWnd, 0, (LONG_PTR)p); } #define IS_WM_CONTEXTMENU_KEYBOARD(lParam) ((DWORD)(lParam) == 0xFFFFFFFF) // // CharUpperChar - Convert a single character to uppercase // __inline WCHAR CharUpperCharW(int c) { return (WCHAR)(DWORD_PTR)CharUpperW((LPWSTR)(DWORD_PTR)(c)); } __inline CHAR CharUpperCharA(int c) { return (CHAR)(DWORD_PTR)CharUpperA((LPSTR)(DWORD_PTR)(c)); } // // CharLowerChar - Convert a single character to lowercase // __inline WCHAR CharLowerCharW(int c) { return (WCHAR)(DWORD_PTR)CharLowerW((LPWSTR)(DWORD_PTR)(c)); } __inline CHAR CharLowerCharA(int c) { return (CHAR)(DWORD_PTR)CharLowerA((LPSTR)(DWORD_PTR)(c)); } #ifdef UNICODE #define CharUpperChar CharUpperCharW #define CharLowerChar CharLowerCharW #else #define CharUpperChar CharUpperCharA #define CharLowerChar CharLowerCharA #endif // // ShrinkProcessWorkingSet - Use this to stay Sundown-happy. // #define ShrinkWorkingSet() \ SetProcessWorkingSetSize(GetCurrentProcess(), (SIZE_T) -1, (SIZE_T) -1) // // COM Initialization. // // Usage: // // HRESULT hrInit = SHCoInitialize(); // ... do COM stuff ... // SHCoUninitialize(hrInit); // // Notice: Continue doing COM stuff even if SHCoInitialize fails. // It might fail if somebody else already CoInit'd with different // flags, but we don't want to barf under those conditions. // STDAPI SHCoInitialize(void); #define SHCoUninitialize(hr) if (SUCCEEDED(hr)) CoUninitialize() // // OLE Initialization. // // Usage: // // HRESULT hrInit = SHOleInitialize(pMalloc); // ... do COM stuff ... // SHOleUninitialize(hrInit); // #define SHOleInitialize(pMalloc) OleInitialize(pMalloc) #define SHOleUninitialize(hr) if (SUCCEEDED(hr)) OleUninitialize() #include // // Name Parsing generic across the shell // // Usage: // // HRESULT SHGetNameAndFlags() // wrapper to bind to the folder and do a GetDisplayName() // STDAPI SHGetNameAndFlagsA(LPCITEMIDLIST pidl, DWORD dwFlags, LPSTR pszName, UINT cchName, DWORD *pdwAttribs); STDAPI SHGetNameAndFlagsW(LPCITEMIDLIST pidl, DWORD dwFlags, LPWSTR pszName, UINT cchName, DWORD *pdwAttribs); STDAPI SHBindToObject(struct IShellFolder *psf, REFIID riid, LPCITEMIDLIST pidl, void **ppv); STDAPI SHBindToObjectEx(struct IShellFolder *psf, LPCITEMIDLIST pidl, struct IBindCtx *pbc, REFIID riid, void **ppv); STDAPI SHGetUIObjectFromFullPIDL(LPCITEMIDLIST pidl, HWND hwnd, REFIID riid, void **ppv); STDAPI SHGetTargetFolderIDList(LPCITEMIDLIST pidlFolder, LPITEMIDLIST *ppidl); STDAPI SHGetTargetFolderPathW(LPCITEMIDLIST pidlFolder, LPWSTR pszPath, UINT cchBuf); STDAPI SHGetTargetFolderPathA(LPCITEMIDLIST pidlFolder, LPSTR pszPath, UINT cchBuf); STDAPI_(DWORD) SHGetAttributes(struct IShellFolder *psf, LPCITEMIDLIST pidl, DWORD dwAttributes); #define SHGetAttributesOf(pidl, prgfInOut) SHGetNameAndFlags(pidl, 0, NULL, 0, prgfInOut) #ifdef __IShellFolder2_FWD_DEFINED__ STDAPI GetDateProperty(IShellFolder2 *psf, LPCITEMIDLIST pidl, const SHCOLUMNID *pscid, FILETIME *pft); STDAPI GetLongProperty(IShellFolder2 *psf, LPCITEMIDLIST pidl, const SHCOLUMNID *pscid, ULONGLONG *pdw); STDAPI GetStringProperty(IShellFolder2 *psf, LPCITEMIDLIST pidl, const SHCOLUMNID *pscid, LPTSTR pszVal, int cchMax); #endif // __IShellFolder2_FWD_DEFINED__ STDAPI LoadFromFileW(REFCLSID clsid, LPCWSTR pszFile, REFIID riid, void **ppv); STDAPI LoadFromIDList(REFCLSID clsid, LPCITEMIDLIST pidl, REFIID riid, void **ppv); STDAPI_(DWORD) GetUrlSchemeW(LPCWSTR pszUrl); STDAPI_(DWORD) GetUrlSchemeA(LPCSTR pszUrl); STDAPI_(void) SHRemoveURLTurd(LPTSTR pszUrl); STDAPI_(void) SHCleanupUrlForDisplay(LPTSTR pszUrl); STDAPI_(BOOL) ShouldNavigateInIE(LPCWSTR pszUrl); STDAPI_(BOOL) IsDesktopFrame(IUnknown *punk); #ifdef UNICODE #define SHGetNameAndFlags SHGetNameAndFlagsW #define GetUrlScheme GetUrlSchemeW #define SHGetTargetFolderPath SHGetTargetFolderPathW #define LoadFromFile LoadFromFileW #else #define SHGetNameAndFlags SHGetNameAndFlagsA #define GetUrlScheme GetUrlSchemeA #define SHGetTargetFolderPath SHGetTargetFolderPathA #endif // // BindCtx helpers // STDAPI BindCtx_CreateWithMode(DWORD grfMode, IBindCtx **ppbc); STDAPI_(DWORD) BindCtx_GetMode(IBindCtx *pbc, DWORD grfModeDefault); STDAPI_(BOOL) BindCtx_ContainsObject(IBindCtx *pbc, LPOLESTR sz); STDAPI BindCtx_RegisterObjectParam(IBindCtx *pbcIn, LPCOLESTR pszRegister, IUnknown *punkRegister, IBindCtx **ppbcOut); STDAPI BindCtx_CreateWithTimeoutDelta(DWORD dwTicksToAllow, IBindCtx **ppbc); STDAPI BindCtx_GetTimeoutDelta(IBindCtx *pbc, DWORD *pdwTicksToAllow); STDAPI BindCtx_RegisterUIWindow(IBindCtx *pbcIn, HWND hwnd, IBindCtx **ppbcOut); STDAPI_(HWND) BindCtx_GetUIWindow(IBindCtx *pbc); typedef struct _BINDCTX_PARAM { LPCWSTR pszName; IBindCtx *pbcParam; } BINDCTX_PARAM; STDAPI BindCtx_RegisterObjectParams(IBindCtx *pbcIn, BINDCTX_PARAM *rgParams, UINT cParams, IBindCtx **ppbcOut); // SHBindToIDListParent(LPCITEMIDLIST pidl, REFIID riid, void **ppv, LPCITEMIDLIST *ppidlLast) // // Given a pidl, you can get an interface pointer (as specified by riid) of the pidl's parent folder (in ppv) // If ppidlLast is non-NULL, you can also get the pidl of the last item. // STDAPI SHBindToIDListParent(LPCITEMIDLIST pidl, REFIID riid, void **ppv, LPCITEMIDLIST *ppidlLast); // // SHBindToFolderIDListParent // // Same as SHBindToIDListParent, except you also specify which root to use. // STDAPI SHBindToFolderIDListParent(struct IShellFolder *psfRoot, LPCITEMIDLIST pidl, REFIID riid, void **ppv, LPCITEMIDLIST *ppidlLast); // // context menu and dataobject helpers. // STDAPI_(void) ReleaseStgMediumHGLOBAL(void *pv, STGMEDIUM *pmedium); #define FAILED_AND_NOT_CANCELED(hr) (FAILED(hr) && (HRESULT_FROM_WIN32(ERROR_CANCELLED) != hr)) STDAPI SHInvokeCommandOnPidl(HWND hwnd, IUnknown* punk, LPCITEMIDLIST pidl, UINT uFlags, LPCSTR lpVerb); STDAPI SHInvokeCommandOnPidlArray(HWND hwnd, IUnknown* punk, struct IShellFolder* psf, LPCITEMIDLIST *ppidlItem, UINT cItems, UINT uFlags, LPCSTR lpVerb); STDAPI SHInvokeCommandOnDataObject(HWND hwnd, IUnknown* punk, IDataObject* pdo, UINT uFlags, LPCSTR lpVerb); STDAPI DisplayNameOf(struct IShellFolder *psf, LPCITEMIDLIST pidl, DWORD flags, LPTSTR psz, UINT cch); STDAPI DisplayNameOfAsOLESTR(struct IShellFolder *psf, LPCITEMIDLIST pidl, DWORD flags, LPWSTR *ppsz); // clones the parent of the pidl STDAPI_(LPITEMIDLIST) ILCloneParent(LPCITEMIDLIST pidl); STDAPI SHGetIDListFromUnk(IUnknown *punk, LPITEMIDLIST *ppidl); STDAPI_(BOOL) ILIsRooted(LPCITEMIDLIST pidl); STDAPI_(LPCITEMIDLIST) ILRootedFindIDList(LPCITEMIDLIST pidl); STDAPI_(BOOL) ILRootedGetClsid(LPCITEMIDLIST pidl, CLSID *clsid); STDAPI_(LPITEMIDLIST) ILRootedCreateIDList(CLSID *pclsid, LPCITEMIDLIST pidl); STDAPI_(int) ILRootedCompare(LPCITEMIDLIST pidl1, LPCITEMIDLIST pidl2); #define ILIsEqualRoot(pidl1, pidl2) (0 == ILRootedCompare(pidl1, pidl2)) STDAPI ILRootedBindToRoot(LPCITEMIDLIST pidl, REFIID riid, void **ppv); STDAPI ILRootedBindToObject(LPCITEMIDLIST pidl, REFIID riid, void **ppv); STDAPI ILRootedBindToParentFolder(LPCITEMIDLIST pidl, REFIID riid, void **ppv, LPCITEMIDLIST *ppidlChild); typedef HGLOBAL HIDA; STDAPI_(HIDA) HIDA_Create(LPCITEMIDLIST pidlFolder, UINT cidl, LPCITEMIDLIST *apidl); STDAPI_(void) HIDA_Free(HIDA hida); STDAPI_(HIDA) HIDA_Clone(HIDA hida); STDAPI_(UINT) HIDA_GetCount(HIDA hida); STDAPI_(UINT) HIDA_GetIDList(HIDA hida, UINT i, LPITEMIDLIST pidlOut, UINT cbMax); STDAPI StgMakeUniqueName(IStorage *pStorageParent, LPCTSTR pszFileSpec, REFIID riid, void **ppv); STDAPI_(BOOL) PathIsImage(LPCTSTR pszFile); STDAPI_(BOOL) SHChangeMenuWasSentByMe(LPVOID self, LPCITEMIDLIST pidlNotify); STDAPI_(void) SHSendChangeMenuNotify(LPVOID self, DWORD shcnee, DWORD shcnf, LPCITEMIDLIST pidl2); STDAPI_(BOOL) Pidl_Set(LPITEMIDLIST* ppidl, LPCITEMIDLIST pidl); STDAPI GetHTMLDoc2(IUnknown *punk, struct IHTMLDocument2 **ppHtmlDoc); STDAPI LocalZoneCheck(IUnknown *punkSite); STDAPI LocalZoneCheckPath(LPCWSTR pszUrl, IUnknown *punkSite); STDAPI GetZoneFromUrl(LPCWSTR pszUrl, IUnknown * punkSite, DWORD * pdwZoneID); STDAPI GetZoneFromSite(IUnknown *punkSite, DWORD * pdwZoneID); STDAPI SHGetDefaultClientOpenCommandW(LPCWSTR pwszClientType, LPWSTR pwszClientCommand, DWORD dwCch, OPTIONAL LPWSTR pwszClientParams, DWORD dwCchParams); STDAPI SHGetDefaultClientNameW(LPCWSTR pwszClientType, LPWSTR pwszBuf, DWORD dwCch); //=========================================================================== // Helper functions for pidl allocation using the task allocator. // STDAPI_(LPITEMIDLIST) _ILCreate(UINT cbSize); STDAPI SHILClone(LPCITEMIDLIST pidl, LPITEMIDLIST * ppidlOut); STDAPI SHILCombine(LPCITEMIDLIST pidl1, LPCITEMIDLIST pidl2, LPITEMIDLIST * ppidlOut); #define SHILFree(pidl) SHFree(pidl) // // DLL version helper macros // // To add DllGetVersion support to your DLL, do this: // // 1. foo.c // // DLLVER_SINGLEBINARY(VER_PRODUCTVERSION_DW, VER_PRODUCTBUILD_QFE); // // or // // DLLVER_DUALBINARY(VER_PRODUCTVERSION_DW, VER_PRODUCTBUILD_QFE); // // depending on whether you are a single-binary or dual-binary component. // // 2. foo.src: // // DllGetVersion = CCDllGetVersion ULTRAPRIVATE // // 3. sources: // // LINKLIBS = $(LINKLIBS) $(CCSHELL_DIR)\lib\$(O)\stocklib.lib // #define PRODUCTVER_GETMAJOR(ver) (((ver) & 0xFF000000) >> 24) #define PRODUCTVER_GETMINOR(ver) (((ver) & 0x00FF0000) >> 16) #define PRODUCTVER_GETBUILD(ver) (((ver) & 0x0000FFFF) >> 0) #define MAKEDLLVERULL_PRODUCTVERQFE(ver, qfe) \ MAKEDLLVERULL(PRODUCTVER_GETMAJOR(ver), \ PRODUCTVER_GETMINOR(ver), \ PRODUCTVER_GETBUILD(ver), qfe) #define MAKE_DLLVER_STRUCT(ver, plat, qfe) \ EXTERN_C const DLLVERSIONINFO2 c_dllver = { \ { /* DLLVERSIONINFO */ \ 0, /* cbSize */ \ PRODUCTVER_GETMAJOR(ver), /* dwMajorVersion */ \ PRODUCTVER_GETMINOR(ver), /* dwMinorVersion */ \ PRODUCTVER_GETBUILD(ver), /* dwBuildNumber */ \ plat, /* dwPlatformID */ \ }, \ 0, /* dwFlags */ \ MAKEDLLVERULL_PRODUCTVERQFE(ver, qfe), /* ullVersion */ \ } #define DLLVER_9xBINARY(ver, qfe) \ MAKE_DLLVER_STRUCT(ver, DLLVER_PLATFORM_WINDOWS, qfe) #define DLLVER_NTBINARY(ver, qfe) \ MAKE_DLLVER_STRUCT(ver, DLLVER_PLATFORM_NT, qfe) #define DLLVER_SINGLEBINARY DLLVER_9xBINARY #ifdef WINNT #define DLLVER_DUALBINARY DLLVER_NTBINARY #else #define DLLVER_DUALBINARY DLLVER_9xBINARY #endif STDAPI CCDllGetVersion(struct _DLLVERSIONINFO * pinfo); // // Mirroring-Support APIs (astracted in \shell\lib\stock5\rtlmir.cpp) // #ifdef __cplusplus extern "C" { #endif extern BOOL g_bMirroredOS; void EditBiDiDLGTemplate(LPDLGTEMPLATE pdt, DWORD dwFlags, PWORD pwIgnoreList, int cIgnore); #define EBDT_NOMIRROR 0x00000001 #define EBDT_FLIP 0x00000002 #ifdef USE_MIRRORING BOOL IsBiDiLocalizedSystem( void ); BOOL IsBiDiLocalizedSystemEx( LANGID *pLangID ); BOOL Mirror_IsEnabledOS( void ); LANGID Mirror_GetUserDefaultUILanguage( void ); BOOL Mirror_IsUILanguageInstalled( LANGID langId ); BOOL CALLBACK Mirror_EnumUILanguagesProc(LPTSTR lpUILanguageString, LONG_PTR lParam); BOOL Mirror_IsWindowMirroredRTL( HWND hWnd ); DWORD Mirror_IsDCMirroredRTL( HDC hdc ); DWORD Mirror_MirrorDC( HDC hdc ); BOOL Mirror_MirrorProcessRTL( void ); DWORD Mirror_GetLayout( HDC hdc ); DWORD Mirror_SetLayout( HDC hdc , DWORD dwLayout ); BOOL Mirror_GetProcessDefaultLayout( DWORD *pdwDefaultLayout ); BOOL Mirror_IsProcessRTL( void ); extern const DWORD dwNoMirrorBitmap; extern const DWORD dwExStyleRTLMirrorWnd; extern const DWORD dwExStyleNoInheritLayout; extern const DWORD dwPreserveBitmap; // // 'g_bMirroredOS' is defined in each component which will use the // mirroring APIs. I decided to put it here, in order to make sure // each component has validated that the OS supports the mirroring // APIs before calling them. // #define GET_BIDI_LOCALIZED_SYSTEM_LANGID(pLangID) \ IsBiDiLocalizedSystemEx(pLangID) #define IS_BIDI_LOCALIZED_SYSTEM() IsBiDiLocalizedSystem() #define IS_MIRRORING_ENABLED() Mirror_IsEnabledOS() #define IS_WINDOW_RTL_MIRRORED(hwnd) (g_bMirroredOS && Mirror_IsWindowMirroredRTL(hwnd)) #define IS_DC_RTL_MIRRORED(hdc) (g_bMirroredOS && Mirror_IsDCMirroredRTL(hdc)) #define GET_PROCESS_DEF_LAYOUT(pdwl) (g_bMirroredOS && Mirror_GetProcessDefaultLayout(pdwl)) #define IS_PROCESS_RTL_MIRRORED() (g_bMirroredOS && Mirror_IsProcessRTL()) #define SET_DC_RTL_MIRRORED(hdc) Mirror_MirrorDC(hdc) #define SET_DC_LAYOUT(hdc,dwl) Mirror_SetLayout(hdc,dwl) #define SET_PROCESS_RTL_LAYOUT() Mirror_MirrorProcessRTL() #define GET_DC_LAYOUT(hdc) Mirror_GetLayout(hdc) #define DONTMIRRORBITMAP dwNoMirrorBitmap #define RTL_MIRRORED_WINDOW dwExStyleRTLMirrorWnd #define RTL_NOINHERITLAYOUT dwExStyleNoInheritLayout #define LAYOUT_PRESERVEBITMAP dwPreserveBitmap #else #define GET_BIDI_LOCALIZED_SYSTEM_LANGID(pLangID) \ FALSE #define IS_BIDI_LOCALIZED_SYSTEM() FALSE #define IS_MIRRORING_ENABLED() FALSE #define IS_WINDOW_RTL_MIRRORED(hwnd) FALSE #define IS_DC_RTL_MIRRORED(hdc) FALSE #define GET_PROCESS_DEF_LAYOUT(pdwl) FALSE #define IS_PROCESS_RTL_MIRRORED() FALSE #define SET_DC_RTL_MIRRORED(hdc) #define SET_DC_LAYOUT(hdc,dwl) #define SET_PROCESS_DEFAULT_LAYOUT() #define GET_DC_LAYOUT(hdc) 0L #define DONTMIRRORBITMAP 0L #define RTL_MIRRORED_WINDOW 0L #define LAYOUT_PRESERVEBITMAP 0L #define RTL_NOINHERITLAYOUT 0L #endif // USE_MIRRROING BOOL IsBiDiLocalizedWin95( BOOL bArabicOnly ); //------------------------------------------------------------------------ // Dynamic class array // typedef struct _DCA * HDCA; // hdca HDCA DCA_Create(); void DCA_Destroy(HDCA hdca); int DCA_GetItemCount(HDCA hdca); BOOL DCA_AddItem(HDCA hdca, REFCLSID rclsid); const CLSID * DCA_GetItem(HDCA hdca, int i); void DCA_AddItemsFromKeyA(HDCA hdca, HKEY hkey, LPCSTR pszSubKey); void DCA_AddItemsFromKeyW(HDCA hdca, HKEY hkey, LPCWSTR pszSubKey); #ifdef UNICODE #define DCA_AddItemsFromKey DCA_AddItemsFromKeyW #else #define DCA_AddItemsFromKey DCA_AddItemsFromKeyA #endif STDAPI DCA_CreateInstance(HDCA hdca, int iItem, REFIID riid, void ** ppv); #ifdef __cplusplus }; #endif #endif // RC_INVOKED //------------------------------------------------------------------------ // Random helpful functions //------------------------------------------------------------------------ // #define EDGE_LEFT 0x00000001 #define EDGE_RIGHT 0x00000002 #define EDGE_TOP 0x00000004 #define EDGE_BOTTOM 0x00000008 STDAPI_(DWORD) SHIsButtonObscured(HWND hwnd, PRECT prc, INT_PTR i); STDAPI_(void) _SHPrettyMenu(HMENU hm); STDAPI_(BOOL) _SHIsMenuSeparator(HMENU hm, int i); STDAPI_(BOOL) _SHIsMenuSeparator2(HMENU hm, int i, BOOL *pbIsNamed); STDAPI_(BYTE) SHBtnStateFromRestriction(DWORD dwRest, BYTE fsState); STDAPI_(BOOL) SHIsDisplayable(LPCWSTR pwszName, BOOL fRunOnFE, BOOL fRunOnNT5); #define SHProcessMessagesUntilEvent(hwnd, hEvent, dwTimeout) SHProcessMessagesUntilEventEx(hwnd, hEvent, dwTimeout, QS_ALLINPUT) #define SHProcessSentMessagesUntilEvent(hwnd, hEvent, dwTimeout) SHProcessMessagesUntilEventEx(hwnd, hEvent, dwTimeout, QS_SENDMESSAGE) STDAPI_(DWORD) SHProcessMessagesUntilEventEx(HWND hwnd, HANDLE hEvent, DWORD dwTimeout, DWORD dwWakeMask); STDAPI_(BOOL) SetWindowZorder(HWND hwnd, HWND hwndInsertAfter); STDAPI_(BOOL) SHForceWindowZorder(HWND hwnd, HWND hwndInsertAfter); STDAPI_(void) EnableOKButtonFromString(HWND hDlg, LPTSTR pszText); STDAPI_(void) EnableOKButtonFromID(HWND hDlg, int id); STDAPI_(void) AlphaStripRenderIcon(HDC hdc, int x, int y, HICON hicon, HDC hdcCompatible); STDAPI_(void) SHAdjustLOGFONTA(IN OUT LOGFONTA *plf); STDAPI_(void) SHAdjustLOGFONTW(IN OUT LOGFONTW *plf); #ifdef UNICODE #define SHAdjustLOGFONT SHAdjustLOGFONTW #else #define SHAdjustLOGFONT SHAdjustLOGFONTA #endif STDAPI SHLoadLegacyRegUIStringA(HKEY hk, LPCSTR pszSubkey, LPSTR pszOutBuf, UINT cchOutBuf); STDAPI SHLoadLegacyRegUIStringW(HKEY hk, LPCWSTR pszSubkey, LPWSTR pszOutBuf, UINT cchOutBuf); #ifdef UNICODE #define SHLoadLegacyRegUIString SHLoadLegacyRegUIStringW #else #define SHLoadLegacyRegUIString SHLoadLegacyRegUIStringA #endif // These 2 functions determine whether a registry subkey exists by // trying to open and close the key using the KEY_QUERY_VALUE sam. STDAPI_(BOOL) SHRegSubKeyExistsA(HKEY hkey, PCSTR pszSubKey); // DO NOT MAKE PUBLIC IN SHLWAPI: use SHRegGetValue() directly STDAPI_(BOOL) SHRegSubKeyExistsW(HKEY hkey, PCWSTR pwszSubKey); // DO NOT MAKE PUBLIC IN SHLWAPI: use SHRegGetValue() directly STDAPI SHRegGetDWORDA( HKEY hkey, PCSTR pszSubKey, PCSTR pszValue, DWORD *pdwData); // DO NOT MAKE PUBLIC IN SHLWAPI: use SHRegGetValue() directly STDAPI SHRegGetDWORDW( HKEY hkey, PCWSTR pwszSubKey, PCWSTR pwszValue, DWORD *pdwData); // DO NOT MAKE PUBLIC IN SHLWAPI: use SHRegGetValue() directly STDAPI SHRegGetStringA( HKEY hkey, PCSTR pszSubKey, PCSTR pszValue, PSTR pszData, DWORD cchData); // DO NOT MAKE PUBLIC IN SHLWAPI: use SHRegGetValue() directly STDAPI SHRegGetStringW( HKEY hkey, PCWSTR pwszSubKey, PCWSTR pwszValue, PWSTR pwszData, DWORD cchData); // DO NOT MAKE PUBLIC IN SHLWAPI: use SHRegGetValue() directly STDAPI SHRegAllocStringA( HKEY hkey, PCSTR pszSubKey, PCSTR pszValue, PSTR * ppszData); // DO NOT MAKE PUBLIC IN SHLWAPI: use SHRegGetValue() directly STDAPI SHRegAllocStringW( HKEY hkey, PCWSTR pwszSubKey, PCWSTR pwszValue, PWSTR *ppwszData); // DO NOT MAKE PUBLIC IN SHLWAPI: use SHRegGetValue() directly #ifdef UNICODE #define SHRegSubKeyExists SHRegSubKeyExistsW #define SHRegGetDWORD SHRegGetDWORDW #define SHRegGetString SHRegGetStringW #define SHRegAllocString SHRegAllocStringW #else #define SHRegSubKeyExists SHRegSubKeyExistsA #define SHRegGetDWORD SHRegGetDWORDA #define SHRegGetString SHRegGetStringA #define SHRegAllocString SHRegAllocStringA #endif STDAPI_(CHAR) SHFindMnemonicA(LPCSTR psz); STDAPI_(WCHAR) SHFindMnemonicW(LPCWSTR psz); #ifdef UNICODE #define SHFindMnemonic SHFindMnemonicW #else #define SHFindMnemonic SHFindMnemonicA #endif typedef struct tagINSTALL_INFO { LPTSTR szSource; LPTSTR szDest; DWORD dwDestAttrib; } INSTALL_INFO; // // Special attributes in INSTALL_INFO.dwDestAttrib. We use attributes // that we would never otherwise use. // #define FILE_ATTRIBUTE_INSTALL_NTONLY FILE_ATTRIBUTE_DEVICE #define FILE_ATTRIBUTE_INSTALL_9XONLY FILE_ATTRIBUTE_TEMPORARY // superhidden files are attrib'ed +h +s #define FILE_ATTRIBUTE_SUPERHIDDEN (FILE_ATTRIBUTE_SYSTEM | FILE_ATTRIBUTE_HIDDEN) #define IS_SYSTEM_HIDDEN(dw) ((dw & FILE_ATTRIBUTE_SUPERHIDDEN) == FILE_ATTRIBUTE_SUPERHIDDEN) STDAPI GetInstallInfoFromResource(HINSTANCE hResourceInst, UINT uID, INSTALL_INFO *piiFile); STDAPI InstallInfoFreeMembers(INSTALL_INFO *piiFile); STDAPI InstallFileFromResource(HINSTANCE hInstResource, INSTALL_INFO *piiFile, LPCTSTR pszDestDir); #ifndef OBJCOMPATFLAGS typedef DWORD OBJCOMPATFLAGS; #endif STDAPI_(OBJCOMPATFLAGS) SHGetObjectCompatFlagsFromIDList(LPCITEMIDLIST pidl); #define ROUS_DEFAULTALLOW 0x0000 #define ROUS_DEFAULTRESTRICT 0x0001 #define ROUS_KEYALLOWS 0x0000 #define ROUS_KEYRESTRICTS 0x0002 STDAPI_(BOOL) IsRestrictedOrUserSettingA(HKEY hkeyRoot, enum RESTRICTIONS rest, LPCSTR pszSubKey, LPCSTR pszValue, UINT flags); STDAPI_(BOOL) IsRestrictedOrUserSettingW(HKEY hkeyRoot, enum RESTRICTIONS rest, LPCWSTR pszSubKey, LPCWSTR pszValue, UINT flags); STDAPI_(BOOL) GetExplorerUserSettingA(HKEY hkeyRoot, LPCTSTR pszSubKey, LPCTSTR pszValue); STDAPI_(BOOL) GetExplorerUserSettingW(HKEY hkeyRoot, LPCTSTR pszSubKey, LPCTSTR pszValue); #ifdef UNICODE #define IsRestrictedOrUserSetting IsRestrictedOrUserSettingW #define GetExplorerUserSetting GetExplorerUserSettingW #else #define IsRestrictedOrUserSetting IsRestrictedOrUserSettingA #define GetExplorerUserSetting GetExplorerUserSettingA #endif // // PropertBag helpers STDAPI_(void) SHPropertyBag_ReadStrDef(IPropertyBag* ppb, LPCWSTR pszPropName, LPWSTR psz, int cch, LPCWSTR pszDef); STDAPI_(void) SHPropertyBag_ReadIntDef(IPropertyBag* ppb, LPCWSTR pszPropName, int* piResult, int iDef); STDAPI_(void) SHPropertyBag_ReadSHORTDef(IPropertyBag* ppb, LPCWSTR pszPropName, SHORT* psh, SHORT shDef); STDAPI_(void) SHPropertyBag_ReadLONGDef(IPropertyBag* ppb, LPCWSTR pszPropName, LONG* pl, LONG lDef); STDAPI_(void) SHPropertyBag_ReadDWORDDef(IPropertyBag* ppb, LPCWSTR pszPropName, DWORD* pdw, DWORD dwDef); STDAPI_(void) SHPropertyBag_ReadBOOLDef(IPropertyBag* ppb, LPCWSTR pszPropName, BOOL* pf, BOOL fDef); STDAPI_(void) SHPropertyBag_ReadGUIDDef(IPropertyBag* ppb, LPCWSTR pszPropName, GUID* pguid, const GUID* pguidDef); STDAPI_(void) SHPropertyBag_ReadPOINTLDef(IPropertyBag* ppb, LPCWSTR pszPropName, POINTL* ppt, const POINTL* pptDef); STDAPI_(void) SHPropertyBag_ReadPOINTSDef(IPropertyBag* ppb, LPCWSTR pszPropName, POINTS* ppt, const POINTS* pptDef); STDAPI_(void) SHPropertyBag_ReadRECTLDef(IPropertyBag* ppb, LPCWSTR pszPropName, RECTL* prc, const RECTL* prcDef); STDAPI_(BOOL) SHPropertyBag_ReadBOOLDefRet(IPropertyBag* ppb, LPCWSTR pszPropName, BOOL fDef); STDAPI SHPropertyBag_ReadStreamScreenRes(IPropertyBag* ppb, LPCWSTR pszPropName, IStream** ppstm); STDAPI SHPropertyBag_WriteStreamScreenRes(IPropertyBag* ppb, LPCWSTR pszPropName, IStream* pstm); STDAPI SHPropertyBag_ReadPOINTSScreenRes(IPropertyBag* ppb, LPCWSTR pszPropName, POINTS* ppt); STDAPI SHPropertyBag_WritePOINTSScreenRes(IPropertyBag* ppb, LPCWSTR pszPropName, const POINTS* ppt); STDAPI_(void) SHPropertyBag_ReadDWORDScreenResDef(IPropertyBag* ppb, LPCWSTR pszPropName, DWORD* pdw, DWORD dwDef); STDAPI SHPropertyBag_WriteDWORDScreenRes(IPropertyBag* ppb, LPCWSTR pszPropName, DWORD dw); STDAPI SHPropertyBag_ReadPOINTLScreenRes(IPropertyBag* ppb, LPCWSTR pszPropName, POINTL* ppt); STDAPI SHPropertyBag_WritePOINTLScreenRes(IPropertyBag* ppb, LPCWSTR pszPropName, const POINTL* ppt); STDAPI SHPropertyBag_ReadRECTLScreenRes(IPropertyBag* ppb, LPCWSTR pszPropName, RECTL* prc); STDAPI SHPropertyBag_WriteRECTLScreenRes(IPropertyBag* ppb, LPCWSTR pszPropName, const RECTL* prc); STDAPI SHPropertyBag_DeleteScreenRes(IPropertyBag* ppb, LPCWSTR pszPropName); #define VS_BAGSTR_EXPLORER L"Shell" #define VS_BAGSTR_DESKTOP L"Desktop" #define VS_BAGSTR_COMCLG L"ComDlg" #define VS_PROPSTR_MINPOS L"MinPos" #define VS_PROPSTR_MAXPOS L"MaxPos" #define VS_PROPSTR_POS L"WinPos" #define VS_PROPSTR_MODE L"Mode" #define VS_PROPSTR_REV L"Rev" #define VS_PROPSTR_WPFLAGS L"WFlags" #define VS_PROPSTR_SHOW L"ShowCmd" #define VS_PROPSTR_FFLAGS L"FFlags" #define VS_PROPSTR_HOTKEY L"HotKey" #define VS_PROPSTR_BUTTONS L"Buttons" #define VS_PROPSTR_STATUS L"Status" #define VS_PROPSTR_LINKS L"Links" #define VS_PROPSTR_ADDRESS L"Address" #define VS_PROPSTR_VID L"Vid" #define VS_PROPSTR_SCROLL L"ScrollPos" #define VS_PROPSTR_SORT L"Sort" #define VS_PROPSTR_SORTDIR L"SortDir" #define VS_PROPSTR_COL L"Col" #define VS_PROPSTR_COLINFO L"ColInfo" #define VS_PROPSTR_ITEMPOS L"ItemPos" //------------------------------------------------------------------------ //////////////// // // Critical section stuff // // Helper macros that give nice debug support // EXTERN_C CRITICAL_SECTION g_csDll; #ifdef DEBUG EXTERN_C UINT g_CriticalSectionCount; EXTERN_C DWORD g_CriticalSectionOwner; EXTERN_C void Dll_EnterCriticalSection(CRITICAL_SECTION*); EXTERN_C void Dll_LeaveCriticalSection(CRITICAL_SECTION*); #if defined(__cplusplus) && defined(AssertMsg) class DEBUGCRITICAL { protected: BOOL fClosed; public: DEBUGCRITICAL() {fClosed = FALSE;}; void Leave() {fClosed = TRUE;}; ~DEBUGCRITICAL() { AssertMsg(fClosed, TEXT("you left scope while holding the critical section")); } }; #define ENTERCRITICAL DEBUGCRITICAL debug_crit; Dll_EnterCriticalSection(&g_csDll) #define LEAVECRITICAL debug_crit.Leave(); Dll_LeaveCriticalSection(&g_csDll) #define ENTERCRITICALNOASSERT Dll_EnterCriticalSection(&g_csDll) #define LEAVECRITICALNOASSERT Dll_LeaveCriticalSection(&g_csDll) #else // __cplusplus #define ENTERCRITICAL Dll_EnterCriticalSection(&g_csDll) #define LEAVECRITICAL Dll_LeaveCriticalSection(&g_csDll) #define ENTERCRITICALNOASSERT Dll_EnterCriticalSection(&g_csDll) #define LEAVECRITICALNOASSERT Dll_LeaveCriticalSection(&g_csDll) #endif // __cplusplus #define ASSERTCRITICAL ASSERT(g_CriticalSectionCount > 0 && GetCurrentThreadId() == g_CriticalSectionOwner) #define ASSERTNONCRITICAL ASSERT(GetCurrentThreadId() != g_CriticalSectionOwner) #else // DEBUG #define ENTERCRITICAL EnterCriticalSection(&g_csDll) #define LEAVECRITICAL LeaveCriticalSection(&g_csDll) #define ENTERCRITICALNOASSERT EnterCriticalSection(&g_csDll) #define LEAVECRITICALNOASSERT LeaveCriticalSection(&g_csDll) #define ASSERTCRITICAL #define ASSERTNONCRITICAL #endif // DEBUG //////////////// // // computer display name support // // Display name: A formatted name that NetFldr uses. It is currently constructed out of the computer name, // and, if available, the computer comment (description). // DSheldon STDAPI SHBuildDisplayMachineName(LPCWSTR pszMachineName, LPCWSTR pszComment, LPWSTR pszDisplayName, DWORD cchDisplayName); STDAPI CreateFromRegKey(LPCWSTR pszKey, LPCWSTR pszValue, REFIID riid, void **ppv); STDAPI_(LPCTSTR) SkipServerSlashes(LPCTSTR pszName); // // A couple of inline functions that create an HRESULT from // a Win32 error code without the double-evaluation side effect of // the HRESULT_FROM_WIN32 macro. // // Use ResultFromWin32 in place of HRESULT_FROM_WIN32 if // the side effects of that macro are unwanted. // ResultFromLastError was created as a convenience for a // common idiom. // You could simply call ResultFromWin32(GetLastError()) yourself. // __inline HRESULT ResultFromWin32(DWORD dwErr) { return HRESULT_FROM_WIN32(dwErr); } __inline HRESULT ResultFromLastError(void) { return ResultFromWin32(GetLastError()); } STDAPI_(void) IEPlaySound(LPCTSTR pszSound, BOOL fSysSound); STDAPI IUnknown_DragEnter(IUnknown* punk, IDataObject *pdtobj, DWORD grfKeyState, POINTL pt, DWORD *pdwEffect); STDAPI IUnknown_DragOver(IUnknown* punk, DWORD grfKeyState, POINTL pt, DWORD *pdwEffect); STDAPI IUnknown_DragLeave(IUnknown* punk); STDAPI IUnknown_Drop(IUnknown* punk, IDataObject *pdtobj, DWORD grfKeyState, POINTL pt, DWORD *pdwEffect); STDAPI_(BOOL) IsTypeInList(LPCTSTR pszType, const LPCTSTR *arszList, UINT cList); //---------------------------------------------------------------------- // Msg: WM_MSIME_MODEBIAS // Desc: input mode bias // Owner: YutakaN // Usage: SendMessage( hwndDefUI, WM_MSIME_MODEBIAS, MODEBIAS_xxxx, MODEBIASMODE_xxxx ); // wParam: operation of bias // lParam: bias mode // return: If wParam is MODEBIAS_GETVERSION,returns version number of interface. // If wParam is MODEBIAS_SETVALUE : return non-zero value if succeeded. Returns 0 if fail. // If wParam is MODEBIAS_GETVALUE : returns current bias mode. // Label for RegisterWindowMessage #define RWM_MODEBIAS TEXT("MSIMEModeBias") // Current version #define VERSION_MODEBIAS 1 // Set or Get (wParam) #define MODEBIAS_GETVERSION 0 #define MODEBIAS_SETVALUE 1 #define MODEBIAS_GETVALUE 2 // Bias (lParam) #define MODEBIASMODE_DEFAULT 0x00000000 // reset all of bias setting #define MODEBIASMODE_FILENAME 0x00000001 // filename #define MODEBIASMODE_READING 0x00000002 // reading recommended #define MODEBIASMODE_DIGIT 0x00000004 // ANSI-Digit Recommended Mode #define MODEBIASMODE_URLHISTORY 0x00010000 // URL history STDAPI_(void) SetModeBias(DWORD dwMode); #endif // __CCSTOCK_H__