Mercurial > vim
view src/VisVim/OleAut.cpp @ 11343:049857c9b1c4 v8.0.0557
patch 8.0.0557: GTK: using static gravities is not useful
commit https://github.com/vim/vim/commit/59053e1d9f41f9afa16ac7e266ee825a2eb2dd59
Author: Bram Moolenaar <Bram@vim.org>
Date: Sun Apr 9 15:27:09 2017 +0200
patch 8.0.0557: GTK: using static gravities is not useful
Problem: GTK: using static gravities is not useful.
Solution: Remove setting static gravities. (Kazunobu Kuriyama)
author | Christian Brabandt <cb@256bit.org> |
---|---|
date | Sun, 09 Apr 2017 15:30:03 +0200 |
parents | 04736b4030ec |
children | 1759d0ec0a6f |
line wrap: on
line source
// // Class for creating OLE automation controllers. // // CreateObject() creates an automation object // Invoke() will call a property or method of the automation object. // GetProperty() returns a property // SetProperty() changes a property // Method() invokes a method // // For example, the following VB code will control Microsoft Word: // // Private Sub Form_Load() // Dim wb As Object // Set wb = CreateObject("Word.Basic") // wb.AppShow // wb.FileNewDefault // wb.Insert "This is a test" // wb.FileSaveAs "c:\sample.doc)" // End Sub // // A C++ automation controller that does the same can be written as follows: // the helper functions: // // Void FormLoad () // { // COleAutomationControl Aut; // Aut.CreateObject("Word.Basic"); // Aut.Method ("AppShow"); // Aut.Method ("FileNewDefault"); // Aut.Method ("Insert", "s", (LPOLESTR) OLESTR ("This is a test")); // Aut.Method ("FileSaveAs", "s", OLESTR ("c:\\sample.doc")); // } // // #include "stdafx.h" #include <stdarg.h> #include "oleaut.h" #ifdef _DEBUG #define new DEBUG_NEW #undef THIS_FILE static char THIS_FILE[] = __FILE__; #endif static bool CountArgsInFormat (LPCTSTR Format, UINT* nArgs); static LPCTSTR GetNextVarType (LPCTSTR Format, VARTYPE* pVarType); COleAutomationControl::COleAutomationControl () { m_pDispatch = NULL; m_hResult = NOERROR; m_nErrArg = 0; VariantInit (&m_VariantResult); } COleAutomationControl::~COleAutomationControl () { DeleteObject (); } void COleAutomationControl::DeleteObject () { if (m_pDispatch) { m_pDispatch->Release (); m_pDispatch = NULL; } } // Creates an instance of the Automation object and // obtains it's IDispatch interface. // // Parameters: // ProgId ProgID of Automation object // bool COleAutomationControl::CreateObject (char* ProgId) { CLSID ClsId; // CLSID of automation object LPUNKNOWN pUnknown = NULL; // IUnknown of automation object // Retrieve CLSID from the progID that the user specified LPOLESTR OleProgId = TO_OLE_STR (ProgId); m_hResult = CLSIDFromProgID (OleProgId, &ClsId); if (FAILED (m_hResult)) goto error; // Create an instance of the automation object and ask for the // IDispatch interface m_hResult = CoCreateInstance (ClsId, NULL, CLSCTX_SERVER, IID_IUnknown, (void**) &pUnknown); if (FAILED (m_hResult)) goto error; m_hResult = pUnknown->QueryInterface (IID_IDispatch, (void**) &m_pDispatch); if (FAILED (m_hResult)) goto error; pUnknown->Release (); return true; error: if (pUnknown) pUnknown->Release (); if (m_pDispatch) m_pDispatch->Release (); return false; } // Return the dispatch id of a named service // This id can be used in subsequent calls to GetProperty (), SetProperty () and // Method (). This is the preferred method when performance is important. // DISPID COleAutomationControl::GetDispatchId (char* Name) { DISPID DispatchId; ASSERT (m_pDispatch); // Get DISPID of property/method LPOLESTR OleName = TO_OLE_STR (Name); m_hResult = m_pDispatch->GetIDsOfNames (IID_NULL, &OleName, 1, LOCALE_USER_DEFAULT, &DispatchId); if (FAILED (m_hResult)) return NULL; return DispatchId; } // The following functions use these parameters: // // Parameters: // // Name Name of property or method. // // Format Format string that describes the variable list of parameters that // follows. The format string can contain the following characters. // & = mark the following format character as VT_BYREF // B = VT_BOOL // i = VT_I2 // I = VT_I4 // r = VT_R2 // R = VT_R4 // c = VT_CY // s = VT_BSTR (string pointer can be passed, // BSTR will be allocated by this function). // e = VT_ERROR // d = VT_DATE // v = VT_VARIANT. Use this to pass data types that are not described // in the format string. (For example SafeArrays). // D = VT_DISPATCH // U = VT_UNKNOWN // // ... Arguments of the property or method. // Arguments are described by Format. // bool COleAutomationControl::GetProperty (char* Name) { return Invoke (DISPATCH_PROPERTYGET, Name, NULL, NULL); } bool COleAutomationControl::GetProperty (DISPID DispatchId) { return Invoke (DISPATCH_PROPERTYGET, DispatchId, NULL, NULL); } bool COleAutomationControl::PutProperty (char* Name, LPCTSTR Format, ...) { va_list ArgList; va_start (ArgList, Format); bool bRet = Invoke (DISPATCH_PROPERTYPUT, Name, Format, ArgList); va_end (ArgList); return bRet; } bool COleAutomationControl::PutProperty (DISPID DispatchId, LPCTSTR Format, ...) { va_list ArgList; va_start (ArgList, Format); bool bRet = Invoke (DISPATCH_PROPERTYPUT, DispatchId, Format, ArgList); va_end (ArgList); return bRet; } bool COleAutomationControl::Method (char* Name, LPCTSTR Format, ...) { va_list ArgList; va_start (ArgList, Format); bool bRet = Invoke (DISPATCH_METHOD, Name, Format, ArgList); va_end (ArgList); return bRet; } bool COleAutomationControl::Method (DISPID DispatchId, LPCTSTR Format, ...) { va_list ArgList; va_start (ArgList, Format); bool bRet = Invoke (DISPATCH_METHOD, DispatchId, Format, ArgList); va_end (ArgList); return bRet; } bool COleAutomationControl::Invoke (WORD Flags, char* Name, LPCTSTR Format, va_list ArgList) { DISPID DispatchId = GetDispatchId (Name); if (! DispatchId) return false; return Invoke (Flags, DispatchId, Format, ArgList); } bool COleAutomationControl::Invoke (WORD Flags, DISPID DispatchId, LPCTSTR Format, va_list ArgList) { UINT ArgCount = 0; VARIANTARG* ArgVector = NULL; ASSERT (m_pDispatch); DISPPARAMS DispatchParams; memset (&DispatchParams, 0, sizeof (DispatchParams)); // Determine number of arguments if (Format) CountArgsInFormat (Format, &ArgCount); // Property puts have a named argument that represents the value that // the property is being assigned. DISPID DispIdNamed = DISPID_PROPERTYPUT; if (Flags & DISPATCH_PROPERTYPUT) { if (ArgCount == 0) { m_hResult = ResultFromScode (E_INVALIDARG); return false; } DispatchParams.cNamedArgs = 1; DispatchParams.rgdispidNamedArgs = &DispIdNamed; } if (ArgCount) { // Allocate memory for all VARIANTARG parameters ArgVector = (VARIANTARG*) CoTaskMemAlloc ( ArgCount * sizeof (VARIANTARG)); if (! ArgVector) { m_hResult = ResultFromScode (E_OUTOFMEMORY); return false; } memset (ArgVector, 0, sizeof (VARIANTARG) * ArgCount); // Get ready to walk vararg list LPCTSTR s = Format; VARIANTARG *p = ArgVector + ArgCount - 1; // Params go in opposite order for (;;) { VariantInit (p); if (! (s = GetNextVarType (s, &p->vt))) break; if (p < ArgVector) { m_hResult = ResultFromScode (E_INVALIDARG); goto Cleanup; } switch (p->vt) { case VT_I2: V_I2 (p) = va_arg (ArgList, short); break; case VT_I4: V_I4 (p) = va_arg (ArgList, long); break; case VT_R4: V_R4 (p) = va_arg (ArgList, float); break; case VT_DATE: case VT_R8: V_R8 (p) = va_arg (ArgList, double); break; case VT_CY: V_CY (p) = va_arg (ArgList, CY); break; case VT_BSTR: V_BSTR (p) = SysAllocString (va_arg (ArgList, OLECHAR*)); if (! p->bstrVal) { m_hResult = ResultFromScode (E_OUTOFMEMORY); p->vt = VT_EMPTY; goto Cleanup; } break; case VT_DISPATCH: V_DISPATCH (p) = va_arg (ArgList, LPDISPATCH); break; case VT_ERROR: V_ERROR (p) = va_arg (ArgList, SCODE); break; case VT_BOOL: V_BOOL (p) = va_arg (ArgList, BOOL) ? -1 : 0; break; case VT_VARIANT: *p = va_arg (ArgList, VARIANTARG); break; case VT_UNKNOWN: V_UNKNOWN (p) = va_arg (ArgList, LPUNKNOWN); break; case VT_I2 | VT_BYREF: V_I2REF (p) = va_arg (ArgList, short*); break; case VT_I4 | VT_BYREF: V_I4REF (p) = va_arg (ArgList, long*); break; case VT_R4 | VT_BYREF: V_R4REF (p) = va_arg (ArgList, float*); break; case VT_R8 | VT_BYREF: V_R8REF (p) = va_arg (ArgList, double*); break; case VT_DATE | VT_BYREF: V_DATEREF (p) = va_arg (ArgList, DATE*); break; case VT_CY | VT_BYREF: V_CYREF (p) = va_arg (ArgList, CY*); break; case VT_BSTR | VT_BYREF: V_BSTRREF (p) = va_arg (ArgList, BSTR*); break; case VT_DISPATCH | VT_BYREF: V_DISPATCHREF (p) = va_arg (ArgList, LPDISPATCH*); break; case VT_ERROR | VT_BYREF: V_ERRORREF (p) = va_arg (ArgList, SCODE*); break; case VT_BOOL | VT_BYREF: { BOOL* pBool = va_arg (ArgList, BOOL*); *pBool = 0; V_BOOLREF (p) = (VARIANT_BOOL*) pBool; } break; case VT_VARIANT | VT_BYREF: V_VARIANTREF (p) = va_arg (ArgList, VARIANTARG*); break; case VT_UNKNOWN | VT_BYREF: V_UNKNOWNREF (p) = va_arg (ArgList, LPUNKNOWN*); break; default: { m_hResult = ResultFromScode (E_INVALIDARG); goto Cleanup; } break; } --p; // Get ready to fill next argument } } DispatchParams.cArgs = ArgCount; DispatchParams.rgvarg = ArgVector; // Initialize return variant, in case caller forgot. Caller can pass // NULL if return value is not expected. VariantInit (&m_VariantResult); // Make the call m_hResult = m_pDispatch->Invoke (DispatchId, IID_NULL, LOCALE_USER_DEFAULT, Flags, &DispatchParams, &m_VariantResult, &m_ExceptionInfo, &m_nErrArg); Cleanup: // Cleanup any arguments that need cleanup if (ArgCount) { VARIANTARG* p = ArgVector; while (ArgCount--) { switch (p->vt) { case VT_BSTR: VariantClear (p); break; } ++p; } CoTaskMemFree (ArgVector); } return FAILED (m_hResult) ? false : true; } #define CASE_SCODE(sc) \ case sc: \ lstrcpy((char*)ErrName, (char*)#sc); \ break; void COleAutomationControl::ErrDiag () { char ErrName[200]; SCODE sc = GetScode (m_hResult); switch (sc) { // SCODE's defined in SCODE.H CASE_SCODE (S_OK) CASE_SCODE (S_FALSE) CASE_SCODE (E_UNEXPECTED) CASE_SCODE (E_OUTOFMEMORY) CASE_SCODE (E_INVALIDARG) CASE_SCODE (E_NOINTERFACE) CASE_SCODE (E_POINTER) CASE_SCODE (E_HANDLE) CASE_SCODE (E_ABORT) CASE_SCODE (E_FAIL) CASE_SCODE (E_ACCESSDENIED) // SCODE's defined in OLE2.H CASE_SCODE (OLE_E_OLEVERB) CASE_SCODE (OLE_E_ADVF) CASE_SCODE (OLE_E_ENUM_NOMORE) CASE_SCODE (OLE_E_ADVISENOTSUPPORTED) CASE_SCODE (OLE_E_NOCONNECTION) CASE_SCODE (OLE_E_NOTRUNNING) CASE_SCODE (OLE_E_NOCACHE) CASE_SCODE (OLE_E_BLANK) CASE_SCODE (OLE_E_CLASSDIFF) CASE_SCODE (OLE_E_CANT_GETMONIKER) CASE_SCODE (OLE_E_CANT_BINDTOSOURCE) CASE_SCODE (OLE_E_STATIC) CASE_SCODE (OLE_E_PROMPTSAVECANCELLED) CASE_SCODE (OLE_E_INVALIDRECT) CASE_SCODE (OLE_E_WRONGCOMPOBJ) CASE_SCODE (OLE_E_INVALIDHWND) CASE_SCODE (OLE_E_NOT_INPLACEACTIVE) CASE_SCODE (OLE_E_CANTCONVERT) CASE_SCODE (OLE_E_NOSTORAGE) CASE_SCODE (DV_E_FORMATETC) CASE_SCODE (DV_E_DVTARGETDEVICE) CASE_SCODE (DV_E_STGMEDIUM) CASE_SCODE (DV_E_STATDATA) CASE_SCODE (DV_E_LINDEX) CASE_SCODE (DV_E_TYMED) CASE_SCODE (DV_E_CLIPFORMAT) CASE_SCODE (DV_E_DVASPECT) CASE_SCODE (DV_E_DVTARGETDEVICE_SIZE) CASE_SCODE (DV_E_NOIVIEWOBJECT) CASE_SCODE (OLE_S_USEREG) CASE_SCODE (OLE_S_STATIC) CASE_SCODE (OLE_S_MAC_CLIPFORMAT) CASE_SCODE (CONVERT10_E_OLESTREAM_GET) CASE_SCODE (CONVERT10_E_OLESTREAM_PUT) CASE_SCODE (CONVERT10_E_OLESTREAM_FMT) CASE_SCODE (CONVERT10_E_OLESTREAM_BITMAP_TO_DIB) CASE_SCODE (CONVERT10_E_STG_FMT) CASE_SCODE (CONVERT10_E_STG_NO_STD_STREAM) CASE_SCODE (CONVERT10_E_STG_DIB_TO_BITMAP) CASE_SCODE (CONVERT10_S_NO_PRESENTATION) CASE_SCODE (CLIPBRD_E_CANT_OPEN) CASE_SCODE (CLIPBRD_E_CANT_EMPTY) CASE_SCODE (CLIPBRD_E_CANT_SET) CASE_SCODE (CLIPBRD_E_BAD_DATA) CASE_SCODE (CLIPBRD_E_CANT_CLOSE) CASE_SCODE (DRAGDROP_E_NOTREGISTERED) CASE_SCODE (DRAGDROP_E_ALREADYREGISTERED) CASE_SCODE (DRAGDROP_E_INVALIDHWND) CASE_SCODE (DRAGDROP_S_DROP) CASE_SCODE (DRAGDROP_S_CANCEL) CASE_SCODE (DRAGDROP_S_USEDEFAULTCURSORS) CASE_SCODE (OLEOBJ_E_NOVERBS) CASE_SCODE (OLEOBJ_E_INVALIDVERB) CASE_SCODE (OLEOBJ_S_INVALIDVERB) CASE_SCODE (OLEOBJ_S_CANNOT_DOVERB_NOW) CASE_SCODE (OLEOBJ_S_INVALIDHWND) CASE_SCODE (INPLACE_E_NOTUNDOABLE) CASE_SCODE (INPLACE_E_NOTOOLSPACE) CASE_SCODE (INPLACE_S_TRUNCATED) // SCODE's defined in COMPOBJ.H CASE_SCODE (CO_E_NOTINITIALIZED) CASE_SCODE (CO_E_ALREADYINITIALIZED) CASE_SCODE (CO_E_CANTDETERMINECLASS) CASE_SCODE (CO_E_CLASSSTRING) CASE_SCODE (CO_E_IIDSTRING) CASE_SCODE (CO_E_APPNOTFOUND) CASE_SCODE (CO_E_APPSINGLEUSE) CASE_SCODE (CO_E_ERRORINAPP) CASE_SCODE (CO_E_DLLNOTFOUND) CASE_SCODE (CO_E_ERRORINDLL) CASE_SCODE (CO_E_WRONGOSFORAPP) CASE_SCODE (CO_E_OBJNOTREG) CASE_SCODE (CO_E_OBJISREG) CASE_SCODE (CO_E_OBJNOTCONNECTED) CASE_SCODE (CO_E_APPDIDNTREG) CASE_SCODE (CLASS_E_NOAGGREGATION) CASE_SCODE (CLASS_E_CLASSNOTAVAILABLE) CASE_SCODE (REGDB_E_READREGDB) CASE_SCODE (REGDB_E_WRITEREGDB) CASE_SCODE (REGDB_E_KEYMISSING) CASE_SCODE (REGDB_E_INVALIDVALUE) CASE_SCODE (REGDB_E_CLASSNOTREG) CASE_SCODE (REGDB_E_IIDNOTREG) CASE_SCODE (RPC_E_CALL_REJECTED) CASE_SCODE (RPC_E_CALL_CANCELED) CASE_SCODE (RPC_E_CANTPOST_INSENDCALL) CASE_SCODE (RPC_E_CANTCALLOUT_INASYNCCALL) CASE_SCODE (RPC_E_CANTCALLOUT_INEXTERNALCALL) CASE_SCODE (RPC_E_CONNECTION_TERMINATED) CASE_SCODE (RPC_E_SERVER_DIED) CASE_SCODE (RPC_E_CLIENT_DIED) CASE_SCODE (RPC_E_INVALID_DATAPACKET) CASE_SCODE (RPC_E_CANTTRANSMIT_CALL) CASE_SCODE (RPC_E_CLIENT_CANTMARSHAL_DATA) CASE_SCODE (RPC_E_CLIENT_CANTUNMARSHAL_DATA) CASE_SCODE (RPC_E_SERVER_CANTMARSHAL_DATA) CASE_SCODE (RPC_E_SERVER_CANTUNMARSHAL_DATA) CASE_SCODE (RPC_E_INVALID_DATA) CASE_SCODE (RPC_E_INVALID_PARAMETER) CASE_SCODE (RPC_E_CANTCALLOUT_AGAIN) CASE_SCODE (RPC_E_UNEXPECTED) // SCODE's defined in DVOBJ.H CASE_SCODE (DATA_S_SAMEFORMATETC) CASE_SCODE (VIEW_E_DRAW) CASE_SCODE (VIEW_S_ALREADY_FROZEN) CASE_SCODE (CACHE_E_NOCACHE_UPDATED) CASE_SCODE (CACHE_S_FORMATETC_NOTSUPPORTED) CASE_SCODE (CACHE_S_SAMECACHE) CASE_SCODE (CACHE_S_SOMECACHES_NOTUPDATED) // SCODE's defined in STORAGE.H CASE_SCODE (STG_E_INVALIDFUNCTION) CASE_SCODE (STG_E_FILENOTFOUND) CASE_SCODE (STG_E_PATHNOTFOUND) CASE_SCODE (STG_E_TOOMANYOPENFILES) CASE_SCODE (STG_E_ACCESSDENIED) CASE_SCODE (STG_E_INVALIDHANDLE) CASE_SCODE (STG_E_INSUFFICIENTMEMORY) CASE_SCODE (STG_E_INVALIDPOINTER) CASE_SCODE (STG_E_NOMOREFILES) CASE_SCODE (STG_E_DISKISWRITEPROTECTED) CASE_SCODE (STG_E_SEEKERROR) CASE_SCODE (STG_E_WRITEFAULT) CASE_SCODE (STG_E_READFAULT) CASE_SCODE (STG_E_SHAREVIOLATION) CASE_SCODE (STG_E_LOCKVIOLATION) CASE_SCODE (STG_E_FILEALREADYEXISTS) CASE_SCODE (STG_E_INVALIDPARAMETER) CASE_SCODE (STG_E_MEDIUMFULL) CASE_SCODE (STG_E_ABNORMALAPIEXIT) CASE_SCODE (STG_E_INVALIDHEADER) CASE_SCODE (STG_E_INVALIDNAME) CASE_SCODE (STG_E_UNKNOWN) CASE_SCODE (STG_E_UNIMPLEMENTEDFUNCTION) CASE_SCODE (STG_E_INVALIDFLAG) CASE_SCODE (STG_E_INUSE) CASE_SCODE (STG_E_NOTCURRENT) CASE_SCODE (STG_E_REVERTED) CASE_SCODE (STG_E_CANTSAVE) CASE_SCODE (STG_E_OLDFORMAT) CASE_SCODE (STG_E_OLDDLL) CASE_SCODE (STG_E_SHAREREQUIRED) CASE_SCODE (STG_E_NOTFILEBASEDSTORAGE) CASE_SCODE (STG_E_EXTANTMARSHALLINGS) CASE_SCODE (STG_S_CONVERTED) // SCODE's defined in STORAGE.H CASE_SCODE (MK_E_CONNECTMANUALLY) CASE_SCODE (MK_E_EXCEEDEDDEADLINE) CASE_SCODE (MK_E_NEEDGENERIC) CASE_SCODE (MK_E_UNAVAILABLE) CASE_SCODE (MK_E_SYNTAX) CASE_SCODE (MK_E_NOOBJECT) CASE_SCODE (MK_E_INVALIDEXTENSION) CASE_SCODE (MK_E_INTERMEDIATEINTERFACENOTSUPPORTED) CASE_SCODE (MK_E_NOTBINDABLE) CASE_SCODE (MK_E_NOTBOUND) CASE_SCODE (MK_E_CANTOPENFILE) CASE_SCODE (MK_E_MUSTBOTHERUSER) CASE_SCODE (MK_E_NOINVERSE) CASE_SCODE (MK_E_NOSTORAGE) CASE_SCODE (MK_E_NOPREFIX) CASE_SCODE (MK_S_REDUCED_TO_SELF) CASE_SCODE (MK_S_ME) CASE_SCODE (MK_S_HIM) CASE_SCODE (MK_S_US) CASE_SCODE (MK_S_MONIKERALREADYREGISTERED) // SCODE's defined in DISPATCH.H CASE_SCODE (DISP_E_UNKNOWNINTERFACE) CASE_SCODE (DISP_E_MEMBERNOTFOUND) CASE_SCODE (DISP_E_PARAMNOTFOUND) CASE_SCODE (DISP_E_TYPEMISMATCH) CASE_SCODE (DISP_E_UNKNOWNNAME) CASE_SCODE (DISP_E_NONAMEDARGS) CASE_SCODE (DISP_E_BADVARTYPE) CASE_SCODE (DISP_E_EXCEPTION) CASE_SCODE (DISP_E_OVERFLOW) CASE_SCODE (DISP_E_BADINDEX) CASE_SCODE (DISP_E_UNKNOWNLCID) CASE_SCODE (DISP_E_ARRAYISLOCKED) CASE_SCODE (DISP_E_BADPARAMCOUNT) CASE_SCODE (DISP_E_PARAMNOTOPTIONAL) CASE_SCODE (DISP_E_BADCALLEE) CASE_SCODE (DISP_E_NOTACOLLECTION) CASE_SCODE (TYPE_E_BUFFERTOOSMALL) CASE_SCODE (TYPE_E_INVDATAREAD) CASE_SCODE (TYPE_E_UNSUPFORMAT) CASE_SCODE (TYPE_E_REGISTRYACCESS) CASE_SCODE (TYPE_E_LIBNOTREGISTERED) CASE_SCODE (TYPE_E_UNDEFINEDTYPE) CASE_SCODE (TYPE_E_QUALIFIEDNAMEDISALLOWED) CASE_SCODE (TYPE_E_INVALIDSTATE) CASE_SCODE (TYPE_E_WRONGTYPEKIND) CASE_SCODE (TYPE_E_ELEMENTNOTFOUND) CASE_SCODE (TYPE_E_AMBIGUOUSNAME) CASE_SCODE (TYPE_E_NAMECONFLICT) CASE_SCODE (TYPE_E_UNKNOWNLCID) CASE_SCODE (TYPE_E_DLLFUNCTIONNOTFOUND) CASE_SCODE (TYPE_E_BADMODULEKIND) CASE_SCODE (TYPE_E_SIZETOOBIG) CASE_SCODE (TYPE_E_DUPLICATEID) CASE_SCODE (TYPE_E_TYPEMISMATCH) CASE_SCODE (TYPE_E_OUTOFBOUNDS) CASE_SCODE (TYPE_E_IOERROR) CASE_SCODE (TYPE_E_CANTCREATETMPFILE) CASE_SCODE (TYPE_E_CANTLOADLIBRARY) CASE_SCODE (TYPE_E_INCONSISTENTPROPFUNCS) CASE_SCODE (TYPE_E_CIRCULARTYPE) default: lstrcpy (ErrName, "UNKNOWN SCODE"); } char Buf[256]; sprintf (Buf, "An OLE error occurred:\r\nCode = %s\r\nResult = %lx.", (char*) ErrName, m_hResult); MessageBox (NULL, Buf, "OLE Error", MB_OK); } static bool CountArgsInFormat (LPCTSTR Format, UINT* pArgCount) { *pArgCount = 0; if (! Format) return true; while (*Format) { if (*Format == '&') Format++; switch (*Format) { case 'b': case 'i': case 'I': case 'r': case 'R': case 'c': case 's': case 'e': case 'd': case 'v': case 'D': case 'U': ++ (*pArgCount); Format++; break; case '\0': default: return false; } } return true; } static LPCTSTR GetNextVarType (LPCTSTR Format, VARTYPE* pVarType) { *pVarType = 0; if (*Format == '&') { *pVarType = VT_BYREF; Format++; if (!*Format) return NULL; } switch (*Format) { case 'b': *pVarType |= VT_BOOL; break; case 'i': *pVarType |= VT_I2; break; case 'I': *pVarType |= VT_I4; break; case 'r': *pVarType |= VT_R4; break; case 'R': *pVarType |= VT_R8; break; case 'c': *pVarType |= VT_CY; break; case 's': *pVarType |= VT_BSTR; break; case 'e': *pVarType |= VT_ERROR; break; case 'd': *pVarType |= VT_DATE; break; case 'v': *pVarType |= VT_VARIANT; break; case 'U': *pVarType |= VT_UNKNOWN; break; case 'D': *pVarType |= VT_DISPATCH; break; case '\0': return NULL; // End of Format string default: return NULL; } return ++Format; } #ifndef UNICODE char* ConvertToAnsi (OLECHAR* sUnicode) { static char BufAscii[MAX_OLE_STR]; return ConvertToAnsiBuf (sUnicode, BufAscii); } char* ConvertToAnsiBuf (OLECHAR* sUnicode, char* BufAscii) { WideCharToMultiByte (CP_ACP, 0, sUnicode, -1, BufAscii, MAX_OLE_STR, NULL, NULL); return BufAscii; } OLECHAR* ConvertToUnicode (char* sAscii) { static OLECHAR BufUnicode[MAX_OLE_STR]; return ConvertToUnicodeBuf (sAscii, BufUnicode); } OLECHAR* ConvertToUnicodeBuf (char* sAscii, OLECHAR* BufUnicode) { MultiByteToWideChar (CP_ACP, 0, sAscii, -1, BufUnicode, MAX_OLE_STR); return BufUnicode; } #endif