//+--------------------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1992 - 1993. // // File: disputil.cxx // // Contents: Dispatch Utilities. // // Classes: // // Functions: // // History: 21-Feb-94 adams Created // 08-Apr-94 DonCl modified Set/GetDispProp to take REFIID // to meet sysmgmt needs // 25-Oct-94 KrishnaG appropriated from the ADs project // //---------------------------------------------------------------------------- #include "procs.hxx" #define VT_TYPEMASK 0x3ff static HRESULT VARIANTARGToCVar(VARIANTARG * pvarg, VARTYPE vt, void* pv); static void CVarToVARIANTARG(void* pv, VARTYPE vt, VARIANTARG * pvarg); //+--------------------------------------------------------------------------- // // Function: FreeEXCEPINFO // // Synopsis: Frees resources in an excepinfo. Does not reinitialize // these fields. // //---------------------------------------------------------------------------- void FreeEXCEPINFO(EXCEPINFO * pEI) { if (pEI) { ADsFreeString(pEI->bstrSource); ADsFreeString(pEI->bstrDescription); ADsFreeString(pEI->bstrHelpFile); } } //+--------------------------------------------------------------------------- // // Function: ValidateInvoke // // Synopsis: Validates arguments to a call of IDispatch::Invoke. A call // to this function takes less space than the function itself. // //---------------------------------------------------------------------------- HRESULT ValidateInvoke( DISPPARAMS * pdispparams, VARIANT * pvarResult, EXCEPINFO * pexcepinfo, UINT * puArgErr) { if (pvarResult) VariantInit(pvarResult); if (pexcepinfo) InitEXCEPINFO(pexcepinfo); if (puArgErr) *puArgErr = 0; if (!pdispparams) RRETURN(E_INVALIDARG); return S_OK; } //+------------------------------------------------------------------------ // // Function: LoadTypeInfo // // Synopsis: Loads a typeinfo from a registered typelib. // // Arguments: [clsidTL] -- TypeLib GUID // [clsidTI] -- TypeInfo GUID // [ppTI] -- Resulting typeInfo // // Returns: HRESULT // //------------------------------------------------------------------------- HRESULT LoadTypeInfo(CLSID clsidTL, CLSID clsidTI, LPTYPEINFO *ppTI) { HRESULT hr; ITypeLib * pTL; ADsAssert(ppTI); *ppTI = NULL; hr = LoadRegTypeLib(clsidTL, 1, 0, LOCALE_SYSTEM_DEFAULT, &pTL); if (hr) RRETURN(hr); hr = pTL->GetTypeInfoOfGuid(clsidTI, ppTI); pTL->Release(); RRETURN(hr); } //+--------------------------------------------------------------------------- // // Function: VARIANTARGToCVar // // Synopsis: Converts a VARIANT to a C-language variable. // // Arguments: [pvarg] -- Variant to convert. // [vt] -- Type to convert to. // [pv] -- Location to place C-language variable. // // Modifies: [pv]. // // Returns: HRESULT. // // History: 2-23-94 adams Created // // Notes: Supports all variant pointer types, VT_I2, VT_I4, VT_R4, // VT_R8. //---------------------------------------------------------------------------- static HRESULT VARIANTARGToCVar(VARIANT * pvarg, VARTYPE vt, void * pv) { HRESULT hr = S_OK; VARIANTARG vargNew; // variant of new type ADsAssert(pvarg); ADsAssert(pv); ADsAssert((vt & ~VT_TYPEMASK) == 0 || (vt & ~VT_TYPEMASK) == VT_BYREF); if (vt & VT_BYREF) { if (V_VT(pvarg) != vt) { hr = DISP_E_TYPEMISMATCH; goto Cleanup; } // Use a supported pointer type for derefencing. vt = VT_UNKNOWN; vargNew = *pvarg; } else { VariantInit(&vargNew); hr = VariantChangeType(&vargNew, pvarg, 0, vt); if (hr) goto Cleanup; } switch (vt) { case VT_BOOL: if (V_BOOL(&vargNew) != VB_FALSE && V_BOOL(&vargNew) != VB_TRUE) { hr = E_FAIL; // BUGBUG: scode? goto Cleanup; } // convert VT_TRUE to TRUE *(BOOL *)pv = - V_BOOL(&vargNew); break; case VT_I2: *(short *)pv = V_I2(&vargNew); break; case VT_I4: *(long *)pv = V_I4(&vargNew); break; case VT_R4: *(float *)pv = V_R4(&vargNew); break; case VT_R8: *(double *)pv = V_R8(&vargNew); break; // // All Pointer types. // case VT_BSTR: case VT_LPSTR: case VT_LPWSTR: case VT_DISPATCH: case VT_UNKNOWN: *(void **)pv = V_BYREF(&vargNew); break; default: ADsAssert(FALSE && "Unknown type in VARIANTARGToCVar().\n"); break; } Cleanup: RRETURN(hr); } //+--------------------------------------------------------------------------- // // Function: CVarToVARIANTARG // // Synopsis: Converts a C-language variable to a VARIANT. // // Arguments: [pv] -- Pointer to C-language variable. // [vt] -- Type of C-language variable. // [pvarg] -- Resulting VARIANT. Must be initialized by caller. // Any contents will be freed. // // Modifies: [pvarg] // // History: 2-23-94 adams Created // // Notes: Supports all variant pointer types, VT_UI2, VT_I2, VT_UI4, // VT_I4, VT_R4, VT_R8. // //---------------------------------------------------------------------------- static void CVarToVARIANTARG(void* pv, VARTYPE vt, VARIANTARG * pvarg) { ADsAssert(pv); ADsAssert(pvarg); VariantClear(pvarg); V_VT(pvarg) = vt; if (V_ISBYREF(pvarg)) { // Use a supported pointer type for derefencing. vt = VT_UNKNOWN; } switch (vt) { case VT_BOOL: // convert TRUE to VT_TRUE ADsAssert(*(BOOL *) pv == 1 || *(BOOL *) pv == 0); V_BOOL(pvarg) = VARIANT_BOOL(-*(BOOL *) pv); break; case VT_I2: V_I2(pvarg) = *(short *) pv; break; case VT_I4: V_I4(pvarg) = *(long *) pv; break; case VT_R4: V_R4(pvarg) = *(float *) pv; break; case VT_R8: V_R8(pvarg) = *(double *) pv; break; // // All Pointer types. // case VT_BSTR: case VT_LPSTR: case VT_LPWSTR: case VT_DISPATCH: case VT_UNKNOWN: V_BYREF(pvarg) = *(long **)pv; break; default: Assert(FALSE && "Unknown type."); break; } } //+--------------------------------------------------------------------------- // // Function: CParamsToDispParams // // Synopsis: Converts a C parameter list to a dispatch parameter list. // // Arguments: [pDispParams] -- Resulting dispatch parameter list. // Note that the rgvarg member of pDispParams // must be initialized with an array of // EVENTPARAMS_MAX VARIANTs. // // [pvt] -- List of C parameter types. May be NULL. // If not NULL, Last elem in list MUST be // VT_EMPTY. // // [va] -- List of C arguments. // // Modifies: [pDispParams] // // History: 05-Jan-94 adams Created // 23-Feb-94 adams Reversed order of disp arguments, added // support for VT_R4, VT_R8, and pointer // types. // // Notes: Only types VT_I2,VT_I4, and VT_UNKNOWN are supported. // //---------------------------------------------------------------------------- void CParamsToDispParams( DISPPARAMS * pDispParams, VARTYPE * pvt, va_list va) { ADsAssert(pDispParams); ADsAssert(pDispParams->rgvarg); VARIANTARG * pvargCur; // current variant VARTYPE * pvtCur; // current vartype // Assign vals to dispatch param list. pDispParams->cNamedArgs = 0; pDispParams->rgdispidNamedArgs = NULL; // Get count of arguments. if (!pvt) { pDispParams->cArgs = 0; return; } for (pvtCur = pvt; *pvtCur != VT_EMPTY; pvtCur++) ; pDispParams->cArgs = pvtCur - pvt; ADsAssert(pDispParams->cArgs < EVENTPARAMS_MAX); // // Convert each C-param to a dispparam. Note that the order of dispatch // parameters is the reverse of the order of c-params. // ADsAssert(pDispParams->rgvarg); pvargCur = pDispParams->rgvarg + pDispParams->cArgs; for (pvtCur = pvt; *pvtCur != VT_EMPTY; pvtCur++) { pvargCur--; ADsAssert(pvargCur >= pDispParams->rgvarg); V_VT(pvargCur) = *pvtCur; if ((*pvtCur & VT_BYREF) == VT_BYREF) { V_BYREF(pvargCur) = va_arg(va, long *); } else { switch (*pvtCur) { case VT_BOOL: // convert TRUE to VT_TRUE V_BOOL(pvargCur) = VARIANT_BOOL(-va_arg(va, BOOL)); ADsAssert(V_BOOL(pvargCur) == VB_FALSE || V_BOOL(pvargCur) == VB_TRUE); break; case VT_I2: V_I2(pvargCur) = va_arg(va, short); break; case VT_I4: V_I4(pvargCur) = va_arg(va, long); break; case VT_R4: V_R4(pvargCur) = va_arg(va, float); break; case VT_R8: V_R8(pvargCur) = va_arg(va, double); break; // // All Pointer types. // case VT_BSTR: case VT_LPSTR: case VT_LPWSTR: case VT_DISPATCH: case VT_UNKNOWN: V_BYREF(pvargCur) = va_arg(va, long *); break; default: Assert(FALSE && "Unknown type.\n"); } } } } //+--------------------------------------------------------------------------- // // Function: DispParamsToCParams // // Synopsis: Converts Dispatch::Invoke method params to C-language params. // // Arguments: [pDP] -- Dispatch params to be converted. // [pvt] -- Array of types of C-params. May be NULL. If // non-NULL, last element must be VT_EMPTY. // [...] -- List of pointers to c-params to be converted to. // // Returns: HRESULT. // // History: 2-23-94 adams Created // // Notes: Supports types listed in VARIANTToCParam. // //---------------------------------------------------------------------------- STDAPI DispParamsToCParams( DISPPARAMS * pDP, UINT * puArgErr, VARTYPE * pvt, ...) { HRESULT hr; va_list va; // list of pointers to c-params. VARTYPE * pvtCur; // current VARTYPE of c-param. VARIANTARG * pvargCur; // current VARIANT being converted. void * pv; // current c-param being converted. int cArgs; // count of arguments. ADsAssert(pDP); hr = S_OK; va_start(va, pvt); if (!pvt) { if (pDP->cArgs > 0) goto BadParamCountError; goto Cleanup; } pvargCur = pDP->rgvarg + pDP->cArgs - 1; pvtCur = pvt; for (cArgs = 0; cArgs < (int)pDP->cArgs; cArgs++) { if (*pvtCur == VT_EMPTY) goto BadParamCountError; pv = va_arg(va, void *); hr = VARIANTARGToCVar(pvargCur, *pvtCur, pv); if (hr) { if (puArgErr) *puArgErr = cArgs; goto Cleanup; } pvargCur--; pvtCur++; } if (*pvtCur != VT_EMPTY) goto BadParamCountError; Cleanup: va_end(va); RRETURN(hr); BadParamCountError: hr = DISP_E_BADPARAMCOUNT; goto Cleanup; } //+--------------------------------------------------------------------------- // // Function: GetDispProp // // Synopsis: Gets a property of an object. // // Arguments: [pDisp] -- The object containing the property. // [dispid] -- The ID of the property. // [riid] -- interface of object desired // [lcid] -- The locale of the object. // [pvar] -- The resulting property. Must be initialized. // // Returns: HRESULT. // // Modifies: [pvarg]. // // History: 23-Feb-94 adams Created // 08-Apr-94 DonCl modified to take REFIID // //---------------------------------------------------------------------------- HRESULT GetDispProp( IDispatch * pDisp, DISPID dispid, REFIID riid, LCID lcid, VARIANT * pvar, EXCEPINFO * pexcepinfo) { HRESULT hr; DISPPARAMS dp; // Params for IDispatch::Invoke. UINT uiErr; // Argument error. ADsAssert(pDisp); ADsAssert(pvar); dp.rgvarg = NULL; dp.rgdispidNamedArgs = NULL; dp.cArgs = 0; dp.cNamedArgs = 0; hr = pDisp->Invoke( dispid, riid, lcid, DISPATCH_PROPERTYGET, &dp, pvar, pexcepinfo, &uiErr); RRETURN(hr); } //+--------------------------------------------------------------------------- // // Function: SetDispProp // // Synopsis: Sets a property on an object. // // Arguments: [pDisp] -- The object to set the property on. // [dispid] -- The ID of the property. // [riid] -- interface of object // [lcid] -- The locale of the property. // [pvarg] -- The value to set. // // Returns: HRESULT. // // History: 23-Feb-94 adams Created // 08-Apr-94 DonCl modified to take REFIID // //---------------------------------------------------------------------------- HRESULT SetDispProp( IDispatch * pDisp, DISPID dispid, REFIID riid, LCID lcid, VARIANTARG * pvarg, EXCEPINFO * pexcepinfo) { HRESULT hr; DISPID dispidPut = DISPID_PROPERTYPUT; // Dispid of prop arg. DISPPARAMS dp; // Params for Invoke UINT uiErr; // Invoke error param. ADsAssert(pDisp); ADsAssert(pvarg); dp.rgvarg = pvarg; dp.rgdispidNamedArgs = &dispidPut; dp.cArgs = 1; dp.cNamedArgs = 1; hr = pDisp->Invoke( dispid, riid, lcid, DISPATCH_PROPERTYPUT, &dp, NULL, pexcepinfo, &uiErr); RRETURN(hr); } //+--------------------------------------------------------------------------- // // Function: GetDispPropOfType // // Synopsis: Gets a property from an object, and converts it to a c // variable. // // Arguments: [pDisp] -- The object to retrieve the property from. // [dispid] -- Property ID. // [lcid] -- Locale of property. // [vt] -- Type of c-variable to receive property. // [pv] -- Pointer to resulting c-variable. // // Returns: HRESULT. // // Modifies: [pv]. // // History: 2-23-94 adams Created // // Notes: Supports variable types found in VARIANTARGToCVar. // //---------------------------------------------------------------------------- HRESULT GetDispPropOfType( IDispatch * pDisp, DISPID dispid, LCID lcid, VARTYPE vt, void * pv) { HRESULT hr; VARIANT varProp; // Property retrieved. DISPPARAMS dp; // Params for IDispatch::Invoke. ADsAssert(pDisp); ADsAssert(pv); dp.rgvarg = NULL; dp.rgdispidNamedArgs = NULL; dp.cArgs = 0; dp.cNamedArgs = 0; VariantInit(&varProp); hr = pDisp->Invoke( dispid, IID_NULL, lcid, DISPATCH_PROPERTYGET, &dp, &varProp, NULL, NULL); if (hr) goto Cleanup; hr = VARIANTARGToCVar(&varProp, vt, pv); Cleanup: RRETURN(hr); } //+--------------------------------------------------------------------------- // // Function: SetDispPropOfType // // Synopsis: Sets a property on an object. // // Arguments: [pDisp] -- Object to set property on. // [dispid] -- Property ID to set. // [lcid] -- Locale of property. // [vt] -- Type of property to set. // [pv] -- Pointer to property value. // // Returns: HRESULT. // // History: 2-23-94 adams Created // // Notes: Supports types found in VARIANTARGToCVar. // //---------------------------------------------------------------------------- HRESULT SetDispPropOfType( IDispatch * pDisp, DISPID dispid, LCID lcid, VARTYPE vt, void * pv) { HRESULT hr; VARIANTARG varg; // Variant property to put. DISPID dispidPut = DISPID_PROPERTYPUT; // Dispid of prop arg. DISPPARAMS dp; // Params for Invoke ADsAssert(pDisp); ADsAssert(pv); VariantInit(&varg); CVarToVARIANTARG(pv, vt, &varg); dp.rgvarg = &varg; dp.rgdispidNamedArgs = &dispidPut; dp.cArgs = 1; dp.cNamedArgs = 1; hr = pDisp->Invoke( dispid, IID_NULL, lcid, DISPATCH_PROPERTYPUT, &dp, NULL, NULL, NULL); RRETURN(hr); } //+--------------------------------------------------------------------------- // // Function: CallDispMethod // // Synopsis: Calls a late-bound method on a object via IDispatch::Invoke. // // Arguments: [pDisp] -- Object to call method on. // [dispid] -- Method ID. // [lcid] -- Locale of method. // [vtReturn] -- Type of return value. If no return value, // must be VT_VOID. // [pvReturn] -- Location of return value. If no return value, // must be NULL. // [pvtParams] -- List of param types. May be NULL. If // non-NULL, last entry must be VT_EMPTY. // [...] -- List of params. // // Returns: HRESULT. // // History: 2-23-94 adams Created // //---------------------------------------------------------------------------- HRESULT CallDispMethod( IDispatch * pDisp, DISPID dispid, LCID lcid, VARTYPE vtReturn, void * pvReturn, VARTYPE * pvtParams, ...) { HRESULT hr; VARIANTARG av[EVENTPARAMS_MAX]; // List of args for Invoke. DISPPARAMS dp; // Params for Invoke. VARIANT varReturn; // Return value. va_list va; // List of C-params. ADsAssert(pDisp); ADsAssert((vtReturn != VT_VOID) == (pvReturn != NULL)); va_start(va, pvtParams); dp.rgvarg = av; CParamsToDispParams(&dp, pvtParams, va); va_end(va); if (pvReturn) VariantInit(&varReturn); hr = pDisp->Invoke( dispid, IID_NULL, lcid, DISPATCH_METHOD, &dp, pvReturn ? &varReturn : NULL, NULL, NULL); if (hr) goto Cleanup; if (pvReturn) hr = VARIANTARGToCVar(&varReturn, vtReturn, pvReturn); Cleanup: RRETURN(hr); } //+------------------------------------------------------------------------ // // Function: IsVariantEqual, public API // // Synopsis: Compares the values of two VARIANTARGs. // // Arguments: [pvar1], [pvar2] -- VARIANTARGs to compare. // // Returns: TRUE if equal, FALSE if not. // // History: 18-Mar-93 SumitC Created. // 11-May-94 SumitC don't assert for VT_UNKNOWN // // Notes: Variant type unequal returns FALSE, even if actual values // are the same. // Currently does I2, I4, R4, R8, CY, BSTR, BOOL // Returns FALSE for all other VariantTypes. // //------------------------------------------------------------------------- BOOL IsVariantEqual( VARIANTARG FAR* pvar1, VARIANTARG FAR* pvar2 ) { if( V_VT(pvar1) != V_VT(pvar2) ) return FALSE; switch (V_VT(pvar1)) { case VT_EMPTY : case VT_NULL: return TRUE; // just the types being equal is good enough case VT_I2 : return (V_I2(pvar1) == V_I2(pvar2)); case VT_I4 : return (V_I4(pvar1) == V_I4(pvar2)); case VT_R4 : return (V_R4(pvar1) == V_R4(pvar2)); case VT_R8 : return (V_R8(pvar1) == V_R8(pvar2)); case VT_CY : return !memcmp(&V_CY(pvar1), &V_CY(pvar2), sizeof(CY)); case VT_BSTR : return !ADsStringCmp(V_BSTR(pvar1), V_BSTR(pvar2)); case VT_BOOL : return (V_BOOL(pvar1) == V_BOOL(pvar2)); case VT_UNKNOWN: // returns FALSE unless the objects are the same return (V_UNKNOWN(pvar1) == V_UNKNOWN(pvar2)); default: ADsAssert(0 && "Type not handled"); break; }; return(FALSE); }