/*** *dspcalc2.cpp * * Copyright (C) 1993-1994, Microsoft Corporation. All Rights Reserved. * Information Contained Herein Is Proprietary and Confidential. * *Purpose: * This module implements the basic user interface and arithmetic * functionality of the IDispatch calculator. * * The implementation of IDispatch is via aggregation with an * instance of the "standard" IDispatch implementation, which is * initialized with a TypeInfo loaded from the TypeLib that was * constructed from the ODL description of the calculator. * *Implementation Notes: * *****************************************************************************/ #include "dspcalc2.h" CCalc FAR* g_pcalc = NULL; unsigned long g_dwCCalcCF = 0; unsigned long g_dwRegisterCCalc = 0; #ifdef _MAC extern Boolean g_fQuit; #endif //_MAC /*** *CCalc *CCalc::Create(void) *Purpose: * Create an instance of the IDispatch calculator, load the * TypeInfo that describes the exposed functionality and * aggregate with an instance of CStdDispatch that has been * initialized with this TypeInfo. * *Entry: * None * *Exit: * return value = CCalc*, NULL if the creation failed. * ***********************************************************************/ CCalc FAR* CCalc::Create() { HRESULT hresult; CCalc FAR* pcalc; ITypeLib FAR* ptlib; ITypeInfo FAR* ptinfo; IUnknown FAR* punkStdDisp; ptlib = NULL; ptinfo = NULL; if((pcalc = new FAR CCalc()) == NULL) return NULL; pcalc->AddRef(); // first try to load the type library from the information in the registry if((hresult = LoadRegTypeLib(LIBID_DspCalc2, 1, 0, 0x0409, &ptlib)) != NOERROR){ #define TLB_NAME OLESTR("dspcalc2.tlb") // if it wasn't registered, try to load it from the path/current directory // if this succeeds, it will have registered the type library for us // for the next time. if((hresult = LoadTypeLib(TLB_NAME, &ptlib)) != NOERROR){ #ifndef _MAC MessageBox(NULL, TSTR("error loading TypeLib"), TSTR("dspcalc2"), MB_OK); #endif goto LError0; } } if((hresult = ptlib->GetTypeInfoOfGuid(IID_ICalculator, &ptinfo)) != NOERROR){ #ifndef _MAC MessageBox(NULL, TSTR("error accessing TypeInfo"), TSTR("dspcalc2"), MB_OK); #endif goto LError0; } // Create and aggregate with an instance of the default // implementation of IDispatch that is initialized with our // TypeInfo. // hresult = CreateStdDispatch( pcalc, // controlling unknown &(pcalc->m_arith), // vtable* to dispatch on ptinfo, &punkStdDisp); if(hresult != NOERROR) goto LError0; pcalc->m_punkStdDisp = punkStdDisp; ptinfo->Release(); ptlib->Release(); return pcalc; LError0:; pcalc->Release(); if(ptinfo != NULL) ptinfo->Release(); if(ptlib != NULL) ptlib->Release(); return NULL; } //--------------------------------------------------------------------- // IUnknown methods //--------------------------------------------------------------------- STDMETHODIMP CCalc::QueryInterface(REFIID riid, void FAR* FAR* ppv) { if(IsEqualIID(riid, IID_IUnknown)){ *ppv = this; }else if(IsEqualIID(riid, IID_IDispatch) || IsEqualIID(riid, IID_DCalculator)){ return m_punkStdDisp->QueryInterface(IID_IDispatch, ppv); }else if(IsEqualIID(riid, IID_ICalculator)){ *ppv = &m_arith; }else { *ppv = NULL; return ResultFromScode(E_NOINTERFACE); } AddRef(); return NOERROR; } STDMETHODIMP_(ULONG) CCalc::AddRef() { return ++m_refs; } STDMETHODIMP_(ULONG) CCalc::Release() { if(--m_refs == 0){ if(m_punkStdDisp != NULL) m_punkStdDisp->Release(); #ifndef _MAC PostQuitMessage(0); #endif delete this; return 0; } return m_refs; } STDMETHODIMP CArith::QueryInterface(REFIID riid, void FAR* FAR* ppv) { return m_pcalc->QueryInterface(riid, ppv); } STDMETHODIMP_(ULONG) CArith::AddRef() { return m_pcalc->AddRef(); } STDMETHODIMP_(ULONG) CArith::Release() { return m_pcalc->Release(); } //--------------------------------------------------------------------- // Arithmetic features //--------------------------------------------------------------------- STDMETHODIMP_(void) CArith::Clear() { m_opnd = 0; m_accum = 0; m_op = OP_NONE; m_state = STATE_LOPND; } STDMETHODIMP_(void) CArith::put_Accum(long l) { m_accum = l; } STDMETHODIMP_(long) CArith::get_Accum() { return m_accum; } STDMETHODIMP_(void) CArith::put_Opnd(long l) { m_opnd = l; } STDMETHODIMP_(long) CArith::get_Opnd() { return m_opnd; } STDMETHODIMP_(void) CArith::put_Op(OPERATORS op) { m_op = op; } STDMETHODIMP_(OPERATORS) CArith::get_Op() { return m_op; } STDMETHODIMP_(VARIANT_BOOL) CArith::Eval() { if(m_op == OP_NONE) return FALSE; switch(m_op){ case OP_PLUS: m_accum += m_opnd; break; case OP_MINUS: m_accum -= m_opnd; break; case OP_MULT: m_accum *= m_opnd; break; case OP_DIV: m_accum = (m_opnd == 0) ? 0 : (m_accum / m_opnd); break; default: // ASSERT(UNREACHED); return FALSE; } m_state = STATE_EVAL; return TRUE; } //--------------------------------------------------------------------- // User Interface features //--------------------------------------------------------------------- /*** *void CArith::Display() *Purpose: * Display the contents of the register currently being edited. * *Entry: * None * *Exit: * None * ***********************************************************************/ STDMETHODIMP_(void) CArith::Display() { VARIANT var; VariantInit(&var); V_VT(&var) = VT_I4; V_I4(&var) = (m_state == STATE_ROPND) ? m_opnd : m_accum; VariantChangeType(&var, &var, 0, VT_BSTR); #ifdef _MAC { Rect rcItem; Handle hItem; char str[255]; short sItemKind; strcpy(str, V_BSTR(&var)); GetDItem(m_pcalc->m_pdlg, IDC_DISPLAY, &sItemKind, &hItem, &rcItem); SetIText(hItem, c2pstr(str)); } #else SetDlgItemText(m_pcalc->m_hwnd, IDC_DISPLAY, STRING(V_BSTR(&var))); #endif VariantClear(&var); } STDMETHODIMP_(VARIANT_BOOL) CArith::Button(SAFEARRAY FAR * psa) { int i, button; static struct { OLECHAR ch; int idc; } NEAR rgIdcOfCh[] = { { OLESTR('+'), IDC_PLUS } , { OLESTR('-'), IDC_MINUS } , { OLESTR('*'), IDC_MULT } , { OLESTR('/'), IDC_DIV } , { OLESTR('C'), IDC_CLEAR } , { OLESTR('c'), IDC_CLEAR } , { OLESTR('='), IDC_EQUALS } , { OLESTR('0'), IDC_ZERO } , { OLESTR('1'), IDC_ONE } , { OLESTR('2'), IDC_TWO } , { OLESTR('3'), IDC_THREE } , { OLESTR('4'), IDC_FOUR } , { OLESTR('5'), IDC_FIVE } , { OLESTR('6'), IDC_SIX } , { OLESTR('7'), IDC_SEVEN } , { OLESTR('8'), IDC_EIGHT } , { OLESTR('9'), IDC_NINE } , { (OLECHAR)-1 , -1 } }; LONG saIndex, saUbound; VARIANT varButton; // Since this is a vararg function, we should be given a 1-dimensional // array with 0 for the lower bound. The array could be uninitialized // if 0 args were passed to us -- this call will give an error in this case. if (SafeArrayGetUBound(psa, 1, &saUbound) != NOERROR) return FALSE; // most likely 0 args were passed to us for (saIndex = 0; saIndex <= saUbound; saIndex++) { // get next parameter if (SafeArrayGetElement(psa, &saIndex, &varButton) != NOERROR) return FALSE; // convert it to a string in-place if (VariantChangeType(&varButton, &varButton, 0, VT_BSTR) != NOERROR) goto Error; // if the string is more that 1 character long, then we know its wrong. if(SysStringLen(varButton.bstrVal) > 1) goto Error; // translate button string into control ID for(i = 0;; ++i){ if(rgIdcOfCh[i].ch == -1) goto Error; if(rgIdcOfCh[i].ch == varButton.bstrVal[0]){ button = rgIdcOfCh[i].idc; break; } } VariantClear(&varButton); // done with the parameter if (!ButtonPush(button)) return FALSE; } // for return TRUE; // success Error: VariantClear(&varButton); return FALSE; // failure } // the following method is internal, and not exposed for programmability BOOL CArith::ButtonPush(int button) { if(button >= IDC_ZERO && button <= IDC_NINE){ long lVal = button - IDC_ZERO; switch(m_state){ case STATE_EVAL: m_accum = lVal; m_state = STATE_LOPND; break; case STATE_OP: m_opnd = lVal; m_state = STATE_ROPND; break; case STATE_LOPND: m_accum = (m_accum * 10) + lVal; break; case STATE_ROPND: m_opnd = (m_opnd * 10) + lVal; break; } }else if(button >= IDC_PLUS && button <= IDC_DIV){ if(m_state == STATE_LOPND){ m_opnd = m_accum; m_state = STATE_OP; m_op = (OPERATORS)(button - IDC_PLUS + OP_PLUS); } }else if(button == IDC_EQUALS){ if(m_state > STATE_LOPND) Eval(); }else if (button == IDC_CLEAR){ Clear(); } else { return 0; // unknown button } // Flash the button #ifdef _MAC { Rect rcItem; long lDummy; Handle hItem; short sItemKind; GetDItem(m_pcalc->m_pdlg, button, &sItemKind, &hItem, &rcItem); HiliteControl((ControlHandle)hItem, 1); Delay(6, &lDummy); HiliteControl((ControlHandle)hItem, 0); } #else SendMessage(m_pcalc->m_hwnd, BM_SETSTATE, 1, 0L); SendMessage(m_pcalc->m_hwnd, BM_SETSTATE, 0, 0L); #endif // Update the calculator display Display(); return TRUE; } /*** *void CArith::Quit() *Purpose: * *Entry: * None * *Exit: * None * ***********************************************************************/ STDMETHODIMP_(void) CArith::Quit() { #ifndef _MAC PostQuitMessage(0); #else g_fQuit = TRUE; #endif } //--------------------------------------------------------------------- // The CCalc Class Factory //--------------------------------------------------------------------- IClassFactory FAR* CCalcCF::Create() { return new FAR CCalcCF(); } STDMETHODIMP CCalcCF::QueryInterface(REFIID riid, void FAR* FAR* ppv) { if(IsEqualIID(riid, IID_IUnknown) || IsEqualIID(riid, IID_IClassFactory)){ AddRef(); *ppv = this; return NOERROR; } *ppv = NULL; return ResultFromScode(E_NOINTERFACE); } STDMETHODIMP_(ULONG) CCalcCF::AddRef() { return ++m_refs; } STDMETHODIMP_(ULONG) CCalcCF::Release() { if(--m_refs == 0){ delete this; return 0; } return m_refs; } STDMETHODIMP CCalcCF::CreateInstance( IUnknown FAR* punkOuter, REFIID riid, void FAR* FAR* ppv) { extern CCalc FAR* g_pcalc; UNUSED(punkOuter); return g_pcalc->QueryInterface(riid, ppv); } STDMETHODIMP #ifdef _MAC CCalcCF::LockServer(unsigned long fLock) #else CCalcCF::LockServer(BOOL fLock) #endif { UNUSED(fLock); return NOERROR; } #ifdef _MAC struct regentry{ char *szKey; char *szValue; } g_rgregentry[] = { { "CLSID\\{00020469-0000-0000-C000-000000000046}", "OLE Automation DspCalc2 1.0 Application" } , { "CLSID\\{00020469-0000-0000-C000-000000000046}\\LocalServer", "DCL2" } , { "CLSID\\{00020469-0000-0000-C000-000000000046}\\ProgID", "Dspcalc2.Application" } , { "CLSID\\{00020469-0000-0000-C000-000000000046}\\InprocHandler", "OLE2:Def$DefFSet" } , { "DCL2", "{00020469-0000-0000-C000-000000000046}" } , { "Dspcalc2.Application\\CLSID", "{00020469-0000-0000-C000-000000000046}" } }; HRESULT EnsureRegistration() { HKEY hkey; if(RegOpenKey(HKEY_CLASSES_ROOT, "DCL2", &hkey) == NOERROR){ RegCloseKey(hkey); return NOERROR; } for(int i = 0; i < DIM(g_rgregentry); ++i){ if(RegSetValue(HKEY_CLASSES_ROOT, g_rgregentry[i].szKey, REG_SZ, g_rgregentry[i].szValue, 0) != ERROR_SUCCESS) return ResultFromScode(E_FAIL); } return NOERROR; } #endif //_MAC /*** *HRESULT InitOle(void) *Purpose: * Initialize Ole, and register our class factories. * *Entry: * None * *Exit: * None * ***********************************************************************/ HRESULT InitOle() { HRESULT hresult; IClassFactory FAR* pcf; if((hresult = OleInitialize(NULL)) != NOERROR) goto LError0; #ifdef _MAC if((hresult = EnsureRegistration()) != NOERROR) goto LError0; #endif // create the single global instance of CCalc if((g_pcalc = CCalc::Create()) == NULL){ hresult = ResultFromScode(E_OUTOFMEMORY); goto LError0; } if((pcf = CCalcCF::Create()) == NULL) goto LError1; hresult = CoRegisterClassObject( CLSID_CCalc2, pcf, CLSCTX_LOCAL_SERVER, REGCLS_MULTIPLEUSE, &g_dwCCalcCF); if(hresult != NOERROR) goto LError2; hresult = RegisterActiveObject( g_pcalc, CLSID_CCalc2, NULL, &g_dwRegisterCCalc); if(hresult != NOERROR) goto LError2; pcf->Release(); return NOERROR; LError2:; pcf->Release(); LError1:; UninitOle(); LError0:; return hresult; } HRESULT UninitOle() { if(g_dwRegisterCCalc != 0) RevokeActiveObject(g_dwRegisterCCalc, NULL); if(g_dwCCalcCF != 0) CoRevokeClassObject(g_dwCCalcCF); // cause the remaining typeinfo to be released if(g_pcalc != NULL) g_pcalc->Release(); OleUninitialize(); return NOERROR; }