/************************************************************************* * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * Copyright IBM Corporation 2010. * Copyright 2000, 2010 Oracle and/or its affiliates. * * OpenOffice.org - a multi-platform office productivity suite * * This file is part of OpenOffice.org. * * OpenOffice.org is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 3 * only, as published by the Free Software Foundation. * * OpenOffice.org is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License version 3 for more details * (a copy is included in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU Lesser General Public License * version 3 along with OpenOffice.org. If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ #include "stdafx.h" #include "UAccCOM2.h" #include "MAccessible.h" #include #include "AccAction.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "AccessibleRole.h" using namespace com::sun::star::accessibility::AccessibleStateType; // IA2 states mapping, and name // maintenance the consistency, change one array, change the three all long IA2_STATES[] = { IA2_STATE_ACTIVE, // = 0x1; IA2_STATE_ARMED, // = 0x2; IA2_STATE_DEFUNCT, // = 0x4; IA2_STATE_EDITABLE, // = 0x8; IA2_STATE_HORIZONTAL, // = 0x10; IA2_STATE_ICONIFIED, // = 0x20; IA2_STATE_INVALID_ENTRY, // = 0x80; IA2_STATE_MANAGES_DESCENDANTS, // = 0x100; IA2_STATE_MODAL, // = 0x200; IA2_STATE_MULTI_LINE, // = 0x400; IA2_STATE_OPAQUE, // = 0x800; IA2_STATE_REQUIRED, // = 0x2000; IA2_STATE_SELECTABLE_TEXT, // = 0x3000; IA2_STATE_SINGLE_LINE, // = 0x4000; IA2_STATE_STALE, // = 0x8000; IA2_STATE_SUPPORTS_AUTOCOMPLETION, // = 0x10000; IA2_STATE_TRANSIENT, //= 0x20000; IA2_STATE_VERTICAL // = 0x40000; }; /* <=== map ===> */ short UNO_STATES[] = { ACTIVE, // = (sal_Int16)1; ARMED, // = (sal_Int16)2; DEFUNC, // = (sal_Int16)5; EDITABLE, // = (sal_Int16)6; HORIZONTAL, // = (sal_Int16)12; ICONIFIED, // = (sal_Int16)13; -1, //IA2_STATE_INVALID_ENTRY MANAGES_DESCENDANTS, // = (sal_Int16)15; MODAL, // = (sal_Int16)16; MULTI_LINE, // = (sal_Int16)17; OPAQUE, // = (sal_Int16)19; -1, //IA2_STATE_REQUIRED -1, //IA2_STATE_SELECTABLE_TEXT SINGLE_LINE, // = (sal_Int16)26; STALE, // = (sal_Int16)27; -1, //IA2_STATE_SUPPORTS_AUTOCOMPLETION TRANSIENT, //IA2_STATE_TRANSIENT VERTICAL // = (sal_Int16)29; }; // <=== map ===> BSTR IA2_STATES_NAME[] = { _T("Active"), _T("Armed"), _T("Defunct"), _T("Editable"), _T("Horizontal"), _T("Iconified"), _T("Invalid Entry"), _T("Manages Decendents"), _T("Modal"), _T("Multi Line"), _T("Opaque"), _T("Required"), _T("Selectable Text"), _T("Single Line"), _T("Stale"), _T("Supports Autocompletion"), _T("Transient"), _T("Vertical") }; // IA2 states mapping, and name // maintenance the consistency. change one, change them all BSTR UNO_ALL_STATES[] = { _T("INVALID"), // INVALID ( 0 ) _T("ACTIVE"), // ACTIVE ( 1 ) _T("ARMED"), // ARMED ( 2 ) _T("BUSY"), // BUSY ( 3 ) _T("CHECKED"), // CHECKED ( 4 ) _T("DEFUNC"), // DEFUNC ( 5 ) _T("EDITABLE"), // EDITABLE ( 6 ) _T("ENABLED"), // ENABLED ( 7 ) _T("EXPANDABLE"), // EXPANDABLE ( 8 ) _T("EXPANDED"), // EXPANDED ( 9 ) _T("FOCUSABLE"), // FOCUSABLE ( 10 ) _T("FOCUSED"), // FOCUSED ( 11 ) _T("HORIZONTAL"), // HORIZONTAL ( 12 ) _T("ICONIFIED"), // ICONIFIED ( 13 ) _T("INDETERMINATE"), // INDETERMINATE ( 14 ) _T("MANAGES_DESCENDANTS"),// MANAGES_DESCENDANTS ( 15 ) _T("MODAL"), // MODAL ( 16 ) _T("MULTI_LINE"), // MULTI_LINE ( 17 ) _T("MULTI_SELECTABLE"), // MULTI_SELECTABLE ( 18 ) _T("OPAQUE"), // OPAQUE ( 19 ) _T("PRESSED"), // PRESSED ( 20 ) _T("RESIZABLE"), // RESIZABLE ( 21 ) _T("SELECTABLE"), // SELECTABLE ( 22 ) _T("SELECTED"), // SELECTED ( 23 ) _T("SENSITIVE"), // SENSITIVE ( 24 ) _T("SHOWING"), // SHOWING ( 25 ) _T("SINGLE_LINE"), // SINGLE_LINE ( 26 ) _T("STALE"), // STALE ( 27 ) _T("TRANSIENT"), // TRANSIENT ( 28 ) _T("VERTICAL"), // VERTICAL ( 29 ) _T("VISIBLE"), // VISIBLE ( 30 ) _T("MOVEABLE"), // MOVEABLE ( 31 ) _T("OFFSCREEN"), // OFFSCREEN ( 32 ) _T("COLLAPSE"), // COLLAPSE ( 33 ) _T("DEFAULT") // DEFAULT ( 34 ) }; using namespace com::sun::star::accessibility::AccessibleRole; #define QUERYXINTERFACE(ainterface) \ { \ if(pXAcc == NULL) \ return FALSE; \ pRContext = pXAcc->getAccessibleContext(); \ if( !pRContext.is() ) \ { \ return FALSE; \ } \ Reference pRXI(pRContext,UNO_QUERY);\ if( !pRXI.is() ) \ { \ return FALSE; \ } \ *ppXI = (XInterface*)pRXI.get(); \ return TRUE; \ } #define ISDESTROY() \ if(m_isDestroy) \ return S_FALSE; AccObjectManagerAgent* CMAccessible::g_pAgent = NULL; CMAccessible::CMAccessible(): m_iRole(0x00), m_dState(0x00), m_dChildID(0x00), m_dFocusChildID(UACC_NO_FOCUS), m_hwnd(NULL), m_pIParent(NULL), m_pszName(NULL), m_pszValue(NULL), m_pszDescription(NULL), m_isDestroy(FALSE), m_pszActionDescription(NULL), m_pXAction(NULL), m_bRequiresSave(FALSE), pUNOInterface(NULL) { m_sLocation.m_dLeft=0; m_sLocation.m_dTop = 0; m_sLocation.m_dWidth=0; m_sLocation.m_dHeight=0; CEnumVariant::Create(&m_pEnumVar); } CMAccessible::~CMAccessible() { if(m_pszName!=NULL) { SAFE_SYSFREESTRING(m_pszName); m_pszName=NULL; } if(m_pszValue!=NULL) { SAFE_SYSFREESTRING(m_pszValue); m_pszValue=NULL; } if(m_pszDescription!=NULL) { SAFE_SYSFREESTRING(m_pszDescription); m_pszDescription=NULL; } if(m_pszActionDescription!=NULL) { SAFE_SYSFREESTRING(m_pszActionDescription); m_pszActionDescription=NULL; } if(m_pIParent) { m_pIParent->Release(); m_pIParent=NULL; } pRef = NULL; m_pEnumVar->Release(); m_containedObjects.clear(); pRContext = NULL; } /** * Returns the Parent IAccessible interface pointer to AT. * It should add reference, and the client should release the component. * It should return E_FAIL when the parent point is null. * @param ppdispParent [in,out] used to return the parent interface point. * when the point is null, should return null. * @return S_OK if successful and E_FAIL if the m_pIParent is NULL. */ STDMETHODIMP CMAccessible::get_accParent(IDispatch **ppdispParent) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(ppdispParent == NULL) { return E_INVALIDARG; } if(m_pIParent) { *ppdispParent = m_pIParent; (*ppdispParent)->AddRef(); return S_OK; } else if(m_hwnd) { HRESULT hr = AccessibleObjectFromWindow(m_hwnd, OBJID_WINDOW, IID_IAccessible, (void**)ppdispParent); if( ! SUCCEEDED( hr ) || ! ppdispParent ) { return S_FALSE; } return S_OK; } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * Returns child count of current COM object. * @param pcountChildren [in,out] used to return the children count. * @return S_OK if successful. */ STDMETHODIMP CMAccessible::get_accChildCount(long *pcountChildren) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pcountChildren == NULL) { return E_INVALIDARG; } if(!pUNOInterface) return S_FALSE; Reference< XAccessibleContext > pRContext = pUNOInterface->getAccessibleContext(); if( pRContext.is() ) { *pcountChildren = pRContext->getAccessibleChildCount(); } return S_OK; LEAVE_PROTECTED_BLOCK } /** * Returns child interface pointer for AT according to input child ID. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param ppdispChild, [in,out] use to return the child interface point. * @return S_OK if successful and S_FALSE if failure. */ STDMETHODIMP CMAccessible::get_accChild(VARIANT varChild, IDispatch **ppdispChild) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(ppdispChild == NULL) { return E_INVALIDARG; } if(varChild.vt==VT_I4) { //get child interface pointer due to child ID if(varChild.lVal==CHILDID_SELF) { AddRef(); *ppdispChild = this; return S_OK; } *ppdispChild = GetChildInterface(varChild.lVal); (*ppdispChild)->AddRef(); return (*ppdispChild)?S_OK:S_FALSE; } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * Returns the accessible name of the current COM object self or its one child to AT. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param pszName, [in,out] use to return the name of the proper object. * @return S_OK if successful and S_FALSE if failure. */ STDMETHODIMP CMAccessible::get_accName(VARIANT varChild, BSTR *pszName) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pszName == NULL) { return E_INVALIDARG; } if(varChild.vt==VT_I4) { if(varChild.lVal==CHILDID_SELF) { SAFE_SYSFREESTRING(*pszName); *pszName = SysAllocString(m_pszName); return S_OK; } long lVal = varChild.lVal; varChild.lVal = CHILDID_SELF; IMAccessible *pChild = this->GetChildInterface(lVal); if(!pChild) return E_FAIL; return pChild->get_accName(varChild,pszName); } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * Returns the accessible value of the current COM object self or its one child to AT. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param pszValue, [in,out] use to return the value of the proper object. * @return S_OK if successful and S_FALSE if failure. */ STDMETHODIMP CMAccessible::get_accValue(VARIANT varChild, BSTR *pszValue) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if( pszValue == NULL ) { return E_INVALIDARG; } if( varChild.vt==VT_I4 ) { if(varChild.lVal==CHILDID_SELF) { if(m_dState & STATE_SYSTEM_PROTECTED) return E_ACCESSDENIED; if ( m_pszValue !=NULL && wcslen(m_pszValue) == 0 ) return S_OK; SAFE_SYSFREESTRING(*pszValue); *pszValue = SysAllocString(m_pszValue); return S_OK; } long lVal = varChild.lVal; varChild.lVal = CHILDID_SELF; IMAccessible *pChild = this->GetChildInterface(lVal); if(!pChild) return E_FAIL; return pChild->get_accValue(varChild,pszValue); } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * Returns the accessible description of the current COM object self or its one child to AT. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param pszDescription, [in,out] use to return the description of the proper object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::get_accDescription(VARIANT varChild, BSTR *pszDescription) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pszDescription == NULL) { return E_INVALIDARG; } if(varChild.vt==VT_I4) { if(varChild.lVal==CHILDID_SELF) { SAFE_SYSFREESTRING(*pszDescription); *pszDescription = SysAllocString(m_pszDescription); return S_OK; } long lVal = varChild.lVal; varChild.lVal = CHILDID_SELF; IMAccessible *pChild = this->GetChildInterface(lVal); if(!pChild) return E_FAIL; return pChild->get_accDescription(varChild,pszDescription); } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * Returns the accessible role of the current COM object self or its one child to AT. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param pvarRole, [in,out] use to return the role of the proper object. * @return S_OK if successful and S_FALSE if failure. */ STDMETHODIMP CMAccessible::get_accRole(VARIANT varChild, VARIANT *pvarRole) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pvarRole == NULL) { return E_INVALIDARG; } if(varChild.vt == VT_I4) { if(varChild.lVal == CHILDID_SELF) { if( m_iRole < IA2_ROLE_CAPTION ) { VariantInit(pvarRole); pvarRole->vt = VT_I4; pvarRole->lVal = m_iRole; } else { VariantInit(pvarRole); pvarRole->vt = VT_I4; pvarRole->lVal = ROLE_SYSTEM_CLIENT; } return S_OK; } long lVal = varChild.lVal; varChild.lVal = CHILDID_SELF; IMAccessible *pChild = this->GetChildInterface(lVal); if(!pChild) return E_FAIL; return pChild->get_accRole(varChild,pvarRole); } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * Returns the accessible state of the current COM object self or its one child to AT. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param pvarState, [in,out] use to return the state of the proper object. * @return S_OK if successful and S_FALSE if failure. */ STDMETHODIMP CMAccessible::get_accState(VARIANT varChild, VARIANT *pvarState) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pvarState == NULL) { return E_INVALIDARG; } if(varChild.vt==VT_I4) { if(varChild.lVal == CHILDID_SELF) { if(pUNOInterface) { Reference< XAccessibleContext > pContext = pUNOInterface->getAccessibleContext(); if(pContext.is()) { // add the STATE_SYSTEM_LINKED state Reference< XAccessibleHypertext > pRHypertext(pContext,UNO_QUERY); if(pRHypertext.is()) { if( pRHypertext->getHyperLinkCount() > 0 ) m_dState |= STATE_SYSTEM_LINKED; else m_dState &= ~STATE_SYSTEM_LINKED; } else m_dState &= ~STATE_SYSTEM_LINKED; } } VariantInit(pvarState); pvarState->vt = VT_I4; pvarState->lVal = m_dState; return S_OK; } long lVal = varChild.lVal; varChild.lVal = CHILDID_SELF; IMAccessible *pChild = this->GetChildInterface(lVal); if(!pChild) return E_FAIL; return pChild->get_accState(varChild,pvarState); } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * Returns the accessible helpString of the current COM object self or its one child to AT. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param pszHelp, [in,out] use to return the helpString of the proper object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::get_accHelp(VARIANT, BSTR *) { return E_NOTIMPL; } /** * Returns the accessible HelpTopic of the current COM object self or its one child to AT. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param pszHelpFile, [in,out] use to return the HelpTopic of the proper object. * @param pidTopic, use to return the HelpTopic ID of the proper object. * @return S_OK if successful and E_FAIL if failure. * Not implemented yet */ STDMETHODIMP CMAccessible::get_accHelpTopic(BSTR *, VARIANT, long *) { return E_NOTIMPL; } static void GetMnemonicChar( const ::rtl::OUString& aStr, WCHAR* wStr) { int nLen = aStr.pData->length; int i = 0; WCHAR* text = aStr.pData->buffer; while ( i < nLen ) { if ( text[i] == L'~' ) if ( text[i+1] != L'~' ) { wStr[0] = text[i+1]; break; } i++; } } /** * Returns the accessible keyboard shortcut of the current COM object self or its one child to AT. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param pszKeyboardShortcut, [in,out] use to return the kbshortcut of the proper object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::get_accKeyboardShortcut(VARIANT varChild, BSTR *pszKeyboardShortcut) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pszKeyboardShortcut == NULL) { return E_INVALIDARG; } if(varChild.vt==VT_I4) { if(varChild.lVal == CHILDID_SELF) { if( pUNOInterface ) { Reference pRContext = pUNOInterface->getAccessibleContext(); if( !pRContext.is() ) return S_FALSE; Reference pRXI(pRContext,UNO_QUERY); OLECHAR wString[64]={0}; if( pRXI.is() && pRXI->getAccessibleActionCount() >= 1) { Reference< XAccessibleKeyBinding > binding = pRXI->getAccessibleActionKeyBinding(0); if( binding.is() ) { long nCount = binding->getAccessibleKeyBindingCount(); if(nCount >= 1) { CAccAction::GetkeyBindingStrByXkeyBinding( binding->getAccessibleKeyBinding(0),wString ); } } } if(wString[0] == 0) { Reference pRrelationSet = pRContext->getAccessibleRelationSet(); if(!pRrelationSet.is()) { return S_FALSE; } long nRelCount = pRrelationSet->getRelationCount(); // Modified by Steve Yin, for SODC_1552 if( /*nRelCount <= 0 &&*/ m_iRole == ROLE_SYSTEM_TEXT ) { VARIANT varParentRole; VariantInit( &varParentRole ); m_pIParent->get_accRole(varChild, &varParentRole); if( m_pIParent && varParentRole.lVal == ROLE_SYSTEM_COMBOBOX ) // edit in comoboBox { m_pIParent->get_accKeyboardShortcut(varChild, pszKeyboardShortcut); return S_OK; } } AccessibleRelation *paccRelation = NULL; AccessibleRelation accRelation; for(int i=0; igetRelation(i).RelationType == 6 ) { accRelation = pRrelationSet->getRelation(i); paccRelation = &accRelation; } } if(paccRelation == NULL) return S_FALSE; Sequence< Reference< XInterface > > xTargets = paccRelation->TargetSet; Reference pRAcc = xTargets[0]; XAccessible* pXAcc = (XAccessible*)pRAcc.get(); Reference pRLebelContext = pXAcc->getAccessibleContext(); if(!pRLebelContext.is()) return S_FALSE; pRrelationSet = pRLebelContext->getAccessibleRelationSet(); nRelCount = pRrelationSet->getRelationCount(); paccRelation = NULL; for(int j=0; jgetRelation(j).RelationType == 5 ) { accRelation = pRrelationSet->getRelation(j); paccRelation = &accRelation; } } if(paccRelation) { xTargets = paccRelation->TargetSet; pRAcc = xTargets[0]; if(pUNOInterface != (XAccessible*)pRAcc.get()) return S_FALSE; } Reference pRXIE(pRLebelContext,UNO_QUERY); if(!pRXIE.is()) return S_FALSE; ::rtl::OUString ouStr = pRXIE->getTitledBorderText(); WCHAR key[2] = {NULL}; GetMnemonicChar(ouStr, key); if(key[0] != 0) { wcscat(wString, L"Alt+"); wcscat(wString, key); } else return S_FALSE; } SAFE_SYSFREESTRING(*pszKeyboardShortcut); *pszKeyboardShortcut = SysAllocString(wString); return S_OK; } else { return S_FALSE; } } long lVal = varChild.lVal; varChild.lVal = CHILDID_SELF; IMAccessible *pChild = this->GetChildInterface(lVal); if(!pChild) return E_FAIL; return pChild->get_accKeyboardShortcut(varChild,pszKeyboardShortcut); } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * Returns the current focused child to AT. * @param pvarChild, [in,out] vt member of pvarChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::get_accFocus(VARIANT *pvarChild) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pvarChild == NULL) { return E_INVALIDARG; } if( m_dFocusChildID==UACC_NO_FOCUS ) { pvarChild->vt = VT_EMPTY;//no focus on the object and its children return S_OK; } //if the descendant of current object has focus indicated by m_dFocusChildID, return the IDispatch of this focused object else { IMAccessible* pIMAcc = NULL; g_pAgent->GetIAccessibleFromResID(m_dFocusChildID,&pIMAcc); pIMAcc->AddRef(); pvarChild->vt = VT_DISPATCH; pvarChild->pdispVal = pIMAcc; } return S_OK; LEAVE_PROTECTED_BLOCK } /** * Returns the selection of the current COM object to AT. * @param pvarChildren,[in,out] * if selection num is 0,return VT_EMPTY for vt, * if selection num is 1,return VT_I4 for vt,and child index for lVal * if selection num >1,return VT_UNKNOWN for vt, and IEnumVariant* for punkVal * @return S_OK if successful and S_FALSE if failure. */ STDMETHODIMP CMAccessible::get_accSelection(VARIANT *pvarChildren) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pvarChildren == NULL) { return E_INVALIDARG; } switch(m_pEnumVar->GetCountOfElements()) { case 0: pvarChildren->vt = VT_EMPTY; break; case 1: VARIANT varTmp[1]; ULONG count; VariantInit(&varTmp[0]); m_pEnumVar->Next(1,varTmp,&count); if(count!=1) return S_FALSE; pvarChildren->vt = VT_I4; pvarChildren->lVal = varTmp[0].lVal; VariantClear(&varTmp[0]); m_pEnumVar->Reset(); break; default: pvarChildren->vt = VT_UNKNOWN; m_pEnumVar->AddRef(); pvarChildren->punkVal = m_pEnumVar; break; } return S_OK; LEAVE_PROTECTED_BLOCK } /** * Returns the location of the current COM object self or its one child to AT. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param pxLeft, [in,out] use to return the x-coordination of the proper object. * @param pyTop, [in,out] use to return the y-coordination of the proper object. * @param pcxWidth, [in,out] use to return the x-coordination width of the proper object. * @param pcyHeight, [in,out] use to return the y-coordination height of the proper object. * @return S_OK if successful and S_FALSE if failure. */ STDMETHODIMP CMAccessible::accLocation(long *pxLeft, long *pyTop, long *pcxWidth, long *pcyHeight, VARIANT varChild) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pxLeft == NULL || pyTop == NULL || pcxWidth == NULL || pcyHeight == NULL) { return E_INVALIDARG; } if(varChild.vt==VT_I4) { if(varChild.lVal==CHILDID_SELF) { if(pUNOInterface) { Reference< XAccessibleContext > pRContext = pUNOInterface->getAccessibleContext(); if( !pRContext.is() ) return S_FALSE; Reference< XAccessibleComponent > pRComponent(pRContext,UNO_QUERY); if( !pRComponent.is() ) return S_FALSE; ::com::sun::star::awt::Point pCPoint = pRComponent->getLocationOnScreen(); ::com::sun::star::awt::Size pCSize = pRComponent->getSize(); *pxLeft = pCPoint.X; *pyTop = pCPoint.Y; *pcxWidth = pCSize.Width; *pcyHeight = pCSize.Height; return S_OK; } else { *pxLeft = m_sLocation.m_dLeft; *pyTop = m_sLocation.m_dTop; *pcxWidth = m_sLocation.m_dWidth; *pcyHeight = m_sLocation.m_dHeight; return S_OK; } } } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * Returns the current focused child to AT. * @param navDir, the direction flag of the navigation. * @param varStart, the start child id of this navigation action. * @param pvarEndUpAt, [in,out] the end up child of this navigation action. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::accNavigate(long navDir, VARIANT varStart, VARIANT *pvarEndUpAt) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pvarEndUpAt == NULL) { return E_INVALIDARG; } HRESULT ret = E_FAIL; switch (navDir) { case NAVDIR_FIRSTCHILD: ret = GetFirstChild(varStart,pvarEndUpAt); break; case NAVDIR_LASTCHILD: ret = GetLastChild(varStart,pvarEndUpAt); break; case NAVDIR_NEXT: ret = GetNextSibling(varStart,pvarEndUpAt); break; case NAVDIR_PREVIOUS: ret = GetPreSibling(varStart,pvarEndUpAt); break; case NAVDIR_DOWN://do not implement temporarily break; case NAVDIR_UP://do not implement temporarily break; case NAVDIR_LEFT://do not implement temporarily break; case NAVDIR_RIGHT://do not implement temporarily break; default: break; }; return ret; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible::accHitTest(long xLeft, long yTop, VARIANT *pvarChild) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pvarChild == NULL) { return E_INVALIDARG; } long x, y, w, h; VARIANT varSelf; VariantInit(&varSelf); varSelf.vt = VT_I4; varSelf.lVal = CHILDID_SELF; accLocation(&x,&y,&w,&h,varSelf); if( (x < xLeft && (x + w) >xLeft) && (y < yTop && (y + h) >yTop) ) { int i, nCount; pvarChild->vt = VT_EMPTY; Reference< XAccessibleContext > pRContext = GetContextByXAcc(pUNOInterface); nCount = pRContext->getAccessibleChildCount(); if(nCount > 256) return E_FAIL; IMAccessible* child = NULL; for( i = 0; iaccHitTest(xLeft,yTop,pvarChild) == S_OK) break; } if(pvarChild->vt == VT_DISPATCH) return S_OK; if( i < nCount) { pvarChild->vt = VT_DISPATCH; pvarChild->pdispVal = child; child->AddRef(); } else { pvarChild->vt = VT_I4; pvarChild->lVal = CHILDID_SELF; } return S_OK; } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * Get The other Interface from CMAccessible. * @param guidService, must be IID_IAccessible here. * @param riid, the IID interface . * @return S_OK if successful and S_FALSE if failure. */ STDMETHODIMP CMAccessible::QueryService(REFGUID guidService, REFIID riid, void** ppvObject) { if( InlineIsEqualGUID(guidService, IID_IAccessible) ) return QueryInterface(riid, ppvObject); return S_FALSE; } /** * Set the accessible name of the current COM object self or its one child from UNO. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param szName, the name used to set the name of the proper object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::put_accName(VARIANT varChild, BSTR szName) { ENTER_PROTECTED_BLOCK ISDESTROY() if(varChild.vt==VT_I4) { if(varChild.lVal==CHILDID_SELF) { SAFE_SYSFREESTRING(m_pszName); m_pszName=SysAllocString(szName); return S_OK; } long lVal = varChild.lVal; varChild.lVal = CHILDID_SELF; IMAccessible *pChild = this->GetChildInterface(lVal); if(!pChild) return E_FAIL; return pChild->put_accName(varChild,szName); } return E_FAIL; LEAVE_PROTECTED_BLOCK } /** * Set the accessible value of the current COM object self or its one child from UNO. * @param varChild, vt member of varChild must be VT_I4,and lVal member stores the child ID, * the child ID specify child index from 0 to children count, 0 stands for object self. * @param szValue, the value used to set the value of the proper object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::put_accValue(VARIANT varChild, BSTR szValue) { ENTER_PROTECTED_BLOCK ISDESTROY() if(varChild.vt==VT_I4) { if(varChild.lVal==CHILDID_SELF) { SysAllocString(m_pszValue); m_pszValue=SysAllocString(szValue); return S_OK; } long lVal = varChild.lVal; varChild.lVal = CHILDID_SELF; IMAccessible *pChild = this->GetChildInterface(lVal); if(!pChild) return E_FAIL; return pChild->put_accValue(varChild,szValue); } return E_FAIL; LEAVE_PROTECTED_BLOCK } /** * Set the accessible name of the current COM object self from UNO. * @param pszName, the name value used to set the name of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::Put_XAccName(const OLECHAR __RPC_FAR *pszName) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pszName == NULL) { return E_INVALIDARG; } SAFE_SYSFREESTRING(m_pszName);//?? m_pszName = SysAllocString(pszName); if(m_pszName==NULL) return E_FAIL; return S_OK; LEAVE_PROTECTED_BLOCK } /** * Set the accessible role of the current COM object self from UNO. * @param pRole, the role value used to set the role of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::Put_XAccRole(unsigned short pRole) { m_iRole = pRole; return S_OK; } /** * Add one state into the current state set for the current COM object from UNO. * @param pXSate, the state used to set the name of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::DecreaseState(DWORD pXSate) { m_dState &= (~pXSate); return S_OK; } /** * Delete one state into the current state set for the current COM object from UNO. * @param pXSate, the state used to set the name of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::IncreaseState(DWORD pXSate) { m_dState |= pXSate; return S_OK; } /** * Set state into the current state set for the current COM object from UNO. * @param pXSate, the state used to set the name of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::SetState(DWORD pXSate) { m_dState = pXSate; return S_OK; } /** * Set the accessible description of the current COM object self from UNO. * @param pszDescription, the name used to set the description of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::Put_XAccDescription(const OLECHAR __RPC_FAR *pszDescription) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pszDescription == NULL) { return E_INVALIDARG; } SAFE_SYSFREESTRING(m_pszDescription); m_pszDescription = SysAllocString(pszDescription); if(m_pszDescription==NULL) return E_FAIL; return S_OK; LEAVE_PROTECTED_BLOCK } /** * Set the accessible value of the current COM object self from UNO. * @param pszAccValue, the name used to set the value of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::Put_XAccValue(const OLECHAR __RPC_FAR *pszAccValue) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pszAccValue == NULL) { return E_INVALIDARG; } SAFE_SYSFREESTRING(m_pszValue); m_pszValue = SysAllocString(pszAccValue); if(m_pszValue==NULL) return E_FAIL; return S_OK; LEAVE_PROTECTED_BLOCK } /** * Set the HWND value of the current COM object self from UNO. It should set the parent IAccessible * Object through the method AccessibleObjectFromWindow(...). * @param hwnd, the HWND used to set the value of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::Put_XAccWindowHandle(HWND hwnd) { ENTER_PROTECTED_BLOCK ISDESTROY() m_hwnd = hwnd; return S_OK; LEAVE_PROTECTED_BLOCK } /** * Set accessible focus by specifying child ID * @param dChildID, the child id identifies the focus child. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::Put_XAccFocus(long dChildID) { ENTER_PROTECTED_BLOCK ISDESTROY() if(dChildID==CHILDID_SELF) { if(m_pIParent) { m_pIParent->Put_XAccFocus(m_dChildID); } } else { m_dFocusChildID = dChildID; //traverse all ancestors to set the focused child ID so that when the get_accFocus is called on //any of the ancestors, this id can be used to get the IAccessible of focused object. if(m_pIParent) { m_pIParent->Put_XAccFocus(dChildID); } } return S_OK; LEAVE_PROTECTED_BLOCK } /** *Set accessible object location for the current COM object * @param sLocation, the location of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::Put_XAccLocation(const Location sLocation) { this->m_sLocation = sLocation; return S_OK; } /** * Set accessible parent object for the current COM object if * the current object is a child of some COM object * @param pIParent, the parent of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::Put_XAccParent(IMAccessible __RPC_FAR *pIParent) { this->m_pIParent = pIParent; if(pIParent) m_pIParent->AddRef(); return S_OK; } /** * Set unique child id to COM * @param dChildID, the id of the current object. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::Put_XAccChildID(long dChildID) { this->m_dChildID = dChildID; return S_OK; } /** * Set AccObjectManagerAgent object pointer to COM * @param pAgent, the AccObjectManagerAgent point. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::Put_XAccAgent(long pAgent) { g_pAgent = (AccObjectManagerAgent*)pAgent; return S_OK; } /** * When a UNO control disposing, it disposes its listeners, * then notify AccObject in bridge management, then notify * COM that the XAccessible is invalid,so set pUNOInterface as NULL * @param isDestroy, true is it need to be destroyed. * @return S_OK if successful and E_FAIL if failure. */ STDMETHODIMP CMAccessible::NotifyDestroy(BOOL isDestroy) { m_isDestroy = isDestroy; pUNOInterface = NULL; return S_OK; } /** *private methods that help implement public functions */ /** * Return child interface pointer by child ID,note: need to call AddRef() * @param lChildID, specify child index,which AT(such as Inspect32) gives. * @return IMAccessible*, pointer to the corresponding child object. */ IMAccessible* CMAccessible::GetChildInterface(long dChildID)//for test { long dChildIndex = 0; if(dChildID<0) { if(g_pAgent) { IMAccessible* pIMAcc = NULL; g_pAgent->GetIAccessibleFromResID(dChildID,&pIMAcc); return pIMAcc; } return NULL; } else { Reference< XAccessibleContext > pRContext = pUNOInterface->getAccessibleContext(); if( !pRContext.is() ) return NULL; if(dChildID<1 || dChildID>pRContext->getAccessibleChildCount()) return NULL; IAccessible* pChild = NULL; Reference< XAccessible > pXChild = pRContext->getAccessibleChild(dChildID-1); BOOL isGet = get_IAccessibleFromXAccessible((long)pXChild.get(),&pChild); if(!isGet) { g_pAgent->InsertAccObj(pXChild.get(),pUNOInterface,(long)m_hwnd); isGet = get_IAccessibleFromXAccessible((long)pXChild.get(),&pChild); } if(isGet) { IMAccessible* pIMAcc = (IMAccessible*)pChild; return pIMAcc; } } return NULL; } /** * For List, tree and table,these roles belong to manage_decendant in UNO, * need to process specifically when navigate * @return BOOL, if it is decendantmanager, return true. */ BOOL CMAccessible::IsDecendantManage() { return (m_iRole==ROLE_SYSTEM_LIST)||(m_iRole==ROLE_SYSTEM_OUTLINE)||(m_iRole==ROLE_SYSTEM_TABLE); } /** * for decendantmanager circumstance,provide child interface when navigate * @param varCur, the current child. * @param flags, the navigation direction. * @return IMAccessible*, the child of the end up node. */ IMAccessible* CMAccessible::GetNavigateChildForDM(VARIANT varCur, short flags) { XAccessibleContext* pXContext = GetContextByXAcc(pUNOInterface); if(pXContext==NULL) { return NULL; } int count = pXContext->getAccessibleChildCount(); if(count<1) { return NULL; } IMAccessible* pCurChild = NULL; XAccessible* pChildXAcc = NULL; Reference pRChildXAcc; XAccessibleContext* pChildContext = NULL; int index = 0,delta=0; switch(flags) { case DM_FIRSTCHILD: pRChildXAcc = pXContext->getAccessibleChild(0); break; case DM_LASTCHILD: pRChildXAcc = pXContext->getAccessibleChild(count-1); break; case DM_NEXTCHILD: case DM_PREVCHILD: pCurChild = GetChildInterface(varCur.lVal); if(pCurChild==NULL) { return NULL; } pCurChild->GetUNOInterface((long*)&pChildXAcc); if(pChildXAcc==NULL) { return NULL; } pChildContext = GetContextByXAcc(pChildXAcc); if(pChildContext == NULL) { return NULL; } delta = (flags==DM_NEXTCHILD)?1:-1; //currently, getAccessibleIndexInParent is error in UNO for //some kind of List,such as ValueSet, the index will be less 1 than //what should be, need to fix UNO code index = pChildContext->getAccessibleIndexInParent()+delta; if((index>=0)&&(index<=count-1)) { pRChildXAcc = pXContext->getAccessibleChild(index); } break; default: break; } if(!pRChildXAcc.is()) { return NULL; } pChildXAcc = pRChildXAcc.get(); g_pAgent->InsertAccObj(pChildXAcc,pUNOInterface); return g_pAgent->GetIMAccByXAcc(pChildXAcc); } /** *the following 4 private methods are for accNavigate implementation */ /** * Return first child for parent container, process differently according * to whether it is decendant manage * @param varStart, the start child id of this navigation action. * @param pvarEndUpAt, [in,out] the end up child of this navigation action. * @return S_OK if successful and E_FAIL if failure. */ HRESULT CMAccessible::GetFirstChild(VARIANT varStart,VARIANT* pvarEndUpAt) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pvarEndUpAt == NULL) { return E_INVALIDARG; } if(varStart.vt != VT_I4) { pvarEndUpAt->vt = VT_EMPTY; return E_INVALIDARG; } pvarEndUpAt->pdispVal = GetNavigateChildForDM(varStart, DM_FIRSTCHILD); if(pvarEndUpAt->pdispVal) { pvarEndUpAt->pdispVal->AddRef(); pvarEndUpAt->vt = VT_DISPATCH; return S_OK; } pvarEndUpAt->vt = VT_EMPTY; return E_FAIL; LEAVE_PROTECTED_BLOCK } /** * Return last child for parent container, process differently according * to whether it is decendant manage * @param varStart, the start child id of this navigation action. * @param pvarEndUpAt, [in,out] the end up child of this navigation action. * @return S_OK if successful and E_FAIL if failure. */ HRESULT CMAccessible::GetLastChild(VARIANT varStart,VARIANT* pvarEndUpAt) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pvarEndUpAt == NULL) { return E_INVALIDARG; } if(varStart.vt != VT_I4) { pvarEndUpAt->vt = VT_EMPTY; return E_INVALIDARG; } pvarEndUpAt->pdispVal = GetNavigateChildForDM(varStart, DM_LASTCHILD); if(pvarEndUpAt->pdispVal) { pvarEndUpAt->pdispVal->AddRef(); pvarEndUpAt->vt = VT_DISPATCH; return S_OK; } pvarEndUpAt->vt = VT_EMPTY; return E_FAIL; LEAVE_PROTECTED_BLOCK } /** * The method GetNextSibling is general, whatever it is decendant manage or not * Get the next sibling object. * @param varStart, the start child id of this navigation action. * @param pvarEndUpAt, [in,out] the end up child of this navigation action. * @return S_OK if successful and E_FAIL if failure. */ HRESULT CMAccessible::GetNextSibling(VARIANT varStart,VARIANT* pvarEndUpAt) { ENTER_PROTECTED_BLOCK ISDESTROY() if(varStart.vt != VT_I4) { pvarEndUpAt->vt = VT_EMPTY; return E_INVALIDARG; } Reference< XAccessibleContext > pRContext = GetContextByXAcc(pUNOInterface); if(pRContext.is()) { varStart.iVal = sal_Int16(pRContext->getAccessibleIndexInParent() + 2); if(m_pIParent) if( m_pIParent->get_accChild(varStart,&pvarEndUpAt->pdispVal) == S_OK) { pvarEndUpAt->vt = VT_DISPATCH; return S_OK; } } pvarEndUpAt->vt = VT_EMPTY; return E_FAIL; LEAVE_PROTECTED_BLOCK } /** *the method GetPreSibling is general, whatever it is decendant manage or not * @param varStart, the start child id of this navigation action. * @param pvarEndUpAt, [in,out] the end up child of this navigation action. * @return S_OK if successful and E_FAIL if failure. */ HRESULT CMAccessible::GetPreSibling(VARIANT varStart,VARIANT* pvarEndUpAt) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pvarEndUpAt == NULL) { return E_INVALIDARG; } if(varStart.vt != VT_I4) { pvarEndUpAt->vt = VT_EMPTY; return E_INVALIDARG; } Reference< XAccessibleContext > pRContext = GetContextByXAcc(pUNOInterface); if(pRContext.is()) { varStart.iVal = sal_Int16(pRContext->getAccessibleIndexInParent()); if(m_pIParent && varStart.iVal > 0) if( m_pIParent->get_accChild(varStart,&pvarEndUpAt->pdispVal) == S_OK) { pvarEndUpAt->vt = VT_DISPATCH; return S_OK; } } pvarEndUpAt->vt = VT_EMPTY; return E_FAIL; LEAVE_PROTECTED_BLOCK } /** * For IAccessible2 implementation methods */ STDMETHODIMP CMAccessible::get_nRelations( long __RPC_FAR *nRelations) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK // #CHECK# if(nRelations == NULL) { return E_INVALIDARG; } *nRelations = 0; if( !pRContext.is() ) return E_FAIL; Reference pRrelationSet = pRContext.get()->getAccessibleRelationSet(); if(!pRrelationSet.is()) { *nRelations = 0; return S_OK; } *nRelations = pRrelationSet->getRelationCount(); return S_OK; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible::get_relation( long relationIndex, IAccessibleRelation __RPC_FAR *__RPC_FAR *relation) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(relation == NULL) { return E_INVALIDARG; } if( !pRContext.is() ) return E_FAIL; long nMax = 0; long nReal = 0; get_nRelations(&nMax); *relation = (IAccessibleRelation*)::CoTaskMemAlloc(sizeof(IAccessibleRelation)); // #CHECK Memory Allocation# if(*relation == NULL) { return E_FAIL; } if( relationIndex < nMax ) { Reference pRrelationSet = pRContext.get()->getAccessibleRelationSet(); if(!pRrelationSet.is()) { return E_FAIL; } IAccessibleRelation* pRelation = NULL; HRESULT hr = CoCreateInstance( CLSID_AccRelation, NULL, CLSCTX_SERVER , IID_IAccessibleRelation, (void **)&pRelation); if(SUCCEEDED(hr)) { IUNOXWrapper* wrapper = NULL; hr = pRelation->QueryInterface(IID_IUNOXWrapper, (void**)&wrapper); if(SUCCEEDED(hr)) { AccessibleRelation accRelation = pRrelationSet->getRelation(relationIndex); wrapper->put_XSubInterface((long)&accRelation); wrapper->Release(); *relation = pRelation; return S_OK; } } } return E_FAIL; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible::get_relations( long, IAccessibleRelation __RPC_FAR *__RPC_FAR *relation, long __RPC_FAR *nRelations) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK // #CHECK# if(relation == NULL || nRelations == NULL) { return E_INVALIDARG; } // #CHECK XInterface# if( !pRContext.is() ) return E_FAIL; Reference pRrelationSet = pRContext.get()->getAccessibleRelationSet(); if(!pRrelationSet.is()) { *nRelations = 0; return S_OK; } long nCount = pRrelationSet->getRelationCount(); *relation = (IAccessibleRelation*)::CoTaskMemAlloc(nCount*sizeof(IAccessibleRelation)); // #CHECK Memory Allocation# if(*relation == NULL) { return E_FAIL; } for(int i=0; iQueryInterface(IID_IUNOXWrapper, (void**)&wrapper); if(SUCCEEDED(hr)) { AccessibleRelation accRelation = pRrelationSet->getRelation(i); wrapper->put_XSubInterface((long)&accRelation); wrapper->Release(); } (relation)[i] = pRelation; } } *nRelations = nCount; return S_OK; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible::role(long __RPC_FAR *role) { ENTER_PROTECTED_BLOCK (*role) = m_iRole; return S_OK; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_nActions(long __RPC_FAR *nActions) { try { ISDESTROY() // #CHECK# if(nActions == NULL) { return E_INVALIDARG; } *nActions = 0L; IAccessibleAction* pAcc = NULL; HRESULT hr = QueryInterface(IID_IAccessibleAction, (void**)&pAcc); if( hr == S_OK ) { pAcc->nActions(nActions); pAcc->Release(); } return S_OK; } catch(...) { *nActions = 0L; return S_OK; } } STDMETHODIMP CMAccessible:: scrollToPoint(enum IA2CoordinateType, long, long) { ENTER_PROTECTED_BLOCK ISDESTROY() return E_NOTIMPL; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: scrollTo(enum IA2ScrollType) { ENTER_PROTECTED_BLOCK ISDESTROY() return E_NOTIMPL; LEAVE_PROTECTED_BLOCK } static XAccessible* getTheParentOfMember(XAccessible* pXAcc) { // #CHECK# if(pXAcc == NULL) { return NULL; } Reference pRContext = pXAcc->getAccessibleContext(); Reference pRrelationSet = pRContext->getAccessibleRelationSet(); long nRelations = pRrelationSet->getRelationCount(); for(int i=0 ; igetRelation(i); if(accRelation.RelationType == 7) { Sequence< Reference< XInterface > > xTargets = accRelation.TargetSet; return (XAccessible*)xTargets[0].get(); } } return NULL; } STDMETHODIMP CMAccessible:: get_groupPosition(long __RPC_FAR *groupLevel,long __RPC_FAR *similarItemsInGroup,long __RPC_FAR *positionInGroup) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(groupLevel == NULL || similarItemsInGroup == NULL || positionInGroup == NULL) { return E_INVALIDARG; } Reference pRContext = pUNOInterface->getAccessibleContext(); if(!pRContext.is()) return E_FAIL; long Role = pRContext->getAccessibleRole(); *groupLevel = 0; *similarItemsInGroup = 0; *positionInGroup = 0; if (Role != AccessibleRole::DOCUMENT) { Reference< XAccessibleGroupPosition > xGroupPosition( pRContext, UNO_QUERY ); if ( xGroupPosition.is() ) { Sequence< sal_Int32 > rSeq = xGroupPosition->getGroupPosition( makeAny( pRContext ) ); sal_Int32* pSeq = rSeq.getArray(); if ( pSeq ) { *groupLevel = pSeq[0]; *similarItemsInGroup = pSeq[1]; *positionInGroup = pSeq[2]; return S_OK; } return S_OK; } } Reference< XAccessible> pParentAcc = pRContext->getAccessibleParent(); if( !pParentAcc.is() ) { return S_OK; } Reference pRParentContext = pParentAcc->getAccessibleContext(); int level = 0; int index = 0; int number = 0; if( Role == RADIO_BUTTON ) { Reference pRrelationSet = pRContext->getAccessibleRelationSet(); long nRel = pRrelationSet->getRelationCount(); for(int i=0 ; igetRelation(i); if(accRelation.RelationType == 7) { Sequence< Reference< XInterface > > xTargets = accRelation.TargetSet; int nCount = xTargets.getLength(); Reference pRAcc = xTargets[0]; for(int j=0; jgetAccessibleChildCount(); j++) { if( getTheParentOfMember(pRParentContext->getAccessibleChild(j).get()) == (XAccessible*)pRAcc.get() && pRParentContext->getAccessibleChild(j)->getAccessibleContext()->getAccessibleRole() == RADIO_BUTTON) number++; if(pRParentContext->getAccessibleChild(j).get() == pUNOInterface) index = number; } } } *groupLevel = 1; *similarItemsInGroup = number; *positionInGroup = index; return S_OK; } else if ( COMBO_BOX == Role ) { *groupLevel = 1; *similarItemsInGroup = 0; *positionInGroup = -1; long nCount = pRContext->getAccessibleChildCount(); if( 2 != nCount) { return S_OK; } Reference xList=pRContext->getAccessibleChild(1); if (!xList.is()) { return S_OK; } Reference xListContext(xList,UNO_QUERY); if (!xListContext.is()) { return S_OK; } Reference xListSel(xList,UNO_QUERY); if (!xListSel.is()) { return S_OK; } *similarItemsInGroup = xListContext->getAccessibleChildCount(); if (*similarItemsInGroup > 0 ) { try { Reference xChild = xListSel->getSelectedAccessibleChild(0); if (xChild.is()) { Reference xChildContext(xChild,UNO_QUERY); if (xChildContext.is()) { *positionInGroup=xChildContext->getAccessibleIndexInParent() + 1 ; return S_OK; } } } catch(...) {} } return S_OK; } else if ( PAGE_TAB == Role ) { *groupLevel = 1; *similarItemsInGroup = pRParentContext->getAccessibleChildCount(); if (*similarItemsInGroup > 0 ) { *positionInGroup=pRContext->getAccessibleIndexInParent() + 1 ; } else { *positionInGroup = -1; } return S_OK; } BOOL isFound = FALSE; while( pParentAcc.is() && !isFound) { level++; pRParentContext = pParentAcc->getAccessibleContext(); Role = pRParentContext->getAccessibleRole(); if( (Role == TREE) || (Role == LIST) ) isFound = TRUE; pParentAcc = pRParentContext->getAccessibleParent(); } if( isFound ) { Reference< XAccessible> pTempAcc = pRContext->getAccessibleParent(); pRParentContext = pTempAcc->getAccessibleContext(); *groupLevel = level; *similarItemsInGroup = pRParentContext->getAccessibleChildCount(); *positionInGroup = pRContext->getAccessibleIndexInParent() + 1; } else { *groupLevel = 0; *similarItemsInGroup = 0; *positionInGroup = 0; } return S_OK; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_extendedStates( long, BSTR __RPC_FAR *__RPC_FAR *, long __RPC_FAR *) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() return E_NOTIMPL; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_uniqueID(long __RPC_FAR *uniqueID) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(uniqueID == NULL) { return E_INVALIDARG; } *uniqueID = m_dChildID; return S_OK; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_windowHandle(HWND __RPC_FAR *windowHandle) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(windowHandle == NULL) { return E_INVALIDARG; } HWND nHwnd = m_hwnd; IAccessible* pParent = m_pIParent; CMAccessible* pChild = this; while((nHwnd==0) && pParent) { pChild = (CMAccessible*)pParent; if(pChild) { pParent = (IAccessible*)pChild->m_pIParent; nHwnd = (HWND)pChild->m_hwnd; } else pParent = NULL; } *windowHandle = nHwnd; return S_OK; LEAVE_PROTECTED_BLOCK } /** * Get XAccessibleContext directly from UNO by the stored XAccessible pointer * @param pXAcc, UNO XAccessible object point. * @return XAccessibleContext*, the context of the pXAcc. */ XAccessibleContext* CMAccessible::GetContextByXAcc( XAccessible* pXAcc ) { Reference< XAccessibleContext > pRContext; if( pXAcc == NULL) return NULL; pRContext = pXAcc->getAccessibleContext(); if( !pRContext.is() ) return NULL; return pRContext.get(); } /** * Return the member variable m_pXAccessibleSelection, instead of * get XAccessibleSelection according to XAccessibleContext because if so,it will * depend on the UNO implementation code,so when COM is created, put XAccessibleSelection * by bridge management system * @return XAccessibleSelection*, the selection of the current object. */ Reference< XAccessibleSelection > CMAccessible::GetSelection() { if( pUNOInterface == NULL ) return NULL; Reference< XAccessibleContext > pRContext = pUNOInterface->getAccessibleContext(); if(pRContext.is()) { Reference< XAccessibleSelection > pRSelection(pRContext,UNO_QUERY); return pRSelection; } return NULL; } /** * Select one XAccessible item, for accSelect implementation * @param pItem, the item should be selected. * @return S_OK if successful. */ HRESULT CMAccessible::SelectChild(XAccessible* pItem) { ENTER_PROTECTED_BLOCK ISDESTROY() XAccessibleContext* pParentContext = GetContextByXAcc( pUNOInterface ); XAccessibleContext* pContext = GetContextByXAcc( pItem ); if( pParentContext == NULL || pContext == NULL ) return E_FAIL; Reference< XAccessibleSelection > pRSelection = GetSelection(); if( !pRSelection.is() ) return E_FAIL; long Index = pContext->getAccessibleIndexInParent(); pRSelection->selectAccessibleChild( Index ); return S_OK; LEAVE_PROTECTED_BLOCK } /** * Deselect one XAccessible item, for accSelect implimentation * @param pItem, the item should be deselected. * @return S_OK if successful. */ HRESULT CMAccessible::DeSelectChild(XAccessible* pItem) { ENTER_PROTECTED_BLOCK ISDESTROY() XAccessibleContext* pParentContext = GetContextByXAcc( pUNOInterface ); ; XAccessibleContext* pContext = GetContextByXAcc( pItem ); if( pParentContext == NULL || pContext == NULL ) return E_INVALIDARG; Reference< XAccessibleSelection > pRSelection = GetSelection(); if( !pRSelection.is() ) return E_FAIL; long Index = pContext->getAccessibleIndexInParent(); pRSelection->deselectAccessibleChild( Index ); return S_OK; LEAVE_PROTECTED_BLOCK } /** * Select multiple XAccessible items,for implementation of accSelect * @param pItem, the items should be selected. * @param size, the size of the items. * @return S_OK if successful. */ HRESULT CMAccessible::SelectMutipleChidren( XAccessible** pItem,int size ) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pItem == NULL) { return E_INVALIDARG; } for(int index = 0;index < size;index++) { SelectChild( pItem[index] ); } return S_OK; LEAVE_PROTECTED_BLOCK } /** * Deselect multiple XAccessible items,for implementation of accSelect * @param pItem, the items should be selected. * @param size, the size of the items. * @return S_OK if successful. */ HRESULT CMAccessible::DeSelectMutipleChildren( XAccessible** pItem,int size ) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pItem == NULL) { return E_INVALIDARG; } for(int index = 0;index < size;index++) { DeSelectChild( pItem[index] ); } return S_OK; LEAVE_PROTECTED_BLOCK } /** * When COM is created, UNO set XAccessible pointer to it * in order to COM can operate UNO information * @param pXAcc, the XAccessible object of current object. * @return S_OK if successful. */ STDMETHODIMP CMAccessible::SetXAccessible(long pXAcc) { pUNOInterface = (XAccessible*)pXAcc; pRef = pUNOInterface; m_pEnumVar->PutSelection(/*XAccessibleSelection*/(long)pUNOInterface); pRContext = pUNOInterface->getAccessibleContext(); pRContextInterface = (XAccessibleContext*)pRContext.is(); return S_OK; } /** * accSelect method has many optional flags, needs to process comprehensively * Mozilla and Microsoft do not implement SELFLAG_EXTENDSELECTION flag. * The implementation of this flag is a little trouble-shooting,so we also * do not implement it now * @param flagsSelect, the selection flag of the select action. * @param varChild, the child object pointer of current action. * @return S_OK if successful. */ STDMETHODIMP CMAccessible::accSelect(long flagsSelect, VARIANT varChild) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() if( (flagsSelect&SELFLAG_ADDSELECTION) && (SELFLAG_REMOVESELECTION&flagsSelect) ) return E_INVALIDARG; if ( (flagsSelect&SELFLAG_TAKESELECTION) && ( (flagsSelect&SELFLAG_ADDSELECTION) || (flagsSelect&SELFLAG_REMOVESELECTION) || (flagsSelect&SELFLAG_EXTENDSELECTION ) ) ) return E_INVALIDARG; if ( varChild.vt != VT_I4 ) return E_INVALIDARG; IMAccessible* pSelectAcc; if( varChild.lVal == CHILDID_SELF ) { pSelectAcc = this; pSelectAcc->AddRef(); } else { pSelectAcc = GetChildInterface(varChild.lVal); } if( pSelectAcc == NULL ) return E_INVALIDARG; if( flagsSelect&SELFLAG_TAKEFOCUS ) { long pTempUNO = 0; pSelectAcc->GetUNOInterface( &pTempUNO); if( pTempUNO == NULL ) return NULL; Reference< XAccessibleContext > pRContext = ( (XAccessible*)pTempUNO)->getAccessibleContext(); Reference< XAccessibleComponent > pRComponent(pRContext,UNO_QUERY); Reference< XAccessible > pRParentXAcc = pRContext->getAccessibleParent(); Reference< XAccessibleContext > pRParentContext = pRParentXAcc->getAccessibleContext(); Reference< XAccessibleComponent > pRParentComponent(pRParentContext,UNO_QUERY); Reference< XAccessibleSelection > pRParentSelection(pRParentContext,UNO_QUERY); pRComponent->grabFocus(); if( flagsSelect & SELFLAG_TAKESELECTION ) { pRParentSelection->clearAccessibleSelection(); pRParentSelection->selectAccessibleChild( pRContext->getAccessibleIndexInParent() ); } if( flagsSelect & SELFLAG_ADDSELECTION ) { pRParentSelection->selectAccessibleChild( pRContext->getAccessibleIndexInParent() ); } if( flagsSelect & SELFLAG_REMOVESELECTION ) { pRParentSelection->deselectAccessibleChild( pRContext->getAccessibleIndexInParent() ); } if( flagsSelect & SELFLAG_EXTENDSELECTION ) { long indexInParrent = pRContext->getAccessibleIndexInParent(); if( pRParentSelection->isAccessibleChildSelected( indexInParrent + 1 ) || pRParentSelection->isAccessibleChildSelected( indexInParrent - 1 ) ) { pRParentSelection->selectAccessibleChild( indexInParrent ); } } } pSelectAcc->Release(); return S_OK; LEAVE_PROTECTED_BLOCK } /** * Return XAccessible interface pointer when needed * @param pXAcc, [in, out] the Uno interface of the current object. * @return S_OK if successful. */ STDMETHODIMP CMAccessible::GetUNOInterface(long* pXAcc) { // #CHECK# if(pXAcc == NULL) return E_INVALIDARG; *pXAcc = (long)pUNOInterface; return S_OK; } /** * Helper method for Implementation of get_accDefaultAction * @param pAction, the default action point of the current object. * @return S_OK if successful. */ STDMETHODIMP CMAccessible::SetDefaultAction(long pAction) { m_pXAction = (XAccessibleAction*)pAction; return S_OK; } /** * This method is called when AT open some UI elements initially * the UI element takes the default action defined here * @param varChild, the child id of the defaultaction. * @param pszDefaultAction,[in/out] the description of the current action. * @return S_OK if successful. */ HRESULT STDMETHODCALLTYPE CMAccessible::get_accDefaultAction(VARIANT varChild, BSTR *pszDefaultAction) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(pszDefaultAction == NULL) { return E_INVALIDARG; } if(varChild.vt==VT_I4) { if(varChild.lVal==CHILDID_SELF) { if( m_pXAction == NULL ) return DISP_E_MEMBERNOTFOUND; SAFE_SYSFREESTRING(*pszDefaultAction); *pszDefaultAction = SysAllocString(m_pszActionDescription); return S_OK; } long lVal = varChild.lVal; varChild.lVal = CHILDID_SELF; IMAccessible *pChild = this->GetChildInterface(lVal); if(!pChild) return E_FAIL; return pChild->get_accDefaultAction(varChild,pszDefaultAction); } return S_FALSE; LEAVE_PROTECTED_BLOCK } /** * AT call this method to operate application * @param varChild, the child id of the action object. * @return S_OK if successful. */ HRESULT STDMETHODCALLTYPE CMAccessible::accDoDefaultAction(VARIANT varChild) { ENTER_PROTECTED_BLOCK ISDESTROY() if( varChild.vt != VT_I4 ) return E_INVALIDARG; if( m_pXAction == NULL ) return E_FAIL; if( m_pXAction->getAccessibleActionCount() == 0 ) return E_FAIL; if(varChild.lVal==CHILDID_SELF) { if(m_pXAction->getAccessibleActionCount() > 0) m_pXAction->doAccessibleAction(0); return S_OK; } long lVal = varChild.lVal; varChild.lVal = CHILDID_SELF; IMAccessible *pChild = this->GetChildInterface(lVal); if(!pChild) return E_FAIL; return pChild->accDoDefaultAction( varChild ); LEAVE_PROTECTED_BLOCK } /** * UNO set description information for action to COM. * @param szAction, the action description of the current object. * @return S_OK if successful. */ STDMETHODIMP CMAccessible::Put_ActionDescription( const OLECHAR* szAction) { ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(szAction == NULL) { return E_INVALIDARG; } SAFE_SYSFREESTRING(m_pszActionDescription ); m_pszActionDescription = SysAllocString( szAction ); return S_OK; LEAVE_PROTECTED_BLOCK } BOOL CMAccessible::GetXInterfaceFromXAccessible(XAccessible* pXAcc, XInterface** ppXI, int index) { Reference< XAccessibleContext > pRContext; switch(index) { case XI_COMPONENT: QUERYXINTERFACE(AccessibleComponent) break; case XI_TEXT: QUERYXINTERFACE(AccessibleText) break; case XI_EDITABLETEXT: QUERYXINTERFACE(AccessibleEditableText) break; case XI_TABLE: QUERYXINTERFACE(AccessibleTable) break; case XI_SELECTION: QUERYXINTERFACE(AccessibleSelection) break; case XI_EXTENDEDCOMP: QUERYXINTERFACE(AccessibleExtendedComponent) break; case XI_KEYBINDING: QUERYXINTERFACE(AccessibleKeyBinding) break; case XI_ACTION: QUERYXINTERFACE(AccessibleAction) break; case XI_VALUE: QUERYXINTERFACE(AccessibleValue) break; case XI_HYPERTEXT: QUERYXINTERFACE(AccessibleHypertext) break; case XI_HYPERLINK: QUERYXINTERFACE(AccessibleHyperlink) break; case XI_IMAGE: QUERYXINTERFACE(AccessibleImage) break; default: break; } return FALSE; } HRESULT WINAPI CMAccessible::SmartQI(void* pv, REFIID iid, void** ppvObject) { ENTER_PROTECTED_BLOCK ISDESTROY() if( ImplIsEqualGUID(iid,IID_IAccIdentity) || ImplIsEqualGUID(iid,IID_IStdMarshalInfo) || ImplIsEqualGUID(iid,IID_IMarshal) || ImplIsEqualGUID(iid,IID_IExternalConnection)|| ImplIsEqualGUID(iid,IID_IOleWindow)) return E_FAIL; _UNO_AGGMAP_ENTRY* pMap = _GetAggEntries(); while(pMap && pMap->piid) { if(ImplIsEqualGUID(iid, *pMap->piid)) { XInterface* pXI = NULL; BOOL bFound = GetXInterfaceFromXAccessible(pUNOInterface,&pXI,pMap->XIFIndex); if(!bFound) { return E_FAIL; } XGUIDToComObjHash::iterator pIndTemp = m_containedObjects.find( iid ); if ( pIndTemp != m_containedObjects.end() ) { return pIndTemp->second.p->QueryInterface( iid, ppvObject ); } else { HRESULT hr = pMap->pfnCreateInstance(pv, iid, ppvObject); if(hr == S_OK) { m_containedObjects.insert(XGUIDToComObjHash::value_type(*pMap->piid,(IUnknown*)*ppvObject)); IUNOXWrapper* wrapper = NULL; ((IUnknown*)*ppvObject)->QueryInterface(IID_IUNOXWrapper, (void**)&wrapper); if(wrapper) { wrapper->put_XInterface((long)pUNOInterface); wrapper->Release(); } return S_OK; } } return E_FAIL; } pMap++; } return E_FAIL; LEAVE_PROTECTED_BLOCK } BOOL CMAccessible::get_IAccessibleFromXAccessible(long pXAcc, IAccessible **ppIA) { ENTER_PROTECTED_BLOCK // #CHECK# if(ppIA == NULL) { return E_INVALIDARG; } BOOL isGet = FALSE; if(g_pAgent) isGet = g_pAgent->GetIAccessibleFromXAccessible((XAccessible*)pXAcc,ppIA); if(isGet) return TRUE; else return FALSE; LEAVE_PROTECTED_BLOCK } void CMAccessible::get_OLECHARFromAny(Any& pAny, OLECHAR* pChar) { // #CHECK# if(pChar == NULL) return; switch(pAny.getValueTypeClass()) { case TypeClass_CHAR: { sal_Int8 val; pAny >>= val; swprintf( pChar, L"%d", val); break; } case TypeClass_BOOLEAN: { sal_Bool val; pAny >>= val; swprintf( pChar, L"%d", val); break; } case TypeClass_BYTE: { sal_Int8 val; pAny >>= val; swprintf( pChar, L"%d", val); break; } case TypeClass_SHORT: { SHORT val; pAny >>= val; swprintf( pChar, L"%d", val); break; } case TypeClass_UNSIGNED_SHORT: { USHORT val; pAny >>= val; swprintf( pChar, L"%d", val); break; } case TypeClass_LONG: { LONG val; pAny >>= val; swprintf( pChar, L"%ld", val); break; } case TypeClass_UNSIGNED_LONG: { ULONG val; pAny >>= val; swprintf( pChar, L"%ld", val); break; } case TypeClass_FLOAT: { FLOAT val; pAny >>= val; swprintf( pChar, L"%.3f", val); break; } case TypeClass_DOUBLE: { DOUBLE val; pAny >>= val; swprintf( pChar, L"%.6lf", val); break; } case TypeClass_STRING: { ::rtl::OUString val; pAny >>= val; wcscpy(pChar, val.getStr()); break; } case TypeClass_SEQUENCE: { if(pAny.getValueType() == getCppuType( (Sequence< ::rtl::OUString > *)0 ) ) { Sequence < ::rtl::OUString > val; pAny >>= val; ::rtl::OUString pString; int count = val.getLength(); for( int iIndex = 0;iIndex < count;iIndex++ ) { pString += val[iIndex]; } wcscpy(pChar, pString.getStr()); } else if (pAny.getValueType() == getCppuType( (Sequence< ::com::sun::star::style::TabStop >* )0 ) ) { Sequence < ::com::sun::star::style::TabStop > val; pAny >>= val; int count = val.getLength(); for( int iIndex = 0;iIndex < count;iIndex++ ) { OLECHAR pAttrs[512] = {NULL}; OLECHAR pAttrsPosition[512] = {NULL}; OLECHAR pAttrsDescimalChar[512] = {NULL}; OLECHAR pAttrsFillChar[512] = {NULL}; ::com::sun::star::style::TabStop sigleVal = val[iIndex]; swprintf( pAttrsPosition, L"Position=%ld,TabAlign=%ld", sigleVal.Position, sigleVal.Alignment); if(sigleVal.DecimalChar==';' || sigleVal.DecimalChar == ':' || sigleVal.DecimalChar == ',' || sigleVal.DecimalChar == '=' || sigleVal.DecimalChar == '\\') swprintf( pAttrsDescimalChar, L"DecimalChar=\\%c",sigleVal.DecimalChar); else swprintf( pAttrsDescimalChar, L"DecimalChar=%c",sigleVal.DecimalChar); if(sigleVal.FillChar==';' || sigleVal.FillChar == ':' || sigleVal.FillChar == ',' || sigleVal.FillChar == '=' || sigleVal.FillChar == '\\') swprintf( pAttrsFillChar, L"FillChar=\\%c",sigleVal.FillChar); else swprintf( pAttrsFillChar, L"FillChar=%c",sigleVal.FillChar); swprintf( pAttrs, L"%s,%s,%s,",pAttrsPosition,pAttrsDescimalChar,pAttrsFillChar); wcscat(pChar,pAttrs); } } break; } case TypeClass_ENUM: { if (pAny.getValueType() == getCppuType( (::com::sun::star::awt::FontSlant* )0 ) ) { com::sun::star::awt::FontSlant val; pAny >>= val; swprintf( pChar, L"%d", val); } } case TypeClass_STRUCT: { if (pAny.getValueType() == getCppuType( (::com::sun::star::style::LineSpacing* )0 ) ) { com::sun::star::style::LineSpacing val; pAny >>= val; swprintf( pChar, L"Mode=%ld,Height=%ld,", val.Mode, val.Height); } else if (pAny.getValueType() == getCppuType( (com::sun::star::accessibility::TextSegment *)0 ) ) { com::sun::star::accessibility::TextSegment val; pAny >>= val; ::rtl::OUString realVal(val.SegmentText); wcscpy(pChar, realVal.getStr()); } break; } case TypeClass_VOID: case TypeClass_HYPER: case TypeClass_UNSIGNED_HYPER: case TypeClass_TYPE: case TypeClass_ANY: case TypeClass_TYPEDEF: case TypeClass_UNION: case TypeClass_EXCEPTION: case TypeClass_ARRAY: case TypeClass_INTERFACE: case TypeClass_SERVICE: case TypeClass_MODULE: case TypeClass_INTERFACE_METHOD: case TypeClass_INTERFACE_ATTRIBUTE: case TypeClass_UNKNOWN: case TypeClass_PROPERTY: case TypeClass_CONSTANT: case TypeClass_CONSTANTS: case TypeClass_SINGLETON: case TypeClass_MAKE_FIXED_SIZE: break; default: break; } } void CMAccessible::get_OLECHAR4Numbering(const Any& pAny, short numberingLevel,const OUString& numberingPrefix,OLECHAR* pChar) { if(pChar == NULL) return; Reference< ::com::sun::star::container::XIndexReplace > pXIndex; if((pAny>>=pXIndex) && (numberingLevel !=-1))//numbering level is -1,means invalid value { Any aAny = pXIndex->getByIndex(numberingLevel); Sequence< ::com::sun::star::beans::PropertyValue > aProps; aAny >>= aProps; const ::com::sun::star::beans::PropertyValue* pPropArray = aProps.getConstArray(); sal_Int32 nCount = aProps.getLength(); swprintf(pChar,L"Numbering:NumberingLevel=%d,",numberingLevel); for( sal_Int32 i=0; i=0 and numbering Rule !=NULL; //2.common paragraph, numbering level >=0, and numbering Rule == NULL; //3.TOC paragraph, numbering level >0, and numbering Rule ==NULL; // IAText:numberinglevel base on 0, but TOC's level base on 1, // so NumberingLevel value will be decreased 1 in bridge code. else if(numberingLevel >0) { swprintf(pChar,L"Numbering:NumberingLevel=%d,NumberingType=4,NumberingPrefix=,",numberingLevel-1); } else { swprintf(pChar,L"Numbering:"); } } void CMAccessible::ConvertAnyToVariant(const ::com::sun::star::uno::Any &rAnyVal, VARIANT *pvData) { if(rAnyVal.hasValue()) { // Clear VARIANT variable. VariantClear(pvData); // Set value according to value type. switch(rAnyVal.getValueTypeClass()) { case TypeClass_CHAR: pvData->vt = VT_UI1; memcpy(&pvData->bVal, rAnyVal.getValue(), sizeof(sal_Char)); break; case TypeClass_BOOLEAN: pvData->vt = VT_BOOL; memcpy(&pvData->boolVal, rAnyVal.getValue(), sizeof(sal_Bool)); break; case TypeClass_BYTE: pvData->vt = VT_UI1; memcpy(&pvData->bVal, rAnyVal.getValue(), sizeof(sal_Int8)); break; case TypeClass_SHORT: pvData->vt = VT_I2; memcpy(&pvData->iVal, rAnyVal.getValue(), sizeof(sal_Int16)); break; case TypeClass_UNSIGNED_SHORT: pvData->vt = VT_I2; memcpy(&pvData->iVal, rAnyVal.getValue(), sizeof(sal_uInt16)); break; case TypeClass_LONG: pvData->vt = VT_I4; memcpy(&pvData->lVal, rAnyVal.getValue(), sizeof(sal_Int32)); break; case TypeClass_UNSIGNED_LONG: pvData->vt = VT_I4; memcpy(&pvData->lVal, rAnyVal.getValue(), sizeof(sal_uInt32)); break; case TypeClass_FLOAT: pvData->vt = VT_R4; memcpy(&pvData->fltVal, rAnyVal.getValue(), sizeof(float)); break; case TypeClass_DOUBLE: pvData->vt = VT_R8; memcpy(&pvData->dblVal, rAnyVal.getValue(), sizeof(double)); break; case TypeClass_STRING: { pvData->vt = VT_BSTR; ::rtl::OUString val; rAnyVal >>= val; pvData->bstrVal = SysAllocString((OLECHAR *)val.getStr()); break; } case TypeClass_VOID: case TypeClass_HYPER: case TypeClass_UNSIGNED_HYPER: case TypeClass_TYPE: case TypeClass_ANY: case TypeClass_ENUM: case TypeClass_TYPEDEF: case TypeClass_STRUCT: case TypeClass_UNION: case TypeClass_EXCEPTION: case TypeClass_SEQUENCE: case TypeClass_ARRAY: case TypeClass_INTERFACE: { Reference< XAccessible > pXAcc; if(rAnyVal >>= pXAcc) { if(pXAcc.is()) { IAccessible* pIAcc = NULL; get_IAccessibleFromXAccessible((long)pXAcc.get(), &pIAcc); if(pIAcc == NULL) { Reference< XAccessibleContext > pXAccContext = pXAcc->getAccessibleContext(); g_pAgent->InsertAccObj(pXAcc.get(),pXAccContext->getAccessibleParent().get()); get_IAccessibleFromXAccessible((long)pXAcc.get(), &pIAcc); } if(pIAcc) { pIAcc->AddRef(); pvData->vt = VT_UNKNOWN; pvData->pdispVal = (IAccessible2*)pIAcc; break; } } } } case TypeClass_SERVICE: case TypeClass_MODULE: case TypeClass_INTERFACE_METHOD: case TypeClass_INTERFACE_ATTRIBUTE: case TypeClass_UNKNOWN: case TypeClass_PROPERTY: case TypeClass_CONSTANT: case TypeClass_CONSTANTS: case TypeClass_SINGLETON: case TypeClass_MAKE_FIXED_SIZE: // Output the type string, if there is other uno value type. pvData->vt = VT_BSTR; pvData->bstrVal = SysAllocString(rAnyVal.getValueTypeName().getStr()); break; default: break; } } else { VariantClear(pvData); } } STDMETHODIMP CMAccessible::Get_XAccChildID(long* childID) { // #CHECK# if(childID == NULL) { return E_FAIL; } *childID = m_dChildID; return S_OK; } STDMETHODIMP CMAccessible:: get_states(AccessibleStates __RPC_FAR *states ) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK XInterface# if( !pRContext.is() ) return E_FAIL; Reference pRStateSet = pRContext.get()->getAccessibleStateSet(); if(!pRStateSet.is()) { return S_OK; } Sequence pStates = pRStateSet->getStates(); long count = pStates.getLength() ; *states = 0x0; for( int i = 0; i < count; i++ ) { for( int j = 0; j < sizeof(UNO_STATES) / sizeof(UNO_STATES[0]); j++ ) { if( pStates[i] == UNO_STATES[j] ) { *states |= IA2_STATES[j]; break; } } } return S_OK; LEAVE_PROTECTED_BLOCK } // return the UNO roles STDMETHODIMP CMAccessible:: get_extendedRole( BSTR __RPC_FAR * ) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() return E_NOTIMPL; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_localizedExtendedRole( BSTR __RPC_FAR * ) { ENTER_PROTECTED_BLOCK ISDESTROY() return E_NOTIMPL; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_nExtendedStates( long __RPC_FAR * ) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() return E_NOTIMPL; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_localizedExtendedStates( long, BSTR __RPC_FAR *__RPC_FAR *, long __RPC_FAR *) { ENTER_PROTECTED_BLOCK ISDESTROY() return E_NOTIMPL; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_indexInParent( long __RPC_FAR *accParentIndex) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() // #CHECK# if(accParentIndex == NULL) return E_INVALIDARG; // #CHECK XInterface# if( !pRContext.is() ) return E_FAIL; *accParentIndex = pRContext.get()->getAccessibleIndexInParent(); return S_OK; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_locale( IA2Locale __RPC_FAR *locale ) { CHECK_ENABLE_INF ENTER_PROTECTED_BLOCK ISDESTROY() if(locale == NULL) return E_INVALIDARG; // #CHECK XInterface# if( !pRContext.is() ) return E_FAIL; ::com::sun::star::lang::Locale unoLoc = pRContext.get()->getLocale(); locale->language = SysAllocString((OLECHAR*)unoLoc.Language.getStr()); locale->country = SysAllocString((OLECHAR*)unoLoc.Country.getStr()); locale->variant = SysAllocString((OLECHAR*)unoLoc.Variant.getStr()); return S_OK; LEAVE_PROTECTED_BLOCK } DWORD GetMSAAStateFromUNO(short xState) { DWORD IState = STATE_SYSTEM_UNAVAILABLE; switch( xState ) { case /*AccessibleStateType::*/AccessibleStateType::BUSY: IState = STATE_SYSTEM_BUSY; break; case /*AccessibleStateType::*/AccessibleStateType::CHECKED: IState = STATE_SYSTEM_CHECKED; break; case /*AccessibleStateType::*/AccessibleStateType::DEFUNC: IState = STATE_SYSTEM_UNAVAILABLE; break; case /*AccessibleStateType::*/AccessibleStateType::EXPANDED: IState = STATE_SYSTEM_EXPANDED; break; case /*AccessibleStateType::*/AccessibleStateType::FOCUSABLE: IState = STATE_SYSTEM_FOCUSABLE; break; case /*AccessibleStateType::*/AccessibleStateType::FOCUSED: IState = STATE_SYSTEM_FOCUSED; break; case /*AccessibleStateType::*/AccessibleStateType::INDETERMINATE: IState = STATE_SYSTEM_MIXED; break; case /*AccessibleStateType::*/AccessibleStateType::MULTI_SELECTABLE: IState = STATE_SYSTEM_MULTISELECTABLE; break; case /*AccessibleStateType::*/AccessibleStateType::PRESSED: IState = STATE_SYSTEM_PRESSED; break; case /*AccessibleStateType::*/AccessibleStateType::RESIZABLE: IState = STATE_SYSTEM_SIZEABLE; break; case /*AccessibleStateType::*/AccessibleStateType::SELECTABLE: IState = STATE_SYSTEM_SELECTABLE; break; case /*AccessibleStateType::*/AccessibleStateType::SELECTED: IState = STATE_SYSTEM_SELECTED; break; case /*AccessibleStateType::*/AccessibleStateType::ARMED: IState = STATE_SYSTEM_FOCUSED; break; case /*AccessibleStateType::*/AccessibleStateType::EXPANDABLE: IState = STATE_SYSTEM_COLLAPSED; break; default: break; } return IState; } STDMETHODIMP CMAccessible:: get_appName( BSTR __RPC_FAR *name) { ENTER_PROTECTED_BLOCK ISDESTROY() if(name == NULL) return E_INVALIDARG; *name = SysAllocString(OLESTR("Hannover")); return S_OK; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_appVersion(BSTR __RPC_FAR *version) { ENTER_PROTECTED_BLOCK ISDESTROY() if(version == NULL) return E_INVALIDARG; *version=SysAllocString(OLESTR("3.0")); return S_OK; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_toolkitName(BSTR __RPC_FAR *name) { ENTER_PROTECTED_BLOCK ISDESTROY() if(name == NULL) return E_INVALIDARG; *name = SysAllocString(OLESTR(" ")); return S_OK; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible:: get_toolkitVersion(BSTR __RPC_FAR *version) { ENTER_PROTECTED_BLOCK ISDESTROY() if(version == NULL) return E_INVALIDARG; *version = SysAllocString(OLESTR(" ")); return S_OK; LEAVE_PROTECTED_BLOCK } STDMETHODIMP CMAccessible::get_attributes(/*[out]*/ BSTR *pAttr) { CHECK_ENABLE_INF Reference pRContext = pUNOInterface->getAccessibleContext(); if( !pRContext.is() ) { return E_FAIL; } Reference pRXI(pRContext,UNO_QUERY); if( !pRXI.is() ) return E_FAIL; else { com::sun::star::uno::Reference pRXAttr; pRXAttr = pRXI.get(); ::com::sun::star::uno::Any anyVal = pRXAttr->getExtendedAttributes(); ::rtl::OUString val; anyVal >>= val; if(*pAttr) SAFE_SYSFREESTRING(*pAttr); *pAttr = SysAllocString((OLECHAR *)val.getStr()); return S_OK; } }