Esempio n. 1
0
void CKeyModule::setKeyCallback(bool bDispatch, int iKeyValue, rho::apiGenerator::CMethodResult pCallback)
{
    CKeyMapEntry *pentry;
    if (iKeyValue == ALL_KEYS)
    {
        if (pCallback.hasCallback())
        {
            pInstanceData->psAllKeysNavigate = pCallback;
            pInstanceData->bAllKeysDispatch = bDispatch;
        }
        else
        {
            //  Blank out the existing callback
            pInstanceData->psAllKeysNavigate = pCallback;
        }
    }
    else
    {
        pentry = pInstanceData->pKeyMap->Find(iKeyValue);
        if (pentry)
        {
            //  If the user has not specified a callback then delete the mapping
            if (!pCallback.hasCallback())
                pInstanceData->pKeyMap->DeleteEntry(iKeyValue);
            else
            {
                pentry->SetNavigate(pCallback);
                pentry->bDispatch = bDispatch;
            }

        }
        else
        {
            //  No Current mapping, add the mapping
            pentry = new CKeyMapEntry(iKeyValue, pCallback , bDispatch);
            pInstanceData->pKeyMap->AddEntry(pentry);
        }
    }

    if (!pInstanceData->psAllKeysNavigate.hasCallback() &&
            !pInstanceData->pKeyMap->HasContents() &&
            pInstanceData->nHomeKey == 0)
        ClearRegistrationsFromOOPEngine();
    else
        RegisterFromOOPEngine();
}
Esempio n. 2
0
void CPrinterZebraImpl::enumerateSupportedControlLanguages(rho::apiGenerator::CMethodResult& oResult)
{
    LOG(TRACE) + "[zebra] enumerateSupportedControlLanguages send";

    EnumerateSupportedControlLanguagesTask *task = new EnumerateSupportedControlLanguagesTask(m_ID, oResult);

    if (oResult.hasCallback())
    {
        ThreadMessageQueue::getInstance()->addQueueCommand(task);
    }
    else
    {        
        ThreadMessageQueue::getInstance()->processCommand(task);
        oResult.set(task->getResult().getStringArray());
        delete task;
    }
}
Esempio n. 3
0
void CPrinterZebraImpl::connect(rho::apiGenerator::CMethodResult& oResult) 
{
    LOG(TRACE) + "[zebra] connect send";

    ConnectPrinterTask *task = new ConnectPrinterTask(m_ID, oResult);

    if (oResult.hasCallback())
    {
        ThreadMessageQueue::getInstance()->addQueueCommand(task);
    }
    else
    {        
        ThreadMessageQueue::getInstance()->processCommand(task);
        rho::String str = task->getResult().getString();
        oResult.set(str);
        delete task;
    }
}
Esempio n. 4
0
    virtual void readLogFile(int limit, rho::apiGenerator::CMethodResult& oResult)
    {
        bool bOldSaveToFile = LOGCONF().isLogToFile();
        LOGCONF().setLogToFile(false);

        rho::common::CRhoFile oFile;
        if ( oFile.open( LOGCONF().getLogFilePath().c_str(), rho::common::CRhoFile::OpenReadOnly) )
        {
            int nFileSize = oFile.size();
            int nPos = LOGCONF().getLogTextPos();
            int nMaxSize = nFileSize > nPos ? nFileSize : nPos;
            if ( limit <= 0 || limit > nMaxSize)
                limit = nMaxSize;

            oResult.setCollectionMode(true);
            oResult.set("");
            oResult.setCollectionMode(false);

            oResult.getString().resize(limit);
            char* szStr = (char*)oResult.getString().c_str();

            if ( limit <= nPos )
            {
                oFile.setPosTo(nPos-limit);
                oFile.readData(szStr,0,limit);
            }else
            {
                oFile.setPosTo(nFileSize-(limit-nPos));
                int nRead = oFile.readData(szStr,0,limit);

                oFile.setPosTo(0);
                oFile.readData(szStr,nRead,limit-nRead);
            }

        }

        LOGCONF().setLogToFile(bOldSaveToFile);

        if ( oResult.hasCallback() )
            oResult.callCallback();

    }
Esempio n. 5
0
void CSensorImpl::stop(rho::apiGenerator::CMethodResult& oResult)
{
    LOG(TRACE) + "Received request to stop sensor: " + m_sensorId;
    if (NULL == m_rawSensor)
    {
        oResult.setError("No sensor found. Cannot get stop.");
    }
    else
    {
        
        this->m_rawSensor->Stop();
        if ((NULL != m_callbackMethodResult) && (m_callbackMethodResult->hasCallback()))
        {
            m_callbackMethodResult = NULL;

        }
        rho::common::CMutexLock lock(m_cs);
        m_cache.clear();
    }
}
Esempio n. 6
0
void CPrinterZebraImpl::connectWithOptions( const rho::Hashtable<rho::String, rho::String>& options, rho::apiGenerator::CMethodResult& oResult)
{    
    LOG(TRACE) + "[zebra] connectWithOptions send";

    rho::apiGenerator::CMethodResult propResult;

    rho::Hashtable<rho::String, rho::String> fullOptions = options;

    ConnectWithParametersPrinterTask *task = new ConnectWithParametersPrinterTask(m_ID, fullOptions, oResult);

    if (oResult.hasCallback())
    {
        ThreadMessageQueue::getInstance()->addQueueCommand(task);
    }
    else
    {        
        ThreadMessageQueue::getInstance()->processCommand(task);
        rho::String str = task->getResult().getString();
        oResult.set(str);
        delete task;
    }
}
Esempio n. 7
0
void CSensorImpl::start(rho::apiGenerator::CMethodResult& oResult)
{
    LOG(TRACE) + "Received request to start sensor: " + m_sensorId;
    if (NULL == m_rawSensor)
    {
        oResult.setError("No sensor found. Cannot get start.");
    }
    else
    {
        //const char * status = m_rawSensor->getStatus();
        this->m_rawSensor->Start();
        rho::common::CMutexLock lock(m_cs);
        if (oResult.hasCallback())
        {
            m_callbackMethodResult = &oResult;
        }
        else
        {
            m_callbackMethodResult = NULL;
        }
    }

}
Esempio n. 8
0
void CKeyModule::setTriggerCallback(rho::apiGenerator::CMethodResult pCallback)
{
    rho::apiGenerator::CMethodResult blank;
    if (pCallback.hasCallback())
    {
        //  User has provided a callback to listen for trigger presses
        if (!StartTriggerWatch())
        {
            LOG(WARNING) + "Unable to listen for the device trigger";
            pInstanceData->psTriggerNavigate = blank;
        }
        else
        {
            pInstanceData->psTriggerNavigate = pCallback;
        }
    }
    else
    {
        //  User has asked to stop listening for Trigger callbacks
        StopTriggerWatch();
        pInstanceData->psTriggerNavigate = blank;
    }
}
Esempio n. 9
0
void CMainWindow::createTabbarEx(const rho::Vector<rho::String>& tabbarElements, const rho::Hashtable<rho::String, rho::String>& tabBarProperties, rho::apiGenerator::CMethodResult& oResult)
{
    if (!rho_rhodesapp_check_mode())
        return;

    std::auto_ptr<QColor> background_color (NULL);

    for ( Hashtable<rho::String, rho::String>::const_iterator it = tabBarProperties.begin(); it != tabBarProperties.end(); ++it )
    {
        const char *name = (it->first).c_str();
        const char *value = (it->second).c_str();
        if (strcasecmp(name, "backgroundColor") == 0)
            background_color.reset(new QColor(getColorFromString(value)));
    }

    ((QtMainWindow*)qtMainWindow)->tabbarInitialize();

    for (int i = 0; i < (int)tabbarElements.size(); ++i)
    {
        const char *label = NULL;
        const char *action = NULL;
        const char *icon = NULL;
        const char *reload = NULL;
        const char *colored_icon = NULL;

        std::auto_ptr<QColor> selected_color (NULL);
        const char *disabled = NULL;
        std::auto_ptr<QColor> web_bkg_color (NULL);
        const char* use_current_view_for_tab = NULL;

        CJSONEntry oEntry(tabbarElements[i].c_str());

        if ( oEntry.hasName("label") )
            label = oEntry.getString("label");
        if ( oEntry.hasName("action") )
            action = oEntry.getString("action");
        if ( oEntry.hasName("icon") )
            icon = oEntry.getString("icon");
        if ( oEntry.hasName("coloredIcon") )
            colored_icon = oEntry.getString("coloredIcon");
        if ( oEntry.hasName("reload") )
            reload = oEntry.getString("reload");
        if ( oEntry.hasName("selectedColor") )
            selected_color.reset(new QColor(getColorFromString(oEntry.getString("selectedColor"))));
        if ( oEntry.hasName("disabled") )
            disabled = oEntry.getString("disabled");
        if ( oEntry.hasName("useCurrentViewForTab") )
        {
            use_current_view_for_tab = oEntry.getString("useCurrentViewForTab");
            if (strcasecmp(use_current_view_for_tab, "true") == 0) {
                action = "none";
            }
        }
        if (oEntry.hasName("backgroundColor"))
            web_bkg_color.reset(new QColor(getColorFromString(oEntry.getString("backgroundColor"))));

        if (label == NULL)
            label = "";

        if ( label == NULL || action == NULL) {
            RAWLOG_ERROR("Illegal argument for create_nativebar");
            return;
        }

        QtMainWindow::QTabBarRuntimeParams tbrp;
        tbrp["label"] = QString(label);
        tbrp["action"] = QString(action);
        tbrp["reload"] = charToBool(reload);
        tbrp["use_current_view_for_tab"] = charToBool(use_current_view_for_tab);
        tbrp["background_color"] = background_color.get() != NULL ? background_color->name() : QString("");
        tbrp["selected_color"] = selected_color.get() != NULL ? selected_color->name() : QString("");
        String strIconPath = icon ? CFilePath::join( RHODESAPP().getAppRootPath(), icon) : String();
        ((QtMainWindow*)qtMainWindow)->tabbarAddTab(QString(label), icon ? strIconPath.c_str() : NULL, charToBool(disabled), web_bkg_color.get(), tbrp);
    }

    if (oResult.hasCallback())
        ((QtMainWindow*)qtMainWindow)->tabbarSetSwitchCallback(oResult);

    ((QtMainWindow*)qtMainWindow)->tabbarShow();

    m_started = true;
}
Esempio n. 10
0
void CNativeTabbar::CreateTabbarEx(const rho::Vector<rho::String>& tabbarElements, const rho::Hashtable<rho::String, rho::String>& tabBarProperties, rho::apiGenerator::CMethodResult& oResult)
{
    if (!rho_rhodesapp_check_mode() )
        return;

    RemoveTabbar();

	COLORREF   rgbBackColor;
    bool bHiddenTabs = false, bCreateOnInit = false;

    for ( Hashtable<rho::String, rho::String>::const_iterator it = tabBarProperties.begin(); it != tabBarProperties.end(); ++it )
    {
        const char *name = (it->first).c_str();
        const char *value = (it->second).c_str();
        if (strcasecmp(name, "backgroundColor") == 0) 
            rgbBackColor = getColorFromString(value);
        if (strcasecmp(name, "hiddenTabs") == 0) 
            bHiddenTabs = strcasecmp(value, "true") == 0;
        if (strcasecmp(name, "createOnInit") == 0) 
            bCreateOnInit = strcasecmp(value, "true") == 0;

    }

    if ( !bHiddenTabs )
    {
        LOG(WARNING) + "Illegal argument for create_nativebar: hiddenTabs should be true for Windows Mobile and Windows CE.";
        bHiddenTabs = true;
    }

    int nStartTab = -1;

    for (int i = 0; i < (int)tabbarElements.size(); ++i) 
    {
        const char *label = NULL;
        const char *action = NULL;
        const char *icon = NULL;
        const char *reload = NULL;
        const char *colored_icon = NULL;
        
    	COLORREF selected_color;
        const char *disabled = NULL;
		COLORREF web_bkg_color;
        const char* use_current_view_for_tab = NULL;
        bool bUseCurrentViewForTab = false, bReloadPage = false, bPerishable = false, bCreateOnInitTab = false;
        CJSONEntry oEntry(tabbarElements[i].c_str());

        if ( oEntry.hasName("label") )
            label = oEntry.getString("label");
        if ( oEntry.hasName("action") )
            action = oEntry.getString("action");
        if ( oEntry.hasName("icon") )
            icon = oEntry.getString("icon");
        if ( oEntry.hasName("coloredIcon") )
            colored_icon = oEntry.getString("coloredIcon");
        if ( oEntry.hasName("reload") )
        {
            reload = oEntry.getString("reload");
            if (strcasecmp(reload, "true") == 0)
                bReloadPage = true;
        }
        if ( oEntry.hasName("perishable") )
        {
            const char* perishable = oEntry.getString("perishable");
            if (strcasecmp(perishable, "true") == 0)
                bPerishable = true;
        }
        if ( oEntry.hasName("createOnInit") )
        {
            const char* createOnInit = oEntry.getString("createOnInit");
            if (strcasecmp(createOnInit, "true") == 0)
                bCreateOnInitTab = true;
        }

        if ( oEntry.hasName("selectedColor") )
            selected_color = getColorFromString(oEntry.getString("selectedColor"));
        if ( oEntry.hasName("disabled") )
            disabled = oEntry.getString("disabled");
        if ( oEntry.hasName("useCurrentViewForTab") )
        {
            use_current_view_for_tab = oEntry.getString("useCurrentViewForTab");
            if (strcasecmp(use_current_view_for_tab, "true") == 0)
                bUseCurrentViewForTab = true;
        }
        if (oEntry.hasName("backgroundColor")) 
            web_bkg_color = getColorFromString(oEntry.getString("backgroundColor"));

        if (label == NULL)
            label = "";
        if (action == NULL)
            action = "";
        
        m_arTabs.addElement(CTabBarItem(action, label, bUseCurrentViewForTab, bReloadPage, bPerishable, bCreateOnInitTab));

        if (m_strStartTabName.length()>0 && m_strStartTabName == label)
            nStartTab = i;

    }

    if ( oResult.hasCallback() )
        m_oCallback = oResult;

    for ( int i = 0; i < (int)m_arTabs.size(); i++ )
    {
        if ( m_arTabs[i].m_bCreateOnInit || bCreateOnInit )
            SwitchTab(i, true);
    }

    if (m_strStartTabName.length()>0&&nStartTab>=0)
    {
        //getAppWindow().SetTimer( TABBAR_TIMER_ID, 1000 );
        SwitchTabByName( m_strStartTabName.c_str(), false );
        m_strStartTabName = "";
    }else if ( m_arTabs.size() ) //&& !m_arTabs[0].m_bUseCurrentViewForTab )
        SwitchTab(0);

    m_bTabCreated = true;
}