void ProxyList::deleteAllProxyscriptFiles(){ for (ProxyList::iterator iter = this->begin(); iter != this->end(); iter++){ if (iter->dataSource && iter->dataSource->fileName != iter->fileName){ iter->deleteFile(); } } }
void JSAPIImpl::FireEvent(const std::string& eventName, const std::vector<variant>& args) { if (!m_valid) // When invalidated, do nothing more return; { JSAPIImplPtr self(shared_from_this()); boost::recursive_mutex::scoped_lock _l(m_proxyMutex); ProxyList::iterator proxyIt = m_proxies.begin(); while (proxyIt != m_proxies.end()) { JSAPIImplPtr proxy(proxyIt->lock()); if (!proxy) { // Since you can't use a shared_ptr in a destructor, there // is no way for the proxy object to let us know when it goes // away; thus when we find them, we remove them for efficiency proxyIt = m_proxies.erase(proxyIt); continue; } VariantList newArgs = proxyProcessList(args, self, proxy); proxy->FireEvent(eventName, newArgs); ++proxyIt; } } try { fireAsyncEvent(eventName, args); } catch (const FB::script_error&) { // a script_error can be fired during shutdown when this is called // from another thread; this should not be an error } }
void JSAPIImpl::unregisterProxy( const JSAPIImplPtr& ptr ) const { boost::recursive_mutex::scoped_lock _l(m_proxyMutex); for (ProxyList::iterator it = m_proxies.begin(); it != m_proxies.end(); ++it) { JSAPIPtr cur(it->lock()); if (!cur || ptr == cur) it = m_proxies.erase(it); } }
void JSAPIImpl::FireJSEvent( const std::string& eventName, const VariantMap &members, const VariantList &arguments ) { if (!m_valid) // When invalidated, do nothing more return; { JSAPIImplPtr self(shared_from_this()); boost::recursive_mutex::scoped_lock _l(m_proxyMutex); ProxyList::iterator proxyIt = m_proxies.begin(); while (proxyIt != m_proxies.end()) { JSAPIImplPtr proxy(proxyIt->lock()); if (!proxy) { // Since you can't use a shared_ptr in a destructor, there // is no way for the proxy object to let us know when it goes // away; thus when we find them, we remove them for efficiency proxyIt = m_proxies.erase(proxyIt); continue; } VariantList newArgs = proxyProcessList(arguments, self, proxy); VariantMap newMap = proxyProcessMap(members, self, proxy); proxy->FireJSEvent(eventName, newMap, newArgs); proxyIt++; } } VariantList args; args.push_back(CreateEvent(shared_from_this(), eventName, members, arguments)); { boost::recursive_mutex::scoped_lock _l(m_eventMutex); EventContextMap::iterator it(m_eventMap.begin()); while (it != m_eventMap.end()) { std::pair<EventMultiMap::iterator, EventMultiMap::iterator> range = it->second.equal_range(eventName); for (EventMultiMap::const_iterator eventIt = range.first; eventIt != range.second; eventIt++) { eventIt->second->InvokeAsync("", args); } ++it; } } // Some events are registered as a jsapi object with a method of the same name as the event { boost::recursive_mutex::scoped_lock _l(m_eventMutex); EventIfaceContextMap::iterator it(m_evtIfaces.begin()); while (it != m_evtIfaces.end()) { for (EventIFaceMap::const_iterator ifaceIt = it->second.begin(); ifaceIt != it->second.end(); ifaceIt++) { ifaceIt->second->InvokeAsync(eventName, args); } } } }