def test_link_feature(self): """ Check if an existing feature can be linked """ wrapper = self.createWrapper(self.vl_a, '"name"=\'Douglas Adams\'') # NOQA f = QgsFeature(self.vl_b.fields()) f.setAttributes([self.vl_b.dataProvider().defaultValueClause(0), 'The Hitchhiker\'s Guide to the Galaxy']) self.vl_b.addFeature(f) def choose_linked_feature(): dlg = QApplication.activeModalWidget() dlg.setSelectedFeatures([f.id()]) dlg.accept() btn = self.widget.findChild(QToolButton, 'mLinkFeatureButton') timer = QTimer() timer.setSingleShot(True) timer.setInterval(0) # will run in the event loop as soon as it's processed when the dialog is opened timer.timeout.connect(choose_linked_feature) timer.start() btn.click() # magically the above code selects the feature here... link_feature = next(self.vl_link.getFeatures(QgsFeatureRequest().setFilterExpression('"fk_book"={}'.format(f[0])))) self.assertIsNotNone(link_feature[0]) self.assertEqual(self.table_view.model().rowCount(), 1)
def _get_sync(self, qurl: QUrl, timeout: int = 20000) -> Reply: ''' synchronous GET-request ''' request = QNetworkRequest(qurl) ## newer versions of QGIS (3.6+) support synchronous requests #if hasattr(self._manager, 'blockingGet'): #reply = self._manager.blockingGet(request, forceRefresh=True) ## use blocking event loop for older versions #else: loop = QEventLoop() timer = QTimer() timer.setSingleShot(True) # reply or timeout break event loop, whoever comes first timer.timeout.connect(loop.quit) reply = self._manager.get(request) reply.finished.connect(loop.quit) timer.start(timeout) # start blocking loop loop.exec() loop.deleteLater() if not timer.isActive(): reply.deleteLater() raise ConnectionError('Timeout') timer.stop() #if reply.error(): #self.error.emit(reply.errorString()) #raise ConnectionError(reply.errorString()) res = Reply(reply) self.finished.emit(res) return res
def _check_path_exists(self, path, text_box): # Validates if the specified folder exists dir = QDir() if not dir.exists(path): msg = self.tr("'{0}' directory does not exist.".format(path)) self.notif_bar.insertErrorNotification(msg) # Highlight textbox control text_box.setStyleSheet(INVALIDATESTYLESHEET) timer = QTimer(self) # Sync interval with that of the notification bar timer.setInterval(self.notif_bar.interval) timer.setSingleShot(True) # Remove previous connected slots (if any) receivers = timer.receivers(QTimer.timeout) if receivers > 0: self._timer.timeout.disconnect() timer.start() timer.timeout.connect(lambda: self._restore_stylesheet( text_box) ) return False return True
def update_referecedata_cache_model(self, filter_models, type): # updates the model and waits for the end loop = QEventLoop() self.ilireferencedatacache.model_refreshed.connect(lambda: loop.quit()) timer = QTimer() timer.setSingleShot(True) timer.timeout.connect(lambda: loop.quit()) timer.start(10000) self.refresh_referencedata_cache(filter_models, type) loop.exec() return self.ilireferencedatacache.model
class QvBafarada(QLabel): ''' Mostra un text simulant una bafarada (globus) de còmic en una posició relativa al widget pare (TOPLEFT, TOPRIGHT, BOTTOMLEFT o BOTTOMRIGHT) Si no s'especifica pare, es mostrarà on li sembli, així que seria convenient fer-li un move a la posició que es vulgui La bafarada es mostra fent-li un show, i s'oculta per si sola, sense necessitat de fer res. ''' TOPLEFT=0 TOPRIGHT=1 BOTTOMLEFT=2 BOTTOMRIGHT=3 def __init__(self,text,parent=None, pos=BOTTOMRIGHT, temps=5): super().__init__(text) self.parent=parent self.setFont(QvConstants.FONTTEXT) self.setWordWrap(True) self.pos=pos self.temps=temps self.setStyleSheet(''' background: %s; color: %s; padding: 2px; border: 2px solid %s; border-radius: 10px; margin: 0px; '''%(QvConstants.COLORBLANCHTML,QvConstants.COLORFOSCHTML, QvConstants.COLORDESTACATHTML)) self.setWindowFlags(Qt.WindowStaysOnTopHint | Qt.FramelessWindowHint) # self.setWindowFlags(Qt.Window | Qt.WA_TranslucentBackground | Qt.FramelessWindowHint) def paintEvent(self,event): super().paintEvent(event) def show(self): super().show() self.timer=QTimer(self) self.timer.setSingleShot(True) self.timer.timeout.connect(lambda: self.hide()) self.timer.start(self.temps*1000) # self.show() if self.parent is not None: #Ja que python no té switch-case, ho fem amb una llista pos=[(10,10),(self.parent.width()-self.width()-10,10),(10,self.parent.height()-self.height()-10),(self.parent.width()-self.width()-10,self.parent.height()-self.height()-10)][self.pos] self.move(*pos) def oculta(self): self.hide() self.timer.stop()
def _post_sync(self, qurl: QUrl, timeout: int = 20000, data: bytes = b'', content_type=None): ''' synchronous POST-request ''' request = QNetworkRequest(qurl) if content_type: request.setHeader(QNetworkRequest.ContentTypeHeader, content_type) # newer versions of QGIS (3.6+) support synchronous requests if hasattr(self._manager, 'blockingPost'): reply = self._manager.blockingPost(request, data, forceRefresh=True) # use blocking event loop for older versions else: loop = QEventLoop() timer = QTimer() timer.setSingleShot(True) # reply or timeout break event loop, whoever comes first timer.timeout.connect(loop.quit) reply = self._manager.post(request, data) reply.finished.connect(loop.quit) timer.start(timeout) # start blocking loop loop.exec() loop.deleteLater() if not timer.isActive(): reply.deleteLater() raise ConnectionError('Timeout') timer.stop() if reply.error(): self.error.emit(reply.errorString()) raise ConnectionError(reply.errorString()) res = Reply(reply) self.finished.emit(res) return res
def get_topping_file_model(self, id_list): topping_file_cache = IliToppingFileCache( self.import_schema_configuration.base_configuration, id_list) # we wait for the download or we timeout after 30 seconds and we apply what we have loop = QEventLoop() topping_file_cache.download_finished.connect(lambda: loop.quit()) timer = QTimer() timer.setSingleShot(True) timer.timeout.connect(lambda: loop.quit()) timer.start(30000) topping_file_cache.refresh() self.log_panel.print_info(self.tr("- - Downloading…"), LogColor.COLOR_TOPPING) if len(topping_file_cache.downloaded_files) != len(id_list): loop.exec() if len(topping_file_cache.downloaded_files) == len(id_list): self.log_panel.print_info( self.tr("- - All topping files successfully downloaded"), LogColor.COLOR_TOPPING, ) else: missing_file_ids = id_list for downloaded_file_id in topping_file_cache.downloaded_files: if downloaded_file_id in missing_file_ids: missing_file_ids.remove(downloaded_file_id) self.log_panel.print_info( self. tr("- - Some topping files where not successfully downloaded: {}" ).format(" ".join(missing_file_ids)), LogColor.COLOR_TOPPING, ) return topping_file_cache.model
class VisualizerDock(QDockWidget, FORM_CLASS): # Evento para quando o plugin é fechado closingPlugin = pyqtSignal() def __init__(self, iface): super(VisualizerDock, self).__init__() self.iface = iface self.request_error = False self.timer = QTimer() self.timer.setSingleShot(True) self.timer.setInterval(7000) self.timer.timeout.connect(lambda: self.lb_status.setText('Pronto')) self.setupUi(self) self.list_resource = ResourceTreeWidgetDecorator(self.list_resource) self.load_resources_from_model() # Eventos self.bt_add_resource.clicked.connect(self._bt_add_resource_clicked) self.bt_remove_resource.clicked.connect(self._bt_remove_resource_clicked) self.list_resource.setContextMenuPolicy(Qt.CustomContextMenu) self.list_resource.customContextMenuRequested.connect(self.open_context_menu) self.list_resource.leaf_resource_double_clicked.connect(self._list_resource_doubleClicked) #self.tx_quick_resource.returnPressed.connect(self._tx_quick_resource_pressed) def _tx_quick_resource_pressed(self): def extract_name(url): return url.strip(' /').split('/')[-1] url = self.tx_quick_resource.text() self.tx_quick_resource.clear() if url: name = extract_name(url) self.add_resource(name, url) def _list_resource_doubleClicked(self, item): name, iri = item.text(0), item.text(1) self.open_operations_editor(name, iri) def _bt_add_resource_clicked(self): self.open_add_resource_dialog() def _bt_remove_resource_clicked(self): selected_items = self.list_resource.selectedItems() if not selected_items: return confirm = MessageBox.question(u'Deseja realmente remover o recurso selecionado?', u'Remover Recurso') if confirm: memorized_urls = Config.get('memo_urls') item_name = selected_items[0].text(0) if item_name in memorized_urls: index = self.list_resource.indexOfTopLevelItem(selected_items[0]) self.list_resource.takeTopLevelItem(index) memorized_urls.pop(item_name) Config.update_dict('memo_urls', memorized_urls) def load_resource(self, resource): parent_item = self.list_resource.add(resource) parent_item.set_color_user_resource() def add_resource(self, name, url): resource = ResourceManager.load(url, name) self.load_resource(resource) Config.set('memo_urls', {name: url}) def load_resources_from_model(self): model = Config.get('memo_urls') if not model: return for name, iri in model.items(): resource = ResourceManager.load(iri, name) self.load_resource(resource) def open_context_menu(self, position): item = self.list_resource.itemAt(position) if not item: return resource = ResourceManager.load(item.url(), item.name()) is_leaf_node = item.childCount() == 0 if is_leaf_node: self.show_context_menu(item, resource, position) else: self.show_entry_point_menu(item, resource, position) def show_context_menu(self, item, resource, where): menu = QMenu() # Load layers action action_open_layer = QAction(self.tr(u'Carregar camada'), None) action_open_layer.triggered.connect(lambda: self._load_layer_on_qgis(resource)) menu.addAction(action_open_layer) # Load layers as... # action_open_layer_as = QAction(self.tr(u'Carregar camada como...'), None) # action_open_layer_as.triggered.connect(lambda: self._load_layer_from_url(item.text(0), item.text(1))) # menu.addAction(action_open_layer_as) menu.addSeparator() # Montar Operações action_open_editor = QAction(self.tr(u'Montar operações'), None) action_open_editor.triggered.connect(lambda: self.open_operations_editor(item.text(0), item.text(1))) menu.addAction(action_open_editor) menu.addSeparator() action_edit = QAction(self.tr(u'Editar'), None) action_edit.triggered.connect(lambda: self.open_edit_dialog(item)) menu.addAction(action_edit) menu.exec_(self.list_resource.viewport().mapToGlobal(where)) def show_entry_point_menu(self, item, resource, where): menu = QMenu() action_edit = QAction(self.tr(u'Editar'), None) action_edit.triggered.connect(lambda: self.open_edit_dialog(item)) menu.addAction(action_edit) menu.exec_(self.list_resource.viewport().mapToGlobal(where)) def open_edit_dialog(self, item): dialog_edit_resource = DialogEditResource(item) dialog_edit_resource.accepted.connect(self._resource_edited) dialog_edit_resource.exec_() return dialog_edit_resource def open_operations_editor(self, name, url): resource = ResourceManager.load(url, name) dialog_construct_url = DialogConstructUrl(resource) dialog_construct_url.load_url_command.connect(lambda n, i: self._load_layer_from_iri(dialog_construct_url, n, i)) dialog_construct_url.exec_() return dialog_construct_url def open_add_resource_dialog(self): dialog_add_resource = DialogAddResource() dialog_add_resource.accepted.connect(self.add_resource) dialog_add_resource.exec_() return dialog_add_resource def _resource_edited(self, tree_item, new_name, new_url): memo = Config.get('memo_urls') old = memo.pop(tree_item.text(0)) new = {new_name: new_url} memo.update(new) Config.update_dict('memo_urls', memo) tree_item.setText(0, new_name) tree_item.setText(1, new_url) def _load_layer_from_iri(self, widget, name, iri): try: dummy = ResourceManager.load(iri, name) self._load_layer_on_qgis(dummy) widget.close() except Exception as e: raise def _load_layer_on_qgis(self, resource): def request_failed(error): self.request_error = error self.update_status(u'Requisição retornou um erro') MessageBox.critical(error, u'Requisição retornou um erro') self.request_error = False self.timer.stop() resource.request_started.connect(self.start_request) resource.request_progress.connect(self.download_progress) resource.request_error.connect(request_failed) resource.request_finished.connect(self.trigger_reset_status) # Trigger download of data and events for user feedback resource.data() if not self.request_error: layer = Plugin.create_layer(resource) if layer: Layer.add(layer) if layer.featureCount() == 0: Logging.info(u'{} retornou conjunto vazio de dados'.format(resource.iri), u'IBGEVisualizer') MessageBox.info(u'URL retornou conjunto vazio') else: raise Exception(self.request_error) def start_request(self): self.request_error = False self.timer.stop() self.lb_status.setText(u'Enviando requisição e aguardando resposta...') def update_status(self, msg): self.lb_status.setText(msg) def download_progress(self, received, total): if not self.request_error: if received == total: msg = u'Concluído ' + received else: msg = u'Baixando recurso... ' + received + (' / ' + total if total != '-1.0' else '') self.update_status(msg) def trigger_reset_status(self): if not self.request_error: #self.request_error = False self.timer.start() def close_event(self, event): self.closingPlugin.emit() event.accept() def run(self): self.iface.addDockWidget(Qt.RightDockWidgetArea, self) self.show()
class OpenLayersOverviewWidget(QWidget, Ui_Form): def __init__(self, iface, dockwidget, olLayerTypeRegistry): QWidget.__init__(self) Ui_Form.__init__(self) self.setupUi(self) self.__canvas = iface.mapCanvas() self.__dockwidget = dockwidget self.__olLayerTypeRegistry = olLayerTypeRegistry self.__initLayerOL = False self.__fileNameImg = '' self.__srsOL = QgsCoordinateReferenceSystem( 3857, QgsCoordinateReferenceSystem.EpsgCrsId) self.__marker = MarkerCursor(self.__canvas, self.__srsOL) self.__manager = None # Need persist for PROXY bindogr.initOgr() self.__init() def __init(self): self.checkBoxHideCross.setEnabled(False) self.__populateTypeMapGUI() self.__populateButtonBox() self.__registerObjJS() self.lbStatusRead.setVisible(False) self.__setConnections() self.__timerMapReady = QTimer() self.__timerMapReady.setSingleShot(True) self.__timerMapReady.setInterval(20) self.__timerMapReady.timeout.connect(self.__checkMapReady) def __del__(self): self.__marker.reset() # Disconnect Canvas # Canvas QgsMapCanvas.extentsChanged.disconnect(self.__canvas) # Doc WidgetparentWidget QDockWidget.visibilityChanged.disconnect(self.__dockwidget) def __populateButtonBox(self): pathPlugin = "%s%s%%s" % (os.path.dirname(__file__), os.path.sep) self.pbRefresh.setIcon(QIcon(pathPlugin % "mActionDraw.png")) self.pbRefresh.setEnabled(False) self.pbAddRaster.setIcon(QIcon(pathPlugin % "mActionAddRasterLayer.png")) self.pbAddRaster.setEnabled(False) self.pbCopyKml.setIcon(QIcon(pathPlugin % "kml.png")) self.pbCopyKml.setEnabled(False) self.pbSaveImg.setIcon(QIcon(pathPlugin % "mActionSaveMapAsImage.png")) self.pbSaveImg.setEnabled(False) def __populateTypeMapGUI(self): pathPlugin = "%s%s%%s" % (os.path.dirname(__file__), os.path.sep) totalLayers = len(self.__olLayerTypeRegistry.types()) for id in range(totalLayers): layer = self.__olLayerTypeRegistry.getById(id) name = str(layer.displayName) icon = QIcon(pathPlugin % layer.groupIcon) self.comboBoxTypeMap.addItem(icon, name, id) def __setConnections(self): # Check Box self.checkBoxEnableMap.stateChanged.connect( self.__signal_checkBoxEnableMap_stateChanged) self.checkBoxHideCross.stateChanged.connect( self.__signal_checkBoxHideCross_stateChanged) # comboBoxTypeMap self.comboBoxTypeMap.currentIndexChanged.connect( self.__signal_comboBoxTypeMap_currentIndexChanged) # Canvas self.__canvas.extentsChanged.connect( self.__signal_canvas_extentsChanged) # Doc WidgetparentWidget self.__dockwidget.visibilityChanged.connect( self.__signal_DocWidget_visibilityChanged) # WebView Map self.webViewMap.page().mainFrame().javaScriptWindowObjectCleared.connect( self.__registerObjJS) # Push Button self.pbRefresh.clicked.connect( self.__signal_pbRefresh_clicked) self.pbAddRaster.clicked.connect( self.__signal_pbAddRaster_clicked) self.pbCopyKml.clicked.connect( self.__signal_pbCopyKml_clicked) self.pbSaveImg.clicked.connect( self.__signal_pbSaveImg_clicked) def __registerObjJS(self): self.webViewMap.page().mainFrame().addToJavaScriptWindowObject( "MarkerCursorQGis", self.__marker) def __signal_checkBoxEnableMap_stateChanged(self, state): enable = False if state == Qt.Unchecked: self.__marker.reset() else: if self.__canvas.layerCount() == 0: QMessageBox.warning(self, QApplication.translate( "OpenLayersOverviewWidget", "OpenLayers Overview"), QApplication.translate( "OpenLayersOverviewWidget", "At least one layer in map canvas required")) self.checkBoxEnableMap.setCheckState(Qt.Unchecked) else: enable = True if not self.__initLayerOL: self.__initLayerOL = True self.__setWebViewMap(0) else: self.__refreshMapOL() # GUI if enable: self.lbStatusRead.setVisible(False) self.webViewMap.setVisible(True) else: self.lbStatusRead.setText("") self.lbStatusRead.setVisible(True) self.webViewMap.setVisible(False) self.webViewMap.setEnabled(enable) self.comboBoxTypeMap.setEnabled(enable) self.pbRefresh.setEnabled(enable) self.pbAddRaster.setEnabled(enable) self.pbCopyKml.setEnabled(enable) self.pbSaveImg.setEnabled(enable) self.checkBoxHideCross.setEnabled(enable) def __signal_checkBoxHideCross_stateChanged(self, state): if state == Qt.Checked: self.__marker.reset() self.__marker.setVisible(False) else: self.__marker.setVisible(True) self.__refreshMapOL() def __signal_DocWidget_visibilityChanged(self, visible): if self.__canvas.layerCount() == 0: return self.checkBoxEnableMap.setCheckState(Qt.Unchecked) self.__signal_checkBoxEnableMap_stateChanged(Qt.Unchecked) def __signal_comboBoxTypeMap_currentIndexChanged(self, index): self.__setWebViewMap(index) def __signal_canvas_extentsChanged(self): if self.__canvas.layerCount() == 0 or not self.webViewMap.isVisible(): return if self.checkBoxEnableMap.checkState() == Qt.Checked: self.__refreshMapOL() def __signal_pbRefresh_clicked(self, checked): index = self.comboBoxTypeMap.currentIndex() self.__setWebViewMap(index) def __signal_pbAddRaster_clicked(self, checked): index = self.comboBoxTypeMap.currentIndex() layer = self.__olLayerTypeRegistry.getById(index) QGuiApplication.setOverrideCursor(Qt.WaitCursor) layer.addLayer() QGuiApplication.restoreOverrideCursor() def __signal_pbCopyKml_clicked(self, cheked): # Extent Openlayers action = "map.getExtent().toGeometry().toString();" wkt = self.webViewMap.page().mainFrame().evaluateJavaScript(action) rect = QgsGeometry.fromWkt(wkt).boundingBox() srsGE = QgsCoordinateReferenceSystem( 4326, QgsCoordinateReferenceSystem.EpsgCrsId) coodTrans = QgsCoordinateTransform(self.__srsOL, srsGE, QgsProject.instance()) rect = coodTrans.transform( rect, QgsCoordinateTransform.ForwardTransform) line = QgsGeometry.fromRect(rect).asPolygon()[0] wkt = str(QgsGeometry.fromPolylineXY(line).asWkt()) # Kml proj4 = str(srsGE.toProj4()) kmlLine = bindogr.exportKml(wkt, proj4) kml = "<?xml version=\"1.0\" encoding=\"UTF-8\"?>"\ "<kml xmlns=\"http://www.opengis.net/kml/2.2\" " \ "xmlns:gx=\"http://www.google.com/kml/ext/2.2\" " \ "xmlns:kml=\"http://www.opengis.net/kml/2.2\" " \ "xmlns:atom=\"http://www.w3.org/2005/Atom\">" \ "<Placemark>" \ "<name>KML from Plugin Openlayers Overview for QGIS</name>" \ "<description>Extent of openlayers map from Plugin Openlayers \ Overview for QGIS</description>"\ "%s" \ "</Placemark></kml>" % kmlLine clipBoard = QApplication.clipboard() clipBoard.setText(kml) def __signal_pbSaveImg_clicked(self, cheked): if type(self.__fileNameImg) == tuple: self.__fileNameImg = self.__fileNameImg[0] fileName = QFileDialog.getSaveFileName(self, QApplication.translate( "OpenLayersOverviewWidget", "Save image"), self.__fileNameImg, QApplication.translate( "OpenLayersOverviewWidget", "Image(*.jpg)")) if not fileName == '': self.__fileNameImg = fileName else: return img = QImage(self.webViewMap.page().mainFrame().contentsSize(), QImage.Format_ARGB32_Premultiplied) imgPainter = QPainter() imgPainter.begin(img) self.webViewMap.page().mainFrame().render(imgPainter) imgPainter.end() img.save(fileName[0], "JPEG") def __signal_webViewMap_loadFinished(self, ok): if ok is False: QMessageBox.warning(self, QApplication.translate( "OpenLayersOverviewWidget", "OpenLayers Overview"), QApplication.translate( "OpenLayersOverviewWidget", "Error loading page!")) else: # wait until OpenLayers map is ready self.__checkMapReady() self.lbStatusRead.setVisible(False) self.webViewMap.setVisible(True) self.webViewMap.page().mainFrame().loadFinished.disconnect( self.__signal_webViewMap_loadFinished) def __setWebViewMap(self, id): layer = self.__olLayerTypeRegistry.getById(id) self.lbStatusRead.setText("Loading " + layer.displayName + " ...") self.lbStatusRead.setVisible(True) self.webViewMap.setVisible(False) self.webViewMap.page().mainFrame().loadFinished.connect( self.__signal_webViewMap_loadFinished) url = layer.html_url() self.webViewMap.page().mainFrame().load(QUrl(url)) def __checkMapReady(self): if self.webViewMap.page().mainFrame().evaluateJavaScript( "map != undefined"): # map ready self.__refreshMapOL() else: # wait for map self.__timerMapReady.start() def __refreshMapOL(self): # catch Exception where lat/long exceed limit of the loaded layer # the Exception name is unknown latlon = None try: latlon = self.__getCenterLongLat2OL() except Exception as e: QgsLogger().warning(e.args[0]) if latlon: action = "map.setCenter(new OpenLayers.LonLat(%f, %f));" % (latlon) self.webViewMap.page().mainFrame().evaluateJavaScript(action) action = "map.zoomToScale(%f);" % self.__canvas.scale() self.webViewMap.page().mainFrame().evaluateJavaScript(action) self.webViewMap.page().mainFrame().evaluateJavaScript( "oloMarker.changeMarker();") def __getCenterLongLat2OL(self): pntCenter = self.__canvas.extent().center() crsCanvas = self.__canvas.mapSettings().destinationCrs() if crsCanvas != self.__srsOL: coodTrans = QgsCoordinateTransform(crsCanvas, self.__srsOL, QgsProject.instance()) pntCenter = coodTrans.transform( pntCenter, QgsCoordinateTransform.ForwardTransform) return tuple([pntCenter.x(), pntCenter.y()])
class OpenlayersController(QObject): """ Helper class that deals with QWebPage. The object lives in GUI thread, its request() slot is asynchronously called from worker thread. See https://github.com/wonder-sk/qgis-mtr-example-plugin for basic example 1. Load Web Page with OpenLayers map 2. Update OL map extend according to QGIS canvas extent """ # signal that reports to the worker thread that the image is ready finished = pyqtSignal() def __init__(self, parent, context, webPage, layerType): QObject.__init__(self, parent) debug("OpenlayersController.__init__", 3) self.context = context self.layerType = layerType self.img = QImage() self.page = webPage self.page.loadFinished.connect(self.pageLoaded) # initial size for map self.page.setViewportSize(QSize(1, 1)) self.timerMapReady = QTimer() self.timerMapReady.setSingleShot(True) self.timerMapReady.setInterval(20) self.timerMapReady.timeout.connect(self.checkMapReady) self.timer = QTimer() self.timer.setInterval(100) self.timer.timeout.connect(self.checkMapUpdate) self.timerMax = QTimer() self.timerMax.setSingleShot(True) # TODO: different timeouts for map types self.timerMax.setInterval(2500) self.timerMax.timeout.connect(self.mapTimeout) @pyqtSlot() def request(self): debug("[GUI THREAD] Processing request", 3) self.cancelled = False if not self.page.loaded: self.init_page() else: self.setup_map() def init_page(self): url = self.layerType.html_url() debug("page file: %s" % url) self.page.mainFrame().load(QUrl(url)) # wait for page to finish loading debug("OpenlayersWorker waiting for page to load", 3) def pageLoaded(self): debug("[GUI THREAD] pageLoaded", 3) if self.cancelled: self.emitErrorImage() return # wait until OpenLayers map is ready self.checkMapReady() def checkMapReady(self): debug("[GUI THREAD] checkMapReady", 3) if self.page.mainFrame().evaluateJavaScript("map != undefined"): # map ready self.page.loaded = True self.setup_map() else: # wait for map self.timerMapReady.start() def setup_map(self): rendererContext = self.context # FIXME: self.mapSettings.outputDpi() self.outputDpi = rendererContext.painter().device().logicalDpiX() debug(" extent: %s" % rendererContext.extent().toString(), 3) debug(" center: %lf, %lf" % (rendererContext.extent().center().x(), rendererContext.extent().center().y()), 3) debug(" size: %d, %d" % ( rendererContext.painter().viewport().size().width(), rendererContext.painter().viewport().size().height()), 3) debug(" logicalDpiX: %d" % rendererContext.painter(). device().logicalDpiX(), 3) debug(" outputDpi: %lf" % self.outputDpi) debug(" mapUnitsPerPixel: %f" % rendererContext.mapToPixel(). mapUnitsPerPixel(), 3) # debug(" rasterScaleFactor: %s" % str(rendererContext. # rasterScaleFactor()), 3) # debug(" outputSize: %d, %d" % (self.iface.mapCanvas().mapRenderer(). # outputSize().width(), # self.iface.mapCanvas().mapRenderer(). # outputSize().height()), 3) # debug(" scale: %lf" % self.iface.mapCanvas().mapRenderer().scale(), # 3) # # if (self.page.lastExtent == rendererContext.extent() # and self.page.lastViewPortSize == rendererContext.painter(). # viewport().size() # and self.page.lastLogicalDpi == rendererContext.painter(). # device().logicalDpiX() # and self.page.lastOutputDpi == self.outputDpi # and self.page.lastMapUnitsPerPixel == rendererContext. # mapToPixel().mapUnitsPerPixel()): # self.renderMap() # self.finished.emit() # return self.targetSize = rendererContext.painter().viewport().size() if rendererContext.painter().device().logicalDpiX() != int(self.outputDpi): # use screen dpi for printing sizeFact = self.outputDpi / 25.4 / rendererContext.mapToPixel().mapUnitsPerPixel() self.targetSize.setWidth( rendererContext.extent().width() * sizeFact) self.targetSize.setHeight( rendererContext.extent().height() * sizeFact) debug(" targetSize: %d, %d" % ( self.targetSize.width(), self.targetSize.height()), 3) # find matching OL resolution qgisRes = rendererContext.extent().width() / self.targetSize.width() olRes = None for res in self.page.resolutions(): if qgisRes >= res: olRes = res break if olRes is None: debug("No matching OL resolution found (QGIS resolution: %f)" % qgisRes) self.emitErrorImage() return # adjust OpenLayers viewport to match QGIS extent olWidth = rendererContext.extent().width() / olRes olHeight = rendererContext.extent().height() / olRes debug(" adjust viewport: %f -> %f: %f x %f" % (qgisRes, olRes, olWidth, olHeight), 3) olSize = QSize(int(olWidth), int(olHeight)) self.page.setViewportSize(olSize) self.page.mainFrame().evaluateJavaScript("map.updateSize();") self.img = QImage(olSize, QImage.Format_ARGB32_Premultiplied) self.page.extent = rendererContext.extent() debug("map.zoomToExtent (%f, %f, %f, %f)" % ( self.page.extent.xMinimum(), self.page.extent.yMinimum(), self.page.extent.xMaximum(), self.page.extent.yMaximum()), 3) self.page.mainFrame().evaluateJavaScript( "map.zoomToExtent(new OpenLayers.Bounds(%f, %f, %f, %f), true);" % (self.page.extent.xMinimum(), self.page.extent.yMinimum(), self.page.extent.xMaximum(), self.page.extent.yMaximum())) olextent = self.page.mainFrame().evaluateJavaScript("map.getExtent();") debug("Resulting OL extent: %s" % olextent, 3) if olextent is None or not hasattr(olextent, '__getitem__'): debug("map.zoomToExtent failed") # map.setCenter and other operations throw "undefined[0]: # TypeError: 'null' is not an object" on first page load # We ignore that and render the initial map with wrong extents # self.emitErrorImage() # return else: reloffset = abs((self.page.extent.yMaximum()-olextent[ "top"])/self.page.extent.xMinimum()) debug("relative offset yMaximum %f" % reloffset, 3) if reloffset > 0.1: debug("OL extent shift failure: %s" % reloffset) self.emitErrorImage() return self.mapFinished = False self.timer.start() self.timerMax.start() def checkMapUpdate(self): if self.layerType.emitsLoadEnd: # wait for OpenLayers to finish loading loadEndOL = self.page.mainFrame().evaluateJavaScript("loadEnd") debug("waiting for loadEnd: renderingStopped=%r loadEndOL=%r" % ( self.context.renderingStopped(), loadEndOL), 4) if loadEndOL is not None: self.mapFinished = loadEndOL else: debug("OpenlayersLayer Warning: Could not get loadEnd") if self.mapFinished: self.timerMax.stop() self.timer.stop() self.renderMap() self.finished.emit() def renderMap(self): rendererContext = self.context if rendererContext.painter().device().logicalDpiX() != int(self.outputDpi): printScale = 25.4 / self.outputDpi # OL DPI to printer pixels rendererContext.painter().scale(printScale, printScale) # render OpenLayers to image painter = QPainter(self.img) self.page.mainFrame().render(painter) painter.end() if self.img.size() != self.targetSize: targetWidth = self.targetSize.width() targetHeight = self.targetSize.height() # scale using QImage for better quality debug(" scale image: %i x %i -> %i x %i" % ( self.img.width(), self.img.height(), targetWidth, targetHeight), 3) self.img = self.img.scaled(targetWidth, targetHeight, Qt.KeepAspectRatio, Qt.SmoothTransformation) # save current state self.page.lastExtent = rendererContext.extent() self.page.lastViewPortSize = rendererContext.painter().viewport().size() self.page.lastLogicalDpi = rendererContext.painter().device().logicalDpiX() self.page.lastOutputDpi = self.outputDpi self.page.lastMapUnitsPerPixel = rendererContext.mapToPixel().mapUnitsPerPixel() def mapTimeout(self): debug("mapTimeout reached") self.timer.stop() # if not self.layerType.emitsLoadEnd: self.renderMap() self.finished.emit() def emitErrorImage(self): self.img = QImage() self.targetSize = self.img.size self.finished.emit()
class GeomapfishLocatorFilter(QgsLocatorFilter): USER_AGENT = b'Mozilla/5.0 QGIS GeoMapFish Locator Filter' changed = pyqtSignal() def __init__(self, service: Service, iface: QgisInterface = None): super().__init__() self.service = service.clone() self.rubberband = None self.iface = None self.map_canvas = None self.current_timer = None self.settings = Settings() self.crs = QgsCoordinateReferenceSystem(self.service.crs) # only get map_canvas on main thread, not when cloning if iface is not None: self.iface = iface self.map_canvas = iface.mapCanvas() self.rubberband = QgsRubberBand(self.map_canvas) self.reset_rubberband() def name(self) -> str: return slugify(self.displayName()) def clone(self): return GeomapfishLocatorFilter(self.service) def displayName(self) -> str: return self.service.name def prefix(self) -> str: return 'gmf' def hasConfigWidget(self) -> bool: return True def openConfigWidget(self, parent=None): cfg = FilterConfigurationDialog(self.service, parent) if cfg.exec_(): self.service = cfg.service.clone() self.crs = QgsCoordinateReferenceSystem(self.service.crs) self.changed.emit() def reset_rubberband(self): # this should happen on main thread only! self.rubberband.setColor(self.settings.value('point_color')) self.rubberband.setIcon(self.rubberband.ICON_CIRCLE) self.rubberband.setIconSize(self.settings.value('point_size')) self.rubberband.setWidth(self.settings.value('line_width')) self.rubberband.setBrushStyle(Qt.NoBrush) @staticmethod def url_with_param(url, params) -> str: url = QUrl(url) q = QUrlQuery(url) for key, value in params.items(): q.addQueryItem(key, value) url.setQuery(q) return url def emit_bad_configuration(self, err=None): result = QgsLocatorResult() result.filter = self result.displayString = self.tr('Locator filter is not configured.') result.description = err if err else self.tr( 'Double-click to configure it.') result.userData = FilterNotConfigured result.icon = QgsApplication.getThemeIcon('mIconWarning.svg') self.resultFetched.emit(result) return @pyqtSlot() def clear_results(self): if self.rubberband: self.rubberband.reset(QgsWkbTypes.PointGeometry) if self.current_timer is not None: self.current_timer.timeout.disconnect(self.clear_results) self.current_timer.stop() self.current_timer.deleteLater() self.current_timer = None def fetchResults(self, search, context, feedback): self.dbg_info("start GMF locator search...") url = self.service.url if not url: self.emit_bad_configuration() return if len(search) < 2: return params = { 'query': search, 'limit': str(self.service.total_limit), 'partitionlimit': str(self.service.category_limit) } url = self.url_with_param(url, params) self.dbg_info(url.url()) _request = QNetworkRequest(url) _request.setRawHeader(b'User-Agent', self.USER_AGENT) request = QgsBlockingNetworkRequest() if self.service.authid: request.setAuthCfg(self.service.authid) response = request.get(_request, False, feedback) if response == QgsBlockingNetworkRequest.NoError: self.handle_response(request.reply().content()) else: error_msg = request.reply().errorString() self.emit_bad_configuration(error_msg) self.info(error_msg, Qgis.Critical) self.finished.emit() def handle_response(self, content: QByteArray): try: data = json.loads(str(content.data(), encoding='utf-8')) # self.dbg_info(data) features = data['features'] for f in features: json_geom = json.dumps(f['geometry']) ogr_geom = ogr.CreateGeometryFromJson(json_geom) wkt = ogr_geom.ExportToWkt() geometry = QgsGeometry.fromWkt(wkt) self.dbg_info('---------') self.dbg_info( QgsWkbTypes.geometryDisplayString(geometry.type())) self.dbg_info(f.keys()) self.dbg_info('{} {}'.format(f['properties']['layer_name'], f['properties']['label'])) self.dbg_info(f['bbox']) self.dbg_info(f['geometry']) if geometry is None: continue result = QgsLocatorResult() result.filter = self result.displayString = f['properties']['label'] result.group = self.beautify_group( f['properties']['layer_name']) result.userData = geometry self.resultFetched.emit(result) except Exception as e: self.info(str(e), Qgis.Critical) # exc_type, exc_obj, exc_traceback = sys.exc_info() # #filename = os.path.split(exc_traceback.tb_frame.f_code.co_filename)[1] # #self.info('{} {} {}'.format(exc_type, filename, exc_traceback.tb_lineno), Qgis.Critical) # self.info(traceback.print_exception(exc_type, exc_obj, exc_traceback), Qgis.Critical) def triggerResult(self, result): self.clear_results() if result.userData == FilterNotConfigured: self.openConfigWidget() self.iface.invalidateLocatorResults() return # this should be run in the main thread, i.e. mapCanvas should not be None geometry = result.userData # geometry.transform(self.transform) dbg_info(str(geometry.asWkt())) dbg_info(geometry.type()) try: rect = QgsReferencedRectangle(geometry.boundingBox(), self.crs) rect.scale(4) self.map_canvas.setReferencedExtent(rect) except AttributeError: # QGIS < 3.10 handling from qgis.core import QgsCoordinateTransform, QgsProject transform = QgsCoordinateTransform( self.crs, self.map_canvas.mapSettings().destinationCrs(), QgsProject.instance()) geometry.transform(transform) rect = geometry.boundingBox() rect.scale(4) self.map_canvas.setExtent(rect) self.map_canvas.refresh() if geometry.type() == QgsWkbTypes.PolygonGeometry: nflash = 16 color1: QColor = self.settings.value('polygon_color') color2 = color1 color1.setAlpha(200) color2.setAlpha(100) self.map_canvas.flashGeometries( [geometry], self.crs, color1, color2, nflash, self.settings.value('highlight_duration') / nflash * 1000) else: self.rubberband.reset(geometry.type()) self.rubberband.addGeometry(geometry, self.crs) self.current_timer = QTimer() self.current_timer.timeout.connect(self.clear_results) self.current_timer.setSingleShot(True) self.current_timer.start( self.settings.value('highlight_duration') * 1000) def beautify_group(self, group) -> str: if self.service.remove_leading_digits: group = re.sub('^[0-9]+', '', group) if self.service.replace_underscore: group = group.replace("_", " ") if self.service.break_camelcase: group = self.break_camelcase(group) return group def info(self, msg="", level=Qgis.Info): QgsMessageLog.logMessage('{} {}'.format(self.__class__.__name__, msg), 'QgsLocatorFilter', level) def dbg_info(self, msg=""): if DEBUG: self.info(msg) @staticmethod def break_camelcase(identifier) -> str: matches = re.finditer( '.+?(?:(?<=[a-z])(?=[A-Z])|(?<=[A-Z])(?=[A-Z][a-z])|$)', identifier) return ' '.join([m.group(0) for m in matches])
class GeoGigLiveLayerRefresher(object): nProgressBarsOpen = 0 nfeaturesRead = 0 lock = threading.RLock( ) # this might not be necessary - I think this will always be happening on the same ui thread def __init__(self, connector, geogiglayer, fullDetail=False, sm_factor=1.0, sm_type="WithBBOX"): self.connector = connector self.geogiglayer = geogiglayer self.queryThread = QueryThread(self.connector) self.queryThread.started.connect(self.datasetStart) self.queryThread.finished.connect(self.datasetReceived) self.queryThread.progress_occurred.connect(self.featuresRead) self.refreshTimer = QTimer() self.refreshTimer.setSingleShot(True) self.refreshTimer.timeout.connect(self.makeQuery) self.lastExtent = None self.sm_factor = sm_factor self.sm_type = sm_type root = QgsProject.instance().layerTreeRoot() root.visibilityChanged.connect( self.visibilityChanged) # track all layer visibility changes self.fullDetail = fullDetail #root.addedChildren.connect(self.layerTreeAddedTo) # track when layer is added to tree # called when layer is removed def cleanup(self): # don't track this anymore (it causes a problem because the c++ object is # deleted, but the python object isn't) root = QgsProject.instance().layerTreeRoot() root.visibilityChanged.disconnect(self.visibilityChanged) def isLayerVisible(self): if self.geogiglayer.layer is None: return None layerId = self.geogiglayer.layer.id() if self.geogiglayer.canvas is None: treelayer = QgsProject.instance().layerTreeRoot().findLayer( layerId) # QgsLayerTreeLayer if treelayer is None: return False if not treelayer.isVisible(): return False # definitely not visible # likely visible, do a simple scale-range check return self.geogiglayer.layer.isInScaleRange( self.geogiglayer._canvas().scale()) def visibilityChanged(self, qgsLayerTreeNode): if self.isLayerVisible(): self.refresh(forceRefresh=False, tryToRepopulate=True) def openProgress(self): with self.lock: if self.nProgressBarsOpen == 0: self.nfeaturesRead = 0 qgiscommons2.gui.startProgressBar( "Transferring data from GeoGig", 0, currentWindow().messageBar()) self.nProgressBarsOpen += 1 def closeProgress(self): with self.lock: self.nProgressBarsOpen -= 1 if self.nProgressBarsOpen == 0: qgiscommons2.gui.closeProgressBar() # sometimes the progress bar can be closed by another thread/function # this will re-open it if that happens. # ex. when you have a layers being populated() during a refresh() # which can occur on project load def ensureProgressOpen(self): _progressActive = qgiscommons2.gui._progressActive if _progressActive: return # nothing to do qgiscommons2.gui.startProgressBar("Transferring data from GeoGig", 0, currentWindow().messageBar()) # called by backgrounding feature loader (self.queryThread) # this is for progress indication def featuresRead(self, nfeatsBatch): with self.lock: self.ensureProgressOpen() self.nfeaturesRead += nfeatsBatch try: qgiscommons2.gui.setProgressText( "Read " + "{:,}".format(self.nfeaturesRead) + " features...") except: pass # could be a problem... # occurs when extents change, call this from geogiglayer def refresh(self, forceRefresh=True, tryToRepopulate=False): if tryToRepopulate and not self.geogiglayer.valid: try: self.geogiglayer.populate() except: item = QgsProject.instance().layerTreeRoot().findLayer( self.geogiglayer.layer.id()) item.setItemVisibilityCheckedRecursive(False) return if not forceRefresh: extentRect = self.geogiglayer.extentToLayerCrs( self.geogiglayer._canvas().extent()) extent = [ extentRect.xMinimum(), extentRect.yMinimum(), extentRect.xMaximum(), extentRect.yMaximum() ] if self.lastExtent == extent: return # set time -- will fire after 100ms and call makeQuery if self.refreshTimer.isActive(): self.refreshTimer.setInterval(100) # restart else: self.refreshTimer.start(100) #downloads the current extent at full detail. Called when entering or exiting the editing mode. def setFullDetail(self, fullDetail, refresh=True): self.fullDetail = fullDetail if refresh: self.makeQuery() def getFullDetail(self): return self.fullDetail # thread has started to do work def datasetStart(self, url, query): self.timeStart = time.perf_counter() QgsMessageLog.logMessage("loading dataset url={}, query={}".format( url, str(query))) # return true if you shouldn't draw this layer # if its rules-based, and all the rules depend on scale, and all the rules are "out-of-scale" def doNotDrawScale(self, r, scale): if not isinstance(r, QgsRuleBasedRenderer): return False # any of them are NOT scale dependent, then need to draw if any([not r.dependsOnScale() for r in r.rootRule().children()]): return False return not any([r.isScaleOK(scale) for r in r.rootRule().children()]) def ecqlFromLayerStyle(self): canvas = self.geogiglayer._canvas() ms = canvas.mapSettings() ctx = QgsRenderContext.fromMapSettings(ms) r = self.geogiglayer.layer.renderer().clone() try: r.startRender(ctx, self.geogiglayer.layer.fields()) if self.doNotDrawScale(r, canvas.scale()): return "EXCLUDE" expression = r.filter() if expression == "" or expression == "TRUE": return None converter = ExpressionConverter(expression) return converter.asECQL() except: return None finally: r.stopRender(ctx) def makeQuery(self): self.queryThread.abort() self.queryThread.wait() # wait for it to abort if not self.isLayerVisible(): return # don't do anything if the layer is invisible NOTE: layer likely has data in it self.openProgress() extent = self.geogiglayer.extentToLayerCrs( self.geogiglayer._canvas().extent()) self.lastExtent = [ extent.xMinimum(), extent.yMinimum(), extent.xMaximum(), extent.yMaximum() ] self.queryThread.createURL(self.geogiglayer.user, self.geogiglayer.repo, self.geogiglayer.layername) if self.fullDetail: self.queryThread.createQuery(self.geogiglayer.commitid, self.lastExtent, simplifyGeom=False, ecqlFilter=self.ecqlFromLayerStyle()) else: self.queryThread.createQuery(self.geogiglayer.commitid, self.lastExtent, self.geogiglayer._canvas().width(), self.geogiglayer._canvas().height(), screenMap_factor=self.sm_factor, screenMap_type=self.sm_type, ecqlFilter=self.ecqlFromLayerStyle()) self.queryThread.start() # called by backgrounding feature loader (self.queryThread) # this is after the dataset has loaded. # None -> aborted def datasetReceived(self, memorydataset): if memorydataset is not None: end_time = time.perf_counter() QgsMessageLog.logMessage( "Dataset received ({}) - {:,} features in {}s".format( self.geogiglayer.layername, len(memorydataset), end_time - self.timeStart)) self.closeProgress() if memorydataset is None: return try: self.geogiglayer.newDatasetReceived(memorydataset) except Exception as e: QgsMessageLog.logMessage("error - " + str(e))
class LessonsCreator(object): def __init__(self, iface): self.iface = iface # add tests to tester plugin try: from qgistester.tests import addTestModule from lessonscreator.test import testerplugin addTestModule(testerplugin, "LessonsCreator") except Exception as e: pass self.capturing = False def unload(self): self.iface.removePluginMenu(u"Lessons", self.action) del self.action del self.newStepAction QgsApplication.instance().focusChanged.disconnect( self.processFocusChanged) try: from qgistester.tests import removeTestModule from lessonscreator.test import testerplugin removeTestModule(testerplugin, "LessonsCreator") except Exception as e: pass def initGui(self): lessonIcon = QIcon(os.path.dirname(__file__) + '/edit.png') self.action = QAction(lessonIcon, "Capture lesson steps", self.iface.mainWindow()) self.action.triggered.connect(self.toggleCapture) self.iface.addPluginToMenu(u"Lessons", self.action) QgsApplication.instance().focusChanged.connect( self.processFocusChanged) self.newStepAction = QAction("New step", self.iface.mainWindow()) self.newStepAction.setShortcut(QKeySequence(Qt.CTRL + Qt.Key_W)) self.newStepAction.setShortcutContext(Qt.ApplicationShortcut) self.newStepAction.triggered.connect(self.startNewStep) self.iface.mainWindow().addAction(self.newStepAction) connections = [] iScreenshot = 0 iStep = 0 outputHtmlFile = None outputPyFile = None def startNewStep(self): if self.outputHtmlFile: self.outputHtmlFile.close() self.iStep += 1 path = os.path.join(self.folder, "step_%i.html" % self.iStep) self.outputHtmlFile = open(path, "w") self.outputPyFile.write( '''lesson.addStep("Step_%i", "step_%i.html", steptype=Step.MANUALSTEP)\n''' % (self.iStep, self.iStep)) def toggleCapture(self): if self.capturing: self.action.setText("Capture lesson steps") self.capturing = False self.outputHtmlFile.close() self.outputPyFile.close() self.outputHtmlFile = None self.outputPyFile = None else: self.folder = QFileDialog.getExistingDirectory( self.iface.mainWindow(), "Select folder to store lesson") if not self.folder: return path = os.path.join(self.folder, "__init__.py") self.outputPyFile = open(path, "w") template = ( "from lessons.lesson import Lesson, Step\n" "from lessons.utils import *\n" "lesson = Lesson('Lesson', 'Basic lessons', 'lesson.html')\n\n" ) self.outputPyFile.write(template) self.iScreenshot = 0 self.iStep = 0 self.updateConnections() self.action.setText("Stop capturing lesson steps") self.capturing = True self.startNewStep() def processWidgetClick(self, obj): if self.capturing: try: text = "Click on '%s'" % obj.text() except Exception as e: # fix_print_with_import print(e) text = "Click on " + str(obj) self.outputHtmlFile.write("<p>%s</p>\n" % text) self.updateConnections() lastComboText = None def processComboNewSelection(self, combo): if self.capturing: text = "Select '%s' in '%s'" % (combo.currentText(), combo.objectName()) if text == self.lastComboText: return self.lastComboText = text self.outputHtmlFile.write("<p>%s</p>\n" % text) self.createScreenshot(combo.parent(), combo.frameGeometry()) self.updateConnections() def processCheckBoxChange(self, check): if self.capturing: if check.isChecked(): text = "Check the '%s' checkbox" % (check.text()) else: text = "Uncheck the '%s' checkbox" % (check.text()) self.outputHtmlFile.write("<p>%s</p>\n" % text) self.createScreenshot(check.parent(), check.frameGeometry()) def processMenuClick(self, action): if self.capturing and action.text() != "Stop capturing lesson steps": text = "Click on menu '%s'" % action.text() self.outputHtmlFile.write("<p>%s</p>\n" % text) def getParentWindow(self, obj): window = None try: parent = obj.parent() while parent is not None: if isinstance(parent, QDialog): window = parent break parent = parent.parent() except: window = None return window or QgsApplication.instance().desktop() def processFocusChanged(self, old, new): if self.capturing: self.updateConnections() if isinstance(old, QLineEdit) and old.text().strip(): text = "Enter '%s' in textbox '%s'" % (old.text(), old.objectName()) self.outputHtmlFile.write("<p>%s</p>\n" % text) self.createScreenshot(old.parent(), old.frameGeometry()) else: oldParent = self.getParentWindow(old) newParent = self.getParentWindow(new) # fix_print_with_import print(oldParent, newParent) if oldParent != newParent: self.createScreenshot(newParent) elif isinstance( new, (QLineEdit, QTextEdit, QComboBox, QSpinBox, QRadioButton)): text = "Select the '%s' widget" % (old.objectName() or str(old)) self.outputHtmlFile.write("<p>%s</p>\n" % text) self.createScreenshot(new.parent(), new.frameGeometry()) timer = None def _createScreenshot(self, obj, rect): pixmap = QPixmap.grabWindow(obj.winId()).copy() if rect is not None: painter = QPainter() painter.begin(pixmap) painter.setPen(QPen(QBrush(Qt.red), 3, Qt.DashLine)) painter.drawRect(rect) painter.end() pixmap.save(os.path.join(self.folder, '%i.jpg' % self.iScreenshot), 'jpg') self.outputHtmlFile.write("<img src='%i.jpg'/>\n" % self.iScreenshot) self.iScreenshot += 1 self.timer = None def createScreenshot(self, obj, rect=None): if self.capturing and self.timer is None: self.timer = QTimer() self.timer.setInterval(1000) self.timer.setSingleShot(True) self.timer.timeout.connect( lambda: self._createScreenshot(obj, rect)) self.timer.start() def updateConnections(self): widgets = QgsApplication.instance().allWidgets() for w in widgets: if w not in self.connections: if isinstance(w, (QPushButton, QToolButton)): f = partial(self.processWidgetClick, w) w.clicked.connect(f) self.connections.append(w) elif isinstance(w, QComboBox): f = partial(self.processComboNewSelection, w) w.currentIndexChanged.connect(f) self.connections.append(w) elif isinstance(w, QCheckBox): f = partial(self.processCheckBoxChange, w) w.stateChanged.connect(f) self.connections.append(w) menuActions = [] actions = self.iface.mainWindow().menuBar().actions() for action in actions: menuActions.extend(self.getActions(action, None)) for action, menu in menuActions: if menu not in self.connections: menu.triggered.connect(self.processMenuClick) self.connections.append(menu) def getActions(self, action, menu): menuActions = [] submenu = action.menu() if submenu is None: menuActions.append((action, menu)) return menuActions else: actions = submenu.actions() for subaction in actions: if subaction.menu() is not None: menuActions.extend( self.getActions(subaction, subaction.menu())) elif not subaction.isSeparator(): menuActions.append((subaction, submenu)) return menuActions
class AutoSuggest(QObject): def __init__(self, geturl_func, parseresult_func, parent = None): QObject.__init__(self, parent) self.geturl_func = geturl_func self.parseresult_func = parseresult_func self.editor = parent self.networkManager = QNetworkAccessManager() self.selectedObject = None self.isUnloaded = False self.popup = QTreeWidget(parent) #self.popup.setColumnCount(2) self.popup.setColumnCount(1) self.popup.setUniformRowHeights(True) self.popup.setRootIsDecorated(False) self.popup.setEditTriggers(QTreeWidget.NoEditTriggers) self.popup.setSelectionBehavior(QTreeWidget.SelectRows) self.popup.setFrameStyle(QFrame.Box | QFrame.Plain) self.popup.setHorizontalScrollBarPolicy(Qt.ScrollBarAlwaysOff) self.popup.header().hide() self.popup.installEventFilter(self) self.popup.setMouseTracking(True) #self.connect(self.popup, SIGNAL("itemClicked(QTreeWidgetItem*, int)"), # self.doneCompletion) self.popup.itemClicked.connect( self.doneCompletion ) self.popup.setWindowFlags(Qt.Popup) self.popup.setFocusPolicy(Qt.NoFocus) self.popup.setFocusProxy(parent) self.timer = QTimer(self) self.timer.setSingleShot(True) self.timer.setInterval(500) #self.connect(self.timer, SIGNAL("timeout()"), self.autoSuggest) self.timer.timeout.connect( self.autoSuggest ) #self.connect(self.editor, SIGNAL("textEdited(QString)"), self.timer, SLOT("start()")) #self.editor.textEdited.connect( self.timer.start ) self.editor.textEdited.connect( self.timer.start ) #self.editor.textChanged.connect( self.timer.start ) #self.connect(self.networkManager, SIGNAL("finished(QNetworkReply*)"), # self.handleNetworkData) self.networkManager.finished.connect( self.handleNetworkData ) def eventFilter(self, obj, ev): if obj != self.popup: return False if ev.type() == QEvent.MouseButtonPress: self.popup.hide() self.editor.setFocus() return True if ev.type() == QEvent.KeyPress: consumed = False key = ev.key() if key == Qt.Key_Enter or key == Qt.Key_Return: self.doneCompletion() consumed = True elif key == Qt.Key_Escape: self.editor.setFocus() self.popup.hide() consumed = True elif key in (Qt.Key_Up, Qt.Key_Down, Qt.Key_Home, Qt.Key_End, Qt.Key_PageUp, Qt.Key_PageDown): pass else: self.editor.setFocus() self.editor.event(ev) self.popup.hide() return consumed return False def showCompletion(self, rows): # Rows is an iterable of tuples like [("text",object1),("text2", object2),...] pal = self.editor.palette() color = pal.color(QPalette.Disabled, QPalette.WindowText) self.popup.setUpdatesEnabled(False) self.popup.clear() if rows is None or len( rows ) < 1: return for row in rows: item = QTreeWidgetItem(self.popup) item.setText(0, row[0]) #item.setText(1, hit['type']) item.setTextAlignment(1, Qt.AlignRight) item.setForeground(1, color) item.setData(2, Qt.UserRole, (row[1],)) # Try immutable py obj #http://stackoverflow.com/questions/9257422/how-to-get-the-original-python-data-from-qvariant self.popup.setCurrentItem(self.popup.topLevelItem(0)) self.popup.resizeColumnToContents(0) #self.popup.resizeColumnToContents(1) self.popup.adjustSize() self.popup.setUpdatesEnabled(True) h = self.popup.sizeHintForRow(0) * min(15, len(rows)) + 3 w = max(self.popup.width(), self.editor.width()) self.popup.resize(w, h) self.popup.move(self.editor.mapToGlobal(QPoint(0, self.editor.height()))) self.popup.setFocus() self.popup.show() def doneCompletion(self): self.timer.stop() self.popup.hide() self.editor.setFocus() item = self.popup.currentItem() if item: self.editor.setText(item.text(0) ) obj = item.data(2, Qt.UserRole) #.toPyObject() self.selectedObject = obj[0] e = QKeyEvent(QEvent.KeyPress, Qt.Key_Enter, Qt.NoModifier) QApplication.postEvent(self.editor, e) e = QKeyEvent(QEvent.KeyRelease, Qt.Key_Enter, Qt.NoModifier) QApplication.postEvent(self.editor, e) def preventSuggest(self): self.timer.stop() def autoSuggest(self): term = self.editor.text() if term: qurl = self.geturl_func( term ) if qurl: # TODO: Cancel existing requests: http://qt-project.org/forums/viewthread/18073 self.networkManager.get(QNetworkRequest( qurl )) #QUrl(url))) def handleNetworkData(self, networkReply): url = networkReply.url() #print "received url:", url.toString() if not networkReply.error(): response = networkReply.readAll() pystring = str(response, 'utf-8') #print "Response: ", response rows = self.parseresult_func( pystring ) self.showCompletion( rows ) networkReply.deleteLater() def unload( self ): # Avoid processing events after QGIS shutdown has begun self.popup.removeEventFilter(self) self.isUnloaded = True
class ExportDialog(QDialog, DIALOG_UI): ValidExtensions = ['xtf', 'itf', 'gml', 'xml'] def __init__(self, base_config, parent=None): QDialog.__init__(self, parent) self.setupUi(self) QgsGui.instance().enableAutoGeometryRestore(self) self.buttonBox.accepted.disconnect() self.buttonBox.accepted.connect(self.accepted) self.buttonBox.clear() self.buttonBox.addButton(QDialogButtonBox.Cancel) self.buttonBox.addButton(self.tr('Export'), QDialogButtonBox.AcceptRole) self.buttonBox.addButton(QDialogButtonBox.Help) self.buttonBox.helpRequested.connect(self.help_requested) self.xtf_file_browse_button.clicked.connect( make_save_file_selector( self.xtf_file_line_edit, title=self.tr('Save in XTF Transfer File'), file_filter=self. tr('XTF Transfer File (*.xtf);;Interlis 1 Transfer File (*.itf);;XML (*.xml);;GML (*.gml)' ), extension='.xtf', extensions=['.' + ext for ext in self.ValidExtensions])) self.xtf_file_browse_button.clicked.connect( self.xtf_browser_opened_to_true) self.xtf_browser_was_opened = False self.gpkg_file_browse_button.clicked.connect( make_file_selector( self.gpkg_file_line_edit, title=self.tr('Open GeoPackage database file'), file_filter=self.tr('GeoPackage Database (*.gpkg)'))) self.type_combo_box.clear() self.type_combo_box.addItem(self.tr('PostGIS'), 'pg') self.type_combo_box.addItem(self.tr('GeoPackage'), 'gpkg') self.type_combo_box.currentIndexChanged.connect(self.type_changed) self.base_configuration = base_config self.restore_configuration() self.validators = Validators() nonEmptyValidator = NonEmptyStringValidator() fileValidator = FileValidator( pattern=['*.' + ext for ext in self.ValidExtensions], allow_non_existing=True) gpkgFileValidator = FileValidator(pattern='*.gpkg') self.pg_host_line_edit.setValidator(nonEmptyValidator) self.pg_database_line_edit.setValidator(nonEmptyValidator) self.pg_user_line_edit.setValidator(nonEmptyValidator) self.xtf_file_line_edit.setValidator(fileValidator) self.gpkg_file_line_edit.setValidator(gpkgFileValidator) self.pg_host_line_edit.textChanged.connect( self.validators.validate_line_edits) self.pg_host_line_edit.textChanged.emit(self.pg_host_line_edit.text()) self.pg_database_line_edit.textChanged.connect( self.validators.validate_line_edits) self.pg_database_line_edit.textChanged.emit( self.pg_database_line_edit.text()) self.pg_user_line_edit.textChanged.connect( self.validators.validate_line_edits) self.pg_user_line_edit.textChanged.emit(self.pg_user_line_edit.text()) self.xtf_file_line_edit.textChanged.connect( self.validators.validate_line_edits) self.xtf_file_line_edit.textChanged.connect( self.xtf_browser_opened_to_false) self.xtf_file_line_edit.textChanged.emit( self.xtf_file_line_edit.text()) self.gpkg_file_line_edit.textChanged.connect( self.validators.validate_line_edits) self.gpkg_file_line_edit.textChanged.emit( self.gpkg_file_line_edit.text()) #refresh the models on changing values but avoid massive db connects by timer self.refreshTimer = QTimer() self.refreshTimer.setSingleShot(True) self.refreshTimer.timeout.connect(self.refresh_models) self.pg_host_line_edit.textChanged.connect( self.request_for_refresh_models) self.pg_port_line_edit.textChanged.connect( self.request_for_refresh_models) self.pg_database_line_edit.textChanged.connect( self.request_for_refresh_models) self.pg_schema_line_edit.textChanged.connect( self.request_for_refresh_models) self.pg_user_line_edit.textChanged.connect( self.request_for_refresh_models) self.pg_password_line_edit.textChanged.connect( self.request_for_refresh_models) self.gpkg_file_line_edit.textChanged.connect( self.request_for_refresh_models) self.export_models_model = ExportModels(None, None, None) self.refreshed_export_models_model() self.export_models_view.setModel(self.export_models_model) self.export_models_view.clicked.connect(self.export_models_model.check) self.export_models_view.space_pressed.connect( self.export_models_model.check) def request_for_refresh_models(self): # hold refresh back self.refreshTimer.start(500) def refresh_models(self): self.export_models_model = self.refreshed_export_models_model() self.export_models_view.setModel(self.export_models_model) self.export_models_view.clicked.connect(self.export_models_model.check) self.export_models_view.space_pressed.connect( self.export_models_model.check) def refreshed_export_models_model(self): tool_name = 'ili2pg' if self.type_combo_box.currentData( ) == 'pg' else 'ili2gpkg' uri = [] if tool_name == 'ili2pg': uri += ['dbname={}'.format(self.updated_configuration().database)] uri += ['user={}'.format(self.updated_configuration().dbusr)] if self.updated_configuration().dbpwd: uri += [ 'password={}'.format(self.updated_configuration().dbpwd) ] uri += ['host={}'.format(self.updated_configuration().dbhost)] if self.updated_configuration().dbport: uri += ['port={}'.format(self.updated_configuration().dbport)] elif tool_name == 'ili2gpkg': uri = [self.updated_configuration().dbfile] uri_string = ' '.join(uri) schema = self.updated_configuration().dbschema self.export_models_model = ExportModels(tool_name, uri_string, schema) return self.export_models_model def accepted(self): configuration = self.updated_configuration() if not self.xtf_file_line_edit.validator().validate( configuration.xtffile, 0)[0] == QValidator.Acceptable: self.txtStdout.setText( self. tr('Please set a valid INTERLIS XTF file before exporting data.' )) self.xtf_file_line_edit.setFocus() return if not configuration.iliexportmodels: self.txtStdout.setText( self.tr('Please set a model before exporting data.')) self.export_models_view.setFocus() return if self.type_combo_box.currentData() == 'pg': if not configuration.dbhost: self.txtStdout.setText( self.tr('Please set a host before exporting data.')) self.pg_host_line_edit.setFocus() return if not configuration.database: self.txtStdout.setText( self.tr('Please set a database before exporting data.')) self.pg_database_line_edit.setFocus() return if not configuration.dbusr: self.txtStdout.setText( self.tr( 'Please set a database user before exporting data.')) self.pg_user_line_edit.setFocus() return elif self.type_combo_box.currentData() == 'gpkg': if not configuration.dbfile or self.gpkg_file_line_edit.validator( ).validate(configuration.dbfile, 0)[0] != QValidator.Acceptable: self.txtStdout.setText( self. tr('Please set an existing database file before creating the project.' )) self.gpkg_file_line_edit.setFocus() return # If xtf browser was opened and the file exists, the user already chose # to overwrite the file if os.path.isfile(self.xtf_file_line_edit.text().strip() ) and not self.xtf_browser_was_opened: self.msg = QMessageBox() self.msg.setIcon(QMessageBox.Warning) self.msg.setText( self.tr( "{filename} already exists.\nDo you want to replace it?"). format(filename=os.path.basename( self.xtf_file_line_edit.text().strip()))) self.msg.setWindowTitle(self.tr("Save in XTF Transfer File")) self.msg.setStandardButtons(QMessageBox.Yes | QMessageBox.No) msg_box = self.msg.exec_() if msg_box == QMessageBox.No: return with OverrideCursor(Qt.WaitCursor): self.progress_bar.show() self.progress_bar.setValue(0) self.disable() self.txtStdout.setTextColor(QColor('#000000')) self.txtStdout.clear() exporter = iliexporter.Exporter() tool_name = 'ili2pg' if self.type_combo_box.currentData( ) == 'pg' else 'ili2gpkg' exporter.tool_name = tool_name exporter.configuration = configuration self.save_configuration(configuration) exporter.stdout.connect(self.print_info) exporter.stderr.connect(self.on_stderr) exporter.process_started.connect(self.on_process_started) exporter.process_finished.connect(self.on_process_finished) self.progress_bar.setValue(25) try: if exporter.run() != iliexporter.Exporter.SUCCESS: self.enable() self.progress_bar.hide() return except JavaNotFoundError: self.txtStdout.setTextColor(QColor('#000000')) self.txtStdout.clear() self.txtStdout.setText( self. tr('Java could not be found. Please <a href="https://java.com/en/download/">install Java</a> and or <a href="#configure">configure a custom java path</a>. We also support the JAVA_HOME environment variable in case you prefer this.' )) self.enable() self.progress_bar.hide() return self.buttonBox.clear() self.buttonBox.setEnabled(True) self.buttonBox.addButton(QDialogButtonBox.Close) self.progress_bar.setValue(100) def print_info(self, text): self.txtStdout.setTextColor(QColor('#000000')) self.txtStdout.append(text) QCoreApplication.processEvents() def on_stderr(self, text): color_log_text(text, self.txtStdout) self.advance_progress_bar_by_text(text) QCoreApplication.processEvents() def on_process_started(self, command): self.disable() self.txtStdout.setTextColor(QColor('#000000')) self.txtStdout.clear() self.txtStdout.setText(command) QCoreApplication.processEvents() def on_process_finished(self, exit_code, result): color = '#004905' if exit_code == 0 else '#aa2222' self.txtStdout.setTextColor(QColor(color)) self.txtStdout.append(self.tr('Finished ({})'.format(exit_code))) if result == iliexporter.Exporter.SUCCESS: self.buttonBox.clear() self.buttonBox.setEnabled(True) self.buttonBox.addButton(QDialogButtonBox.Close) else: self.enable() def updated_configuration(self): """ Get the configuration that is updated with the user configuration changes on the dialog. :return: Configuration """ configuration = ili2dbconfig.ExportConfiguration() if self.type_combo_box.currentData() == 'pg': # PostgreSQL specific options configuration.dbhost = self.pg_host_line_edit.text().strip() configuration.dbport = self.pg_port_line_edit.text().strip() configuration.dbusr = self.pg_user_line_edit.text().strip() configuration.database = self.pg_database_line_edit.text().strip() configuration.dbschema = self.pg_schema_line_edit.text().strip( ).lower() configuration.dbpwd = self.pg_password_line_edit.text() elif self.type_combo_box.currentData() == 'gpkg': configuration.dbfile = self.gpkg_file_line_edit.text().strip() configuration.xtffile = self.xtf_file_line_edit.text().strip() configuration.iliexportmodels = ';'.join( self.export_models_model.checked_models()) configuration.ilimodels = ';'.join( self.export_models_model.stringList()) configuration.base_configuration = self.base_configuration return configuration def save_configuration(self, configuration): settings = QSettings() settings.setValue('QgsProjectGenerator/ili2pg/xtffile_export', configuration.xtffile) settings.setValue('QgsProjectGenerator/importtype', self.type_combo_box.currentData()) if self.type_combo_box.currentData() in ['ili2pg', 'pg']: # PostgreSQL specific options settings.setValue('QgsProjectGenerator/ili2pg/host', configuration.dbhost) settings.setValue('QgsProjectGenerator/ili2pg/port', configuration.dbport) settings.setValue('QgsProjectGenerator/ili2pg/user', configuration.dbusr) settings.setValue('QgsProjectGenerator/ili2pg/database', configuration.database) settings.setValue('QgsProjectGenerator/ili2pg/schema', configuration.dbschema) settings.setValue('QgsProjectGenerator/ili2pg/password', configuration.dbpwd) elif self.type_combo_box.currentData() in ['ili2gpkg', 'gpkg']: settings.setValue('QgsProjectGenerator/ili2gpkg/dbfile', configuration.dbfile) def restore_configuration(self): settings = QSettings() self.xtf_file_line_edit.setText( settings.value('QgsProjectGenerator/ili2pg/xtffile_export')) self.pg_host_line_edit.setText( settings.value('QgsProjectGenerator/ili2pg/host', 'localhost')) self.pg_port_line_edit.setText( settings.value('QgsProjectGenerator/ili2pg/port')) self.pg_user_line_edit.setText( settings.value('QgsProjectGenerator/ili2pg/user')) self.pg_database_line_edit.setText( settings.value('QgsProjectGenerator/ili2pg/database')) self.pg_schema_line_edit.setText( settings.value('QgsProjectGenerator/ili2pg/schema')) self.pg_password_line_edit.setText( settings.value('QgsProjectGenerator/ili2pg/password')) self.gpkg_file_line_edit.setText( settings.value('QgsProjectGenerator/ili2gpkg/dbfile')) mode = settings.value('QgsProjectGenerator/importtype', 'pg') mode = 'pg' if mode == 'ili2pg' else mode mode = 'gpkg' if mode == 'ili2gpkg' else mode self.type_combo_box.setCurrentIndex(self.type_combo_box.findData(mode)) self.type_changed() def disable(self): self.pg_config.setEnabled(False) self.ili_config.setEnabled(False) self.buttonBox.setEnabled(False) def enable(self): self.pg_config.setEnabled(True) self.ili_config.setEnabled(True) self.buttonBox.setEnabled(True) def type_changed(self): self.progress_bar.hide() if self.type_combo_box.currentData() == 'pg': self.pg_config.show() self.gpkg_config.hide() elif self.type_combo_box.currentData() == 'gpkg': self.pg_config.hide() self.gpkg_config.show() def link_activated(self, link): if link.url() == '#configure': cfg = OptionsDialog(self.base_configuration) if cfg.exec_(): settings = QSettings() settings.beginGroup('QgsProjectGenerator/ili2db') self.base_configuration.save(settings) else: QDesktopServices.openUrl(link) def help_requested(self): os_language = QLocale( QSettings().value('locale/userLocale')).name()[:2] if os_language in ['es', 'de']: webbrowser.open( "https://opengisch.github.io/projectgenerator/docs/{}/user-guide.html#export-an-interlis-transfer-file-xtf" .format(os_language)) else: webbrowser.open( "https://opengisch.github.io/projectgenerator/docs/user-guide.html#export-an-interlis-transfer-file-xtf" ) def xtf_browser_opened_to_true(self): """ Slot. Sets a flag to true to eventually avoid asking a user whether to overwrite a file. """ self.xtf_browser_was_opened = True def xtf_browser_opened_to_false(self): """ Slot. Sets a flag to false to eventually ask a user whether to overwrite a file. """ self.xtf_browser_was_opened = False def advance_progress_bar_by_text(self, text): if text.strip() == 'Info: compile models…': self.progress_bar.setValue(50) elif text.strip() == 'Info: create table structure…': self.progress_bar.setValue(75)
class AutoSuggest(QObject): def __init__(self, geturl_func, parseresult_func, parent=None): QObject.__init__(self, parent) self.geturl_func = geturl_func self.parseresult_func = parseresult_func self.editor = parent self.networkManager = QNetworkAccessManager() self.selectedObject = None self.isUnloaded = False self.popup = QTreeWidget(parent) #self.popup.setColumnCount(2) self.popup.setColumnCount(1) self.popup.setUniformRowHeights(True) self.popup.setRootIsDecorated(False) self.popup.setEditTriggers(QTreeWidget.NoEditTriggers) self.popup.setSelectionBehavior(QTreeWidget.SelectRows) self.popup.setFrameStyle(QFrame.Box | QFrame.Plain) self.popup.setHorizontalScrollBarPolicy(Qt.ScrollBarAlwaysOff) self.popup.header().hide() self.popup.installEventFilter(self) self.popup.setMouseTracking(True) #self.connect(self.popup, SIGNAL("itemClicked(QTreeWidgetItem*, int)"), # self.doneCompletion) self.popup.itemClicked.connect(self.doneCompletion) self.popup.setWindowFlags(Qt.Popup) self.popup.setFocusPolicy(Qt.NoFocus) self.popup.setFocusProxy(parent) self.timer = QTimer(self) self.timer.setSingleShot(True) self.timer.setInterval(500) #self.connect(self.timer, SIGNAL("timeout()"), self.autoSuggest) self.timer.timeout.connect(self.autoSuggest) #self.connect(self.editor, SIGNAL("textEdited(QString)"), self.timer, SLOT("start()")) #self.editor.textEdited.connect( self.timer.start ) self.editor.textEdited.connect(self.timer.start) #self.editor.textChanged.connect( self.timer.start ) #self.connect(self.networkManager, SIGNAL("finished(QNetworkReply*)"), # self.handleNetworkData) self.networkManager.finished.connect(self.handleNetworkData) def eventFilter(self, obj, ev): if obj != self.popup: return False if ev.type() == QEvent.MouseButtonPress: self.popup.hide() self.editor.setFocus() return True if ev.type() == QEvent.KeyPress: consumed = False key = ev.key() if key == Qt.Key_Enter or key == Qt.Key_Return: self.doneCompletion() consumed = True elif key == Qt.Key_Escape: self.editor.setFocus() self.popup.hide() consumed = True elif key in (Qt.Key_Up, Qt.Key_Down, Qt.Key_Home, Qt.Key_End, Qt.Key_PageUp, Qt.Key_PageDown): pass else: self.editor.setFocus() self.editor.event(ev) self.popup.hide() return consumed return False def showCompletion(self, rows): # Rows is an iterable of tuples like [("text",object1),("text2", object2),...] pal = self.editor.palette() color = pal.color(QPalette.Disabled, QPalette.WindowText) self.popup.setUpdatesEnabled(False) self.popup.clear() if rows is None or len(rows) < 1: return for row in rows: item = QTreeWidgetItem(self.popup) item.setText(0, row[0]) #item.setText(1, hit['type']) item.setTextAlignment(1, Qt.AlignRight) item.setForeground(1, color) item.setData( 2, Qt.UserRole, (row[1], ) ) # Try immutable py obj #http://stackoverflow.com/questions/9257422/how-to-get-the-original-python-data-from-qvariant self.popup.setCurrentItem(self.popup.topLevelItem(0)) self.popup.resizeColumnToContents(0) #self.popup.resizeColumnToContents(1) self.popup.adjustSize() self.popup.setUpdatesEnabled(True) h = self.popup.sizeHintForRow(0) * min(15, len(rows)) + 3 w = max(self.popup.width(), self.editor.width()) self.popup.resize(w, h) self.popup.move( self.editor.mapToGlobal(QPoint(0, self.editor.height()))) self.popup.setFocus() self.popup.show() def doneCompletion(self): self.timer.stop() self.popup.hide() self.editor.setFocus() item = self.popup.currentItem() if item: self.editor.setText(item.text(0)) obj = item.data(2, Qt.UserRole) #.toPyObject() self.selectedObject = obj[0] e = QKeyEvent(QEvent.KeyPress, Qt.Key_Enter, Qt.NoModifier) QApplication.postEvent(self.editor, e) e = QKeyEvent(QEvent.KeyRelease, Qt.Key_Enter, Qt.NoModifier) QApplication.postEvent(self.editor, e) def preventSuggest(self): self.timer.stop() def autoSuggest(self): term = self.editor.text() if term: qurl = self.geturl_func(term) if qurl: # TODO: Cancel existing requests: http://qt-project.org/forums/viewthread/18073 self.networkManager.get(QNetworkRequest(qurl)) #QUrl(url))) def handleNetworkData(self, networkReply): url = networkReply.url() #print "received url:", url.toString() if not networkReply.error(): response = networkReply.readAll() pystring = str(response, 'utf-8') #print "Response: ", response rows = self.parseresult_func(pystring) self.showCompletion(rows) networkReply.deleteLater() def unload(self): # Avoid processing events after QGIS shutdown has begun self.popup.removeEventFilter(self) self.isUnloaded = True
class SettingsDialog(QDialog, DIALOG_UI): db_connection_changed = pyqtSignal(DBConnector) fetcher_task = None def __init__(self, iface=None, parent=None, qgis_utils=None): QDialog.__init__(self, parent) self.setupUi(self) self.iface = iface self.log = QgsApplication.messageLog() self._db = None self.qgis_utils = qgis_utils self.connection_is_dirty = False self.cbo_db_source.clear() self.cbo_db_source.addItem( QCoreApplication.translate("SettingsDialog", 'PostgreSQL / PostGIS'), 'pg') self.cbo_db_source.addItem( QCoreApplication.translate("SettingsDialog", 'GeoPackage'), 'gpkg') self.cbo_db_source.currentIndexChanged.connect(self.db_source_changed) self.online_models_radio_button.setChecked(True) self.online_models_radio_button.toggled.connect( self.model_provider_toggle) self.custom_model_directories_line_edit.setText("") self.custom_models_dir_button.clicked.connect( self.show_custom_model_dir) self.custom_model_directories_line_edit.setVisible(False) self.custom_models_dir_button.setVisible(False) # Set connections self.buttonBox.accepted.connect(self.accepted) self.buttonBox.helpRequested.connect(self.show_help) self.btn_test_connection.clicked.connect(self.test_connection) self.txt_pg_host.setPlaceholderText( QCoreApplication.translate( "SettingsDialog", "[Leave empty to use standard host: localhost]")) self.txt_pg_host.textEdited.connect(self.set_connection_dirty) self.txt_pg_port.setPlaceholderText( QCoreApplication.translate( "SettingsDialog", "[Leave empty to use standard port: 5432]")) self.txt_pg_port.textEdited.connect(self.set_connection_dirty) self.create_db_button.setToolTip( QCoreApplication.translate("SettingsDialog", "Create database")) self.create_db_button.clicked.connect(self.show_modal_create_db) self.selected_db_combobox.currentIndexChanged.connect( self.selected_database_changed) self.create_schema_button.setToolTip( QCoreApplication.translate("SettingsDialog", "Create schema")) self.create_schema_button.clicked.connect( self.show_modal_create_schema) self.txt_pg_user.setPlaceholderText( QCoreApplication.translate("SettingsDialog", "Database username")) self.txt_pg_user.textEdited.connect(self.set_connection_dirty) self.txt_pg_password.setPlaceholderText( QCoreApplication.translate("SettingsDialog", "[Leave empty to use system password]")) self.txt_pg_password.textEdited.connect(self.set_connection_dirty) self.txt_gpkg_file.textEdited.connect(self.set_connection_dirty) self.btn_test_service.clicked.connect(self.test_service) self.chk_use_roads.toggled.connect(self.update_images_state) # Trigger some default behaviours self.restore_settings() # Set a timer to avoid creating too many db connections while editing connection parameters self.refreshTimer = QTimer() self.refreshTimer.setSingleShot(True) self.refreshTimer.timeout.connect(self.refresh_connection) self.txt_pg_host.textChanged.connect( self.request_for_refresh_connection) self.txt_pg_port.textChanged.connect( self.request_for_refresh_connection) self.txt_pg_user.textChanged.connect( self.request_for_refresh_connection) self.txt_pg_password.textChanged.connect( self.request_for_refresh_connection) self.bar = QgsMessageBar() self.bar.setSizePolicy(QSizePolicy.Minimum, QSizePolicy.Fixed) self.setLayout(QGridLayout()) self.layout().addWidget(self.bar, 0, 0, Qt.AlignTop) def showEvent(self, event): self.update_db_names() # It is necessary to reload the variables # to load the database and schema name self.restore_settings() self.selected_schema_combobox.currentIndexChanged.connect( self.selected_schema_changed) print("Conectado...") def request_for_refresh_connection(self, text): # Wait half a second before refreshing connection self.refreshTimer.start(500) def refresh_connection(self): if not self.txt_pg_user.text().strip() \ or not self.txt_pg_password.text().strip(): self.selected_db_combobox.clear() self.selected_schema_combobox.clear() else: # Update database name list self.update_db_names() def selected_database_changed(self, index): self.update_db_schemas() def selected_schema_changed(self, index): if not self.connection_is_dirty: self.connection_is_dirty = True def update_db_names(self): if self.cbo_db_source.currentData() == 'pg': dict_conn = self.read_connection_parameters() tmp_db_conn = PGConnector('') uri = tmp_db_conn.get_connection_uri(dict_conn, 'pg', level=0) dbnames = tmp_db_conn.get_dbnames_list(uri) self.selected_db_combobox.clear() if dbnames[0]: self.selected_db_combobox.addItems(dbnames[1]) else: # We won't show a message here to avoid bothering the user with potentially too much messages pass def update_db_schemas(self): if self.cbo_db_source.currentData() == 'pg': dict_conn = self.read_connection_parameters() tmp_db_conn = PGConnector('') uri = tmp_db_conn.get_connection_uri(dict_conn, 'pg') schemas_db = tmp_db_conn.get_dbname_schema_list(uri) self.selected_schema_combobox.clear() if schemas_db[0]: self.selected_schema_combobox.addItems(schemas_db[1]) else: # We won't show a message here to avoid bothering the user with potentially too much messages pass def model_provider_toggle(self): if self.offline_models_radio_button.isChecked(): self.custom_model_directories_line_edit.setVisible(True) self.custom_models_dir_button.setVisible(True) else: self.custom_model_directories_line_edit.setVisible(False) self.custom_models_dir_button.setVisible(False) self.custom_model_directories_line_edit.setText("") def get_db_connection(self, update_connection=True): if self._db is not None: self.log.logMessage("Returning existing db connection...", PLUGIN_NAME, Qgis.Info) return self._db else: self.log.logMessage("Getting new db connection...", PLUGIN_NAME, Qgis.Info) dict_conn = self.read_connection_parameters() if self.cbo_db_source.currentData() == 'pg': db = PGConnector(None, dict_conn['schema'], dict_conn) else: db = GPKGConnector(None, conn_dict=dict_conn) if update_connection: self._db = db return db def show_custom_model_dir(self): dlg = CustomModelDirDialog( self.custom_model_directories_line_edit.text(), self) dlg.exec_() def accepted(self): if self._db is not None: self._db.close_connection() self._db = None # Reset db connection self._db = self.get_db_connection() # Schema combobox changes frequently, so control whether we listen to its changes to make the db conn dirty try: self.selected_schema_combobox.currentIndexChanged.disconnect( self.selected_schema_changed) except TypeError as e: pass if self.connection_is_dirty: self.connection_is_dirty = False res, msg = self._db.test_connection() if res: self.db_connection_changed.emit(self._db) else: self.show_message(msg, Qgis.Warning) return self.save_settings() def reject(self): self.restore_settings() self.connection_is_dirty = False # Schema combobox changes frequently, so control whether we listen to its changes to make the db conn dirty try: self.selected_schema_combobox.currentIndexChanged.disconnect( self.selected_schema_changed) except TypeError as e: pass self.done(0) def set_db_connection(self, mode, dict_conn): """ To be used by external scripts and unit tests """ self.cbo_db_source.setCurrentIndex(self.cbo_db_source.findData(mode)) self.db_source_changed() if self.cbo_db_source.currentData() == 'pg': self.txt_pg_host.setText(dict_conn['host']) self.txt_pg_port.setText(dict_conn['port']) self.selected_db_combobox.clear() dbname_setting = dict_conn['database'] self.selected_db_combobox.addItem(dbname_setting) self.selected_schema_combobox.clear() schema_setting = dict_conn['schema'] self.selected_schema_combobox.addItem(schema_setting) self.txt_pg_user.setText(dict_conn['username']) self.txt_pg_password.setText(dict_conn['password']) else: self.txt_gpkg_file.setText(dict_conn['dbfile']) self.accepted() # Create/update the db object def read_connection_parameters(self): """ Convenient function to read connection parameters and apply default values if needed. """ dict_conn = dict() dict_conn['host'] = self.txt_pg_host.text().strip() or 'localhost' dict_conn['port'] = self.txt_pg_port.text().strip() or '5432' dict_conn['database'] = "'{}'".format( self.selected_db_combobox.currentText().strip()) dict_conn['schema'] = self.selected_schema_combobox.currentText( ).strip() or 'public' dict_conn['username'] = self.txt_pg_user.text().strip() dict_conn['password'] = self.txt_pg_password.text().strip() dict_conn['dbfile'] = self.txt_gpkg_file.text().strip() return dict_conn def save_settings(self): # Save QSettings dict_conn = self.read_connection_parameters() settings = QSettings() settings.setValue('Asistente-LADM_COL/db_connection_source', self.cbo_db_source.currentData()) settings.setValue('Asistente-LADM_COL/pg/host', dict_conn['host']) settings.setValue('Asistente-LADM_COL/pg/port', dict_conn['port']) settings.setValue('Asistente-LADM_COL/pg/database', dict_conn['database'].strip("'")) settings.setValue('Asistente-LADM_COL/pg/schema', dict_conn['schema']) settings.setValue('Asistente-LADM_COL/pg/username', dict_conn['username']) settings.setValue('Asistente-LADM_COL/pg/password', dict_conn['password']) settings.setValue('Asistente-LADM_COL/gpkg/dbfile', dict_conn['dbfile']) settings.setValue( 'Asistente-LADM_COL/models/custom_model_directories_is_checked', self.offline_models_radio_button.isChecked()) if self.offline_models_radio_button.isChecked(): settings.setValue('Asistente-LADM_COL/models/custom_models', self.custom_model_directories_line_edit.text()) settings.setValue( 'Asistente-LADM_COL/quality/too_long_tolerance', int(self.txt_too_long_tolerance.text()) or DEFAULT_TOO_LONG_BOUNDARY_SEGMENTS_TOLERANCE) settings.setValue('Asistente-LADM_COL/quality/use_roads', self.chk_use_roads.isChecked()) settings.setValue( 'Asistente-LADM_COL/automatic_values/automatic_values_in_batch_mode', self.chk_automatic_values_in_batch_mode.isChecked()) settings.setValue('Asistente-LADM_COL/sources/document_repository', self.connection_box.isChecked()) endpoint = self.txt_service_endpoint.text().strip() settings.setValue( 'Asistente-LADM_COL/sources/service_endpoint', (endpoint[:-1] if endpoint.endswith('/') else endpoint) or DEFAULT_ENDPOINT_SOURCE_SERVICE) # Changes in automatic namespace or local_id configuration? current_namespace_enabled = settings.value( 'Asistente-LADM_COL/automatic_values/namespace_enabled', True, bool) current_namespace_prefix = settings.value( 'Asistente-LADM_COL/automatic_values/namespace_prefix', "") current_local_id_enabled = settings.value( 'Asistente-LADM_COL/automatic_values/local_id_enabled', True, bool) settings.setValue( 'Asistente-LADM_COL/automatic_values/namespace_enabled', self.namespace_collapsible_group_box.isChecked()) if self.namespace_collapsible_group_box.isChecked(): settings.setValue( 'Asistente-LADM_COL/automatic_values/namespace_prefix', self.txt_namespace.text()) settings.setValue( 'Asistente-LADM_COL/automatic_values/local_id_enabled', self.chk_local_id.isChecked()) if current_namespace_enabled != self.namespace_collapsible_group_box.isChecked() or \ current_namespace_prefix != self.txt_namespace.text() or \ current_local_id_enabled != self.chk_local_id.isChecked(): self.qgis_utils.automatic_namespace_local_id_configuration_changed( self._db) def restore_settings(self): # Restore QSettings settings = QSettings() self.cbo_db_source.setCurrentIndex( self.cbo_db_source.findData( settings.value('Asistente-LADM_COL/db_connection_source', 'pg'))) self.db_source_changed() self.txt_pg_host.setText(settings.value('Asistente-LADM_COL/pg/host')) self.txt_pg_port.setText(settings.value('Asistente-LADM_COL/pg/port')) dbname_setting = settings.value('Asistente-LADM_COL/pg/database') if self.selected_db_combobox.count(): index = self.selected_db_combobox.findText(dbname_setting, Qt.MatchFixedString) if index >= 0: self.selected_db_combobox.setCurrentIndex(index) else: self.selected_db_combobox.addItem(dbname_setting) schema_setting = settings.value('Asistente-LADM_COL/pg/schema') if self.selected_schema_combobox.count(): index = self.selected_schema_combobox.findText( schema_setting, Qt.MatchFixedString) if index >= 0: self.selected_schema_combobox.setCurrentIndex(index) else: self.selected_schema_combobox.addItem(schema_setting) self.txt_pg_user.setText( settings.value('Asistente-LADM_COL/pg/username')) self.txt_pg_password.setText( settings.value('Asistente-LADM_COL/pg/password')) self.txt_gpkg_file.setText( settings.value('Asistente-LADM_COL/gpkg/dbfile')) custom_model_directories_is_checked = settings.value( 'Asistente-LADM_COL/models/custom_model_directories_is_checked', type=bool) if custom_model_directories_is_checked: self.offline_models_radio_button.setChecked(True) self.custom_model_directories_line_edit.setText( settings.value('Asistente-LADM_COL/models/custom_models')) self.custom_model_directories_line_edit.setVisible(True) self.custom_models_dir_button.setVisible(True) else: self.online_models_radio_button.setChecked(True) self.custom_model_directories_line_edit.setText("") self.custom_model_directories_line_edit.setVisible(False) self.custom_models_dir_button.setVisible(False) self.txt_too_long_tolerance.setText( str( settings.value('Asistente-LADM_COL/quality/too_long_tolerance', DEFAULT_TOO_LONG_BOUNDARY_SEGMENTS_TOLERANCE))) use_roads = settings.value('Asistente-LADM_COL/quality/use_roads', True, bool) self.chk_use_roads.setChecked(use_roads) self.update_images_state(use_roads) self.chk_automatic_values_in_batch_mode.setChecked( settings.value( 'Asistente-LADM_COL/automatic_values/automatic_values_in_batch_mode', True, bool)) self.connection_box.setChecked( settings.value('Asistente-LADM_COL/sources/document_repository', True, bool)) self.namespace_collapsible_group_box.setChecked( settings.value( 'Asistente-LADM_COL/automatic_values/namespace_enabled', True, bool)) self.chk_local_id.setChecked( settings.value( 'Asistente-LADM_COL/automatic_values/local_id_enabled', True, bool)) self.txt_namespace.setText( str( settings.value( 'Asistente-LADM_COL/automatic_values/namespace_prefix', ""))) self.txt_service_endpoint.setText( settings.value('Asistente-LADM_COL/sources/service_endpoint', DEFAULT_ENDPOINT_SOURCE_SERVICE)) def db_source_changed(self): if self._db is not None: self._db.close_connection() self._db = None # Reset db connection if self.cbo_db_source.currentData() == 'pg': self.gpkg_config.setVisible(False) self.pg_config.setVisible(True) else: self.pg_config.setVisible(False) self.gpkg_config.setVisible(True) def test_connection(self): if self._db is not None: self._db.close_connection() self._db = None # Reset db connection db = self.get_db_connection(False) res, msg = db.test_connection() if db is not None: db.close_connection() self.show_message(msg, Qgis.Info if res else Qgis.Warning) self.log.logMessage("Test connection!", PLUGIN_NAME, Qgis.Info) def test_service(self): self.setEnabled(False) QCoreApplication.processEvents() res, msg = self.is_source_service_valid() self.setEnabled(True) self.show_message(msg['text'], msg['level']) def is_source_service_valid(self): res = False msg = {'text': '', 'level': Qgis.Warning} url = self.txt_service_endpoint.text().strip() if url: with OverrideCursor(Qt.WaitCursor): self.qgis_utils.status_bar_message_emitted.emit( "Checking source service availability (this might take a while)...", 0) QCoreApplication.processEvents() if self.qgis_utils.is_connected(TEST_SERVER): nam = QNetworkAccessManager() request = QNetworkRequest(QUrl(url)) reply = nam.get(request) loop = QEventLoop() reply.finished.connect(loop.quit) loop.exec_() allData = reply.readAll() response = QTextStream(allData, QIODevice.ReadOnly) status = reply.attribute( QNetworkRequest.HttpStatusCodeAttribute) if status == 200: try: data = json.loads(response.readAll()) if 'id' in data and data[ 'id'] == SOURCE_SERVICE_EXPECTED_ID: res = True msg['text'] = QCoreApplication.translate( "SettingsDialog", "The tested service is valid to upload files!" ) msg['level'] = Qgis.Info else: res = False msg['text'] = QCoreApplication.translate( "SettingsDialog", "The tested upload service is not compatible: no valid 'id' found in response." ) except json.decoder.JSONDecodeError as e: res = False msg['text'] = QCoreApplication.translate( "SettingsDialog", "Response from the tested service is not compatible: not valid JSON found." ) else: res = False msg['text'] = QCoreApplication.translate( "SettingsDialog", "There was a problem connecting to the server. The server might be down or the service cannot be reached at the given URL." ) else: res = False msg['text'] = QCoreApplication.translate( "SettingsDialog", "There was a problem connecting to Internet.") self.qgis_utils.clear_status_bar_emitted.emit() else: res = False msg['text'] = QCoreApplication.translate( "SettingsDialog", "Not valid service URL to test!") return (res, msg) def show_message(self, message, level): self.bar.pushMessage(message, level, 10) def set_connection_dirty(self, text): if not self.connection_is_dirty: self.connection_is_dirty = True def update_images_state(self, checked): self.img_with_roads.setEnabled(checked) self.img_with_roads.setToolTip( QCoreApplication.translate( "SettingsDialog", "Missing roads will be marked as errors." ) if checked else '') self.img_without_roads.setEnabled(not checked) self.img_without_roads.setToolTip( '' if checked else QCoreApplication.translate( "SettingsDialog", "Missing roads will not be marked as errors." )) def show_help(self): self.qgis_utils.show_help("settings") def database_created(self, db_name): self.update_db_names() # select the database created by the user index = self.selected_db_combobox.findText(db_name, Qt.MatchFixedString) if index >= 0: self.selected_db_combobox.setCurrentIndex(index) def schema_created(self, schema_name): self.update_db_schemas() # select the database created by the user index = self.selected_schema_combobox.findText(schema_name, Qt.MatchFixedString) if index >= 0: self.selected_schema_combobox.setCurrentIndex(index) def show_modal_create_db(self): if self.cbo_db_source.currentData() == 'pg': tmp_db_conn = PGConnector('') dict_conn = self.read_connection_parameters() uri = tmp_db_conn.get_connection_uri(dict_conn, 'pg', level=0) test_conn = tmp_db_conn.test_connection(uri=uri, level=0) if test_conn[0]: create_db_dlg = DialogGetDBOrSchemaName(dict_conn, 'database', parent=self) create_db_dlg.db_or_schema_created.connect( self.database_created) create_db_dlg.setModal(True) create_db_dlg.exec_() else: self.show_message( QCoreApplication.translate( "SettingsDialog", "First set the connection to the database before attempting to create a database." ), Qgis.Warning) def show_modal_create_schema(self): if self.cbo_db_source.currentData() == 'pg': tmp_db_conn = PGConnector('') dict_conn = self.read_connection_parameters() uri = tmp_db_conn.get_connection_uri(dict_conn, 'pg', level=0) test_conn = tmp_db_conn.test_connection(uri=uri, level=0) if test_conn[0]: create_db_dlg = DialogGetDBOrSchemaName( self.read_connection_parameters(), 'schema', parent=self) create_db_dlg.db_or_schema_created.connect(self.schema_created) create_db_dlg.setModal(True) create_db_dlg.exec_() else: self.show_message( QCoreApplication.translate( "SettingsDialog", "First set the connection to the database before attempting to create a schema." ), Qgis.Warning)
class QmsServiceToolbox(QDockWidget, FORM_CLASS): def __init__(self, iface): QDockWidget.__init__(self, iface.mainWindow()) self.setupUi(self) self.newsFrame.setVisible(False) self.iface = iface self.search_threads = None # [] self.extent_renderer = RubberBandResultRenderer() self.cmbStatusFilter.addItem(self.tr('All'), STATUS_FILTER_ALL) self.cmbStatusFilter.addItem(self.tr('Valid'), STATUS_FILTER_ONLY_WORKS) self.cmbStatusFilter.currentIndexChanged.connect(self.start_search) if hasattr(self.txtSearch, 'setPlaceholderText'): self.txtSearch.setPlaceholderText(self.tr("Search string...")) self.delay_timer = QTimer(self) self.delay_timer.setSingleShot(True) self.delay_timer.setInterval(250) self.delay_timer.timeout.connect(self.start_search) self.txtSearch.textChanged.connect(self.delay_timer.start) self.btnFilterByExtent.toggled.connect(self.toggle_filter_button) self.one_process_work = QMutex() self.add_last_used_services() self.show_news() def show_news(self): client = Client() client.set_proxy(*QGISSettings.get_qgis_proxy()) qms_news = client.get_news() if qms_news is None: self.newsFrame.setVisible(False) return news = News(qms_news) if news.is_time_to_show(): self.newsLabel.setText(news.html) self.newsFrame.setVisible(True) else: self.newsFrame.setVisible(False) def toggle_filter_button(self, checked): self.txtSearch.setDisabled(checked) if checked: self.iface.mapCanvas().extentsChanged.connect(self.start_search) self.iface.mapCanvas().destinationCrsChanged.connect(self.start_search) self.start_search() else: self.iface.mapCanvas().extentsChanged.disconnect(self.start_search) self.iface.mapCanvas().destinationCrsChanged.disconnect(self.start_search) def start_search(self): search_text = None geom_filter = None # status filter status_filter = None sel_value = self.cmbStatusFilter.itemData(self.cmbStatusFilter.currentIndex()) if sel_value != STATUS_FILTER_ALL: status_filter = sel_value if not self.btnFilterByExtent.isChecked(): # text search search_text = unicode(self.txtSearch.text()) if not search_text: self.lstSearchResult.clear() # self.clearSearchResult() self.add_last_used_services() return else: # extent filter extent = self.iface.mapCanvas().extent() map_crs = getCanvasDestinationCrs(self.iface) if map_crs.postgisSrid() != 4326: crsDest = QgsCoordinateReferenceSystem(4326) # WGS 84 xform = QgsCoordinateTransform(map_crs, crsDest) extent = xform.transform(extent) geom_filter = extent.asWktPolygon() if self.search_threads: self.search_threads.data_downloaded.disconnect() self.search_threads.search_finished.disconnect() self.search_threads.stop() self.search_threads.wait() self.lstSearchResult.clear() # self.clearSearchResult() searcher = SearchThread(search_text, self.one_process_work, parent=self.iface.mainWindow(), geom_filter=geom_filter, status_filter=status_filter) searcher.data_downloaded.connect(self.show_result) searcher.error_occurred.connect(self.show_error) searcher.search_started.connect(self.search_started_process) searcher.search_finished.connect(self.search_finished_progress) self.search_threads = searcher searcher.start() def add_last_used_services(self): services = CachedServices().get_cached_services() if len(services) == 0: return self.lstSearchResult.insertItem(0, self.tr("Last used:")) # l = QLabel(self.tr("Last used:")) # l.setSizePolicy(QSizePolicy.Preferred, QSizePolicy.Fixed) # self.lSearchResult.addWidget(l) for attributes, image_qByteArray in services: custom_widget = QmsSearchResultItemWidget( attributes, image_qByteArray ) new_item = QListWidgetItem(self.lstSearchResult) new_item.setSizeHint(custom_widget.sizeHint()) self.lstSearchResult.addItem(new_item) self.lstSearchResult.setItemWidget( new_item, custom_widget ) # self.lSearchResult.addWidget(custom_widget) # w = QWidget() # w.setSizePolicy(QSizePolicy.Expanding, QSizePolicy.Expanding) # self.lSearchResult.addWidget(w) def search_started_process(self): self.lstSearchResult.clear() self.lstSearchResult.insertItem(0, self.tr('Searching...')) def search_finished_progress(self): self.lstSearchResult.takeItem(0) if self.lstSearchResult.count() == 0: new_widget = QLabel() new_widget.setTextFormat(Qt.RichText) new_widget.setOpenExternalLinks(True) new_widget.setWordWrap(True) new_widget.setText( u"<div align='center'> <strong>{}</strong> </div><div align='center' style='margin-top: 3px'> {} </div>".format( self.tr(u"No results."), self.tr(u"You can add a service to become searchable. Start <a href='{}'>here</a>.").format( u"https://qms.nextgis.com/create" ), ) ) new_item = QListWidgetItem(self.lstSearchResult) new_item.setSizeHint(new_widget.sizeHint()) self.lstSearchResult.addItem(new_item) self.lstSearchResult.setItemWidget( new_item, new_widget ) def show_result(self, geoservice, image_ba): if geoservice: custom_widget = QmsSearchResultItemWidget(geoservice, image_ba, extent_renderer=self.extent_renderer) new_item = QListWidgetItem(self.lstSearchResult) new_item.setSizeHint(custom_widget.sizeHint()) self.lstSearchResult.addItem(new_item) self.lstSearchResult.setItemWidget( new_item, custom_widget ) else: new_item = QListWidgetItem() new_item.setText(self.tr('No results!')) new_item.setData(Qt.UserRole, None) self.lstSearchResult.addItem(new_item) self.lstSearchResult.update() def show_error(self, error_text): self.lstSearchResult.clear() new_widget = QLabel() new_widget.setTextFormat(Qt.RichText) new_widget.setOpenExternalLinks(True) new_widget.setWordWrap(True) new_widget.setText( u"<div align='center'> <strong>{}</strong> </div><div align='center' style='margin-top: 3px'> {} </div>".format( self.tr('Error'), error_text ) ) new_item = QListWidgetItem(self.lstSearchResult) new_item.setSizeHint(new_widget.sizeHint()) self.lstSearchResult.addItem(new_item) self.lstSearchResult.setItemWidget( new_item, new_widget )
class QadMapTool(QgsMapTool): def __init__(self, plugIn): QgsMapTool.__init__(self, plugIn.iface.mapCanvas()) self.plugIn = plugIn self.iface = self.plugIn.iface self.canvas = self.plugIn.iface.mapCanvas() self.cursor = QCursor(Qt.BlankCursor) self.__csrRubberBand = QadCursorRubberBand( self.canvas, QadCursorTypeEnum.BOX | QadCursorTypeEnum.CROSS) self.entitySet = QadEntitySet() self.entitySetGripPoints = QadEntitySetGripPoints(plugIn) self.gripPopupMenu = None self.timerForGripMenu = QTimer() self.timerForGripMenu.setSingleShot(True) self.startDateTimeForRightClick = 0 # input dinamico self.dynamicCmdInput = QadDynamicCmdInput(plugIn) def __del__(self): self.removeItems() def removeItems(self): if self.__csrRubberBand is not None: self.__csrRubberBand.removeItems( ) # prima lo stacco dal canvas altrimenti non si rimuove perchè usato da canvas del self.__csrRubberBand __csrRubberBand = None self.entitySet.clear() self.entitySetGripPoints.removeItems() if self.dynamicCmdInput is not None: self.dynamicCmdInput.removeItems() del self.dynamicCmdInput self.dynamicCmdInput = None #============================================================================ # getDynamicInput #============================================================================ def getDynamicInput(self): return self.dynamicCmdInput #============================================================================ # UpdatedVariablesEvent #============================================================================ def UpdatedVariablesEvent(self): # aggiorna in base alle nuove impostazioni delle variabili self.removeItems() self.__csrRubberBand = QadCursorRubberBand( self.canvas, QadCursorTypeEnum.BOX | QadCursorTypeEnum.CROSS) if self.dynamicCmdInput is not None: del self.dynamicCmdInput self.dynamicCmdInput = QadDynamicCmdInput(self.plugIn) #============================================================================ # clearEntitySet #============================================================================ def clearEntitySet(self): self.entitySet.deselectOnLayer() self.entitySet.clear() #============================================================================ # clearEntityGripPoints #============================================================================ def clearEntityGripPoints(self): self.entitySetGripPoints.removeItems() # svuoto la lista #============================================================================ # refreshEntityGripPoints #============================================================================ def refreshEntityGripPoints(self, entitySet=None): if entitySet is None: entitySet = self.entitySet gripObjLimit = QadVariables.get( QadMsg.translate("Environment variables", "GRIPOBJLIMIT")) if gripObjLimit != 0: # When set to 0, grips are always displayed. if entitySet.count() > gripObjLimit: # Suppresses the display of grips when the selection set includes more than the specified number of objects self.clearEntityGripPoints() return # cancello i grip delle entità che non sono in entitySet o che non sono in layer vettoriali modificabili i = self.entitySetGripPoints.count() - 1 while i >= 0: entityGripPoint = self.entitySetGripPoints.entityGripPoints[i] if entitySet.containsEntity(entityGripPoint.entity) == False or \ entityGripPoint.entity.layer.type() != QgsMapLayer.VectorLayer or entityGripPoint.entity.layer.isEditable() == False: self.entitySetGripPoints.entityGripPoints[i].removeItems( ) # lo stacco dal canvas del self.entitySetGripPoints.entityGripPoints[i] i = i - 1 entity = QadEntity() for layerEntitySet in entitySet.layerEntitySetList: # considero solo i layer vettoriali che sono modificabili layer = layerEntitySet.layer if layer.type() == QgsMapLayer.VectorLayer and layer.isEditable(): for featureId in layerEntitySet.featureIds: entity.set(layer, featureId) self.entitySetGripPoints.addEntity( entity, QadVariables.get( QadMsg.translate("Environment variables", "GRIPS"))) #============================================================================ # INIZIO - eventi per il mouse #============================================================================ #============================================================================ # canvasPressEvent #============================================================================ def canvasPressEvent(self, event): if event.button() == Qt.RightButton: self.startDateTimeForRightClick = datetime.datetime.now() elif event.button() == Qt.LeftButton: # verifico se tasto shift premuto shiftKey = True if event.modifiers() & Qt.ShiftModifier else False # posizione corrente del mouse point = self.toMapCoordinates(event.pos()) # leggo il punto grip che si interseca alla posizione del mouse entityGripPoints, entityGripPoint = self.entitySetGripPoints.isIntersecting( point) if entityGripPoint is not None: if shiftKey == False: # lancio il comando selectedEntityGripPoints = self.entitySetGripPoints.getSelectedEntityGripPoints( ) # se non ci sono già grip selezionati if len(selectedEntityGripPoints) == 0: # seleziono il corrente if self.entitySetGripPoints.selectIntersectingGripPoints( point) > 0: selectedEntityGripPoints = self.entitySetGripPoints.getSelectedEntityGripPoints( ) # lancio il comando self.plugIn.runCommand("QadVirtualGripCommandsClass", [QadVirtualGripCommandsEnum.STRECTH, \ self.entitySetGripPoints, entityGripPoint.getPoint()]) else: # shift premuto # inverto lo stato ai grip che intersecano il punto self.entitySetGripPoints.toggleSelectIntersectingGripPoints( point) else: result = qad_utils.getEntSel(event.pos(), self, \ QadVariables.get(QadMsg.translate("Environment variables", "PICKBOX"))) if result is not None: feature = result[0] layer = result[1] tmpEntity = QadEntity() tmpEntity.set(layer, feature.id()) SSGetClass = QadSSGetClass(self.plugIn) SSGetClass.entitySet.set(self.entitySet) SSGetClass.elaborateEntity(tmpEntity, shiftKey) self.plugIn.showMsg("\n", True) # ripete il prompt self.entitySet.set(SSGetClass.entitySet) del SSGetClass # che deseleziona gli oggetti self.entitySet.selectOnLayer(False) self.refreshEntityGripPoints(self.entitySet) else: self.plugIn.runCommand("QadVirtualSelCommandClass", point) #============================================================================ # canvasDoubleClickEvent #============================================================================ def canvasDoubleClickEvent(self, event): pass #============================================================================ # canvasMoveEvent #============================================================================ def canvasMoveEvent(self, event): self.timerForGripMenu.stop() point = self.toMapCoordinates(event.pos()) self.__csrRubberBand.moveEvent(point) if self.dynamicCmdInput.prevPart is not None or self.dynamicCmdInput.nextPart is not None: changedPart = True else: changedPart = False self.dynamicCmdInput.setPrevPart(None) self.dynamicCmdInput.setNextPart(None) # hover grip points if self.entitySetGripPoints.hoverIntersectingGripPoints(point) == 1: for entityGripPoint in self.entitySetGripPoints.entityGripPoints: for gripPoint in entityGripPoint.gripPoints: if gripPoint.isIntersecting(point) and gripPoint.getStatus( ) == QadGripStatusEnum.HOVER: self.dynamicCmdInput.setPrevNextPart( entityGripPoint.entity, gripPoint) self.dynamicCmdInput.show(True, self.canvas.mouseLastXY()) # Specifica i metodi di accesso per le opzioni dei grip multifunzionali. # se > 1 devono essere mostrati i menu dinamici if QadVariables.get( QadMsg.translate("Environment variables", "GRIPMULTIFUNCTIONAL")) > 1: pos = QPoint(event.pos().x(), event.pos().y()) shot = lambda: self.displayPopupMenuOnGrip( pos, entityGripPoint.entity, gripPoint) del self.timerForGripMenu self.timerForGripMenu = QTimer() self.timerForGripMenu.setSingleShot(True) self.timerForGripMenu.timeout.connect(shot) self.timerForGripMenu.start( 1000) # 1 sec tempo per il grip return else: if changedPart == True: self.dynamicCmdInput.show(True, self.canvas.mouseLastXY()) else: self.dynamicCmdInput.mouseMoveEvent(event.pos()) #============================================================================ # canvasReleaseEvent #============================================================================ def canvasReleaseEvent(self, event): if event.button() == Qt.RightButton: shortCutMenu = QadVariables.get( QadMsg.translate("Environment variables", "SHORTCUTMENU")) if shortCutMenu == 0: # equivale a premere INVIO return self.plugIn.showEvaluateMsg(None) else: if self.entitySet.count( ) == 0: # nessun oggetto selezionato (modalità Default) # 16 = Enables the display of a shortcut menu when the right button on the pointing device is held down long enough if shortCutMenu & 16: now = datetime.datetime.now() value = QadVariables.get( QadMsg.translate("Environment variables", "SHORTCUTMENUDURATION")) shortCutMenuDuration = datetime.timedelta( 0, 0, 0, value) # se supera il numero di millisecondi impostato da SHORTCUTMENUDURATION if now - self.startDateTimeForRightClick > shortCutMenuDuration: return self.displayPopupMenuOnQuiescentState( event.pos()) else: # se click veloce equivale a premere INVIO return self.plugIn.showEvaluateMsg(None) else: # 1 = Enables Default mode shortcut menus if shortCutMenu & 1: return self.displayPopupMenuOnQuiescentState( event.pos()) else: # equivale a premere INVIO return self.plugIn.showEvaluateMsg(None) else: # ci sono degli oggetti selezionati # 2 = Enables Edit mode shortcut menus if shortCutMenu & 2: return self.displayPopupMenuOnQuiescentState( event.pos()) else: # equivale a premere INVIO return self.plugIn.showEvaluateMsg(None) #============================================================================ # FINE - eventi per il mouse # INIZIO - eventi per la tastiera #============================================================================ #============================================================================ # keyPressEvent #============================================================================ def keyPressEvent(self, e): myEvent = e # ALTGR non si può usare perchè è usato per indicare le coordinate # # if Key_AltGr is pressed, then perform the as return # if e.key() == Qt.Key_AltGr: # myEvent = QKeyEvent(QEvent.KeyPress, Qt.Key_Return, Qt.NoModifier) # else: # myEvent = e if self.plugIn.shortCutManagement( myEvent ): # se è stata gestita una sequenza di tasti scorciatoia return if myEvent.text() != "" and self.dynamicCmdInput.show( True, self.canvas.mouseLastXY(), self.dynamicCmdInput.getPrompt()) == True: self.dynamicCmdInput.keyPressEvent(myEvent) else: self.plugIn.keyPressEvent(myEvent) #============================================================================ # FINE - eventi per la tastiera # INIZIO - eventi per la rotella #============================================================================ #============================================================================ # wheelEvent #============================================================================ def wheelEvent(self, event): QgsMapTool.wheelEvent(self, event) self.__csrRubberBand.moveEvent(self.toMapCoordinates(event.pos())) #============================================================================ # FINE - eventi per la rotella #============================================================================ #============================================================================ # activate #============================================================================ def activate(self): self.canvas.setToolTip("") self.canvas.setCursor(self.cursor) # posizione corrente del mouse self.__csrRubberBand.moveEvent( self.toMapCoordinates(self.canvas.mouseLastXY())) self.__csrRubberBand.show() self.entitySet.initByCurrentQgsSelectedFeatures( qad_utils.getVisibleVectorLayers( self.canvas)) # Tutti i layer vettoriali visibili self.refreshEntityGripPoints(self.entitySet) self.plugIn.QadCommands.continueCommandFromMapTool() #self.plugIn.enableShortcut() self.dynamicCmdInput.setPrevPart(None) self.dynamicCmdInput.setNextPart(None) self.dynamicCmdInput.show(True, self.canvas.mouseLastXY()) #============================================================================ # deactivate #============================================================================ def deactivate(self): self.__csrRubberBand.hide() self.timerForGripMenu.stop() #self.plugIn.disableShortcut() self.dynamicCmdInput.show(False) #============================================================================ # isTransient #============================================================================ def isTransient(self): return False # questo tool non fa zoom o pan #============================================================================ # isEditTool #============================================================================ def isEditTool(self): return False # questo tool non fa editing #============================================================================ # displayPopupMenuOnQuiescentState #============================================================================ def displayPopupMenuOnQuiescentState(self, pos): popupMenu = QMenu(self.canvas) history = self.plugIn.cmdsHistory isLastCmdToInsert = True isRecentMenuToInsert = True historyLen = len(history) i = historyLen - 1 cmdInputHistoryMax = QadVariables.get( QadMsg.translate("Environment variables", "CMDINPUTHISTORYMAX")) while i >= 0 and (historyLen - i) <= cmdInputHistoryMax: cmdName = history[i] i = i - 1 cmd = self.plugIn.QadCommands.getCommandObj(cmdName) if cmd is not None: if isLastCmdToInsert: isLastCmdToInsert = False msg = QadMsg.translate("Popup_menu_graph_window", "Repeat ") + cmd.getName() icon = cmd.getIcon() if icon is None: lastCmdAction = QAction(msg, popupMenu) else: lastCmdAction = QAction(icon, msg, popupMenu) cmd.connectQAction(lastCmdAction) popupMenu.addAction(lastCmdAction) else: if isRecentMenuToInsert: isRecentMenuToInsert = False recentCmdsMenu = popupMenu.addMenu( QadMsg.translate("Popup_menu_graph_window", "Recent commands")) icon = cmd.getIcon() if icon is None: recentCmdAction = QAction(cmd.getName(), recentCmdsMenu) else: recentCmdAction = QAction(icon, cmd.getName(), recentCmdsMenu) cmd.connectQAction(recentCmdAction) recentCmdsMenu.addAction(recentCmdAction) if isLastCmdToInsert == False: # menu non vuoto popupMenu.addSeparator() # aggiungo comando "OPTIONS" cmd = self.plugIn.QadCommands.getCommandObj( QadMsg.translate("Command_list", "OPTIONS")) icon = cmd.getIcon() if icon is None: optionsCmdAction = QAction(cmd.getName(), popupMenu) else: optionsCmdAction = QAction(icon, cmd.getName(), popupMenu) cmd.connectQAction(optionsCmdAction) popupMenu.addAction(optionsCmdAction) popupMenu.popup(self.canvas.mapToGlobal(pos)) #============================================================================ # runCmdFromPopupMenuOnGrip #============================================================================ def runCmdFromPopupMenuOnGrip(self, virtualGripCommand, gripPoint): # seleziona il grip gripPoint.select() # lancio il comando self.plugIn.runCommand("QadVirtualGripCommandsClass", [ virtualGripCommand, self.entitySetGripPoints, gripPoint.getPoint() ]) #============================================================================ # displayPopupMenuOnGrip #============================================================================ def displayPopupMenuOnGrip(self, pos, entity, gripPoint): if self.gripPopupMenu is not None: self.gripPopupMenu.hide() del self.gripPopupMenu self.gripPopupMenu = None popupMenu = QadGripPopupMenu(self.canvas) found = False # verifico se l'entità appartiene ad uno stile di quotatura if QadDimStyles.isDimEntity(entity): pass else: qadGeom = entity.getQadGeom(gripPoint.atGeom, gripPoint.atSubGeom) qadGeomType = qadGeom.whatIs() if qadGeomType == "ARC": qadGeom = entity.getQadGeom(gripPoint.atGeom, gripPoint.atSubGeom) # se punti finali if gripPoint.isIntersecting( qadGeom.getStartPt()) or gripPoint.isIntersecting( qadGeom.getEndPt()): found = True msg = QadMsg.translate("Popup_menu_grip_window", "Stretch") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.STRECTH, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Lengthen") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.LENGTHEN, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) # se punto medio elif gripPoint.isIntersecting(qadGeom.getMiddlePt()): found = True msg = QadMsg.translate("Popup_menu_grip_window", "Stretch") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.STRECTH, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Radius") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.CHANGE_RADIUS, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Convert to line") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.ARC_TO_LINE, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) if qadGeomType == "LINE": qadGeom = entity.getQadGeom(gripPoint.atGeom, gripPoint.atSubGeom) # se punti finali if gripPoint.isIntersecting( qadGeom.getStartPt()) or gripPoint.isIntersecting( qadGeom.getEndPt()): found = True msg = QadMsg.translate("Popup_menu_grip_window", "Stretch") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.STRECTH, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Lengthen") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.LENGTHEN, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) elif qadGeomType == "POLYLINE": isClosed = qadGeom.isClosed() nVertex = 0 found = False while nVertex < qadGeom.qty(): linearObject = qadGeom.getLinearObjectAt(nVertex) if gripPoint.isIntersecting(linearObject.getStartPt()): found = True msg = QadMsg.translate("Popup_menu_grip_window", "Stretch vertex") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.STRECTH, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) # punto iniziale if isClosed == False and nVertex == 0: msg = QadMsg.translate("Popup_menu_grip_window", "Lengthen") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.LENGTHEN, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Add vertex") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.ADD_VERTEX, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Add vertex before") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.ADD_VERTEX_BEFORE, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) break # punto medio if gripPoint.isIntersecting(linearObject.getMiddlePt()): found = True msg = QadMsg.translate("Popup_menu_grip_window", "Stretch") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.STRECTH, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Add vertex") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.ADD_VERTEX, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Add vertex before") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.ADD_VERTEX_BEFORE, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) gType = linearObject.whatIs() if gType == "LINE": msg = QadMsg.translate("Popup_menu_grip_window", "Convert to arc") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.LINE_TO_ARC, gripPoint) elif gType == "ARC": msg = QadMsg.translate("Popup_menu_grip_window", "Convert to line") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.ARC_TO_LINE, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) break nVertex = nVertex + 1 linearObject = qadGeom.getLinearObjectAt(-1) # ultima parte if not found and isClosed == False: # punto finale if gripPoint.isIntersecting(linearObject.getEndPt()): found = True msg = QadMsg.translate("Popup_menu_grip_window", "Stretch vertex") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.STRECTH, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Lengthen") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.LENGTHEN, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Add vertex") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.ADD_VERTEX, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) msg = QadMsg.translate("Popup_menu_grip_window", "Add vertex before") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.ADD_VERTEX_BEFORE, gripPoint) action.triggered.connect(f) popupMenu.addAction(action) if isClosed == False: # polyline # ci devono essere almeno 2 parti if qadGeom.qty() >= 2: msg = QadMsg.translate("Popup_menu_grip_window", "Remove vertex") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.REMOVE_VERTEX, gripPoint ) action.triggered.connect(f) popupMenu.addAction(action) else: # polygon # ci devono essere almeno 4 parti if qadGeom.qty() >= 4: msg = QadMsg.translate("Popup_menu_grip_window", "Remove vertex") action = QAction(msg, popupMenu) f = lambda: self.runCmdFromPopupMenuOnGrip( QadVirtualGripCommandsEnum.REMOVE_VERTEX, gripPoint ) action.triggered.connect(f) popupMenu.addAction(action) if found: # menu non vuoto popupMenu.popup(self.canvas.mapToGlobal(pos)) self.gripPopupMenu = popupMenu return None
class ValidatingLineEdit(QLineEdit): ''' Custom QLineEdit control that validates user input against database values as the user types. ''' # Signal raised when the user input is invalid. invalidatedInput = pyqtSignal() def __init__(self, parent=None, notificationbar=None, dbmodel=None, attrname=None): ''' :param parent: Parent widget :param notificationbar: instance of stdm.ui.NotificationBar class. ''' QLineEdit.__init__(self, parent) self._notifBar = notificationbar self._dbmodel = None self._attrName = None self._timer = QTimer(self) self._timer.setInterval(800) self._timer.setSingleShot(True) self._invalidMsg = "" self._filterOperator = "=" self._defaultStyleSheet = self.styleSheet() self._isValid = True self._currInvalidMsg = "" # Connect signals self._timer.timeout.connect(self.validateInput) self.textChanged.connect(self.onTextChanged) def validateInput(self): ''' Validate user input. ''' if self._dbmodel: if callable(self._dbmodel): modelObj = self._dbmodel() # Then it is a class instance else: modelObj = self._dbmodel self._dbmodel = self._dbmodel.__class__ objQueryProperty = getattr(self._dbmodel, self._attrName) modelRecord = modelObj.queryObject().filter( func.lower(objQueryProperty) == func.lower( self.text())).first() if modelRecord != None: self.setStyleSheet(INVALIDATESTYLESHEET) self._currInvalidMsg = self._invalidMsg.format("'" + self.text() + "'") self._isValid = False if self._notifBar: self._notifBar.insertErrorNotification( self._currInvalidMsg) def setInvalidMessage(self, message): ''' The message to be displayed when the user input is invalid. ''' self._invalidMsg = message def invalidMessage(self): ''' Returns the invalidation message for the control. ''' return self._invalidMsg def setDatabaseModel(self, dbmodel): ''' Set database model which should be callable. ''' self._dbmodel = dbmodel def setAttributeName(self, attrname): ''' Attribute name of the database model for validating against. ''' self._attrName = attrname def setModelAttr(self, model, attributeName): ''' Set a callable model class and attribute name. ''' self._dbmodel = model self._attrName = attributeName def setNotificationBar(self, notifBar): ''' Sets the notification bar. ''' self._notifBar = notifBar def setQueryOperator(self, queryOp): ''' Specify a string-based value for the filter operator that validates the user input. ''' self._filterOperator = queryOp def queryOperator(self): ''' Return the current query operator. Default is '=' operator. ''' return self._filterOperator def validate(self): ''' Convenience method that can be used to validate the current state of the control. ''' if not self._isValid: if self._notifBar: self._notifBar.insertErrorNotification(self._currInvalidMsg) return False else: return True def onTextChanged(self, userText): ''' Slot raised whenever the text changes in the control. ''' self.setStyleSheet(self._defaultStyleSheet) self._isValid = True if self._notifBar != None: self._notifBar.clear() self._timer.start()
class ExportDialog(QDialog, DIALOG_UI): ValidExtensions = ['xtf', 'XTF', 'itf', 'ITF', 'gml', 'GML', 'xml', 'XML'] def __init__(self, base_config, parent=None): QDialog.__init__(self, parent) self.setupUi(self) self.db_simple_factory = DbSimpleFactory() QgsGui.instance().enableAutoGeometryRestore(self) self.buttonBox.accepted.disconnect() self.buttonBox.clicked.connect(self.button_box_clicked) self.buttonBox.clear() self.buttonBox.addButton(QDialogButtonBox.Cancel) self.export_button_name = self.tr('Export') self.export_without_validate_button_name = self.tr( 'Export without validation') self.buttonBox.addButton(self.export_button_name, QDialogButtonBox.AcceptRole) self.buttonBox.addButton(QDialogButtonBox.Help) self.buttonBox.helpRequested.connect(self.help_requested) self.xtf_file_browse_button.clicked.connect( make_save_file_selector( self.xtf_file_line_edit, title=self.tr('Save in XTF Transfer File'), file_filter=self. tr('XTF Transfer File (*.xtf *XTF);;Interlis 1 Transfer File (*.itf *ITF);;XML (*.xml *XML);;GML (*.gml *GML)' ), extensions=['.' + ext for ext in self.ValidExtensions])) self.xtf_file_browse_button.clicked.connect( self.xtf_browser_opened_to_true) self.xtf_browser_was_opened = False self.type_combo_box.clear() self._lst_panel = dict() for db_id in self.db_simple_factory.get_db_list(False): self.type_combo_box.addItem(displayDbIliMode[db_id], db_id) db_factory = self.db_simple_factory.create_factory(db_id) item_panel = db_factory.get_config_panel(self, DbActionType.EXPORT) self._lst_panel[db_id] = item_panel self.db_layout.addWidget(item_panel) self.validators = Validators() fileValidator = FileValidator( pattern=['*.' + ext for ext in self.ValidExtensions], allow_non_existing=True) self.xtf_file_line_edit.setValidator(fileValidator) self.xtf_file_line_edit.textChanged.connect( self.validators.validate_line_edits) self.xtf_file_line_edit.textChanged.connect( self.xtf_browser_opened_to_false) self.xtf_file_line_edit.textChanged.emit( self.xtf_file_line_edit.text()) # Remove export without validate button when xtf change self.xtf_file_line_edit.textChanged.connect( self.remove_export_without_validate_button) #refresh the models on changing values but avoid massive db connects by timer self.refreshTimer = QTimer() self.refreshTimer.setSingleShot(True) self.refreshTimer.timeout.connect(self.refresh_models) for key, value in self._lst_panel.items(): value.notify_fields_modified.connect( self.request_for_refresh_models) self.validate_data = True # validates exported data by default, We use --disableValidation when is False self.base_configuration = base_config self.restore_configuration() self.export_models_model = ExportModels() self.refresh_models() self.type_combo_box.currentIndexChanged.connect(self.type_changed) def request_for_refresh_models(self): # hold refresh back self.refreshTimer.start(500) def refresh_models(self): self.refreshed_export_models_model() self.export_models_view.setModel(self.export_models_model) self.export_models_view.clicked.connect(self.export_models_model.check) self.export_models_view.space_pressed.connect( self.export_models_model.check) def refreshed_export_models_model(self): tool = self.type_combo_box.currentData() & ~DbIliMode.ili configuration = self.updated_configuration() schema = configuration.dbschema db_factory = self.db_simple_factory.create_factory(tool) config_manager = db_factory.get_db_command_config_manager( configuration) uri_string = config_manager.get_uri() db_connector = None try: db_connector = db_factory.get_db_connector(uri_string, schema) except DBConnectorError: # when wrong connection parameters entered, there should just be returned an empty model - so let it pass pass self.export_models_model.refresh_models(db_connector) def button_box_clicked(self, button): if self.buttonBox.buttonRole(button) == QDialogButtonBox.AcceptRole: if button.text() == self.export_button_name: self.validate_data = True elif button.text() == self.export_without_validate_button_name: self.validate_data = False self.accepted() def accepted(self): configuration = self.updated_configuration() if not self.xtf_file_line_edit.validator().validate( configuration.xtffile, 0)[0] == QValidator.Acceptable: self.txtStdout.setText( self. tr('Please set a valid INTERLIS XTF file before exporting data.' )) self.xtf_file_line_edit.setFocus() return if not configuration.iliexportmodels: self.txtStdout.setText( self.tr('Please set a model before exporting data.')) self.export_models_view.setFocus() return db_id = self.type_combo_box.currentData() res, message = self._lst_panel[db_id].is_valid() if not res: self.txtStdout.setText(message) return # If xtf browser was opened and the file exists, the user already chose # to overwrite the file if os.path.isfile(self.xtf_file_line_edit.text().strip() ) and not self.xtf_browser_was_opened: self.msg = QMessageBox() self.msg.setIcon(QMessageBox.Warning) self.msg.setText( self.tr( "{filename} already exists.\nDo you want to replace it?"). format(filename=os.path.basename( self.xtf_file_line_edit.text().strip()))) self.msg.setWindowTitle(self.tr("Save in XTF Transfer File")) self.msg.setStandardButtons(QMessageBox.Yes | QMessageBox.No) msg_box = self.msg.exec_() if msg_box == QMessageBox.No: return with OverrideCursor(Qt.WaitCursor): self.progress_bar.show() self.progress_bar.setValue(0) self.disable() self.txtStdout.setTextColor(QColor('#000000')) self.txtStdout.clear() exporter = iliexporter.Exporter() exporter.tool = self.type_combo_box.currentData() exporter.configuration = configuration self.save_configuration(configuration) exporter.stdout.connect(self.print_info) exporter.stderr.connect(self.on_stderr) exporter.process_started.connect(self.on_process_started) exporter.process_finished.connect(self.on_process_finished) self.progress_bar.setValue(25) try: if exporter.run() != iliexporter.Exporter.SUCCESS: self.enable() self.progress_bar.hide() return except JavaNotFoundError as e: self.txtStdout.setTextColor(QColor('#000000')) self.txtStdout.clear() self.txtStdout.setText(e.error_string) self.enable() self.progress_bar.hide() return self.buttonBox.clear() self.buttonBox.setEnabled(True) self.buttonBox.addButton(QDialogButtonBox.Close) self.progress_bar.setValue(100) def print_info(self, text): self.txtStdout.setTextColor(QColor('#000000')) self.txtStdout.append(text) QCoreApplication.processEvents() def on_stderr(self, text): color_log_text(text, self.txtStdout) self.advance_progress_bar_by_text(text) QCoreApplication.processEvents() def on_process_started(self, command): self.disable() self.txtStdout.setTextColor(QColor('#000000')) self.txtStdout.clear() self.txtStdout.setText(command) QCoreApplication.processEvents() def on_process_finished(self, exit_code, result): color = '#004905' if exit_code == 0 else '#aa2222' self.txtStdout.setTextColor(QColor(color)) self.txtStdout.append(self.tr('Finished ({})'.format(exit_code))) if result == iliexporter.Exporter.SUCCESS: self.buttonBox.clear() self.buttonBox.setEnabled(True) self.buttonBox.addButton(QDialogButtonBox.Close) else: if self.export_without_validate(): # button is removed to define order in GUI for button in self.buttonBox.buttons(): if button.text() == self.export_button_name: self.buttonBox.removeButton(button) # Check if button was previously added self.remove_export_without_validate_button() self.buttonBox.addButton( self.export_without_validate_button_name, QDialogButtonBox.AcceptRole).setStyleSheet( "color: #aa2222;") self.buttonBox.addButton(self.export_button_name, QDialogButtonBox.AcceptRole) self.enable() def export_without_validate(self): """ Valid if an error occurred that prevents executing the export without validations :return: True if you can execute the export without validations, False in other case """ log = self.txtStdout.toPlainText().lower() if "permission denied" in log or "access is denied" in log: return False return True def remove_export_without_validate_button(self): for button in self.buttonBox.buttons(): if button.text() == self.export_without_validate_button_name: self.buttonBox.removeButton(button) self.validate_data = True def updated_configuration(self): """ Get the configuration that is updated with the user configuration changes on the dialog. :return: Configuration """ configuration = ili2dbconfig.ExportConfiguration() mode = self.type_combo_box.currentData() self._lst_panel[mode].get_fields(configuration) configuration.tool = mode configuration.xtffile = self.xtf_file_line_edit.text().strip() configuration.iliexportmodels = ';'.join( self.export_models_model.checked_models()) configuration.ilimodels = ';'.join( self.export_models_model.stringList()) configuration.base_configuration = self.base_configuration if not self.validate_data: configuration.disable_validation = True return configuration def save_configuration(self, configuration): settings = QSettings() settings.setValue('QgisModelBaker/ili2pg/xtffile_export', configuration.xtffile) settings.setValue('QgisModelBaker/importtype', self.type_combo_box.currentData().name) mode = self.type_combo_box.currentData() db_factory = self.db_simple_factory.create_factory(mode) config_manager = db_factory.get_db_command_config_manager( configuration) config_manager.save_config_in_qsettings() def restore_configuration(self): settings = QSettings() for db_id in self.db_simple_factory.get_db_list(False): configuration = iliexporter.ExportConfiguration() db_factory = self.db_simple_factory.create_factory(db_id) config_manager = db_factory.get_db_command_config_manager( configuration) config_manager.load_config_from_qsettings() self._lst_panel[db_id].set_fields(configuration) mode = settings.value('QgisModelBaker/importtype') mode = DbIliMode[ mode] if mode else self.db_simple_factory.default_database mode = mode & ~DbIliMode.ili self.type_combo_box.setCurrentIndex(self.type_combo_box.findData(mode)) self.refresh_db_panel() def disable(self): self.type_combo_box.setEnabled(False) for key, value in self._lst_panel.items(): value.setEnabled(False) self.ili_config.setEnabled(False) self.buttonBox.setEnabled(False) def enable(self): self.type_combo_box.setEnabled(True) for key, value in self._lst_panel.items(): value.setEnabled(True) self.ili_config.setEnabled(True) self.buttonBox.setEnabled(True) def type_changed(self): self.txtStdout.clear() self.remove_export_without_validate_button() self.refresh_db_panel() self.refresh_models() self.txtStdout.clear() def refresh_db_panel(self): self.progress_bar.hide() db_id = self.type_combo_box.currentData() self.db_wrapper_group_box.setTitle(displayDbIliMode[db_id]) # Refresh panels for key, value in self._lst_panel.items(): value.interlis_mode = False is_current_panel_selected = db_id == key value.setVisible(is_current_panel_selected) if is_current_panel_selected: value._show_panel() def link_activated(self, link): if link.url() == '#configure': cfg = OptionsDialog(self.base_configuration) if cfg.exec_(): settings = QSettings() settings.beginGroup('QgisModelBaker/ili2db') self.base_configuration.save(settings) else: QDesktopServices.openUrl(link) def help_requested(self): os_language = QLocale( QSettings().value('locale/userLocale')).name()[:2] if os_language in ['es', 'de']: webbrowser.open( "https://opengisch.github.io/QgisModelBaker/docs/{}/user-guide.html#export-an-interlis-transfer-file-xtf" .format(os_language)) else: webbrowser.open( "https://opengisch.github.io/QgisModelBaker/docs/user-guide.html#export-an-interlis-transfer-file-xtf" ) def xtf_browser_opened_to_true(self): """ Slot. Sets a flag to true to eventually avoid asking a user whether to overwrite a file. """ self.xtf_browser_was_opened = True def xtf_browser_opened_to_false(self): """ Slot. Sets a flag to false to eventually ask a user whether to overwrite a file. """ self.xtf_browser_was_opened = False def advance_progress_bar_by_text(self, text): if text.strip() == 'Info: compile models…': self.progress_bar.setValue(50) elif text.strip() == 'Info: create table structure…': self.progress_bar.setValue(75)
class ColorsDock(QgsDockWidget): """ Custom dock widget for modfication of project colors """ def __init__(self, iface): super().__init__() self.iface = iface stack = QgsPanelWidgetStack() self.main_panel = QgsPanelWidget() self.main_panel.setDockMode(True) layout = QVBoxLayout() layout.setContentsMargins(0, 0, 0, 0) layout.setMargin(0) # pylint: disable=no-value-for-parameter self.main_panel.setLayout(layout) self.setWindowTitle(self.tr('Project Colors')) self.setObjectName('project_colors_dock') scheme = [ s for s in QgsApplication.colorSchemeRegistry().schemes() if isinstance(s, QgsProjectColorScheme) ] self.color_list = QgsColorSchemeList(None, scheme[0]) layout.addWidget(self.color_list) # defer updates for a short timeout -- prevents flooding with signals # when doing lots of color changes, improving app responsiveness self.timer = QTimer(self) self.timer.setSingleShot(True) self.timer.setInterval(100) self.block_updates = False def apply_colors(): """ Applies color changes to canvas and project """ self.block_updates = True self.color_list.saveColorsToScheme() self.block_updates = False self.iface.mapCanvas().refreshAllLayers() self.timer.timeout.connect(apply_colors) def colors_changed(): """ Triggers a deferred update of the project colors """ if self.timer.isActive(): return self.timer.start() self.color_list.model().dataChanged.connect(colors_changed) stack.setMainPanel(self.main_panel) self.setWidget(stack) QgsProject.instance().projectColorsChanged.connect( self.repopulate_list) def repopulate_list(self): """ Rebuild the colors list when project colors are changed """ if self.block_updates: return scheme = [ s for s in QgsApplication.colorSchemeRegistry().schemes() if isinstance(s, QgsProjectColorScheme) ][0] self.color_list.setScheme(scheme)
class RelationEditorFeatureSideWidget(QgsAbstractRelationEditorWidget, WidgetUi): class LastView(str, Enum): ListView = "ListView" IconView = "IconView" settingsLastView = QgsSettingsEntryString( 'relationEditorFeatureSideLastView', PluginHelper.PLUGIN_SLUG, LastView.ListView, PluginHelper.tr( 'Last view used in the relation editor document side widget')) signalCurrentViewChanged = pyqtSignal() def __init__(self, config, parent): super().__init__(config, parent) self._updateUiTimer = QTimer() self._updateUiTimer.setSingleShot(True) self._updateUiTimer.timeout.connect(self.updateUiTimeout) self.setupUi(self) print('DocumentRelationEditorFeatureSideWidget.__init__') self.documents_path = str() self.document_filename = str() self.model = DocumentModel() self._nmRelation = QgsRelation() self._layerInSameTransactionGroup = False self._currentDocumentId = None # Actions self.actionToggleEditing = QAction( QIcon(":/images/themes/default/mActionToggleEditing.svg"), self.tr("Toggle editing mode for child layers")) self.actionToggleEditing.setCheckable(True) self.actionSaveEdits = QAction( QIcon(":/images/themes/default/mActionSaveEdits.svg"), self.tr("Save child layer edits")) self.actionShowForm = QAction( QIcon(":/images/themes/default/mActionMultiEdit.svg"), self.tr("Show form")) self.actionAddFeature = QAction( QIcon(":/images/themes/default/symbologyAdd.svg"), self.tr("Add document")) self.actionDeleteFeature = QAction( QIcon(":/images/themes/default/mActionDeleteSelected.svg"), self.tr("Drop document")) self.actionLinkFeature = QAction( QIcon(":/images/themes/default/mActionLink.svg"), self.tr("Link document")) self.actionUnlinkFeature = QAction( QIcon(":/images/themes/default/mActionUnlink.svg"), self.tr("Unlink document")) # Tool buttons self.mToggleEditingToolButton.setDefaultAction( self.actionToggleEditing) self.mSaveEditsToolButton.setDefaultAction(self.actionSaveEdits) self.mShowFormToolButton.setDefaultAction(self.actionShowForm) self.mAddFeatureToolButton.setDefaultAction(self.actionAddFeature) self.mDeleteFeatureToolButton.setDefaultAction( self.actionDeleteFeature) self.mLinkFeatureToolButton.setDefaultAction(self.actionLinkFeature) self.mUnlinkFeatureToolButton.setDefaultAction( self.actionUnlinkFeature) self.mListViewToolButton.setIcon( QIcon(":/images/themes/default/mIconListView.svg")) self.mIconViewToolButton.setIcon( QIcon(":/images/themes/default/mActionIconView.svg")) self.mListViewToolButton.setChecked(self.currentView == str( RelationEditorFeatureSideWidget.LastView.ListView)) self.mIconViewToolButton.setChecked(self.currentView == str( RelationEditorFeatureSideWidget.LastView.IconView)) # Quick image providers self._previewImageProvider = PreviewImageProvider() self._fileTypeSmallIconProvider = FileTypeIconImageProvider(32) self._fileTypeBigIconProvider = FileTypeIconImageProvider(100) # Setup QML part self.view = QQuickWidget() self.view.rootContext().setContextProperty("documentModel", self.model) self.view.rootContext().setContextProperty("parentWidget", self) self.view.rootContext().setContextProperty( "CONST_LIST_VIEW", str(RelationEditorFeatureSideWidget.LastView.ListView)) self.view.rootContext().setContextProperty( "CONST_ICON_VIEW", str(RelationEditorFeatureSideWidget.LastView.IconView)) self.view.engine().addImageProvider("previewImageProvider", self._previewImageProvider) self.view.engine().addImageProvider("fileTypeSmallIconProvider", self._fileTypeSmallIconProvider) self.view.engine().addImageProvider("fileTypeBigIconProvider", self._fileTypeBigIconProvider) self.view.setSource( QUrl.fromLocalFile( os.path.join(os.path.dirname(__file__), '../qml/DocumentList.qml'))) self.view.setResizeMode(QQuickWidget.SizeRootObjectToView) self.layout().addWidget(self.view) # Set initial state for add / remove etc.buttons self.updateButtons() # Signal slots self.actionToggleEditing.triggered.connect(self.toggleEditing) self.actionSaveEdits.triggered.connect(self.saveChildLayerEdits) self.actionShowForm.triggered.connect(self.showDocumentForm) self.actionAddFeature.triggered.connect(self.addDocument) self.actionDeleteFeature.triggered.connect(self.dropDocument) self.actionLinkFeature.triggered.connect(self.linkDocument) self.actionUnlinkFeature.triggered.connect(self.unlinkDocument) self.mListViewToolButton.toggled.connect( self.listViewToolButtonToggled) self.mIconViewToolButton.toggled.connect( self.iconViewToolButtonToggled) @pyqtProperty(str) def currentView(self): return self.settingsLastView.value() def updateCurrentView(self): if self.mListViewToolButton.isChecked(): self.settingsLastView.setValue( str(RelationEditorFeatureSideWidget.LastView.ListView)) else: self.settingsLastView.setValue( str(RelationEditorFeatureSideWidget.LastView.IconView)) self.signalCurrentViewChanged.emit() @pyqtProperty(QVariant) def currentDocumentId(self): return self._currentDocumentId @pyqtSlot(QVariant) def setCurrentDocumentId(self, value): self._currentDocumentId = value self.updateButtons() def nmRelation(self): return self._nmRelation def config(self): return {} def setConfig(self, config): self.documents_path = config['documents_path'] self.document_filename = config['document_filename'] def updateUi(self): self._updateUiTimer.start(200) def updateUiTimeout(self): self.model.init(self.relation(), self.nmRelation(), self.feature(), self.documents_path, self.document_filename) def updateButtons(self): toggleEditingButtonEnabled = False editable = False linkable = False spatial = False selectionNotEmpty = self._currentDocumentId is not None if self.relation().isValid(): toggleEditingButtonEnabled = self.relation().referencingLayer( ).supportsEditing() editable = self.relation().referencingLayer().isEditable() linkable = self.relation().referencingLayer().isEditable() spatial = self.relation().referencingLayer().isSpatial() if self.nmRelation().isValid(): toggleEditingButtonEnabled |= self.nmRelation().referencedLayer( ).supportsEditing() editable = self.nmRelation().referencedLayer().isEditable() spatial = self.nmRelation().referencedLayer().isSpatial() self.mToggleEditingToolButton.setEnabled(toggleEditingButtonEnabled) self.mAddFeatureToolButton.setEnabled(editable) self.mLinkFeatureToolButton.setEnabled(linkable) self.mDeleteFeatureToolButton.setEnabled(editable and selectionNotEmpty) self.mUnlinkFeatureToolButton.setEnabled(linkable and selectionNotEmpty) self.mToggleEditingToolButton.setChecked(editable) self.mSaveEditsToolButton.setEnabled(editable or linkable) self.mShowFormToolButton.setEnabled(selectionNotEmpty) self.mToggleEditingToolButton.setVisible( self._layerInSameTransactionGroup is False) self.mSaveEditsToolButton.setVisible( self._layerInSameTransactionGroup is False) def afterSetRelations(self): self._nmRelation = QgsProject.instance().relationManager().relation( str(self.nmRelationId())) self._checkTransactionGroup() if self.relation().isValid(): self.relation().referencingLayer().editingStopped.connect( self.updateButtons) self.relation().referencingLayer().editingStarted.connect( self.updateButtons) if self.nmRelation().isValid(): self.nmRelation().referencedLayer().editingStarted.connect( self.updateButtons) self.nmRelation().referencedLayer().editingStopped.connect( self.updateButtons) self.updateButtons() def _checkTransactionGroup(self): self._layerInSameTransactionGroup = False connectionString = PluginHelper.connectionString( self.relation().referencedLayer().source()) transactionGroup = QgsProject.instance().transactionGroup( self.relation().referencedLayer().providerType(), connectionString) if transactionGroup is None: return if self.nmRelation().isValid(): if (self.relation().referencedLayer() in transactionGroup.layers() and self.relation().referencingLayer() in transactionGroup.layers() and self.nmRelation().referencedLayer() in transactionGroup.layers()): self._layerInSameTransactionGroup = True else: if (self.relation().referencedLayer() in transactionGroup.layers() and self.relation().referencingLayer() in transactionGroup.layers()): self._layerInSameTransactionGroup = True def parentFormValueChanged(self, attribute, newValue): pass def checkLayerEditingMode(self): if self.relation().referencingLayer().isEditable() is False: QMessageBox.critical( self, self.tr("Layer not editable"), self.tr("Layer '{0}' is not in editing mode.").format( self.relation().referencingLayer().name())) return False if self.nmRelation().isValid(): if self.nmRelation().referencedLayer().isEditable() is False: QMessageBox.critical( self, self.tr("Layer not editable"), self.tr("Layer '{0}' is not in editing mode.").format( self.nmRelation().referencedLayer().name())) return False return True @pyqtSlot(bool) def toggleEditing(self, state): super().toggleEditing(state) self.updateButtons() @pyqtSlot() def saveChildLayerEdits(self): super().saveEdits() @pyqtSlot() def addDocument(self): # Workaround because of QGIS not resetting this property after linking features self.editorContext().vectorLayerTools().setForceSuppressFormPopup( False) self.addFeature() @pyqtSlot() def dropDocument(self): if self._currentDocumentId is None: return self.deleteFeature(self._currentDocumentId) @pyqtSlot(str) def addDroppedDocument(self, fileUrl): if self.checkLayerEditingMode() is False: return # Workaround because of QGIS not resetting this property after linking features self.editorContext().vectorLayerTools().setForceSuppressFormPopup( False) layer = self.relation().referencingLayer() if self.nmRelation().isValid(): layer = self.nmRelation().referencedLayer() default_documents_path = str() if self.documents_path: exp = QgsExpression(self.documents_path) context = QgsExpressionContext() context.appendScopes( QgsExpressionContextUtils.globalProjectLayerScopes(layer)) default_documents_path = str(exp.evaluate(context)) filename = QUrl(fileUrl).toLocalFile() if default_documents_path: filename = QDir(default_documents_path).relativeFilePath(filename) keyAttrs = dict() # Fields of the linking table fields = self.relation().referencingLayer().fields() # For generated relations insert the referenced layer field if self.relation().type() == QgsRelation.Generated: polyRel = self.relation().polymorphicRelation() keyAttrs[fields.indexFromName( polyRel.referencedLayerField())] = polyRel.layerRepresentation( self.relation().referencedLayer()) if self.nmRelation().isValid(): # only normal relations support m:n relation if self.nmRelation().type() != QgsRelation.Normal: QMessageBox.critical( self, self.tr("Add document"), self. tr("Invalid relation, Only normal relations support m:n relation." )) return # Pre fill inserting document filepath attributes = { self.nmRelation().referencedLayer().fields().indexFromName(self.document_filename): filename } # n:m Relation: first let the user create a new feature on the other table # and autocreate a new linking feature. ok, feature = self.editorContext().vectorLayerTools().addFeature( self.nmRelation().referencedLayer(), attributes, QgsGeometry()) if not ok: QMessageBox.critical( self, self.tr("Add document"), self.tr("Could not add a new linking feature.")) return for key in self.relation().fieldPairs(): keyAttrs[fields.indexOf(key)] = self.feature().attribute( self.relation().fieldPairs()[key]) for key in self.nmRelation().fieldPairs(): keyAttrs[fields.indexOf(key)] = feature.attribute( self.nmRelation().fieldPairs()[key]) linkFeature = QgsVectorLayerUtils.createFeature( self.relation().referencingLayer(), QgsGeometry(), keyAttrs, self.relation().referencingLayer().createExpressionContext()) if not self.relation().referencingLayer().addFeature(linkFeature): QMessageBox.critical(self, self.tr("Add document"), self.tr("Could not add a new feature.")) return else: for key in self.relation().fieldPairs(): keyAttrs[fields.indexFromName(key)] = self.feature().attribute( self.relation().fieldPairs()[key]) # Pre fill inserting document filepath keyAttrs[fields] = filename ok, feature = self.editorContext().vectorLayerTools().addFeature( self.relation().referencingLayer(), keyAttrs, QgsGeometry()) if not ok: QMessageBox.critical(self, self.tr("Add document"), self.tr("Could not add a new feature.")) return self.updateUi() @pyqtSlot() def linkDocument(self): self.linkFeature() @pyqtSlot() def unlinkDocument(self): if self._currentDocumentId is None: return self.unlinkFeature(self._currentDocumentId) @pyqtSlot() def showDocumentForm(self): if self._currentDocumentId is None: return layer = self.relation().referencingLayer() if self.nmRelation().isValid(): layer = self.nmRelation().referencedLayer() showDocumentFormDialog = QgsAttributeDialog( layer, layer.getFeature(self._currentDocumentId), False, self, True) showDocumentFormDialog.exec() self.updateUi() @pyqtSlot(bool) def listViewToolButtonToggled(self, checked): self.mIconViewToolButton.blockSignals(True) self.mIconViewToolButton.setChecked(checked is False) self.mIconViewToolButton.blockSignals(False) self.updateCurrentView() @pyqtSlot(bool) def iconViewToolButtonToggled(self, checked): self.mListViewToolButton.blockSignals(True) self.mListViewToolButton.setChecked(checked is False) self.mListViewToolButton.blockSignals(False) self.updateCurrentView()
class Downloader(QObject): NOT_FOUND = 0 NO_ERROR = 0 TIMEOUT_ERROR = 4 UNKNOWN_ERROR = -1 replyFinished = pyqtSignal(str, int, int) def __init__(self, parent=None): QObject.__init__(self, parent) self.queue = [] self.redirected_urls = {} self.requestingUrls = [] self.replies = [] self.eventLoop = QEventLoop() self.sync = False self.fetchedFiles = {} self.clearCounts() self.timer = QTimer() self.timer.setSingleShot(True) self.timer.timeout.connect(self.fetchTimedOut) # network settings self.userAgent = "QuickMapServices tile layer (+https://github.com/nextgis/quickmapservices)" self.max_connection = 4 self.default_cache_expiration = 24 self.errorStatus = Downloader.NO_ERROR def clearCounts(self): self.fetchSuccesses = 0 self.fetchErrors = 0 self.cacheHits = 0 def fetchTimedOut(self): self.log("Downloader.timeOut()") self.abort() self.errorStatus = Downloader.TIMEOUT_ERROR def abort(self): # clear queue and abort sent requests self.queue = [] self.timer.stop() for reply in self.replies: reply.abort() self.errorStatus = Downloader.UNKNOWN_ERROR def replyFinishedSlot(self): reply = self.sender() url = reply.request().url().toString() self.log("replyFinishedSlot: %s" % url) if not url in self.fetchedFiles: self.fetchedFiles[url] = None self.requestingUrls.remove(url) self.replies.remove(reply) isFromCache = 0 httpStatusCode = reply.attribute(QNetworkRequest.HttpStatusCodeAttribute) if reply.error() == QNetworkReply.NoError: if httpStatusCode == 301: new_url = str(reply.rawHeader("Location")) self.addToQueue(new_url, url) else: self.fetchSuccesses += 1 if reply.attribute(QNetworkRequest.SourceIsFromCacheAttribute): self.cacheHits += 1 isFromCache = 1 elif not reply.hasRawHeader("Cache-Control"): cache = QgsNetworkAccessManager.instance().cache() if cache: metadata = cache.metaData(reply.request().url()) # self.log("Expiration date: " + metadata.expirationDate().toString().encode("utf-8")) if metadata.expirationDate().isNull(): metadata.setExpirationDate( QDateTime.currentDateTime().addSecs(self.default_cache_expiration * 60 * 60)) cache.updateMetaData(metadata) self.log( "Default expiration date has been set: %s (%d h)" % (url, self.default_cache_expiration)) if reply.isReadable(): data = reply.readAll() if self.redirected_urls.has_key(url): url = self.redirected_urls[url] self.fetchedFiles[url] = data else: qDebug("http status code: " + str(httpStatusCode)) # self.emit(SIGNAL('replyFinished(QString, int, int)'), url, reply.error(), isFromCache) self.replyFinished.emit(url, reply.error(), isFromCache) else: if self.sync and httpStatusCode == 404: self.fetchedFiles[url] = self.NOT_FOUND self.fetchErrors += 1 if self.errorStatus == self.NO_ERROR: self.errorStatus = self.UNKNOWN_ERROR reply.deleteLater() if debug_mode: qDebug("queue: %d, requesting: %d" % (len(self.queue), len(self.requestingUrls))) if len(self.queue) + len(self.requestingUrls) == 0: # all replies have been received if self.sync: self.logT("eventLoop.quit()") self.eventLoop.quit() else: self.timer.stop() elif len(self.queue) > 0: # start fetching the next file self.fetchNext() self.log("replyFinishedSlot End: %s" % url) def fetchNext(self): if len(self.queue) == 0: return url = self.queue.pop(0) self.log("fetchNext: %s" % url) request = QNetworkRequest(QUrl(url)) request.setRawHeader("User-Agent", self.userAgent) reply = QgsNetworkAccessManager.instance().get(request) reply.finished.connect(self.replyFinishedSlot) self.requestingUrls.append(url) self.replies.append(reply) return reply def fetchFiles(self, urlList, timeout_ms=0): self.log("fetchFiles()") self.sync = True self.queue = [] self.redirected_urls = {} self.clearCounts() self.errorStatus = Downloader.NO_ERROR self.fetchedFiles = {} if len(urlList) == 0: return self.fetchedFiles for url in urlList: self.addToQueue(url) for i in range(self.max_connection): self.fetchNext() if timeout_ms > 0: self.timer.setInterval(timeout_ms) self.timer.start() self.logT("eventLoop.exec_(): " + str(self.eventLoop)) self.eventLoop.exec_() self.log("fetchFiles() End: %d" % self.errorStatus) if timeout_ms > 0: self.timer.stop() return self.fetchedFiles def addToQueue(self, url, redirected_from=None): if url in self.queue: return False self.queue.append(url) if redirected_from is not None: self.redirected_urls[url] = redirected_from return True def queueCount(self): return len(self.queue) def finishedCount(self): return len(self.fetchedFiles) def unfinishedCount(self): return len(self.queue) + len(self.requestingUrls) def log(self, msg): if debug_mode: qDebug(msg) def logT(self, msg): if debug_mode: qDebug("%s: %s" % (str(threading.current_thread()), msg)) def fetchFilesAsync(self, urlList, timeout_ms=0): self.log("fetchFilesAsync()") self.sync = False self.queue = [] self.clearCounts() self.errorStatus = Downloader.NO_ERROR self.fetchedFiles = {} if len(urlList) == 0: return self.fetchedFiles for url in urlList: self.addToQueue(url) for i in range(self.max_connection): self.fetchNext() if timeout_ms > 0: self.timer.setInterval(timeout_ms) self.timer.start()
class TimeManagerGuiControl(QObject): """This class controls all plugin-related GUI elements. Emitted signals are defined here.""" showOptions = pyqtSignal() signalExportVideo = pyqtSignal(str, int, bool, bool, bool) toggleTime = pyqtSignal() toggleArchaeology = pyqtSignal() back = pyqtSignal() forward = pyqtSignal() play = pyqtSignal() signalCurrentTimeUpdated = pyqtSignal(QDateTime) signalSliderTimeChanged = pyqtSignal(float) signalTimeFrameType = pyqtSignal(str) signalTimeFrameSize = pyqtSignal(int) signalSaveOptions = pyqtSignal() signalArchDigitsSpecified = pyqtSignal(int) signalArchCancelled = pyqtSignal() def __init__(self, iface, model): """Initialize the GUI control""" QObject.__init__(self) self.iface = iface self.model = model self.optionsDialog = None self.path = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'ui') # load the form self.dock = uic.loadUi(os.path.join(self.path, DOCK_WIDGET_FILE)) self.iface.addDockWidget(Qt.BottomDockWidgetArea, self.dock) self.dock.pushButtonExportVideo.setEnabled(False) # only enabled if there are managed layers self.dock.pushButtonOptions.clicked.connect(self.optionsClicked) self.dock.pushButtonExportVideo.clicked.connect(self.exportVideoClicked) self.dock.pushButtonToggleTime.clicked.connect(self.toggleTimeClicked) self.dock.pushButtonArchaeology.clicked.connect(self.archaeologyClicked) self.dock.pushButtonBack.clicked.connect(self.backClicked) self.dock.pushButtonForward.clicked.connect(self.forwardClicked) self.dock.pushButtonPlay.clicked.connect(self.playClicked) self.dock.dateTimeEditCurrentTime.dateTimeChanged.connect(self.currentTimeChangedDateText) # self.dock.horizontalTimeSlider.valueChanged.connect(self.currentTimeChangedSlider) self.sliderTimer = QTimer(self) self.sliderTimer.setInterval(250) self.sliderTimer.setSingleShot(True) self.sliderTimer.timeout.connect(self.currentTimeChangedSlider) self.dock.horizontalTimeSlider.valueChanged.connect(self.startTimer) self.dock.comboBoxTimeExtent.currentIndexChanged[str].connect(self.currentTimeFrameTypeChanged) self.dock.spinBoxTimeExtent.valueChanged.connect(self.currentTimeFrameSizeChanged) # this signal is responsible for rendering the label self.iface.mapCanvas().renderComplete.connect(self.renderLabel) # create shortcuts self.focusSC = QShortcut(QKeySequence("Ctrl+Space"), self.dock) self.focusSC.activated.connect(self.dock.horizontalTimeSlider.setFocus) # put default values self.dock.horizontalTimeSlider.setMinimum(conf.MIN_TIMESLIDER_DEFAULT) self.dock.horizontalTimeSlider.setMaximum(conf.MAX_TIMESLIDER_DEFAULT) self.dock.dateTimeEditCurrentTime.setMinimumDate(MIN_QDATE) self.showLabel = conf.DEFAULT_SHOW_LABEL self.exportEmpty = conf.DEFAULT_EXPORT_EMPTY self.labelOptions = TimestampLabelConfig(self.model) # placeholders for widgets that are added dynamically self.bcdateSpinBox = None # add to plugins toolbar try: self.action = QAction(QCoreApplication.translate("TimeManagerGuiControl", "Toggle visibility"), self.iface.mainWindow()) self.action.triggered.connect(self.toggleDock) self.iface.addPluginToMenu(QCoreApplication.translate("TimeManagerGuiControl", "&TimeManager"), self.action) except Exception as e: pass # OK for testing def startTimer(self): self.sliderTimer.start() def getLabelFormat(self): return self.labelOptions.fmt def getLabelFont(self): return self.labelOptions.font def getLabelSize(self): return self.labelOptions.size def getLabelColor(self): return self.labelOptions.color def getLabelBgColor(self): return self.labelOptions.bgcolor def getLabelPlacement(self): return self.labelOptions.placement def setLabelFormat(self, fmt): if not fmt: return self.labelOptions.fmt = fmt def setLabelFont(self, font): if not font: return self.labelOptions.font = font def setLabelSize(self, size): if not size: return self.labelOptions.size = size def setLabelColor(self, color): if not color: return self.labelOptions.color = color def setLabelBgColor(self, bgcolor): if not bgcolor: return self.labelOptions.bgcolor = bgcolor def setLabelPlacement(self, placement): if not placement: return self.labelOptions.placement = placement def toggleDock(self): self.dock.setVisible(not self.dock.isVisible()) def getOptionsDialog(self): return self.optionsDialog def showAnimationOptions(self): self.animationDialog = uic.loadUi(os.path.join(self.path, ANIMATION_WIDGET_FILE)) def selectFile(): self.animationDialog.lineEdit.setText(QFileDialog.getOpenFileName()) self.animationDialog.pushButton.clicked.connect(self.selectAnimationFolder) self.animationDialog.buttonBox.accepted.connect(self.sendAnimationOptions) self.animationDialog.show() def selectAnimationFolder(self): prev_directory = TimeManagerProjectHandler.plugin_setting(conf.LAST_ANIMATION_PATH_TAG) if prev_directory: self.animationDialog.lineEdit.setText(QFileDialog.getExistingDirectory(directory=prev_directory)) else: self.animationDialog.lineEdit.setText(QFileDialog.getExistingDirectory()) def sendAnimationOptions(self): path = self.animationDialog.lineEdit.text() if path == "": self.showAnimationOptions() TimeManagerProjectHandler.set_plugin_setting(conf.LAST_ANIMATION_PATH_TAG, path) delay_millis = self.animationDialog.spinBoxDelay.value() export_gif = self.animationDialog.radioAnimatedGif.isChecked() export_video = self.animationDialog.radioVideo.isChecked() do_clear = self.animationDialog.clearCheckBox.isChecked() self.signalExportVideo.emit(path, delay_millis, export_gif, export_video, do_clear) def showLabelOptions(self): options = self.labelOptions self.dialog = QDialog() lo = uic.loadUiType(os.path.join(self.path, LABEL_OPTIONS_WIDGET_FILE))[0] self.labelOptionsDialog = lo() self.labelOptionsDialog.setupUi(self.dialog) self.labelOptionsDialog.fontsize.setValue(options.size) self.labelOptionsDialog.time_format.setText(options.fmt) self.labelOptionsDialog.font.setCurrentFont(QFont(options.font)) self.labelOptionsDialog.placement.addItems(TimestampLabelConfig.PLACEMENTS) self.labelOptionsDialog.placement.setCurrentIndex(TimestampLabelConfig.PLACEMENTS.index(options.placement)) self.labelOptionsDialog.text_color.setColor(QColor(options.color)) self.labelOptionsDialog.bg_color.setColor(QColor(options.bgcolor)) self.labelOptionsDialog.buttonBox.accepted.connect(self.saveLabelOptions) self.dialog.show() def saveLabelOptions(self): self.labelOptions.font = self.labelOptionsDialog.font.currentFont().family() self.labelOptions.size = self.labelOptionsDialog.fontsize.value() self.labelOptions.bgcolor = self.labelOptionsDialog.bg_color.color().name() self.labelOptions.color = self.labelOptionsDialog.text_color.color().name() self.labelOptions.placement = self.labelOptionsDialog.placement.currentText() self.labelOptions.fmt = self.labelOptionsDialog.time_format.text() if self.labelOptionsDialog.radioButton_dt.isChecked(): self.labelOptions.type = "dt" if self.labelOptionsDialog.radioButton_beginning.isChecked(): self.labelOptions.type = "beginning" if self.labelOptionsDialog.radioButton_epoch.isChecked(): self.labelOptions.type = "epoch" def enableArchaeologyTextBox(self): self.dock.dateTimeEditCurrentTime.dateTimeChanged.connect(self.currentTimeChangedDateText) if self.bcdateSpinBox is None: self.bcdateSpinBox = self.createBCWidget(self.dock) self.bcdateSpinBox.editingFinished.connect(self.currentBCYearChanged) self.replaceWidget(self.dock.horizontalLayout, self.dock.dateTimeEditCurrentTime, self.bcdateSpinBox, 5) def getTimeWidget(self): if time_util.is_archaelogical(): return self.bcdateSpinBox else: return self.dock.dateTimeEditCurrentTime def currentBCYearChanged(self): val = self.bcdateSpinBox.text() try: bcdate_util.BCDate.from_str(val, strict_zeros=False) self.signalCurrentTimeUpdated.emit(val) except Exception as e: warn("Invalid bc date: {}".format(val)) # how to mark as such? return def disableArchaeologyTextBox(self): if self.bcdateSpinBox is None: return self.replaceWidget(self.dock.horizontalLayout, self.bcdateSpinBox, self.dock.dateTimeEditCurrentTime, 5) def createBCWidget(self, mainWidget): newWidget = QLineEdit(mainWidget) # QtGui.QSpinBox(mainWidget) # newWidget.setMinimum(-1000000) # newWidget.setValue(-1) newWidget.setText("0001 BC") return newWidget def replaceWidget(self, layout, oldWidget, newWidget, idx): """ Replaces oldWidget with newWidget at layout at index idx The way it is done, the widget is not destroyed and the connections to it remain """ layout.removeWidget(oldWidget) oldWidget.close() # I wonder if this has any memory leaks? </philosoraptor> layout.insertWidget(idx, newWidget) newWidget.show() layout.update() def optionsClicked(self): self.showOptions.emit() def exportVideoClicked(self): self.showAnimationOptions() def toggleTimeClicked(self): self.toggleTime.emit() def archaeologyClicked(self): self.toggleArchaeology.emit() def showArchOptions(self): self.archMenu = uic.loadUi(os.path.join(self.path, ARCH_WIDGET_FILE)) self.archMenu.buttonBox.accepted.connect(self.saveArchOptions) self.archMenu.buttonBox.rejected.connect(self.cancelArch) self.archMenu.show() def saveArchOptions(self): self.signalArchDigitsSpecified.emit(self.archMenu.numDigits.value()) def cancelArch(self): self.signalArchCancelled.emit() def backClicked(self): self.back.emit() def forwardClicked(self): self.forward.emit() def playClicked(self): if self.dock.pushButtonPlay.isChecked(): self.dock.pushButtonPlay.setIcon(QIcon("TimeManager:images/pause.png")) else: self.dock.pushButtonPlay.setIcon(QIcon("TimeManager:images/play.png")) self.play.emit() def currentTimeChangedSlider(self): sliderVal = self.dock.horizontalTimeSlider.value() try: pct = (sliderVal - self.dock.horizontalTimeSlider.minimum()) * 1.0 / ( self.dock.horizontalTimeSlider.maximum() - self.dock.horizontalTimeSlider.minimum()) except Exception as e: # slider is not properly initialized yet return if self.model.getActiveDelimitedText() and qgs.getVersion() < conf.MIN_DTEXT_FIXED: time.sleep(0.1) # hack to fix issue in qgis core with delimited text which was fixed in 2.9 self.signalSliderTimeChanged.emit(pct) def currentTimeChangedDateText(self, qdate): # info("changed time via text") self.signalCurrentTimeUpdated.emit(qdate) def currentTimeFrameTypeChanged(self, frameType): self.signalTimeFrameType.emit(frameType) def currentTimeFrameSizeChanged(self, frameSize): if frameSize < 1: # time frame size = 0 is meaningless self.dock.spinBoxTimeExtent.setValue(1) return self.signalTimeFrameSize.emit(frameSize) def unload(self): """Unload the plugin""" self.iface.removeDockWidget(self.dock) self.iface.removePluginMenu("TimeManager", self.action) def setWindowTitle(self, title): self.dock.setWindowTitle(title) def showOptionsDialog(self, layerList, animationFrameLength, playBackwards=False, loopAnimation=False): """Show the optionsDialog and populate it with settings from timeLayerManager""" # load the form self.optionsDialog = uic.loadUi(os.path.join(self.path, OPTIONS_WIDGET_FILE)) # restore settings from layerList: for layer in layerList: settings = layer_settings.getSettingsFromLayer(layer) layer_settings.addSettingsToRow(settings, self.optionsDialog.tableWidget) self.optionsDialog.tableWidget.resizeColumnsToContents() # restore animation options self.optionsDialog.spinBoxFrameLength.setValue(animationFrameLength) self.optionsDialog.checkBoxBackwards.setChecked(playBackwards) self.optionsDialog.checkBoxLabel.setChecked(self.showLabel) self.optionsDialog.checkBoxDontExportEmpty.setChecked(not self.exportEmpty) self.optionsDialog.checkBoxLoop.setChecked(loopAnimation) self.optionsDialog.show_label_options_button.clicked.connect(self.showLabelOptions) self.optionsDialog.checkBoxLabel.stateChanged.connect(self.showOrHideLabelOptions) self.optionsDialog.textBrowser.setHtml(QCoreApplication.translate('TimeManager', """\ <!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0//EN" "http://www.w3.org/TR/REC-html40/strict.dtd"> <html> <head> <meta name="qrichtext" content="1"/> <style> li.mono { font-family: Consolas, Courier New, Courier, monospace; } </style> </head> <body> <h1>Time Manager</h1> <p>Time Manager filters your layers and displays only layers and features that match the specified time frame. Time Manager supports vector layers and raster layers (including WMS-T).</p> <p>Timestamps have to be in one of the following formats:</p> <ul> <li class="mono">%Y-%m-%d %H:%M:%S.%f</li> <li class="mono">%Y-%m-%d %H:%M:%S</li> <li class="mono">%Y-%m-%d %H:%M</li> <li class="mono">%Y-%m-%dT%H:%M:%S</li> <li class="mono">%Y-%m-%dT%H:%M:%SZ</li> <li class="mono">%Y-%m-%dT%H:%M</li> <li class="mono">%Y-%m-%dT%H:%MZ</li> <li class="mono">%Y-%m-%d</li> <li class="mono">%Y/%m/%d %H:%M:%S.%f</li> <li class="mono">%Y/%m/%d %H:%M:%S</li> <li class="mono">%Y/%m/%d %H:%M</li> <li class="mono">%Y/%m/%d</li> <li class="mono">%H:%M:%S</li> <li class="mono">%H:%M:%S.%f</li> <li class="mono">%Y.%m.%d %H:%M:%S.%f</li> <li class="mono">%Y.%m.%d %H:%M:%S</li> <li class="mono">%Y.%m.%d %H:%M</li> <li class="mono">%Y.%m.%d</li> <li class="mono">%Y%m%d%H%M%SED</li> <li>Integer timestamp in seconds after or before the epoch (1970-1-1)</li> </ul> <p>The layer list contains all layers managed by Time Manager. To add a vector layer, press [Add layer]. To add a raster layer, press [Add raster]. If you want to remove a layer from the list, select it and press [Remove layer].</p> <p>Below the layer list, you'll find the following <b>animation options</b>:</p> <p><b>Show frame for x milliseconds</b>... allows you to adjust for how long a frame will be visible during the animation</p> <p><b>Play animation backwards</b>... if checked, the animation will run in reverse direction</p> <p><b>Display frame start time on map</b>... if checked, displays the start time of the visible frame in the lower right corner of the map</p> <h2>Add Layer dialog</h2> <p>Here, you are asked to select the layer that should be added and specify the columns containing start and (optionally) end time.</p> <p>The <b>offset</b> option allows you to further time the appearance of features. If you specify an offset of -1, the features will appear one second later than they would by default.</p> <h2>Dock widget</h2> <p>The dock was designed to attach to the bottom of the QGIS main window. It offers the following tools:</p> <ul> <li><img src="images/power_on.png" alt="power"/> ... On/Off switch, allows you to turn Time Manager's functionality on/off with the click of only one button</li> <li><span class="hidden">[Settings]</span><input type="button" value="Settings"/> ... opens the Settings dialog where you can manage your spatio-temporal layers</li> <li><span class="hidden">[Export Video]</span><input type="button" value="Export Video"/> ... exports an image series based on current settings (This button is only enabled if there are layers registered in Time Manager "Settings")</li> <li><b>Time frame start: <span class="hidden">[2000-01-01 00:00:00]</span></b><input type="text" value="2000-01-01 00:00:00"/> ... shows the start time of the currently active frame. Allows you to precisely specify your desired analysis time.</li> <li><b>Time frame size: </b><input type="text" value="1"/><span class="hidden">[x]</span><select><option value="days">days</option></select> ... allow you to choose the size of the time frame</li> <li><img src="images/back.png" alt="back"/> ... go to the previous time frame</li> <li><img src="images/forward.png" alt="forward"/> ... go to the next time frame</li> <li><b>Slider</b> ... shows the position of current frame relative to the whole dataset and allows you to seamlessly scroll through the dataset</li> <li><img src="images/play.png" alt="play"/> ... start an automatic animation based on your current settings</li> </ul> </body> </html>""")) # show dialog self.showOrHideLabelOptions() self.optionsDialog.show() # create raster and vector dialogs self.vectorDialog = VectorLayerDialog(self.iface, os.path.join(self.path, ADD_VECTOR_LAYER_WIDGET_FILE), self.optionsDialog.tableWidget) self.rasterDialog = RasterLayerDialog(self.iface, os.path.join(self.path, ADD_RASTER_LAYER_WIDGET_FILE), self.optionsDialog.tableWidget) # establish connections self.optionsDialog.pushButtonAddVector.clicked.connect(self.vectorDialog.show) self.optionsDialog.pushButtonAddRaster.clicked.connect(self.rasterDialog.show) self.optionsDialog.pushButtonRemove.clicked.connect(self.removeLayer) self.optionsDialog.buttonBox.accepted.connect(self.saveOptions) # self.optionsDialog.buttonBox.helpRequested.connect(self.showHelp) def showOrHideLabelOptions(self): self.optionsDialog.show_label_options_button.setEnabled( self.optionsDialog.checkBoxLabel.isChecked()) def saveOptions(self): """Save the options from optionsDialog to timeLayerManager""" self.signalSaveOptions.emit() def removeLayer(self): """Remove currently selected layer (= row) from options""" currentRow = self.optionsDialog.tableWidget.currentRow() try: layerName = self.optionsDialog.tableWidget.item(currentRow, 0).text() except AttributeError: # if no row is selected return if QMessageBox.question(self.optionsDialog, QCoreApplication.translate("TimeManagerGuiControl", "Remove Layer"), QCoreApplication.translate("TimeManagerGuiControl", "Do you really want to remove layer {}?").format(layerName), QMessageBox.Ok, QMessageBox.Cancel) == QMessageBox.Ok: self.optionsDialog.tableWidget.removeRow(self.optionsDialog.tableWidget.currentRow()) def disableAnimationExport(self): """Disable the animation export button""" self.dock.pushButtonExportVideo.setEnabled(False) def enableAnimationExport(self): """Enable animation export button""" self.dock.pushButtonExportVideo.setEnabled(True) def refreshMapCanvas(self, sender=None): """Refresh the map canvas""" # QMessageBox.information(self.iface.mainWindow(),'Test Output','Refresh!\n'+str(sender)) self.iface.mapCanvas().refresh() def setTimeFrameSize(self, frameSize): """Set spinBoxTimeExtent to given frameSize""" self.dock.spinBoxTimeExtent.setValue(frameSize) def setTimeFrameType(self, frameType): """Set comboBoxTimeExtent to given frameType""" i = self.dock.comboBoxTimeExtent.findText(frameType) self.dock.comboBoxTimeExtent.setCurrentIndex(i) def setActive(self, isActive): """Toggle pushButtonToggleTime""" self.dock.pushButtonToggleTime.setChecked(isActive) def setArchaeologyPressed(self, isActive): """Toggle pushButtonArchaeology""" self.dock.pushButtonArchaeology.setChecked(isActive) def addActionShowSettings(self, action): """Add action to pushButttonOptions""" self.dock.pushButtonOptions.addAction(action) def turnPlayButtonOff(self): """Turn pushButtonPlay off""" if self.dock.pushButtonPlay.isChecked(): self.dock.pushButtonPlay.toggle() self.dock.pushButtonPlay.setIcon(QIcon("TimeManager:images/play.png")) def renderLabel(self, painter): """Render the current timestamp on the map canvas""" if not self.showLabel or not self.model.hasLayers() or not self.dock.pushButtonToggleTime.isChecked(): return dt = self.model.getCurrentTimePosition() if dt is None: return labelString = self.labelOptions.getLabel(dt) # Determine placement of label given cardinal directions flags = 0 for direction, flag in ('N', Qt.AlignTop), ('S', Qt.AlignBottom), ('E', Qt.AlignRight), ('W', Qt.AlignLeft): if direction in self.labelOptions.placement: flags |= flag # Get canvas dimensions width = painter.device().width() height = painter.device().height() painter.setRenderHint(painter.Antialiasing, True) txt = QTextDocument() html = """<span style="background-color:%s; padding: 5px; font-size: %spx;"> <font face="%s" color="%s">%s</font> </span> """\ % (self.labelOptions.bgcolor, self.labelOptions.size, self.labelOptions.font, self.labelOptions.color, labelString) txt.setHtml(html) layout = txt.documentLayout() size = layout.documentSize() if flags & Qt.AlignRight: x = width - 5 - size.width() elif flags & Qt.AlignLeft: x = 5 else: x = width / 2 - size.width() / 2 if flags & Qt.AlignBottom: y = height - 5 - size.height() elif flags & Qt.AlignTop: y = 5 else: y = height / 2 - size.height() / 2 painter.translate(x, y) layout.draw(painter, QAbstractTextDocumentLayout.PaintContext()) painter.translate(-x, -y) # translate back def repaintRasters(self): rasters = self.model.getActiveRasters() list([x.layer.triggerRepaint() for x in rasters]) def repaintVectors(self): list([x.layer.triggerRepaint() for x in self.model.getActiveVectors()]) def repaintJoined(self): layerIdsToRefresh = qgs.getAllJoinedLayers(set([x.layer.id() for x in self.model.getActiveVectors()])) # info("to refresh {}".format(layerIdsToRefresh)) layersToRefresh = [qgs.getLayerFromId(x) for x in layerIdsToRefresh] list([x.triggerRepaint() for x in layersToRefresh])
class FeatureSelectorWidget(QWidget): feature_identified = pyqtSignal(QgsFeature) def __init__(self, parent): QWidget.__init__(self, parent) edit_layout = QHBoxLayout() edit_layout.setContentsMargins(0, 0, 0, 0) edit_layout.setSpacing(2) self.setLayout(edit_layout) self.line_edit = QLineEdit(self) self.line_edit.setReadOnly(True) edit_layout.addWidget(self.line_edit) self.highlight_feature_button = QToolButton(self) self.highlight_feature_button.setPopupMode(QToolButton.MenuButtonPopup) self.highlight_feature_action = QAction( QgsApplication.getThemeIcon("/mActionHighlightFeature.svg"), "Highlight feature", self) self.scale_highlight_feature_action = QAction( QgsApplication.getThemeIcon("/mActionScaleHighlightFeature.svg"), "Scale and highlight feature", self) self.pan_highlight_feature_action = QAction( QgsApplication.getThemeIcon("/mActionPanHighlightFeature.svg"), "Pan and highlight feature", self) self.highlight_feature_button.addAction(self.highlight_feature_action) self.highlight_feature_button.addAction( self.scale_highlight_feature_action) self.highlight_feature_button.addAction( self.pan_highlight_feature_action) self.highlight_feature_button.setDefaultAction( self.highlight_feature_action) edit_layout.addWidget(self.highlight_feature_button) self.map_identification_button = QToolButton(self) self.map_identification_button.setIcon( QgsApplication.getThemeIcon("/mActionMapIdentification.svg")) self.map_identification_button.setText("Select on map") self.map_identification_button.setCheckable(True) edit_layout.addWidget(self.map_identification_button) self.map_identification_button.clicked.connect(self.map_identification) self.highlight_feature_button.triggered.connect( self.highlight_action_triggered) self.layer = None self.map_tool = None self.canvas = None self.window_widget = None self.highlight = None self.feature = QgsFeature() def set_canvas(self, map_canvas): self.map_tool = QgsMapToolIdentifyFeature(map_canvas) self.map_tool.setButton(self.map_identification_button) self.canvas = map_canvas def set_layer(self, layer): self.layer = layer def set_feature(self, feature, canvas_extent=CanvasExtent.Fixed): self.line_edit.clear() self.feature = feature if self.feature is None or not self.feature.isValid( ) or self.layer is None: return expression = QgsExpression(self.layer.displayExpression()) context = QgsExpressionContext() scope = QgsExpressionContextScope() context.appendScope(scope) scope.setFeature(feature) feature_title = expression.evaluate(context) if feature_title == "": feature_title = feature.id() self.line_edit.setText(str(feature_title)) self.highlight_feature(canvas_extent) def clear(self): self.feature = QgsFeature() self.line_edit.clear() @pyqtSlot() def map_identification(self): if self.layer is None or self.map_tool is None or self.canvas is None: return self.map_tool.setLayer(self.layer) self.canvas.setMapTool(self.map_tool) self.window_widget = QWidget.window(self) self.canvas.window().raise_() self.canvas.activateWindow() self.canvas.setFocus() self.map_tool.featureIdentified.connect( self.map_tool_feature_identified) self.map_tool.deactivated.connect(self.map_tool_deactivated) def map_tool_feature_identified(self, feature): feature = QgsFeature(feature) self.feature_identified.emit(feature) self.unset_map_tool() self.set_feature(feature) def map_tool_deactivated(self): if self.window_widget is not None: self.window_widget.raise_() self.window_widget.activateWindow() def highlight_feature(self, canvas_extent=CanvasExtent.Fixed): if self.canvas is None or not self.feature.isValid(): return geom = self.feature.geometry() if geom is None: return if canvas_extent == CanvasExtent.Scale: feature_bounding_box = geom.boundingBox() feature_bounding_box = self.canvas.mapSettings( ).layerToMapCoordinates(self.layer, feature_bounding_box) extent = self.canvas.extent() if not extent.contains(feature_bounding_box): extent.combineExtentWith(feature_bounding_box) extent.scale(1.1) self.canvas.setExtent(extent) self.canvas.refresh() elif canvas_extent == CanvasExtent.Pan: centroid = geom.centroid() center = centroid.asPoint() center = self.canvas.mapSettings().layerToMapCoordinates( self.layer, center) self.canvas.zoomByFactor(1.0, center) # refresh is done in this method # highlight self.delete_highlight() self.highlight = QgsHighlight(self.canvas, geom, self.layer) settings = QSettings() color = QColor( settings.value("/Map/highlight/color", Qgis.DEFAULT_HIGHLIGHT_COLOR.name())) alpha = int( settings.value("/Map/highlight/colorAlpha", Qgis.DEFAULT_HIGHLIGHT_COLOR.alpha())) buffer = 2 * float( settings.value("/Map/highlight/buffer", Qgis.DEFAULT_HIGHLIGHT_BUFFER_MM)) min_width = 2 * float( settings.value("/Map/highlight/min_width", Qgis.DEFAULT_HIGHLIGHT_MIN_WIDTH_MM)) self.highlight.setColor(color) # sets also fill with default alpha color.setAlpha(alpha) self.highlight.setFillColor(color) # sets fill with alpha self.highlight.setBuffer(buffer) self.highlight.setMinWidth(min_width) self.highlight.setWidth(4.0) self.highlight.show() self.timer = QTimer(self) self.timer.setSingleShot(True) self.timer.timeout.connect(self.delete_highlight) self.timer.start(3000) def delete_highlight(self): if self.highlight is not None: self.highlight.hide() del self.highlight self.highlight = None def unset_map_tool(self): if self.canvas is not None and self.map_tool is not None: # this will call mapTool.deactivated self.canvas.unsetMapTool(self.map_tool) def highlight_action_triggered(self, action): self.highlight_feature_button.setDefaultAction(action) if action == self.highlight_feature_action: self.highlight_feature() elif action == self.scale_highlight_feature_action: self.highlight_feature(CanvasExtent.Scale) elif action == self.pan_highlight_feature_action: self.highlight_feature(CanvasExtent.Pan)
class OpenlayersController(QObject): """ Helper class that deals with QWebPage. The object lives in GUI thread, its request() slot is asynchronously called from worker thread. See https://github.com/wonder-sk/qgis-mtr-example-plugin for basic example 1. Load Web Page with OpenLayers map 2. Update OL map extend according to QGIS canvas extent """ # signal that reports to the worker thread that the image is ready finished = pyqtSignal() def __init__(self, parent, context, webPage, layerType): QObject.__init__(self, parent) debug("OpenlayersController.__init__", 3) self.context = context self.layerType = layerType self.img = QImage() self.page = webPage self.page.loadFinished.connect(self.pageLoaded) # initial size for map self.page.setViewportSize(QSize(1, 1)) self.timerMapReady = QTimer() self.timerMapReady.setSingleShot(True) self.timerMapReady.setInterval(20) self.timerMapReady.timeout.connect(self.checkMapReady) self.timer = QTimer() self.timer.setInterval(100) self.timer.timeout.connect(self.checkMapUpdate) self.timerMax = QTimer() self.timerMax.setSingleShot(True) # TODO: different timeouts for map types self.timerMax.setInterval(2500) self.timerMax.timeout.connect(self.mapTimeout) @pyqtSlot() def request(self): debug("[GUI THREAD] Processing request", 3) self.cancelled = False if not self.page.loaded: self.init_page() else: self.setup_map() def init_page(self): url = self.layerType.html_url() debug("page file: %s" % url) self.page.mainFrame().load(QUrl(url)) # wait for page to finish loading debug("OpenlayersWorker waiting for page to load", 3) def pageLoaded(self): debug("[GUI THREAD] pageLoaded", 3) if self.cancelled: self.emitErrorImage() return # wait until OpenLayers map is ready self.checkMapReady() def checkMapReady(self): debug("[GUI THREAD] checkMapReady", 3) if self.page.mainFrame().evaluateJavaScript("map != undefined"): # map ready self.page.loaded = True self.setup_map() else: # wait for map self.timerMapReady.start() def setup_map(self): rendererContext = self.context # FIXME: self.mapSettings.outputDpi() self.outputDpi = rendererContext.painter().device().logicalDpiX() debug(" extent: %s" % rendererContext.extent().toString(), 3) debug( " center: %lf, %lf" % (rendererContext.extent().center().x(), rendererContext.extent().center().y()), 3) debug( " size: %d, %d" % (rendererContext.painter().viewport().size().width(), rendererContext.painter().viewport().size().height()), 3) debug( " logicalDpiX: %d" % rendererContext.painter().device().logicalDpiX(), 3) debug(" outputDpi: %lf" % self.outputDpi) debug( " mapUnitsPerPixel: %f" % rendererContext.mapToPixel().mapUnitsPerPixel(), 3) # debug(" rasterScaleFactor: %s" % str(rendererContext. # rasterScaleFactor()), 3) # debug(" outputSize: %d, %d" % (self.iface.mapCanvas().mapRenderer(). # outputSize().width(), # self.iface.mapCanvas().mapRenderer(). # outputSize().height()), 3) # debug(" scale: %lf" % self.iface.mapCanvas().mapRenderer().scale(), # 3) # # if (self.page.lastExtent == rendererContext.extent() # and self.page.lastViewPortSize == rendererContext.painter(). # viewport().size() # and self.page.lastLogicalDpi == rendererContext.painter(). # device().logicalDpiX() # and self.page.lastOutputDpi == self.outputDpi # and self.page.lastMapUnitsPerPixel == rendererContext. # mapToPixel().mapUnitsPerPixel()): # self.renderMap() # self.finished.emit() # return self.targetSize = rendererContext.painter().viewport().size() if rendererContext.painter().device().logicalDpiX() != int( self.outputDpi): # use screen dpi for printing sizeFact = self.outputDpi / 25.4 / rendererContext.mapToPixel( ).mapUnitsPerPixel() self.targetSize.setWidth(rendererContext.extent().width() * sizeFact) self.targetSize.setHeight(rendererContext.extent().height() * sizeFact) debug( " targetSize: %d, %d" % (self.targetSize.width(), self.targetSize.height()), 3) # find matching OL resolution qgisRes = rendererContext.extent().width() / self.targetSize.width() olRes = None for res in self.page.resolutions(): if qgisRes >= res: olRes = res break if olRes is None: debug("No matching OL resolution found (QGIS resolution: %f)" % qgisRes) self.emitErrorImage() return # adjust OpenLayers viewport to match QGIS extent olWidth = rendererContext.extent().width() / olRes olHeight = rendererContext.extent().height() / olRes debug( " adjust viewport: %f -> %f: %f x %f" % (qgisRes, olRes, olWidth, olHeight), 3) olSize = QSize(int(olWidth), int(olHeight)) self.page.setViewportSize(olSize) self.page.mainFrame().evaluateJavaScript("map.updateSize();") self.img = QImage(olSize, QImage.Format_ARGB32_Premultiplied) self.page.extent = rendererContext.extent() debug( "map.zoomToExtent (%f, %f, %f, %f)" % (self.page.extent.xMinimum(), self.page.extent.yMinimum(), self.page.extent.xMaximum(), self.page.extent.yMaximum()), 3) self.page.mainFrame().evaluateJavaScript( "map.zoomToExtent(new OpenLayers.Bounds(%f, %f, %f, %f), true);" % (self.page.extent.xMinimum(), self.page.extent.yMinimum(), self.page.extent.xMaximum(), self.page.extent.yMaximum())) olextent = self.page.mainFrame().evaluateJavaScript("map.getExtent();") debug("Resulting OL extent: %s" % olextent, 3) if olextent is None or not hasattr(olextent, '__getitem__'): debug("map.zoomToExtent failed") # map.setCenter and other operations throw "undefined[0]: # TypeError: 'null' is not an object" on first page load # We ignore that and render the initial map with wrong extents # self.emitErrorImage() # return else: reloffset = abs((self.page.extent.yMaximum() - olextent["top"]) / self.page.extent.xMinimum()) debug("relative offset yMaximum %f" % reloffset, 3) if reloffset > 0.1: debug("OL extent shift failure: %s" % reloffset) self.emitErrorImage() return self.mapFinished = False self.timer.start() self.timerMax.start() def checkMapUpdate(self): if self.layerType.emitsLoadEnd: # wait for OpenLayers to finish loading loadEndOL = self.page.mainFrame().evaluateJavaScript("loadEnd") debug( "waiting for loadEnd: renderingStopped=%r loadEndOL=%r" % (self.context.renderingStopped(), loadEndOL), 4) if loadEndOL is not None: self.mapFinished = loadEndOL else: debug("OpenlayersLayer Warning: Could not get loadEnd") if self.mapFinished: self.timerMax.stop() self.timer.stop() self.renderMap() self.finished.emit() def renderMap(self): rendererContext = self.context if rendererContext.painter().device().logicalDpiX() != int( self.outputDpi): printScale = 25.4 / self.outputDpi # OL DPI to printer pixels rendererContext.painter().scale(printScale, printScale) # render OpenLayers to image painter = QPainter(self.img) self.page.mainFrame().render(painter) painter.end() if self.img.size() != self.targetSize: targetWidth = self.targetSize.width() targetHeight = self.targetSize.height() # scale using QImage for better quality debug( " scale image: %i x %i -> %i x %i" % (self.img.width(), self.img.height(), targetWidth, targetHeight), 3) self.img = self.img.scaled(targetWidth, targetHeight, Qt.KeepAspectRatio, Qt.SmoothTransformation) # save current state self.page.lastExtent = rendererContext.extent() self.page.lastViewPortSize = rendererContext.painter().viewport().size( ) self.page.lastLogicalDpi = rendererContext.painter().device( ).logicalDpiX() self.page.lastOutputDpi = self.outputDpi self.page.lastMapUnitsPerPixel = rendererContext.mapToPixel( ).mapUnitsPerPixel() def mapTimeout(self): debug("mapTimeout reached") self.timer.stop() # if not self.layerType.emitsLoadEnd: self.renderMap() self.finished.emit() def emitErrorImage(self): self.img = QImage() self.targetSize = self.img.size self.finished.emit()
class QmsServiceToolbox(QDockWidget, FORM_CLASS): def __init__(self, iface): QDockWidget.__init__(self, iface.mainWindow()) self.setupUi(self) self.newsFrame.setVisible(False) self.iface = iface self.search_threads = None # [] self.extent_renderer = RubberBandResultRenderer() self.cmbStatusFilter.addItem(self.tr('All'), STATUS_FILTER_ALL) self.cmbStatusFilter.addItem(self.tr('Valid'), STATUS_FILTER_ONLY_WORKS) self.cmbStatusFilter.currentIndexChanged.connect(self.start_search) if hasattr(self.txtSearch, 'setPlaceholderText'): self.txtSearch.setPlaceholderText(self.tr("Search string...")) self.delay_timer = QTimer(self) self.delay_timer.setSingleShot(True) self.delay_timer.setInterval(250) self.delay_timer.timeout.connect(self.start_search) self.txtSearch.textChanged.connect(self.delay_timer.start) self.btnFilterByExtent.toggled.connect(self.toggle_filter_button) self.one_process_work = QMutex() self.add_last_used_services() self.show_news() def show_news(self): client = Client() client.set_proxy(*QGISSettings.get_qgis_proxy()) qms_news = client.get_news() if qms_news is None: self.newsFrame.setVisible(False) return news = News(qms_news) if news.is_time_to_show(): self.newsLabel.setText(news.html) self.newsFrame.setVisible(True) else: self.newsFrame.setVisible(False) def toggle_filter_button(self, checked): self.txtSearch.setDisabled(checked) if checked: self.iface.mapCanvas().extentsChanged.connect(self.start_search) self.iface.mapCanvas().destinationCrsChanged.connect( self.start_search) self.start_search() else: self.iface.mapCanvas().extentsChanged.disconnect(self.start_search) self.iface.mapCanvas().destinationCrsChanged.disconnect( self.start_search) def start_search(self): search_text = None geom_filter = None # status filter status_filter = None sel_value = self.cmbStatusFilter.itemData( self.cmbStatusFilter.currentIndex()) if sel_value != STATUS_FILTER_ALL: status_filter = sel_value if not self.btnFilterByExtent.isChecked(): # text search search_text = unicode(self.txtSearch.text()) if not search_text: self.lstSearchResult.clear() # self.clearSearchResult() self.add_last_used_services() return else: # extent filter extent = self.iface.mapCanvas().extent() map_crs = getCanvasDestinationCrs(self.iface) if map_crs.postgisSrid() != 4326: crsDest = QgsCoordinateReferenceSystem(4326) # WGS 84 xform = QgsCoordinateTransform(map_crs, crsDest) extent = xform.transform(extent) geom_filter = extent.asWktPolygon() if self.search_threads: self.search_threads.data_downloaded.disconnect() self.search_threads.search_finished.disconnect() self.search_threads.stop() self.search_threads.wait() self.lstSearchResult.clear() # self.clearSearchResult() searcher = SearchThread(search_text, self.one_process_work, parent=self.iface.mainWindow(), geom_filter=geom_filter, status_filter=status_filter) searcher.data_downloaded.connect(self.show_result) searcher.error_occurred.connect(self.show_error) searcher.search_started.connect(self.search_started_process) searcher.search_finished.connect(self.search_finished_progress) self.search_threads = searcher searcher.start() def add_last_used_services(self): services = CachedServices().get_cached_services() if len(services) == 0: return self.lstSearchResult.insertItem(0, self.tr("Last used:")) # l = QLabel(self.tr("Last used:")) # l.setSizePolicy(QSizePolicy.Preferred, QSizePolicy.Fixed) # self.lSearchResult.addWidget(l) for attributes, image_qByteArray in services: custom_widget = QmsSearchResultItemWidget(attributes, image_qByteArray) new_item = QListWidgetItem(self.lstSearchResult) new_item.setSizeHint(custom_widget.sizeHint()) self.lstSearchResult.addItem(new_item) self.lstSearchResult.setItemWidget(new_item, custom_widget) # self.lSearchResult.addWidget(custom_widget) # w = QWidget() # w.setSizePolicy(QSizePolicy.Expanding, QSizePolicy.Expanding) # self.lSearchResult.addWidget(w) def search_started_process(self): self.lstSearchResult.clear() self.lstSearchResult.insertItem(0, self.tr('Searching...')) def search_finished_progress(self): self.lstSearchResult.takeItem(0) if self.lstSearchResult.count() == 0: new_widget = QLabel() new_widget.setTextFormat(Qt.RichText) new_widget.setOpenExternalLinks(True) new_widget.setWordWrap(True) new_widget.setText( u"<div align='center'> <strong>{}</strong> </div><div align='center' style='margin-top: 3px'> {} </div>" .format( self.tr(u"No results."), self. tr(u"You can add a service to become searchable. Start <a href='{}'>here</a>." ).format(u"https://qms.nextgis.com/create"), )) new_item = QListWidgetItem(self.lstSearchResult) new_item.setSizeHint(new_widget.sizeHint()) self.lstSearchResult.addItem(new_item) self.lstSearchResult.setItemWidget(new_item, new_widget) def show_result(self, geoservice, image_ba): if geoservice: custom_widget = QmsSearchResultItemWidget( geoservice, image_ba, extent_renderer=self.extent_renderer) new_item = QListWidgetItem(self.lstSearchResult) new_item.setSizeHint(custom_widget.sizeHint()) self.lstSearchResult.addItem(new_item) self.lstSearchResult.setItemWidget(new_item, custom_widget) else: new_item = QListWidgetItem() new_item.setText(self.tr('No results!')) new_item.setData(Qt.UserRole, None) self.lstSearchResult.addItem(new_item) self.lstSearchResult.update() def show_error(self, error_text): self.lstSearchResult.clear() new_widget = QLabel() new_widget.setTextFormat(Qt.RichText) new_widget.setOpenExternalLinks(True) new_widget.setWordWrap(True) new_widget.setText( u"<div align='center'> <strong>{}</strong> </div><div align='center' style='margin-top: 3px'> {} </div>" .format(self.tr('Error'), error_text)) new_item = QListWidgetItem(self.lstSearchResult) new_item.setSizeHint(new_widget.sizeHint()) self.lstSearchResult.addItem(new_item) self.lstSearchResult.setItemWidget(new_item, new_widget)
class RelationEditorDocumentSideWidget(QgsAbstractRelationEditorWidget, WidgetUi): def __init__(self, config, parent): super().__init__(config, parent) self._updateUiTimer = QTimer() self._updateUiTimer.setSingleShot(True) self._updateUiTimer.timeout.connect(self.updateUiTimeout) self.setupUi(self) self.polymorphicRelationEnabled = False self.polymorphicRelationId = str() self.generatedRelationList = [] self._nmRelation = QgsRelation() self._polymorphicRelation = QgsPolymorphicRelation() self._layerInSameTransactionGroup = False self.cardinality = Cardinality.ManyToOne # Actions self.actionToggleEditing = QAction( QIcon(":/images/themes/default/mActionToggleEditing.svg"), self.tr("Toggle editing mode for child layers")) self.actionToggleEditing.setCheckable(True) self.actionSaveEdits = QAction( QIcon(":/images/themes/default/mActionSaveEdits.svg"), self.tr("Save child layer edits")) self.actionShowForm = QAction( QIcon(":/images/themes/default/mActionMultiEdit.svg"), self.tr("Show form")) self.actionLinkFeature = QAction( QIcon(":/images/themes/default/mActionLink.svg"), self.tr("Link feature")) self.actionUnlinkFeature = QAction( QIcon(":/images/themes/default/mActionUnlink.svg"), self.tr("Unlink feature")) # Tool buttons self.mToggleEditingToolButton.setDefaultAction( self.actionToggleEditing) self.mSaveEditsToolButton.setDefaultAction(self.actionSaveEdits) self.mShowFormToolButton.setDefaultAction(self.actionShowForm) self.mShowFormToolButton.setToolButtonStyle(Qt.ToolButtonIconOnly) self.mLinkFeaturesToolButton.setDefaultAction(self.actionLinkFeature) self.mLinkFeaturesToolButton.setToolButtonStyle(Qt.ToolButtonIconOnly) self.mUnlinkFeaturesToolButton.setDefaultAction( self.actionUnlinkFeature) self.mUnlinkFeaturesToolButton.setToolButtonStyle( Qt.ToolButtonIconOnly) # TreeWidgetItem menu self.mFeaturesTreeWidget.setContextMenuPolicy(Qt.ActionsContextMenu) self.mFeaturesTreeWidget.addAction(self.actionShowForm) self.mFeaturesTreeWidget.addAction(self.actionUnlinkFeature) # Set initial state for add / remove etc.buttons self.updateButtons() # Signal slots self.actionToggleEditing.triggered.connect(self.toggleEditing) self.actionSaveEdits.triggered.connect(self.saveChildLayerEdits) self.actionShowForm.triggered.connect(self.actionShowFormTriggered) self.actionLinkFeature.triggered.connect( self.actionLinkFeatureTriggered) self.actionUnlinkFeature.triggered.connect( self.actionUnlinkFeatureTriggered) self.mFeaturesTreeWidget.currentItemChanged.connect(self.updateButtons) def nmRelation(self): return self._nmRelation def config(self): return {} def setConfig(self, config): self.polymorphicRelationEnabled = config[ 'polymorphic_relation_enabled'] self.polymorphicRelationId = config['polymorphic_relation_id'] if self.polymorphicRelationEnabled is False: return self._polymorphicRelation = QgsProject.instance().relationManager( ).polymorphicRelation(self.polymorphicRelationId) self._setCardinality() def updateUi(self): self._updateUiTimer.start(200) def updateUiTimeout(self): print('DocumentRelationEditorDocumentSideWidget.updateUiTimeout') self.mFeaturesTreeWidget.clear() if self.relation().isValid() is False or self.feature().isValid( ) is False: return if self.cardinality == Cardinality.ManyToOne: self.updateUiManyToOne() if self.cardinality == Cardinality.ManyToMany: self.updateUiManyToMany() if self.cardinality == Cardinality.ManyToOnePolymorphic: self.updateUiManyToOnePolymorphic() if self.cardinality == Cardinality.ManyToManyPolymorphic: self.updateUiManyToManyPolymorphic() def updateUiManyToOne(self): layer = self.relation().referencingLayer() request = self.relation().getRelatedFeaturesRequest(self.feature()) for feature in layer.getFeatures(request): treeWidgetItem = QTreeWidgetItem( self.mFeaturesTreeWidget, [QgsVectorLayerUtils.getFeatureDisplayString(layer, feature)]) treeWidgetItem.setData(0, TreeWidgetItemRole.Type, TreeWidgetItemType.Feature) treeWidgetItem.setData(0, TreeWidgetItemRole.Layer, layer) treeWidgetItem.setData(0, TreeWidgetItemRole.Feature, feature) def updateUiManyToMany(self): layer = self.relation().referencingLayer() request = self.relation().getRelatedFeaturesRequest(self.feature()) filters = [] for feature in layer.getFeatures(request): referencedFeatureRequest = self.nmRelation( ).getReferencedFeatureRequest(feature) filterExpression = referencedFeatureRequest.filterExpression() filters.append("(" + filterExpression.expression() + ")") nmRequest = QgsFeatureRequest() nmRequest.setFilterExpression(" OR ".join(filters)) finalLayer = self.nmRelation().referencedLayer() for finalFeature in finalLayer.getFeatures(nmRequest): treeWidgetItem = QTreeWidgetItem(self.mFeaturesTreeWidget, [ QgsVectorLayerUtils.getFeatureDisplayString( finalLayer, finalFeature) ]) treeWidgetItem.setData(0, TreeWidgetItemRole.Type, TreeWidgetItemType.Feature) treeWidgetItem.setData(0, TreeWidgetItemRole.Layer, finalLayer) treeWidgetItem.setData(0, TreeWidgetItemRole.Feature, feature) def updateUiManyToOnePolymorphic(self): layerFeature = dict() for relation in self._polymorphicRelation.generateRelations(): layer = relation.referencingLayer() request = relation.getRelatedFeaturesRequest(self.feature()) finalLayer = relation.referencedLayer() for feature in layer.getFeatures(request): if finalLayer in layerFeature: layerFeature[finalLayer].append(feature) else: layerFeature[finalLayer] = [feature] for layer in layerFeature: treeWidgetItemLayer = QTreeWidgetItem(self.mFeaturesTreeWidget, [layer.name()]) treeWidgetItemLayer.setData(0, TreeWidgetItemRole.Type, TreeWidgetItemType.Layer) treeWidgetItemLayer.setData(0, TreeWidgetItemRole.Layer, layer) treeWidgetItemLayer.setIcon(0, QgsIconUtils.iconForLayer(layer)) for feature in layerFeature[layer]: treeWidgetItem = QTreeWidgetItem(treeWidgetItemLayer, [ QgsVectorLayerUtils.getFeatureDisplayString( layerFeature, feature) ]) treeWidgetItem.setData(0, TreeWidgetItemRole.Type, TreeWidgetItemType.Feature) treeWidgetItem.setData(0, TreeWidgetItemRole.Layer, layer) treeWidgetItem.setData(0, TreeWidgetItemRole.Feature, feature) treeWidgetItemLayer.setExpanded(True) def updateUiManyToManyPolymorphic(self): layer = self.relation().referencingLayer() request = self.relation().getRelatedFeaturesRequest(self.feature()) layerFeature = dict() for linkFeature in layer.getFeatures(request): for relation in self._polymorphicRelation.generateRelations(): referencedFeatureRequest = relation.getReferencedFeatureRequest( linkFeature) filterExpression = referencedFeatureRequest.filterExpression() nmRequest = QgsFeatureRequest() nmRequest.setFilterExpression(filterExpression.expression()) finalLayer = relation.referencedLayer() for finalFeature in finalLayer.getFeatures(nmRequest): features = finalFeature, linkFeature if finalLayer in layerFeature: layerFeature[finalLayer].append(features) else: layerFeature[finalLayer] = [features] for layer in layerFeature: treeWidgetItemLayer = QTreeWidgetItem(self.mFeaturesTreeWidget, [layer.name()]) treeWidgetItemLayer.setData(0, TreeWidgetItemRole.Type, TreeWidgetItemType.Layer) treeWidgetItemLayer.setData(0, TreeWidgetItemRole.Layer, layer) treeWidgetItemLayer.setIcon(0, QgsIconUtils.iconForLayer(layer)) for feature, linkFeature in layerFeature[layer]: treeWidgetItem = QTreeWidgetItem(treeWidgetItemLayer, [ QgsVectorLayerUtils.getFeatureDisplayString( layer, feature) ]) treeWidgetItem.setData(0, TreeWidgetItemRole.Type, TreeWidgetItemType.Feature) treeWidgetItem.setData(0, TreeWidgetItemRole.Layer, layer) treeWidgetItem.setData(0, TreeWidgetItemRole.Feature, feature) treeWidgetItem.setData(0, TreeWidgetItemRole.LinkFeature, linkFeature) treeWidgetItemLayer.setExpanded(True) def afterSetRelations(self): self._nmRelation = QgsProject.instance().relationManager().relation( str(self.nmRelationId())) self._setCardinality() self._checkTransactionGroup() if self.relation().isValid(): self.relation().referencingLayer().editingStopped.connect( self.updateButtons) self.relation().referencingLayer().editingStarted.connect( self.updateButtons) if self.nmRelation().isValid(): self.nmRelation().referencedLayer().editingStarted.connect( self.updateButtons) self.nmRelation().referencedLayer().editingStopped.connect( self.updateButtons) self.updateButtons() def parentFormValueChanged(self, attribute, newValue): self.updateUi() def checkLayerEditingMode(self): if self.relation().referencingLayer().isEditable() is False: QMessageBox.critical( self, self.tr("Layer not editable"), self.tr("Layer '{0}' is not in editing mode.").format( self.relation().referencingLayer().name())) return False if self.nmRelation().isValid(): if self.nmRelation().referencedLayer().isEditable() is False: QMessageBox.critical( self, self.tr("Layer not editable"), self.tr("Layer '{0}' is not in editing mode.").format( self.nmRelation().referencedLayer().name())) return False return True def _setCardinality(self): if (self.nmRelation().isValid() is False and self.polymorphicRelationEnabled is False): self.cardinality = Cardinality.ManyToOne return elif (self.nmRelation().isValid() and self.polymorphicRelationEnabled is False): self.cardinality = Cardinality.ManyToMany return elif (self.polymorphicRelationEnabled and self._polymorphicRelation.referencingLayer().id() == self.relation().referencedLayer().id()): self.cardinality = Cardinality.ManyToOnePolymorphic return elif (self.polymorphicRelationEnabled and self._polymorphicRelation.referencingLayer().id() == self.relation().referencingLayer().id()): self.cardinality = Cardinality.ManyToManyPolymorphic return else: print("WARNING invalid cardinality set") @pyqtSlot(bool) def toggleEditing(self, state): super().toggleEditing(state) self.updateButtons() @pyqtSlot() def saveChildLayerEdits(self): super().saveEdits() def actionShowFormTriggered(self): if self.mFeaturesTreeWidget.currentItem() is None: QMessageBox.critical(self, self.tr("No feature selected"), self.tr("Please select a feature.")) return if self.mFeaturesTreeWidget.currentItem().data( 0, TreeWidgetItemRole.Type) != TreeWidgetItemType.Feature: QMessageBox.critical(self, self.tr("Selected item is not a feature"), self.tr("Please select a feature.")) return showDocumentFormDialog = QgsAttributeDialog( self.mFeaturesTreeWidget.currentItem().data( 0, TreeWidgetItemRole.Layer), self.mFeaturesTreeWidget.currentItem().data( 0, TreeWidgetItemRole.Feature), False, self, True) showDocumentFormDialog.exec() self.updateUi() def actionLinkFeatureTriggered(self): if self.checkLayerEditingMode() is False: return if self.cardinality == Cardinality.ManyToOne: self.linkFeature() if self.cardinality == Cardinality.ManyToMany: self.linkFeature() if self.cardinality == Cardinality.ManyToOnePolymorphic: self.linkFeatureManyToOnePolymorphic() self.updateUi() if self.cardinality == Cardinality.ManyToManyPolymorphic: self.linkFeatureManyToManyPolymorphic() self.updateUi() def linkFeatureManyToOnePolymorphic(self): print("link ManyToOnePolymorphic") def linkFeatureManyToManyPolymorphic(self): nmRelations = dict() for relation in self._polymorphicRelation.generateRelations(): nmRelations[relation.referencedLayer().name()] = relation layerName, ok = QInputDialog.getItem(self, self.tr("Please selct a layer"), self.tr("Layer:"), nmRelations.keys()) if not ok: return nmRelation = nmRelations[layerName] selectionDlg = QgsFeatureSelectionDlg(nmRelation.referencedLayer(), self.editorContext(), self) selectionDlg.setWindowTitle( self.tr("Please select the features to link. Layer: {0}").format( layerName)) if not selectionDlg.exec(): return # Fields of the linking table fields = self.relation().referencingLayer().fields() linkAttributes = dict() linkAttributes[fields.indexFromName( self._polymorphicRelation.referencedLayerField( ))] = self._polymorphicRelation.layerRepresentation( nmRelation.referencedLayer()) for key in self.relation().fieldPairs(): linkAttributes[fields.indexOf(key)] = self.feature().attribute( self.relation().fieldPairs()[key]) # Expression context for the linking table context = self.relation().referencingLayer().createExpressionContext() featureIterator = nmRelation.referencedLayer().getFeatures( QgsFeatureRequest().setFilterFids( selectionDlg.selectedFeatures()).setSubsetOfAttributes( nmRelation.referencedFields())) relatedFeature = QgsFeature() newFeatures = [] while featureIterator.nextFeature(relatedFeature): for key in nmRelation.fieldPairs(): linkAttributes[fields.indexOf(key)] = relatedFeature.attribute( nmRelation.fieldPairs()[key]) linkFeature = QgsVectorLayerUtils.createFeature( self.relation().referencingLayer(), QgsGeometry(), linkAttributes, context) newFeatures.append(linkFeature) self.relation().referencingLayer().addFeatures(newFeatures) ids = [] for feature in newFeatures: ids.append(feature.id()) self.relation().referencingLayer().selectByIds(ids) def actionUnlinkFeatureTriggered(self): if self.checkLayerEditingMode() is False: return if self.mFeaturesTreeWidget.currentItem() is None: QMessageBox.critical(self, self.tr("No feature selected"), self.tr("Please select a feature to unlink.")) return if self.mFeaturesTreeWidget.currentItem().data( 0, TreeWidgetItemRole.Type) != TreeWidgetItemType.Feature: QMessageBox.critical(self, self.tr("Selected item is not a feature"), self.tr("Please select a feature.")) return if self.cardinality == Cardinality.ManyToOne: self.unlinkFeature(self.mFeaturesTreeWidget.currentItem().data( 0, TreeWidgetItemRole.Feature).id()) if self.cardinality == Cardinality.ManyToMany: self.unlinkFeature(self.mFeaturesTreeWidget.currentItem().data( 0, TreeWidgetItemRole.Feature).id()) if self.cardinality == Cardinality.ManyToOnePolymorphic: print("unlink ManyToOnePolymorphic") if self.cardinality == Cardinality.ManyToManyPolymorphic: self.relation().referencingLayer().deleteFeature( self.mFeaturesTreeWidget.currentItem().data( 0, TreeWidgetItemRole.LinkFeature).id()) self.updateUi() def updateButtons(self): toggleEditingButtonEnabled = False editable = False linkable = False spatial = False selectionNotEmpty = True if (self.mFeaturesTreeWidget.currentItem() is None or self.mFeaturesTreeWidget.currentItem().data( 0, TreeWidgetItemRole.Type) != TreeWidgetItemType.Feature): selectionNotEmpty = False if self.relation().isValid(): toggleEditingButtonEnabled = self.relation().referencingLayer( ).supportsEditing() editable = self.relation().referencingLayer().isEditable() linkable = self.relation().referencingLayer().isEditable() spatial = self.relation().referencingLayer().isSpatial() if self.nmRelation().isValid(): toggleEditingButtonEnabled |= self.nmRelation().referencedLayer( ).supportsEditing() editable = self.nmRelation().referencedLayer().isEditable() spatial = self.nmRelation().referencedLayer().isSpatial() self.actionToggleEditing.setEnabled(toggleEditingButtonEnabled) self.actionLinkFeature.setEnabled(linkable) self.actionUnlinkFeature.setEnabled(linkable and selectionNotEmpty) self.actionToggleEditing.setChecked(editable) self.actionSaveEdits.setEnabled(editable or linkable) self.actionShowForm.setEnabled(selectionNotEmpty) self.mToggleEditingToolButton.setVisible( self._layerInSameTransactionGroup is False) self.mSaveEditsToolButton.setVisible( self._layerInSameTransactionGroup is False) def _checkTransactionGroup(self): self._layerInSameTransactionGroup = False connectionString = PluginHelper.connectionString( self.relation().referencedLayer().source()) transactionGroup = QgsProject.instance().transactionGroup( self.relation().referencedLayer().providerType(), connectionString) if transactionGroup is None: self.updateButtons() return if self.nmRelation().isValid(): if (self.relation().referencedLayer() in transactionGroup.layers() and self.relation().referencingLayer() in transactionGroup.layers() and self.nmRelation().referencedLayer() in transactionGroup.layers()): self._layerInSameTransactionGroup = True else: if (self.relation().referencedLayer() in transactionGroup.layers() and self.relation().referencingLayer() in transactionGroup.layers()): self._layerInSameTransactionGroup = True
class TimeManagerGuiControl(QObject): """This class controls all plugin-related GUI elements. Emitted signals are defined here.""" showOptions = pyqtSignal() signalExportVideo = pyqtSignal(str, int, bool, bool, bool) toggleTime = pyqtSignal() toggleArchaeology = pyqtSignal() back = pyqtSignal() forward = pyqtSignal() play = pyqtSignal() signalCurrentTimeUpdated = pyqtSignal(QDateTime) signalSliderTimeChanged = pyqtSignal(float) signalTimeFrameType = pyqtSignal(str) signalTimeFrameSize = pyqtSignal(int) signalSaveOptions = pyqtSignal() signalArchDigitsSpecified = pyqtSignal(int) signalArchCancelled = pyqtSignal() def __init__(self, iface, model): """Initialize the GUI control""" QObject.__init__(self) self.iface = iface self.model = model self.optionsDialog = None self.path = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'ui') # load the form self.dock = uic.loadUi(os.path.join(self.path, DOCK_WIDGET_FILE)) self.iface.addDockWidget(Qt.BottomDockWidgetArea, self.dock) self.dock.pushButtonExportVideo.setEnabled(False) # only enabled if there are managed layers self.dock.pushButtonOptions.clicked.connect(self.optionsClicked) self.dock.pushButtonExportVideo.clicked.connect(self.exportVideoClicked) self.dock.pushButtonToggleTime.clicked.connect(self.toggleTimeClicked) self.dock.pushButtonArchaeology.clicked.connect(self.archaeologyClicked) self.dock.pushButtonBack.clicked.connect(self.backClicked) self.dock.pushButtonForward.clicked.connect(self.forwardClicked) self.dock.pushButtonPlay.clicked.connect(self.playClicked) self.dock.dateTimeEditCurrentTime.dateTimeChanged.connect(self.currentTimeChangedDateText) # self.dock.horizontalTimeSlider.valueChanged.connect(self.currentTimeChangedSlider) self.sliderTimer = QTimer(self) self.sliderTimer.setInterval(250) self.sliderTimer.setSingleShot(True) self.sliderTimer.timeout.connect(self.currentTimeChangedSlider) self.dock.horizontalTimeSlider.valueChanged.connect(self.startTimer) self.dock.comboBoxTimeExtent.currentIndexChanged[str].connect(self.currentTimeFrameTypeChanged) self.dock.spinBoxTimeExtent.valueChanged.connect(self.currentTimeFrameSizeChanged) # this signal is responsible for rendering the label self.iface.mapCanvas().renderComplete.connect(self.renderLabel) # create shortcuts self.focusSC = QShortcut(QKeySequence("Ctrl+Space"), self.dock) self.focusSC.activated.connect(self.dock.horizontalTimeSlider.setFocus) # put default values self.dock.horizontalTimeSlider.setMinimum(conf.MIN_TIMESLIDER_DEFAULT) self.dock.horizontalTimeSlider.setMaximum(conf.MAX_TIMESLIDER_DEFAULT) self.dock.dateTimeEditCurrentTime.setMinimumDate(MIN_QDATE) self.showLabel = conf.DEFAULT_SHOW_LABEL self.exportEmpty = conf.DEFAULT_EXPORT_EMPTY self.labelOptions = TimestampLabelConfig(self.model) # placeholders for widgets that are added dynamically self.bcdateSpinBox = None # add to plugins toolbar try: self.action = QAction(QCoreApplication.translate("TimeManagerGuiControl", "Toggle visibility"), self.iface.mainWindow()) self.action.triggered.connect(self.toggleDock) self.iface.addPluginToMenu(QCoreApplication.translate("TimeManagerGuiControl", "&TimeManager"), self.action) except Exception as e: pass # OK for testing def startTimer(self): self.sliderTimer.start() def getLabelFormat(self): return self.labelOptions.fmt def getLabelFont(self): return self.labelOptions.font def getLabelSize(self): return self.labelOptions.size def getLabelColor(self): return self.labelOptions.color def getLabelBgColor(self): return self.labelOptions.bgcolor def getLabelPlacement(self): return self.labelOptions.placement def setLabelFormat(self, fmt): if not fmt: return self.labelOptions.fmt = fmt def setLabelFont(self, font): if not font: return self.labelOptions.font = font def setLabelSize(self, size): if not size: return self.labelOptions.size = size def setLabelColor(self, color): if not color: return self.labelOptions.color = color def setLabelBgColor(self, bgcolor): if not bgcolor: return self.labelOptions.bgcolor = bgcolor def setLabelPlacement(self, placement): if not placement: return self.labelOptions.placement = placement def toggleDock(self): self.dock.setVisible(not self.dock.isVisible()) def getOptionsDialog(self): return self.optionsDialog def showAnimationOptions(self): self.animationDialog = uic.loadUi(os.path.join(self.path, ANIMATION_WIDGET_FILE)) def selectFile(): self.animationDialog.lineEdit.setText(QFileDialog.getOpenFileName()) self.animationDialog.pushButton.clicked.connect(self.selectAnimationFolder) self.animationDialog.buttonBox.accepted.connect(self.sendAnimationOptions) self.animationDialog.show() def selectAnimationFolder(self): prev_directory = TimeManagerProjectHandler.plugin_setting(conf.LAST_ANIMATION_PATH_TAG) if prev_directory: self.animationDialog.lineEdit.setText(QFileDialog.getExistingDirectory(directory=prev_directory)) else: self.animationDialog.lineEdit.setText(QFileDialog.getExistingDirectory()) def sendAnimationOptions(self): path = self.animationDialog.lineEdit.text() if path == "": self.showAnimationOptions() TimeManagerProjectHandler.set_plugin_setting(conf.LAST_ANIMATION_PATH_TAG, path) delay_millis = self.animationDialog.spinBoxDelay.value() export_gif = self.animationDialog.radioAnimatedGif.isChecked() export_video = False # self.animationDialog.radioVideo.isChecked() do_clear = self.animationDialog.clearCheckBox.isChecked() self.signalExportVideo.emit(path, delay_millis, export_gif, export_video, do_clear) def showLabelOptions(self): options = self.labelOptions self.dialog = QDialog() lo = uic.loadUiType(os.path.join(self.path, LABEL_OPTIONS_WIDGET_FILE))[0] self.labelOptionsDialog = lo() self.labelOptionsDialog.setupUi(self.dialog) self.labelOptionsDialog.fontsize.setValue(options.size) self.labelOptionsDialog.time_format.setText(options.fmt) self.labelOptionsDialog.font.setCurrentFont(QFont(options.font)) self.labelOptionsDialog.placement.addItems(TimestampLabelConfig.PLACEMENTS) self.labelOptionsDialog.placement.setCurrentIndex(TimestampLabelConfig.PLACEMENTS.index(options.placement)) self.labelOptionsDialog.text_color.setColor(QColor(options.color)) self.labelOptionsDialog.bg_color.setColor(QColor(options.bgcolor)) self.labelOptionsDialog.buttonBox.accepted.connect(self.saveLabelOptions) self.dialog.show() def saveLabelOptions(self): self.labelOptions.font = self.labelOptionsDialog.font.currentFont().family() self.labelOptions.size = self.labelOptionsDialog.fontsize.value() self.labelOptions.bgcolor = self.labelOptionsDialog.bg_color.color().name() self.labelOptions.color = self.labelOptionsDialog.text_color.color().name() self.labelOptions.placement = self.labelOptionsDialog.placement.currentText() self.labelOptions.fmt = self.labelOptionsDialog.time_format.text() if self.labelOptionsDialog.radioButton_dt.isChecked(): self.labelOptions.type = "dt" if self.labelOptionsDialog.radioButton_beginning.isChecked(): self.labelOptions.type = "beginning" if self.labelOptionsDialog.radioButton_epoch.isChecked(): self.labelOptions.type = "epoch" def enableArchaeologyTextBox(self): self.dock.dateTimeEditCurrentTime.dateTimeChanged.connect(self.currentTimeChangedDateText) if self.bcdateSpinBox is None: self.bcdateSpinBox = self.createBCWidget(self.dock) self.bcdateSpinBox.editingFinished.connect(self.currentBCYearChanged) self.replaceWidget(self.dock.horizontalLayout, self.dock.dateTimeEditCurrentTime, self.bcdateSpinBox, 5) def getTimeWidget(self): if time_util.is_archaelogical(): return self.bcdateSpinBox else: return self.dock.dateTimeEditCurrentTime def currentBCYearChanged(self): val = self.bcdateSpinBox.text() try: bcdate_util.BCDate.from_str(val, strict_zeros=False) self.signalCurrentTimeUpdated.emit(val) except Exception as e: warn("Invalid bc date: {}".format(val)) # how to mark as such? return def disableArchaeologyTextBox(self): if self.bcdateSpinBox is None: return self.replaceWidget(self.dock.horizontalLayout, self.bcdateSpinBox, self.dock.dateTimeEditCurrentTime, 5) def createBCWidget(self, mainWidget): newWidget = QLineEdit(mainWidget) # QtGui.QSpinBox(mainWidget) # newWidget.setMinimum(-1000000) # newWidget.setValue(-1) newWidget.setText("0001 BC") return newWidget def replaceWidget(self, layout, oldWidget, newWidget, idx): """ Replaces oldWidget with newWidget at layout at index idx The way it is done, the widget is not destroyed and the connections to it remain """ layout.removeWidget(oldWidget) oldWidget.close() # I wonder if this has any memory leaks? </philosoraptor> layout.insertWidget(idx, newWidget) newWidget.show() layout.update() def optionsClicked(self): self.showOptions.emit() def exportVideoClicked(self): self.showAnimationOptions() def toggleTimeClicked(self): self.toggleTime.emit() def archaeologyClicked(self): self.toggleArchaeology.emit() def showArchOptions(self): self.archMenu = uic.loadUi(os.path.join(self.path, ARCH_WIDGET_FILE)) self.archMenu.buttonBox.accepted.connect(self.saveArchOptions) self.archMenu.buttonBox.rejected.connect(self.cancelArch) self.archMenu.show() def saveArchOptions(self): self.signalArchDigitsSpecified.emit(self.archMenu.numDigits.value()) def cancelArch(self): self.signalArchCancelled.emit() def backClicked(self): self.back.emit() def forwardClicked(self): self.forward.emit() def playClicked(self): if self.dock.pushButtonPlay.isChecked(): self.dock.pushButtonPlay.setIcon(QIcon("TimeManager:ui/images/pause.png")) else: self.dock.pushButtonPlay.setIcon(QIcon("TimeManager:ui/images/play.png")) self.play.emit() def currentTimeChangedSlider(self): sliderVal = self.dock.horizontalTimeSlider.value() try: pct = (sliderVal - self.dock.horizontalTimeSlider.minimum()) * 1.0 / ( self.dock.horizontalTimeSlider.maximum() - self.dock.horizontalTimeSlider.minimum()) except Exception as e: # slider is not properly initialized yet return if self.model.getActiveDelimitedText() and qgs.getVersion() < conf.MIN_DTEXT_FIXED: time.sleep(0.1) # hack to fix issue in qgis core with delimited text which was fixed in 2.9 self.signalSliderTimeChanged.emit(pct) def currentTimeChangedDateText(self, qdate): # info("changed time via text") self.signalCurrentTimeUpdated.emit(qdate) def currentTimeFrameTypeChanged(self, frameType): self.signalTimeFrameType.emit(frameType) def currentTimeFrameSizeChanged(self, frameSize): if frameSize < 1: # time frame size = 0 is meaningless self.dock.spinBoxTimeExtent.setValue(1) return self.signalTimeFrameSize.emit(frameSize) def unload(self): """Unload the plugin""" self.iface.removeDockWidget(self.dock) self.iface.removePluginMenu("TimeManager", self.action) def setWindowTitle(self, title): self.dock.setWindowTitle(title) def showOptionsDialog(self, layerList, animationFrameLength, playBackwards=False, loopAnimation=False): """Show the optionsDialog and populate it with settings from timeLayerManager""" # load the form self.optionsDialog = uic.loadUi(os.path.join(self.path, OPTIONS_WIDGET_FILE)) # restore settings from layerList: for layer in layerList: settings = layer_settings.getSettingsFromLayer(layer) layer_settings.addSettingsToRow(settings, self.optionsDialog.tableWidget) self.optionsDialog.tableWidget.resizeColumnsToContents() # restore animation options self.optionsDialog.spinBoxFrameLength.setValue(animationFrameLength) self.optionsDialog.checkBoxBackwards.setChecked(playBackwards) self.optionsDialog.checkBoxLabel.setChecked(self.showLabel) self.optionsDialog.checkBoxDontExportEmpty.setChecked(not self.exportEmpty) self.optionsDialog.checkBoxLoop.setChecked(loopAnimation) self.optionsDialog.show_label_options_button.clicked.connect(self.showLabelOptions) self.optionsDialog.checkBoxLabel.stateChanged.connect(self.showOrHideLabelOptions) self.optionsDialog.textBrowser.setHtml(QCoreApplication.translate('TimeManager', """\ <!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0//EN" "http://www.w3.org/TR/REC-html40/strict.dtd"> <html> <head> <meta name="qrichtext" content="1"/> <style> li.mono { font-family: Consolas, Courier New, Courier, monospace; } </style> </head> <body> <h1>Time Manager</h1> <p>Time Manager filters your layers and displays only layers and features that match the specified time frame. Time Manager supports vector layers and raster layers (including WMS with TIME dimension).</p> <p>Timestamps have to be in one of the following formats:</p> <ul> <li class="mono">%Y-%m-%d %H:%M:%S.%f</li> <li class="mono">%Y-%m-%d %H:%M:%S</li> <li class="mono">%Y-%m-%d %H:%M</li> <li class="mono">%Y-%m-%dT%H:%M:%S</li> <li class="mono">%Y-%m-%dT%H:%M:%SZ</li> <li class="mono">%Y-%m-%dT%H:%M</li> <li class="mono">%Y-%m-%dT%H:%MZ</li> <li class="mono">%Y-%m-%d</li> <li class="mono">%Y/%m/%d %H:%M:%S.%f</li> <li class="mono">%Y/%m/%d %H:%M:%S</li> <li class="mono">%Y/%m/%d %H:%M</li> <li class="mono">%Y/%m/%d</li> <li class="mono">%H:%M:%S</li> <li class="mono">%H:%M:%S.%f</li> <li class="mono">%Y.%m.%d %H:%M:%S.%f</li> <li class="mono">%Y.%m.%d %H:%M:%S</li> <li class="mono">%Y.%m.%d %H:%M</li> <li class="mono">%Y.%m.%d</li> <li class="mono">%Y%m%d%H%M%SED</li> <li>Integer timestamp in seconds after or before the epoch (1970-1-1)</li> </ul> <p>The layer list contains all layers managed by Time Manager. To add a vector layer, press [Add layer]. To add a raster layer, press [Add raster]. If you want to remove a layer from the list, select it and press [Remove layer].</p> <p>Below the layer list, you'll find the following <b>animation options</b>:</p> <p><b>Show frame for x milliseconds</b>... allows you to adjust for how long a frame will be visible during the animation</p> <p><b>Play animation backwards</b>... if checked, the animation will run in reverse direction</p> <p><b>Display frame start time on map</b>... if checked, displays the start time of the visible frame in the lower right corner of the map</p> <h2>Add Layer dialog</h2> <p>Here, you are asked to select the layer that should be added and specify the columns containing start and (optionally) end time.</p> <p>The <b>offset</b> option allows you to further time the appearance of features. If you specify an offset of -1, the features will appear one second later than they would by default.</p> <h2>Dock widget</h2> <p>The dock was designed to attach to the bottom of the QGIS main window. It offers the following tools:</p> <ul> <li><img src="images/power_on.png" alt="power"/> ... On/Off switch, allows you to turn Time Manager's functionality on/off with the click of only one button</li> <li><span class="hidden">[Settings]</span><input type="button" value="Settings"/> ... opens the Settings dialog where you can manage your spatio-temporal layers</li> <li><span class="hidden">[Export Video]</span><input type="button" value="Export Video"/> ... exports an image series based on current settings (This button is only enabled if there are layers registered in Time Manager "Settings")</li> <li><b>Time frame start: <span class="hidden">[2000-01-01 00:00:00]</span></b><input type="text" value="2000-01-01 00:00:00"/> ... shows the start time of the currently active frame. Allows you to precisely specify your desired analysis time.</li> <li><b>Time frame size: </b><input type="text" value="1"/><span class="hidden">[x]</span><select><option value="days">days</option></select> ... allow you to choose the size of the time frame</li> <li><img src="images/back.png" alt="back"/> ... go to the previous time frame</li> <li><img src="images/forward.png" alt="forward"/> ... go to the next time frame</li> <li><b>Slider</b> ... shows the position of current frame relative to the whole dataset and allows you to seamlessly scroll through the dataset</li> <li><img src="images/play.png" alt="play"/> ... start an automatic animation based on your current settings</li> </ul> </body> </html>""")) # show dialog self.showOrHideLabelOptions() self.optionsDialog.show() # create raster and vector dialogs self.vectorDialog = VectorLayerDialog(self.iface, os.path.join(self.path, ADD_VECTOR_LAYER_WIDGET_FILE), self.optionsDialog.tableWidget) self.rasterDialog = RasterLayerDialog(self.iface, os.path.join(self.path, ADD_RASTER_LAYER_WIDGET_FILE), self.optionsDialog.tableWidget) # establish connections self.optionsDialog.pushButtonAddVector.clicked.connect(self.vectorDialog.show) self.optionsDialog.pushButtonAddRaster.clicked.connect(self.rasterDialog.show) self.optionsDialog.pushButtonRemove.clicked.connect(self.removeLayer) self.optionsDialog.buttonBox.accepted.connect(self.saveOptions) # self.optionsDialog.buttonBox.helpRequested.connect(self.showHelp) def showOrHideLabelOptions(self): self.optionsDialog.show_label_options_button.setEnabled( self.optionsDialog.checkBoxLabel.isChecked()) def saveOptions(self): """Save the options from optionsDialog to timeLayerManager""" self.signalSaveOptions.emit() def removeLayer(self): """Remove currently selected layer (= row) from options""" currentRow = self.optionsDialog.tableWidget.currentRow() try: layerName = self.optionsDialog.tableWidget.item(currentRow, 0).text() except AttributeError: # if no row is selected return if QMessageBox.question(self.optionsDialog, QCoreApplication.translate("TimeManagerGuiControl", "Remove Layer"), QCoreApplication.translate("TimeManagerGuiControl", "Do you really want to remove layer {}?").format(layerName), QMessageBox.Ok, QMessageBox.Cancel) == QMessageBox.Ok: self.optionsDialog.tableWidget.removeRow(self.optionsDialog.tableWidget.currentRow()) def disableAnimationExport(self): """Disable the animation export button""" self.dock.pushButtonExportVideo.setEnabled(False) def enableAnimationExport(self): """Enable animation export button""" self.dock.pushButtonExportVideo.setEnabled(True) def refreshMapCanvas(self, sender=None): """Refresh the map canvas""" # QMessageBox.information(self.iface.mainWindow(),'Test Output','Refresh!\n'+str(sender)) self.iface.mapCanvas().refresh() def setTimeFrameSize(self, frameSize): """Set spinBoxTimeExtent to given frameSize""" self.dock.spinBoxTimeExtent.setValue(frameSize) def setTimeFrameType(self, frameType): """Set comboBoxTimeExtent to given frameType""" i = self.dock.comboBoxTimeExtent.findText(frameType) self.dock.comboBoxTimeExtent.setCurrentIndex(i) def setActive(self, isActive): """Toggle pushButtonToggleTime""" self.dock.pushButtonToggleTime.setChecked(isActive) def setArchaeologyPressed(self, isActive): """Toggle pushButtonArchaeology""" self.dock.pushButtonArchaeology.setChecked(isActive) def addActionShowSettings(self, action): """Add action to pushButttonOptions""" self.dock.pushButtonOptions.addAction(action) def turnPlayButtonOff(self): """Turn pushButtonPlay off""" if self.dock.pushButtonPlay.isChecked(): self.dock.pushButtonPlay.toggle() self.dock.pushButtonPlay.setIcon(QIcon("TimeManager:ui/images/play.png")) def renderLabel(self, painter): """Render the current timestamp on the map canvas""" if not self.showLabel or not self.model.hasLayers() or not self.dock.pushButtonToggleTime.isChecked(): return dt = self.model.getCurrentTimePosition() if dt is None: return labelString = self.labelOptions.getLabel(dt) # Determine placement of label given cardinal directions flags = 0 for direction, flag in ('N', Qt.AlignTop), ('S', Qt.AlignBottom), ('E', Qt.AlignRight), ('W', Qt.AlignLeft): if direction in self.labelOptions.placement: flags |= flag # Get canvas dimensions pixelRatio = painter.device().devicePixelRatio() width = painter.device().width() / pixelRatio height = painter.device().height() / pixelRatio painter.setRenderHint(painter.Antialiasing, True) txt = QTextDocument() html = """<span style="background-color:%s; padding: 5px; font-size: %spx;"> <font face="%s" color="%s"> %s</font> </span> """\ % (self.labelOptions.bgcolor, self.labelOptions.size, self.labelOptions.font, self.labelOptions.color, labelString) txt.setHtml(html) layout = txt.documentLayout() size = layout.documentSize() if flags & Qt.AlignRight: x = width - 5 - size.width() elif flags & Qt.AlignLeft: x = 5 else: x = width / 2 - size.width() / 2 if flags & Qt.AlignBottom: y = height - 5 - size.height() elif flags & Qt.AlignTop: y = 5 else: y = height / 2 - size.height() / 2 painter.translate(x, y) layout.draw(painter, QAbstractTextDocumentLayout.PaintContext()) painter.translate(-x, -y) # translate back def repaintRasters(self): rasters = self.model.getActiveRasters() list([x.layer.triggerRepaint() for x in rasters]) def repaintVectors(self): list([x.layer.triggerRepaint() for x in self.model.getActiveVectors()]) def repaintJoined(self): layerIdsToRefresh = qgs.getAllJoinedLayers(set([x.layer.id() for x in self.model.getActiveVectors()])) # info("to refresh {}".format(layerIdsToRefresh)) layersToRefresh = [qgs.getLayerFromId(x) for x in layerIdsToRefresh] list([x.triggerRepaint() for x in layersToRefresh])
class DatasetManagerDialog(QDialog, DIALOG_UI): def __init__(self, iface, parent=None, wizard_embedded=False): QDialog.__init__(self, parent) self.iface = iface self._close_editing() self.setupUi(self) self.buttonBox.accepted.connect(self._accepted) self.buttonBox.rejected.connect(self._rejected) self.type_combo_box.clear() self._lst_panel = dict() self.db_simple_factory = DbSimpleFactory() for db_id in self.db_simple_factory.get_db_list(False): self.type_combo_box.addItem(displayDbIliMode[db_id], db_id) db_factory = self.db_simple_factory.create_factory(db_id) item_panel = db_factory.get_config_panel(self, DbActionType.EXPORT) self._lst_panel[db_id] = item_panel self.db_layout.addWidget(item_panel) self.type_combo_box.currentIndexChanged.connect(self._type_changed) # when opened by the wizard it uses the current db connection settings and should not be changable self.db_frame.setHidden(wizard_embedded) self.dataset_model = DatasetModel() self.dataset_tableview.horizontalHeader().setSectionResizeMode( QHeaderView.Stretch) self.dataset_tableview.horizontalHeader().hide() self.dataset_tableview.verticalHeader().hide() self.dataset_tableview.setSelectionMode(QTableView.SingleSelection) self.dataset_tableview.setModel(self.dataset_model) self._restore_configuration() # refresh the models on changing values but avoid massive db connects by timer self.refreshTimer = QTimer() self.refreshTimer.setSingleShot(True) self.refreshTimer.timeout.connect( lambda: self._refresh_datasets(self._updated_configuration())) for key, value in self._lst_panel.items(): value.notify_fields_modified.connect( self._request_for_refresh_datasets) self._refresh_datasets(self._updated_configuration()) self.add_button.clicked.connect(self._add_dataset) self.edit_button.clicked.connect(self._edit_dataset) self.create_baskets_button.clicked.connect(self._create_baskets) self.dataset_tableview.selectionModel().selectionChanged.connect( lambda: self._enable_dataset_handling(True)) self.add_button.setIcon( QgsApplication.getThemeIcon("/symbologyAdd.svg")) self.edit_button.setIcon( QgsApplication.getThemeIcon("/symbologyEdit.svg")) def _close_editing(self): editable_layers = [] for layer in QgsProject.instance().mapLayers().values(): if layer.type() == QgsMapLayer.VectorLayer: self.iface.vectorLayerTools().stopEditing(layer) if layer.isEditable(): editable_layers.append(layer) if editable_layers: warning_box = QMessageBox(self) warning_box.setIcon(QMessageBox.Warning) warning_title = self.tr("Layers still editable") warning_box.setWindowTitle(warning_title) warning_box.setText( self. tr("You still have layers in edit mode.\nIn case you modify datasets on the database of those layers, it could lead to database locks.\nEditable layers are:\n - {}" ).format("\n - ".join( [layer.name() for layer in editable_layers]))) warning_box.exec_() def _valid_selection(self): """ Returns if at least one dataset is selected """ return bool(self.dataset_tableview.selectedIndexes()) def _enable_dataset_handling(self, enable): self.dataset_tableview.setEnabled(enable) self.add_button.setEnabled(enable) self.edit_button.setEnabled(self._valid_selection()) self.create_baskets_button.setEnabled(self._valid_selection()) def _type_changed(self): ili_mode = self.type_combo_box.currentData() db_id = ili_mode & ~DbIliMode.ili self.db_wrapper_group_box.setTitle(displayDbIliMode[db_id]) # Refresh panels for key, value in self._lst_panel.items(): is_current_panel_selected = db_id == key value.setVisible(is_current_panel_selected) if is_current_panel_selected: value._show_panel() self._refresh_datasets(self._updated_configuration()) def _request_for_refresh_datasets(self): # hold refresh back self.refreshTimer.start(500) def _refresh_datasets(self, configuration): db_connector = db_utils.get_db_connector(configuration) if db_connector and db_connector.get_basket_handling: self._enable_dataset_handling(True) return self.dataset_model.refresh_model(db_connector) else: self._enable_dataset_handling(False) return self.dataset_model.clear() def _add_dataset(self): db_connector = db_utils.get_db_connector(self._updated_configuration()) if db_connector and db_connector.get_basket_handling: edit_dataset_dialog = EditDatasetDialog(self, db_connector) edit_dataset_dialog.exec_() self._refresh_datasets(self._updated_configuration()) self._jump_to_entry(edit_dataset_dialog.dataset_line_edit.text()) def _edit_dataset(self): if self._valid_selection(): db_connector = db_utils.get_db_connector( self._updated_configuration()) if db_connector and db_connector.get_basket_handling: dataset = ( self.dataset_tableview.selectedIndexes()[0].data( int(DatasetModel.Roles.TID)), self.dataset_tableview.selectedIndexes()[0].data( int(DatasetModel.Roles.DATASETNAME)), ) edit_dataset_dialog = EditDatasetDialog( self, db_connector, dataset) edit_dataset_dialog.exec_() self._refresh_datasets(self._updated_configuration()) self._jump_to_entry( edit_dataset_dialog.dataset_line_edit.text()) def _create_baskets(self): if self._valid_selection(): db_connector = db_utils.get_db_connector( self._updated_configuration()) if db_connector and db_connector.get_basket_handling: feedbacks = [] for record in db_connector.get_topics_info(): dataset_tid = self.dataset_tableview.selectedIndexes( )[0].data(int(DatasetModel.Roles.TID)) status, message = db_connector.create_basket( dataset_tid, ".".join([record["model"], record["topic"]])) feedbacks.append((status, message)) info_box = QMessageBox(self) info_box.setIcon(QMessageBox.Warning if len( [feedback for feedback in feedbacks if not feedback[0]]) else QMessageBox.Information) info_title = self.tr("Created baskets") info_box.setWindowTitle(info_title) info_box.setText("{}{}".format( "\n".join([feedback[1] for feedback in feedbacks]), "\n\nBe aware that the IDs of the baskets are created as UUIDs. To change that, edit the t_ili2db_basket table manually." if len([feedback for feedback in feedbacks if feedback[0]]) else "", )) info_box.exec_() def _jump_to_entry(self, datasetname): matches = self.dataset_model.match( self.dataset_model.index(0, 0), Qt.DisplayRole, datasetname, 1, Qt.MatchExactly, ) if matches: self.dataset_tableview.setCurrentIndex(matches[0]) self.dataset_tableview.scrollTo(matches[0]) def _restore_configuration(self): settings = QSettings() for db_id in self.db_simple_factory.get_db_list(False): configuration = Ili2DbCommandConfiguration() db_factory = self.db_simple_factory.create_factory(db_id) config_manager = db_factory.get_db_command_config_manager( configuration) config_manager.load_config_from_qsettings() self._lst_panel[db_id].set_fields(configuration) mode = settings.value("QgisModelBaker/importtype") mode = DbIliMode[ mode] if mode else self.db_simple_factory.default_database mode = mode & ~DbIliMode.ili self.type_combo_box.setCurrentIndex(self.type_combo_box.findData(mode)) self._type_changed() def _updated_configuration(self): configuration = Ili2DbCommandConfiguration() mode = self.type_combo_box.currentData() self._lst_panel[mode].get_fields(configuration) configuration.tool = mode configuration.db_ili_version = db_utils.db_ili_version(configuration) return configuration def _save_configuration(self, configuration): settings = QSettings() settings.setValue("QgisModelBaker/importtype", self.type_combo_box.currentData().name) mode = self.type_combo_box.currentData() db_factory = self.db_simple_factory.create_factory(mode) config_manager = db_factory.get_db_command_config_manager( configuration) config_manager.save_config_in_qsettings() def _accepted(self): self._save_configuration(self._updated_configuration()) self.close() def _rejected(self): self._restore_configuration() self.close()
class ExportDialog(QDialog, DIALOG_UI): ValidExtensions = ["xtf", "XTF", "itf", "ITF", "gml", "GML", "xml", "XML"] def __init__(self, base_config, parent=None): QDialog.__init__(self, parent) self.setupUi(self) self.db_simple_factory = DbSimpleFactory() QgsGui.instance().enableAutoGeometryRestore(self) self.buttonBox.accepted.disconnect() self.buttonBox.clear() self.buttonBox.addButton(QDialogButtonBox.Cancel) self.buttonBox.addButton(QDialogButtonBox.Help) self.buttonBox.helpRequested.connect(self.help_requested) self.export_text = self.tr("Export") self.set_button_to_export_action = QAction(self.export_text, None) self.set_button_to_export_action.triggered.connect( self.set_button_to_export) self.export_without_validation_text = self.tr( "Export without validation") self.set_button_to_export_without_validation_action = QAction( self.export_without_validation_text, None) self.set_button_to_export_without_validation_action.triggered.connect( self.set_button_to_export_without_validation) self.edit_command_action = QAction(self.tr("Edit ili2db command"), None) self.edit_command_action.triggered.connect(self.edit_command) self.export_tool_button.addAction( self.set_button_to_export_without_validation_action) self.export_tool_button.addAction(self.edit_command_action) self.export_tool_button.setText(self.export_text) self.export_tool_button.clicked.connect(self.accepted) self.xtf_file_browse_button.clicked.connect( make_save_file_selector( self.xtf_file_line_edit, title=self.tr("Save in XTF Transfer File"), file_filter=self. tr("XTF Transfer File (*.xtf *XTF);;Interlis 1 Transfer File (*.itf *ITF);;XML (*.xml *XML);;GML (*.gml *GML)" ), extension=".xtf", extensions=["." + ext for ext in self.ValidExtensions], )) self.xtf_file_browse_button.clicked.connect( self.xtf_browser_opened_to_true) self.xtf_browser_was_opened = False self.type_combo_box.clear() self._lst_panel = dict() for db_id in self.db_simple_factory.get_db_list(False): self.type_combo_box.addItem(displayDbIliMode[db_id], db_id) db_factory = self.db_simple_factory.create_factory(db_id) item_panel = db_factory.get_config_panel(self, DbActionType.EXPORT) self._lst_panel[db_id] = item_panel self.db_layout.addWidget(item_panel) self.validators = Validators() fileValidator = FileValidator( pattern=["*." + ext for ext in self.ValidExtensions], allow_non_existing=True, ) self.xtf_file_line_edit.setValidator(fileValidator) self.xtf_file_line_edit.textChanged.connect( self.validators.validate_line_edits) self.xtf_file_line_edit.textChanged.connect( self.xtf_browser_opened_to_false) self.xtf_file_line_edit.textChanged.emit( self.xtf_file_line_edit.text()) # Reset to export as default text self.xtf_file_line_edit.textChanged.connect(self.set_button_to_export) # refresh the models on changing values but avoid massive db connects by timer self.refreshTimer = QTimer() self.refreshTimer.setSingleShot(True) self.refreshTimer.timeout.connect(self.refresh_models) for key, value in self._lst_panel.items(): value.notify_fields_modified.connect( self.request_for_refresh_models) self.validate_data = True # validates exported data by default, We use --disableValidation when is False self.base_configuration = base_config self.restore_configuration() self.export_models_model = ExportModels() self.export_models_view.setModel(self.export_models_model) self.export_models_view.clicked.connect(self.export_models_model.check) self.export_models_view.space_pressed.connect( self.export_models_model.check) self.request_for_refresh_models() self.type_combo_box.currentIndexChanged.connect(self.type_changed) self.bar = QgsMessageBar() self.bar.setSizePolicy(QSizePolicy.Minimum, QSizePolicy.Fixed) self.txtStdout.setLayout(QGridLayout()) self.txtStdout.layout().setContentsMargins(0, 0, 0, 0) self.txtStdout.layout().addWidget(self.bar, 0, 0, Qt.AlignTop) def request_for_refresh_models(self): # hold refresh back self.refreshTimer.start(500) def refresh_models(self): self.refreshed_export_models_model() def refreshed_export_models_model(self): tool = self.type_combo_box.currentData() & ~DbIliMode.ili configuration = self.updated_configuration() schema = configuration.dbschema db_factory = self.db_simple_factory.create_factory(tool) config_manager = db_factory.get_db_command_config_manager( configuration) uri_string = config_manager.get_uri(configuration.db_use_super_login) db_connector = None try: db_connector = db_factory.get_db_connector(uri_string, schema) except (DBConnectorError, FileNotFoundError): # when wrong connection parameters entered, there should just be returned an empty model - so let it pass pass self.export_models_model.refresh_models(db_connector) def db_ili_version(self, configuration): """ Returns the ili2db version the database has been created with or None if the database could not be detected as a ili2db database """ schema = configuration.dbschema db_factory = self.db_simple_factory.create_factory(configuration.tool) config_manager = db_factory.get_db_command_config_manager( configuration) uri_string = config_manager.get_uri(configuration.db_use_super_login) db_connector = None try: db_connector = db_factory.get_db_connector(uri_string, schema) return db_connector.ili_version() except (DBConnectorError, FileNotFoundError): return None def set_button_to_export(self): """ Changes the text of the button to export (with validation) and sets the validate_data to true. So on clicking the button the export will start with validation. The buttons actions are changed to be able to switch the without-validation mode. """ self.validate_data = True self.export_tool_button.removeAction(self.set_button_to_export_action) self.export_tool_button.removeAction(self.edit_command_action) self.export_tool_button.addAction( self.set_button_to_export_without_validation_action) self.export_tool_button.addAction(self.edit_command_action) self.export_tool_button.setText(self.export_text) def set_button_to_export_without_validation(self): """ Changes the text of the button to export without validation and sets the validate_data to false. So on clicking the button the export will start without validation. The buttons actions are changed to be able to switch the with-validation mode. """ self.validate_data = False self.export_tool_button.removeAction( self.set_button_to_export_without_validation_action) self.export_tool_button.removeAction(self.edit_command_action) self.export_tool_button.addAction(self.set_button_to_export_action) self.export_tool_button.addAction(self.edit_command_action) self.export_tool_button.setText(self.export_without_validation_text) def edit_command(self): """ A dialog opens giving the user the possibility to edit the ili2db command used for the export """ exporter = iliexporter.Exporter() exporter.tool = self.type_combo_box.currentData() exporter.configuration = self.updated_configuration() command = exporter.command(True) edit_command_dialog = EditCommandDialog(self) edit_command_dialog.command_edit.setPlainText(command) if edit_command_dialog.exec_(): edited_command = edit_command_dialog.command_edit.toPlainText() self.accepted(edited_command) def accepted(self, edited_command=None): db_id = self.type_combo_box.currentData() res, message = self._lst_panel[db_id].is_valid() if not res: self.txtStdout.setText(message) return configuration = self.updated_configuration() if not edited_command: if (not self.xtf_file_line_edit.validator().validate( configuration.xtffile, 0)[0] == QValidator.Acceptable): self.txtStdout.setText( self. tr("Please set a valid INTERLIS XTF file before exporting data." )) self.xtf_file_line_edit.setFocus() return if not configuration.ilimodels: self.txtStdout.setText( self.tr("Please set a model before exporting data.")) self.export_models_view.setFocus() return # If xtf browser was opened and the file exists, the user already chose # to overwrite the file if (os.path.isfile(self.xtf_file_line_edit.text().strip()) and not self.xtf_browser_was_opened): self.msg = QMessageBox() self.msg.setIcon(QMessageBox.Warning) self.msg.setText( self.tr( "{filename} already exists.\nDo you want to replace it?"). format(filename=os.path.basename( self.xtf_file_line_edit.text().strip()))) self.msg.setWindowTitle(self.tr("Save in XTF Transfer File")) self.msg.setStandardButtons(QMessageBox.Yes | QMessageBox.No) msg_box = self.msg.exec_() if msg_box == QMessageBox.No: return with OverrideCursor(Qt.WaitCursor): self.progress_bar.show() self.progress_bar.setValue(0) self.disable() self.txtStdout.setTextColor(QColor(LogColor.COLOR_INFO)) self.txtStdout.clear() exporter = iliexporter.Exporter() exporter.tool = self.type_combo_box.currentData() exporter.configuration = configuration self.save_configuration(configuration) exporter.stdout.connect(self.print_info) exporter.stderr.connect(self.on_stderr) exporter.process_started.connect(self.on_process_started) exporter.process_finished.connect(self.on_process_finished) self.progress_bar.setValue(25) try: if exporter.run( edited_command) != iliexporter.Exporter.SUCCESS: if configuration.db_ili_version == 3: # failed with a db created by ili2db version 3 if not edited_command: # fallback because of issues with --export3 argument self.show_message( Qgis.Warning, self. tr("Tried export with ili2db version 3.x.x (fallback)" ), ) exporter.version = 3 # ... and enforce the Exporter to use ili2db version 3.x.x if exporter.run() != iliexporter.Exporter.SUCCESS: self.enable() self.progress_bar.hide() return else: self.show_message( Qgis.Warning, self. tr("Tried export with ili2db version 3.x.x (no fallback with editted command)" ), ) return else: self.enable() self.progress_bar.hide() return except JavaNotFoundError as e: self.txtStdout.setTextColor(QColor(LogColor.COLOR_INFO)) self.txtStdout.clear() self.txtStdout.setText(e.error_string) self.enable() self.progress_bar.hide() return self.buttonBox.clear() self.buttonBox.setEnabled(True) self.buttonBox.addButton(QDialogButtonBox.Close) self.progress_bar.setValue(100) def print_info(self, text): self.txtStdout.setTextColor(QColor(LogColor.COLOR_INFO)) self.txtStdout.append(text) QCoreApplication.processEvents() def on_stderr(self, text): color_log_text(text, self.txtStdout) self.advance_progress_bar_by_text(text) QCoreApplication.processEvents() def show_message(self, level, message): if level == Qgis.Warning: self.bar.pushMessage(message, Qgis.Info, 10) elif level == Qgis.Critical: self.bar.pushMessage(message, Qgis.Warning, 10) def on_process_started(self, command): self.disable() self.txtStdout.setTextColor(QColor(LogColor.COLOR_INFO)) self.txtStdout.clear() self.txtStdout.setText(command) QCoreApplication.processEvents() def on_process_finished(self, exit_code, result): color = "#004905" if exit_code == 0 else "#aa2222" self.txtStdout.setTextColor(QColor(color)) self.txtStdout.append(self.tr("Finished ({})".format(exit_code))) if result == iliexporter.Exporter.SUCCESS: self.buttonBox.clear() self.buttonBox.setEnabled(True) self.buttonBox.addButton(QDialogButtonBox.Close) else: if self.export_without_validate(): self.set_button_to_export_without_validation() self.enable() def export_without_validate(self): """ Valid if an error occurred that prevents executing the export without validations :return: True if you can execute the export without validations, False in other case """ log = self.txtStdout.toPlainText().lower() if "permission denied" in log or "access is denied" in log: return False return True def updated_configuration(self): """ Get the configuration that is updated with the user configuration changes on the dialog. :return: Configuration """ configuration = ili2dbconfig.ExportConfiguration() mode = self.type_combo_box.currentData() self._lst_panel[mode].get_fields(configuration) configuration.tool = mode configuration.xtffile = self.xtf_file_line_edit.text().strip() configuration.ilimodels = ";".join( self.export_models_model.checked_models()) configuration.base_configuration = self.base_configuration configuration.db_ili_version = self.db_ili_version(configuration) if not self.validate_data: configuration.disable_validation = True return configuration def save_configuration(self, configuration): settings = QSettings() settings.setValue("QgisModelBaker/ili2pg/xtffile_export", configuration.xtffile) settings.setValue("QgisModelBaker/importtype", self.type_combo_box.currentData().name) mode = self.type_combo_box.currentData() db_factory = self.db_simple_factory.create_factory(mode) config_manager = db_factory.get_db_command_config_manager( configuration) config_manager.save_config_in_qsettings() def restore_configuration(self): settings = QSettings() for db_id in self.db_simple_factory.get_db_list(False): configuration = iliexporter.ExportConfiguration() db_factory = self.db_simple_factory.create_factory(db_id) config_manager = db_factory.get_db_command_config_manager( configuration) config_manager.load_config_from_qsettings() self._lst_panel[db_id].set_fields(configuration) mode = settings.value("QgisModelBaker/importtype") mode = DbIliMode[ mode] if mode else self.db_simple_factory.default_database mode = mode & ~DbIliMode.ili self.type_combo_box.setCurrentIndex(self.type_combo_box.findData(mode)) self.refresh_db_panel() def disable(self): self.type_combo_box.setEnabled(False) for key, value in self._lst_panel.items(): value.setEnabled(False) self.ili_config.setEnabled(False) self.buttonBox.setEnabled(False) def enable(self): self.type_combo_box.setEnabled(True) for key, value in self._lst_panel.items(): value.setEnabled(True) self.ili_config.setEnabled(True) self.buttonBox.setEnabled(True) def type_changed(self): self.txtStdout.clear() self.set_button_to_export() self.refresh_db_panel() self.refresh_models() self.txtStdout.clear() def refresh_db_panel(self): self.progress_bar.hide() db_id = self.type_combo_box.currentData() self.db_wrapper_group_box.setTitle(displayDbIliMode[db_id]) # Refresh panels for key, value in self._lst_panel.items(): value.interlis_mode = False is_current_panel_selected = db_id == key value.setVisible(is_current_panel_selected) if is_current_panel_selected: value._show_panel() def link_activated(self, link): if link.url() == "#configure": cfg = OptionsDialog(self.base_configuration) if cfg.exec_(): settings = QSettings() settings.beginGroup("QgisModelBaker/ili2db") self.base_configuration.save(settings) else: QDesktopServices.openUrl(link) def help_requested(self): os_language = QLocale( QSettings().value("locale/userLocale")).name()[:2] if os_language in ["es", "de"]: webbrowser.open( "https://opengisch.github.io/QgisModelBaker/docs/{}/user-guide.html#export-an-interlis-transfer-file-xtf" .format(os_language)) else: webbrowser.open( "https://opengisch.github.io/QgisModelBaker/docs/user-guide.html#export-an-interlis-transfer-file-xtf" ) def xtf_browser_opened_to_true(self): """ Slot. Sets a flag to true to eventually avoid asking a user whether to overwrite a file. """ self.xtf_browser_was_opened = True def xtf_browser_opened_to_false(self): """ Slot. Sets a flag to false to eventually ask a user whether to overwrite a file. """ self.xtf_browser_was_opened = False def advance_progress_bar_by_text(self, text): if text.strip() == "Info: compile models…": self.progress_bar.setValue(50) elif text.strip() == "Info: create table structure…": self.progress_bar.setValue(75)
class TidalPredictionWidget(QtWidgets.QDockWidget, FORM_CLASS): TEMPORAL_HACK_SECS = 1 AUTOLOAD_TIMER_MSECS = 300 def __init__(self, parent, canvas): """Constructor.""" super(TidalPredictionWidget, self).__init__(parent) self.canvas = canvas self.temporal = canvas.temporalController() self.setupUi(self) self.tableWidget.setColumnCount(3) self.tableWidget.setSortingEnabled(False) self.tableWidget.setHorizontalHeaderLabels( [tr('Time'), tr('Direction'), tr('Speed')]) self.dateEdit.dateChanged.connect(self.updateDate) self.dateEdit.dateChanged.connect(self.loadStationPredictions) self.timeEdit.timeChanged.connect(self.updateTime) self.nextDay.clicked.connect(lambda: self.adjustDay(1)) self.prevDay.clicked.connect(lambda: self.adjustDay(-1)) self.nextStep.clicked.connect(lambda: self.adjustStep(1)) self.prevStep.clicked.connect(lambda: self.adjustStep(-1)) self.annotationButton.clicked.connect(self.annotatePredictions) self.predictionManager = None self.stationFeature = None self.stationZone = None self.stationHighlight = None self.active = False self.predictionCanvas = None self.includeCurrentsInTable = False self.autoLoadTimer = QTimer() self.autoLoadTimer.setSingleShot(True) self.progressBar.hide() def activate(self): if currentStationsLayer() is None or currentPredictionsLayer() is None: QMessageBox.critical( None, None, tr('You must add current station layers before this tool can be used.' )) return self.show() if not self.active: self.active = True self.currentStationsLayer = currentStationsLayer() self.currentPredictionsLayer = currentPredictionsLayer() self.predictionManager = PredictionManager( self.currentStationsLayer, self.currentPredictionsLayer) self.predictionManager.progressChanged.connect( self.predictionProgress) self.setTemporalRange() self.loadMapExtentPredictions() self.autoLoadTimer.timeout.connect(self.loadMapExtentPredictions) self.canvas.extentsChanged.connect(self.triggerAutoLoad) QgsProject.instance().layerWillBeRemoved.connect(self.removalCheck) def deactivate(self): self.hide() if self.active: self.canvas.extentsChanged.disconnect(self.triggerAutoLoad) self.autoLoadTimer.timeout.disconnect( self.loadMapExtentPredictions) self.autoLoadTimer.stop() QgsProject.instance().layerWillBeRemoved.disconnect( self.removalCheck) self.tableWidget.clearContents() if self.predictionCanvas is not None: self.predictionCanvas.hide() if self.stationHighlight is not None: self.stationHighlight.hide() self.predictionManager.progressChanged.disconnect( self.predictionProgress) self.predictionManager = None self.stationFeature = None self.active = False def predictionProgress(self, progress): if progress == 100: self.progressBar.hide() else: self.progressBar.show() self.progressBar.setValue(progress) def maxAutoLoadCount(self): return 100 # TODO: have a widget for this def removalCheck(self, layerId): if layerId == self.currentStationsLayer.id( ) or layerId == self.currentPredictionsLayer.id(): self.deactivate() def triggerAutoLoad(self): self.autoLoadTimer.start(self.AUTOLOAD_TIMER_MSECS) def loadMapExtentPredictions(self): self.autoLoadTimer.stop() """ ensure all stations in visible extent of the map are loaded """ if self.active and self.predictionManager is not None: xform = QgsCoordinateTransform( self.canvas.mapSettings().destinationCrs(), epsg4326, QgsProject.instance()) rect = xform.transform(self.canvas.extent()) mapFeatures = self.predictionManager.getExtentStations(rect) print('autoloading ', len(mapFeatures), ' in ', rect) if len(mapFeatures) <= self.maxAutoLoadCount(): for f in mapFeatures: self.predictionManager.getDataPromise( f, self.dateEdit.date()).start() if self.stationZone is None and len(mapFeatures) > 0: self.stationZone = stationTimeZone(mapFeatures[0]) def loadStationPredictions(self): """ load predictions for the selected station """ if self.stationFeature is None: return self.stationData = self.predictionManager.getDataPromise( self.stationFeature, self.dateEdit.date()) self.tableWidget.clearContents() self.stationData.resolved(self.predictionsResolved) self.stationData.start() def setTemporalRange(self): """ Set up the temporal range of either based on the current time, or on the temporal extents in the map canvas if those are defined. """ if self.temporal.navigationMode( ) == QgsTemporalNavigationObject.NavigationMode.NavigationOff: startTime = QDateTime.currentDateTime().toUTC() else: startTime = self.temporal.temporalExtents().begin().addSecs( self.TEMPORAL_HACK_SECS) self.setDateTime(startTime) def setDateTime(self, datetime): """ Set our date and time choosers appropriately based on the given UTC time as interpreted for the current station if there is one, else base on local time. """ if self.stationFeature: localtime = datetime.toTimeZone( stationTimeZone(self.stationFeature)) else: localtime = datetime.toLocalTime() self.dateEdit.setDate(localtime.date()) # round off the time to the nearest step displayTime = localtime.time() displayTime.setHMS( displayTime.hour(), PredictionManager.STEP_MINUTES * (displayTime.minute() // PredictionManager.STEP_MINUTES), 0) self.timeEdit.setTime(displayTime) self.updateTime() self.loadStationPredictions() def setCurrentStation(self, feature): """ set the panel's current prediction station to the one described by the given feature """ self.stationFeature = feature self.stationZone = stationTimeZone(feature) self.stationLabel.setText(feature['name']) self.updateTime() self.updateStationLink() self.loadStationPredictions() if self.stationHighlight is not None: self.stationHighlight.hide() self.stationHighlight = QgsHighlight(self.canvas, self.stationFeature, self.currentStationsLayer) self.stationHighlight.setColor(QColor(Qt.red)) self.stationHighlight.setFillColor(QColor(Qt.red)) self.stationHighlight.show() def adjustDay(self, delta): self.dateEdit.setDate(self.dateEdit.date().addDays(delta)) def adjustStep(self, delta): step = 60 * PredictionManager.STEP_MINUTES * delta curTime = self.timeEdit.time() if step < 0 and curTime.hour() == 0 and curTime.minute() == 0: self.adjustDay(-1) curTime = curTime.addSecs(step) self.timeEdit.setTime(curTime) if step > 0 and curTime.hour() == 0 and curTime.minute() == 0: self.adjustDay(1) def updateDate(self): self.loadMapExtentPredictions() self.updateStationLink() self.updateTime() def updateTime(self): self.temporal.setNavigationMode( QgsTemporalNavigationObject.NavigationMode.FixedRange) if self.stationZone is not None: self.datetime = QDateTime(self.dateEdit.date(), self.timeEdit.time(), self.stationZone).toUTC() else: self.datetime = QDateTime(self.dateEdit.date(), self.timeEdit.time()).toUTC() # Note: we hack around a memory provider range bug here by offsetting the window by 1 minute self.temporal.setTemporalExtents( QgsDateTimeRange( self.datetime.addSecs(-self.TEMPORAL_HACK_SECS), self.datetime.addSecs((60 * PredictionManager.STEP_MINUTES) - self.TEMPORAL_HACK_SECS), True, False)) self.updatePlotXLine() def updateStationLink(self): if self.stationFeature is not None: linkUrl = 'https://tidesandcurrents.noaa.gov/noaacurrents/Predictions?id={}&d={}&r=1&tz=LST%2FLDT' linkUrl = linkUrl.format( self.stationFeature['station'], self.dateEdit.date().toString('yyyy-MM-dd')) self.linkLabel.setText('<a href="{}">{} Station Page</a>'.format( linkUrl, self.stationFeature['id'])) else: self.linkLabel.setText('') def handlePlotClick(self, event): minutes = PredictionManager.STEP_MINUTES * ( event.xdata * 60 // PredictionManager.STEP_MINUTES) self.timeEdit.setTime(QTime(minutes // 60, minutes % 60)) def updatePlotXLine(self): if self.predictionCanvas is not None: x = QTime(0, 0).secsTo(self.timeEdit.time()) / 3600.0 self.plotXLine.set_xdata([x, x]) self.plotAxes.figure.canvas.draw() def predictionsResolved(self): # Check to see if the resolved signal is for data we currently care about. # if not, then just bail if self.stationData is None or self.stationData.state != PredictionPromise.ResolvedState: return """ when we have predictions for the current station, show them in the plot and table widget. """ if self.predictionCanvas is not None: self.predictionCanvas.mpl_disconnect(self.plotCallbackId) self.plotLayout.removeWidget(self.predictionCanvas) self.predictionCanvas.hide() self.predictionCanvas = FigureCanvas(Figure(figsize=(5, 3))) self.plotLayout.addWidget(self.predictionCanvas) self.plotAxes = self.predictionCanvas.figure.subplots() # zero time in this plot = 00:00 local time on the date of interest t0 = QDateTime(self.dateEdit.date(), QTime(0, 0), stationTimeZone(self.stationFeature)).toUTC() t = [] val = [] for f in self.stationData.predictions: if f['type'] == 'current': utcTime = f['time'] utcTime.setTimeSpec(Qt.TimeSpec.UTC) t.append(t0.secsTo(utcTime) / 3600) val.append(f['value']) self.plotAxes.set_xlim(left=0, right=24) self.plotAxes.set_xticks([0, 3, 6, 9, 12, 15, 18, 21, 24]) self.plotAxes.grid(linewidth=0.5) y0line = self.plotAxes.axhline(y=0) y0line.set_linestyle(':') y0line.set_linewidth(1) self.plotXLine = self.plotAxes.axvline(x=0) self.plotXLine.set_linestyle(':') self.plotXLine.set_linewidth(1) self.updatePlotXLine() self.plotAxes.plot(t, val) self.plotCallbackId = self.predictionCanvas.mpl_connect( 'button_release_event', self.handlePlotClick) QgsProject.instance()._ax = self.plotAxes self.tableWidget.setRowCount(len(self.stationData.predictions)) i = 0 for p in self.stationData.predictions: dt = p['time'] dt.setTimeSpec(Qt.TimeSpec.UTC) if self.includeCurrentsInTable and p[ 'type'] == 'current' and p['dir'] != NULL: self.tableWidget.setItem( i, 0, QTableWidgetItem( dt.toTimeZone(self.stationZone).toString('h:mm AP'))) self.tableWidget.setItem( i, 1, QTableWidgetItem(str(round(p['dir'])) + 'º')) self.tableWidget.setItem( i, 2, QTableWidgetItem("{:.2f}".format(p['magnitude']))) i += 1 elif p['type'] != 'current': self.tableWidget.setItem( i, 0, QTableWidgetItem( dt.toTimeZone(self.stationZone).toString('h:mm AP'))) self.tableWidget.setItem(i, 1, QTableWidgetItem(p['type'])) self.tableWidget.setItem( i, 2, QTableWidgetItem("{:.2f}".format(p['value']))) self.tableWidget.setRowHeight(i, 20) i += 1 self.tableWidget.setRowCount(i) def annotatePredictions(self): if self.stationFeature is None: return a = QgsTextAnnotation() a.setMapLayer(self.predictionManager.stationsLayer) document = a.document() columnWidth = [80, 100, 60] columnAlign = ['left', 'left', 'right'] html = '<font size="+2"><b>' html += self.stationFeature['name'] + '<br>' + self.dateEdit.date( ).toString() + '<br>' html += '</b></font>' html += '<font size="+1"><table cellpadding="0" cellspacing="0">' html += '<tr>' for j in range(0, self.tableWidget.columnCount()): html += '<td width="{}"><b>{}</b></td>'.format( columnWidth[j], self.tableWidget.horizontalHeaderItem(j).text()) html += '</tr>' for i in range(0, self.tableWidget.rowCount()): html += '<tr bgcolor="{}">'.format('#FFFFFF' if i % 2 else '#EEEEEE') for j in range(0, self.tableWidget.columnCount()): html += '<td align="{}" width="{}">{}</td>'.format( columnAlign[j], columnWidth[j], self.tableWidget.item(i, j).text()) html += '</tr>' html += '</table></font>' document.setHtml(html) # TODO: this size and offset are wack. Can we dynamically calculate from the content somehow? a.setFrameSize(QSizeF(270, 300)) a.setFrameOffsetFromReferencePoint(QPointF(-300, -200)) a.setMapPosition(self.stationFeature.geometry().asPoint()) a.setMapPositionCrs( QgsCoordinateReferenceSystem( self.predictionManager.stationsLayer.crs())) # disable its symbol for symbol in a.markerSymbol().symbolLayers(): symbol.setEnabled(False) QgsProject.instance().annotationManager().addAnnotation(a)