def __init__(self, parent=None): LOGGER.debug('QchartMain opened.') super().__init__(parent) self.setWindowTitle(get_app_title()) self.resize(900, 300) self.activateWindow() # layout of basic widgets self.logger = Logger() self.frame = QtWidgets.QFrame() layout = QtWidgets.QVBoxLayout(self.frame) layout.addWidget(self.logger) self.setCentralWidget(self.frame) self.frame.setFocus() # basic setup of the data handling self.data_handlers = {} # setting up the ZMQ thread self.listening_thread = QtCore.QThread() self.listener = DataReceiver() self.listener.moveToThread(self.listening_thread) # communication with the ZMQ thread self.listening_thread.started.connect(self.listener.loop) self.listener.send_info.connect(self.logger.add_message) self.listener.send_data.connect(self.process_data) # go! self.listening_thread.start()
class DataAdder(QtCore.QObject): data_updated = QtCore.Signal(object, dict) def __init__(self, parent=None): super().__init__(parent) self.current_data = None self.current_struct = {} self.new_data_dict = {} def set_data(self, current_data, current_struct, new_data_dict): self.current_data = current_data self.current_struct = current_struct self.new_data_dict = new_data_dict def run(self): new_data_frames = dict_to_data_frames(self.new_data_dict) data_struct = self.current_struct data = {} for data_frame in new_data_frames: col_name = list(data_frame.columns)[0] if self.current_data == {}: data[col_name] = data_frame data_struct[col_name] = get_data_structure(data_frame) elif col_name in self.current_data: data[col_name] = append_new_data(self.current_data[col_name], data_frame) data_struct[col_name] = get_data_structure(data[col_name]) self.data_updated.emit(data, data_struct)
class DataStructure(QtWidgets.QTreeWidget): data_updated = QtCore.Signal(dict) def __init__(self, parent=None): super().__init__(parent) self.setColumnCount(2) self.setHeaderLabels(['Array', 'Properties']) self.setSelectionMode(QtWidgets.QTreeWidget.SingleSelection) @QtCore.Slot(dict) def update(self, structure): for key, val in structure.items(): items = self.findItems(key, QtCore.Qt.MatchExactly) if len(items) == 0: # add a new option to the structure widget item = QtWidgets.QTreeWidgetItem([key, '{} points'.format(val['nValues'])]) self.addTopLevelItem(item) else: item = items[0] item.setText(1, '{} points'.format(val['nValues'])) current_selection = self.selectedItems() if len(current_selection) == 0: item = self.topLevelItem(0) if item: item.setSelected(True)
class DataReceiver(QtCore.QObject): send_info = QtCore.Signal(str) send_data = QtCore.Signal(dict) def __init__(self): super().__init__() context = zmq.Context() port = config['network']['port'] addr = config['network']['addr'] self.socket = context.socket(zmq.PULL) self.socket.bind(f"tcp://{addr}:{port}") self.running = True @QtCore.Slot() def loop(self): self.send_info.emit("Listening...") while self.running: data_bytes = self.socket.recv() data = json.loads(data_bytes.decode(encoding='UTF-8')) if 'id' in data.keys(): # a proper data set requires an 'id' data_id = data['id'] self.send_info.emit(f'Received data for dataset: {data_id}') self.send_data.emit(data) LOGGER.debug(f'\n\t DataReceiver received: {data} \n') elif 'ping' in data.keys(): # so this doesn't look like an error # when checking if the server is running self.send_info.emit(f'Received ping.') else: self.send_info.emit( f'Received invalid message ' f'(expected DataDict or ping):\n{data}' )
def __init__(self, data_id, parent=None): super().__init__(parent) self.data_id = data_id search_str = 'run ID = ' idx = self.data_id.find(search_str) + len(search_str) run_id = int(self.data_id[idx:].strip()) self.setWindowTitle(f"{get_app_title()} (#{run_id})") self.active_dataset = None self.data = {} self.data_struct = {} self.adding_queue = {} self.plot_data_pending = False self.current_plot_choice_info = None # plot settings set_matplotlib_defaults() # data chosing widgets self.structure_widget = DataStructure() self.plot_choice = PlotChoice() chooser_layout = QtWidgets.QVBoxLayout() chooser_layout.addWidget(self.structure_widget) chooser_layout.addWidget(self.plot_choice) # plot control widgets self.plot = MPLPlot(width=5, height=4) plot_layout = QtWidgets.QVBoxLayout() plot_layout.addWidget(self.plot) plot_layout.addWidget(NavBar(self.plot, self)) # Main layout self.frame = QtWidgets.QFrame() main_layout = QtWidgets.QHBoxLayout(self.frame) main_layout.addLayout(chooser_layout) main_layout.addLayout(plot_layout) # data processing threads self.data_adder = DataAdder() self.data_adder_thread = QtCore.QThread() self.data_adder.moveToThread(self.data_adder_thread) self.data_adder.data_updated.connect(self.data_from_adder) self.data_adder.data_updated.connect(self.data_adder_thread.quit) self.data_adder_thread.started.connect(self.data_adder.run) self.plot_data = PlotData() self.plot_data_thread = QtCore.QThread() self.plot_data.moveToThread(self.plot_data_thread) self.plot_data.data_processed.connect(self.update_plot) self.plot_data.data_processed.connect(self.plot_data_thread.quit) self.plot_data_thread.started.connect(self.plot_data.process_data) # signals/slots for data selection etc. self.data_added.connect(self.structure_widget.update) self.data_added.connect(self.update_plot_data) self.structure_widget.itemSelectionChanged.connect(self.activate_data) self.data_activated.connect(self.plot_choice.set_options) self.plot_choice.choice_updated.connect(self.update_plot_data) # activate window self.frame.setFocus() self.setCentralWidget(self.frame) self.activateWindow()
class DataWindow(QtWidgets.QMainWindow): data_added = QtCore.Signal(dict) data_activated = QtCore.Signal(dict) windowClosed = QtCore.Signal(str) def __init__(self, data_id, parent=None): super().__init__(parent) self.data_id = data_id search_str = 'run ID = ' idx = self.data_id.find(search_str) + len(search_str) run_id = int(self.data_id[idx:].strip()) self.setWindowTitle(f"{get_app_title()} (#{run_id})") self.active_dataset = None self.data = {} self.data_struct = {} self.adding_queue = {} self.plot_data_pending = False self.current_plot_choice_info = None # plot settings set_matplotlib_defaults() # data chosing widgets self.structure_widget = DataStructure() self.plot_choice = PlotChoice() chooser_layout = QtWidgets.QVBoxLayout() chooser_layout.addWidget(self.structure_widget) chooser_layout.addWidget(self.plot_choice) # plot control widgets self.plot = MPLPlot(width=5, height=4) plot_layout = QtWidgets.QVBoxLayout() plot_layout.addWidget(self.plot) plot_layout.addWidget(NavBar(self.plot, self)) # Main layout self.frame = QtWidgets.QFrame() main_layout = QtWidgets.QHBoxLayout(self.frame) main_layout.addLayout(chooser_layout) main_layout.addLayout(plot_layout) # data processing threads self.data_adder = DataAdder() self.data_adder_thread = QtCore.QThread() self.data_adder.moveToThread(self.data_adder_thread) self.data_adder.data_updated.connect(self.data_from_adder) self.data_adder.data_updated.connect(self.data_adder_thread.quit) self.data_adder_thread.started.connect(self.data_adder.run) self.plot_data = PlotData() self.plot_data_thread = QtCore.QThread() self.plot_data.moveToThread(self.plot_data_thread) self.plot_data.data_processed.connect(self.update_plot) self.plot_data.data_processed.connect(self.plot_data_thread.quit) self.plot_data_thread.started.connect(self.plot_data.process_data) # signals/slots for data selection etc. self.data_added.connect(self.structure_widget.update) self.data_added.connect(self.update_plot_data) self.structure_widget.itemSelectionChanged.connect(self.activate_data) self.data_activated.connect(self.plot_choice.set_options) self.plot_choice.choice_updated.connect(self.update_plot_data) # activate window self.frame.setFocus() self.setCentralWidget(self.frame) self.activateWindow() @QtCore.Slot() def activate_data(self): item = self.structure_widget.selectedItems()[0] self.active_dataset = item.text(0) self.data_activated.emit(self.data_struct[self.active_dataset]) @QtCore.Slot() def update_plot_data(self): if self.plot_data_thread.isRunning(): self.plot_data_pending = True else: self.current_plot_choice_info = self.plot_choice.choice_info self.plot_data_pending = False self.plot_data.set_data( self.data[self.active_dataset], self.current_plot_choice_info ) self.plot_data_thread.start() def _plot_1d_line(self, x, data): marker = '.' marker_size = 4 marker_color = 'k' self.plot.axes.yaxis.set_major_formatter(mpl_formatter()) x = x.flatten() # assume this is cool if (len(x) == data.shape[0]) or (len(x) == len(data)): self.plot.axes.plot( x, data, marker=marker, markerfacecolor=marker_color, markeredgecolor=marker_color, markersize=marker_size, ) elif len(x) == data.shape[1]: self.plot.axes.plot( x, data.transpose(), marker=marker, markerfacecolor=marker_color, markeredgecolor=marker_color, markersize=marker_size, ) else: raise ValueError('Cannot find a sensible shape for _plot_1D_line') try: xmin, xmax = get_axis_lims(x) self.plot.axes.set_xlim(xmin, xmax) except Exception as e: LOGGER.debug(e) self.plot.axes.set_xlabel(self.current_plot_choice_info['xAxis']['name']) self.plot.axes.set_ylabel(self.active_dataset) def _plot_1d_scatter(self, x, data): self.plot.axes.yaxis.set_major_formatter(mpl_formatter()) x = x.flatten() # assume this is cool if (len(x) == data.shape[0]) or (len(x) == len(data)): self.plot.axes.scatter(x, data) elif len(x) == data.shape[1]: self.plot.axes.scatter(x, data.transpose()) else: raise ValueError('Cannot find a sensible shape for _plot_1D_scatter') try: xmin, xmax = get_axis_lims(x) self.plot.axes.set_xlim(xmin, xmax) except Exception as e: LOGGER.debug(e) try: ymin, ymax = get_axis_lims(data) self.plot.axes.set_ylim(ymin, ymax) except Exception as e: LOGGER.debug(e) self.plot.axes.set_xlabel(self.current_plot_choice_info['xAxis']['name']) self.plot.axes.set_ylabel(self.active_dataset) def _plot_2d_pcolor(self, x, y, data): x_grid, y_grid = make_pcolor_grid(x, y) if ( self.current_plot_choice_info['xAxis']['idx'] < self.current_plot_choice_info['yAxis']['idx'] ): img = self.plot.axes.pcolormesh(x_grid, y_grid, data.transpose()) else: img = self.plot.axes.pcolormesh(x_grid, y_grid, data) self.plot.axes.set_xlabel(self.current_plot_choice_info['xAxis']['name']) self.plot.axes.set_ylabel(self.current_plot_choice_info['yAxis']['name']) cbar = self.plot.fig.colorbar( img, format=mpl_formatter(), ) cbar.set_label(self.active_dataset) def _plot_2d_scatter(self, x, y, data): img = self.plot.axes.scatter(x, y, c=data) try: xmin, xmax = get_axis_lims(x) self.plot.axes.set_xlim(xmin, xmax) ymin, ymax = get_axis_lims(y) self.plot.axes.set_ylim(ymin, ymax) except Exception as e: LOGGER.debug(e) self.plot.axes.set_xlabel(self.current_plot_choice_info['xAxis']['name']) self.plot.axes.set_ylabel(self.current_plot_choice_info['yAxis']['name']) cbar = self.plot.fig.colorbar( img, format=mpl_formatter(), ) cbar.set_label(self.active_dataset) @QtCore.Slot(object, object, object, bool) def update_plot(self, data, x_array, y_array, grid_found): self.plot.clear_figure() try: pdims = get_plot_dims(data, x_array, y_array) if pdims == 0: raise ValueError('No data sent to DataWindow.update_plot') if grid_found: if pdims == 1: self._plot_1d_line(x_array, data) elif pdims == 2: self._plot_2d_pcolor(x_array, y_array, data) else: if pdims == 1: self._plot_1d_scatter(x_array, data) elif pdims == 2: self._plot_2d_scatter(x_array, y_array, data) self.plot.axes.set_title(f"{self.data_id}", size='x-small') self.plot.draw() except Exception as e: LOGGER.debug('Could not plot selected data') LOGGER.debug(f'Exception raised: {e}') if self.plot_data_pending: self.update_plot_data() def add_data(self, data_dict): """ Here we receive new data from the listener. We'll use a separate thread for processing and combining (numerics might be costly). If the thread is already running, we'll put the new data into a queue that will be resolved during the next call of add_data (i.e, queue will grow until current adding thread is done.) """ data_dict = data_dict.get('datasets', {}) if self.data_adder_thread.isRunning(): if self.adding_queue == {}: self.adding_queue = data_dict else: self.adding_queue = combine_dicts(self.adding_queue, data_dict) else: if self.adding_queue != {}: data_dict = combine_dicts(self.adding_queue, data_dict) if data_dict != {}: # move data to data_adder obj and start data_adder_thread self.data_adder.set_data(self.data, self.data_struct, data_dict) self.data_adder_thread.start() self.adding_queue = {} @QtCore.Slot(object, dict) def data_from_adder(self, data, data_struct): self.data = data self.data_struct = data_struct self.data_added.emit(self.data_struct) # clean-up def closeEvent(self, event): LOGGER.debug(f'close {self.data_id}. event: {event}') self.windowClosed.emit(self.data_id)
class PlotData(QtCore.QObject): data_processed = QtCore.Signal(object, object, object, bool) def set_data(self, data_frame, choice_info): self.df = data_frame self.choice_info = choice_info def process_data(self): try: xarr = data_frame_to_xarray(self.df) data = xarr.values[:] if data.size != 0: filled_elements = np.isfinite(data).sum() total_elements = data.size if filled_elements/total_elements < 0.05: raise ValueError('grid is too sparse') data_shape = list(data.shape) exclude = [ self.choice_info['xAxis']['idx'], self.choice_info['yAxis']['idx'], ] squeeze_dims = tuple( i for i in range(len(data_shape)) if (i not in exclude) and (data_shape[i] == 1) ) plot_data = data.squeeze(squeeze_dims) plot_data = np.ma.masked_where(np.isnan(plot_data), plot_data) if plot_data.size < 1: LOGGER.debug('Data has size 0') return if self.choice_info['xAxis']['idx'] > -1: x_array = xarr.coords[self.choice_info['xAxis']['name']].values else: x_array = None if self.choice_info['yAxis']['idx'] > -1: y_array = xarr.coords[self.choice_info['yAxis']['name']].values else: y_array = None if self.choice_info['subtractAverage']: # This feature is only for 2D data if x_array is not None and y_array is not None: # x axis, horizontal one - axis 0 # y axis, vertical one - axis 1 if self.choice_info['subtractAverage'] == 'byRow': # rows / x axis / horizontal axis row_means = plot_data.mean(0) row_means_matrix = row_means[np.newaxis, :] plot_data = plot_data - row_means_matrix elif self.choice_info['subtractAverage'] == 'byColumn': # columns / y axis / vertical one col_means = plot_data.mean(1) col_means_matrix = col_means[:, np.newaxis] plot_data = plot_data - col_means_matrix self.data_processed.emit(plot_data, x_array, y_array, True) return except (ValueError, IndexError): LOGGER.debug('PlotData.process_data: No grid for the data.') LOGGER.debug('Fall back to scatter plot') if self.choice_info['xAxis']['idx'] > -1: x_label = self.choice_info['xAxis']['name'] x_array = self.df.index.get_level_values(x_label).values else: x_label = None x_array = None if self.choice_info['yAxis']['idx'] > -1: y_label = self.choice_info['yAxis']['name'] y_array = self.df.index.get_level_values(y_label).values else: y_label = None y_array = None plot_data = self.df.values.flatten() self.data_processed.emit(plot_data, x_array, y_array, False) return
class PlotChoice(QtWidgets.QWidget): choice_updated = QtCore.Signal(object) def __init__(self, parent=None): super().__init__(parent) self.x_selection = QtWidgets.QComboBox() self.y_selection = QtWidgets.QComboBox() axis_choice_box = QtWidgets.QGroupBox('Plot axes') axis_choice_layout = QtWidgets.QFormLayout() axis_choice_layout.addRow(QtWidgets.QLabel('x axis'), self.x_selection) axis_choice_layout.addRow(QtWidgets.QLabel('y axis'), self.y_selection) axis_choice_box.setLayout(axis_choice_layout) self.subtract_avg_box = QtWidgets.QGroupBox('Subtract average') self.subtract_avg_button_group = QtWidgets.QButtonGroup() self.subtract_col_avg_button = QtWidgets.QRadioButton('From each column (vertical axis)') self.subtract_avg_button_group.addButton(self.subtract_col_avg_button, 0) self.subtract_row_avg_button = QtWidgets.QRadioButton('From each row (horizontal axis)') self.subtract_avg_button_group.addButton(self.subtract_row_avg_button, 1) self.subtract_avg_none_button = QtWidgets.QRadioButton('None') self.subtract_avg_button_group.addButton(self.subtract_avg_none_button, 2) self.subtract_avg_none_button.setChecked(True) self.subtract_avg_layout = QtWidgets.QFormLayout() self.subtract_avg_layout.addRow(self.subtract_col_avg_button) self.subtract_avg_layout.addRow(self.subtract_row_avg_button) self.subtract_avg_layout.addRow(self.subtract_avg_none_button) self.subtract_avg_box.setLayout(self.subtract_avg_layout) main_layout = QtWidgets.QVBoxLayout(self) main_layout.addWidget(axis_choice_box) main_layout.addWidget(self.subtract_avg_box) self.emit_choice_update = False self.x_selection.currentTextChanged.connect(self.x_selected) self.y_selection.currentTextChanged.connect(self.y_selected) self.subtract_avg_button_group.buttonClicked.connect(self.subtract_average_changed) self.empty_selection_name = '<None>' self.axes_names = [] self.choice_info = {} @QtCore.Slot(str) def x_selected(self, val): self.update_options(self.x_selection, val) @QtCore.Slot(str) def y_selected(self, val): self.update_options(self.y_selection, val) @QtCore.Slot(QtWidgets.QAbstractButton) def subtract_average_changed(self, button): self.update_options(None, None) def _axis_in_use(self, name): # for opt in self.avgSelection, self.x_selection, self.y_selection: for opt in self.x_selection, self.y_selection: if name == opt.currentText(): return True return False def update_options(self, changed_option, new_val): """ After changing the role of a data axis manually, we need to make sure this axis isn't used anywhere else. """ for opt in self.x_selection, self.y_selection: if opt != changed_option and opt.currentText() == new_val: opt.setCurrentIndex(0) subtract_average = None if self.subtract_row_avg_button.isChecked(): subtract_average = 'byRow' elif self.subtract_col_avg_button.isChecked(): subtract_average = 'byColumn' self.choice_info = { 'xAxis' : { 'idx' : self.x_selection.currentIndex() - 1, 'name' : self.x_selection.currentText(), }, 'yAxis' : { 'idx' : self.y_selection.currentIndex() - 1, 'name' : self.y_selection.currentText(), }, 'subtractAverage' : subtract_average, } if self.emit_choice_update: self.choice_updated.emit(self.choice_info) @QtCore.Slot(dict) def set_options(self, data_struct): """ Populates the data choice widgets initially. """ self.emit_choice_update = False self.axes_names = list(data_struct['axes'].keys()) # Need an option that indicates that the choice is 'empty' while self.empty_selection_name in self.axes_names: self.empty_selection_name = '<' + self.empty_selection_name + '>' self.axes_names.insert(0, self.empty_selection_name) # add all options for opt in self.x_selection, self.y_selection: opt.clear() opt.addItems(self.axes_names) # see which options remain for x and y, apply the first that work xopts = self.axes_names.copy() xopts.pop(0) if len(xopts) > 0: self.x_selection.setCurrentText(xopts[0]) if len(xopts) > 1: self.y_selection.setCurrentText(xopts[1]) self.emit_choice_update = True self.choice_updated.emit(self.choice_info)