def __init__(self, timeline, parent, topic): MessageView.__init__(self, timeline, topic) self._parent = parent self._stamp = None self._name = parent.objectName() self.toolbar = QToolBar() self._first_action = QAction(QIcon.fromTheme('go-first'), '', self.toolbar) self._first_action.triggered.connect(self.navigate_first) self.toolbar.addAction(self._first_action) self._prev_action = QAction(QIcon.fromTheme('go-previous'), '', self.toolbar) self._prev_action.triggered.connect(self.navigate_previous) self.toolbar.addAction(self._prev_action) self._next_action = QAction(QIcon.fromTheme('go-next'), '', self.toolbar) self._next_action.triggered.connect(self.navigate_next) self.toolbar.addAction(self._next_action) self._last_action = QAction(QIcon.fromTheme('go-last'), '', self.toolbar) self._last_action.triggered.connect(self.navigate_last) self.toolbar.addAction(self._last_action) parent.layout().addWidget(self.toolbar)
def __init__(self, context): super(Dashboard, self).__init__(context) self.context = context self.setup(context) if not hasattr(self, 'name'): self.name = 'Dashboard' if not hasattr(self, 'max_icon_size'): self.max_icon_size = QSize(50, 30) self._main_widget = QToolBar() self._main_widget.setIconSize(self.max_icon_size) self._main_widget.setObjectName(self.name) self._main_widget.setWindowTitle(self.name) if context.serial_number() > 1: self._main_widget.setWindowTitle(self._main_widget.windowTitle() + (' (%d)' % context.serial_number())) # Convert list of widgets into layout self.add_widgets() # Display the dashboard context.add_toolbar(self._main_widget)
class Dashboard(Plugin): """ Base class from which dashboards should inherit. :param context: the plugin context :type context: qt_gui.plugin.Plugin """ def __init__(self, context): super(Dashboard, self).__init__(context) self.context = context self.setup(context) if not hasattr(self, 'name'): self.name = 'Dashboard' if not hasattr(self, 'max_icon_size'): self.max_icon_size = QSize(50, 30) self._main_widget = QToolBar() self._main_widget.setIconSize(self.max_icon_size) self._main_widget.setObjectName(self.name) self._main_widget.setWindowTitle(self.name) if context.serial_number() > 1: self._main_widget.setWindowTitle(self._main_widget.windowTitle() + (' (%d)' % context.serial_number())) # Convert list of widgets into layout self.add_widgets() # Display the dashboard context.add_toolbar(self._main_widget) def setup(self, context): """ Called during ``__init__`` Subclasses should do initialization here. NOTE when overriding this method you should provide a ``self.name`` to avoid naming conflicts. :param context: The plugin context :type context: qt_gui.plugin.Plugin """ pass def shutdown_plugin(self): """ Called when the toolbar is closed by Qt. """ for widget in self._widgets: if hasattr(widget, 'shutdown_widget'): widget.shutdown_widget() if hasattr(widget, 'close'): widget.close() self.shutdown_dashboard() def shutdown_dashboard(self): """ Called after shutdown plugin, subclasses should do cleanup here, not in shutdown_plugin """ pass def get_widgets(self): """ Most of the dashboard customization should be done here. If this function is not overriden the dashboard will display nothing. :returns: List of lists containing dashboard widgets, or list of lists containing a string followed by a list of dashboard widgets. """ return [] def add_widgets(self): """ Add groups of widgets to _main_widget. Supports group labels. This method can be reimplemented in order to customize appearances. """ widgets = self.get_widgets() self._widgets = [ ] # stores widgets which may need to be shut down when done for group in widgets: # Check for group label if isinstance(group[0], str): grouplabel, v = group box = QGroupBox(grouplabel) box.setContentsMargins(0, 18, 0, 0) # LTRB # Apply the center-label directive only for single-icon groups if len(group[1]) == 1: box.setAlignment(Qt.AlignHCenter) else: box = QGroupBox() box.setContentsMargins(0, 0, 0, 0) # LTRB v = group # Add widgets to QGroupBox layout = QHBoxLayout() layout.setSpacing(0) layout.setContentsMargins(0, 0, 0, 0) # LTRB for i in v: try: try: i.setIconSize( self.max_icon_size) # without this, icons are tiny except AttributeError as e: # triggers with battery which uses a QLabel instead of a QToolButton-based widget pass layout.addWidget(i) self._widgets.append(i) except: raise Exception( "All widgets must be a subclass of QWidget!") layout.activate() box.setLayout(layout) self._main_widget.addWidget(box) self._main_widget.addSeparator()
def __init__(self, context): super(Top, self).__init__(context) # Give QObjects reasonable names self.setObjectName('Top') # Process standalone plugin command-line arguments from argparse import ArgumentParser parser = ArgumentParser() # Add argument(s) to the parser. parser.add_argument("-q", "--quiet", action="store_true", dest="quiet", help="Put plugin in silent mode") args, unknowns = parser.parse_known_args(context.argv()) # if not args.quiet: # print 'arguments: ', args # print 'unknowns: ', unknowns self._selected_node = '' self._selected_node_lock = RLock() # Setup the toolbar self._toolbar = QToolBar() self._filter_box = QLineEdit() self._regex_box = QCheckBox() self._regex_box.setText('regex') self._toolbar.addWidget(QLabel('Filter')) self._toolbar.addWidget(self._filter_box) self._toolbar.addWidget(self._regex_box) self._filter_box.returnPressed.connect(self.update_filter) self._regex_box.stateChanged.connect(self.update_filter) # Create a container widget and give it a layout self._container = QWidget() self._container.setWindowTitle('Process Monitor') self._layout = QVBoxLayout() self._container.setLayout(self._layout) self._layout.addWidget(self._toolbar) # Create the table widget self._table_widget = QTreeWidget() self._table_widget.setObjectName('TopTable') self._table_widget.setColumnCount(len(self.NODE_LABELS)) self._table_widget.setHeaderLabels(self.NODE_LABELS) self._table_widget.itemClicked.connect(self._tableItemClicked) self._table_widget.setSortingEnabled(True) self._table_widget.setAlternatingRowColors(True) self._layout.addWidget(self._table_widget) context.add_widget(self._container) # Add a button for killing nodes self._kill_button = QPushButton('Kill Node') self._layout.addWidget(self._kill_button) self._kill_button.clicked.connect(self._kill_node) # Update twice since the first cpu% lookup will always return 0 self.update_table() self.update_table() self._table_widget.resizeColumnToContents(0) # Start a timer to trigger updates self._update_timer = QTimer() self._update_timer.setInterval(1000) self._update_timer.timeout.connect(self.update_table) self._update_timer.start()
class Top(Plugin): NODE_FIELDS = [ 'pid', 'get_cpu_percent', 'get_memory_percent', 'get_num_threads' ] OUT_FIELDS = [ 'node_name', 'pid', 'cpu_percent', 'memory_percent', 'num_threads' ] FORMAT_STRS = ['%s', '%s', '%0.2f', '%0.2f', '%s'] NODE_LABELS = ['Node', 'PID', 'CPU %', 'Mem %', 'Num Threads'] SORT_TYPE = [str, str, float, float, float] TOOLTIPS = { 0: ('cmdline', lambda x: '\n'.join(textwrap.wrap(' '.join(x)))), 3: ('memory_info', lambda x: ('Resident: %0.2f MiB, Virtual: %0.2f MiB' % (x[0] / 2**20, x[1] / 2**20))) } _node_info = NodeInfo() name_filter = re.compile('') def __init__(self, context): super(Top, self).__init__(context) # Give QObjects reasonable names self.setObjectName('Top') # Process standalone plugin command-line arguments from argparse import ArgumentParser parser = ArgumentParser() # Add argument(s) to the parser. parser.add_argument("-q", "--quiet", action="store_true", dest="quiet", help="Put plugin in silent mode") args, unknowns = parser.parse_known_args(context.argv()) # if not args.quiet: # print 'arguments: ', args # print 'unknowns: ', unknowns self._selected_node = '' self._selected_node_lock = RLock() # Setup the toolbar self._toolbar = QToolBar() self._filter_box = QLineEdit() self._regex_box = QCheckBox() self._regex_box.setText('regex') self._toolbar.addWidget(QLabel('Filter')) self._toolbar.addWidget(self._filter_box) self._toolbar.addWidget(self._regex_box) self._filter_box.returnPressed.connect(self.update_filter) self._regex_box.stateChanged.connect(self.update_filter) # Create a container widget and give it a layout self._container = QWidget() self._container.setWindowTitle('Process Monitor') self._layout = QVBoxLayout() self._container.setLayout(self._layout) self._layout.addWidget(self._toolbar) # Create the table widget self._table_widget = QTreeWidget() self._table_widget.setObjectName('TopTable') self._table_widget.setColumnCount(len(self.NODE_LABELS)) self._table_widget.setHeaderLabels(self.NODE_LABELS) self._table_widget.itemClicked.connect(self._tableItemClicked) self._table_widget.setSortingEnabled(True) self._table_widget.setAlternatingRowColors(True) self._layout.addWidget(self._table_widget) context.add_widget(self._container) # Add a button for killing nodes self._kill_button = QPushButton('Kill Node') self._layout.addWidget(self._kill_button) self._kill_button.clicked.connect(self._kill_node) # Update twice since the first cpu% lookup will always return 0 self.update_table() self.update_table() self._table_widget.resizeColumnToContents(0) # Start a timer to trigger updates self._update_timer = QTimer() self._update_timer.setInterval(1000) self._update_timer.timeout.connect(self.update_table) self._update_timer.start() def _tableItemClicked(self, item, column): with self._selected_node_lock: self._selected_node = item.text(0) def update_filter(self, *args): if self._regex_box.isChecked(): expr = self._filter_box.text() else: expr = re.escape(self._filter_box.text()) self.name_filter = re.compile(expr) self.update_table() def _kill_node(self): self._node_info.kill_node(self._selected_node) def update_one_item(self, row, info): twi = TopWidgetItem() for col, field in enumerate(self.OUT_FIELDS): val = info[field] twi.setText(col, self.FORMAT_STRS[col] % val) self._table_widget.insertTopLevelItem(row, twi) for col, (key, func) in self.TOOLTIPS.items(): twi.setToolTip(col, func(info[key])) with self._selected_node_lock: if twi.text(0) == self._selected_node: twi.setSelected(True) twi.setHidden(len(self.name_filter.findall(info['node_name'])) == 0) def update_table(self): self._table_widget.clear() infos = self._node_info.get_all_node_fields(self.NODE_FIELDS) for nx, info in enumerate(infos): self.update_one_item(nx, info) def shutdown_plugin(self): self._update_timer.stop() def save_settings(self, plugin_settings, instance_settings): instance_settings.set_value('filter_text', self._filter_box.text()) instance_settings.set_value('is_regex', int(self._regex_box.checkState())) def restore_settings(self, plugin_settings, instance_settings): self._filter_box.setText(instance_settings.value('filter_text')) is_regex_int = instance_settings.value('is_regex') if is_regex_int: self._regex_box.setCheckState(Qt.CheckState(is_regex_int)) else: self._regex_box.setCheckState(Qt.CheckState(0)) self.update_filter()
class Dashboard(Plugin): """ Base class from which dashboards should inherit. :param context: the plugin context :type context: qt_gui.plugin.Plugin """ def __init__(self, context): super(Dashboard, self).__init__(context) self.context = context self.setup(context) if not hasattr(self, 'name'): self.name = 'Dashboard' if not hasattr(self, 'max_icon_size'): self.max_icon_size = QSize(50, 30) self._main_widget = QToolBar() self._main_widget.setIconSize(self.max_icon_size) self._main_widget.setObjectName(self.name) self._main_widget.setWindowTitle(self.name) if context.serial_number() > 1: self._main_widget.setWindowTitle(self._main_widget.windowTitle() + (' (%d)' % context.serial_number())) # Convert list of widgets into layout self.add_widgets() # Display the dashboard context.add_toolbar(self._main_widget) def setup(self, context): """ Called during ``__init__`` Subclasses should do initialization here. NOTE when overriding this method you should provide a ``self.name`` to avoid naming conflicts. :param context: The plugin context :type context: qt_gui.plugin.Plugin """ pass def shutdown_plugin(self): """ Called when the toolbar is closed by Qt. """ for widget in self._widgets: if hasattr(widget, 'shutdown_widget'): widget.shutdown_widget() if hasattr(widget, 'close'): widget.close() self.shutdown_dashboard() def shutdown_dashboard(self): """ Called after shutdown plugin, subclasses should do cleanup here, not in shutdown_plugin """ pass def get_widgets(self): """ Most of the dashboard customization should be done here. If this function is not overriden the dashboard will display nothing. :returns: List of lists containing dashboard widgets, or list of lists containing a string followed by a list of dashboard widgets. """ return [] def add_widgets(self): """ Add groups of widgets to _main_widget. Supports group labels. This method can be reimplemented in order to customize appearances. """ widgets = self.get_widgets() self._widgets = [] # stores widgets which may need to be shut down when done for group in widgets: # Check for group label if isinstance(group[0], str): grouplabel, v = group box = QGroupBox(grouplabel) box.setContentsMargins(0, 18, 0, 0) # LTRB # Apply the center-label directive only for single-icon groups if len(group[1]) == 1: box.setAlignment(Qt.AlignHCenter) else: box = QGroupBox() box.setContentsMargins(0, 0, 0, 0) # LTRB v = group # Add widgets to QGroupBox layout = QHBoxLayout() layout.setSpacing(0) layout.setContentsMargins(0, 0, 0, 0) # LTRB for i in v: try: try: i.setIconSize(self.max_icon_size) # without this, icons are tiny except AttributeError as e: # triggers with battery which uses a QLabel instead of a QToolButton-based widget pass layout.addWidget(i) self._widgets.append(i) except: raise Exception("All widgets must be a subclass of QWidget!") layout.activate() box.setLayout(layout) self._main_widget.addWidget(box) self._main_widget.addSeparator()
def __init__(self, context): super(HandEyeCalibration, self).__init__(context) self.context = context self.node = context.node self.widget = QWidget() self.widget.setObjectName(self.PLUGIN_TITLE) self.widget.setWindowTitle(self.PLUGIN_TITLE) # Data self.Tsamples = [] # Toolbar _, path_pkg = get_resource('packages', 'handeye_dashboard') print("{}".format(path_pkg)) self.snapshot_action = QAction(QIcon.fromTheme('camera-photo'), 'Take a snapshot', self.widget) path = path_pkg + '/share/handeye_dashboard/images/capture.png' self.calibrate_action = QAction(QIcon(QPixmap.fromImage(QImage(path))), 'Get the camera/robot transform', self.widget) self.clear_action = QAction(QIcon.fromTheme('edit-clear'), 'Clear the record data.', self.widget) path = path_pkg + '/share/handeye_dashboard/images/UR5.png' self.execut_action = QAction(QIcon(QPixmap.fromImage(QImage(path))), 'EStart the publishing the TF.', self.widget) self.toolbar = QToolBar() self.toolbar.addAction(self.snapshot_action) self.toolbar.addAction(self.calibrate_action) self.toolbar.addAction(self.clear_action) self.toolbar.addAction(self.execut_action) # Toolbar0 self.l0 = QLabel(self.widget) self.l0.setText("Camera-Mount-Type: ") self.l0.setFixedWidth(150) self.l0.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.combobox = QComboBox(self.widget) self.combobox.addItem('attached on robot') self.combobox.addItem('fixed beside robot') self.toolbar0 = QToolBar() self.toolbar0.addWidget(self.l0) self.toolbar0.addWidget(self.combobox) # Toolbar1 self.l1 = QLabel(self.widget) self.l1.setText("Camera-Frame: ") self.l1.setFixedWidth(150) self.l1.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.camera_frame = QLineEdit(self.widget) self.camera_frame.setText("camera_link") self.toolbar1 = QToolBar() self.toolbar1.addWidget(self.l1) self.toolbar1.addWidget(self.camera_frame) # Toolbar2 self.l2 = QLabel(self.widget) self.l2.setText("Object-Frame: ") self.l2.setFixedWidth(150) self.l2.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.object_frame = QLineEdit(self.widget) self.object_frame.setText("calib_board") self.toolbar2 = QToolBar() self.toolbar2.addWidget(self.l2) self.toolbar2.addWidget(self.object_frame) # Toolbar3 self.l3 = QLabel(self.widget) self.l3.setText("Robot-Base-Frame: ") self.l3.setFixedWidth(150) self.l3.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.base_frame = QLineEdit(self.widget) self.base_frame.setText("base") self.toolbar3 = QToolBar() self.toolbar3.addWidget(self.l3) self.toolbar3.addWidget(self.base_frame) # Toolbar4 self.l4 = QLabel(self.widget) self.l4.setText("End-Effector-Frame: ") self.l4.setFixedWidth(150) self.l4.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.endeffector_frame = QLineEdit(self.widget) self.endeffector_frame.setText("tool0") self.toolbar4 = QToolBar() self.toolbar4.addWidget(self.l4) self.toolbar4.addWidget(self.endeffector_frame) # Toolbar5 self.l5 = QLabel(self.widget) self.l5.setText("Sample-Number: ") self.l5.setFixedWidth(150) self.l5.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.le5 = QLineEdit(self.widget) self.le5.setValidator(QIntValidator()) self.le5.setText('10') self.le5.setReadOnly(True) self.toolbar5 = QToolBar() self.toolbar5.addWidget(self.l5) self.toolbar5.addWidget(self.le5) # TreeView self.treeview = QTreeView() self.treeview.setAlternatingRowColors(True) self.model = QStandardItemModel(self.treeview) self.treeview.setModel(self.model) self.treeview.setHeaderHidden(True) # TextEdit self.textedit = QTextEdit(self.widget) self.textedit.setReadOnly(True) # Layout self.layout = QVBoxLayout() self.layout.addWidget(self.toolbar0) self.layout.addWidget(self.toolbar1) self.layout.addWidget(self.toolbar2) self.layout.addWidget(self.toolbar3) self.layout.addWidget(self.toolbar4) self.layout.addWidget(self.toolbar5) self.layout.addWidget(self.toolbar) self.layoutH = QHBoxLayout() self.layoutH.addWidget(self.treeview) self.layoutH.addWidget(self.textedit) self.layout.addLayout(self.layoutH) self.widget.setLayout(self.layout) # Add the widget to the user interface if context.serial_number() > 1: self.widget.setWindowTitle(self.widget.windowTitle() + (' (%d)' % context.serial_number())) context.add_widget(self.widget) # Make the connections self.snapshot_action.triggered.connect(self.take_snapshot) self.calibrate_action.triggered.connect(self.calibration) self.clear_action.triggered.connect(self.clear) self.execut_action.triggered.connect(self.execution) # Package path self.path_pkg = path_pkg # Set up TF self.cli = self.node.create_client(HandeyeTF, 'handeye_tf_service') while not self.cli.wait_for_service(timeout_sec=1.0): self.node.get_logger().info( 'service not available, waiting again...') self.req = HandeyeTF.Request()
class HandEyeCalibration(Plugin): PLUGIN_TITLE = ' Intel OTC Robotics: Hand-Eye Calibration' def __init__(self, context): super(HandEyeCalibration, self).__init__(context) self.context = context self.node = context.node self.widget = QWidget() self.widget.setObjectName(self.PLUGIN_TITLE) self.widget.setWindowTitle(self.PLUGIN_TITLE) # Data self.Tsamples = [] # Toolbar _, path_pkg = get_resource('packages', 'handeye_dashboard') print("{}".format(path_pkg)) self.snapshot_action = QAction(QIcon.fromTheme('camera-photo'), 'Take a snapshot', self.widget) path = path_pkg + '/share/handeye_dashboard/images/capture.png' self.calibrate_action = QAction(QIcon(QPixmap.fromImage(QImage(path))), 'Get the camera/robot transform', self.widget) self.clear_action = QAction(QIcon.fromTheme('edit-clear'), 'Clear the record data.', self.widget) path = path_pkg + '/share/handeye_dashboard/images/UR5.png' self.execut_action = QAction(QIcon(QPixmap.fromImage(QImage(path))), 'EStart the publishing the TF.', self.widget) self.toolbar = QToolBar() self.toolbar.addAction(self.snapshot_action) self.toolbar.addAction(self.calibrate_action) self.toolbar.addAction(self.clear_action) self.toolbar.addAction(self.execut_action) # Toolbar0 self.l0 = QLabel(self.widget) self.l0.setText("Camera-Mount-Type: ") self.l0.setFixedWidth(150) self.l0.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.combobox = QComboBox(self.widget) self.combobox.addItem('attached on robot') self.combobox.addItem('fixed beside robot') self.toolbar0 = QToolBar() self.toolbar0.addWidget(self.l0) self.toolbar0.addWidget(self.combobox) # Toolbar1 self.l1 = QLabel(self.widget) self.l1.setText("Camera-Frame: ") self.l1.setFixedWidth(150) self.l1.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.camera_frame = QLineEdit(self.widget) self.camera_frame.setText("camera_link") self.toolbar1 = QToolBar() self.toolbar1.addWidget(self.l1) self.toolbar1.addWidget(self.camera_frame) # Toolbar2 self.l2 = QLabel(self.widget) self.l2.setText("Object-Frame: ") self.l2.setFixedWidth(150) self.l2.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.object_frame = QLineEdit(self.widget) self.object_frame.setText("calib_board") self.toolbar2 = QToolBar() self.toolbar2.addWidget(self.l2) self.toolbar2.addWidget(self.object_frame) # Toolbar3 self.l3 = QLabel(self.widget) self.l3.setText("Robot-Base-Frame: ") self.l3.setFixedWidth(150) self.l3.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.base_frame = QLineEdit(self.widget) self.base_frame.setText("base") self.toolbar3 = QToolBar() self.toolbar3.addWidget(self.l3) self.toolbar3.addWidget(self.base_frame) # Toolbar4 self.l4 = QLabel(self.widget) self.l4.setText("End-Effector-Frame: ") self.l4.setFixedWidth(150) self.l4.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.endeffector_frame = QLineEdit(self.widget) self.endeffector_frame.setText("tool0") self.toolbar4 = QToolBar() self.toolbar4.addWidget(self.l4) self.toolbar4.addWidget(self.endeffector_frame) # Toolbar5 self.l5 = QLabel(self.widget) self.l5.setText("Sample-Number: ") self.l5.setFixedWidth(150) self.l5.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter) self.le5 = QLineEdit(self.widget) self.le5.setValidator(QIntValidator()) self.le5.setText('10') self.le5.setReadOnly(True) self.toolbar5 = QToolBar() self.toolbar5.addWidget(self.l5) self.toolbar5.addWidget(self.le5) # TreeView self.treeview = QTreeView() self.treeview.setAlternatingRowColors(True) self.model = QStandardItemModel(self.treeview) self.treeview.setModel(self.model) self.treeview.setHeaderHidden(True) # TextEdit self.textedit = QTextEdit(self.widget) self.textedit.setReadOnly(True) # Layout self.layout = QVBoxLayout() self.layout.addWidget(self.toolbar0) self.layout.addWidget(self.toolbar1) self.layout.addWidget(self.toolbar2) self.layout.addWidget(self.toolbar3) self.layout.addWidget(self.toolbar4) self.layout.addWidget(self.toolbar5) self.layout.addWidget(self.toolbar) self.layoutH = QHBoxLayout() self.layoutH.addWidget(self.treeview) self.layoutH.addWidget(self.textedit) self.layout.addLayout(self.layoutH) self.widget.setLayout(self.layout) # Add the widget to the user interface if context.serial_number() > 1: self.widget.setWindowTitle(self.widget.windowTitle() + (' (%d)' % context.serial_number())) context.add_widget(self.widget) # Make the connections self.snapshot_action.triggered.connect(self.take_snapshot) self.calibrate_action.triggered.connect(self.calibration) self.clear_action.triggered.connect(self.clear) self.execut_action.triggered.connect(self.execution) # Package path self.path_pkg = path_pkg # Set up TF self.cli = self.node.create_client(HandeyeTF, 'handeye_tf_service') while not self.cli.wait_for_service(timeout_sec=1.0): self.node.get_logger().info( 'service not available, waiting again...') self.req = HandeyeTF.Request() def clear(self): # >>> Clear the recorded samples self.textedit.append('Clearing the recorded data ...') self.textedit.clear() self.Tsamples = [] self.model.clear() def get_tf_transform(self, frame_id, child_frame_id): self.req.transform.header.frame_id = frame_id self.req.transform.child_frame_id = child_frame_id self.req.publish.data = False future = self.cli.call_async(self.req) rclpy.spin_until_future_complete(self.node, future) transform = TransformStamped() try: result = future.result() except Exception as e: self.node.get_logger().info('Service call failed %r' % (e, )) else: transform = result.tf_lookup_result return transform def publish_tf_transform(self, transform_to_publish): self.req.publish.data = True self.req.transform = transform_to_publish future = self.cli.call_async(self.req) rclpy.spin_until_future_complete(self.node, future) try: future.result() except Exception as e: self.node.get_logger().info('Service call failed %r' % (e, )) else: self.node.get_logger().info( 'Send the camera-robot transform :\n\tfrom `{}` to `{}`.'. format(self.req.transform.header.frame_id, self.req.transform.child_frame_id)) def take_snapshot(self): # >>> Take the snapshot self.textedit.append('Taking snapshot ...') # Get the transform from `tool0` to `base_link` T = self.get_tf_transform(self.base_frame.text(), self.endeffector_frame.text()) bTe = np.zeros((4, 4)) q = [ T.transform.rotation.w, T.transform.rotation.x, T.transform.rotation.y, T.transform.rotation.z ] bTe = br.quaternion.to_transform(q) bTe[:3, 3] = np.array([ T.transform.translation.x, T.transform.translation.y, T.transform.translation.z ]) self.textedit.append('Lookup transform: from `{}` to `{}`.'.format( self.base_frame.text(), self.endeffector_frame.text())) self.node.get_logger().info(bcolors.OKGREEN + 'bTe:' + bcolors.ENDC + '\n{}'.format(bTe)) # Get the transform from `calib_board` to `camera_link` T = self.get_tf_transform(self.camera_frame.text(), self.object_frame.text()) cTo = np.zeros((4, 4)) q = [ T.transform.rotation.w, T.transform.rotation.x, T.transform.rotation.y, T.transform.rotation.z ] cTo = br.quaternion.to_transform(q) cTo[:3, 3] = np.array([ T.transform.translation.x, T.transform.translation.y, T.transform.translation.z ]) self.textedit.append('Lookup transform: from `{}` to `{}`.'.format( self.camera_frame.text(), self.object_frame.text())) self.node.get_logger().info(bcolors.OKGREEN + 'cTo:' + bcolors.ENDC + '\n{}'.format(cTo)) parent = QStandardItem('Snapshot {}'.format(len(self.Tsamples))) child_1 = QStandardItem('bTe:\n{}\n{}\n{}\n{}'.format( bTe[0, :], bTe[1, :], bTe[2, :], bTe[3, :])) child_2 = QStandardItem('cTo:\n{}\n{}\n{}\n{}'.format( cTo[0, :], cTo[1, :], cTo[2, :], cTo[3, :])) parent.appendRow(child_1) parent.appendRow(child_2) self.model.appendRow(parent) self.Tsamples.append((bTe, cTo)) self.le5.setText(str(len(self.Tsamples))) def calibration(self): # >>> Compute the calibration self.textedit.append('Making the calibration ...') if len(self.Tsamples) == 0: self.textedit.append( 'No transform recorded, please take snapshots.') return # save samples to `dataset.json` file save_samples_to_file(self.Tsamples) import handeye if self.combobox.currentIndex() == 0: solver_cri = handeye.calibrator.HandEyeCalibrator(setup='Moving') if self.combobox.currentIndex() == 1: solver_cri = handeye.calibrator.HandEyeCalibrator(setup='Fixed') for sample in self.Tsamples: solver_cri.add_sample(sample[0], sample[1]) try: bTc = solver_cri.solve(method=handeye.solver.Daniilidis1999) # save the calibration result to 'camera-robot.json' file file_output = '/tmp/' + 'camera-robot.json' with open(file_output, 'w') as f: json.dump(bTc.tolist(), f) except Exception: self.textedit.append("Failed to solve the hand-eye calibration.") def execution(self): # >>> Publish the camera-robot transform self.textedit.append('Publishing the camera TF ...') file_input = '/tmp/' + 'camera-robot.json' with open(file_input, 'r') as f: datastore = json.load(f) to_frame = self.camera_frame.text() if self.combobox.currentIndex() == 0: from_frame = self.endeffector_frame.text() if self.combobox.currentIndex() == 1: from_frame = self.base_frame.text() bTc = np.array(datastore) static_transformStamped = TransformStamped() static_transformStamped.header.stamp = ROSClock().now().to_msg() static_transformStamped.header.frame_id = from_frame static_transformStamped.child_frame_id = to_frame static_transformStamped.transform.translation.x = bTc[0, 3] static_transformStamped.transform.translation.y = bTc[1, 3] static_transformStamped.transform.translation.z = bTc[2, 3] q = br.transform.to_quaternion(bTc) static_transformStamped.transform.rotation.x = q[1] static_transformStamped.transform.rotation.y = q[2] static_transformStamped.transform.rotation.z = q[3] static_transformStamped.transform.rotation.w = q[0] self.publish_tf_transform(static_transformStamped) output_string = "camera-robot pose:\n" output_string += " Translation: [{}, {}, {}]\n".format( bTc[0, 3], bTc[1, 3], bTc[2, 3]) output_string += " Rotation: in Quaternion [{}, {}, {}, {}]".format( q[0], q[1], q[2], q[3]) file_path = '/tmp/' + 'camera-robot.txt' with open(file_path, 'w') as f: f.write(output_string) def shutdown_plugin(self): """ Unregister subscribers when the plugin shutdown """ pass def save_settings(self, plugin_settings, instance_settings): # Nothing to be done here pass def restore_settings(self, plugin_settings, instance_settings): # Nothing to be done here pass
class Top(Plugin): NODE_FIELDS = [ 'pid', 'get_cpu_percent', 'get_memory_percent', 'get_num_threads'] OUT_FIELDS = ['node_name', 'pid', 'cpu_percent', 'memory_percent', 'num_threads' ] FORMAT_STRS = ['%s', '%s', '%0.2f', '%0.2f', '%s' ] NODE_LABELS = ['Node', 'PID', 'CPU %', 'Mem %', 'Num Threads' ] SORT_TYPE = [str, str, float, float, float ] TOOLTIPS = { 0: ('cmdline', lambda x: '\n'.join(textwrap.wrap(' '.join(x)))), 3: ('memory_info', lambda x: ('Resident: %0.2f MiB, Virtual: %0.2f MiB' % (x[0]/2**20, x[1]/2**20))) } _node_info = NodeInfo() name_filter = re.compile('') def __init__(self, context): super(Top, self).__init__(context) # Give QObjects reasonable names self.setObjectName('Top') # Process standalone plugin command-line arguments from argparse import ArgumentParser parser = ArgumentParser() # Add argument(s) to the parser. parser.add_argument("-q", "--quiet", action="store_true", dest="quiet", help="Put plugin in silent mode") args, unknowns = parser.parse_known_args(context.argv()) # if not args.quiet: # print 'arguments: ', args # print 'unknowns: ', unknowns self._selected_node = '' self._selected_node_lock = RLock() # Setup the toolbar self._toolbar = QToolBar() self._filter_box = QLineEdit() self._regex_box = QCheckBox() self._regex_box.setText('regex') self._toolbar.addWidget(QLabel('Filter')) self._toolbar.addWidget(self._filter_box) self._toolbar.addWidget(self._regex_box) self._filter_box.returnPressed.connect(self.update_filter) self._regex_box.stateChanged.connect(self.update_filter) # Create a container widget and give it a layout self._container = QWidget() self._container.setWindowTitle('Process Monitor') self._layout = QVBoxLayout() self._container.setLayout(self._layout) self._layout.addWidget(self._toolbar) # Create the table widget self._table_widget = QTreeWidget() self._table_widget.setObjectName('TopTable') self._table_widget.setColumnCount(len(self.NODE_LABELS)) self._table_widget.setHeaderLabels(self.NODE_LABELS) self._table_widget.itemClicked.connect(self._tableItemClicked) self._table_widget.setSortingEnabled(True) self._table_widget.setAlternatingRowColors(True) self._layout.addWidget(self._table_widget) context.add_widget(self._container) # Add a button for killing nodes self._kill_button = QPushButton('Kill Node') self._layout.addWidget(self._kill_button) self._kill_button.clicked.connect(self._kill_node) # Update twice since the first cpu% lookup will always return 0 self.update_table() self.update_table() self._table_widget.resizeColumnToContents(0) # Start a timer to trigger updates self._update_timer = QTimer() self._update_timer.setInterval(1000) self._update_timer.timeout.connect(self.update_table) self._update_timer.start() def _tableItemClicked(self, item, column): with self._selected_node_lock: self._selected_node = item.text(0) def update_filter(self, *args): if self._regex_box.isChecked(): expr = self._filter_box.text() else: expr = re.escape(self._filter_box.text()) self.name_filter = re.compile(expr) self.update_table() def _kill_node(self): self._node_info.kill_node(self._selected_node) def update_one_item(self, row, info): twi = TopWidgetItem() for col, field in enumerate(self.OUT_FIELDS): val = info[field] twi.setText(col, self.FORMAT_STRS[col] % val) self._table_widget.insertTopLevelItem(row, twi) for col, (key, func) in self.TOOLTIPS.items(): twi.setToolTip(col, func(info[key])) with self._selected_node_lock: if twi.text(0) == self._selected_node: twi.setSelected(True) twi.setHidden(len(self.name_filter.findall(info['node_name'])) == 0) def update_table(self): self._table_widget.clear() infos = self._node_info.get_all_node_fields(self.NODE_FIELDS) for nx, info in enumerate(infos): self.update_one_item(nx, info) def shutdown_plugin(self): self._update_timer.stop() def save_settings(self, plugin_settings, instance_settings): instance_settings.set_value('filter_text', self._filter_box.text()) instance_settings.set_value('is_regex', int(self._regex_box.checkState())) def restore_settings(self, plugin_settings, instance_settings): self._filter_box.setText(instance_settings.value('filter_text')) is_regex_int = instance_settings.value('is_regex') if is_regex_int: self._regex_box.setCheckState(Qt.CheckState(is_regex_int)) else: self._regex_box.setCheckState(Qt.CheckState(0)) self.update_filter()
class TopicMessageView(MessageView): """ A message view with a toolbar for navigating messages in a single topic. """ def __init__(self, timeline, parent, topic): MessageView.__init__(self, timeline, topic) self._parent = parent self._stamp = None self._name = parent.objectName() self.toolbar = QToolBar() self._first_action = QAction(QIcon.fromTheme('go-first'), '', self.toolbar) self._first_action.triggered.connect(self.navigate_first) self.toolbar.addAction(self._first_action) self._prev_action = QAction(QIcon.fromTheme('go-previous'), '', self.toolbar) self._prev_action.triggered.connect(self.navigate_previous) self.toolbar.addAction(self._prev_action) self._next_action = QAction(QIcon.fromTheme('go-next'), '', self.toolbar) self._next_action.triggered.connect(self.navigate_next) self.toolbar.addAction(self._next_action) self._last_action = QAction(QIcon.fromTheme('go-last'), '', self.toolbar) self._last_action.triggered.connect(self.navigate_last) self.toolbar.addAction(self._last_action) parent.layout().addWidget(self.toolbar) @property def parent(self): return self._parent @property def stamp(self): return self._stamp # MessageView implementation def message_viewed(self, bag, msg_details): _, _, self._stamp = msg_details[:3] # Events def navigate_first(self): for entry in self.timeline.get_entries( [self.topic], *self.timeline._timeline_frame.play_region): self.timeline._timeline_frame.playhead = entry.time break def navigate_previous(self): last_entry = None for entry in self.timeline.get_entries( [self.topic], self.timeline._timeline_frame.start_stamp, self.timeline._timeline_frame.playhead): if entry.time < self.timeline._timeline_frame.playhead: last_entry = entry if last_entry: self.timeline._timeline_frame.playhead = last_entry.time def navigate_next(self): for entry in self.timeline.get_entries( [self.topic], self.timeline._timeline_frame.playhead, self.timeline._timeline_frame.end_stamp): if entry.time > self.timeline._timeline_frame.playhead: self.timeline._timeline_frame.playhead = entry.time break def navigate_last(self): last_entry = None for entry in self.timeline.get_entries( [self.topic], *self.timeline._timeline_frame.play_region): last_entry = entry if last_entry: self.timeline._timeline_frame.playhead = last_entry.time
class TopicMessageView(MessageView): """ A message view with a toolbar for navigating messages in a single topic. """ def __init__(self, timeline, parent): MessageView.__init__(self, timeline) self._parent = parent self._topic = None self._stamp = None self._name = parent.objectName() self.parent.destroyed.connect(self._on_close) self.toolbar = QToolBar() self._first_action = QAction(QIcon.fromTheme('go-first'), '', self.toolbar) self._first_action.triggered.connect(self.navigate_first) self.toolbar.addAction(self._first_action) self._prev_action = QAction(QIcon.fromTheme('go-previous'), '', self.toolbar) self._prev_action.triggered.connect(self.navigate_previous) self.toolbar.addAction(self._prev_action) self._next_action = QAction(QIcon.fromTheme('go-next'), '', self.toolbar) self._next_action.triggered.connect(self.navigate_next) self.toolbar.addAction(self._next_action) self._last_action = QAction(QIcon.fromTheme('go-last'), '', self.toolbar) self._last_action.triggered.connect(self.navigate_last) self.toolbar.addAction(self._last_action) parent.layout().addWidget(self.toolbar) @property def parent(self): return self._parent @property def topic(self): return self._topic @property def stamp(self): return self._stamp # MessageView implementation def message_viewed(self, bag, msg_details): self._topic, _, self._stamp = msg_details[:3] # Events def _on_close(self): # TODO: needs to handle closing when a message hasn't been viewed yet if self._topic: self.timeline.popups.remove(self._name) self.timeline.remove_view(self._topic, self) def navigate_first(self): if not self.topic: return for entry in self.timeline.get_entries(self._topic, *self.timeline._timeline_frame.play_region): self.timeline._timeline_frame.playhead = entry.time break def navigate_previous(self): if not self.topic: return last_entry = None for entry in self.timeline.get_entries(self._topic, self.timeline._timeline_frame.start_stamp, self.timeline._timeline_frame.playhead): if entry.time < self.timeline._timeline_frame.playhead: last_entry = entry if last_entry: self.timeline._timeline_frame.playhead = last_entry.time def navigate_next(self): if not self.topic: return for entry in self.timeline.get_entries(self._topic, self.timeline._timeline_frame.playhead, self.timeline._timeline_frame.end_stamp): if entry.time > self.timeline._timeline_frame.playhead: self.timeline._timeline_frame.playhead = entry.time break def navigate_last(self): if not self.topic: return last_entry = None for entry in self.timeline.get_entries(self._topic, *self.timeline._timeline_frame.play_region): last_entry = entry if last_entry: self.timeline._timeline_frame.playhead = last_entry.time