class GraphWidget(QWidget):
@staticmethod
def get_unique_name(context):
return ('Decision Graph (%d)' % context.serial_number()) if context.serial_number() > 1 else 'Decision Graph'
@staticmethod
def get_file_name(absolute_path):
return ".".join(path.basename(absolute_path).split('.')[:-1])
def __init__(self, ros_package):
super(GraphWidget, self).__init__()
self._current_graph = None
self._lock = Lock()
self._load_ui(ros_package)
self._scene = QGraphicsScene()
self._scene.setBackgroundBrush(Qt.white)
factory = DmgItemFactory()
factory.set_color(QColor(50, 50, 50))
factory.set_highlighted_color(QColor(0, 150, 0))
self._dot_to_qt = DotToQtGenerator(factory)
self.initialized = False
self.setObjectName('GraphWidget')
self.graphics_view.setScene(self._scene)
self.open_button.setIcon(QIcon.fromTheme('document-open'))
self.open_button.pressed.connect(self._import)
self.export_button.setIcon(QIcon.fromTheme('document-export'))
self.export_button.pressed.connect(self._export)
self.fit_to_view_button.setIcon(QIcon.fromTheme('zoom-fit-best'))
self.fit_to_view_button.pressed.connect(self._fit_to_view)
self.decision_graphs_combo_box.setSizeAdjustPolicy(QComboBox.AdjustToMinimumContentsLength)
self.decision_graphs_combo_box.currentIndexChanged['QString'].connect(self._graph_item_changed)
self._dot_processor = DotProcessor(self._dot_to_qt)
self.decision_graphs = dict()
self.states = dict()
def update(self, message):
data = self._get_data_from_message(message)
key = self._get_key(data)
if key not in self.decision_graphs:
try:
self._add_graph(key, data)
print 'INFO: Graph has been added'
except GraphParseException as ex:
print 'ERROR: Failed to load graph: %s', ex.message
else:
self.states[key] = data['name'], data['status']
if self.decision_graphs[key].graph_id != message.status[0].values[-1].value:
self.decision_graphs[key].graph_id = message.status[0].values[-1].value
print 'INFO: Graph id has been changed'
elif self._current_graph == self.decision_graphs[key]:
if not self._update_graph(data['name'], data['status']):
print 'WARNING: Failed to find appropriate graph for update'
def _load_ui(self, ros_package):
user_interface_file = path.join(ros_package.get_path('rqt_decision_graph'), 'resource', 'DecisionGraph.ui')
loadUi(user_interface_file, self, {'InteractiveGraphicsView': InteractiveGraphicsView})
def _import(self):
file_path, _ = QFileDialog.getOpenFileName(self, self.tr('Import custom graph'),
None, self.tr('DOT graph (*.dot)'))
if file_path is None or file_path == '':
return
custom_graph = Graph(self._dot_processor, file_path, file_path)
self.decision_graphs[custom_graph.source] = custom_graph
self._current_graph = custom_graph
self.decision_graphs_combo_box.addItem(custom_graph.source)
self.decision_graphs_combo_box.setCurrentIndex(self.decision_graphs_combo_box.findText(custom_graph.source))
# Export graph as image
def _export(self):
file_name, _ = QFileDialog.getSaveFileName(self,
self.tr('Save as image'),
'graph.png',
self.tr('Image (*.bmp *.jpg *.png *.tiff)'))
if file_name is None or file_name == '':
return
img = QImage((self._scene.sceneRect().size() * 2.0).toSize(), QImage.Format_ARGB32_Premultiplied)
painter = QPainter(img)
painter.setRenderHint(QPainter.Antialiasing)
self._scene.render(painter)
painter.end()
img.save(file_name)
def _add_graph(self, key, data):
self._lock.acquire()
decision_graph = DecisionGraph(data['name'].split('/')[1],
data['node_run_id'],
data['node_name'],
data['node_exe_file'],
data['node_exe_dir'],
self._dot_processor,
key)
self.decision_graphs[key] = decision_graph
self.decision_graphs_combo_box.addItem(key)
self._lock.release()
def _reset_graph_state(self, name, status):
if self._current_graph is not None:
for node in self._current_graph.nodes.values():
if name[:len(node.url)] == node.url:
node.highlight(True) if 'started' == status else node.highlight(False)
def _update_graph(self, name, status):
self._lock.acquire()
is_updated = False
if self._current_graph is not None:
for node in self._current_graph.nodes.values():
if 'started' == status and name[:len(node.url)] == node.url:
node.highlight(True)
is_updated = True
elif 'stopped' == status and name == node.url:
node.highlight(False)
is_updated = True
self._lock.release()
return is_updated
def _graph_item_changed(self, event):
self._lock.acquire()
if event in self.decision_graphs:
self._current_graph = self.decision_graphs[event]
self._redraw_graph_view()
self._fit_to_view()
if isinstance(self._current_graph, DecisionGraph):
state = self.states.get(self._current_graph.key, None)
if state is not None:
self._reset_graph_state(state[0], state[1])
self._lock.release()
def _get_data_from_message(self, message):
return {value.key: value.value for value in message.status[0].values}
def _get_key(self, data):
return data['name'].split('/')[1] + data['node_name']
def _redraw_graph_view(self):
self._current_graph.load()
self._scene.clear()
for node_item in self._current_graph.nodes.itervalues():
self._scene.addItem(node_item)
for edge_items in self._current_graph.edges.itervalues():
for edge_item in edge_items:
edge_item.add_to_scene(self._scene)
self._scene.setSceneRect(self._scene.itemsBoundingRect())
def _fit_to_view(self):
self.graphics_view.fitInView(self._scene.itemsBoundingRect(), Qt.KeepAspectRatio)
class ImageView(TopicMessageView):
"""
Popup image viewer
"""
name = 'Image'
def __init__(self, timeline, parent):
super(ImageView, self).__init__(timeline, parent)
self._image = None
self._image_topic = None
self._image_stamp = None
self.quality = Image.NEAREST # quality hint for scaling
# TODO put the image_topic and image_stamp on the picture or display them in some fashion
self._overlay_font_size = 14.0
self._overlay_indent = (4, 4)
self._overlay_color = (0.2, 0.2, 1.0)
self._image_view = QGraphicsView(parent)
self._image_view.resizeEvent = self._resizeEvent
self._scene = QGraphicsScene()
self._image_view.setScene(self._scene)
parent.layout().addWidget(self._image_view)
# MessageView implementation
def _resizeEvent(self, event):
# TODO make this smarter. currently there will be no scrollbar even if the timeline extends beyond the viewable area
self._scene.setSceneRect(0, 0,
self._image_view.size().width() - 2,
self._image_view.size().height() - 2)
self.put_image_into_scene()
def message_viewed(self, bag, msg_details):
"""
refreshes the image
"""
TopicMessageView.message_viewed(self, bag, msg_details)
topic, msg, t = msg_details[:3]
if not msg:
self.set_image(None, topic, stamp)
else:
self.set_image(msg, topic, msg.header.stamp)
def message_cleared(self):
TopicMessageView.message_cleared(self)
self.set_image(None, None, None)
# End MessageView implementation
def put_image_into_scene(self):
if self._image:
resized_image = self._image.resize(
(self._image_view.size().width() - 2,
self._image_view.size().height() - 2), self.quality)
QtImage = ImageQt.ImageQt(resized_image)
pixmap = QPixmap.fromImage(QtImage)
self._scene.clear()
self._scene.addPixmap(pixmap)
def set_image(self, image_msg, image_topic, image_stamp):
self._image_msg = image_msg
if image_msg:
self._image = image_helper.imgmsg_to_pil(image_msg)
else:
self._image = None
self._image_topic = image_topic
self._image_stamp = image_stamp
self.put_image_into_scene()
class ConductorGraph(Plugin):
# pyqt signals are always defined as class attributes
signal_deferred_fit_in_view = Signal()
signal_update_conductor_graph = Signal()
# constants
# colour definitions from http://www.w3.org/TR/SVG/types.html#ColorKeywords
# see also http://qt-project.org/doc/qt-4.8/qcolor.html#setNamedColor
link_strength_colours = {
'very_strong': QColor("lime"),
'strong': QColor("chartreuse"),
'normal': QColor("yellow"),
'weak': QColor("orange"),
'very_weak': QColor("red"),
'missing': QColor("powderblue")
}
def __init__(self, context):
self._context = context
super(ConductorGraph, self).__init__(context)
self.initialised = False
self.setObjectName('Conductor Graph')
self._node_items = None
self._edge_items = None
self._node_item_events = {}
self._edge_item_events = {}
self._client_info_list = {}
self._widget = QWidget()
self.cur_selected_client_name = ""
self.pre_selected_client_name = ""
# factory builds generic dotcode items
self.dotcode_factory = PydotFactory()
# self.dotcode_factory=PygraphvizFactory()
self.dotcode_generator = ConductorGraphDotcodeGenerator()
self.dot_to_qt = DotToQtGenerator()
self._graph = ConductorGraphInfo(self._update_conductor_graph_relay,
self._set_network_statisics)
rospack = rospkg.RosPack()
ui_file = os.path.join(rospack.get_path('concert_conductor_graph'),
'ui', 'conductor_graph.ui')
loadUi(ui_file, self._widget,
{'InteractiveGraphicsView': InteractiveGraphicsView})
self._widget.setObjectName('ConductorGraphUi')
if context.serial_number() > 1:
self._widget.setWindowTitle(self._widget.windowTitle() +
(' (%d)' % context.serial_number()))
self._scene = QGraphicsScene()
self._scene.setBackgroundBrush(Qt.white)
self._widget.graphics_view.setScene(self._scene)
self._widget.highlight_connections_check_box.toggled.connect(
self._redraw_graph_view)
self._widget.auto_fit_graph_check_box.toggled.connect(
self._redraw_graph_view)
self._widget.clusters_check_box.toggled.connect(
self._redraw_graph_view)
self.signal_deferred_fit_in_view.connect(self._fit_in_view,
Qt.QueuedConnection)
self.signal_deferred_fit_in_view.emit()
self._widget.tabWidget.currentChanged.connect(self._change_client_tab)
self.signal_update_conductor_graph.connect(
self._update_conductor_graph)
context.add_widget(self._widget)
def restore_settings(self, plugin_settings, instance_settings):
self.initialised = True
self._update_conductor_graph()
def shutdown_plugin(self):
self._graph.shutdown()
def _update_conductor_graph(self):
if self.initialised:
self._redraw_graph_view()
self._update_client_tab()
def _update_conductor_graph_relay(self):
"""
This seems a bit obtuse, but we can't just dump the _update_conductor_graph callback on the underlying
conductor graph info and trigger it from there since that trigger will operate from a ros thread and pyqt
will crash trying to co-ordinate gui changes from an external thread. We need to relay via a signal.
"""
self.signal_update_conductor_graph.emit()
def _update_client_tab(self):
print('[conductor graph]: _update_client_tab')
self.pre_selected_client_name = self.cur_selected_client_name
self._widget.tabWidget.clear()
for k in self._graph.concert_clients.values():
# Only pull in information from connected or connectable clients
if k.state not in [
concert_msgs.ConcertClientState.AVAILABLE,
concert_msgs.ConcertClientState.MISSING,
concert_msgs.ConcertClientState.UNINVITED
]:
continue
main_widget = QWidget()
ver_layout = QVBoxLayout(main_widget)
ver_layout.setContentsMargins(9, 9, 9, 9)
ver_layout.setSizeConstraint(ver_layout.SetDefaultConstraint)
#button layout
sub_widget = QWidget()
sub_widget.setAccessibleName('sub_widget')
ver_layout.addWidget(sub_widget)
#client information layout
context_label = QLabel()
context_label.setText("Client information")
ver_layout.addWidget(context_label)
app_context_widget = QPlainTextEdit()
app_context_widget.setObjectName(k.concert_alias + '_' +
'app_context_widget')
app_context_widget.setAccessibleName('app_context_widget')
app_context_widget.appendHtml(k.get_rapp_context())
app_context_widget.setReadOnly(True)
cursor = app_context_widget.textCursor()
cursor.movePosition(QTextCursor.Start, QTextCursor.MoveAnchor, 0)
app_context_widget.setTextCursor(cursor)
ver_layout.addWidget(app_context_widget)
# new icon
path = ""
if k.is_new:
# This only changes when the concert client changes topic publishes anew
path = os.path.join(os.path.dirname(os.path.abspath(__file__)),
"../../resources/images/new.gif")
#add tab
self._widget.tabWidget.addTab(main_widget, QIcon(path),
k.concert_alias)
#set previous selected tab
for k in range(self._widget.tabWidget.count()):
tab_text = self._widget.tabWidget.tabText(k)
if tab_text == self.pre_selected_client_name:
self._widget.tabWidget.setCurrentIndex(k)
def _change_client_tab(self, index):
self.cur_selected_client_name = self._widget.tabWidget.tabText(
self._widget.tabWidget.currentIndex())
def _set_network_statisics(self):
# we currently redraw every statistics update (expensive!) so passing for now, but we should
# reenable this and drop the change callback to be more efficient
#if self._edge_items == None:
# return
#else:
# for edge_items in self._edge_items.itervalues():
# for edge_item in edge_items:
# edge_dst_name = edge_item.to_node._label.text()
# edge_item.setToolTip(str(self._graph.concert_clients[edge_dst_name].msg.conn_stats))
pass
def _redraw_graph_view(self):
print("[conductor graph]: _redraw_graph_view")
# regenerate the dotcode
current_dotcode = self.dotcode_generator.generate_dotcode(
conductor_graph_instance=self._graph,
dotcode_factory=self.dotcode_factory,
clusters=self._widget.clusters_check_box.isChecked())
#print("Dotgraph: \n%s" % current_dotcode)
self._scene.clear()
self._node_item_events = {}
self._edge_item_events = {}
self._node_items = None
self._edge_items = None
highlight_level = 3 if self._widget.highlight_connections_check_box.isChecked(
) else 1
# layout graph and create qt items
(nodes, edges) = self.dot_to_qt.dotcode_to_qt_items(
current_dotcode,
highlight_level=highlight_level,
same_label_siblings=True)
self._node_items = nodes
self._edge_items = edges
#nodes - if we wish to make special nodes, do that here (maybe subclass GraphItem, just like NodeItem does
for node_item in nodes.itervalues():
# redefine mouse event
#self._node_item_events[node_item._label.text()] = GraphEventHandler(self._widget.tabWidget, node_item, node_item.mouseDoubleClickEvent)
#node_item.mouseDoubleClickEvent = self._node_item_events[node_item._label.text()].NodeEvent
self._node_item_events[
node_item._label.text()] = GraphEventHandler(
self._widget.tabWidget, node_item,
node_item.hoverEnterEvent)
node_item.hoverEnterEvent = self._node_item_events[
node_item._label.text()].NodeEvent
self._scene.addItem(node_item)
#edges
for edge_items in edges.itervalues():
for edge_item in edge_items:
#redefine the edge hover event
self._edge_item_events[
edge_item._label.text()] = GraphEventHandler(
self._widget.tabWidget, edge_item,
edge_item._label.hoverEnterEvent)
edge_item._label.hoverEnterEvent = self._edge_item_events[
edge_item._label.text()].EdgeEvent
#self._edge_item_events[edge_item._label.text()]=GraphEventHandler(self._widget.tabWidget,edge_item,edge_item.mouseDoubleClickEvent);
#edge_item.mouseDoubleClickEvent=self._edge_item_events[edge_item._label.text()].EdgeEvent;
edge_item.add_to_scene(self._scene)
#set the color of node as connection strength one of red, yellow, green
edge_dst_name = edge_item.to_node._label.text()
if edge_dst_name in self._graph.concert_clients.keys():
link_strength_colour = ConductorGraph.link_strength_colours[
self._graph.concert_clients[edge_dst_name].
get_connection_strength()]
edge_item._default_color = link_strength_colour
edge_item.set_node_color(link_strength_colour)
#set the tooltip about network information
edge_item.setToolTip(
str(self._graph.concert_clients[edge_dst_name].msg.
conn_stats))
self._scene.setSceneRect(self._scene.itemsBoundingRect())
if self._widget.auto_fit_graph_check_box.isChecked():
self._fit_in_view()
def _fit_in_view(self):
self._widget.graphics_view.fitInView(self._scene.itemsBoundingRect(),
Qt.KeepAspectRatio)
class TimelineWidget(QWidget):
class TimelineView(QGraphicsView):
def __init__(self, parent):
super(TimelineWidget.TimelineView, self).__init__()
self.parent = parent
def mouseReleaseEvent(self, event):
self.parent.mouse_release(event)
update = pyqtSignal()
def __init__(self, parent):
super(TimelineWidget, self).__init__()
self.parent = parent
self._layout = QHBoxLayout()
#self._view = QGraphicsView()
self._view = TimelineWidget.TimelineView(self)
self._scene = QGraphicsScene()
self._colors = [QColor('green'), QColor('yellow'), QColor('red')]
self._messages = [None for x in range(20)]
self._mq = [1 for x in range(20)]
self._view.setHorizontalScrollBarPolicy(Qt.ScrollBarAlwaysOff)
self._view.setVerticalScrollBarPolicy(Qt.ScrollBarAlwaysOff)
self._view.setScene(self._scene)
self._layout.addWidget(self._view, 1)
self.pause_button = QPushButton('Pause')
self.pause_button.setCheckable(True)
self.pause_button.clicked.connect(self.pause)
self._layout.addWidget(self.pause_button)
self.setLayout(self._layout)
self.update.connect(self.redraw)
def redraw(self):
self._scene.clear()
self._scene
for i, m in enumerate(self._mq):
w = float(self._view.viewport().width())/len(self._mq)
h = self._view.viewport().height()
rect = self._scene.addRect(w*i, 0, w, h, QColor('black'), self._colors[m])
def mouse_release(self, event):
i = int(floor(event.x()/(float(self._view.viewport().width())/len(self._mq))))
msg = self._messages[i]
if msg:
self.parent.pause(msg)
if not self.pause_button.isChecked():
self.pause_button.toggle()
def resizeEvent(self, event):
self.redraw()
def get_worst(self, msg):
lvl = 0
for status in msg.status:
if status.level > lvl:
lvl = status.level
return lvl
def add_message(self, msg):
self._messages = self._messages[1:]
self._messages.append(msg)
self._mq = self._mq[1:]
try:
lvl = msg.level
except AttributeError:
lvl = self.get_worst(msg)
if lvl > 2:
lvl = 2
self._mq.append(lvl)
self.update.emit()
def pause(self, state):
if state:
self.parent.pause(self._messages[-1])
else:
self.parent.unpause()
class GraphWidget(QWidget):
@staticmethod
def get_unique_name(context):
return ("Decision Graph (%d)" % context.serial_number()) if context.serial_number() > 1 else "Decision Graph"
@staticmethod
def get_file_name(absolute_path):
return ".".join(path.basename(absolute_path).split(".")[:-1])
def __init__(self, ros_package):
super(GraphWidget, self).__init__()
self._current_graph = None
self._lock = Lock()
self._load_ui(ros_package)
self._scene = QGraphicsScene()
self._scene.setBackgroundBrush(Qt.white)
factory = DmgItemFactory()
factory.set_color(QColor(50, 50, 50))
factory.set_highlighted_color(QColor(0, 150, 0))
self._dot_to_qt = DotToQtGenerator(factory)
self.initialized = False
self.setObjectName("GraphWidget")
self.graphics_view.setScene(self._scene)
self.open_button.setIcon(QIcon.fromTheme("document-open"))
self.open_button.pressed.connect(self._import)
self.export_button.setIcon(QIcon.fromTheme("document-export"))
self.export_button.pressed.connect(self._export)
self.fit_to_view_button.setIcon(QIcon.fromTheme("zoom-fit-best"))
self.fit_to_view_button.pressed.connect(self._fit_to_view)
self.decision_graphs_combo_box.setSizeAdjustPolicy(QComboBox.AdjustToMinimumContentsLength)
self.decision_graphs_combo_box.currentIndexChanged["QString"].connect(self._graph_item_changed)
self._dot_processor = DotProcessor(self._dot_to_qt)
self.decision_graphs = dict()
self.states = dict()
def update(self, message):
data = self._get_data_from_message(message)
key = self._get_key(data)
if key not in self.decision_graphs:
try:
self._add_graph(key, data)
print "INFO: Graph has been added"
except GraphParseException as ex:
print "ERROR: Failed to load graph: %s", ex.message
else:
self.states[key] = data["name"], data["status"]
if self.decision_graphs[key].graph_id != message.status[0].values[-1].value:
self.decision_graphs[key].graph_id = message.status[0].values[-1].value
print "INFO: Graph id has been changed"
elif self._current_graph == self.decision_graphs[key]:
if not self._update_graph(data["name"], data["status"]):
print "WARNING: Failed to find appropriate graph for update"
def _load_ui(self, ros_package):
user_interface_file = path.join(ros_package.get_path("rqt_decision_graph"), "resource", "DecisionGraph.ui")
loadUi(user_interface_file, self, {"InteractiveGraphicsView": InteractiveGraphicsView})
def _import(self):
file_path, _ = QFileDialog.getOpenFileName(
self, self.tr("Import custom graph"), None, self.tr("DOT graph (*.dot)")
)
if file_path is None or file_path == "":
return
custom_graph = Graph(self._dot_processor, file_path, file_path)
self.decision_graphs[custom_graph.source] = custom_graph
self._current_graph = custom_graph
self.decision_graphs_combo_box.addItem(custom_graph.source)
self.decision_graphs_combo_box.setCurrentIndex(self.decision_graphs_combo_box.findText(custom_graph.source))
# Export graph as image
def _export(self):
file_name, _ = QFileDialog.getSaveFileName(
self, self.tr("Save as image"), "graph.png", self.tr("Image (*.bmp *.jpg *.png *.tiff)")
)
if file_name is None or file_name == "":
return
img = QImage((self._scene.sceneRect().size() * 2.0).toSize(), QImage.Format_ARGB32_Premultiplied)
painter = QPainter(img)
painter.setRenderHint(QPainter.Antialiasing)
self._scene.render(painter)
painter.end()
img.save(file_name)
def _add_graph(self, key, data):
self._lock.acquire()
decision_graph = DecisionGraph(
data["name"].split("/")[1],
data["node_run_id"],
data["node_name"],
data["node_exe_file"],
data["node_exe_dir"],
self._dot_processor,
key,
)
self.decision_graphs[key] = decision_graph
self.decision_graphs_combo_box.addItem(key)
self._lock.release()
def _reset_graph_state(self, name, status):
if self._current_graph is not None:
for node in self._current_graph.nodes.values():
if name[: len(node.url)] == node.url:
node.highlight(True) if "started" == status else node.highlight(False)
def _update_graph(self, name, status):
self._lock.acquire()
is_updated = False
if self._current_graph is not None:
for node in self._current_graph.nodes.values():
if "started" == status and name[: len(node.url)] == node.url:
node.highlight(True)
is_updated = True
elif "stopped" == status and name == node.url:
node.highlight(False)
is_updated = True
self._lock.release()
return is_updated
def _graph_item_changed(self, event):
self._lock.acquire()
if event in self.decision_graphs:
self._current_graph = self.decision_graphs[event]
self._redraw_graph_view()
self._fit_to_view()
if isinstance(self._current_graph, DecisionGraph):
state = self.states.get(self._current_graph.key, None)
if state is not None:
self._reset_graph_state(state[0], state[1])
self._lock.release()
def _get_data_from_message(self, message):
return {value.key: value.value for value in message.status[0].values}
def _get_key(self, data):
return data["name"].split("/")[1] + data["node_name"]
def _redraw_graph_view(self):
self._current_graph.load()
self._scene.clear()
for node_item in self._current_graph.nodes.itervalues():
self._scene.addItem(node_item)
for edge_items in self._current_graph.edges.itervalues():
for edge_item in edge_items:
edge_item.add_to_scene(self._scene)
self._scene.setSceneRect(self._scene.itemsBoundingRect())
def _fit_to_view(self):
self.graphics_view.fitInView(self._scene.itemsBoundingRect(), Qt.KeepAspectRatio)
class RosGraph(Plugin):
_deferred_fit_in_view = Signal()
def __init__(self, context):
super(RosGraph, self).__init__(context)
self.initialized = False
self.setObjectName('RosGraph')
self._graph = None
self._current_dotcode = None
self._widget = QWidget()
# factory builds generic dotcode items
self.dotcode_factory = PydotFactory()
# self.dotcode_factory = PygraphvizFactory()
# generator builds rosgraph
self.dotcode_generator = RosGraphDotcodeGenerator()
# dot_to_qt transforms into Qt elements using dot layout
self.dot_to_qt = DotToQtGenerator()
ui_file = os.path.join(os.path.dirname(os.path.realpath(__file__)), 'RosGraph.ui')
loadUi(ui_file, self._widget, {'InteractiveGraphicsView': InteractiveGraphicsView})
self._widget.setObjectName('RosGraphUi')
if context.serial_number() > 1:
self._widget.setWindowTitle(self._widget.windowTitle() + (' (%d)' % context.serial_number()))
self._scene = QGraphicsScene()
self._scene.setBackgroundBrush(Qt.white)
self._widget.graphics_view.setScene(self._scene)
self._widget.graph_type_combo_box.insertItem(0, self.tr('Nodes only'), NODE_NODE_GRAPH)
self._widget.graph_type_combo_box.insertItem(1, self.tr('Nodes/Topics (active)'), NODE_TOPIC_GRAPH)
self._widget.graph_type_combo_box.insertItem(2, self.tr('Nodes/Topics (all)'), NODE_TOPIC_ALL_GRAPH)
self._widget.graph_type_combo_box.setCurrentIndex(0)
self._widget.graph_type_combo_box.currentIndexChanged.connect(self._refresh_rosgraph)
self.node_completionmodel = NamespaceCompletionModel(self._widget.filter_line_edit, False)
completer = RepeatedWordCompleter(self.node_completionmodel, self)
completer.setCompletionMode(QCompleter.PopupCompletion)
completer.setWrapAround(True)
completer.setCaseSensitivity(Qt.CaseInsensitive)
self._widget.filter_line_edit.editingFinished.connect(self._refresh_rosgraph)
self._widget.filter_line_edit.setCompleter(completer)
self.topic_completionmodel = NamespaceCompletionModel(self._widget.topic_filter_line_edit, False)
topic_completer = RepeatedWordCompleter(self.topic_completionmodel, self)
topic_completer.setCompletionMode(QCompleter.PopupCompletion)
topic_completer.setWrapAround(True)
topic_completer.setCaseSensitivity(Qt.CaseInsensitive)
self._widget.topic_filter_line_edit.editingFinished.connect(self._refresh_rosgraph)
self._widget.topic_filter_line_edit.setCompleter(topic_completer)
self._widget.namespace_cluster_check_box.clicked.connect(self._refresh_rosgraph)
self._widget.actionlib_check_box.clicked.connect(self._refresh_rosgraph)
self._widget.dead_sinks_check_box.clicked.connect(self._refresh_rosgraph)
self._widget.leaf_topics_check_box.clicked.connect(self._refresh_rosgraph)
self._widget.quiet_check_box.clicked.connect(self._refresh_rosgraph)
self._widget.refresh_graph_push_button.setIcon(QIcon.fromTheme('view-refresh'))
self._widget.refresh_graph_push_button.pressed.connect(self._update_rosgraph)
self._widget.highlight_connections_check_box.toggled.connect(self._redraw_graph_view)
self._widget.auto_fit_graph_check_box.toggled.connect(self._redraw_graph_view)
self._widget.fit_in_view_push_button.setIcon(QIcon.fromTheme('zoom-original'))
self._widget.fit_in_view_push_button.pressed.connect(self._fit_in_view)
self._widget.load_dot_push_button.setIcon(QIcon.fromTheme('document-open'))
self._widget.load_dot_push_button.pressed.connect(self._load_dot)
self._widget.save_dot_push_button.setIcon(QIcon.fromTheme('document-save-as'))
self._widget.save_dot_push_button.pressed.connect(self._save_dot)
self._widget.save_as_svg_push_button.setIcon(QIcon.fromTheme('document-save-as'))
self._widget.save_as_svg_push_button.pressed.connect(self._save_svg)
self._widget.save_as_image_push_button.setIcon(QIcon.fromTheme('image'))
self._widget.save_as_image_push_button.pressed.connect(self._save_image)
self._update_rosgraph()
self._deferred_fit_in_view.connect(self._fit_in_view, Qt.QueuedConnection)
self._deferred_fit_in_view.emit()
context.add_widget(self._widget)
def save_settings(self, plugin_settings, instance_settings):
instance_settings.set_value('graph_type_combo_box_index', self._widget.graph_type_combo_box.currentIndex())
instance_settings.set_value('filter_line_edit_text', self._widget.filter_line_edit.text())
instance_settings.set_value('topic_filter_line_edit_text', self._widget.topic_filter_line_edit.text())
instance_settings.set_value('namespace_cluster_check_box_state', self._widget.namespace_cluster_check_box.isChecked())
instance_settings.set_value('actionlib_check_box_state', self._widget.actionlib_check_box.isChecked())
instance_settings.set_value('dead_sinks_check_box_state', self._widget.dead_sinks_check_box.isChecked())
instance_settings.set_value('leaf_topics_check_box_state', self._widget.leaf_topics_check_box.isChecked())
instance_settings.set_value('quiet_check_box_state', self._widget.quiet_check_box.isChecked())
instance_settings.set_value('auto_fit_graph_check_box_state', self._widget.auto_fit_graph_check_box.isChecked())
instance_settings.set_value('highlight_connections_check_box_state', self._widget.highlight_connections_check_box.isChecked())
def restore_settings(self, plugin_settings, instance_settings):
self._widget.graph_type_combo_box.setCurrentIndex(int(instance_settings.value('graph_type_combo_box_index', 0)))
self._widget.filter_line_edit.setText(instance_settings.value('filter_line_edit_text', '/'))
self._widget.topic_filter_line_edit.setText(instance_settings.value('topic_filter_line_edit_text', '/'))
self._widget.namespace_cluster_check_box.setChecked(instance_settings.value('namespace_cluster_check_box_state', True) in [True, 'true'])
self._widget.actionlib_check_box.setChecked(instance_settings.value('actionlib_check_box_state', True) in [True, 'true'])
self._widget.dead_sinks_check_box.setChecked(instance_settings.value('dead_sinks_check_box_state', True) in [True, 'true'])
self._widget.leaf_topics_check_box.setChecked(instance_settings.value('leaf_topics_check_box_state', True) in [True, 'true'])
self._widget.quiet_check_box.setChecked(instance_settings.value('quiet_check_box_state', True) in [True, 'true'])
self._widget.auto_fit_graph_check_box.setChecked(instance_settings.value('auto_fit_graph_check_box_state', True) in [True, 'true'])
self._widget.highlight_connections_check_box.setChecked(instance_settings.value('highlight_connections_check_box_state', True) in [True, 'true'])
self.initialized = True
self._refresh_rosgraph()
def _update_rosgraph(self):
# re-enable controls customizing fetched ROS graph
self._widget.graph_type_combo_box.setEnabled(True)
self._widget.filter_line_edit.setEnabled(True)
self._widget.topic_filter_line_edit.setEnabled(True)
self._widget.namespace_cluster_check_box.setEnabled(True)
self._widget.actionlib_check_box.setEnabled(True)
self._widget.dead_sinks_check_box.setEnabled(True)
self._widget.leaf_topics_check_box.setEnabled(True)
self._widget.quiet_check_box.setEnabled(True)
self._graph = rosgraph.impl.graph.Graph()
self._graph.set_master_stale(5.0)
self._graph.set_node_stale(5.0)
self._graph.update()
self.node_completionmodel.refresh(self._graph.nn_nodes)
self.topic_completionmodel.refresh(self._graph.nt_nodes)
self._refresh_rosgraph()
def _refresh_rosgraph(self):
if not self.initialized:
return
self._update_graph_view(self._generate_dotcode())
def _generate_dotcode(self):
ns_filter = self._widget.filter_line_edit.text()
topic_filter = self._widget.topic_filter_line_edit.text()
graph_mode = self._widget.graph_type_combo_box.itemData(self._widget.graph_type_combo_box.currentIndex())
orientation = 'LR'
if self._widget.namespace_cluster_check_box.isChecked():
namespace_cluster = 1
else:
namespace_cluster = 0
accumulate_actions = self._widget.actionlib_check_box.isChecked()
hide_dead_end_topics = self._widget.dead_sinks_check_box.isChecked()
hide_single_connection_topics = self._widget.leaf_topics_check_box.isChecked()
quiet = self._widget.quiet_check_box.isChecked()
return self.dotcode_generator.generate_dotcode(
rosgraphinst=self._graph,
ns_filter=ns_filter,
topic_filter=topic_filter,
graph_mode=graph_mode,
hide_single_connection_topics=hide_single_connection_topics,
hide_dead_end_topics=hide_dead_end_topics,
cluster_namespaces_level=namespace_cluster,
accumulate_actions=accumulate_actions,
dotcode_factory=self.dotcode_factory,
orientation=orientation,
quiet=quiet)
def _update_graph_view(self, dotcode):
if dotcode == self._current_dotcode:
return
self._current_dotcode = dotcode
self._redraw_graph_view()
def _generate_tool_tip(self, url):
if url is not None and ':' in url:
item_type, item_path = url.split(':', 1)
if item_type == 'node':
tool_tip = 'Node:\n %s' % (item_path)
service_names = rosservice.get_service_list(node=item_path)
if service_names:
tool_tip += '\nServices:'
for service_name in service_names:
try:
service_type = rosservice.get_service_type(service_name)
tool_tip += '\n %s [%s]' % (service_name, service_type)
except rosservice.ROSServiceIOException as e:
tool_tip += '\n %s' % (e)
return tool_tip
elif item_type == 'topic':
topic_type, topic_name, _ = rostopic.get_topic_type(item_path)
return 'Topic:\n %s\nType:\n %s' % (topic_name, topic_type)
return url
def _redraw_graph_view(self):
self._scene.clear()
if self._widget.highlight_connections_check_box.isChecked():
highlight_level = 3
else:
highlight_level = 1
# layout graph and create qt items
(nodes, edges) = self.dot_to_qt.dotcode_to_qt_items(self._current_dotcode,
highlight_level=highlight_level,
same_label_siblings=True)
for node_item in nodes.itervalues():
self._scene.addItem(node_item)
for edge_items in edges.itervalues():
for edge_item in edge_items:
edge_item.add_to_scene(self._scene)
self._scene.setSceneRect(self._scene.itemsBoundingRect())
if self._widget.auto_fit_graph_check_box.isChecked():
self._fit_in_view()
def _load_dot(self, file_name=None):
if file_name is None:
file_name, _ = QFileDialog.getOpenFileName(self._widget, self.tr('Open graph from file'), None, self.tr('DOT graph (*.dot)'))
if file_name is None or file_name == '':
return
try:
fh = open(file_name, 'rb')
dotcode = fh.read()
fh.close()
except IOError:
return
# disable controls customizing fetched ROS graph
self._widget.graph_type_combo_box.setEnabled(False)
self._widget.filter_line_edit.setEnabled(False)
self._widget.topic_filter_line_edit.setEnabled(False)
self._widget.namespace_cluster_check_box.setEnabled(False)
self._widget.actionlib_check_box.setEnabled(False)
self._widget.dead_sinks_check_box.setEnabled(False)
self._widget.leaf_topics_check_box.setEnabled(False)
self._widget.quiet_check_box.setEnabled(False)
self._update_graph_view(dotcode)
def _fit_in_view(self):
self._widget.graphics_view.fitInView(self._scene.itemsBoundingRect(), Qt.KeepAspectRatio)
def _save_dot(self):
file_name, _ = QFileDialog.getSaveFileName(self._widget, self.tr('Save as DOT'), 'rosgraph.dot', self.tr('DOT graph (*.dot)'))
if file_name is None or file_name == '':
return
handle = QFile(file_name)
if not handle.open(QIODevice.WriteOnly | QIODevice.Text):
return
handle.write(self._current_dotcode)
handle.close()
def _save_svg(self):
file_name, _ = QFileDialog.getSaveFileName(self._widget, self.tr('Save as SVG'), 'rosgraph.svg', self.tr('Scalable Vector Graphic (*.svg)'))
if file_name is None or file_name == '':
return
generator = QSvgGenerator()
generator.setFileName(file_name)
generator.setSize((self._scene.sceneRect().size() * 2.0).toSize())
painter = QPainter(generator)
painter.setRenderHint(QPainter.Antialiasing)
self._scene.render(painter)
painter.end()
def _save_image(self):
file_name, _ = QFileDialog.getSaveFileName(self._widget, self.tr('Save as image'), 'rosgraph.png', self.tr('Image (*.bmp *.jpg *.png *.tiff)'))
if file_name is None or file_name == '':
return
img = QImage((self._scene.sceneRect().size() * 2.0).toSize(), QImage.Format_ARGB32_Premultiplied)
painter = QPainter(img)
painter.setRenderHint(QPainter.Antialiasing)
self._scene.render(painter)
painter.end()
img.save(file_name)
class CapabilityGraph(Plugin):
__deferred_fit_in_view = Signal()
def __init__(self, context):
super(CapabilityGraph, self).__init__(context)
self.setObjectName('CapabilityGraph')
self.__current_dotcode = None
self.__widget = QWidget()
self.__dot_to_qt = DotToQtGenerator()
rp = rospkg.RosPack()
ui_file = os.path.join(rp.get_path('rqt_capabilities'), 'resources', 'CapabilityGraph.ui')
loadUi(ui_file, self.__widget, {'InteractiveGraphicsView': InteractiveGraphicsView})
self.__widget.setObjectName('CapabilityGraphUI')
if context.serial_number() > 1:
self.__widget.setWindowTitle(self.__widget.windowTitle() + (' (%d)' % context.serial_number()))
self.__scene = QGraphicsScene()
self.__scene.setBackgroundBrush(Qt.white)
self.__widget.graphics_view.setScene(self.__scene)
self.__widget.refresh_graph_push_button.setIcon(QIcon.fromTheme('view-refresh'))
self.__widget.refresh_graph_push_button.pressed.connect(self.__update_capabilities_graph)
self.__update_capabilities_graph()
self.__deferred_fit_in_view.connect(self.__fit_in_view, Qt.QueuedConnection)
self.__deferred_fit_in_view.emit()
context.add_widget(self.__widget)
def __update_capabilities_graph(self):
self.__update_graph_view(self.__generate_dotcode())
def __generate_dotcode(self):
return generate_dotcode_from_capability_info()
def __update_graph_view(self, dotcode):
if dotcode == self.__current_dotcode:
return
self.__current_dotcode = dotcode
self.__redraw_graph_view()
def __fit_in_view(self):
self.__widget.graphics_view.fitInView(self.__scene.itemsBoundingRect(), Qt.KeepAspectRatio)
def __redraw_graph_view(self):
self.__scene.clear()
highlight_level = 1
# layout graph and create qt items
(nodes, edges) = self.__dot_to_qt.dotcode_to_qt_items(self.__current_dotcode,
highlight_level=highlight_level,
same_label_siblings=True)
for node_item in nodes.itervalues():
self.__scene.addItem(node_item)
for edge_items in edges.itervalues():
for edge_item in edge_items:
edge_item.add_to_scene(self.__scene)
self.__scene.setSceneRect(self.__scene.itemsBoundingRect())
self.__fit_in_view()
class RosTfTree(QObject):
_deferred_fit_in_view = Signal()
def __init__(self, context):
super(RosTfTree, self).__init__(context)
self.initialized = False
self.setObjectName('RosTfTree')
self._current_dotcode = None
self._widget = QWidget()
# factory builds generic dotcode items
self.dotcode_factory = PydotFactory()
# self.dotcode_factory = PygraphvizFactory()
# generator builds rosgraph
self.dotcode_generator = RosTfTreeDotcodeGenerator()
self.tf2_buffer_ = tf2_ros.Buffer()
self.tf2_listener_ = tf2_ros.TransformListener(self.tf2_buffer_)
# dot_to_qt transforms into Qt elements using dot layout
self.dot_to_qt = DotToQtGenerator()
rp = rospkg.RosPack()
ui_file = os.path.join(rp.get_path('rqt_tf_tree'), 'resource', 'RosTfTree.ui')
loadUi(ui_file, self._widget, {'InteractiveGraphicsView': InteractiveGraphicsView})
self._widget.setObjectName('RosTfTreeUi')
if context.serial_number() > 1:
self._widget.setWindowTitle(self._widget.windowTitle() + (' (%d)' % context.serial_number()))
self._scene = QGraphicsScene()
self._scene.setBackgroundBrush(Qt.white)
self._widget.graphics_view.setScene(self._scene)
self._widget.refresh_graph_push_button.setIcon(QIcon.fromTheme('view-refresh'))
self._widget.refresh_graph_push_button.pressed.connect(self._update_tf_graph)
self._widget.highlight_connections_check_box.toggled.connect(self._redraw_graph_view)
self._widget.auto_fit_graph_check_box.toggled.connect(self._redraw_graph_view)
self._widget.fit_in_view_push_button.setIcon(QIcon.fromTheme('zoom-original'))
self._widget.fit_in_view_push_button.pressed.connect(self._fit_in_view)
self._widget.load_dot_push_button.setIcon(QIcon.fromTheme('document-open'))
self._widget.load_dot_push_button.pressed.connect(self._load_dot)
self._widget.save_dot_push_button.setIcon(QIcon.fromTheme('document-save-as'))
self._widget.save_dot_push_button.pressed.connect(self._save_dot)
self._widget.save_as_svg_push_button.setIcon(QIcon.fromTheme('document-save-as'))
self._widget.save_as_svg_push_button.pressed.connect(self._save_svg)
self._widget.save_as_image_push_button.setIcon(QIcon.fromTheme('image-x-generic'))
self._widget.save_as_image_push_button.pressed.connect(self._save_image)
self._deferred_fit_in_view.connect(self._fit_in_view,
Qt.QueuedConnection)
self._deferred_fit_in_view.emit()
context.add_widget(self._widget)
self._force_refresh = False
def save_settings(self, plugin_settings, instance_settings):
instance_settings.set_value('auto_fit_graph_check_box_state',
self._widget.auto_fit_graph_check_box.isChecked())
instance_settings.set_value('highlight_connections_check_box_state',
self._widget.highlight_connections_check_box.isChecked())
def restore_settings(self, plugin_settings, instance_settings):
self._widget.auto_fit_graph_check_box.setChecked(
instance_settings.value('auto_fit_graph_check_box_state', True) in [True, 'true'])
self._widget.highlight_connections_check_box.setChecked(
instance_settings.value('highlight_connections_check_box_state', True) in [True, 'true'])
self.initialized = True
self._refresh_tf_graph()
def _update_tf_graph(self):
self._force_refresh = True
self._refresh_tf_graph()
def _refresh_tf_graph(self):
if not self.initialized:
return
self._update_graph_view(self._generate_dotcode())
def _generate_dotcode(self):
force_refresh = self._force_refresh
self._force_refresh = False
rospy.wait_for_service('~tf2_frames')
tf2_frame_srv = rospy.ServiceProxy('~tf2_frames', FrameGraph)
return self.dotcode_generator.generate_dotcode(dotcode_factory=self.dotcode_factory,
tf2_frame_srv=tf2_frame_srv,
force_refresh=force_refresh)
def _update_graph_view(self, dotcode):
if dotcode == self._current_dotcode:
return
self._current_dotcode = dotcode
self._redraw_graph_view()
def _generate_tool_tip(self, url):
return url
def _redraw_graph_view(self):
self._scene.clear()
if self._widget.highlight_connections_check_box.isChecked():
highlight_level = 3
else:
highlight_level = 1
(nodes, edges) = self.dot_to_qt.dotcode_to_qt_items(self._current_dotcode,
highlight_level)
for node_item in nodes.itervalues():
self._scene.addItem(node_item)
for edge_items in edges.itervalues():
for edge_item in edge_items:
edge_item.add_to_scene(self._scene)
self._scene.setSceneRect(self._scene.itemsBoundingRect())
if self._widget.auto_fit_graph_check_box.isChecked():
self._fit_in_view()
def _load_dot(self, file_name=None):
if file_name is None:
file_name, _ = QFileDialog.getOpenFileName(
self._widget,
self.tr('Open graph from file'),
None,
self.tr('DOT graph (*.dot)'))
if file_name is None or file_name == '':
return
try:
fhandle = open(file_name, 'rb')
dotcode = fhandle.read()
fhandle.close()
except IOError:
return
self._update_graph_view(dotcode)
def _fit_in_view(self):
self._widget.graphics_view.fitInView(self._scene.itemsBoundingRect(),
Qt.KeepAspectRatio)
def _save_dot(self):
file_name, _ = QFileDialog.getSaveFileName(self._widget,
self.tr('Save as DOT'),
'frames.dot',
self.tr('DOT graph (*.dot)'))
if file_name is None or file_name == '':
return
file = QFile(file_name)
if not file.open(QIODevice.WriteOnly | QIODevice.Text):
return
file.write(self._current_dotcode)
file.close()
def _save_svg(self):
file_name, _ = QFileDialog.getSaveFileName(
self._widget,
self.tr('Save as SVG'),
'frames.svg',
self.tr('Scalable Vector Graphic (*.svg)'))
if file_name is None or file_name == '':
return
generator = QSvgGenerator()
generator.setFileName(file_name)
generator.setSize((self._scene.sceneRect().size() * 2.0).toSize())
painter = QPainter(generator)
painter.setRenderHint(QPainter.Antialiasing)
self._scene.render(painter)
painter.end()
def _save_image(self):
file_name, _ = QFileDialog.getSaveFileName(
self._widget,
self.tr('Save as image'),
'frames.png',
self.tr('Image (*.bmp *.jpg *.png *.tiff)'))
if file_name is None or file_name == '':
return
img = QImage((self._scene.sceneRect().size() * 2.0).toSize(),
QImage.Format_ARGB32_Premultiplied)
painter = QPainter(img)
painter.setRenderHint(QPainter.Antialiasing)
self._scene.render(painter)
painter.end()
img.save(file_name)
class CapabilityGraph(Plugin):
__deferred_fit_in_view = Signal()
__redraw_graph = Signal()
def __init__(self, context):
super(CapabilityGraph, self).__init__(context)
self.setObjectName('CapabilityGraph')
self.__current_dotcode = None
self.__running_providers = []
self.__spec_index = None
self.__widget = QWidget()
self.__dot_to_qt = DotToQtGenerator()
rp = rospkg.RosPack()
ui_file = os.path.join(rp.get_path('rqt_capabilities'), 'resources', 'CapabilityGraph.ui')
loadUi(ui_file, self.__widget, {'CapabilitiesInteractiveGraphicsView': CapabilitiesInteractiveGraphicsView})
self.__widget.setObjectName('CapabilityGraphUI')
if context.serial_number() > 1:
self.__widget.setWindowTitle(self.__widget.windowTitle() + (' (%d)' % context.serial_number()))
self.__scene = QGraphicsScene()
self.__scene.setBackgroundBrush(Qt.white)
self.__widget.graphics_view.setScene(self.__scene)
self.__widget.refresh_graph_push_button.setIcon(QIcon.fromTheme('view-refresh'))
self.__widget.refresh_graph_push_button.pressed.connect(self.__refresh_view)
self.__refresh_view()
self.__deferred_fit_in_view.connect(self.__fit_in_view, Qt.QueuedConnection)
self.__deferred_fit_in_view.emit()
self.__redraw_graph.connect(self.__update_capabilities_graph)
# TODO: use user provided server node name
rospy.Subscriber('/capability_server/events', CapabilityEvent, self.__handle_event)
context.add_widget(self.__widget)
def __handle_event(self, msg):
if msg.type == CapabilityEvent.STOPPED:
return
if msg.type == CapabilityEvent.LAUNCHED and msg.provider not in self.__running_providers:
self.__running_providers.append(msg.provider)
if msg.type == CapabilityEvent.TERMINATED and msg.provider in self.__running_providers:
self.__running_providers.remove(msg.provider)
self.__redraw_graph.emit()
def __get_specs(self):
self.__spec_index, errors = spec_index_from_service()
assert not errors
def __get_running_providers(self):
# TODO: replace 'capability_server' with user provided server name
service_name = '/{0}/get_running_capabilities'.format('capability_server')
rospy.wait_for_service(service_name)
get_running_capabilities = rospy.ServiceProxy(service_name, GetRunningCapabilities)
response = get_running_capabilities()
self.__running_providers = []
for cap in response.running_capabilities:
self.__running_providers.append(cap.capability.provider)
def __refresh_view(self):
self.__get_specs()
self.__get_running_providers()
self.__update_capabilities_graph()
def __update_capabilities_graph(self):
self.__update_graph_view(self.__generate_dotcode())
def __generate_dotcode(self):
return generate_dotcode_from_capability_info(self.__spec_index, self.__running_providers)
def __update_graph_view(self, dotcode):
if dotcode == self.__current_dotcode:
return
self.__current_dotcode = dotcode
self.__redraw_graph_view()
def __fit_in_view(self):
self.__widget.graphics_view.fitInView(self.__scene.itemsBoundingRect(), Qt.KeepAspectRatio)
def __redraw_graph_view(self):
self.__widget.graphics_view._running_providers = self.__running_providers
self.__widget.graphics_view._spec_index = self.__spec_index
self.__scene.clear()
highlight_level = 1
# layout graph and create qt items
(nodes, edges) = self.__dot_to_qt.dotcode_to_qt_items(self.__current_dotcode,
highlight_level=highlight_level,
same_label_siblings=True)
for node_item in nodes.itervalues():
self.__scene.addItem(node_item)
for edge_items in edges.itervalues():
for edge_item in edge_items:
edge_item.add_to_scene(self.__scene)
self.__scene.setSceneRect(self.__scene.itemsBoundingRect())
self.__fit_in_view()
class ImageView(TopicMessageView):
"""
Popup image viewer
"""
name = 'Image'
def __init__(self, timeline, parent, topic):
super(ImageView, self).__init__(timeline, parent, topic)
self._image = None
self._image_topic = None
self._image_stamp = None
self.quality = Image.NEAREST # quality hint for scaling
# TODO put the image_topic and image_stamp on the picture or display them in some fashion
self._overlay_font_size = 14.0
self._overlay_indent = (4, 4)
self._overlay_color = (0.2, 0.2, 1.0)
self._image_view = QGraphicsView(parent)
self._image_view.resizeEvent = self._resizeEvent
self._scene = QGraphicsScene()
self._image_view.setScene(self._scene)
parent.layout().addWidget(self._image_view)
# MessageView implementation
def _resizeEvent(self, event):
# TODO make this smarter. currently there will be no scrollbar even if the timeline extends beyond the viewable area
self._scene.setSceneRect(0, 0, self._image_view.size().width() - 2, self._image_view.size().height() - 2)
self.put_image_into_scene()
def message_viewed(self, bag, msg_details):
"""
refreshes the image
"""
TopicMessageView.message_viewed(self, bag, msg_details)
topic, msg, t = msg_details[:3]
if not msg:
self.set_image(None, topic, 'no message')
else:
self.set_image(msg, topic, msg.header.stamp)
def message_cleared(self):
TopicMessageView.message_cleared(self)
self.set_image(None, None, None)
# End MessageView implementation
def put_image_into_scene(self):
if self._image:
resized_image = self._image.resize((self._image_view.size().width() - 2, self._image_view.size().height() - 2), self.quality)
QtImage = ImageQt(resized_image)
pixmap = QPixmap.fromImage(QtImage)
self._scene.clear()
self._scene.addPixmap(pixmap)
def set_image(self, image_msg, image_topic, image_stamp):
self._image_msg = image_msg
if image_msg:
self._image = image_helper.imgmsg_to_pil(image_msg)
else:
self._image = None
self._image_topic = image_topic
self._image_stamp = image_stamp
self.put_image_into_scene()
class CapabilityGraph(Plugin):
__deferred_fit_in_view = Signal()
__redraw_graph = Signal()
def __init__(self, context):
super(CapabilityGraph, self).__init__(context)
self.setObjectName('CapabilityGraph')
self.__current_dotcode = None
self.__running_providers = []
self.__spec_index = None
self.__widget = QWidget()
self.__dot_to_qt = DotToQtGenerator()
rp = rospkg.RosPack()
ui_file = os.path.join(rp.get_path('rqt_capabilities'), 'resources',
'CapabilityGraph.ui')
loadUi(
ui_file, self.__widget, {
'CapabilitiesInteractiveGraphicsView':
CapabilitiesInteractiveGraphicsView
})
self.__widget.setObjectName('CapabilityGraphUI')
if context.serial_number() > 1:
self.__widget.setWindowTitle(self.__widget.windowTitle() +
(' (%d)' % context.serial_number()))
self.__scene = QGraphicsScene()
self.__scene.setBackgroundBrush(Qt.white)
self.__widget.graphics_view.setScene(self.__scene)
self.__widget.refresh_graph_push_button.setIcon(
QIcon.fromTheme('view-refresh'))
self.__widget.refresh_graph_push_button.pressed.connect(
self.__refresh_view)
self.__refresh_view()
self.__deferred_fit_in_view.connect(self.__fit_in_view,
Qt.QueuedConnection)
self.__deferred_fit_in_view.emit()
self.__redraw_graph.connect(self.__update_capabilities_graph)
# TODO: use user provided server node name
rospy.Subscriber('/capability_server/events', CapabilityEvent,
self.__handle_event)
context.add_widget(self.__widget)
def __handle_event(self, msg):
if msg.type == CapabilityEvent.STOPPED:
return
if msg.type == CapabilityEvent.LAUNCHED and msg.provider not in self.__running_providers:
self.__running_providers.append(msg.provider)
if msg.type == CapabilityEvent.TERMINATED and msg.provider in self.__running_providers:
self.__running_providers.remove(msg.provider)
self.__redraw_graph.emit()
def __get_specs(self):
self.__spec_index, errors = spec_index_from_service()
assert not errors
def __get_running_providers(self):
# TODO: replace 'capability_server' with user provided server name
service_name = '/{0}/get_running_capabilities'.format(
'capability_server')
rospy.wait_for_service(service_name)
get_running_capabilities = rospy.ServiceProxy(service_name,
GetRunningCapabilities)
response = get_running_capabilities()
self.__running_providers = []
for cap in response.running_capabilities:
self.__running_providers.append(cap.capability.provider)
def __refresh_view(self):
self.__get_specs()
self.__get_running_providers()
self.__update_capabilities_graph()
def __update_capabilities_graph(self):
self.__update_graph_view(self.__generate_dotcode())
def __generate_dotcode(self):
return generate_dotcode_from_capability_info(self.__spec_index,
self.__running_providers)
def __update_graph_view(self, dotcode):
if dotcode == self.__current_dotcode:
return
self.__current_dotcode = dotcode
self.__redraw_graph_view()
def __fit_in_view(self):
self.__widget.graphics_view.fitInView(self.__scene.itemsBoundingRect(),
Qt.KeepAspectRatio)
def __redraw_graph_view(self):
self.__widget.graphics_view._running_providers = self.__running_providers
self.__widget.graphics_view._spec_index = self.__spec_index
self.__scene.clear()
highlight_level = 1
# layout graph and create qt items
(nodes, edges) = self.__dot_to_qt.dotcode_to_qt_items(
self.__current_dotcode,
highlight_level=highlight_level,
same_label_siblings=True)
for node_item in nodes.itervalues():
self.__scene.addItem(node_item)
for edge_items in edges.itervalues():
for edge_item in edge_items:
edge_item.add_to_scene(self.__scene)
self.__scene.setSceneRect(self.__scene.itemsBoundingRect())
self.__fit_in_view()
class TimelineView(QGraphicsView):
"""
This class draws a graphical representation of a timeline.
This is ONLY the bar and colored boxes.
When you instantiate this class, do NOT forget to call set_init_data to
set necessary data.
"""
redraw = Signal()
def __init__(self, parent):
"""Cannot take args other than parent due to loadUi limitation."""
super(TimelineView, self).__init__()
self._parent = parent
self._timeline_marker = QIcon.fromTheme('system-search')
self._min = 0
self._max = 0
self._xpos_marker = 5
self._timeline_marker_width = 15
self._timeline_marker_height = 15
self._last_marker_at = 2
self.redraw.connect(self._slot_redraw)
self._timeline = None
self.setUpdatesEnabled(True)
self._scene = QGraphicsScene(self)
self.setScene(self._scene)
def set_timeline(self, timeline, name=None):
assert(self._timeline is None)
self._name = name
self._timeline = timeline
self._timeline.message_updated.connect(self._updated)
@Slot()
def _updated(self):
"""
Update the widget whenever we receive a new message
"""
# update the limits
self._min = 0
self._max = len(self._timeline)-1
# update the marker position
self._xpos_marker = self._timeline.get_position()
# redraw
self.redraw.emit()
def mouseReleaseEvent(self, event):
"""
:type event: QMouseEvent
"""
xpos = self.pos_from_x(event.x())
self.set_marker_pos(xpos)
def mousePressEvent(self, event):
"""
:type event: QMouseEvent
"""
assert(self._timeline is not None)
# Pause the timeline
self._timeline.set_paused(True)
xpos = self.pos_from_x(event.x())
self.set_marker_pos(xpos)
def mouseMoveEvent(self, event):
"""
:type event: QMouseEvent
"""
xpos = self.pos_from_x(event.x())
self.set_marker_pos(xpos)
def pos_from_x(self, x):
"""
Get the index in the timeline from the mouse click position
:param x: Position relative to self widget.
:return: Index
"""
width = self.size().width()
# determine value from mouse click
width_cell = width / float(len(self._timeline))
return int(floor(x / width_cell))
def set_marker_pos(self, xpos):
"""
Set marker position from index
:param xpos: Marker index
"""
assert(self._timeline is not None)
self._xpos_marker = self._clamp(xpos, self._min, self._max)
if self._xpos_marker == self._last_marker_at:
# Clicked the same pos as last time.
return
elif self._xpos_marker >= len(self._timeline):
# When clicked out-of-region
return
self._last_marker_at = self._xpos_marker
# Set timeline position. This broadcasts the message at that position
# to all of the other viewers
self._timeline.set_position(self._xpos_marker)
# redraw
self.redraw.emit()
def _clamp(self, val, min, max):
"""
Judge if val is within the range given by min & max.
If not, return either min or max.
:type val: any number format
:type min: any number format
:type max: any number format
:rtype: int
"""
if (val < min):
return min
if (val > max):
return max
return val
@Slot()
def _slot_redraw(self):
"""
Gets called either when new msg comes in or when marker is moved by
user.
"""
self._scene.clear()
qsize = self.size()
width_tl = qsize.width()
w = width_tl / float(max(len(self._timeline), 1))
is_enabled = self.isEnabled()
if self._timeline is not None:
for i, m in enumerate(self._timeline):
h = self.viewport().height()
# Figure out each cell's color.
qcolor = QColor('grey')
if is_enabled:
qcolor = self._get_color_for_value(m)
# TODO Use this code for adding gradation to the cell color.
# end_color = QColor(0.5 * QColor('red').value(),
# 0.5 * QColor('green').value(),
# 0.5 * QColor('blue').value())
self._scene.addRect(w * i, 0, w, h, QColor('white'), qcolor)
# Setting marker.
xpos_marker = (self._xpos_marker * w +
(w / 2.0) - (self._timeline_marker_width / 2.0))
pos_marker = QPointF(xpos_marker, 0)
# Need to instantiate marker everytime since it gets deleted
# in every loop by scene.clear()
timeline_marker = self._instantiate_tl_icon()
timeline_marker.setPos(pos_marker)
self._scene.addItem(timeline_marker)
def _instantiate_tl_icon(self):
timeline_marker_icon = QIcon.fromTheme('system-search')
timeline_marker_icon_pixmap = timeline_marker_icon.pixmap(
self._timeline_marker_width,
self._timeline_marker_height)
return QGraphicsPixmapItem(timeline_marker_icon_pixmap)
def _get_color_for_value(self, msg):
"""
:type msg: DiagnosticArray
"""
if self._name is not None:
# look up name in msg; return grey if not found
status = util.get_status_by_name(msg, self._name)
if status is not None:
return util.level_to_color(status.level)
else:
return QColor('grey')
return util.get_color_for_message(msg)
class TeleopApp(Plugin):
_update_robot_list_signal = Signal()
CAMERA_FPS = (1000 / 20)
D2R = 3.141592 / 180
R2D = 180 / 3.141592
LINEAR_V = 1.5
ANGULAR_V = 60 * D2R
def __init__(self, context):
self._context = context
super(TeleopApp, self).__init__(context)
self.initialised = False
self.setObjectName('Teleop App')
self.is_setting_dlg_live = False
self._widget = QWidget()
rospack = rospkg.RosPack()
ui_file = os.path.join(rospack.get_path('concert_teleop_app'), 'ui',
'teleop_app.ui')
self._widget.setObjectName('TeleopAppUi')
loadUi(ui_file, self._widget, {})
if context.serial_number() > 1:
self._widget.setWindowTitle(self._widget.windowTitle() +
(' (%d)' % context.serial_number()))
#list item click event
self._widget.robot_list_tree_widget.itemClicked.connect(
self._select_robot_list_tree_item)
self._widget.robot_list_tree_widget.itemDoubleClicked.connect(
self._dbclick_robot_list_item)
#button event connection
self._widget.backward_btn.setAutoRepeat(True)
self._widget.forward_btn.setAutoRepeat(True)
self._widget.left_turn_btn.setAutoRepeat(True)
self._widget.right_turn_btn.setAutoRepeat(True)
self._widget.backward_btn.clicked.connect(self._backward)
self._widget.forward_btn.clicked.connect(self._forward)
self._widget.left_turn_btn.clicked.connect(self._left_turn)
self._widget.right_turn_btn.clicked.connect(self._right_turn)
self._widget.backward_btn.released.connect(self._stop)
self._widget.forward_btn.released.connect(self._stop)
self._widget.left_turn_btn.released.connect(self._stop)
self._widget.right_turn_btn.released.connect(self._stop)
self._widget.capture_teleop_btn.pressed.connect(self._capture_teleop)
self._widget.release_teleop_btn.pressed.connect(self._release_teleop)
#signal event connection
self._widget.destroyed.connect(self._exit)
self._update_robot_list_signal.connect(self._update_robot_list)
self.connect(self, SIGNAL("capture"),
self._show_capture_teleop_message)
self.connect(self, SIGNAL("release"),
self._show_release_teleop_message)
self.connect(self, SIGNAL("error"), self._show_error_teleop_message)
context.add_widget(self._widget)
#init
self.scene = QGraphicsScene()
self._widget.camera_view.setScene(self.scene)
self.timer = QTimer(self._widget)
self.timer.timeout.connect(self._display_image)
self.timer.start(self.CAMERA_FPS)
self._widget.release_teleop_btn.setEnabled(False)
self.teleop_app_info = TeleopAppInfo()
self.teleop_app_info._reg_event_callback(self._refresh_robot_list)
self.teleop_app_info._reg_capture_event_callback(
self._capture_event_callback)
self.teleop_app_info._reg_release_event_callback(
self._release_event_callback)
self.teleop_app_info._reg_error_event_callback(
self._error_event_callback)
self.robot_item_list = {}
self.current_robot = None
self.current_captured_robot = None
def _exit(self):
if self.current_captured_robot:
self.teleop_app_info._release_teleop(
self.current_captured_robot["rocon_uri"])
def _show_capture_teleop_message(self, rtn):
if rtn:
QMessageBox.warning(self._widget, 'SUCCESS', "CAPTURE!!!!",
QMessageBox.Ok | QMessageBox.Ok)
for k in self.robot_item_list.keys():
if self.robot_item_list[k] == self.current_robot:
k.setBackground(0, QBrush(Qt.SolidPattern))
k.setBackgroundColor(0, QColor(0, 255, 0, 255))
robot_name = k.text(0)
k.setText(0, str(robot_name) + " (captured)")
else:
k.setBackground(0, QBrush(Qt.NoBrush))
k.setBackgroundColor(0, QColor(0, 0, 0, 0))
robot_name = k.text(0)
else:
QMessageBox.warning(self._widget, 'FAIL', "FAIURE CAPTURE!!!!",
QMessageBox.Ok | QMessageBox.Ok)
self._widget.capture_teleop_btn.setEnabled(False)
self._widget.release_teleop_btn.setEnabled(True)
self._widget.setDisabled(False)
self.current_captured_robot = self.current_robot
def _show_release_teleop_message(self, rtn):
if rtn:
QMessageBox.warning(self._widget, 'SUCCESS', "RELEASE!!!!",
QMessageBox.Ok | QMessageBox.Ok)
for k in self.robot_item_list.keys():
if self.robot_item_list[k] == self.current_captured_robot:
k.setBackground(0, QBrush(Qt.NoBrush))
k.setBackgroundColor(0, QColor(0, 0, 0, 0))
robot_name = k.text(0)
k.setText(0, robot_name[:robot_name.find(" (captured)")])
else:
QMessageBox.warning(self._widget, 'FAIL', "FAIURE RELEASE!!!!",
QMessageBox.Ok | QMessageBox.Ok)
self._widget.setDisabled(False)
self._widget.capture_teleop_btn.setEnabled(True)
self._widget.release_teleop_btn.setEnabled(False)
self.current_captured_robot = None
def _show_error_teleop_message(self, err):
QMessageBox.warning(self._widget, 'ERROR', err,
QMessageBox.Ok | QMessageBox.Ok)
self._widget.setDisabled(False)
self._widget.capture_teleop_btn.setEnabled(True)
self._widget.release_teleop_btn.setEnabled(True)
def _capture_event_callback(self, rtn):
try:
self.emit(SIGNAL("capture"), rtn)
except:
pass
def _release_event_callback(self, rtn):
try:
self.emit(SIGNAL("release"), rtn)
except:
pass
def _error_event_callback(self, err):
try:
self.emit(SIGNAL("error"), err)
except:
pass
def _release_teleop(self):
if self.current_robot != self.current_captured_robot:
print "NO Capture robot (captured: %s)" % self.current_captured_robot[
'name'].string
return
self.teleop_app_info._release_teleop(self.current_robot["rocon_uri"])
self._widget.setDisabled(True)
def _capture_teleop(self):
if self.current_robot == None:
print "NO Select robot"
return
elif self.current_captured_robot:
print "Already captured robot"
return
self.teleop_app_info._capture_teleop(self.current_robot["rocon_uri"])
self._widget.setDisabled(True)
pass
def _dbclick_robot_list_item(self):
if self.current_captured_robot == None:
self._capture_teleop()
else:
self._release_teleop()
def _update_robot_list(self):
self._widget.robot_list_tree_widget.clear()
robot_list = self.teleop_app_info.robot_list
for k in robot_list.values():
robot_item = QTreeWidgetItem(self._widget.robot_list_tree_widget)
robot_item.setText(0, k["name"].string)
self.robot_item_list[robot_item] = k
def _backward(self):
if self._widget.backward_btn.isDown():
self.teleop_app_info._request_teleop_cmd_vel(-self.LINEAR_V, 0)
else:
self._stop()
def _forward(self):
if self._widget.forward_btn.isDown():
self.teleop_app_info._request_teleop_cmd_vel(self.LINEAR_V, 0)
else:
self._stop()
def _left_turn(self):
if self._widget.left_turn_btn.isDown():
self.teleop_app_info._request_teleop_cmd_vel(0, self.ANGULAR_V)
else:
self._stop()
def _right_turn(self):
if self._widget.right_turn_btn.isDown():
self.teleop_app_info._request_teleop_cmd_vel(0, -self.ANGULAR_V)
else:
self._stop()
def _stop(self):
self.teleop_app_info._request_teleop_cmd_vel(0, 0)
def _select_robot_list_tree_item(self, Item):
if not Item in self.robot_item_list.keys():
print "HAS NO KEY"
else:
self.current_robot = self.robot_item_list[Item]
if self.current_robot == self.current_captured_robot:
self._widget.release_teleop_btn.setEnabled(True)
else:
self._widget.release_teleop_btn.setEnabled(False)
def _refresh_robot_list(self):
self._update_robot_list_signal.emit()
pass
def _display_image(self):
image = self.teleop_app_info.image_data
if image:
if len(self.scene.items()) > 1:
self.scene.removeItem(self.scene.items()[0])
image_data = self.teleop_app_info.image_data.data
pixmap = QPixmap()
pixmap.loadFromData(
image_data,
format="PNG",
)
self._widget.camera_view.fitInView(
QRectF(0, 0, pixmap.width(), pixmap.height()),
Qt.KeepAspectRatio)
self.scene.addPixmap(pixmap)
self.scene.update()
else:
self.scene.clear()
class TimelineView(QGraphicsView):
"""
This class draws a graphical representation of a timeline.
This is ONLY the bar and colored boxes.
When you instantiate this class, do NOT forget to call set_init_data to
set necessary data.
"""
redraw = Signal()
def __init__(self, parent):
"""Cannot take args other than parent due to loadUi limitation."""
super(TimelineView, self).__init__()
self._parent = parent
self._timeline_marker = QIcon.fromTheme('system-search')
self._min = 0
self._max = 0
self._xpos_marker = 5
self._timeline_marker_width = 15
self._timeline_marker_height = 15
self._last_marker_at = 2
self.redraw.connect(self._slot_redraw)
self._timeline = None
self.setUpdatesEnabled(True)
self._scene = QGraphicsScene(self)
self.setScene(self._scene)
def set_timeline(self, timeline, name=None):
assert (self._timeline is None)
self._name = name
self._timeline = timeline
self._timeline.message_updated.connect(self._updated)
@Slot()
def _updated(self):
"""
Update the widget whenever we receive a new message
"""
# update the limits
self._min = 0
self._max = len(self._timeline) - 1
# update the marker position
self._xpos_marker = self._timeline.get_position()
# redraw
self.redraw.emit()
def mouseReleaseEvent(self, event):
"""
:type event: QMouseEvent
"""
xpos = self.pos_from_x(event.x())
self.set_marker_pos(xpos)
def mousePressEvent(self, event):
"""
:type event: QMouseEvent
"""
assert (self._timeline is not None)
# Pause the timeline
self._timeline.set_paused(True)
xpos = self.pos_from_x(event.x())
self.set_marker_pos(xpos)
def mouseMoveEvent(self, event):
"""
:type event: QMouseEvent
"""
xpos = self.pos_from_x(event.x())
self.set_marker_pos(xpos)
def pos_from_x(self, x):
"""
Get the index in the timeline from the mouse click position
:param x: Position relative to self widget.
:return: Index
"""
width = self.size().width()
# determine value from mouse click
width_cell = width / float(len(self._timeline))
return int(floor(x / width_cell))
def set_marker_pos(self, xpos):
"""
Set marker position from index
:param xpos: Marker index
"""
assert (self._timeline is not None)
self._xpos_marker = self._clamp(xpos, self._min, self._max)
if self._xpos_marker == self._last_marker_at:
# Clicked the same pos as last time.
return
elif self._xpos_marker >= len(self._timeline):
# When clicked out-of-region
return
self._last_marker_at = self._xpos_marker
# Set timeline position. This broadcasts the message at that position
# to all of the other viewers
self._timeline.set_position(self._xpos_marker)
# redraw
self.redraw.emit()
def _clamp(self, val, min, max):
"""
Judge if val is within the range given by min & max.
If not, return either min or max.
:type val: any number format
:type min: any number format
:type max: any number format
:rtype: int
"""
if (val < min):
return min
if (val > max):
return max
return val
@Slot()
def _slot_redraw(self):
"""
Gets called either when new msg comes in or when marker is moved by
user.
"""
self._scene.clear()
qsize = self.size()
width_tl = qsize.width()
w = width_tl / float(max(len(self._timeline), 1))
is_enabled = self.isEnabled()
if self._timeline is not None:
for i, m in enumerate(self._timeline):
h = self.viewport().height()
# Figure out each cell's color.
qcolor = QColor('grey')
if is_enabled:
qcolor = self._get_color_for_value(m)
# TODO Use this code for adding gradation to the cell color.
# end_color = QColor(0.5 * QColor('red').value(),
# 0.5 * QColor('green').value(),
# 0.5 * QColor('blue').value())
self._scene.addRect(w * i, 0, w, h, QColor('white'), qcolor)
# Setting marker.
xpos_marker = (self._xpos_marker * w + (w / 2.0) -
(self._timeline_marker_width / 2.0))
pos_marker = QPointF(xpos_marker, 0)
# Need to instantiate marker everytime since it gets deleted
# in every loop by scene.clear()
timeline_marker = self._instantiate_tl_icon()
timeline_marker.setPos(pos_marker)
self._scene.addItem(timeline_marker)
def _instantiate_tl_icon(self):
timeline_marker_icon = QIcon.fromTheme('system-search')
timeline_marker_icon_pixmap = timeline_marker_icon.pixmap(
self._timeline_marker_width, self._timeline_marker_height)
return QGraphicsPixmapItem(timeline_marker_icon_pixmap)
def _get_color_for_value(self, msg):
"""
:type msg: DiagnosticArray
"""
if self._name is not None:
# look up name in msg; return grey if not found
status = util.get_status_by_name(msg, self._name)
if status is not None:
return util.level_to_color(status.level)
else:
return QColor('grey')
return util.get_color_for_message(msg)
class RosGraph(Plugin):
_deferred_fit_in_view = Signal()
def __init__(self, context):
super(RosGraph, self).__init__(context)
self.initialized = False
self.setObjectName('RosGraph')
self._graph = None
self._current_dotcode = None
self._widget = QWidget()
# factory builds generic dotcode items
self.dotcode_factory = PydotFactory()
# self.dotcode_factory = PygraphvizFactory()
# generator builds rosgraph
self.dotcode_generator = RosGraphDotcodeGenerator()
# dot_to_qt transforms into Qt elements using dot layout
self.dot_to_qt = DotToQtGenerator()
rp = rospkg.RosPack()
ui_file = os.path.join(rp.get_path('rqt_graph'), 'resource', 'RosGraph.ui')
loadUi(ui_file, self._widget, {'InteractiveGraphicsView': InteractiveGraphicsView})
self._widget.setObjectName('RosGraphUi')
if context.serial_number() > 1:
self._widget.setWindowTitle(self._widget.windowTitle() + (' (%d)' % context.serial_number()))
self._scene = QGraphicsScene()
self._scene.setBackgroundBrush(Qt.white)
self._widget.graphics_view.setScene(self._scene)
self._widget.graph_type_combo_box.insertItem(0, self.tr('Nodes only'), NODE_NODE_GRAPH)
self._widget.graph_type_combo_box.insertItem(1, self.tr('Nodes/Topics (active)'), NODE_TOPIC_GRAPH)
self._widget.graph_type_combo_box.insertItem(2, self.tr('Nodes/Topics (all)'), NODE_TOPIC_ALL_GRAPH)
self._widget.graph_type_combo_box.setCurrentIndex(0)
self._widget.graph_type_combo_box.currentIndexChanged.connect(self._refresh_rosgraph)
self.node_completionmodel = NamespaceCompletionModel(self._widget.filter_line_edit, False)
completer = RepeatedWordCompleter(self.node_completionmodel, self)
completer.setCompletionMode(QCompleter.PopupCompletion)
completer.setWrapAround(True)
completer.setCaseSensitivity(Qt.CaseInsensitive)
self._widget.filter_line_edit.editingFinished.connect(self._refresh_rosgraph)
self._widget.filter_line_edit.setCompleter(completer)
self.topic_completionmodel = NamespaceCompletionModel(self._widget.topic_filter_line_edit, False)
topic_completer = RepeatedWordCompleter(self.topic_completionmodel, self)
topic_completer.setCompletionMode(QCompleter.PopupCompletion)
topic_completer.setWrapAround(True)
topic_completer.setCaseSensitivity(Qt.CaseInsensitive)
self._widget.topic_filter_line_edit.editingFinished.connect(self._refresh_rosgraph)
self._widget.topic_filter_line_edit.setCompleter(topic_completer)
self._widget.namespace_cluster_check_box.clicked.connect(self._refresh_rosgraph)
self._widget.actionlib_check_box.clicked.connect(self._refresh_rosgraph)
self._widget.dead_sinks_check_box.clicked.connect(self._refresh_rosgraph)
self._widget.leaf_topics_check_box.clicked.connect(self._refresh_rosgraph)
self._widget.quiet_check_box.clicked.connect(self._refresh_rosgraph)
self._widget.refresh_graph_push_button.setIcon(QIcon.fromTheme('view-refresh'))
self._widget.refresh_graph_push_button.pressed.connect(self._update_rosgraph)
self._widget.highlight_connections_check_box.toggled.connect(self._redraw_graph_view)
self._widget.auto_fit_graph_check_box.toggled.connect(self._redraw_graph_view)
self._widget.fit_in_view_push_button.setIcon(QIcon.fromTheme('zoom-original'))
self._widget.fit_in_view_push_button.pressed.connect(self._fit_in_view)
self._widget.load_dot_push_button.setIcon(QIcon.fromTheme('document-open'))
self._widget.load_dot_push_button.pressed.connect(self._load_dot)
self._widget.save_dot_push_button.setIcon(QIcon.fromTheme('document-save-as'))
self._widget.save_dot_push_button.pressed.connect(self._save_dot)
self._widget.save_as_svg_push_button.setIcon(QIcon.fromTheme('document-save-as'))
self._widget.save_as_svg_push_button.pressed.connect(self._save_svg)
self._widget.save_as_image_push_button.setIcon(QIcon.fromTheme('image'))
self._widget.save_as_image_push_button.pressed.connect(self._save_image)
self._update_rosgraph()
self._deferred_fit_in_view.connect(self._fit_in_view, Qt.QueuedConnection)
self._deferred_fit_in_view.emit()
context.add_widget(self._widget)
def save_settings(self, plugin_settings, instance_settings):
instance_settings.set_value('graph_type_combo_box_index', self._widget.graph_type_combo_box.currentIndex())
instance_settings.set_value('filter_line_edit_text', self._widget.filter_line_edit.text())
instance_settings.set_value('topic_filter_line_edit_text', self._widget.topic_filter_line_edit.text())
instance_settings.set_value('namespace_cluster_check_box_state', self._widget.namespace_cluster_check_box.isChecked())
instance_settings.set_value('actionlib_check_box_state', self._widget.actionlib_check_box.isChecked())
instance_settings.set_value('dead_sinks_check_box_state', self._widget.dead_sinks_check_box.isChecked())
instance_settings.set_value('leaf_topics_check_box_state', self._widget.leaf_topics_check_box.isChecked())
instance_settings.set_value('quiet_check_box_state', self._widget.quiet_check_box.isChecked())
instance_settings.set_value('auto_fit_graph_check_box_state', self._widget.auto_fit_graph_check_box.isChecked())
instance_settings.set_value('highlight_connections_check_box_state', self._widget.highlight_connections_check_box.isChecked())
def restore_settings(self, plugin_settings, instance_settings):
self._widget.graph_type_combo_box.setCurrentIndex(int(instance_settings.value('graph_type_combo_box_index', 0)))
self._widget.filter_line_edit.setText(instance_settings.value('filter_line_edit_text', '/'))
self._widget.topic_filter_line_edit.setText(instance_settings.value('topic_filter_line_edit_text', '/'))
self._widget.namespace_cluster_check_box.setChecked(instance_settings.value('namespace_cluster_check_box_state', True) in [True, 'true'])
self._widget.actionlib_check_box.setChecked(instance_settings.value('actionlib_check_box_state', True) in [True, 'true'])
self._widget.dead_sinks_check_box.setChecked(instance_settings.value('dead_sinks_check_box_state', True) in [True, 'true'])
self._widget.leaf_topics_check_box.setChecked(instance_settings.value('leaf_topics_check_box_state', True) in [True, 'true'])
self._widget.quiet_check_box.setChecked(instance_settings.value('quiet_check_box_state', True) in [True, 'true'])
self._widget.auto_fit_graph_check_box.setChecked(instance_settings.value('auto_fit_graph_check_box_state', True) in [True, 'true'])
self._widget.highlight_connections_check_box.setChecked(instance_settings.value('highlight_connections_check_box_state', True) in [True, 'true'])
self.initialized = True
self._refresh_rosgraph()
def _update_rosgraph(self):
# re-enable controls customizing fetched ROS graph
self._widget.graph_type_combo_box.setEnabled(True)
self._widget.filter_line_edit.setEnabled(True)
self._widget.topic_filter_line_edit.setEnabled(True)
self._widget.namespace_cluster_check_box.setEnabled(True)
self._widget.actionlib_check_box.setEnabled(True)
self._widget.dead_sinks_check_box.setEnabled(True)
self._widget.leaf_topics_check_box.setEnabled(True)
self._widget.quiet_check_box.setEnabled(True)
self._graph = rosgraph.impl.graph.Graph()
self._graph.set_master_stale(5.0)
self._graph.set_node_stale(5.0)
self._graph.update()
self.node_completionmodel.refresh(self._graph.nn_nodes)
self.topic_completionmodel.refresh(self._graph.nt_nodes)
self._refresh_rosgraph()
def _refresh_rosgraph(self):
if not self.initialized:
return
self._update_graph_view(self._generate_dotcode())
def _generate_dotcode(self):
ns_filter = self._widget.filter_line_edit.text()
topic_filter = self._widget.topic_filter_line_edit.text()
graph_mode = self._widget.graph_type_combo_box.itemData(self._widget.graph_type_combo_box.currentIndex())
orientation = 'LR'
if self._widget.namespace_cluster_check_box.isChecked():
namespace_cluster = 1
else:
namespace_cluster = 0
accumulate_actions = self._widget.actionlib_check_box.isChecked()
hide_dead_end_topics = self._widget.dead_sinks_check_box.isChecked()
hide_single_connection_topics = self._widget.leaf_topics_check_box.isChecked()
quiet = self._widget.quiet_check_box.isChecked()
return self.dotcode_generator.generate_dotcode(
rosgraphinst=self._graph,
ns_filter=ns_filter,
topic_filter=topic_filter,
graph_mode=graph_mode,
hide_single_connection_topics=hide_single_connection_topics,
hide_dead_end_topics=hide_dead_end_topics,
cluster_namespaces_level=namespace_cluster,
accumulate_actions=accumulate_actions,
dotcode_factory=self.dotcode_factory,
orientation=orientation,
quiet=quiet)
def _update_graph_view(self, dotcode):
if dotcode == self._current_dotcode:
return
self._current_dotcode = dotcode
self._redraw_graph_view()
def _generate_tool_tip(self, url):
if url is not None and ':' in url:
item_type, item_path = url.split(':', 1)
if item_type == 'node':
tool_tip = 'Node:\n %s' % (item_path)
service_names = rosservice.get_service_list(node=item_path)
if service_names:
tool_tip += '\nServices:'
for service_name in service_names:
try:
service_type = rosservice.get_service_type(service_name)
tool_tip += '\n %s [%s]' % (service_name, service_type)
except rosservice.ROSServiceIOException as e:
tool_tip += '\n %s' % (e)
return tool_tip
elif item_type == 'topic':
topic_type, topic_name, _ = rostopic.get_topic_type(item_path)
return 'Topic:\n %s\nType:\n %s' % (topic_name, topic_type)
return url
def _redraw_graph_view(self):
self._scene.clear()
if self._widget.highlight_connections_check_box.isChecked():
highlight_level = 3
else:
highlight_level = 1
# layout graph and create qt items
(nodes, edges) = self.dot_to_qt.dotcode_to_qt_items(self._current_dotcode,
highlight_level=highlight_level,
same_label_siblings=True)
for node_item in nodes.itervalues():
self._scene.addItem(node_item)
for edge_items in edges.itervalues():
for edge_item in edge_items:
edge_item.add_to_scene(self._scene)
self._scene.setSceneRect(self._scene.itemsBoundingRect())
if self._widget.auto_fit_graph_check_box.isChecked():
self._fit_in_view()
def _load_dot(self, file_name=None):
if file_name is None:
file_name, _ = QFileDialog.getOpenFileName(self._widget, self.tr('Open graph from file'), None, self.tr('DOT graph (*.dot)'))
if file_name is None or file_name == '':
return
try:
fh = open(file_name, 'rb')
dotcode = fh.read()
fh.close()
except IOError:
return
# disable controls customizing fetched ROS graph
self._widget.graph_type_combo_box.setEnabled(False)
self._widget.filter_line_edit.setEnabled(False)
self._widget.topic_filter_line_edit.setEnabled(False)
self._widget.namespace_cluster_check_box.setEnabled(False)
self._widget.actionlib_check_box.setEnabled(False)
self._widget.dead_sinks_check_box.setEnabled(False)
self._widget.leaf_topics_check_box.setEnabled(False)
self._widget.quiet_check_box.setEnabled(False)
self._update_graph_view(dotcode)
def _fit_in_view(self):
self._widget.graphics_view.fitInView(self._scene.itemsBoundingRect(), Qt.KeepAspectRatio)
def _save_dot(self):
file_name, _ = QFileDialog.getSaveFileName(self._widget, self.tr('Save as DOT'), 'rosgraph.dot', self.tr('DOT graph (*.dot)'))
if file_name is None or file_name == '':
return
handle = QFile(file_name)
if not handle.open(QIODevice.WriteOnly | QIODevice.Text):
return
handle.write(self._current_dotcode)
handle.close()
def _save_svg(self):
file_name, _ = QFileDialog.getSaveFileName(self._widget, self.tr('Save as SVG'), 'rosgraph.svg', self.tr('Scalable Vector Graphic (*.svg)'))
if file_name is None or file_name == '':
return
generator = QSvgGenerator()
generator.setFileName(file_name)
generator.setSize((self._scene.sceneRect().size() * 2.0).toSize())
painter = QPainter(generator)
painter.setRenderHint(QPainter.Antialiasing)
self._scene.render(painter)
painter.end()
def _save_image(self):
file_name, _ = QFileDialog.getSaveFileName(self._widget, self.tr('Save as image'), 'rosgraph.png', self.tr('Image (*.bmp *.jpg *.png *.tiff)'))
if file_name is None or file_name == '':
return
img = QImage((self._scene.sceneRect().size() * 2.0).toSize(), QImage.Format_ARGB32_Premultiplied)
painter = QPainter(img)
painter.setRenderHint(QPainter.Antialiasing)
self._scene.render(painter)
painter.end()
img.save(file_name)
