Ejemplo n.º 1
0
    def __init__(self, status, close_callback):
        """
        :type status: DiagnosticStatus
        :param close_callback: When the instance of this class
                               (InspectorWindow) terminates, this callback gets
                               called.
        """
        #TODO(Isaac) UI construction that currently is done in this method,
        #            needs to be done in .ui file.

        super(InspectorWindow, self).__init__()
        self.status = status
        self._close_callback = close_callback
        self.setWindowTitle(status.name)
        self.paused = False

        self.layout_vertical = QVBoxLayout(self)

        self.disp = QTextEdit(self)
        self.snapshot = QPushButton("StatusSnapshot")

        self.timeline_pane = TimelinePane(self)
        self.timeline_pane.set_timeline_data(Util.SECONDS_TIMELINE,
                                             self.get_color_for_value,
                                             self.on_pause)

        self.layout_vertical.addWidget(self.disp, 1)
        self.layout_vertical.addWidget(self.timeline_pane, 0)
        self.layout_vertical.addWidget(self.snapshot)

        self.snaps = []
        self.snapshot.clicked.connect(self._take_snapshot)

        self._sig_write.connect(self._write_key_val)
        self._sig_newline.connect(lambda: self.disp.insertPlainText('\n'))
        self._sig_clear.connect(lambda: self.disp.clear())
        self._sig_close_window.connect(self._close_callback)

        self.setLayout(self.layout_vertical)
        # TODO better to be configurable where to appear.
        self.setGeometry(0, 0, 400, 600)
        self.show()
        self.update_status_display(status)
Ejemplo n.º 2
0
	def createEditor(self, parent, option, index):        
		editor = QTextEdit(parent)
		highlight = syntax.PythonHighlighter(editor.document())

		font = QFont("Courier")
		font.setFamily("Courier");
		font.setStyleHint(QFont.Monospace);
		font.setFixedPitch(True);
		font.setPointSize(10);
		editor.setFont(font)

		tab_stop = 4;  # 4 characters
		metrics = QFontMetrics(font)
		editor.setTabStopWidth(tab_stop * metrics.width(' '));

		return editor
Ejemplo n.º 3
0
    def __init__(self, title, jsp, num_rows=0):
        super(JointStatePublisherGui, self).__init__()
        font = QFont("Helvetica", 9, QFont.Bold)
        self.hlayout = QHBoxLayout(self)
        vlayout = QVBoxLayout()
        glayout = QGridLayout()
        right_l_lauout = QVBoxLayout()
        self.listVeiw = QListWidget()
        self.checkbox = []
        self.value_line_edit = []
        self.sliders = []
        self.positions = []
        self.progressbars = []

        self.value_last = []

        speed_max = enviromnt_conf['joint_speed']
        slider_max = speed_max * 1000

        position_max = enviromnt_conf['joint_max_position']
        progress_max = position_max * 1000

        #create joints widget
        for i in range(0, num_rows):
            if config[i][0]:
                g_in_g = QGridLayout()
                checkbox = QCheckBox(config[i][1])
                checkbox.setFont(font)

                self.checkbox.append(checkbox)

                value_line_edit = QLineEdit()
                value_line_edit.setFont(font)
                value_line_edit.setText("0.0")

                self.value_line_edit.append(value_line_edit)

                display_lable = QLabel()
                display_lable.setFont(font)
                display_lable.setText("Position:")

                position_label = QLabel()
                position_label.setFont(font)
                position_label.setText("0.0")

                self.positions.append(position_label)

                position_progress_bar = QProgressBar()
                position_progress_bar.setMaximum(progress_max)
                position_progress_bar.setMinimum(-progress_max)
                position_progress_bar.setValue(0)

                self.progressbars.append(position_progress_bar)

                slider = QSlider()
                slider.setMaximum(slider_max)
                slider.setMinimum(-slider_max)
                slider.setOrientation(Qt.Horizontal)
                slider.valueChanged.connect(self.slider_value_changed)
                self.sliders.append(slider)

                g_in_g.addWidget(checkbox, 0, 0)
                g_in_g.addWidget(value_line_edit, 0, 1)
                g_in_g.addWidget(display_lable, 0, 2)
                g_in_g.addWidget(position_label, 0, 3)
                g_in_g.addWidget(slider, 1, 0, 1, 2)
                g_in_g.addWidget(position_progress_bar, 1, 2, 1, 2)

                glayout.addLayout(g_in_g, i, 0)

        #create v layout
        self.import_Btn = QPushButton('Import')
        self.import_Btn.setFont(font)
        self.import_Btn.clicked.connect(self.import_Btn_clecked)

        self.export_Btn = QPushButton('Export')
        self.export_Btn.setFont(font)
        self.export_Btn.clicked.connect(self.export_Btn_clicked)

        self.start_Btn = QPushButton("Start")
        self.start_Btn.setFont(font)
        self.start_Btn.clicked.connect(self.start_Btn_clicked)

        self.reset_Btn = QPushButton('Reset')
        self.reset_Btn.setFont(font)
        self.reset_Btn.clicked.connect(self.reset_Btn_clicked)

        self.record_Btn = QPushButton('Record')
        self.record_Btn.setFont(font)
        self.record_Btn.clicked.connect(self.record_Btn_clicked)

        self.replay_Btn = QPushButton('Repaly')
        self.replay_Btn.setFont(font)
        self.replay_Btn.clicked.connect(self.replay_Btn_clicked)

        self.delete_Btn = QPushButton("Delete")
        self.delete_Btn.setFont(font)
        self.delete_Btn.clicked.connect(self.delete_Btn_clicked)

        self.debug_Btn = QPushButton("Debug")
        self.debug_Btn.setFont(font)
        self.debug_Btn.clicked.connect(self.debug_Btn_clicked)

        vlayout.addWidget(self.import_Btn)
        vlayout.addWidget(self.export_Btn)
        vlayout.addWidget(self.start_Btn)
        vlayout.addWidget(self.reset_Btn)
        vlayout.addWidget(self.record_Btn)
        vlayout.addWidget(self.delete_Btn)
        vlayout.addWidget(self.replay_Btn)
        vlayout.addWidget(self.debug_Btn)

        self.master_url = QLineEdit("http://192.168.0.91:11311")
        self.master_url.setFont(font)

        self.master_ip = QLineEdit("192.168.0.91")
        self.master_ip.setFont(font)

        self.listVeiw.clicked.connect(self.listVeiw_clicked)
        self.listVeiw.currentRowChanged.connect(
            self.listVeiw_itemSelectionChanged)

        self.description = QTextEdit("")
        self.description.setFont(font)

        #self.description.setGeometry(0,100,100,500)

        right_l_lauout.addWidget(self.master_url)
        right_l_lauout.addWidget(self.master_ip)
        right_l_lauout.addWidget(self.listVeiw)
        right_l_lauout.addWidget(self.description)

        right_l_lauout.setStretch(0, 1)
        right_l_lauout.setStretch(1, 1)
        right_l_lauout.setStretch(2, 3)
        right_l_lauout.setStretch(3, 1)

        self.num_rows = len(self.checkbox)
        self.hlayout.addLayout(glayout)
        self.hlayout.addLayout(vlayout)
        self.hlayout.addLayout(right_l_lauout)
        self.setLayout(self.hlayout)

        self.callback_start = None
        self.callback_pause = None
        self.callback_record = None
        self.callback_reset = None
        self.callback_replay = None
        self.callback_replay_stop = None
        self.callback_delete = None
        self.callback_debug = None
        self.callback_import = None
        self.callback_export = None
        self.callback_list_clicked = None

        self.listVeiw_isClicked = False
        self.listVeiw_current_item = 0
        self.listVeiw_len = 0
        self.f = QFileDialog()
Ejemplo n.º 4
0
class JointStatePublisherGui(QWidget):
    def __init__(self, title, jsp, num_rows=0):
        super(JointStatePublisherGui, self).__init__()
        font = QFont("Helvetica", 9, QFont.Bold)
        self.hlayout = QHBoxLayout(self)
        vlayout = QVBoxLayout()
        glayout = QGridLayout()
        right_l_lauout = QVBoxLayout()
        self.listVeiw = QListWidget()
        self.checkbox = []
        self.value_line_edit = []
        self.sliders = []
        self.positions = []
        self.progressbars = []

        self.value_last = []

        speed_max = enviromnt_conf['joint_speed']
        slider_max = speed_max * 1000

        position_max = enviromnt_conf['joint_max_position']
        progress_max = position_max * 1000

        #create joints widget
        for i in range(0, num_rows):
            if config[i][0]:
                g_in_g = QGridLayout()
                checkbox = QCheckBox(config[i][1])
                checkbox.setFont(font)

                self.checkbox.append(checkbox)

                value_line_edit = QLineEdit()
                value_line_edit.setFont(font)
                value_line_edit.setText("0.0")

                self.value_line_edit.append(value_line_edit)

                display_lable = QLabel()
                display_lable.setFont(font)
                display_lable.setText("Position:")

                position_label = QLabel()
                position_label.setFont(font)
                position_label.setText("0.0")

                self.positions.append(position_label)

                position_progress_bar = QProgressBar()
                position_progress_bar.setMaximum(progress_max)
                position_progress_bar.setMinimum(-progress_max)
                position_progress_bar.setValue(0)

                self.progressbars.append(position_progress_bar)

                slider = QSlider()
                slider.setMaximum(slider_max)
                slider.setMinimum(-slider_max)
                slider.setOrientation(Qt.Horizontal)
                slider.valueChanged.connect(self.slider_value_changed)
                self.sliders.append(slider)

                g_in_g.addWidget(checkbox, 0, 0)
                g_in_g.addWidget(value_line_edit, 0, 1)
                g_in_g.addWidget(display_lable, 0, 2)
                g_in_g.addWidget(position_label, 0, 3)
                g_in_g.addWidget(slider, 1, 0, 1, 2)
                g_in_g.addWidget(position_progress_bar, 1, 2, 1, 2)

                glayout.addLayout(g_in_g, i, 0)

        #create v layout
        self.import_Btn = QPushButton('Import')
        self.import_Btn.setFont(font)
        self.import_Btn.clicked.connect(self.import_Btn_clecked)

        self.export_Btn = QPushButton('Export')
        self.export_Btn.setFont(font)
        self.export_Btn.clicked.connect(self.export_Btn_clicked)

        self.start_Btn = QPushButton("Start")
        self.start_Btn.setFont(font)
        self.start_Btn.clicked.connect(self.start_Btn_clicked)

        self.reset_Btn = QPushButton('Reset')
        self.reset_Btn.setFont(font)
        self.reset_Btn.clicked.connect(self.reset_Btn_clicked)

        self.record_Btn = QPushButton('Record')
        self.record_Btn.setFont(font)
        self.record_Btn.clicked.connect(self.record_Btn_clicked)

        self.replay_Btn = QPushButton('Repaly')
        self.replay_Btn.setFont(font)
        self.replay_Btn.clicked.connect(self.replay_Btn_clicked)

        self.delete_Btn = QPushButton("Delete")
        self.delete_Btn.setFont(font)
        self.delete_Btn.clicked.connect(self.delete_Btn_clicked)

        self.debug_Btn = QPushButton("Debug")
        self.debug_Btn.setFont(font)
        self.debug_Btn.clicked.connect(self.debug_Btn_clicked)

        vlayout.addWidget(self.import_Btn)
        vlayout.addWidget(self.export_Btn)
        vlayout.addWidget(self.start_Btn)
        vlayout.addWidget(self.reset_Btn)
        vlayout.addWidget(self.record_Btn)
        vlayout.addWidget(self.delete_Btn)
        vlayout.addWidget(self.replay_Btn)
        vlayout.addWidget(self.debug_Btn)

        self.master_url = QLineEdit("http://192.168.0.91:11311")
        self.master_url.setFont(font)

        self.master_ip = QLineEdit("192.168.0.91")
        self.master_ip.setFont(font)

        self.listVeiw.clicked.connect(self.listVeiw_clicked)
        self.listVeiw.currentRowChanged.connect(
            self.listVeiw_itemSelectionChanged)

        self.description = QTextEdit("")
        self.description.setFont(font)

        #self.description.setGeometry(0,100,100,500)

        right_l_lauout.addWidget(self.master_url)
        right_l_lauout.addWidget(self.master_ip)
        right_l_lauout.addWidget(self.listVeiw)
        right_l_lauout.addWidget(self.description)

        right_l_lauout.setStretch(0, 1)
        right_l_lauout.setStretch(1, 1)
        right_l_lauout.setStretch(2, 3)
        right_l_lauout.setStretch(3, 1)

        self.num_rows = len(self.checkbox)
        self.hlayout.addLayout(glayout)
        self.hlayout.addLayout(vlayout)
        self.hlayout.addLayout(right_l_lauout)
        self.setLayout(self.hlayout)

        self.callback_start = None
        self.callback_pause = None
        self.callback_record = None
        self.callback_reset = None
        self.callback_replay = None
        self.callback_replay_stop = None
        self.callback_delete = None
        self.callback_debug = None
        self.callback_import = None
        self.callback_export = None
        self.callback_list_clicked = None

        self.listVeiw_isClicked = False
        self.listVeiw_current_item = 0
        self.listVeiw_len = 0
        self.f = QFileDialog()

    def who_data_changed(self):
        for i in range(0, self.num_rows):
            value_last = self.value_line_edit[i].text()
            value_last = float(value_last) * 1000
            value = self.sliders[i].value()
            if value != value_last:
                return i

    def change_line_edit(self, change_index):
        value = self.sliders[change_index].value()
        value = float(value) / 1000
        value = str(value)
        self.value_line_edit[change_index].setText(value)

    def change_position_edit(self, change_index):
        value = self.progressbars[change_index].value()
        value += self.sliders[change_index].value()
        self.progressbars[change_index].setValue(value)

        self.positions[change_index].setText(str(float(value) / 1000))

    def reset_speed(self, change_index):
        self.sliders[change_index].setValue(0)

    def reset_speed_all(self):
        for i in range(0, self.num_rows):
            self.reset_speed(i)

    def set_speed(self, index, data):
        self.sliders[index].setValue(data)

    def import_Btn_clecked(self):
        self.file_path = self.f.getOpenFileName(caption='Import excel data',
                                                directory='',
                                                filter='*.xlsx',
                                                initialFilter='')
        self.file_path = self.file_path[0]
        if self.callback_import:
            self.callback_import()
        pass

    def export_Btn_clicked(self):
        self.file_path = self.f.getSaveFileName(caption='Save as excel data',
                                                directory='',
                                                filter='*.xlsx',
                                                initialFilter='')
        self.file_path = self.file_path[0]
        if self.callback_export:
            self.callback_export()
        pass

    def set_callback_start(self, func):
        self.callback_start = func

    def start_Btn_clicked(self):
        if self.start_Btn.text() == "Start":
            if self.callback_start:
                self.callback_start()
            self.start_Btn.setText("Pause")
        else:
            if self.callback_pause:
                self.callback_pause()
            self.start_Btn.setText("Start")

    def reset_Btn_clicked(self):
        self.reset_speed_all()
        self.reset_postion_all()

        if self.callback_reset:
            self.callback_reset()

    def replay_Btn_clicked(self):
        if self.replay_Btn.text() == "Replay":
            self.replay_Btn.setText("Stop")
            if self.callback_replay:
                self.callback_replay()
        else:
            self.replay_Btn.setText("Replay")
            if self.callback_replay_stop:
                self.callback_replay_stop()

    def debug_Btn_clicked(self):
        if self.callback_debug:
            self.callback_debug()

    def record_Btn_clicked(self):
        self.set_postion()
        self.listVeiw_len += 1
        if self.callback_record:
            self.callback_record()
        self.reset_speed_all()

    def listVeiw_itemSelectionChanged(self, index):
        self.listVeiw_isClicked = True
        self.listVeiw_current_item = index
        if self.callback_list_clicked:
            self.callback_list_clicked()

    def listVeiw_clicked(self, index):
        #print "index", index.row()
        if self.listVeiw_current_item != index.row():
            description_text = self.description.toPlainText()
            #self.listVeiw.item(self.listVeiw_current_item).setData(1,"123")
            #print self.listVeiw.item(self.listVeiw_current_item).data
        self.listVeiw_isClicked = True
        self.listVeiw_current_item = index.row()
        if self.callback_list_clicked:
            self.callback_list_clicked()

    def update_listView(self):
        print "update", self.listVeiw_len
        for i in range(0, self.listVeiw_len):
            view = self.listVeiw.item(i)
            view.setText(str(i))

    def get_listVeiw_current_item(self):
        return self.listVeiw_current_item

    def delete_Btn_clicked(self):
        if self.listVeiw_isClicked:
            print self.listVeiw_current_item
            self.listVeiw.removeItemWidget(
                self.listVeiw.takeItem(self.listVeiw_current_item))
            self.listVeiw_len -= 1
            if self.listVeiw_current_item != self.listVeiw_len:
                self.update_listView()
            if self.callback_delete:
                self.callback_delete()
            if self.listVeiw_current_item == 0:
                self.listVeiw_current_item = 0
            else:
                self.listVeiw_current_item -= 1

            self.listVeiw.setCurrentRow(self.listVeiw_current_item)
            if self.listVeiw_len == 0:
                self.listVeiw_isClicked = False

    def listView_add_item(self, index):
        self.listVeiw.addItem(str(index))

    def listView_inset_item(self, index, label):
        self.listVeiw.insertItem(index, str(label))

    def slider_value_changed(self, data):
        change_index = self.who_data_changed()
        self.change_line_edit(change_index)

    def get_speed(self):
        speed = []
        for i in range(0, self.num_rows):
            value = self.sliders[i].value()
            value = float(value) / 1000
            speed.append(value)
        return speed

    def get_position(self):
        position = []
        for i in range(0, self.num_rows):
            value = self.progressbars[i].value()
            value += self.sliders[i].value()
            value = float(value) / 1000
            position.append(value)
        return position

    def set_postion(self):
        for i in range(0, self.num_rows):
            self.change_position_edit(i)

    def set_positions(self, data):
        print len(data)
        for i in range(0, len(data)):
            self.progressbars[i].setValue(data[i] * 1000)
            self.positions[i].setText(str(data[i]))

    def reset_position(self, change_index):
        value = 0
        self.progressbars[change_index].setValue(value)

        self.positions[change_index].setText(str(float(value) / 1000))

    def reset_postion_all(self):
        for i in range(0, self.num_rows):
            self.reset_position(i)
Ejemplo n.º 5
0
    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()
Ejemplo n.º 6
0
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
Ejemplo n.º 7
0
    def __init__(self, context):
        """
        Create Qt GUI using the event file
        """
        super(EventTransmissionGUI, self).__init__(context)
        self.setObjectName('ManualEventTriggerGUI')
        parser = ArgumentParser()

        # Add argument(s) to the parser.
        args = self._parse_args(context.argv())

        ## Create Event trigger
        self.event_trigger = RosEventTrigger(args.event_file)

        ## Parent container to store buttons, textboxes
        self._container = QTabWidget()
        ## Tab to display robot system, state machine status
        ## and command buttons without any arguments
        self._status_tab = QWidget()
        ## Tab to display positionyaw and velocityyaw commands
        ## and sliders for them
        self._additional_commands_tab = QWidget()
        # Set title of the parent container window
        self._status_tab.setWindowTitle(self.event_trigger.event_manager_name)
        ## Layout for status tab
        self._layout = QVBoxLayout()
        self._status_tab.setLayout(self._layout)

        # Create Textboxes and add to Layout
        self._layout.addWidget(QLabel('State Machine State'))
        ## Textbox to show sytem status
        self.system_status_textbox = QTextEdit()
        self.system_status_textbox.setReadOnly(True)
        self._layout.addWidget(self.system_status_textbox)

        # Define and connect buttons
        self._layout.addWidget(QLabel('Event Triggers'))
        ## Continer to store event triggering buttons
        self.button_container = QWidget()
        ## List of push buttons to trigger events
        self.push_buttons = list()
        ## Layout for the push buttons
        self.button_layout = QGridLayout()
        self.button_container.setLayout(self.button_layout)
        button_index = 0
        for event_name in self.event_trigger.event_names_list:
            self.push_buttons.append(QPushButton(event_name))
            partial_fun = partial(self.event_trigger.triggerEvent,
                                  event_name=event_name)
            self.push_buttons[-1].clicked.connect(partial_fun)
            row, col = self.get_row_col(button_index, args.grid_cols)
            self.button_layout.addWidget(self.push_buttons[-1], row, col)
            button_index += 1
        self._layout.addWidget(self.button_container)

        ## Layout for additional commands tab
        self._additional_commands_layout = QVBoxLayout()
        self._additional_commands_tab.setLayout(
            self._additional_commands_layout)
        # Create height slider
        self._additional_commands_layout.addWidget(
            QLabel('Pose Command Height (m)'))
        ## Height slider to adjust z coordinate for pose command
        ## \todo Matt: Load slider settings from param file
        self.height_slider = self.createSlider(1.0, 20.0, 2.0, 1.0)
        self._additional_commands_layout.addWidget(self.height_slider)
        ## Add button for triggering pose command
        ## Container for pose event related objects: slide etc
        ## \todo Matt: Reset slider value based on current quad height
        self.pose_command_container = QWidget()
        ## Pose command layout
        self.pose_command_layout = QGridLayout()
        self.pose_command_container.setLayout(self.pose_command_layout)
        ## x pose label to display position command from rviz to user
        self.pose_x = QLabel('x: -')
        ## y pose label to display position command from rviz to user
        self.pose_y = QLabel('y: -')
        ## z pose label to display position command from rviz to user
        self.pose_z = QLabel("z: {0:.2f}".format(self.height_slider.value()))
        self.height_slider.valueChanged.connect(
            partial(self.updateLabel,
                    header="z",
                    label=self.pose_z,
                    slider=self.height_slider))
        self.pose_command_layout.addWidget(self.pose_x, 0, 0)
        self.pose_command_layout.addWidget(self.pose_y, 0, 1)
        self.pose_command_layout.addWidget(self.pose_z, 0, 2)
        ## Button to send the pose command to state machine as poseyaw event
        self.send_pose_command_button = QPushButton("Send Pose Command")
        self.send_pose_command_button.clicked.connect(
            self.poseCommandButtonCallback)
        self.pose_command_layout.addWidget(self.send_pose_command_button, 0, 3)
        self._additional_commands_layout.addWidget(self.pose_command_container)
        ## Pose command container to store pose from Rviz and send to state
        ## machine
        self.pose_command = None
        ## Sliders for setting vx,vy,vz, yaw
        self.velocity_sliders = []
        ## Labels vx,vy,vz,yaw as an array
        self.velocity_command_labels = []
        self._additional_commands_layout.addWidget(
            QLabel('Velocity Command (m/s), Yaw (deg)'))
        for i in range(3):
            self.velocity_sliders.append(
                self.createSlider(-20.0, 20.0, 0.0, 1.0))
            self._additional_commands_layout.addWidget(
                self.velocity_sliders[i])
        # Slider for yaw
        self.velocity_sliders.append(
            self.createSlider(-180.0, 180.0, 0.0, 10.0))
        self._additional_commands_layout.addWidget(self.velocity_sliders[-1])
        ## Add button for triggering velocity yaw
        self.velocity_command_container = QWidget()
        ## Velocity command layout
        self.velocity_command_layout = QGridLayout()
        self.velocity_command_container.setLayout(self.velocity_command_layout)
        for i, axis_label in enumerate(['x', 'y', 'z']):
            # label to display velocity command from rviz to user
            self.velocity_command_labels.append(
                QLabel("v{0}: {1:.2f}".format(
                    axis_label, self.velocity_sliders[i].value() / 10.0)))
            self.velocity_sliders[i].valueChanged.connect(
                partial(self.updateLabel,
                        header="v" + str(i),
                        label=self.velocity_command_labels[i],
                        slider=self.velocity_sliders[i],
                        scale=10.0))
            self.velocity_command_layout.addWidget(
                self.velocity_command_labels[i], 0, i)
        # Label for yaw
        self.velocity_command_labels.append(
            QLabel("Yaw: {0:.2f}".format(self.velocity_sliders[-1].value())))
        self.velocity_sliders[-1].valueChanged.connect(
            partial(self.updateLabel,
                    header="Yaw",
                    label=self.velocity_command_labels[-1],
                    slider=self.velocity_sliders[-1]))
        self.velocity_command_layout.addWidget(
            self.velocity_command_labels[-1], 0, 3)
        ## Button to send the pose command to state machine as poseyaw event
        self.send_velocity_command_button = QPushButton(
            "Send Velocity Command")
        self.send_velocity_command_button.clicked.connect(
            self.velocityCommandButtonCallback)
        self.velocity_command_layout.addWidget(
            self.send_velocity_command_button, 0, 4)
        self._additional_commands_layout.addWidget(
            self.velocity_command_container)
        self._additional_commands_layout.addStretch()

        self._container.addTab(self._status_tab, "StatusBasicCommands")
        self._container.addTab(self._additional_commands_tab,
                               "AdditionalCommands")
        context.add_widget(self._container)

        # Add textboxes to update hooks from eventTrigger class
        # Define Partial callbacks
        systemStatusCallback = partial(self.updateStatus,
                                       text_box=self.system_status_textbox)
        # Connect Event Triggers
        self.event_trigger.status_signal.connect(systemStatusCallback)
        self.event_trigger.pose_command_signal.connect(
            self.poseCommandCallback)
Ejemplo n.º 8
0
class EventTransmissionGUI(Plugin):
    """
    GUI to send events from User to logic state machine
    """
    def __init__(self, context):
        """
        Create Qt GUI using the event file
        """
        super(EventTransmissionGUI, self).__init__(context)
        self.setObjectName('ManualEventTriggerGUI')
        parser = ArgumentParser()

        # Add argument(s) to the parser.
        args = self._parse_args(context.argv())

        ## Create Event trigger
        self.event_trigger = RosEventTrigger(args.event_file)

        ## Parent container to store buttons, textboxes
        self._container = QTabWidget()
        ## Tab to display robot system, state machine status
        ## and command buttons without any arguments
        self._status_tab = QWidget()
        ## Tab to display positionyaw and velocityyaw commands
        ## and sliders for them
        self._additional_commands_tab = QWidget()
        # Set title of the parent container window
        self._status_tab.setWindowTitle(self.event_trigger.event_manager_name)
        ## Layout for status tab
        self._layout = QVBoxLayout()
        self._status_tab.setLayout(self._layout)

        # Create Textboxes and add to Layout
        self._layout.addWidget(QLabel('State Machine State'))
        ## Textbox to show sytem status
        self.system_status_textbox = QTextEdit()
        self.system_status_textbox.setReadOnly(True)
        self._layout.addWidget(self.system_status_textbox)

        # Define and connect buttons
        self._layout.addWidget(QLabel('Event Triggers'))
        ## Continer to store event triggering buttons
        self.button_container = QWidget()
        ## List of push buttons to trigger events
        self.push_buttons = list()
        ## Layout for the push buttons
        self.button_layout = QGridLayout()
        self.button_container.setLayout(self.button_layout)
        button_index = 0
        for event_name in self.event_trigger.event_names_list:
            self.push_buttons.append(QPushButton(event_name))
            partial_fun = partial(self.event_trigger.triggerEvent,
                                  event_name=event_name)
            self.push_buttons[-1].clicked.connect(partial_fun)
            row, col = self.get_row_col(button_index, args.grid_cols)
            self.button_layout.addWidget(self.push_buttons[-1], row, col)
            button_index += 1
        self._layout.addWidget(self.button_container)

        ## Layout for additional commands tab
        self._additional_commands_layout = QVBoxLayout()
        self._additional_commands_tab.setLayout(
            self._additional_commands_layout)
        # Create height slider
        self._additional_commands_layout.addWidget(
            QLabel('Pose Command Height (m)'))
        ## Height slider to adjust z coordinate for pose command
        ## \todo Matt: Load slider settings from param file
        self.height_slider = self.createSlider(1.0, 20.0, 2.0, 1.0)
        self._additional_commands_layout.addWidget(self.height_slider)
        ## Add button for triggering pose command
        ## Container for pose event related objects: slide etc
        ## \todo Matt: Reset slider value based on current quad height
        self.pose_command_container = QWidget()
        ## Pose command layout
        self.pose_command_layout = QGridLayout()
        self.pose_command_container.setLayout(self.pose_command_layout)
        ## x pose label to display position command from rviz to user
        self.pose_x = QLabel('x: -')
        ## y pose label to display position command from rviz to user
        self.pose_y = QLabel('y: -')
        ## z pose label to display position command from rviz to user
        self.pose_z = QLabel("z: {0:.2f}".format(self.height_slider.value()))
        self.height_slider.valueChanged.connect(
            partial(self.updateLabel,
                    header="z",
                    label=self.pose_z,
                    slider=self.height_slider))
        self.pose_command_layout.addWidget(self.pose_x, 0, 0)
        self.pose_command_layout.addWidget(self.pose_y, 0, 1)
        self.pose_command_layout.addWidget(self.pose_z, 0, 2)
        ## Button to send the pose command to state machine as poseyaw event
        self.send_pose_command_button = QPushButton("Send Pose Command")
        self.send_pose_command_button.clicked.connect(
            self.poseCommandButtonCallback)
        self.pose_command_layout.addWidget(self.send_pose_command_button, 0, 3)
        self._additional_commands_layout.addWidget(self.pose_command_container)
        ## Pose command container to store pose from Rviz and send to state
        ## machine
        self.pose_command = None
        ## Sliders for setting vx,vy,vz, yaw
        self.velocity_sliders = []
        ## Labels vx,vy,vz,yaw as an array
        self.velocity_command_labels = []
        self._additional_commands_layout.addWidget(
            QLabel('Velocity Command (m/s), Yaw (deg)'))
        for i in range(3):
            self.velocity_sliders.append(
                self.createSlider(-20.0, 20.0, 0.0, 1.0))
            self._additional_commands_layout.addWidget(
                self.velocity_sliders[i])
        # Slider for yaw
        self.velocity_sliders.append(
            self.createSlider(-180.0, 180.0, 0.0, 10.0))
        self._additional_commands_layout.addWidget(self.velocity_sliders[-1])
        ## Add button for triggering velocity yaw
        self.velocity_command_container = QWidget()
        ## Velocity command layout
        self.velocity_command_layout = QGridLayout()
        self.velocity_command_container.setLayout(self.velocity_command_layout)
        for i, axis_label in enumerate(['x', 'y', 'z']):
            # label to display velocity command from rviz to user
            self.velocity_command_labels.append(
                QLabel("v{0}: {1:.2f}".format(
                    axis_label, self.velocity_sliders[i].value() / 10.0)))
            self.velocity_sliders[i].valueChanged.connect(
                partial(self.updateLabel,
                        header="v" + str(i),
                        label=self.velocity_command_labels[i],
                        slider=self.velocity_sliders[i],
                        scale=10.0))
            self.velocity_command_layout.addWidget(
                self.velocity_command_labels[i], 0, i)
        # Label for yaw
        self.velocity_command_labels.append(
            QLabel("Yaw: {0:.2f}".format(self.velocity_sliders[-1].value())))
        self.velocity_sliders[-1].valueChanged.connect(
            partial(self.updateLabel,
                    header="Yaw",
                    label=self.velocity_command_labels[-1],
                    slider=self.velocity_sliders[-1]))
        self.velocity_command_layout.addWidget(
            self.velocity_command_labels[-1], 0, 3)
        ## Button to send the pose command to state machine as poseyaw event
        self.send_velocity_command_button = QPushButton(
            "Send Velocity Command")
        self.send_velocity_command_button.clicked.connect(
            self.velocityCommandButtonCallback)
        self.velocity_command_layout.addWidget(
            self.send_velocity_command_button, 0, 4)
        self._additional_commands_layout.addWidget(
            self.velocity_command_container)
        self._additional_commands_layout.addStretch()

        self._container.addTab(self._status_tab, "StatusBasicCommands")
        self._container.addTab(self._additional_commands_tab,
                               "AdditionalCommands")
        context.add_widget(self._container)

        # Add textboxes to update hooks from eventTrigger class
        # Define Partial callbacks
        systemStatusCallback = partial(self.updateStatus,
                                       text_box=self.system_status_textbox)
        # Connect Event Triggers
        self.event_trigger.status_signal.connect(systemStatusCallback)
        self.event_trigger.pose_command_signal.connect(
            self.poseCommandCallback)

    def createSlider(self, minimum, maximum, default_value, tick_interval):
        """
        Create a QtSlider with specified properties

        Parameters:
        @param minimum Minimum value for slider
        @param maximum Maximum value for slider
        @param default_value Initial value the slider is set to
        @param tick_inverval Integer value specifying difference between
                        successive ticks
        @return Slider value
        """
        slider = QSlider(Qt.Horizontal)
        slider.setMinimum(minimum)
        slider.setMaximum(maximum)
        slider.setValue(default_value)
        slider.setTickPosition(QSlider.TicksBelow)
        slider.setTickInterval(tick_interval)
        return slider

    def _parse_args(self, argv):
        """
        Parse extra arguments when plugin is deployed in standalone mode
        """
        parser = argparse.ArgumentParser(prog='aerial_autonomy',
                                         add_help=False)
        EventTransmissionGUI.add_arguments(parser)
        return parser.parse_args(argv)

    @staticmethod
    def add_arguments(parser):
        """
        Notify rqt_gui that this plugin can parse these extra arguments
        """
        group = parser.add_argument_group(
            'Options for aerial autonomy gui plugin')
        group.add_argument("-e",
                           "--event_file",
                           type=str,
                           default='',
                           help="Event file")
        group.add_argument("-c",
                           "--grid_cols",
                           type=int,
                           default=3,
                           help="Number of columns in grid")

    def get_row_col(self, button_index, ncols):
        """
        Automatically find the row and col to add the button
        to in a grid based on index of the button
        """
        col_index = button_index % ncols
        row_index = int((button_index - col_index) / ncols)
        return (row_index, col_index)

    def poseCommandCallback(self, pose):
        """
        Saves pose command and updates command display
        """
        self.pose_command = pose
        self.pose_x.setText("x: {0:.2f}".format(
            self.pose_command.pose.position.x))
        self.pose_y.setText("y: {0:.2f}".format(
            self.pose_command.pose.position.y))

    def poseCommandButtonCallback(self):
        """
        Publishes stored pose command after setting height from slider
        """
        if self.pose_command:
            self.pose_command.pose.position.z = self.height_slider.value()
            self.event_trigger.triggerPoseCommand(self.pose_command)
            # Reset pose command to avoid accidental triggering
            self.pose_command = None
            self.pose_x.setText('x: -')
            self.pose_y.setText('y: -')
        else:
            print "No pose command to trigger"

    def velocityCommandButtonCallback(self):
        """
        Publishes stored velocity command
        """
        velocity_command = VelocityYaw()
        velocity_command.vx = self.velocity_sliders[0].value() / 10.0
        velocity_command.vy = self.velocity_sliders[1].value() / 10.0
        velocity_command.vz = self.velocity_sliders[2].value() / 10.0
        velocity_command.yaw = self.velocity_sliders[3].value() * np.pi / 180.0
        self.event_trigger.triggerVelocityCommand(velocity_command)

    def updateLabel(self, header, label, slider, scale=1):
        """
        Updates height label based on slider value
        """
        label.setText(header + ": {0:.2f}".format(slider.value() / scale))

    def updateStatus(self, status, text_box):
        """
        Generic placeholder function to update text box
        """
        if not sip.isdeleted(text_box):
            text_box.setHtml(status)
            doc_size = text_box.document().size()
            text_box.setFixedHeight(doc_size.height() + 10)
Ejemplo n.º 9
0
class InspectorWindow(AbstractStatusWidget):
    _sig_write = Signal(str, str)
    _sig_newline = Signal()
    _sig_close_window = Signal()
    _sig_clear = Signal()

    def __init__(self, status, close_callback):
        """
        :type status: DiagnosticStatus
        :param close_callback: When the instance of this class
                               (InspectorWindow) terminates, this callback gets
                               called.
        """
        #TODO(Isaac) UI construction that currently is done in this method,
        #            needs to be done in .ui file.

        super(InspectorWindow, self).__init__()
        self.status = status
        self._close_callback = close_callback
        self.setWindowTitle(status.name)
        self.paused = False

        self.layout_vertical = QVBoxLayout(self)

        self.disp = QTextEdit(self)
        self.snapshot = QPushButton("StatusSnapshot")

        self.timeline_pane = TimelinePane(self)
        self.timeline_pane.set_timeline_data(Util.SECONDS_TIMELINE,
                                             self.get_color_for_value,
                                             self.on_pause)

        self.layout_vertical.addWidget(self.disp, 1)
        self.layout_vertical.addWidget(self.timeline_pane, 0)
        self.layout_vertical.addWidget(self.snapshot)

        self.snaps = []
        self.snapshot.clicked.connect(self._take_snapshot)

        self._sig_write.connect(self._write_key_val)
        self._sig_newline.connect(lambda: self.disp.insertPlainText('\n'))
        self._sig_clear.connect(lambda: self.disp.clear())
        self._sig_close_window.connect(self._close_callback)

        self.setLayout(self.layout_vertical)
        # TODO better to be configurable where to appear.
        self.setGeometry(0, 0, 400, 600)
        self.show()
        self.update_status_display(status)

    def closeEvent(self, event):
        # emit signal that should be slotted by StatusItem
        self._sig_close_window.emit()
        self.close()

    def _write_key_val(self, k, v):
        self.disp.setFontWeight(75)
        self.disp.insertPlainText(k)
        self.disp.insertPlainText(': ')

        self.disp.setFontWeight(50)
        self.disp.insertPlainText(v)
        self.disp.insertPlainText('\n')

    def pause(self, msg):
        rospy.logdebug('InspectorWin pause PAUSED')
        self.paused = True
        self.update_status_display(msg)

    def unpause(self, msg):
        rospy.logdebug('InspectorWin pause UN-PAUSED')
        self.paused = False

    def new_diagnostic(self, msg, is_forced=False):
        """
        Overridden from AbstractStatusWidget

        :type status: DiagnosticsStatus
        """

        if not self.paused:
            self.update_status_display(msg)
            rospy.logdebug('InspectorWin _cb len of queue=%d self.paused=%s',
                           len(self.timeline_pane._queue_diagnostic),
                           self.paused)
        else:
            if is_forced:
                self.update_status_display(msg, True)
                rospy.logdebug('@@@InspectorWin _cb PAUSED window updated')
            else:
                rospy.logdebug('@@@InspectorWin _cb PAUSED not updated')

    def update_status_display(self, status, is_forced=False):
        """
        :type status: DiagnosticsStatus
        """

        if not self.paused or (self.paused and is_forced):
            scroll_value = self.disp.verticalScrollBar().value()
            self.timeline_pane.new_diagnostic(status)

            rospy.logdebug('InspectorWin update_status_display 1')

            self.status = status
            self._sig_clear.emit()
            self._sig_write.emit("Full Name", status.name)
            self._sig_write.emit("Component", status.name.split('/')[-1])
            self._sig_write.emit("Hardware ID", status.hardware_id)
            self._sig_write.emit("Level", str(status.level))
            self._sig_write.emit("Message", status.message)
            self._sig_newline.emit()

            for v in status.values:
                self._sig_write.emit(v.key, v.value)
            if self.disp.verticalScrollBar().maximum() < scroll_value:
                scroll_value = self.disp.verticalScrollBar().maximum()
            self.disp.verticalScrollBar().setValue(scroll_value)

    def _take_snapshot(self):
        snap = StatusSnapshot(self.status)
        self.snaps.append(snap)

    def get_color_for_value(self, queue_diagnostic, color_index):
        """
        Overridden from AbstractStatusWidget.

        :type color_index: int
        """

        rospy.logdebug(
            'InspectorWindow get_color_for_value ' +
            'queue_diagnostic=%d, color_index=%d', len(queue_diagnostic),
            color_index)
        lv_index = queue_diagnostic[color_index - 1].level
        return Util.COLOR_DICT[lv_index]