Beispiel #1
0
class QualityDialog(QDialog):
    def __init__(self, bagFiles, parent=None):
        super(QualityDialog, self).__init__()
        self.parent = parent
        self.bagFiles = bagFiles
        self.setWindowTitle("Data Quality")

        ## Widgets:
        self.spinBox = QDoubleSpinBox()
        self.spinBox.setDecimals(2)
        self.spinBox.setMaximum(1.0)
        self.spinBox.setSingleStep(0.1)
        self.spinBox.setValue(0.5)

        self.fppiLbl = QLabel("FPPI = ")

        self.motaLbl = QLabel("MOTA = ")

        self.motpLbl = QLabel("MOTP = ")

        self.recalcBtn = QPushButton("Recalculate Quality")
        self.recalcBtn.clicked.connect(self.calculate)

        ## Layout:
        layout = QVBoxLayout()
        layout.addWidget(self.spinBox)
        layout.addWidget(self.fppiLbl)
        layout.addWidget(self.motaLbl)
        layout.addWidget(self.motpLbl)
        layout.addWidget(self.recalcBtn)

        self.setLayout(layout)

        self.resize(300, 200)

        # calculate the data quality:
        self.calculate()

    def calculate(self):

        if self.bagFiles[0] == "" or self.bagFiles[1] == "":
            message_module.showMessage(
                "Bag file missing! Please import bag file in the main interface."
            )
            return

        threshold = self.spinBox.value()

        fppi = Rosbag_Analysis.getFPPI(self.bagFiles[0], self.bagFiles[1],
                                       threshold)
        self.fppiLbl.setText("FPPI = " + str(fppi))

        mota = Rosbag_Analysis.getMOTA(self.bagFiles[0], self.bagFiles[1],
                                       threshold)
        self.motaLbl.setText("MOTA = " + str(mota))

        motp = Rosbag_Analysis.getMOTP(self.bagFiles[0], self.bagFiles[1],
                                       threshold)
        self.motpLbl.setText("MOTP = " + str(motp))
 def __init__(self, parent=None):
     super(ThresholdSetter, self).__init__()
     self.parent = parent
     self.setTitle('Select IoU Threshold ')
     self.layout = QVBoxLayout()
     self.spinBox = QDoubleSpinBox()
     self.spinBox.setDecimals(2)
     self.spinBox.setMaximum(1.0)
     self.spinBox.setSingleStep(0.1)
     self.spinBox.setValue(0.5)
     self.layout.addWidget(self.spinBox)
     self.setLayout(self.layout)
Beispiel #3
0
    def __init__(self, bagFiles, parent=None):
        super(QualityDialog, self).__init__()
        self.parent = parent
        self.bagFiles = bagFiles
        self.setWindowTitle("Data Quality")

        ## Widgets:
        self.spinBox = QDoubleSpinBox()
        self.spinBox.setDecimals(2)
        self.spinBox.setMaximum(1.0)
        self.spinBox.setSingleStep(0.1)
        self.spinBox.setValue(0.5)

        self.fppiLbl = QLabel("FPPI = ")

        self.motaLbl = QLabel("MOTA = ")

        self.motpLbl = QLabel("MOTP = ")

        self.recalcBtn = QPushButton("Recalculate Quality")
        self.recalcBtn.clicked.connect(self.calculate)

        ## Layout:
        layout = QVBoxLayout()
        layout.addWidget(self.spinBox)
        layout.addWidget(self.fppiLbl)
        layout.addWidget(self.motaLbl)
        layout.addWidget(self.motpLbl)
        layout.addWidget(self.recalcBtn)

        self.setLayout(layout)

        self.resize(300, 200)

        # calculate the data quality:
        self.calculate()
Beispiel #4
0
 def wdgt(label, value, trans):
     import math
     sb = QDoubleSpinBox()
     m = 1e3 if trans else math.pi
     sb.setRange(-m, m)
     sb.setDecimals(4)
     sb.setSingleStep(1e-3 if trans else .05)
     sb.setSuffix(" m" if trans else " rad")
     self.layout.addRow(label, sb)
     sb.setValue(value)
     sb.valueChanged.connect(self.valueChanged)
     return sb
Beispiel #5
0
 def createEditor(self, parent, option, index):
     editor = QDoubleSpinBox(parent)
     editor.setDecimals(self._decimals)
     editor.setMaximum(self._min)
     editor.setMaximum(self._max)
     return editor
    def init_sliders(self):
        sliderbox = self._widget.findChild(QLayout, 'Sliders')

        firstCol = QVBoxLayout()
        graph_button = QPushButton()
        graph_button.setCheckable(True)
        graph_button.setText("Graph Off")
        graph_button.toggle()
        graph_button.clicked.connect(self.set_graph_state)

        reset_button = QPushButton()
        reset_button.setCheckable(False)
        reset_button.setText("Reset")
        reset_button.clicked.connect(self.set_reset)

        self.graph_button = graph_button
        self.reset_button = reset_button

        firstCol.addWidget(graph_button)
        firstCol.addWidget(reset_button)

        firstCol.setAlignment(graph_button, Qt.AlignVCenter)
        firstCol.setAlignment(reset_button, Qt.AlignVCenter)

        zero_button = QPushButton()
        zero_button.setCheckable(False)
        zero_button.setText("Set All Zero")
        zero_button.clicked.connect(self.set_pressure_zero)
        self.zero_button = zero_button
        firstCol.addWidget(zero_button)
        firstCol.setAlignment(zero_button, Qt.AlignVCenter)

        transition_box = QVBoxLayout()
        label = QLabel()
        label.setAlignment(Qt.AlignCenter)
        label.setText("Transition Time")

        spinbox = QDoubleSpinBox()
        spinbox.setMinimum(0)
        spinbox.setMaximum(10)
        spinbox.setValue(self.settings['transitions'])
        spinbox.setDecimals(1)
        spinbox.setSingleStep(0.1)
        spinbox.setSuffix(" sec")

        spinbox.valueChanged.connect(self.set_transition_value)

        transition_box.addWidget(label)
        transition_box.addWidget(spinbox)
        transition_box.setAlignment(label, Qt.AlignBottom)
        transition_box.setAlignment(spinbox, Qt.AlignTop)
        firstCol.addLayout(transition_box)

        self.sliders = []
        sliderbox.addLayout(firstCol)

        all_rows_layout = QVBoxLayout()

        chan_idx = 0
        for num_channels_row in self.settings['num_channels']:
            row_layout = QHBoxLayout()
            for i in range(num_channels_row):
                idx = chan_idx * 1

                slider_group = {'slider': None, 'number': None, 'on_off': None}
                layout_cluster = QVBoxLayout()

                layout = QVBoxLayout()
                layout.setAlignment(Qt.AlignHCenter)

                slider = QSlider(Qt.Vertical)
                slider.setMinimum(self.settings['min_pressure'][idx] * 10.0)
                slider.setMaximum(self.settings['max_pressure'][idx] * 10.0)
                slider.setValue(0)
                slider.setTickPosition(QSlider.TicksRight)
                slider.setTickInterval(20)

                spinbox = QDoubleSpinBox()
                spinbox.setMinimum(self.settings['min_pressure'][idx])
                spinbox.setMaximum(self.settings['max_pressure'][idx])
                spinbox.setValue(0)
                spinbox.setDecimals(1)
                spinbox.setSingleStep(0.1)

                cb_function_curr = lambda value, idx=idx, slider=False: self.send_slider_value(
                    idx, value, slider)
                cb_function_curr2 = lambda value, idx=idx, slider=True: self.send_slider_value(
                    idx, value, slider)
                slider.valueChanged.connect(cb_function_curr2)
                spinbox.valueChanged.connect(cb_function_curr)

                labelmax = QLabel()
                labelmax.setAlignment(Qt.AlignCenter)
                labelmax.setText("%0.1f" %
                                 (self.settings['max_pressure'][idx]))

                labelmin = QLabel()
                labelmin.setAlignment(Qt.AlignCenter)
                labelmin.setText("%0.1f" %
                                 (self.settings['min_pressure'][idx]))

                layout.addWidget(labelmax)
                layout.addWidget(slider)
                layout.addWidget(labelmin)
                layout.addWidget(spinbox)

                layout.setAlignment(slider, Qt.AlignHCenter)
                layout.setAlignment(spinbox, Qt.AlignHCenter)

                label = QLabel()
                label.setText("Chan. %d" % (chan_idx + 1))
                label.setAlignment(Qt.AlignCenter)
                layout_cluster.addWidget(label)
                layout_cluster.addLayout(layout)

                slider_group['slider'] = slider
                slider_group['number'] = spinbox

                on_button = QPushButton()
                on_button.setCheckable(True)
                on_button.setText("Off")

                if self.settings['channel_states'][idx]:
                    on_button.toggle()
                    on_button.setText("On")

                on_button.clicked.connect(
                    lambda state, idx=idx: self.send_channel_state(idx, state))

                slider_group['on_off'] = on_button

                layout_cluster.addWidget(on_button)

                row_layout.addLayout(layout_cluster)
                row_layout.addSpacing(20)

                self.sliders.append(slider_group)

                chan_idx += 1

            all_rows_layout.addLayout(row_layout)

        sliderbox.addLayout(all_rows_layout)
 def createEditor(self, parent, option, index):
     editor = QDoubleSpinBox(parent)
     editor.setDecimals(self._decimals)
     editor.setMaximum(self._min)
     editor.setMaximum(self._max)
     return editor
Beispiel #8
0
    def init_sliders(self):
        sliderbox = self._widget.findChild(QLayout, 'Sliders')

        graph_button = QPushButton()
        graph_button.setCheckable(True)
        graph_button.setText("Graph Off")
        graph_button.toggle()
        graph_button.clicked.connect(self.set_graph_state)
        self.graph_button = graph_button

        firstCol = QVBoxLayout()
        firstCol.addWidget(graph_button)

        sliderbox.addLayout(firstCol)

        self.sliders = []

        all_rows_layout = QVBoxLayout()
        chan_idx = 0
        for num_channels_row in self.settings['num_channels']:
            row_layout = QHBoxLayout()
            for i in range(num_channels_row):
                idx = chan_idx * 1

                slider_group = {
                    'slider_p': None,
                    'number_p': None,
                    'slider_i': None,
                    'number_i': None,
                    'slider_d': None,
                    'number_d': None,
                    'on_off': None
                }

                layout_cluster = QVBoxLayout()
                slider_cluster = QHBoxLayout()
                label = QLabel()
                label.setText("Chan. %d" % (idx + 1))
                label.setAlignment(Qt.AlignCenter)
                layout_cluster.addWidget(label)
                for j in range(3):
                    layout = QVBoxLayout()
                    layout.setAlignment(Qt.AlignHCenter)

                    if j == 0:
                        maxrange = 1.0
                    elif j == 1:
                        maxrange = 10
                    elif j == 2:
                        maxrange = 10

                    slider = QSlider(Qt.Vertical)
                    slider.setMinimum(0)
                    slider.setMaximum(maxrange * 100)
                    slider.setValue(self.settings['pid_gains'][chan_idx][j] *
                                    100)
                    slider.setTickPosition(QSlider.TicksRight)
                    slider.setTickInterval(maxrange / 100.0)

                    spinbox = QDoubleSpinBox()
                    spinbox.setMinimum(0)
                    spinbox.setMaximum(maxrange)
                    spinbox.setValue(self.settings['pid_gains'][chan_idx][j])
                    spinbox.setDecimals(2)
                    spinbox.setSingleStep(maxrange / 100.0)

                    cb_function_number = lambda value, idx=idx, gain_idx=j, slider=False: self.send_slider_value(
                        idx, gain_idx, value, slider)
                    cb_function_slider = lambda value, idx=idx, gain_idx=j, slider=True: self.send_slider_value(
                        idx, gain_idx, value, slider)

                    slider.valueChanged.connect(cb_function_slider)
                    spinbox.valueChanged.connect(cb_function_number)

                    label = QLabel()
                    label.setAlignment(Qt.AlignCenter)

                    if j == 0:
                        slider_group['slider_p'] = slider
                        slider_group['number_p'] = spinbox
                        label.setText("P")
                    elif j == 1:
                        slider_group['slider_i'] = slider
                        slider_group['number_i'] = spinbox
                        label.setText("I")
                    elif j == 2:
                        slider_group['slider_d'] = slider
                        slider_group['number_d'] = spinbox
                        label.setText("D")

                    labelmax = QLabel()
                    labelmax.setAlignment(Qt.AlignCenter)
                    labelmax.setText("%0.1f" % (maxrange))

                    labelmin = QLabel()
                    labelmin.setAlignment(Qt.AlignCenter)
                    labelmin.setText("0")

                    layout.addWidget(label)
                    layout.addWidget(labelmax)
                    layout.addWidget(slider, Qt.AlignHCenter)
                    layout.addWidget(labelmin)
                    layout.addWidget(spinbox, Qt.AlignHCenter)
                    layout.setAlignment(slider, Qt.AlignHCenter)
                    layout.setAlignment(spinbox, Qt.AlignHCenter)

                    slider_cluster.addLayout(layout)

                on_button = QPushButton()
                on_button.setCheckable(True)
                on_button.setText("Off")

                if self.settings['channel_states'][chan_idx]:
                    on_button.toggle()
                    on_button.setText("On")

                on_button.clicked.connect(
                    lambda state, idx=idx: self.send_channel_state(idx, state))

                slider_group['on_off'] = on_button

                layout_cluster.addLayout(slider_cluster)
                layout_cluster.addWidget(on_button)

                row_layout.addLayout(layout_cluster)
                row_layout.addSpacing(20)

                self.sliders.append(slider_group)
                chan_idx += 1

            all_rows_layout.addLayout(row_layout)
        sliderbox.addLayout(all_rows_layout)
    def createEditor(self, parent, option, index):  # noqa: N802
        time_offset = 1 / math.pow(10, self.digits)

        row = index.row()
        column = index.column()

        editor = QDoubleSpinBox(parent)

        # Time
        if column == 0:

            min_time_cell = index.model().data(
                index.sibling(row - 1, column), QtCore.Qt.EditRole
            )
            if min_time_cell is None:
                min_time = 0
            else:
                min_time = float(str(min_time_cell)) + time_offset

            max_time_cell = index.model().data(
                index.sibling(row + 1, column), QtCore.Qt.EditRole
            )
            if max_time_cell is None:
                max_time = self.duration
            else:
                max_time = float(str(max_time_cell)) + time_offset

            editor.setMinimum(min_time)
            editor.setMaximum(max_time)
        # Position
        elif column == 1:
            editor.setMinimum(math.degrees(self.min_position))
            editor.setMaximum(math.degrees(self.max_position))
        # Velocity
        elif column == 2:
            editor.setMinimum(math.degrees(-self.velocity_limit))
            editor.setMaximum(math.degrees(self.velocity_limit))

        editor.setDecimals(self.digits)
        editor.setButtonSymbols(QAbstractSpinBox.NoButtons)
        editor.setCorrectionMode(QAbstractSpinBox.CorrectToNearestValue)
        editor.setFixedWidth(75)
        editor.setSingleStep(0)
        editor.setLocale(QtCore.QLocale(QtCore.QLocale.English))

        return editor
    def init_sliders(self):
        sliderbox = self._widget.findChild(QLayout,'Sliders')

        firstCol = QVBoxLayout()
        graph_button=QPushButton()
        graph_button.setCheckable(True)
        graph_button.setText("Graph Off")
        graph_button.toggle()
        graph_button.clicked.connect(self.set_graph_state)
        self.graph_button = graph_button

        reset_button=QPushButton()
        reset_button.setCheckable(False)
        reset_button.setText("Reset")
        reset_button.clicked.connect(self.set_reset)

        self.graph_button = graph_button
        self.reset_button = reset_button

        firstCol.addWidget(graph_button)
        firstCol.addWidget(reset_button)


        firstCol.addWidget(graph_button)
        firstCol.setAlignment(graph_button,Qt.AlignVCenter)

        zero_button=QPushButton()
        zero_button.setCheckable(False)
        zero_button.setText("Set All Zero")
        zero_button.clicked.connect(self.set_pressure_zero)
        self.zero_button = zero_button
        firstCol.addWidget(zero_button)
        firstCol.setAlignment(zero_button,Qt.AlignVCenter)



        transition_box = QVBoxLayout()
        label = QLabel()
        label.setAlignment(Qt.AlignCenter)
        label.setText("Transition Time")

        spinbox = QDoubleSpinBox()
        spinbox.setMinimum(0)
        spinbox.setMaximum(10)
        spinbox.setValue(self.settings['transitions'])
        spinbox.setDecimals(1)
        spinbox.setSingleStep(0.1)
        spinbox.setSuffix(" sec")

        spinbox.valueChanged.connect(self.set_transition_value)

        transition_box.addWidget(label)
        transition_box.addWidget(spinbox)
        transition_box.setAlignment(label,Qt.AlignBottom)
        transition_box.setAlignment(spinbox,Qt.AlignTop)
        firstCol.addLayout(transition_box)

        self.sliders = []
        sliderbox.addLayout(firstCol)

        all_rows_layout = QVBoxLayout()

        g_idx = 0

        for row in self.settings['gui_config']:
            num_groups_row = len(row)
            row_layout = QHBoxLayout()
            for gr_idx, s_group in enumerate(row): 
                g_channels = s_group['channels']
                g_layout = s_group['layout']

                if 'horiz' in g_layout:
                    group_layout = QHBoxLayout()
                else:
                    group_layout = QVBoxLayout()

                control_group = {'sliders': [], 'on_off': None}

                label = QLabel()
                label.setText("Group. %d"%(g_idx+1))
                label.setAlignment(Qt.AlignCenter)
                group_layout.addWidget(label)

                for c_idx, s_idx in enumerate(g_channels):
                    idx = s_idx*1
                    
                    slider_group={'slider':None, 'number':None}
                    
                    layout_cluster = QVBoxLayout()

                    labelfirst = QLabel()
                    labelfirst.setAlignment(Qt.AlignCenter)

                    labellast = QLabel()
                    labellast.setAlignment(Qt.AlignCenter)

                    layout = QVBoxLayout()

                    if 'diff' in g_layout and c_idx == 0:

                        sublayout=QHBoxLayout()

                        layout.setAlignment(Qt.AlignVCenter)

                        slider = QSlider(Qt.Horizontal)
                        slider.setMinimum(-100)
                        slider.setMaximum(100)
                        slider.setValue(0)
                        slider.setTickPosition(QSlider.TicksRight)
                        slider.setTickInterval(20)

                        spinbox = QDoubleSpinBox()
                        spinbox.setMinimum(-10)
                        spinbox.setMaximum(10)
                        spinbox.setValue(0)
                        spinbox.setDecimals(1)
                        spinbox.setSingleStep(0.1)

                        labellast.setText("%0.1f"%(10)) # These are flipped becasue of order
                        labelfirst.setText("%0.1f"%(-10))

                        max_label = labellast
                        min_label = labelfirst

                    else:
                        layout.setAlignment(Qt.AlignHCenter)

                        slider = QSlider(Qt.Vertical)
                        slider.setMinimum(self.settings['min_pressure'][idx]*10.0)
                        slider.setMaximum(self.settings['max_pressure'][idx]*10.0)
                        slider.setValue(0)
                        slider.setTickPosition(QSlider.TicksRight)
                        slider.setTickInterval(20)

                        spinbox = QDoubleSpinBox()
                        spinbox.setMinimum(self.settings['min_pressure'][idx])
                        spinbox.setMaximum(self.settings['max_pressure'][idx])
                        spinbox.setValue(0)
                        spinbox.setDecimals(1)
                        spinbox.setSingleStep(0.1)

                        labelfirst.setText("%0.1f"%(self.settings['max_pressure'][idx]))
                        labellast.setText("%0.1f"%(self.settings['min_pressure'][idx]))

                        max_label = labelfirst
                        min_label = labellast

                    
                    cb_function_number = lambda value, g_idx=g_idx, s_idx=c_idx, slider=False: self.send_slider_value(g_idx,s_idx,value,slider)
                    cb_function_slider = lambda value, g_idx=g_idx, s_idx=c_idx, slider=True: self.send_slider_value(g_idx,s_idx,value,slider)
                    slider.valueChanged.connect(cb_function_slider)
                    spinbox.valueChanged.connect(cb_function_number)
               

                    if 'diff' in g_layout and c_idx == 0:

                        sublayout.addWidget(labelfirst)
                        sublayout.addWidget(slider)
                        sublayout.addWidget(labellast)
                        layout.addWidget(spinbox)
                        layout.addLayout(sublayout)
                    else:
                        layout.addWidget(labelfirst)
                        layout.addWidget(slider)
                        layout.addWidget(labellast)
                        layout.addWidget(spinbox)

                    layout.setAlignment(slider, Qt.AlignHCenter)
                    layout.setAlignment(spinbox, Qt.AlignHCenter)

                    layout_cluster.addLayout(layout)

                    slider_group['slider'] = slider
                    slider_group['number'] = spinbox
                    slider_group['max_label'] = max_label
                    slider_group['min_label'] = min_label
                    control_group['sliders'].append(slider_group)

                    group_layout.addLayout(layout_cluster)

                on_button=QPushButton()
                on_button.setCheckable(True)
                on_button.setText("Off")

                if self.settings['channel_states'][idx]:
                    on_button.toggle()
                    on_button.setText("On")

                on_button.clicked.connect(lambda state, g_idx=g_idx: self.send_channel_state(g_idx,state))

                group_layout.addWidget(on_button)

                row_layout.addLayout(group_layout)
                row_layout.addSpacing(20)

                control_group['on_off'] = on_button
                self.sliders.append(control_group)

                g_idx+=1

            all_rows_layout.addLayout(row_layout)

        sliderbox.addLayout(all_rows_layout)