class DimensionMDE(Dimension):
binningChanged = Signal()
"""
MDEventWorkspace has additional properties for either number_of_bins or thickness
from mantidqt.widgets.sliceviewer.dimensionwidget import DimensionMDE
from qtpy.QtWidgets import QApplication
app = QApplication([])
window = DimensionMDE({'minimum':-1.1, 'number_of_bins':11, 'width':0.2, 'name':'Dim0', 'units':'A'})
window.show()
app.exec_()
"""
def __init__(self, dim_info, number=0, state=State.NONE, parent=None):
# hack in a number_of_bins for MDEventWorkspace
dim_info['number_of_bins'] = 1000
dim_info['width'] = (dim_info['maximum'] - dim_info['minimum']) / 1000
self.spinBins = QSpinBox()
self.spinBins.setRange(2, 9999)
self.spinBins.setValue(100)
self.spinBins.hide()
self.spinBins.setMinimumWidth(110)
self.spinThick = QDoubleSpinBox()
self.spinThick.setRange(0.001, 999)
self.spinThick.setValue(0.1)
self.spinThick.setSingleStep(0.1)
self.spinThick.setDecimals(3)
self.spinThick.setMinimumWidth(110)
self.rebinLabel = QLabel("thick")
self.rebinLabel.setMinimumWidth(44)
super().__init__(dim_info, number, state, parent)
self.spinBins.valueChanged.connect(self.binningChanged)
self.spinThick.valueChanged.connect(self.valueChanged)
self.layout.addWidget(self.spinBins)
self.layout.addWidget(self.spinThick)
self.layout.addWidget(self.rebinLabel)
def get_bins(self):
return int(self.spinBins.value())
def get_thickness(self):
return float(self.spinThick.value())
def set_state(self, state):
super().set_state(state)
if self.state == State.X:
self.spinBins.show()
self.spinThick.hide()
self.rebinLabel.setText('bins')
elif self.state == State.Y:
self.spinBins.show()
self.spinThick.hide()
self.rebinLabel.setText('bins')
elif self.state == State.NONE:
self.spinBins.hide()
self.spinThick.show()
self.rebinLabel.setText('thick')
else:
self.spinBins.hide()
self.spinThick.hide()
self.rebinLabel.hide()
class PyDMChartingDisplay(Display):
def __init__(self, parent=None, args=[], macros=None):
"""
Create all the widgets, including any child dialogs.
Parameters
----------
parent : QWidget
The parent widget of the charting display
args : list
The command parameters
macros : str
Macros to modify the UI parameters at runtime
"""
super(PyDMChartingDisplay, self).__init__(parent=parent,
args=args,
macros=macros)
self.channel_map = dict()
self.setWindowTitle("PyDM Charting Tool")
self.main_layout = QVBoxLayout()
self.body_layout = QVBoxLayout()
self.pv_layout = QHBoxLayout()
self.pv_name_line_edt = QLineEdit()
self.pv_name_line_edt.setAcceptDrops(True)
self.pv_name_line_edt.installEventFilter(self)
self.pv_protocol_cmb = QComboBox()
self.pv_protocol_cmb.addItems(["ca://", "archive://"])
self.pv_connect_push_btn = QPushButton("Connect")
self.pv_connect_push_btn.clicked.connect(self.add_curve)
self.tab_panel = QTabWidget()
self.tab_panel.setMaximumWidth(450)
self.curve_settings_tab = QWidget()
self.chart_settings_tab = QWidget()
self.charting_layout = QHBoxLayout()
self.chart = PyDMTimePlot(plot_by_timestamps=False, plot_display=self)
self.chart.setPlotTitle("Time Plot")
self.splitter = QSplitter()
self.curve_settings_layout = QVBoxLayout()
self.curve_settings_layout.setAlignment(Qt.AlignTop)
self.curve_settings_layout.setSizeConstraint(QLayout.SetMinAndMaxSize)
self.curve_settings_layout.setSpacing(5)
self.crosshair_settings_layout = QVBoxLayout()
self.crosshair_settings_layout.setAlignment(Qt.AlignTop)
self.crosshair_settings_layout.setSpacing(5)
self.enable_crosshair_chk = QCheckBox("Enable Crosshair")
self.cross_hair_coord_lbl = QLabel()
self.curve_settings_inner_frame = QFrame()
self.curve_settings_inner_frame.setLayout(self.curve_settings_layout)
self.curve_settings_scroll = QScrollArea()
self.curve_settings_scroll.setVerticalScrollBarPolicy(
Qt.ScrollBarAsNeeded)
self.curve_settings_scroll.setWidget(self.curve_settings_inner_frame)
self.curves_tab_layout = QHBoxLayout()
self.curves_tab_layout.addWidget(self.curve_settings_scroll)
self.enable_crosshair_chk.setChecked(False)
self.enable_crosshair_chk.clicked.connect(
self.handle_enable_crosshair_checkbox_clicked)
self.enable_crosshair_chk.clicked.emit(False)
self.chart_settings_layout = QVBoxLayout()
self.chart_settings_layout.setAlignment(Qt.AlignTop)
self.chart_layout = QVBoxLayout()
self.chart_panel = QWidget()
self.chart_control_layout = QHBoxLayout()
self.chart_control_layout.setAlignment(Qt.AlignHCenter)
self.chart_control_layout.setSpacing(10)
self.view_all_btn = QPushButton("View All")
self.view_all_btn.clicked.connect(self.handle_view_all_button_clicked)
self.view_all_btn.setEnabled(False)
self.auto_scale_btn = QPushButton("Auto Scale")
self.auto_scale_btn.clicked.connect(self.handle_auto_scale_btn_clicked)
self.auto_scale_btn.setEnabled(False)
self.reset_chart_btn = QPushButton("Reset")
self.reset_chart_btn.clicked.connect(
self.handle_reset_chart_btn_clicked)
self.reset_chart_btn.setEnabled(False)
self.resume_chart_text = "Resume"
self.pause_chart_text = "Pause"
self.pause_chart_btn = QPushButton(self.pause_chart_text)
self.pause_chart_btn.clicked.connect(
self.handle_pause_chart_btn_clicked)
self.title_settings_layout = QVBoxLayout()
self.title_settings_layout.setSpacing(10)
self.title_settings_grpbx = QGroupBox()
self.title_settings_grpbx.setFixedHeight(150)
self.import_data_btn = QPushButton("Import Data...")
self.import_data_btn.clicked.connect(
self.handle_import_data_btn_clicked)
self.export_data_btn = QPushButton("Export Data...")
self.export_data_btn.clicked.connect(
self.handle_export_data_btn_clicked)
self.chart_title_lbl = QLabel(text="Chart Title")
self.chart_title_line_edt = QLineEdit()
self.chart_title_line_edt.setText(self.chart.getPlotTitle())
self.chart_title_line_edt.textChanged.connect(
self.handle_title_text_changed)
self.chart_change_axis_settings_btn = QPushButton(
text="Change Axis Settings...")
self.chart_change_axis_settings_btn.clicked.connect(
self.handle_change_axis_settings_clicked)
self.update_datetime_timer = QTimer(self)
self.update_datetime_timer.timeout.connect(
self.handle_update_datetime_timer_timeout)
self.chart_sync_mode_layout = QVBoxLayout()
self.chart_sync_mode_layout.setSpacing(5)
self.chart_sync_mode_grpbx = QGroupBox("Data Sampling Mode")
self.chart_sync_mode_grpbx.setFixedHeight(80)
self.chart_sync_mode_sync_radio = QRadioButton("Synchronous")
self.chart_sync_mode_async_radio = QRadioButton("Asynchronous")
self.chart_sync_mode_async_radio.setChecked(True)
self.graph_drawing_settings_layout = QVBoxLayout()
self.chart_redraw_rate_lbl = QLabel("Redraw Rate (Hz)")
self.chart_redraw_rate_spin = QSpinBox()
self.chart_redraw_rate_spin.setRange(MIN_REDRAW_RATE_HZ,
MAX_REDRAW_RATE_HZ)
self.chart_redraw_rate_spin.setValue(DEFAULT_REDRAW_RATE_HZ)
self.chart_redraw_rate_spin.valueChanged.connect(
self.handle_redraw_rate_changed)
self.chart_data_sampling_rate_lbl = QLabel(
"Asynchronous Data Sampling Rate (Hz)")
self.chart_data_async_sampling_rate_spin = QSpinBox()
self.chart_data_async_sampling_rate_spin.setRange(
MIN_DATA_SAMPLING_RATE_HZ, MAX_DATA_SAMPLING_RATE_HZ)
self.chart_data_async_sampling_rate_spin.setValue(
DEFAULT_DATA_SAMPLING_RATE_HZ)
self.chart_data_async_sampling_rate_spin.valueChanged.connect(
self.handle_data_sampling_rate_changed)
self.chart_data_sampling_rate_lbl.hide()
self.chart_data_async_sampling_rate_spin.hide()
self.chart_limit_time_span_layout = QHBoxLayout()
self.chart_limit_time_span_layout.setSpacing(5)
self.limit_time_plan_text = "Limit Time Span"
self.chart_limit_time_span_chk = QCheckBox(self.limit_time_plan_text)
self.chart_limit_time_span_chk.hide()
self.chart_limit_time_span_lbl = QLabel("Hours : Minutes : Seconds")
self.chart_limit_time_span_hours_line_edt = QLineEdit()
self.chart_limit_time_span_minutes_line_edt = QLineEdit()
self.chart_limit_time_span_seconds_line_edt = QLineEdit()
self.chart_limit_time_span_activate_btn = QPushButton("Apply")
self.chart_limit_time_span_activate_btn.setDisabled(True)
self.chart_ring_buffer_size_lbl = QLabel("Ring Buffer Size")
self.chart_ring_buffer_size_edt = QLineEdit()
self.chart_ring_buffer_size_edt.installEventFilter(self)
self.chart_ring_buffer_size_edt.textChanged.connect(
self.handle_buffer_size_changed)
self.chart_ring_buffer_size_edt.setText(str(DEFAULT_BUFFER_SIZE))
self.show_legend_chk = QCheckBox("Show Legend")
self.show_legend_chk.setChecked(self.chart.showLegend)
self.show_legend_chk.clicked.connect(
self.handle_show_legend_checkbox_clicked)
self.graph_background_color_layout = QFormLayout()
self.background_color_lbl = QLabel("Graph Background Color ")
self.background_color_btn = QPushButton()
self.background_color_btn.setStyleSheet(
"background-color: " + self.chart.getBackgroundColor().name())
self.background_color_btn.setContentsMargins(10, 0, 5, 5)
self.background_color_btn.setMaximumWidth(20)
self.background_color_btn.clicked.connect(
self.handle_background_color_button_clicked)
self.axis_settings_layout = QVBoxLayout()
self.axis_settings_layout.setSpacing(5)
self.show_x_grid_chk = QCheckBox("Show x Grid")
self.show_x_grid_chk.setChecked(self.chart.showXGrid)
self.show_x_grid_chk.clicked.connect(
self.handle_show_x_grid_checkbox_clicked)
self.show_y_grid_chk = QCheckBox("Show y Grid")
self.show_y_grid_chk.setChecked(self.chart.showYGrid)
self.show_y_grid_chk.clicked.connect(
self.handle_show_y_grid_checkbox_clicked)
self.axis_color_lbl = QLabel("Axis and Grid Color")
self.axis_color_lbl.setEnabled(False)
self.axis_color_btn = QPushButton()
self.axis_color_btn.setStyleSheet("background-color: " +
DEFAULT_CHART_AXIS_COLOR.name())
self.axis_color_btn.setContentsMargins(10, 0, 5, 5)
self.axis_color_btn.setMaximumWidth(20)
self.axis_color_btn.clicked.connect(
self.handle_axis_color_button_clicked)
self.axis_color_btn.setEnabled(False)
self.grid_opacity_lbl = QLabel("Grid Opacity")
self.grid_opacity_lbl.setEnabled(False)
self.grid_opacity_slr = QSlider(Qt.Horizontal)
self.grid_opacity_slr.setFocusPolicy(Qt.StrongFocus)
self.grid_opacity_slr.setRange(0, 10)
self.grid_opacity_slr.setValue(5)
self.grid_opacity_slr.setTickInterval(1)
self.grid_opacity_slr.setSingleStep(1)
self.grid_opacity_slr.setTickPosition(QSlider.TicksBelow)
self.grid_opacity_slr.valueChanged.connect(
self.handle_grid_opacity_slider_mouse_release)
self.grid_opacity_slr.setEnabled(False)
self.reset_chart_settings_btn = QPushButton("Reset Chart Settings")
self.reset_chart_settings_btn.clicked.connect(
self.handle_reset_chart_settings_btn_clicked)
self.curve_checkbox_panel = QWidget()
self.graph_drawing_settings_grpbx = QGroupBox()
self.graph_drawing_settings_grpbx.setFixedHeight(270)
self.axis_settings_grpbx = QGroupBox()
self.axis_settings_grpbx.setFixedHeight(180)
self.app = QApplication.instance()
self.setup_ui()
self.curve_settings_disp = None
self.axis_settings_disp = None
self.chart_data_export_disp = None
self.chart_data_import_disp = None
self.grid_alpha = 5
self.time_span_limit_hours = None
self.time_span_limit_minutes = None
self.time_span_limit_seconds = None
self.data_sampling_mode = ASYNC_DATA_SAMPLING
def minimumSizeHint(self):
"""
The minimum recommended size of the main window.
"""
return QSize(1490, 800)
def ui_filepath(self):
"""
The path to the UI file created by Qt Designer, if applicable.
"""
# No UI file is being used
return None
def ui_filename(self):
"""
The name the UI file created by Qt Designer, if applicable.
"""
# No UI file is being used
return None
def setup_ui(self):
"""
Initialize the widgets and layouts.
"""
self.setLayout(self.main_layout)
self.pv_layout.addWidget(self.pv_protocol_cmb)
self.pv_layout.addWidget(self.pv_name_line_edt)
self.pv_layout.addWidget(self.pv_connect_push_btn)
QTimer.singleShot(0, self.pv_name_line_edt.setFocus)
self.curve_settings_tab.setLayout(self.curves_tab_layout)
self.chart_settings_tab.setLayout(self.chart_settings_layout)
self.setup_chart_settings_layout()
self.tab_panel.addTab(self.curve_settings_tab, "Curves")
self.tab_panel.addTab(self.chart_settings_tab, "Chart")
self.tab_panel.hide()
self.crosshair_settings_layout.addWidget(self.enable_crosshair_chk)
self.crosshair_settings_layout.addWidget(self.cross_hair_coord_lbl)
self.chart_control_layout.addWidget(self.auto_scale_btn)
self.chart_control_layout.addWidget(self.view_all_btn)
self.chart_control_layout.addWidget(self.reset_chart_btn)
self.chart_control_layout.addWidget(self.pause_chart_btn)
self.chart_control_layout.addLayout(self.crosshair_settings_layout)
self.chart_control_layout.addWidget(self.import_data_btn)
self.chart_control_layout.addWidget(self.export_data_btn)
self.chart_control_layout.setStretch(4, 15)
self.chart_control_layout.insertSpacing(5, 350)
self.chart_layout.addWidget(self.chart)
self.chart_layout.addLayout(self.chart_control_layout)
self.chart_panel.setLayout(self.chart_layout)
self.splitter.addWidget(self.chart_panel)
self.splitter.addWidget(self.tab_panel)
self.splitter.setStretchFactor(0, 0)
self.splitter.setStretchFactor(1, 1)
self.charting_layout.addWidget(self.splitter)
self.body_layout.addLayout(self.pv_layout)
self.body_layout.addLayout(self.charting_layout)
self.body_layout.addLayout(self.chart_control_layout)
self.main_layout.addLayout(self.body_layout)
self.enable_chart_control_buttons(False)
def setup_chart_settings_layout(self):
self.chart_sync_mode_sync_radio.toggled.connect(
partial(self.handle_sync_mode_radio_toggle,
self.chart_sync_mode_sync_radio))
self.chart_sync_mode_async_radio.toggled.connect(
partial(self.handle_sync_mode_radio_toggle,
self.chart_sync_mode_async_radio))
self.title_settings_layout.addWidget(self.chart_title_lbl)
self.title_settings_layout.addWidget(self.chart_title_line_edt)
self.title_settings_layout.addWidget(self.show_legend_chk)
self.title_settings_layout.addWidget(
self.chart_change_axis_settings_btn)
self.title_settings_grpbx.setLayout(self.title_settings_layout)
self.chart_settings_layout.addWidget(self.title_settings_grpbx)
self.chart_sync_mode_layout.addWidget(self.chart_sync_mode_sync_radio)
self.chart_sync_mode_layout.addWidget(self.chart_sync_mode_async_radio)
self.chart_sync_mode_grpbx.setLayout(self.chart_sync_mode_layout)
self.chart_settings_layout.addWidget(self.chart_sync_mode_grpbx)
self.chart_settings_layout.addWidget(self.chart_sync_mode_grpbx)
self.chart_limit_time_span_layout.addWidget(
self.chart_limit_time_span_lbl)
self.chart_limit_time_span_layout.addWidget(
self.chart_limit_time_span_hours_line_edt)
self.chart_limit_time_span_layout.addWidget(
self.chart_limit_time_span_minutes_line_edt)
self.chart_limit_time_span_layout.addWidget(
self.chart_limit_time_span_seconds_line_edt)
self.chart_limit_time_span_layout.addWidget(
self.chart_limit_time_span_activate_btn)
self.chart_limit_time_span_lbl.hide()
self.chart_limit_time_span_hours_line_edt.hide()
self.chart_limit_time_span_minutes_line_edt.hide()
self.chart_limit_time_span_seconds_line_edt.hide()
self.chart_limit_time_span_activate_btn.hide()
self.chart_limit_time_span_hours_line_edt.textChanged.connect(
self.handle_time_span_edt_text_changed)
self.chart_limit_time_span_minutes_line_edt.textChanged.connect(
self.handle_time_span_edt_text_changed)
self.chart_limit_time_span_seconds_line_edt.textChanged.connect(
self.handle_time_span_edt_text_changed)
self.chart_limit_time_span_chk.clicked.connect(
self.handle_limit_time_span_checkbox_clicked)
self.chart_limit_time_span_activate_btn.clicked.connect(
self.handle_chart_limit_time_span_activate_btn_clicked)
self.chart_limit_time_span_activate_btn.installEventFilter(self)
self.graph_background_color_layout.addRow(self.background_color_lbl,
self.background_color_btn)
self.graph_drawing_settings_layout.addLayout(
self.graph_background_color_layout)
self.graph_drawing_settings_layout.addWidget(
self.chart_redraw_rate_lbl)
self.graph_drawing_settings_layout.addWidget(
self.chart_redraw_rate_spin)
self.graph_drawing_settings_layout.addWidget(
self.chart_data_sampling_rate_lbl)
self.graph_drawing_settings_layout.addWidget(
self.chart_data_async_sampling_rate_spin)
self.graph_drawing_settings_layout.addWidget(
self.chart_limit_time_span_chk)
self.graph_drawing_settings_layout.addLayout(
self.chart_limit_time_span_layout)
self.graph_drawing_settings_layout.addWidget(
self.chart_ring_buffer_size_lbl)
self.graph_drawing_settings_layout.addWidget(
self.chart_ring_buffer_size_edt)
self.graph_drawing_settings_grpbx.setLayout(
self.graph_drawing_settings_layout)
self.axis_settings_layout.addWidget(self.show_x_grid_chk)
self.axis_settings_layout.addWidget(self.show_y_grid_chk)
self.axis_settings_layout.addWidget(self.axis_color_lbl)
self.axis_settings_layout.addWidget(self.axis_color_btn)
self.axis_settings_layout.addWidget(self.grid_opacity_lbl)
self.axis_settings_layout.addWidget(self.grid_opacity_slr)
self.axis_settings_grpbx.setLayout(self.axis_settings_layout)
self.chart_settings_layout.addWidget(self.graph_drawing_settings_grpbx)
self.chart_settings_layout.addWidget(self.axis_settings_grpbx)
self.chart_settings_layout.addWidget(self.reset_chart_settings_btn)
self.chart_sync_mode_async_radio.toggled.emit(True)
self.update_datetime_timer.start(1000)
def eventFilter(self, obj, event):
"""
Handle key and mouse events for any applicable widget.
Parameters
----------
obj : QWidget
The current widget that accepts the event
event : QEvent
The key or mouse event to handle
Returns
-------
True if the event was handled successfully; False otherwise
"""
if obj == self.pv_name_line_edt and event.type() == QEvent.KeyPress:
if event.key() == Qt.Key_Enter or event.key() == Qt.Key_Return:
self.add_curve()
return True
elif obj == self.chart_limit_time_span_activate_btn and event.type(
) == QEvent.KeyPress:
if event.key() == Qt.Key_Enter or event.key() == Qt.Key_Return:
self.handle_chart_limit_time_span_activate_btn_clicked()
return True
elif obj == self.chart_ring_buffer_size_edt:
if event.type() == QEvent.KeyPress and (event.key() == Qt.Key_Enter or event.key() == Qt.Key_Return) or \
event.type() == QEvent.FocusOut:
try:
buffer_size = int(self.chart_ring_buffer_size_edt.text())
if buffer_size < MINIMUM_BUFFER_SIZE:
self.chart_ring_buffer_size_edt.setText(
str(MINIMUM_BUFFER_SIZE))
except ValueError:
display_message_box(QMessageBox.Critical, "Invalid Values",
"Only integer values are accepted.")
return True
return super(PyDMChartingDisplay, self).eventFilter(obj, event)
def add_curve(self):
"""
Add a new curve to the chart.
"""
pv_name = self._get_full_pv_name(self.pv_name_line_edt.text())
color = random_color()
for k, v in self.channel_map.items():
if color == v.color:
color = random_color()
self.add_y_channel(pv_name=pv_name, curve_name=pv_name, color=color)
def handle_enable_crosshair_checkbox_clicked(self, is_checked):
self.chart.enableCrosshair(is_checked)
self.cross_hair_coord_lbl.setVisible(is_checked)
def add_y_channel(self,
pv_name,
curve_name,
color,
line_style=Qt.SolidLine,
line_width=2,
symbol=None,
symbol_size=None):
if pv_name in self.channel_map:
logger.error("'{0}' has already been added.".format(pv_name))
return
curve = self.chart.addYChannel(y_channel=pv_name,
name=curve_name,
color=color,
lineStyle=line_style,
lineWidth=line_width,
symbol=symbol,
symbolSize=symbol_size)
self.channel_map[pv_name] = curve
self.generate_pv_controls(pv_name, color)
self.enable_chart_control_buttons()
self.app.establish_widget_connections(self)
def generate_pv_controls(self, pv_name, curve_color):
"""
Generate a set of widgets to manage the appearance of a curve. The set of widgets includes:
1. A checkbox which shows the curve on the chart if checked, and hide the curve if not checked
2. Two buttons -- Modify... and Remove. Modify... will bring up the Curve Settings dialog. Remove will
delete the curve from the chart
This set of widgets will be hidden initially, until the first curve is plotted.
Parameters
----------
pv_name: str
The name of the PV the current curve is being plotted for
curve_color : QColor
The color of the curve to paint for the checkbox label to help the user track the curve to the checkbox
"""
checkbox = QCheckBox()
checkbox.setObjectName(pv_name)
palette = checkbox.palette()
palette.setColor(QPalette.Active, QPalette.WindowText, curve_color)
checkbox.setPalette(palette)
display_name = pv_name.split("://")[1]
if len(display_name) > MAX_DISPLAY_PV_NAME_LENGTH:
# Only display max allowed number of characters of the PV Name
display_name = display_name[:int(MAX_DISPLAY_PV_NAME_LENGTH / 2) - 1] + "..." + \
display_name[-int(MAX_DISPLAY_PV_NAME_LENGTH / 2) + 2:]
checkbox.setText(display_name)
data_text = QLabel()
data_text.setObjectName(pv_name)
data_text.setPalette(palette)
checkbox.setChecked(True)
checkbox.clicked.connect(
partial(self.handle_curve_chkbox_toggled, checkbox))
curve_btn_layout = QHBoxLayout()
modify_curve_btn = QPushButton("Modify...")
modify_curve_btn.setObjectName(pv_name)
modify_curve_btn.setMaximumWidth(100)
modify_curve_btn.clicked.connect(
partial(self.display_curve_settings_dialog, pv_name))
focus_curve_btn = QPushButton("Focus")
focus_curve_btn.setObjectName(pv_name)
focus_curve_btn.setMaximumWidth(100)
focus_curve_btn.clicked.connect(partial(self.focus_curve, pv_name))
annotate_curve_btn = QPushButton("Annotate...")
annotate_curve_btn.setObjectName(pv_name)
annotate_curve_btn.setMaximumWidth(100)
annotate_curve_btn.clicked.connect(
partial(self.annotate_curve, pv_name))
remove_curve_btn = QPushButton("Remove")
remove_curve_btn.setObjectName(pv_name)
remove_curve_btn.setMaximumWidth(100)
remove_curve_btn.clicked.connect(partial(self.remove_curve, pv_name))
curve_btn_layout.addWidget(modify_curve_btn)
curve_btn_layout.addWidget(focus_curve_btn)
curve_btn_layout.addWidget(annotate_curve_btn)
curve_btn_layout.addWidget(remove_curve_btn)
individual_curve_layout = QVBoxLayout()
individual_curve_layout.addWidget(checkbox)
individual_curve_layout.addWidget(data_text)
individual_curve_layout.addLayout(curve_btn_layout)
size_policy = QSizePolicy()
size_policy.setVerticalPolicy(QSizePolicy.Fixed)
individual_curve_grpbx = QGroupBox()
individual_curve_grpbx.setSizePolicy(size_policy)
individual_curve_grpbx.setObjectName(pv_name)
individual_curve_grpbx.setLayout(individual_curve_layout)
self.curve_settings_layout.addWidget(individual_curve_grpbx)
self.tab_panel.show()
def handle_curve_chkbox_toggled(self, checkbox):
"""
Handle a checkbox's checked and unchecked events.
If a checkbox is checked, find the curve from the channel map. If found, re-draw the curve with its previous
appearance settings.
If a checkbox is unchecked, remove the curve from the chart, but keep the cached data in the channel map.
Parameters
----------
checkbox : QCheckBox
The current checkbox being toggled
"""
pv_name = self._get_full_pv_name(checkbox.text())
if checkbox.isChecked():
curve = self.channel_map.get(pv_name, None)
if curve:
self.chart.addLegendItem(curve, pv_name,
self.show_legend_chk.isChecked())
curve.show()
else:
curve = self.chart.findCurve(pv_name)
if curve:
curve.hide()
self.chart.removeLegendItem(pv_name)
def display_curve_settings_dialog(self, pv_name):
"""
Bring up the Curve Settings dialog to modify the appearance of a curve.
Parameters
----------
pv_name : str
The name of the PV the curve is being plotted for
"""
self.curve_settings_disp = CurveSettingsDisplay(self, pv_name)
self.curve_settings_disp.show()
def focus_curve(self, pv_name):
curve = self.chart.findCurve(pv_name)
if curve:
self.chart.plotItem.setYRange(curve.minY, curve.maxY, padding=0)
def annotate_curve(self, pv_name):
curve = self.chart.findCurve(pv_name)
if curve:
annot = TextItem(
html=
'<div style="text-align: center"><span style="color: #FFF;">This is the'
'</span><br><span style="color: #FF0; font-size: 16pt;">PEAK</span></div>',
anchor=(-0.3, 0.5),
border='w',
fill=(0, 0, 255, 100))
annot = TextItem("test", anchor=(-0.3, 0.5))
self.chart.annotateCurve(curve, annot)
def remove_curve(self, pv_name):
"""
Remove a curve from the chart permanently. This will also clear the channel map cache from retaining the
removed curve's appearance settings.
Parameters
----------
pv_name : str
The name of the PV the curve is being plotted for
"""
curve = self.chart.findCurve(pv_name)
if curve:
self.chart.removeYChannel(curve)
del self.channel_map[pv_name]
self.chart.removeLegendItem(pv_name)
widgets = self.findChildren(
(QCheckBox, QLabel, QPushButton, QGroupBox), pv_name)
for w in widgets:
w.deleteLater()
if len(self.chart.getCurves()) < 1:
self.enable_chart_control_buttons(False)
self.show_legend_chk.setChecked(False)
def handle_title_text_changed(self, new_text):
self.chart.setPlotTitle(new_text)
def handle_change_axis_settings_clicked(self):
self.axis_settings_disp = AxisSettingsDisplay(self)
self.axis_settings_disp.show()
def handle_limit_time_span_checkbox_clicked(self, is_checked):
self.chart_limit_time_span_lbl.setVisible(is_checked)
self.chart_limit_time_span_hours_line_edt.setVisible(is_checked)
self.chart_limit_time_span_minutes_line_edt.setVisible(is_checked)
self.chart_limit_time_span_seconds_line_edt.setVisible(is_checked)
self.chart_limit_time_span_activate_btn.setVisible(is_checked)
self.chart_ring_buffer_size_lbl.setDisabled(is_checked)
self.chart_ring_buffer_size_edt.setDisabled(is_checked)
if not is_checked:
self.chart_limit_time_span_chk.setText(self.limit_time_plan_text)
def handle_time_span_edt_text_changed(self, new_text):
try:
self.time_span_limit_hours = int(
self.chart_limit_time_span_hours_line_edt.text())
self.time_span_limit_minutes = int(
self.chart_limit_time_span_minutes_line_edt.text())
self.time_span_limit_seconds = int(
self.chart_limit_time_span_seconds_line_edt.text())
except ValueError as e:
self.time_span_limit_hours = None
self.time_span_limit_minutes = None
self.time_span_limit_seconds = None
if self.time_span_limit_hours is not None and self.time_span_limit_minutes is not None and \
self.time_span_limit_seconds is not None:
self.chart_limit_time_span_activate_btn.setEnabled(True)
else:
self.chart_limit_time_span_activate_btn.setEnabled(False)
def handle_chart_limit_time_span_activate_btn_clicked(self):
if self.time_span_limit_hours is None or self.time_span_limit_minutes is None or \
self.time_span_limit_seconds is None:
display_message_box(
QMessageBox.Critical, "Invalid Values",
"Hours, minutes, and seconds expect only integer values.")
else:
timeout_milliseconds = (self.time_span_limit_hours * 3600 +
self.time_span_limit_minutes * 60 +
self.time_span_limit_seconds) * 1000
self.chart.setTimeSpan(timeout_milliseconds / 1000.0)
self.chart_ring_buffer_size_edt.setText(
str(self.chart.getBufferSize()))
def handle_buffer_size_changed(self, new_buffer_size):
try:
if new_buffer_size and int(new_buffer_size) > MINIMUM_BUFFER_SIZE:
self.chart.setBufferSize(new_buffer_size)
except ValueError:
display_message_box(QMessageBox.Critical, "Invalid Values",
"Only integer values are accepted.")
def handle_redraw_rate_changed(self, new_redraw_rate):
self.chart.maxRedrawRate = new_redraw_rate
def handle_data_sampling_rate_changed(self, new_data_sampling_rate):
# The chart expects the value in milliseconds
sampling_rate_seconds = 1 / new_data_sampling_rate
self.chart.setUpdateInterval(sampling_rate_seconds)
def handle_background_color_button_clicked(self):
selected_color = QColorDialog.getColor()
self.chart.setBackgroundColor(selected_color)
self.background_color_btn.setStyleSheet("background-color: " +
selected_color.name())
def handle_axis_color_button_clicked(self):
selected_color = QColorDialog.getColor()
self.chart.setAxisColor(selected_color)
self.axis_color_btn.setStyleSheet("background-color: " +
selected_color.name())
def handle_grid_opacity_slider_mouse_release(self):
self.grid_alpha = float(self.grid_opacity_slr.value()) / 10.0
self.chart.setShowXGrid(self.show_x_grid_chk.isChecked(),
self.grid_alpha)
self.chart.setShowYGrid(self.show_y_grid_chk.isChecked(),
self.grid_alpha)
def handle_show_x_grid_checkbox_clicked(self, is_checked):
self.chart.setShowXGrid(is_checked, self.grid_alpha)
self.axis_color_lbl.setEnabled(is_checked
or self.show_y_grid_chk.isChecked())
self.axis_color_btn.setEnabled(is_checked
or self.show_y_grid_chk.isChecked())
self.grid_opacity_lbl.setEnabled(is_checked
or self.show_y_grid_chk.isChecked())
self.grid_opacity_slr.setEnabled(is_checked
or self.show_y_grid_chk.isChecked())
def handle_show_y_grid_checkbox_clicked(self, is_checked):
self.chart.setShowYGrid(is_checked, self.grid_alpha)
self.axis_color_lbl.setEnabled(is_checked
or self.show_x_grid_chk.isChecked())
self.axis_color_btn.setEnabled(is_checked
or self.show_x_grid_chk.isChecked())
self.grid_opacity_lbl.setEnabled(is_checked
or self.show_x_grid_chk.isChecked())
self.grid_opacity_slr.setEnabled(is_checked
or self.show_x_grid_chk.isChecked())
def handle_show_legend_checkbox_clicked(self, is_checked):
self.chart.setShowLegend(is_checked)
def handle_export_data_btn_clicked(self):
self.chart_data_export_disp = ChartDataExportDisplay(self)
self.chart_data_export_disp.show()
def handle_import_data_btn_clicked(self):
open_file_info = QFileDialog.getOpenFileName(self,
caption="Save File",
filter="*." +
IMPORT_FILE_FORMAT)
open_file_name = open_file_info[0]
if open_file_name:
importer = SettingsImporter(self)
importer.import_settings(open_file_name)
def handle_sync_mode_radio_toggle(self, radio_btn):
if radio_btn.isChecked():
if radio_btn.text() == "Synchronous":
self.data_sampling_mode = SYNC_DATA_SAMPLING
self.chart_data_sampling_rate_lbl.hide()
self.chart_data_async_sampling_rate_spin.hide()
self.chart.resetTimeSpan()
self.chart_limit_time_span_chk.setChecked(False)
self.chart_limit_time_span_chk.clicked.emit(False)
self.chart_limit_time_span_chk.hide()
self.graph_drawing_settings_grpbx.setFixedHeight(180)
self.chart.setUpdatesAsynchronously(False)
elif radio_btn.text() == "Asynchronous":
self.data_sampling_mode = ASYNC_DATA_SAMPLING
self.chart_data_sampling_rate_lbl.show()
self.chart_data_async_sampling_rate_spin.show()
self.chart_limit_time_span_chk.show()
self.graph_drawing_settings_grpbx.setFixedHeight(270)
self.chart.setUpdatesAsynchronously(True)
self.app.establish_widget_connections(self)
def handle_auto_scale_btn_clicked(self):
self.chart.resetAutoRangeX()
self.chart.resetAutoRangeY()
def handle_view_all_button_clicked(self):
self.chart.getViewBox().autoRange()
def handle_pause_chart_btn_clicked(self):
if self.chart.pausePlotting():
self.pause_chart_btn.setText(self.pause_chart_text)
else:
self.pause_chart_btn.setText(self.resume_chart_text)
def handle_reset_chart_btn_clicked(self):
self.chart.getViewBox().setXRange(DEFAULT_X_MIN, 0)
self.chart.resetAutoRangeY()
@Slot()
def handle_reset_chart_settings_btn_clicked(self):
self.chart_ring_buffer_size_edt.setText(str(DEFAULT_BUFFER_SIZE))
self.chart_redraw_rate_spin.setValue(DEFAULT_REDRAW_RATE_HZ)
self.chart_data_async_sampling_rate_spin.setValue(
DEFAULT_DATA_SAMPLING_RATE_HZ)
self.chart_data_sampling_rate_lbl.hide()
self.chart_data_async_sampling_rate_spin.hide()
self.chart_sync_mode_async_radio.setChecked(True)
self.chart_sync_mode_async_radio.toggled.emit(True)
self.chart_limit_time_span_chk.setChecked(False)
self.chart_limit_time_span_chk.setText(self.limit_time_plan_text)
self.chart_limit_time_span_chk.clicked.emit(False)
self.chart.setUpdatesAsynchronously(True)
self.chart.resetTimeSpan()
self.chart.resetUpdateInterval()
self.chart.setBufferSize(DEFAULT_BUFFER_SIZE)
self.chart.setBackgroundColor(DEFAULT_CHART_BACKGROUND_COLOR)
self.background_color_btn.setStyleSheet(
"background-color: " + DEFAULT_CHART_BACKGROUND_COLOR.name())
self.chart.setAxisColor(DEFAULT_CHART_AXIS_COLOR)
self.axis_color_btn.setStyleSheet("background-color: " +
DEFAULT_CHART_AXIS_COLOR.name())
self.grid_opacity_slr.setValue(5)
self.show_x_grid_chk.setChecked(False)
self.show_x_grid_chk.clicked.emit(False)
self.show_y_grid_chk.setChecked(False)
self.show_y_grid_chk.clicked.emit(False)
self.show_legend_chk.setChecked(False)
self.chart.setShowXGrid(False)
self.chart.setShowYGrid(False)
self.chart.setShowLegend(False)
def enable_chart_control_buttons(self, enabled=True):
self.auto_scale_btn.setEnabled(enabled)
self.view_all_btn.setEnabled(enabled)
self.reset_chart_btn.setEnabled(enabled)
self.pause_chart_btn.setText(self.pause_chart_text)
self.pause_chart_btn.setEnabled(enabled)
self.export_data_btn.setEnabled(enabled)
def _get_full_pv_name(self, pv_name):
"""
Append the protocol to the PV Name.
Parameters
----------
pv_name : str
The name of the PV the curve is being plotted for
"""
if pv_name and "://" not in pv_name:
pv_name = ''.join([self.pv_protocol_cmb.currentText(), pv_name])
return pv_name
def handle_update_datetime_timer_timeout(self):
current_label = self.chart.getBottomAxisLabel()
new_label = "Current Time: " + PyDMChartingDisplay.get_current_datetime(
)
if X_AXIS_LABEL_SEPARATOR in current_label:
current_label = current_label[current_label.
find(X_AXIS_LABEL_SEPARATOR) +
len(X_AXIS_LABEL_SEPARATOR):]
new_label += X_AXIS_LABEL_SEPARATOR + current_label
self.chart.setLabel("bottom", text=new_label)
def update_curve_data(self, curve):
"""
Determine if the PV is active. If not, disable the related PV controls. If the PV is active, update the PV
controls' states.
Parameters
----------
curve : PlotItem
A PlotItem, i.e. a plot, to draw on the chart.
"""
pv_name = curve.name()
max_x = self.chart.getViewBox().viewRange()[1][0]
max_y = self.chart.getViewBox().viewRange()[1][1]
current_y = curve.data_buffer[1, -1]
widgets = self.findChildren((QCheckBox, QLabel, QPushButton), pv_name)
for w in widgets:
if np.isnan(current_y):
if isinstance(w, QCheckBox):
w.setChecked(False)
else:
if isinstance(w, QCheckBox) and not w.isEnabled():
w.setChecked(True)
if isinstance(w, QLabel):
w.clear()
w.setText(
"(yMin = {0:.3f}, yMax = {1:.3f}) y = {2:.3f}".format(
max_x, max_y, current_y))
w.show()
w.setEnabled(not np.isnan(current_y))
if isinstance(w, QPushButton) and w.text() == "Remove":
# Enable the Remove button to make removing inactive PVs possible anytime
w.setEnabled(True)
def show_mouse_coordinates(self, x, y):
self.cross_hair_coord_lbl.clear()
self.cross_hair_coord_lbl.setText("x = {0:.3f}, y = {1:.3f}".format(
x, y))
@staticmethod
def get_current_datetime():
current_date = datetime.datetime.now().strftime("%b %d, %Y")
current_time = datetime.datetime.now().strftime("%H:%M:%S")
current_datetime = current_time + ' (' + current_date + ')'
return current_datetime
@property
def gridAlpha(self):
return self.grid_alpha
class TimeChartDisplay(Display):
def __init__(self,
parent=None,
args=[],
macros=None,
show_pv_add_panel=True,
config_file=None):
"""
Create all the widgets, including any child dialogs.
Parameters
----------
parent : QWidget
The parent widget of the charting display
args : list
The command parameters
macros : str
Macros to modify the UI parameters at runtime
show_pv_add_panel : bool
Whether or not to show the PV add panel on top of the graph
"""
super(TimeChartDisplay, self).__init__(parent=parent,
args=args,
macros=macros)
self.legend_font = None
self.channel_map = dict()
self.setWindowTitle("TimeChart Tool")
self.main_layout = QVBoxLayout()
self.body_layout = QVBoxLayout()
self.pv_add_panel = QFrame()
self.pv_add_panel.setVisible(show_pv_add_panel)
self.pv_add_panel.setMaximumHeight(50)
self.pv_layout = QHBoxLayout()
self.pv_name_line_edt = QLineEdit()
self.pv_name_line_edt.setAcceptDrops(True)
self.pv_name_line_edt.returnPressed.connect(self.add_curve)
self.pv_protocol_cmb = QComboBox()
self.pv_protocol_cmb.addItems(["ca://", "archive://"])
self.pv_protocol_cmb.setEnabled(False)
self.pv_connect_push_btn = QPushButton("Connect")
self.pv_connect_push_btn.clicked.connect(self.add_curve)
self.tab_panel = QTabWidget()
self.tab_panel.setMinimumWidth(350)
self.tab_panel.setMaximumWidth(350)
self.curve_settings_tab = QWidget()
self.data_settings_tab = QWidget()
self.chart_settings_tab = QWidget()
self.charting_layout = QHBoxLayout()
self.chart = PyDMTimePlot(plot_by_timestamps=False)
self.chart.setDownsampling(ds=False, auto=False, mode=None)
self.chart.plot_redrawn_signal.connect(self.update_curve_data)
self.chart.setBufferSize(DEFAULT_BUFFER_SIZE)
self.chart.setPlotTitle(DEFAULT_CHART_TITLE)
self.splitter = QSplitter()
self.curve_settings_layout = QVBoxLayout()
self.curve_settings_layout.setAlignment(Qt.AlignTop)
self.curve_settings_layout.setSizeConstraint(QLayout.SetMinAndMaxSize)
self.curve_settings_layout.setSpacing(5)
self.crosshair_settings_layout = QVBoxLayout()
self.crosshair_settings_layout.setAlignment(Qt.AlignTop)
self.crosshair_settings_layout.setSpacing(5)
self.enable_crosshair_chk = QCheckBox("Crosshair")
self.crosshair_coord_lbl = QLabel()
self.crosshair_coord_lbl.setWordWrap(True)
self.curve_settings_inner_frame = QFrame()
self.curve_settings_inner_frame.setLayout(self.curve_settings_layout)
self.curve_settings_scroll = QScrollArea()
self.curve_settings_scroll.setVerticalScrollBarPolicy(
Qt.ScrollBarAsNeeded)
self.curve_settings_scroll.setHorizontalScrollBarPolicy(
Qt.ScrollBarAlwaysOff)
self.curve_settings_scroll.setWidget(self.curve_settings_inner_frame)
self.curve_settings_scroll.setWidgetResizable(True)
self.enable_crosshair_chk.setChecked(False)
self.enable_crosshair_chk.clicked.connect(
self.handle_enable_crosshair_checkbox_clicked)
self.enable_crosshair_chk.clicked.emit(False)
self.curves_tab_layout = QHBoxLayout()
self.curves_tab_layout.addWidget(self.curve_settings_scroll)
self.data_tab_layout = QVBoxLayout()
self.data_tab_layout.setAlignment(Qt.AlignTop)
self.data_tab_layout.setSpacing(5)
self.chart_settings_layout = QVBoxLayout()
self.chart_settings_layout.setAlignment(Qt.AlignTop)
self.chart_settings_layout.setSpacing(5)
self.chart_layout = QVBoxLayout()
self.chart_layout.setSpacing(10)
self.chart_panel = QWidget()
self.chart_panel.setMinimumHeight(400)
self.chart_control_layout = QHBoxLayout()
self.chart_control_layout.setAlignment(Qt.AlignHCenter)
self.chart_control_layout.setSpacing(10)
self.zoom_x_layout = QVBoxLayout()
self.zoom_x_layout.setAlignment(Qt.AlignTop)
self.zoom_x_layout.setSpacing(5)
self.plus_icon = IconFont().icon("plus", color=QColor("green"))
self.minus_icon = IconFont().icon("minus", color=QColor("red"))
self.view_all_icon = IconFont().icon("globe", color=QColor("blue"))
self.reset_icon = IconFont().icon("circle-o-notch",
color=QColor("green"))
self.zoom_in_x_btn = QPushButton("X Zoom")
self.zoom_in_x_btn.setIcon(self.plus_icon)
self.zoom_in_x_btn.clicked.connect(
partial(self.handle_zoom_in_btn_clicked, "x", True))
self.zoom_in_x_btn.setEnabled(False)
self.zoom_out_x_btn = QPushButton("X Zoom")
self.zoom_out_x_btn.setIcon(self.minus_icon)
self.zoom_out_x_btn.clicked.connect(
partial(self.handle_zoom_in_btn_clicked, "x", False))
self.zoom_out_x_btn.setEnabled(False)
self.zoom_y_layout = QVBoxLayout()
self.zoom_y_layout.setAlignment(Qt.AlignTop)
self.zoom_y_layout.setSpacing(5)
self.zoom_in_y_btn = QPushButton("Y Zoom")
self.zoom_in_y_btn.setIcon(self.plus_icon)
self.zoom_in_y_btn.clicked.connect(
partial(self.handle_zoom_in_btn_clicked, "y", True))
self.zoom_in_y_btn.setEnabled(False)
self.zoom_out_y_btn = QPushButton("Y Zoom")
self.zoom_out_y_btn.setIcon(self.minus_icon)
self.zoom_out_y_btn.clicked.connect(
partial(self.handle_zoom_in_btn_clicked, "y", False))
self.zoom_out_y_btn.setEnabled(False)
self.view_all_btn = QPushButton("View All")
self.view_all_btn.setIcon(self.view_all_icon)
self.view_all_btn.clicked.connect(self.handle_view_all_button_clicked)
self.view_all_btn.setEnabled(False)
self.view_all_reset_chart_layout = QVBoxLayout()
self.view_all_reset_chart_layout.setAlignment(Qt.AlignTop)
self.view_all_reset_chart_layout.setSpacing(5)
self.pause_chart_layout = QVBoxLayout()
self.pause_chart_layout.setAlignment(Qt.AlignTop)
self.pause_chart_layout.setSpacing(5)
self.reset_chart_btn = QPushButton("Reset")
self.reset_chart_btn.setIcon(self.reset_icon)
self.reset_chart_btn.clicked.connect(
self.handle_reset_chart_btn_clicked)
self.reset_chart_btn.setEnabled(False)
self.pause_icon = IconFont().icon("pause", color=QColor("red"))
self.play_icon = IconFont().icon("play", color=QColor("green"))
self.pause_chart_btn = QPushButton()
self.pause_chart_btn.setIcon(self.pause_icon)
self.pause_chart_btn.clicked.connect(
self.handle_pause_chart_btn_clicked)
self.title_settings_layout = QVBoxLayout()
self.title_settings_layout.setAlignment(Qt.AlignTop)
self.title_settings_layout.setSpacing(5)
self.title_settings_grpbx = QGroupBox("Title and Legend")
self.title_settings_grpbx.setMaximumHeight(120)
self.import_export_data_layout = QVBoxLayout()
self.import_export_data_layout.setAlignment(Qt.AlignTop)
self.import_export_data_layout.setSpacing(5)
self.import_data_btn = QPushButton("Import...")
self.import_data_btn.clicked.connect(
self.handle_import_data_btn_clicked)
self.export_data_btn = QPushButton("Export...")
self.export_data_btn.clicked.connect(
self.handle_export_data_btn_clicked)
self.chart_title_layout = QHBoxLayout()
self.chart_title_layout.setSpacing(10)
self.chart_title_lbl = QLabel(text="Graph Title")
self.chart_title_line_edt = QLineEdit()
self.chart_title_line_edt.setText(self.chart.getPlotTitle())
self.chart_title_line_edt.textChanged.connect(
self.handle_title_text_changed)
self.chart_title_font_btn = QPushButton()
self.chart_title_font_btn.setFixedHeight(24)
self.chart_title_font_btn.setFixedWidth(24)
self.chart_title_font_btn.setIcon(IconFont().icon("font"))
self.chart_title_font_btn.clicked.connect(
partial(self.handle_chart_font_changed, "title"))
self.chart_change_axis_settings_btn = QPushButton(
text="Change Axis Settings...")
self.chart_change_axis_settings_btn.clicked.connect(
self.handle_change_axis_settings_clicked)
self.update_datetime_timer = QTimer(self)
self.update_datetime_timer.timeout.connect(
self.handle_update_datetime_timer_timeout)
self.chart_sync_mode_layout = QVBoxLayout()
self.chart_sync_mode_layout.setSpacing(5)
self.chart_sync_mode_grpbx = QGroupBox("Data Sampling Mode")
self.chart_sync_mode_grpbx.setMaximumHeight(100)
self.chart_sync_mode_sync_radio = QRadioButton("Synchronous")
self.chart_sync_mode_async_radio = QRadioButton("Asynchronous")
self.chart_sync_mode_async_radio.setChecked(True)
self.graph_drawing_settings_layout = QVBoxLayout()
self.graph_drawing_settings_layout.setAlignment(Qt.AlignVCenter)
self.chart_interval_layout = QFormLayout()
self.chart_redraw_rate_lbl = QLabel("Redraw Rate (Hz)")
self.chart_redraw_rate_spin = QSpinBox()
self.chart_redraw_rate_spin.setRange(MIN_REDRAW_RATE_HZ,
MAX_REDRAW_RATE_HZ)
self.chart_redraw_rate_spin.setValue(DEFAULT_REDRAW_RATE_HZ)
self.chart_redraw_rate_spin.editingFinished.connect(
self.handle_redraw_rate_changed)
self.chart_data_sampling_rate_lbl = QLabel("Data Sampling Rate (Hz)")
self.chart_data_async_sampling_rate_spin = QSpinBox()
self.chart_data_async_sampling_rate_spin.setRange(
MIN_DATA_SAMPLING_RATE_HZ, MAX_DATA_SAMPLING_RATE_HZ)
self.chart_data_async_sampling_rate_spin.setValue(
DEFAULT_DATA_SAMPLING_RATE_HZ)
self.chart_data_async_sampling_rate_spin.editingFinished.connect(
self.handle_data_sampling_rate_changed)
self.chart_data_sampling_rate_lbl.hide()
self.chart_data_async_sampling_rate_spin.hide()
self.chart_limit_time_span_layout = QHBoxLayout()
self.chart_limit_time_span_layout.setSpacing(5)
self.limit_time_plan_text = "Limit Time Span"
self.chart_limit_time_span_chk = QCheckBox(self.limit_time_plan_text)
self.chart_limit_time_span_chk.hide()
self.chart_limit_time_span_lbl = QLabel("Hr:Min:Sec")
self.chart_limit_time_span_hours_spin_box = QSpinBox()
self.chart_limit_time_span_hours_spin_box.setMaximum(999)
self.chart_limit_time_span_minutes_spin_box = QSpinBox()
self.chart_limit_time_span_minutes_spin_box.setMaximum(59)
self.chart_limit_time_span_seconds_spin_box = QSpinBox()
self.chart_limit_time_span_seconds_spin_box.setMaximum(59)
self.chart_limit_time_span_activate_btn = QPushButton("Apply")
self.chart_limit_time_span_activate_btn.setDisabled(True)
self.chart_ring_buffer_layout = QFormLayout()
self.chart_ring_buffer_size_lbl = QLabel("Ring Buffer Size")
self.chart_ring_buffer_size_edt = QLineEdit()
self.chart_ring_buffer_size_edt.returnPressed.connect(
self.handle_buffer_size_changed)
self.chart_ring_buffer_size_edt.setText(str(DEFAULT_BUFFER_SIZE))
self.show_legend_chk = QCheckBox("Show Legend")
self.show_legend_chk.clicked.connect(
self.handle_show_legend_checkbox_clicked)
self.show_legend_chk.setChecked(self.chart.showLegend)
self.legend_font_btn = QPushButton()
self.legend_font_btn.setFixedHeight(24)
self.legend_font_btn.setFixedWidth(24)
self.legend_font_btn.setIcon(IconFont().icon("font"))
self.legend_font_btn.clicked.connect(
partial(self.handle_chart_font_changed, "legend"))
self.graph_background_color_layout = QFormLayout()
self.axis_grid_color_layout = QFormLayout()
self.background_color_lbl = QLabel("Graph Background Color ")
self.background_color_btn = QPushButton()
self.background_color_btn.setStyleSheet(
"background-color: " + self.chart.getBackgroundColor().name())
self.background_color_btn.setContentsMargins(10, 0, 5, 5)
self.background_color_btn.setMaximumWidth(20)
self.background_color_btn.clicked.connect(
self.handle_background_color_button_clicked)
self.axis_settings_layout = QVBoxLayout()
self.axis_settings_layout.setSpacing(10)
self.show_x_grid_chk = QCheckBox("Show x Grid")
self.show_x_grid_chk.setChecked(self.chart.showXGrid)
self.show_x_grid_chk.clicked.connect(
self.handle_show_x_grid_checkbox_clicked)
self.show_y_grid_chk = QCheckBox("Show y Grid")
self.show_y_grid_chk.setChecked(self.chart.showYGrid)
self.show_y_grid_chk.clicked.connect(
self.handle_show_y_grid_checkbox_clicked)
self.axis_color_lbl = QLabel("Axis and Grid Color")
self.axis_color_btn = QPushButton()
self.axis_color_btn.setStyleSheet("background-color: " +
DEFAULT_CHART_AXIS_COLOR.name())
self.axis_color_btn.setContentsMargins(10, 0, 5, 5)
self.axis_color_btn.setMaximumWidth(20)
self.axis_color_btn.clicked.connect(
self.handle_axis_color_button_clicked)
self.grid_opacity_lbl = QLabel("Grid Opacity")
self.grid_opacity_lbl.setEnabled(False)
self.grid_opacity_slr = QSlider(Qt.Horizontal)
self.grid_opacity_slr.setFocusPolicy(Qt.StrongFocus)
self.grid_opacity_slr.setRange(0, 10)
self.grid_opacity_slr.setValue(5)
self.grid_opacity_slr.setTickInterval(1)
self.grid_opacity_slr.setSingleStep(1)
self.grid_opacity_slr.setTickPosition(QSlider.TicksBelow)
self.grid_opacity_slr.valueChanged.connect(
self.handle_grid_opacity_slider_mouse_release)
self.grid_opacity_slr.setEnabled(False)
self.reset_data_settings_btn = QPushButton("Reset Data Settings")
self.reset_data_settings_btn.clicked.connect(
self.handle_reset_data_settings_btn_clicked)
self.reset_chart_settings_btn = QPushButton("Reset Chart Settings")
self.reset_chart_settings_btn.clicked.connect(
self.handle_reset_chart_settings_btn_clicked)
self.curve_checkbox_panel = QWidget()
self.graph_drawing_settings_grpbx = QGroupBox("Graph Intervals")
self.graph_drawing_settings_grpbx.setAlignment(Qt.AlignTop)
self.axis_settings_grpbx = QGroupBox("Graph Appearance")
self.app = QApplication.instance()
self.setup_ui()
self.curve_settings_disp = None
self.axis_settings_disp = None
self.chart_data_export_disp = None
self.chart_data_import_disp = None
self.grid_alpha = 5
self.time_span_limit_hours = None
self.time_span_limit_minutes = None
self.time_span_limit_seconds = None
self.data_sampling_mode = ASYNC_DATA_SAMPLING
# If there is an imported config file, let's start TimeChart with the imported configuration data
if config_file:
importer = SettingsImporter(self)
try:
importer.import_settings(config_file)
except SettingsImporterException:
display_message_box(
QMessageBox.Critical, "Import Failure",
"Cannot import the file '{0}'. Check the log for the error details."
.format(config_file))
logger.exception(
"Cannot import the file '{0}'.".format(config_file))
def ui_filepath(self):
"""
The path to the UI file created by Qt Designer, if applicable.
"""
# No UI file is being used
return None
def ui_filename(self):
"""
The name the UI file created by Qt Designer, if applicable.
"""
# No UI file is being used
return None
def setup_ui(self):
"""
Initialize the widgets and layouts.
"""
self.setLayout(self.main_layout)
self.pv_layout.addWidget(self.pv_protocol_cmb)
self.pv_layout.addWidget(self.pv_name_line_edt)
self.pv_layout.addWidget(self.pv_connect_push_btn)
self.pv_add_panel.setLayout(self.pv_layout)
QTimer.singleShot(0, self.pv_name_line_edt.setFocus)
self.curve_settings_tab.setLayout(self.curves_tab_layout)
self.chart_settings_tab.setLayout(self.chart_settings_layout)
self.setup_chart_settings_layout()
self.data_settings_tab.setLayout(self.data_tab_layout)
self.setup_data_tab_layout()
self.tab_panel.addTab(self.curve_settings_tab, "Curves")
self.tab_panel.addTab(self.data_settings_tab, "Data")
self.tab_panel.addTab(self.chart_settings_tab, "Graph")
self.crosshair_settings_layout.addWidget(self.enable_crosshair_chk)
self.crosshair_settings_layout.addWidget(self.crosshair_coord_lbl)
self.zoom_x_layout.addWidget(self.zoom_in_x_btn)
self.zoom_x_layout.addWidget(self.zoom_out_x_btn)
self.zoom_y_layout.addWidget(self.zoom_in_y_btn)
self.zoom_y_layout.addWidget(self.zoom_out_y_btn)
self.view_all_reset_chart_layout.addWidget(self.reset_chart_btn)
self.view_all_reset_chart_layout.addWidget(self.view_all_btn)
self.pause_chart_layout.addWidget(self.pause_chart_btn)
self.import_export_data_layout.addWidget(self.import_data_btn)
self.import_export_data_layout.addWidget(self.export_data_btn)
self.chart_control_layout.addLayout(self.zoom_x_layout)
self.chart_control_layout.addLayout(self.zoom_y_layout)
self.chart_control_layout.addLayout(self.view_all_reset_chart_layout)
self.chart_control_layout.addLayout(self.pause_chart_layout)
self.chart_control_layout.addLayout(self.crosshair_settings_layout)
self.chart_control_layout.addLayout(self.import_export_data_layout)
self.chart_control_layout.insertSpacing(5, 30)
self.chart_layout.addWidget(self.chart)
self.chart_layout.addLayout(self.chart_control_layout)
self.chart_panel.setLayout(self.chart_layout)
self.splitter.addWidget(self.chart_panel)
self.splitter.addWidget(self.tab_panel)
self.splitter.setSizes([1, 0])
self.splitter.setHandleWidth(10)
self.splitter.setStretchFactor(0, 0)
self.splitter.setStretchFactor(1, 1)
self.charting_layout.addWidget(self.splitter)
self.body_layout.addWidget(self.pv_add_panel)
self.body_layout.addLayout(self.charting_layout)
self.body_layout.setSpacing(0)
self.body_layout.setContentsMargins(0, 0, 0, 0)
self.main_layout.addLayout(self.body_layout)
self.enable_chart_control_buttons(False)
handle = self.splitter.handle(1)
layout = QVBoxLayout()
layout.setContentsMargins(0, 0, 0, 0)
button = QToolButton(handle)
button.setArrowType(Qt.LeftArrow)
button.clicked.connect(lambda: self.handle_splitter_button(True))
layout.addWidget(button)
button = QToolButton(handle)
button.setArrowType(Qt.RightArrow)
button.clicked.connect(lambda: self.handle_splitter_button(False))
layout.addWidget(button)
handle.setLayout(layout)
def handle_splitter_button(self, left=True):
if left:
self.splitter.setSizes([1, 1])
else:
self.splitter.setSizes([1, 0])
def change_legend_font(self, font):
if font is None:
return
self.legend_font = font
items = self.chart.plotItem.legend.items
for i in items:
i[1].item.setFont(font)
i[1].resizeEvent(None)
i[1].updateGeometry()
def change_title_font(self, font):
current_text = self.chart.plotItem.titleLabel.text
args = {
"family": font.family,
"size": "{}pt".format(font.pointSize()),
"bold": font.bold(),
"italic": font.italic(),
}
self.chart.plotItem.titleLabel.setText(current_text, **args)
def handle_chart_font_changed(self, target):
if target not in ("title", "legend"):
return
dialog = QFontDialog(self)
dialog.setOption(QFontDialog.DontUseNativeDialog, True)
if target == "title":
dialog.fontSelected.connect(self.change_title_font)
else:
dialog.fontSelected.connect(self.change_legend_font)
dialog.open()
def setup_data_tab_layout(self):
self.chart_sync_mode_sync_radio.toggled.connect(
partial(self.handle_sync_mode_radio_toggle,
self.chart_sync_mode_sync_radio))
self.chart_sync_mode_async_radio.toggled.connect(
partial(self.handle_sync_mode_radio_toggle,
self.chart_sync_mode_async_radio))
self.chart_sync_mode_layout.addWidget(self.chart_sync_mode_sync_radio)
self.chart_sync_mode_layout.addWidget(self.chart_sync_mode_async_radio)
self.chart_sync_mode_grpbx.setLayout(self.chart_sync_mode_layout)
self.data_tab_layout.addWidget(self.chart_sync_mode_grpbx)
self.chart_limit_time_span_layout.addWidget(
self.chart_limit_time_span_lbl)
self.chart_limit_time_span_layout.addWidget(
self.chart_limit_time_span_hours_spin_box)
self.chart_limit_time_span_layout.addWidget(
self.chart_limit_time_span_minutes_spin_box)
self.chart_limit_time_span_layout.addWidget(
self.chart_limit_time_span_seconds_spin_box)
self.chart_limit_time_span_layout.addWidget(
self.chart_limit_time_span_activate_btn)
self.chart_limit_time_span_lbl.hide()
self.chart_limit_time_span_hours_spin_box.hide()
self.chart_limit_time_span_minutes_spin_box.hide()
self.chart_limit_time_span_seconds_spin_box.hide()
self.chart_limit_time_span_activate_btn.hide()
self.chart_limit_time_span_hours_spin_box.valueChanged.connect(
self.handle_time_span_changed)
self.chart_limit_time_span_minutes_spin_box.valueChanged.connect(
self.handle_time_span_changed)
self.chart_limit_time_span_seconds_spin_box.valueChanged.connect(
self.handle_time_span_changed)
self.chart_limit_time_span_chk.clicked.connect(
self.handle_limit_time_span_checkbox_clicked)
self.chart_limit_time_span_activate_btn.clicked.connect(
self.handle_chart_limit_time_span_activate_btn_clicked)
self.chart_interval_layout.addRow(self.chart_redraw_rate_lbl,
self.chart_redraw_rate_spin)
self.chart_interval_layout.addRow(
self.chart_data_sampling_rate_lbl,
self.chart_data_async_sampling_rate_spin)
self.graph_drawing_settings_layout.addLayout(
self.chart_interval_layout)
self.graph_drawing_settings_layout.addWidget(
self.chart_limit_time_span_chk)
self.graph_drawing_settings_layout.addLayout(
self.chart_limit_time_span_layout)
self.chart_ring_buffer_layout.addRow(self.chart_ring_buffer_size_lbl,
self.chart_ring_buffer_size_edt)
self.graph_drawing_settings_layout.addLayout(
self.chart_ring_buffer_layout)
self.graph_drawing_settings_grpbx.setLayout(
self.graph_drawing_settings_layout)
self.data_tab_layout.addWidget(self.graph_drawing_settings_grpbx)
self.chart_sync_mode_async_radio.toggled.emit(True)
self.data_tab_layout.addWidget(self.reset_data_settings_btn)
def setup_chart_settings_layout(self):
self.chart_title_layout.addWidget(self.chart_title_lbl)
self.chart_title_layout.addWidget(self.chart_title_line_edt)
self.chart_title_layout.addWidget(self.chart_title_font_btn)
self.title_settings_layout.addLayout(self.chart_title_layout)
legend_layout = QHBoxLayout()
legend_layout.addWidget(self.show_legend_chk)
legend_layout.addWidget(self.legend_font_btn)
self.title_settings_layout.addLayout(legend_layout)
self.title_settings_layout.addWidget(
self.chart_change_axis_settings_btn)
self.title_settings_grpbx.setLayout(self.title_settings_layout)
self.chart_settings_layout.addWidget(self.title_settings_grpbx)
self.graph_background_color_layout.addRow(self.background_color_lbl,
self.background_color_btn)
self.axis_settings_layout.addLayout(self.graph_background_color_layout)
self.axis_grid_color_layout.addRow(self.axis_color_lbl,
self.axis_color_btn)
self.axis_settings_layout.addLayout(self.axis_grid_color_layout)
self.axis_settings_layout.addWidget(self.show_x_grid_chk)
self.axis_settings_layout.addWidget(self.show_y_grid_chk)
self.axis_settings_layout.addWidget(self.grid_opacity_lbl)
self.axis_settings_layout.addWidget(self.grid_opacity_slr)
self.axis_settings_grpbx.setLayout(self.axis_settings_layout)
self.chart_settings_layout.addWidget(self.axis_settings_grpbx)
self.chart_settings_layout.addWidget(self.reset_chart_settings_btn)
self.update_datetime_timer.start(1000)
def add_curve(self):
"""
Add a new curve to the chart.
"""
pv_name = self._get_full_pv_name(self.pv_name_line_edt.text())
if pv_name and len(pv_name):
color = random_color(curve_colors_only=True)
for k, v in self.channel_map.items():
if color == v.color:
color = random_color(curve_colors_only=True)
self.add_y_channel(pv_name=pv_name,
curve_name=pv_name,
color=color)
self.handle_splitter_button(left=True)
def show_mouse_coordinates(self, x, y):
self.crosshair_coord_lbl.clear()
self.crosshair_coord_lbl.setText("x = {0:.3f}\ny = {1:.3f}".format(
x, y))
def handle_enable_crosshair_checkbox_clicked(self, is_checked):
self.chart.enableCrosshair(is_checked)
self.crosshair_coord_lbl.setVisible(is_checked)
self.chart.crosshair_position_updated.connect(
self.show_mouse_coordinates)
def add_y_channel(self,
pv_name,
curve_name,
color,
line_style=Qt.SolidLine,
line_width=2,
symbol=None,
symbol_size=None,
is_visible=True):
if pv_name in self.channel_map:
logger.error("'{0}' has already been added.".format(pv_name))
return
curve = self.chart.addYChannel(y_channel=pv_name,
name=curve_name,
color=color,
lineStyle=line_style,
lineWidth=line_width,
symbol=symbol,
symbolSize=symbol_size)
curve.show() if is_visible else curve.hide()
if self.show_legend_chk.isChecked():
self.change_legend_font(self.legend_font)
self.channel_map[pv_name] = curve
self.generate_pv_controls(pv_name, color)
self.enable_chart_control_buttons()
try:
self.app.add_connection(curve.channel)
except AttributeError:
# these methods are not needed on future versions of pydm
pass
def generate_pv_controls(self, pv_name, curve_color):
"""
Generate a set of widgets to manage the appearance of a curve. The set of widgets includes:
1. A checkbox which shows the curve on the chart if checked, and hide the curve if not
checked
2. Three buttons -- Modify..., Focus, and Remove. Modify... will bring up the Curve
Settings dialog. Focus adjusts the chart's zooming for the current curve.
Remove will delete the curve from the chart
Parameters
----------
pv_name: str
The name of the PV the current curve is being plotted for
curve_color : QColor
The color of the curve to paint for the checkbox label to help the user track the curve
to the checkbox
"""
individual_curve_layout = QVBoxLayout()
size_policy = QSizePolicy()
size_policy.setVerticalPolicy(QSizePolicy.Fixed)
size_policy.setHorizontalPolicy(QSizePolicy.Fixed)
individual_curve_grpbx = QGroupBox()
individual_curve_grpbx.setMinimumWidth(300)
individual_curve_grpbx.setMinimumHeight(120)
individual_curve_grpbx.setAlignment(Qt.AlignTop)
individual_curve_grpbx.setSizePolicy(size_policy)
individual_curve_grpbx.setObjectName(pv_name + "_grb")
individual_curve_grpbx.setLayout(individual_curve_layout)
checkbox = QCheckBox(parent=individual_curve_grpbx)
checkbox.setObjectName(pv_name + "_chb")
palette = checkbox.palette()
palette.setColor(QPalette.Active, QPalette.WindowText, curve_color)
checkbox.setPalette(palette)
display_name = pv_name.split("://")[1]
if len(display_name) > MAX_DISPLAY_PV_NAME_LENGTH:
# Only display max allowed number of characters of the PV Name
display_name = display_name[
:int(MAX_DISPLAY_PV_NAME_LENGTH / 2) - 1] + "..." + \
display_name[
-int(MAX_DISPLAY_PV_NAME_LENGTH / 2) + 2:]
checkbox.setText(display_name)
data_text = QLabel(parent=individual_curve_grpbx)
data_text.setWordWrap(True)
data_text.setObjectName(pv_name + "_lbl")
data_text.setPalette(palette)
checkbox.setChecked(True)
checkbox.toggled.connect(
partial(self.handle_curve_chkbox_toggled, checkbox))
if not self.chart.findCurve(pv_name).isVisible():
checkbox.setChecked(False)
modify_curve_btn = QPushButton("Modify...",
parent=individual_curve_grpbx)
modify_curve_btn.setObjectName(pv_name + "_btn_modify")
modify_curve_btn.setMaximumWidth(80)
modify_curve_btn.clicked.connect(
partial(self.display_curve_settings_dialog, pv_name))
focus_curve_btn = QPushButton("Focus", parent=individual_curve_grpbx)
focus_curve_btn.setObjectName(pv_name + "_btn_focus")
focus_curve_btn.setMaximumWidth(80)
focus_curve_btn.clicked.connect(partial(self.focus_curve, pv_name))
clear_curve_btn = QPushButton("Clear", parent=individual_curve_grpbx)
clear_curve_btn.setObjectName(pv_name + "_btn_clear")
clear_curve_btn.setMaximumWidth(80)
clear_curve_btn.clicked.connect(partial(self.clear_curve, pv_name))
# annotate_curve_btn = QPushButton("Annotate...",
# parent=individual_curve_grpbx)
# annotate_curve_btn.setObjectName(pv_name+"_btn_ann")
# annotate_curve_btn.setMaximumWidth(80)
# annotate_curve_btn.clicked.connect(
# partial(self.annotate_curve, pv_name))
remove_curve_btn = QPushButton("Remove", parent=individual_curve_grpbx)
remove_curve_btn.setObjectName(pv_name + "_btn_remove")
remove_curve_btn.setMaximumWidth(80)
remove_curve_btn.clicked.connect(partial(self.remove_curve, pv_name))
curve_btn_layout = QHBoxLayout()
curve_btn_layout.setSpacing(5)
curve_btn_layout.addWidget(modify_curve_btn)
curve_btn_layout.addWidget(focus_curve_btn)
curve_btn_layout.addWidget(clear_curve_btn)
# curve_btn_layout.addWidget(annotate_curve_btn)
curve_btn_layout.addWidget(remove_curve_btn)
individual_curve_layout.addWidget(checkbox)
individual_curve_layout.addWidget(data_text)
individual_curve_layout.addLayout(curve_btn_layout)
self.curve_settings_layout.addWidget(individual_curve_grpbx)
self.tab_panel.setCurrentIndex(0)
def handle_curve_chkbox_toggled(self, checkbox):
"""
Handle a checkbox's checked and unchecked events.
If a checkbox is checked, find the curve from the channel map. If found, re-draw the curve with its previous
appearance settings.
If a checkbox is unchecked, remove the curve from the chart, but keep the cached data in the channel map.
Parameters
----------
checkbox : QCheckBox
The current checkbox being toggled
"""
pv_name = self._get_full_pv_name(checkbox.text())
if checkbox.isChecked():
curve = self.channel_map.get(pv_name, None)
if curve:
curve.show()
self.chart.addLegendItem(curve, pv_name,
self.show_legend_chk.isChecked())
self.change_legend_font(self.legend_font)
else:
curve = self.chart.findCurve(pv_name)
if curve:
curve.hide()
self.chart.removeLegendItem(pv_name)
def display_curve_settings_dialog(self, pv_name):
"""
Bring up the Curve Settings dialog to modify the appearance of a curve.
Parameters
----------
pv_name : str
The name of the PV the curve is being plotted for
"""
self.curve_settings_disp = CurveSettingsDisplay(self, pv_name)
self.curve_settings_disp.show()
def focus_curve(self, pv_name):
curve = self.chart.findCurve(pv_name)
if curve:
self.chart.plotItem.setYRange(curve.minY, curve.maxY, padding=0)
def clear_curve(self, pv_name):
curve = self.chart.findCurve(pv_name)
if curve:
curve.initialize_buffer()
def annotate_curve(self, pv_name):
curve = self.chart.findCurve(pv_name)
if curve:
annot = TextItem(
html=
'<div style="text-align: center"><span style="color: #FFF;">This is the'
'</span><br><span style="color: #FF0; font-size: 16pt;">PEAK</span></div>',
anchor=(-0.3, 0.5),
border='w',
fill=(0, 0, 255, 100))
self.chart.annotateCurve(curve, annot)
def remove_curve(self, pv_name):
"""
Remove a curve from the chart permanently. This will also clear the channel map cache from retaining the
removed curve's appearance settings.
Parameters
----------
pv_name : str
The name of the PV the curve is being plotted for
"""
curve = self.chart.findCurve(pv_name)
if curve:
try:
self.app.remove_connection(curve.channel)
except AttributeError:
# these methods are not needed on future versions of pydm
pass
self.chart.removeYChannel(curve)
del self.channel_map[pv_name]
self.chart.removeLegendItem(pv_name)
widget = self.findChild(QGroupBox, pv_name + "_grb")
if widget:
widget.deleteLater()
if len(self.chart.getCurves()) < 1:
self.enable_chart_control_buttons(False)
self.show_legend_chk.setChecked(False)
def handle_title_text_changed(self, new_text):
self.chart.setPlotTitle(new_text)
def handle_change_axis_settings_clicked(self):
self.axis_settings_disp = AxisSettingsDisplay(self)
self.axis_settings_disp.show()
def handle_limit_time_span_checkbox_clicked(self, is_checked):
self.chart_limit_time_span_lbl.setVisible(is_checked)
self.chart_limit_time_span_hours_spin_box.setVisible(is_checked)
self.chart_limit_time_span_minutes_spin_box.setVisible(is_checked)
self.chart_limit_time_span_seconds_spin_box.setVisible(is_checked)
self.chart_limit_time_span_activate_btn.setVisible(is_checked)
self.chart_ring_buffer_size_lbl.setDisabled(is_checked)
self.chart_ring_buffer_size_edt.setDisabled(is_checked)
if not is_checked:
self.chart_limit_time_span_chk.setText(self.limit_time_plan_text)
def handle_time_span_changed(self):
self.time_span_limit_hours = self.chart_limit_time_span_hours_spin_box.value(
)
self.time_span_limit_minutes = self.chart_limit_time_span_minutes_spin_box.value(
)
self.time_span_limit_seconds = self.chart_limit_time_span_seconds_spin_box.value(
)
status = self.time_span_limit_hours > 0 or self.time_span_limit_minutes > 0 or self.time_span_limit_seconds > 0
self.chart_limit_time_span_activate_btn.setEnabled(status)
def handle_chart_limit_time_span_activate_btn_clicked(self):
timeout_milliseconds = (self.time_span_limit_hours * 3600 +
self.time_span_limit_minutes * 60 +
self.time_span_limit_seconds) * 1000
self.chart.setTimeSpan(timeout_milliseconds / 1000.0)
self.chart_ring_buffer_size_edt.setText(str(
self.chart.getBufferSize()))
def handle_buffer_size_changed(self):
try:
new_buffer_size = int(self.chart_ring_buffer_size_edt.text())
if new_buffer_size and int(new_buffer_size) >= MINIMUM_BUFFER_SIZE:
self.chart.setBufferSize(new_buffer_size)
except ValueError:
display_message_box(QMessageBox.Critical, "Invalid Values",
"Only integer values are accepted.")
def handle_redraw_rate_changed(self):
self.chart.maxRedrawRate = self.chart_redraw_rate_spin.value()
def handle_data_sampling_rate_changed(self):
# The chart expects the value in milliseconds
sampling_rate_seconds = 1.0 / self.chart_data_async_sampling_rate_spin.value(
)
buffer_size = self.chart.getBufferSize()
self.chart.setUpdateInterval(sampling_rate_seconds)
if self.chart.getBufferSize() < buffer_size:
self.chart.setBufferSize(buffer_size)
self.chart_ring_buffer_size_edt.setText(str(
self.chart.getBufferSize()))
def handle_background_color_button_clicked(self):
selected_color = QColorDialog.getColor()
self.chart.setBackgroundColor(selected_color)
self.background_color_btn.setStyleSheet("background-color: " +
selected_color.name())
def handle_axis_color_button_clicked(self):
selected_color = QColorDialog.getColor()
self.chart.setAxisColor(selected_color)
self.axis_color_btn.setStyleSheet("background-color: " +
selected_color.name())
def handle_grid_opacity_slider_mouse_release(self):
self.grid_alpha = float(self.grid_opacity_slr.value()) / 10.0
self.chart.setShowXGrid(self.show_x_grid_chk.isChecked(),
self.grid_alpha)
self.chart.setShowYGrid(self.show_y_grid_chk.isChecked(),
self.grid_alpha)
def handle_show_x_grid_checkbox_clicked(self, is_checked):
self.chart.setShowXGrid(is_checked, self.grid_alpha)
self.grid_opacity_lbl.setEnabled(is_checked
or self.show_y_grid_chk.isChecked())
self.grid_opacity_slr.setEnabled(is_checked
or self.show_y_grid_chk.isChecked())
def handle_show_y_grid_checkbox_clicked(self, is_checked):
self.chart.setShowYGrid(is_checked, self.grid_alpha)
self.grid_opacity_lbl.setEnabled(is_checked
or self.show_x_grid_chk.isChecked())
self.grid_opacity_slr.setEnabled(is_checked
or self.show_x_grid_chk.isChecked())
def handle_show_legend_checkbox_clicked(self, is_checked):
self.chart.setShowLegend(is_checked)
def handle_export_data_btn_clicked(self):
self.chart_data_export_disp = ChartDataExportDisplay(self)
self.chart_data_export_disp.show()
def handle_import_data_btn_clicked(self):
open_file_info = QFileDialog.getOpenFileName(
self,
caption="Open File",
directory=os.path.expanduser('~'),
filter=IMPORT_FILE_FORMAT)
open_filename = open_file_info[0]
if open_filename:
try:
importer = SettingsImporter(self)
importer.import_settings(open_filename)
except SettingsImporterException:
display_message_box(
QMessageBox.Critical, "Import Failure",
"Cannot import the file '{0}'. Check the log for the error details."
.format(open_filename))
logger.exception(
"Cannot import the file '{0}'".format(open_filename))
def handle_sync_mode_radio_toggle(self, radio_btn):
if radio_btn.isChecked():
if radio_btn.text() == "Synchronous":
self.data_sampling_mode = SYNC_DATA_SAMPLING
self.chart_data_sampling_rate_lbl.hide()
self.chart_data_async_sampling_rate_spin.hide()
self.chart.resetTimeSpan()
self.chart_limit_time_span_chk.setChecked(False)
self.chart_limit_time_span_chk.clicked.emit(False)
self.chart_limit_time_span_chk.hide()
self.chart.setUpdatesAsynchronously(False)
elif radio_btn.text() == "Asynchronous":
self.data_sampling_mode = ASYNC_DATA_SAMPLING
self.chart_data_sampling_rate_lbl.show()
self.chart_data_async_sampling_rate_spin.show()
self.chart_limit_time_span_chk.show()
self.chart.setUpdatesAsynchronously(True)
def handle_zoom_in_btn_clicked(self, axis, is_zoom_in):
scale_factor = 0.5
if not is_zoom_in:
scale_factor += 1.0
if axis == "x":
self.chart.getViewBox().scaleBy(x=scale_factor)
elif axis == "y":
self.chart.getViewBox().scaleBy(y=scale_factor)
def handle_view_all_button_clicked(self):
self.chart.plotItem.getViewBox().autoRange()
def handle_pause_chart_btn_clicked(self):
if self.chart.pausePlotting():
self.pause_chart_btn.setIcon(self.pause_icon)
else:
self.pause_chart_btn.setIcon(self.play_icon)
def handle_reset_chart_btn_clicked(self):
self.chart.getViewBox().setXRange(DEFAULT_X_MIN, 0)
self.chart.resetAutoRangeY()
@Slot()
def handle_reset_chart_settings_btn_clicked(self):
self.chart.setBackgroundColor(DEFAULT_CHART_BACKGROUND_COLOR)
self.background_color_btn.setStyleSheet(
"background-color: " + DEFAULT_CHART_BACKGROUND_COLOR.name())
self.chart.setAxisColor(DEFAULT_CHART_AXIS_COLOR)
self.axis_color_btn.setStyleSheet("background-color: " +
DEFAULT_CHART_AXIS_COLOR.name())
self.grid_opacity_slr.setValue(5)
self.show_x_grid_chk.setChecked(False)
self.show_x_grid_chk.clicked.emit(False)
self.show_y_grid_chk.setChecked(False)
self.show_y_grid_chk.clicked.emit(False)
self.show_legend_chk.setChecked(False)
self.chart.setShowXGrid(False)
self.chart.setShowYGrid(False)
self.chart.setShowLegend(False)
@Slot()
def handle_reset_data_settings_btn_clicked(self):
self.chart_ring_buffer_size_edt.setText(str(DEFAULT_BUFFER_SIZE))
self.chart_redraw_rate_spin.setValue(DEFAULT_REDRAW_RATE_HZ)
self.handle_redraw_rate_changed()
self.chart_data_async_sampling_rate_spin.setValue(
DEFAULT_DATA_SAMPLING_RATE_HZ)
self.chart_data_sampling_rate_lbl.hide()
self.chart_data_async_sampling_rate_spin.hide()
self.chart_sync_mode_async_radio.setChecked(True)
self.chart_sync_mode_async_radio.toggled.emit(True)
self.chart_limit_time_span_chk.setChecked(False)
self.chart_limit_time_span_chk.setText(self.limit_time_plan_text)
self.chart_limit_time_span_chk.clicked.emit(False)
self.chart.setUpdatesAsynchronously(True)
self.chart.resetTimeSpan()
self.chart.resetUpdateInterval()
self.chart.setBufferSize(DEFAULT_BUFFER_SIZE)
def enable_chart_control_buttons(self, enabled=True):
self.zoom_in_x_btn.setEnabled(enabled)
self.zoom_out_x_btn.setEnabled(enabled)
self.zoom_in_y_btn.setEnabled(enabled)
self.zoom_out_y_btn.setEnabled(enabled)
self.view_all_btn.setEnabled(enabled)
self.reset_chart_btn.setEnabled(enabled)
self.pause_chart_btn.setIcon(self.pause_icon)
self.pause_chart_btn.setEnabled(enabled)
self.export_data_btn.setEnabled(enabled)
def _get_full_pv_name(self, pv_name):
"""
Append the protocol to the PV Name.
Parameters
----------
pv_name : str
The name of the PV the curve is being plotted for
"""
if pv_name and "://" not in pv_name:
pv_name = ''.join([self.pv_protocol_cmb.currentText(), pv_name])
return pv_name
def handle_update_datetime_timer_timeout(self):
current_label = self.chart.getBottomAxisLabel()
new_label = "Current Time: " + TimeChartDisplay.get_current_datetime()
if X_AXIS_LABEL_SEPARATOR in current_label:
current_label = current_label[current_label.
find(X_AXIS_LABEL_SEPARATOR) +
len(X_AXIS_LABEL_SEPARATOR):]
new_label += X_AXIS_LABEL_SEPARATOR + current_label
self.chart.setLabel("bottom", text=new_label)
def update_curve_data(self, curve):
"""
Determine if the PV is active. If not, disable the related PV controls.
If the PV is active, update the PV controls' states.
Parameters
----------
curve : PlotItem
A PlotItem, i.e. a plot, to draw on the chart.
"""
pv_name = curve.address
min_y = curve.minY if curve.minY else 0
max_y = curve.maxY if curve.maxY else 0
current_y = curve.data_buffer[1, -1]
grb = self.findChild(QGroupBox, pv_name + "_grb")
lbl = grb.findChild(QLabel, pv_name + "_lbl")
lbl.setText("(yMin = {0:.3f}, yMax = {1:.3f}) y = {2:.3f}".format(
min_y, max_y, current_y))
chb = grb.findChild(QCheckBox, pv_name + "_chb")
connected = curve.connected
if connected and chb.isEnabled():
return
chb.setEnabled(connected)
btn_modify = grb.findChild(QPushButton, pv_name + "_btn_modify")
btn_modify.setEnabled(connected)
btn_focus = grb.findChild(QPushButton, pv_name + "_btn_focus")
btn_focus.setEnabled(connected)
# btn_ann = grb.findChild(QPushButton, pv_name + "_btn_ann")
# btn_ann.setEnabled(connected)
@staticmethod
def get_current_datetime():
current_date = datetime.datetime.now().strftime("%b %d, %Y")
current_time = datetime.datetime.now().strftime("%H:%M:%S")
current_datetime = current_time + ' (' + current_date + ')'
return current_datetime
@property
def gridAlpha(self):
return self.grid_alpha
class DimensionNonIntegrated(Dimension):
binningChanged = Signal()
"""
A dimension that can either be sliced through or rebinned. It
has additional properties for either number_of_bins or thickness
from mantidqt.widgets.sliceviewer.dimensionwidget import DimensionMDE
from qtpy.QtWidgets import QApplication
app = QApplication([])
window = DimensionNonIntegrated({'minimum':-1.1, 'number_of_bins':11,
'width':0.2, 'name':'Dim0', 'units':'A'})
window.show()
app.exec_()
"""
def __init__(self, dim_info, number=0, state=State.NONE, parent=None):
# hack in a number_of_bins for MDEventWorkspace
if dim_info['type'] == 'MDE':
dim_info['number_of_bins'] = 100
dim_info['width'] = (dim_info['maximum'] -
dim_info['minimum']) / 100
self.spinBins = QSpinBox()
self.spinBins.setRange(2, 9999)
self.spinBins.setValue(dim_info['number_of_bins'])
self.spinBins.hide()
self.spinBins.setMinimumWidth(110)
self.spinThick = QDoubleSpinBox()
self.spinThick.setRange(0.001, 999)
self.spinThick.setValue(0.1)
self.spinThick.setSingleStep(0.1)
self.spinThick.setDecimals(3)
self.spinThick.setMinimumWidth(110)
self.rebinLabel = QLabel("thick")
self.rebinLabel.setMinimumWidth(44)
super().__init__(dim_info, number, state, parent)
self.spinBins.valueChanged.connect(self.binningChanged)
self.spinThick.valueChanged.connect(self.valueChanged)
self.layout.addWidget(self.spinBins)
self.layout.addWidget(self.spinThick)
self.layout.addWidget(self.rebinLabel)
def get_bins(self):
return int(self.spinBins.value())
def get_thickness(self):
return float(self.spinThick.value())
def set_state(self, state):
super().set_state(state)
if self.state == State.X:
self.spinBins.show()
self.spinThick.hide()
self.rebinLabel.setText('bins')
elif self.state == State.Y:
self.spinBins.show()
self.spinThick.hide()
self.rebinLabel.setText('bins')
elif self.state == State.NONE:
self.spinBins.hide()
self.spinThick.show()
self.rebinLabel.setText('thick')
else:
self.spinBins.hide()
self.spinThick.hide()
self.rebinLabel.hide()
def set_value(self, value):
"""Override the set_value for MDE, this allows the exact value to be
set instead of limiting to the value of the slider. This
allows when selecting a peak to go to the exact layer where
the peak is.
"""
self.value = value
# temporary disable updating value from slider change
self.update_value_from_slider = False
self.update_slider()
self.update_value_from_slider = True
self.update_spinbox()
class DimensionMDE(Dimension):
binningChanged = Signal()
"""
MDEventWorkspace has additional properties for either number_of_bins or thickness
from mantidqt.widgets.sliceviewer.dimensionwidget import DimensionMDE
from qtpy.QtWidgets import QApplication
app = QApplication([])
window = DimensionMDE({'minimum':-1.1, 'number_of_bins':11, 'width':0.2, 'name':'Dim0', 'units':'A'})
window.show()
app.exec_()
"""
def __init__(self, dim_info, number=0, state=State.NONE, parent=None):
# hack in a number_of_bins for MDEventWorkspace
dim_info['number_of_bins'] = 1000
dim_info['width'] = (dim_info['maximum']-dim_info['minimum'])/1000
self.spinBins = QSpinBox()
self.spinBins.setRange(2,9999)
self.spinBins.setValue(100)
self.spinBins.hide()
self.spinBins.setMinimumWidth(110)
self.spinThick = QDoubleSpinBox()
self.spinThick.setRange(0.001,999)
self.spinThick.setValue(0.1)
self.spinThick.setSingleStep(0.1)
self.spinThick.setDecimals(3)
self.spinThick.setMinimumWidth(110)
self.rebinLabel = QLabel("thick")
self.rebinLabel.setMinimumWidth(44)
super(DimensionMDE, self).__init__(dim_info, number, state, parent)
self.spinBins.valueChanged.connect(self.binningChanged)
self.spinThick.valueChanged.connect(self.valueChanged)
self.layout.addWidget(self.spinBins)
self.layout.addWidget(self.spinThick)
self.layout.addWidget(self.rebinLabel)
def get_bins(self):
return int(self.spinBins.value())
def get_thickness(self):
return float(self.spinThick.value())
def set_state(self, state):
super(DimensionMDE, self).set_state(state)
if self.state == State.X:
self.spinBins.show()
self.spinThick.hide()
self.rebinLabel.setText('bins')
elif self.state == State.Y:
self.spinBins.show()
self.spinThick.hide()
self.rebinLabel.setText('bins')
elif self.state == State.NONE:
self.spinBins.hide()
self.spinThick.show()
self.rebinLabel.setText('thick')
else:
self.spinBins.hide()
self.spinThick.hide()
self.rebinLabel.hide()
