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 create_controls(self):
"""
Create UI controls.
"""
vbox = QVBoxLayout()
form = QFormLayout()
self.num_angle = QDoubleSpinBox()
self.num_angle.setValue(0.0)
self.num_angle.setMinimum(-360)
self.num_angle.setMaximum(360)
form.addRow(tr("Angle:"), self.num_angle)
vbox.addLayout(form)
self.gbo_preview = QGroupBox(tr("Preview"))
self.gbo_preview.setCheckable(True)
self.gbo_preview.setChecked(False)
gbo_vbox = QVBoxLayout()
self.chk_grid = QCheckBox(tr("Grid"))
self.chk_grid.setChecked(False)
self.num_grid = QSpinBox()
self.num_grid.setValue(4)
self.num_grid.setMinimum(1)
self.num_grid.setEnabled(False)
self.chk_grid.toggled[bool].connect(self.num_grid.setEnabled)
gbo_vbox.addWidget(self.chk_grid)
gbo_vbox.addWidget(self.num_grid)
self.gbo_preview.setLayout(gbo_vbox)
vbox.addWidget(self.gbo_preview)
self.gbo_preview.toggled[bool].connect(self.set_preview)
self.gbo_output = QGroupBox(tr("Output"))
self.opt_new = QRadioButton(tr("New signal"))
self.opt_replace = QRadioButton(tr("In place"))
self.opt_new.setChecked(True)
gbo_vbox2 = QVBoxLayout()
gbo_vbox2.addWidget(self.opt_new)
gbo_vbox2.addWidget(self.opt_replace)
self.gbo_output.setLayout(gbo_vbox2)
vbox.addWidget(self.gbo_output)
self.chk_reshape = QCheckBox(tr("Resize to fit"))
self.chk_reshape.setChecked(False)
vbox.addWidget(self.chk_reshape)
self.btn_ok = QPushButton(tr("&OK"))
self.btn_ok.setDefault(True)
self.btn_ok.clicked.connect(self.accept)
self.btn_cancel = QPushButton(tr("&Cancel"))
self.btn_cancel.clicked.connect(self.reject)
hbox = QHBoxLayout()
hbox.addWidget(self.btn_ok)
hbox.addWidget(self.btn_cancel)
vbox.addLayout(hbox)
vbox.addStretch(1)
self.setLayout(vbox)
def __init__(self, dim_info, number=0, state=State.NONE, parent=None):
super(Dimension, self).__init__(parent)
self.minimum = dim_info['minimum']
self.nbins = dim_info['number_of_bins']
self.width = dim_info['width']
self.number = number
self.layout = QHBoxLayout(self)
self.name = QLabel(dim_info['name'])
self.units = QLabel(dim_info['units'])
self.x = QPushButton('X')
self.x.setFixedSize(32,32)
self.x.setCheckable(True)
self.x.clicked.connect(self.x_clicked)
self.y = QPushButton('Y')
self.y.setFixedSize(32,32)
self.y.setCheckable(True)
self.y.clicked.connect(self.y_clicked)
self.slider = QSlider(Qt.Horizontal)
self.slider.setRange(0, self.nbins-1)
self.slider.valueChanged.connect(self.slider_changed)
self.spinbox = QDoubleSpinBox()
self.spinbox.setDecimals(3)
self.spinbox.setRange(self.get_bin_center(0), self.get_bin_center(self.nbins-1))
self.spinbox.setSingleStep(self.width)
self.spinbox.valueChanged.connect(self.spinbox_changed)
self.layout.addWidget(self.name)
self.layout.addWidget(self.x)
self.layout.addWidget(self.y)
self.layout.addWidget(self.slider, stretch=1)
self.layout.addStretch(0)
self.layout.addWidget(self.spinbox)
self.layout.addWidget(self.units)
self.set_value(0)
if self.nbins < 2:
state = State.DISABLE
self.set_state(state)
def __init__(self, parent=None, value_range=(0, 100), slider_steps=100, spinbox_steps=1000, decimals=None):
QWidget.__init__(self, parent)
layout = QHBoxLayout(self)
self.setLayout(layout)
self.horizontalSlider = QSlider(Qt.Horizontal, self)
self.doubleSpinBox = QDoubleSpinBox(self)
self.decimals = decimals
layout.setMargin(0)
layout.addWidget(self.doubleSpinBox)
layout.addWidget(self.horizontalSlider)
self.doubleSpinBox.valueChanged.connect(self.spinbox_changed)
self.horizontalSlider.valueChanged.connect(self.slider_changed)
self.wt = []
self.changer = None
self.slider_steps = slider_steps
self.horizontalSlider.setMaximum(slider_steps)
self.spinbox_steps = spinbox_steps
self.set_range(value_range)
def create_widgets(self):
"""creates the display window"""
# Text Size
self.font_size_label = QLabel("Font Size:")
self.font_size_edit = QSpinBox(self)
self.font_size_edit.setValue(self._default_font_size)
self.font_size_edit.setRange(7, 20)
self.font_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Annotation Color
self.annotation_color_label = QLabel("Annotation Color:")
self.annotation_color_edit = QPushButtonColor(self.annotation_color_int)
self.annotation_color_label.hide()
self.annotation_color_edit.hide()
#-----------------------------------------------------------------------
# Text Color
self.text_size_label = QLabel("Text Size:")
self.text_size_edit = QSpinBox(self)
self.text_size_edit.setValue(self._default_text_size)
self.text_size_edit.setRange(7, 30)
self.text_size_button = QPushButton("Default")
# Text Color
self.text_color_label = QLabel("Text Color:")
self.text_color_edit = QPushButtonColor(self.text_color_int)
#-----------------------------------------------------------------------
# Background Color
self.background_color_label = QLabel("Btm Background Color:")
self.background_color_edit = QPushButtonColor(self.background_color_int)
# Background Color2
self.gradient_scale_label = QLabel("Gradient Background:")
self.gradient_scale_checkbox = QCheckBox()
self.gradient_scale_checkbox.setChecked(self._use_gradient_background)
self.background_color2_label = QLabel("Top Background Color:")
self.background_color2_edit = QPushButtonColor(self.background_color2_int)
#-----------------------------------------------------------------------
# Annotation Size
self.annotation_size_label = QLabel("Annotation Size:")
self.annotation_size_edit = QSpinBox(self)
self.annotation_size_edit.setRange(1, 500)
self.annotation_size_edit.setValue(self._annotation_size)
self.annotation_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Picker Size
self.picker_size_label = QLabel("Picker Size (% of Screen):")
self.picker_size_edit = QDoubleSpinBox(self)
self.picker_size_edit.setRange(0., 10.)
log_dim = log10(self.dim_max)
decimals = int(ceil(abs(log_dim)))
decimals = max(6, decimals)
self.picker_size_edit.setDecimals(decimals)
self.picker_size_edit.setSingleStep(10. / 5000.)
self.picker_size_edit.setValue(self._picker_size)
#-----------------------------------------------------------------------
# Clipping Min
self.clipping_min_label = QLabel("Clipping Min:")
self.clipping_min_edit = QLineEdit(str(self._default_clipping_min))
self.clipping_min_button = QPushButton("Default")
# Clipping Max
self.clipping_max_label = QLabel("Clipping Max:")
self.clipping_max_edit = QLineEdit(str(self._default_clipping_max))
self.clipping_max_button = QPushButton("Default")
#-----------------------------------------------------------------------
self.coord_scale_label = QLabel('Coordinate System Scale:')
self.coord_scale_button = QPushButton("Default")
self.coord_scale_edit = QDoubleSpinBox(self)
self.coord_scale_edit.setRange(0.1, 100.)
self.coord_scale_edit.setDecimals(3)
self.coord_scale_edit.setSingleStep(2.5)
self.coord_scale_edit.setValue(self._coord_scale)
self.coord_text_scale_label = QLabel('Coordinate System Text Scale:')
self.coord_text_scale_button = QPushButton("Default")
self.coord_text_scale_edit = QDoubleSpinBox(self)
self.coord_text_scale_edit.setRange(0.1, 200.)
self.coord_text_scale_edit.setDecimals(3)
self.coord_text_scale_edit.setSingleStep(2.5)
self.coord_text_scale_edit.setValue(self._coord_text_scale)
#-----------------------------------------------------------------------
self.magnify_label = QLabel('Screenshot Magnify:')
self.magnify_edit = QSpinBox(self)
self.magnify_edit.setMinimum(1)
self.magnify_edit.setMaximum(10)
self.magnify_edit.setValue(self._magnify)
#-----------------------------------------------------------------------
# closing
self.apply_button = QPushButton("Apply")
self.ok_button = QPushButton("OK")
self.cancel_button = QPushButton("Cancel")
class QtVectorsControls(QtLayerControls):
"""Qt view and controls for the napari Vectors layer.
Parameters
----------
layer : napari.layers.Vectors
An instance of a napari Vectors layer.
Attributes
----------
edge_color_label : qtpy.QtWidgets.QLabel
Label for edgeColorSwatch
edgeColorSwatch : qtpy.QtWidgets.QFrame
Color swatch showing display color of vectors.
edgeComboBox : qtpy.QtWidgets.QComboBox
Dropdown widget to select display color for vectors.
color_mode_comboBox : qtpy.QtWidgets.QComboBox
Dropdown widget to select edge_color_mode for the vectors.
color_prop_box : qtpy.QtWidgets.QComboBox
Dropdown widget to select _edge_color_property for the vectors.
edge_prop_label : qtpy.QtWidgets.QLabel
Label for color_prop_box
grid_layout : qtpy.QtWidgets.QGridLayout
Layout of Qt widget controls for the layer.
layer : napari.layers.Vectors
An instance of a napari Vectors layer.
outOfSliceCheckBox : qtpy.QtWidgets.QCheckBox
Checkbox to indicate whether to render out of slice.
lengthSpinBox : qtpy.QtWidgets.QDoubleSpinBox
Spin box widget controlling line length of vectors.
Multiplicative factor on projections for length of all vectors.
widthSpinBox : qtpy.QtWidgets.QDoubleSpinBox
Spin box widget controlling edge line width of vectors.
"""
def __init__(self, layer):
super().__init__(layer)
self.layer.events.edge_width.connect(self._on_edge_width_change)
self.layer.events.length.connect(self._on_length_change)
self.layer.events.out_of_slice_display.connect(
self._on_out_of_slice_display_change
)
self.layer.events.edge_color_mode.connect(
self._on_edge_color_mode_change
)
self.layer.events.edge_color.connect(self._on_edge_color_change)
# dropdown to select the property for mapping edge_color
color_properties = self._get_property_values()
color_prop_box = QComboBox(self)
color_prop_box.activated[str].connect(self.change_edge_color_property)
color_prop_box.addItems(color_properties)
self.color_prop_box = color_prop_box
self.edge_prop_label = QLabel(trans._('edge property:'))
# vector direct color mode adjustment and widget
self.edgeColorEdit = QColorSwatchEdit(
initial_color=self.layer.edge_color,
tooltip=trans._(
'click to set current edge color',
),
)
self.edgeColorEdit.color_changed.connect(self.change_edge_color_direct)
self.edge_color_label = QLabel(trans._('edge color:'))
self._on_edge_color_change()
# dropdown to select the edge color mode
colorModeComboBox = QComboBox(self)
color_modes = [e.value for e in ColorMode]
colorModeComboBox.addItems(color_modes)
colorModeComboBox.activated[str].connect(self.change_edge_color_mode)
self.color_mode_comboBox = colorModeComboBox
self._on_edge_color_mode_change()
# line width in pixels
self.widthSpinBox = QDoubleSpinBox()
self.widthSpinBox.setKeyboardTracking(False)
self.widthSpinBox.setSingleStep(0.1)
self.widthSpinBox.setMinimum(0.1)
self.widthSpinBox.setMaximum(np.inf)
self.widthSpinBox.setValue(self.layer.edge_width)
self.widthSpinBox.valueChanged.connect(self.change_width)
# line length
self.lengthSpinBox = QDoubleSpinBox()
self.lengthSpinBox.setKeyboardTracking(False)
self.lengthSpinBox.setSingleStep(0.1)
self.lengthSpinBox.setValue(self.layer.length)
self.lengthSpinBox.setMinimum(0.1)
self.lengthSpinBox.setMaximum(np.inf)
self.lengthSpinBox.valueChanged.connect(self.change_length)
out_of_slice_cb = QCheckBox()
out_of_slice_cb.setToolTip(trans._('Out of slice display'))
out_of_slice_cb.setChecked(self.layer.out_of_slice_display)
out_of_slice_cb.stateChanged.connect(self.change_out_of_slice)
self.outOfSliceCheckBox = out_of_slice_cb
self.layout().addRow(trans._('opacity:'), self.opacitySlider)
self.layout().addRow(trans._('width:'), self.widthSpinBox)
self.layout().addRow(trans._('length:'), self.lengthSpinBox)
self.layout().addRow(trans._('blending:'), self.blendComboBox)
self.layout().addRow(
trans._('edge color mode:'), self.color_mode_comboBox
)
self.layout().addRow(self.edge_color_label, self.edgeColorEdit)
self.layout().addRow(self.edge_prop_label, self.color_prop_box)
self.layout().addRow(trans._('out of slice:'), self.outOfSliceCheckBox)
def change_edge_color_property(self, property: str):
"""Change edge_color_property of vectors on the layer model.
This property is the property the edge color is mapped to.
Parameters
----------
property : str
property to map the edge color to
"""
mode = self.layer.edge_color_mode
try:
self.layer.edge_color = property
self.layer.edge_color_mode = mode
except TypeError:
# if the selected property is the wrong type for the current color mode
# the color mode will be changed to the appropriate type, so we must update
self._on_edge_color_mode_change()
raise
def change_edge_color_mode(self, mode: str):
"""Change edge color mode of vectors on the layer model.
Parameters
----------
mode : str
Edge color for vectors. Must be: 'direct', 'cycle', or 'colormap'
"""
old_mode = self.layer.edge_color_mode
with self.layer.events.edge_color_mode.blocker():
try:
self.layer.edge_color_mode = mode
self._update_edge_color_gui(mode)
except ValueError:
# if the color mode was invalid, revert to the old mode
self.layer.edge_color_mode = old_mode
raise
def change_edge_color_direct(self, color: np.ndarray):
"""Change edge color of vectors on the layer model.
Parameters
----------
color : np.ndarray
Edge color for vectors, in an RGBA array
"""
self.layer.edge_color = color
def change_width(self, value):
"""Change edge line width of vectors on the layer model.
Parameters
----------
value : float
Line width of vectors.
"""
self.layer.edge_width = value
self.widthSpinBox.clearFocus()
self.setFocus()
def change_length(self, value):
"""Change length of vectors on the layer model.
Multiplicative factor on projections for length of all vectors.
Parameters
----------
value : float
Length of vectors.
"""
self.layer.length = value
self.lengthSpinBox.clearFocus()
self.setFocus()
def change_out_of_slice(self, state):
"""Toggle out of slice display of vectors layer.
Parameters
----------
state : QCheckBox
Checkbox to indicate whether to render out of slice.
"""
if state == Qt.Checked:
self.layer.out_of_slice_display = True
else:
self.layer.out_of_slice_display = False
def _update_edge_color_gui(self, mode: str):
"""Update the GUI element associated with edge_color.
This is typically used when edge_color_mode changes
Parameters
----------
mode : str
The new edge_color mode the GUI needs to be updated for.
Should be: 'direct', 'cycle', 'colormap'
"""
if mode in ('cycle', 'colormap'):
self.edgeColorEdit.setHidden(True)
self.edge_color_label.setHidden(True)
self.color_prop_box.setHidden(False)
self.edge_prop_label.setHidden(False)
elif mode == 'direct':
self.edgeColorEdit.setHidden(False)
self.edge_color_label.setHidden(False)
self.color_prop_box.setHidden(True)
self.edge_prop_label.setHidden(True)
def _get_property_values(self):
"""Get the current property values from the Vectors layer
Returns
-------
property_values : np.ndarray
array of all of the union of the property names (keys)
in Vectors.properties and Vectors.property_choices
"""
property_choices = [*self.layer.property_choices]
properties = [*self.layer.properties]
property_values = np.union1d(property_choices, properties)
return property_values
def _on_length_change(self):
"""Change length of vectors."""
with self.layer.events.length.blocker():
self.lengthSpinBox.setValue(self.layer.length)
def _on_out_of_slice_display_change(self, event):
"""Receive layer model out_of_slice_display change event and update checkbox."""
with self.layer.events.out_of_slice_display.blocker():
self.outOfSliceCheckBox.setChecked(self.layer.out_of_slice_display)
def _on_edge_width_change(self):
"""Receive layer model width change event and update width spinbox."""
with self.layer.events.edge_width.blocker():
self.widthSpinBox.setValue(self.layer.edge_width)
def _on_edge_color_mode_change(self):
"""Receive layer model edge color mode change event & update dropdown."""
with qt_signals_blocked(self.color_mode_comboBox):
mode = self.layer._edge.color_mode
index = self.color_mode_comboBox.findText(
mode, Qt.MatchFixedString
)
self.color_mode_comboBox.setCurrentIndex(index)
self._update_edge_color_gui(mode)
def _on_edge_color_change(self):
"""Receive layer model edge color change event & update dropdown."""
if (
self.layer._edge.color_mode == ColorMode.DIRECT
and len(self.layer.data) > 0
):
with qt_signals_blocked(self.edgeColorEdit):
self.edgeColorEdit.setColor(self.layer.edge_color[0])
elif self.layer._edge.color_mode in (
ColorMode.CYCLE,
ColorMode.COLORMAP,
):
with qt_signals_blocked(self.color_prop_box):
prop = self.layer._edge.color_properties.name
index = self.color_prop_box.findText(prop, Qt.MatchFixedString)
self.color_prop_box.setCurrentIndex(index)
def __init__(self, layer):
super().__init__(layer)
self.layer.events.edge_width.connect(self._on_edge_width_change)
self.layer.events.length.connect(self._on_length_change)
self.layer.events.edge_color_mode.connect(
self._on_edge_color_mode_change)
self.layer.events.edge_color.connect(self._on_edge_color_change)
# dropdown to select the property for mapping edge_color
color_properties = self._get_property_values()
color_prop_box = QComboBox(self)
color_prop_box.activated[str].connect(self.change_edge_color_property)
color_prop_box.addItems(color_properties)
self.color_prop_box = color_prop_box
self.edge_prop_label = QLabel('edge property:')
# vector direct color mode adjustment and widget
self.edgeColorEdit = QColorSwatchEdit(
initial_color=self.layer.edge_color,
tooltip='click to set current edge color',
)
self.edgeColorEdit.color_changed.connect(self.change_edge_color_direct)
self.edge_color_label = QLabel('edge color:')
self._on_edge_color_change()
# dropdown to select the edge color mode
colorModeComboBox = QComboBox(self)
colorModeComboBox.addItems(ColorMode.keys())
colorModeComboBox.activated[str].connect(self.change_edge_color_mode)
self.color_mode_comboBox = colorModeComboBox
self._on_edge_color_mode_change()
# line width in pixels
self.widthSpinBox = QDoubleSpinBox()
self.widthSpinBox.setKeyboardTracking(False)
self.widthSpinBox.setSingleStep(0.1)
self.widthSpinBox.setMinimum(0.1)
self.widthSpinBox.setValue(self.layer.edge_width)
self.widthSpinBox.valueChanged.connect(self.change_width)
# line length
self.lengthSpinBox = QDoubleSpinBox()
self.lengthSpinBox.setKeyboardTracking(False)
self.lengthSpinBox.setSingleStep(0.1)
self.lengthSpinBox.setValue(self.layer.length)
self.lengthSpinBox.setMinimum(0.1)
self.lengthSpinBox.valueChanged.connect(self.change_length)
# grid_layout created in QtLayerControls
# addWidget(widget, row, column, [row_span, column_span])
self.grid_layout.addWidget(QLabel('opacity:'), 0, 0)
self.grid_layout.addWidget(self.opacitySlider, 0, 1, 1, 2)
self.grid_layout.addWidget(QLabel('width:'), 1, 0)
self.grid_layout.addWidget(self.widthSpinBox, 1, 1, 1, 2)
self.grid_layout.addWidget(QLabel('length:'), 2, 0)
self.grid_layout.addWidget(self.lengthSpinBox, 2, 1, 1, 2)
self.grid_layout.addWidget(QLabel('blending:'), 3, 0)
self.grid_layout.addWidget(self.blendComboBox, 3, 1, 1, 2)
self.grid_layout.addWidget(QLabel('edge color mode:'), 4, 0)
self.grid_layout.addWidget(self.color_mode_comboBox, 4, 1, 1, 2)
self.grid_layout.addWidget(self.edge_color_label, 5, 0)
self.grid_layout.addWidget(self.edgeColorEdit, 5, 1, 1, 2)
self.grid_layout.addWidget(self.edge_prop_label, 6, 0)
self.grid_layout.addWidget(self.color_prop_box, 6, 1, 1, 2)
self.grid_layout.setRowStretch(7, 1)
self.grid_layout.setColumnStretch(1, 1)
self.grid_layout.setSpacing(4)
class DepthGUI(QMainWindow):
def __init__(self):
super(DepthGUI, self).__init__()
self.display_string = None
# Serial port config
self.ser = serial.Serial()
self.ser.baudrate = 19200
self.depth_stream = None
self._prev_port = None
self.setup_ui()
def setup_ui(self):
self.setWindowTitle('Neuroport DBS - Electrodes Depth')
self.setWindowFlags(Qt.FramelessWindowHint)
self.move(WINDOWDIMS_DEPTH[0], WINDOWDIMS_DEPTH[1])
self.setFixedSize(WINDOWDIMS_DEPTH[2], WINDOWDIMS_DEPTH[3])
self.show()
self.plot_widget = QWidget()
self.setCentralWidget(self.plot_widget)
# define Qt GUI elements
v_layout = QVBoxLayout()
v_layout.setSpacing(0)
v_layout.setContentsMargins(10, 0, 10, 10)
h_layout = QHBoxLayout()
self.comboBox_com_port = QComboBox()
h_layout.addWidget(self.comboBox_com_port)
self.pushButton_open = QPushButton("Open")
h_layout.addWidget(self.pushButton_open)
h_layout.addStretch()
self.label_offset = QLabel("Offset: ")
h_layout.addWidget(self.label_offset)
self.doubleSpinBox_offset = QDoubleSpinBox()
self.doubleSpinBox_offset.setMinimum(-100.00)
self.doubleSpinBox_offset.setMaximum(100.00)
self.doubleSpinBox_offset.setSingleStep(1.00)
self.doubleSpinBox_offset.setDecimals(2)
self.doubleSpinBox_offset.setValue(-10.00)
self.doubleSpinBox_offset.setFixedWidth(60)
h_layout.addWidget(self.doubleSpinBox_offset)
h_layout.addStretch()
h_layout.addWidget(QLabel("Stream to :"))
self.chk_NSP = QCheckBox("NSP")
self.chk_NSP.setChecked(True)
h_layout.addWidget(self.chk_NSP)
h_layout.addSpacing(5)
self.chk_LSL = QCheckBox("LSL")
self.chk_LSL.clicked.connect(self.on_chk_LSL_clicked)
self.chk_LSL.click(
) # default is enabled, click call to trigger LSL stream creation.
h_layout.addWidget(self.chk_LSL)
h_layout.addSpacing(5)
send_btn = QPushButton("Send")
send_btn.clicked.connect(self.send)
h_layout.addWidget(send_btn)
h_layout.addSpacing(5)
quit_btn = QPushButton('X')
quit_btn.setMaximumWidth(20)
quit_btn.clicked.connect(QApplication.instance().quit)
quit_btn.setStyleSheet("QPushButton { color: white; "
"background-color : red; "
"border-color : red; "
"border-width: 2px}")
h_layout.addWidget(quit_btn)
v_layout.addLayout(h_layout)
# define Qt GUI elements
# add a frame for the LCD numbers
self.lcd_frame = QFrame()
self.lcd_frame.setFrameShape(1)
lcd_layout = QGridLayout()
self.lcd_frame.setLayout(lcd_layout)
# RAW reading from DDU
self.raw_ddu = QLCDNumber()
self.raw_ddu.setDigitCount(7)
self.raw_ddu.setFrameShape(0)
self.raw_ddu.setSmallDecimalPoint(True)
self.raw_ddu.setFixedHeight(50)
self.raw_ddu.display("{0:.3f}".format(0))
lcd_layout.addWidget(self.raw_ddu, 0, 3, 2, 3)
self.offset_ddu = QLCDNumber()
self.offset_ddu.setDigitCount(7)
self.offset_ddu.setFixedHeight(150)
self.offset_ddu.display("{0:.3f}".format(-10))
self.offset_ddu.setFrameShape(0)
lcd_layout.addWidget(self.offset_ddu, 2, 0, 5, 6)
v_layout.addWidget(self.lcd_frame)
self.plot_widget.setLayout(v_layout)
# Populate control panel items
for port in serial.tools.list_ports.comports():
self.comboBox_com_port.addItem(port.device)
self.comboBox_com_port.addItem("cbsdk playback")
# Connect signals & slots
self.pushButton_open.clicked.connect(self.on_open_clicked)
self.comboBox_com_port.currentIndexChanged.connect(
self.on_comboBox_com_port_changed)
# TODO: Add signal for comboBox_com_port --> when cbsdk playback, uncheck NSP then re-open connection.
def on_chk_LSL_clicked(self, state):
print(f"LSL clicked state: {state}")
if self.chk_LSL.isChecked():
outlet_info = pylsl.StreamInfo(name='electrode_depth',
type='depth',
channel_count=1,
nominal_srate=pylsl.IRREGULAR_RATE,
channel_format=pylsl.cf_float32,
source_id='depth1214')
self.depth_stream = pylsl.StreamOutlet(outlet_info)
else:
self.depth_stream = None
def _do_close(self, from_port):
if from_port == "cbsdk playback":
CbSdkConnection().disconnect()
else:
self.ser.close()
self.pushButton_open.setText("Open")
def on_comboBox_com_port_changed(self, new_ix):
# If a connection was already open, close it before proceeding.
if self.pushButton_open.text() == "Close":
self._do_close(self._prev_port)
# at this point the Open/Close pushbutton should show: Open
# we will only enable/disable the Send to NSP button to leave the current checked status.
# The default should be checked.
if self.comboBox_com_port.currentText() == "cbsdk playback":
# If switching _to_ cbsdk playback, disable sending out comments.
self.chk_NSP.setEnabled(False)
elif self._prev_port == "cbsdk playback":
# If switching _from_ cbsdk playback, re-enable sending out comments.
self.chk_NSP.setEnabled(True)
self._prev_port = self.comboBox_com_port.currentText()
def on_open_clicked(self):
com_port = self.comboBox_com_port.currentText()
cmd_text = self.pushButton_open.text()
if cmd_text == 'Open':
if com_port == "cbsdk playback":
CbSdkConnection().connect()
CbSdkConnection().cbsdk_config = {
'reset': True,
'get_events': False,
'get_comments': True,
'buffer_parameter': {
'comment_length': 10
}
}
self.pushButton_open.setText("Close")
else:
if self.chk_NSP.isEnabled() and self.chk_NSP.isChecked():
CbSdkConnection().connect()
CbSdkConnection().cbsdk_config = {
'reset': True,
'get_events': False,
'get_comments': False
}
if not self.ser.is_open:
self.ser.port = com_port
try:
self.ser.open() # TODO: Add timeout; Add error.
self.ser.write('AXON+\r'.encode())
except serial.serialutil.SerialException:
print("Could not open serial port")
finally:
self.pushButton_open.setText(
"Close" if self.ser.is_open else "Open")
else:
self._do_close(com_port)
def update(self):
# Added new_value handling for playback if we ever want to post-process depth
# on previously recorded sessions.
new_value = False
out_value = None
if self.comboBox_com_port.currentText() == "cbsdk playback":
cbsdk_conn = CbSdkConnection()
if cbsdk_conn.is_connected:
comments = cbsdk_conn.get_comments()
if comments:
comment_strings = [x[1].decode('utf8') for x in comments]
else:
comment_strings = ""
dtts = []
for comm_str in comment_strings:
if 'DTT:' in comm_str:
dtts.append(float(comm_str[4:]))
if len(dtts) > 0:
out_value = dtts[-1]
new_value = True
self.offset_ddu.display("{0:.3f}".format(out_value))
offset = self.doubleSpinBox_offset.value()
self.raw_ddu.display("{0:.3f}".format(out_value - offset))
elif self.ser.is_open:
in_str = self.ser.readline().decode('utf-8').strip()
if in_str:
try:
in_value = float(in_str)
# in_value /= DDUSCALEFACTOR # Uncomment this for FHC DDU V2.
self.raw_ddu.display("{0:.3f}".format(in_value))
out_value = in_value + self.doubleSpinBox_offset.value()
display_string = "{0:.3f}".format(out_value)
self.offset_ddu.display(display_string)
# Check if new value
if display_string != self.display_string:
new_value = True
self.display_string = display_string
# Push to NSP
cbsdk_conn = CbSdkConnection()
if cbsdk_conn.is_connected:
if self.chk_NSP.isChecked() and self.chk_NSP.isEnabled(
) and new_value:
cbsdk_conn.set_comments("DTT:" + display_string)
else:
# try connecting if not connected but button is active
if self.chk_NSP.isChecked() and self.chk_NSP.isEnabled(
):
cbsdk_conn.connect()
cbsdk_conn.cbsdk_config = {
'reset': True,
'get_events': False,
'get_comments': False
}
# set button to connection status
self.chk_NSP.setChecked(cbsdk_conn.is_connected)
except ValueError:
print("DDU result: {}".format(in_str))
# Push to LSL
if self.depth_stream is not None and new_value:
self.depth_stream.push_sample([out_value])
def send(self):
self.display_string = None # make sure the update function runs
self.update()
class PreferencesWindow(PyDialog):
"""
+-------------+
| Preferences |
+---------------------------------+
| Text Size ______ Default |
| Annotation Color ______ |
| Annotation Size ______ |
| Picker Size ______ |
| Back Color ______ |
| Text Color ______ |
| |
| Apply OK Cancel |
+---------------------------------+
"""
def __init__(self, data, win_parent=None):
"""
Saves the data members from data and
performs type checks
"""
PyDialog.__init__(self, data, win_parent)
self._updated_preference = False
self.dim_max = data['dim_max']
# font size for menu
self._default_font_size = FONT_SIZE
self._default_text_size = TEXT_SIZE
# an annotation is the marked/probe label
self._default_annotation_size = ANNOTATION_SIZE
self._default_coord_scale = COORD_SCALE * 100. # * self.dim_max
self._default_coord_text_scale = COORD_TEXT_SCALE * 100. # * self.dim_max
self._default_clipping_min = data['min_clip']
self._default_clipping_max = data['max_clip']
#self._default_annotation_size = data['annotation_size'] # int
#self.default_magnify = data['magnify']
self._use_gradient_background = data['use_gradient_background'] # bool
self._show_corner_coord = data['show_corner_coord']
self._annotation_size = data['annotation_size'] # int
#self.out_data = data
# doesn't include dim_max
self._picker_size = data['picker_size'] * 100.
self._coord_scale = data['coord_scale'] * 100.
self._coord_text_scale = data['coord_text_scale'] * 100.
self._magnify = data['magnify']
self._text_size = data['text_size']
self._highlight_opacity = data['highlight_opacity']
self._highlight_point_size = data['highlight_point_size']
self.annotation_color_float, self.annotation_color_int = check_color(
data['annotation_color'])
self.background_color_float, self.background_color_int = check_color(
data['background_color'])
self.background_color2_float, self.background_color2_int = check_color(
data['background_color2'])
self.text_color_float, self.text_color_int = check_color(
data['text_color'])
self.highlight_color_float, self.highlight_color_int = check_color(
data['highlight_color'])
self._nastran_is_element_quality = data['nastran_is_element_quality']
self._nastran_is_properties = data['nastran_is_properties']
self._nastran_is_3d_bars = data['nastran_is_3d_bars']
self._nastran_is_3d_bars_update = data['nastran_is_3d_bars_update']
self._nastran_is_bar_axes = data['nastran_is_bar_axes']
self._nastran_create_coords = data['nastran_create_coords']
self._nastran_is_shell_mcids = data['nastran_is_shell_mcids']
self._nastran_stress = data['nastran_stress']
self._nastran_plate_stress = data['nastran_plate_stress']
self._nastran_composite_plate_stress = data['nastran_composite_plate_stress']
self._nastran_strain = data['nastran_strain']
self._nastran_plate_strain = data['nastran_plate_strain']
self._nastran_composite_plate_strain = data['nastran_composite_plate_strain']
self._nastran_rod_stress = data['nastran_rod_stress']
self._nastran_bar_stress = data['nastran_bar_stress']
self._nastran_beam_stress = data['nastran_beam_stress']
self._nastran_rod_strain = data['nastran_rod_strain']
self._nastran_bar_strain = data['nastran_bar_strain']
self._nastran_beam_strain = data['nastran_beam_strain']
self.setWindowTitle('Preferences')
self.create_widgets()
self.create_layout()
self.set_connections()
self.on_font(self._default_font_size)
self.on_gradient_scale()
#self.show()
def create_widgets(self):
"""creates the display window"""
# Text Size
self.font_size_label = QLabel("Font Size:")
self.font_size_edit = QSpinBox(self)
self.font_size_edit.setValue(self._default_font_size)
self.font_size_edit.setRange(7, 20)
self.font_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Annotation Color
self.annotation_color_label = QLabel("Annotation Color:")
self.annotation_color_edit = QPushButtonColor(self.annotation_color_int)
self.annotation_color_label.hide()
self.annotation_color_edit.hide()
#-----------------------------------------------------------------------
# Text Color
self.text_size_label = QLabel("Text Size:")
self.text_size_edit = QSpinBox(self)
self.text_size_edit.setValue(self._default_text_size)
self.text_size_edit.setRange(7, 30)
self.text_size_button = QPushButton("Default")
# Text Color
self.text_color_label = QLabel("Text Color:")
self.text_color_edit = QPushButtonColor(self.text_color_int)
#-----------------------------------------------------------------------
# Highlight Color
self.highlight_opacity_label = QLabel("Highlight Opacity:")
self.highlight_opacity_edit = QDoubleSpinBox(self)
self.highlight_opacity_edit.setValue(self._highlight_opacity)
self.highlight_opacity_edit.setRange(0.1, 1.0)
self.highlight_opacity_edit.setDecimals(1)
self.highlight_opacity_edit.setSingleStep(0.1)
self.highlight_opacity_button = QPushButton("Default")
self.highlight_point_size_label = QLabel("Highlight Point Size:")
self.highlight_point_size_edit = QDoubleSpinBox(self)
self.highlight_point_size_edit.setValue(self._highlight_point_size)
self.highlight_point_size_edit.setRange(5.0, 30.0)
self.highlight_point_size_edit.setDecimals(2)
self.highlight_point_size_edit.setSingleStep(0.25)
self.highlight_point_size_button = QPushButton("Default")
# Text Color
self.highlight_color_label = QLabel("Highlight Color:")
self.highlight_color_edit = QPushButtonColor(self.highlight_color_int)
#-----------------------------------------------------------------------
# Background Color
self.background_color_label = QLabel("Btm Background Color:")
self.background_color_edit = QPushButtonColor(self.background_color_int)
# Background Color2
self.gradient_scale_label = QLabel("Gradient Background:")
self.gradient_scale_checkbox = QCheckBox()
self.gradient_scale_checkbox.setChecked(self._use_gradient_background)
self.background_color2_label = QLabel("Top Background Color:")
self.background_color2_edit = QPushButtonColor(self.background_color2_int)
#-----------------------------------------------------------------------
# Annotation Size
self.annotation_size_label = QLabel("Annotation Size:")
self.annotation_size_edit = QSpinBox(self)
self.annotation_size_edit.setRange(1, 500)
self.annotation_size_edit.setValue(self._annotation_size)
self.annotation_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Picker Size
self.picker_size_label = QLabel("Picker Size (% of Screen):")
self.picker_size_edit = QDoubleSpinBox(self)
self.picker_size_edit.setRange(0., 10.)
log_dim = log10(self.dim_max)
decimals = int(ceil(abs(log_dim)))
decimals = max(6, decimals)
self.picker_size_edit.setDecimals(decimals)
self.picker_size_edit.setSingleStep(10. / 5000.)
self.picker_size_edit.setValue(self._picker_size)
#-----------------------------------------------------------------------
# Clipping Min
self.clipping_min_label = QLabel("Clipping Min:")
self.clipping_min_edit = QLineEdit(func_str(self._default_clipping_min))
self.clipping_min_button = QPushButton("Default")
# Clipping Max
self.clipping_max_label = QLabel("Clipping Max:")
self.clipping_max_edit = QLineEdit(func_str(self._default_clipping_max))
self.clipping_max_button = QPushButton("Default")
#-----------------------------------------------------------------------
self.coord_scale_label = QLabel('Coordinate System Scale:')
self.coord_scale_button = QPushButton("Default")
self.coord_scale_edit = QDoubleSpinBox(self)
self.coord_scale_edit.setRange(0.1, 1000.)
self.coord_scale_edit.setDecimals(3)
self.coord_scale_edit.setSingleStep(1.0)
self.coord_scale_edit.setValue(self._coord_scale)
self.coord_text_scale_label = QLabel('Coordinate System Text Scale:')
self.coord_text_scale_button = QPushButton("Default")
self.coord_text_scale_edit = QDoubleSpinBox(self)
self.coord_text_scale_edit.setRange(0.1, 2000.)
self.coord_text_scale_edit.setDecimals(3)
self.coord_text_scale_edit.setSingleStep(2.)
self.coord_text_scale_edit.setValue(self._coord_text_scale)
# Show corner coord
self.corner_coord_label = QLabel("Show Corner Coordinate System:")
self.corner_coord_checkbox = QCheckBox()
self.corner_coord_checkbox.setChecked(self._show_corner_coord)
#-----------------------------------------------------------------------
self.magnify_label = QLabel('Screenshot Magnify:')
self.magnify_edit = QSpinBox(self)
self.magnify_edit.setMinimum(1)
self.magnify_edit.setMaximum(10)
self.magnify_edit.setValue(self._magnify)
#-----------------------------------------------------------------------
self.nastran_is_element_quality_checkbox = QCheckBox('Element Quality')
self.nastran_is_element_quality_checkbox.setToolTip('Cacluate Aspect Ratio, Skew Angle, Max/Min Interior Angle, etc.')
self.nastran_is_element_quality_checkbox.setChecked(self._nastran_is_element_quality)
self.nastran_is_properties_checkbox = QCheckBox('Properties')
self.nastran_is_properties_checkbox.setToolTip('Breakdown each layer of a PCOMP/PSHELL')
self.nastran_is_properties_checkbox.setChecked(self._nastran_is_properties)
self.nastran_is_3d_bars_checkbox = QCheckBox('3D Bars')
self.nastran_is_3d_bars_checkbox.setToolTip('Crete 3D Bar/Beam geometry')
self.nastran_is_3d_bars_checkbox.setChecked(self._nastran_is_3d_bars)
#self.nastran_is_3d_bars_checkbox.setDisabled(True)
self.nastran_is_3d_bars_update_checkbox = QCheckBox('Update 3D Bars')
self.nastran_is_3d_bars_update_checkbox.setToolTip('Update the 3D Bar/Beam cross-sections when deformations are applied')
self.nastran_is_3d_bars_update_checkbox.setChecked(self._nastran_is_3d_bars_update)
self.nastran_is_shell_mcid_checkbox = QCheckBox('Shell MCIDs')
self.nastran_is_shell_mcid_checkbox.setToolTip('Calculate the Material Coordinate Systems for Shells')
self.nastran_is_shell_mcid_checkbox.setChecked(self._nastran_is_shell_mcids)
self.nastran_create_coords_checkbox = QCheckBox('Coords')
self.nastran_create_coords_checkbox.setChecked(self._nastran_create_coords)
self.nastran_is_bar_axes_checkbox = QCheckBox('Bar Axes')
self.nastran_is_bar_axes_checkbox.setChecked(self._nastran_is_bar_axes)
#self.nastran_is_bar_axes_checkbox.setDisabled(True)
if 0:
self.nastran_stress_checkbox = QCheckBox('Stress')
self.nastran_plate_stress_checkbox = QCheckBox('Plate Stress')
self.nastran_composite_plate_stress_checkbox = QCheckBox('Composite Plate Stress')
self.nastran_rod_stress_checkbox = QCheckBox('Rod Stress')
self.nastran_bar_stress_checkbox = QCheckBox('Bar Stress')
self.nastran_beam_stress_checkbox = QCheckBox('Beam Stress')
self.nastran_stress_checkbox.setChecked(self._nastran_stress)
self.nastran_plate_stress_checkbox.setChecked(self._nastran_plate_stress)
self.nastran_composite_plate_stress_checkbox.setChecked(self._nastran_composite_plate_stress)
self.nastran_rod_stress_checkbox.setChecked(self._nastran_rod_stress)
self.nastran_bar_stress_checkbox.setChecked(self._nastran_bar_stress)
self.nastran_beam_stress_checkbox.setChecked(self._nastran_beam_stress)
self.nastran_strain_checkbox = QCheckBox('Strain')
self.nastran_plate_strain_checkbox = QCheckBox('Plate Strain')
self.nastran_composite_plate_strain_checkbox = QCheckBox('Composite Plate Strain')
self.nastran_rod_strain_checkbox = QCheckBox('Rod Strain')
self.nastran_bar_strain_checkbox = QCheckBox('Bar Strain')
self.nastran_beam_strain_checkbox = QCheckBox('Beam Strain')
self.nastran_strain_checkbox.setChecked(self._nastran_strain)
self.nastran_plate_strain_checkbox.setChecked(self._nastran_plate_strain)
self.nastran_composite_plate_strain_checkbox.setChecked(self._nastran_composite_plate_strain)
self.nastran_rod_strain_checkbox.setChecked(self._nastran_rod_strain)
self.nastran_bar_strain_checkbox.setChecked(self._nastran_bar_strain)
self.nastran_beam_strain_checkbox.setChecked(self._nastran_beam_strain)
#-----------------------------------------------------------------------
# closing
self.apply_button = QPushButton("Apply")
self.ok_button = QPushButton("OK")
self.cancel_button = QPushButton("Cancel")
#def create_legend_widgets(self):
#"""
#Creates the widgets for the legend control
#Name Itailic Bold Font
#==== ======= ===== ========
#Title check check pulldown
#Label check check pulldown
#"""
#self.name_label = QLabel("Name:")
#self.italic_label = QLabel("Italic:")
#self.bold_label = QLabel("Bold:")
#self.font_label = QLabel("Font:")
#self.legend_label = QLabel("Legend:")
#self.legend_title_name = QLabel("Title")
#self.legend_title_italic_check = QCheckBox()
#self.legend_title_bold_check = QCheckBox()
#self.legend_title_font_edit = QComboBox()
#self.legend_title_font_edit.addItems(['cat', 'dog', 'frog'])
#self.legend_label_italic_name = QLabel("Label")
#self.legend_label_italic_check = QCheckBox()
#self.legend_label_bold_check = QCheckBox()
#self.legend_label_font_edit = QComboBox()
#self.legend_label_font_edit.addItems(['cat2', 'dog2', 'frog2'])
#def create_legend_layout(self):
#"""
#Creates the layout for the legend control
#Name Italic Bold Font
#==== ====== ===== ========
#Title check check pulldown
#Label check check pulldown
#"""
#grid2 = QGridLayout()
#grid2.addWidget(self.legend_label, 0, 0)
#grid2.addWidget(self.name_label, 1, 0)
#grid2.addWidget(self.italic_label, 1, 1)
#grid2.addWidget(self.bold_label, 1, 2)
#grid2.addWidget(self.font_label, 1, 3)
#grid2.addWidget(self.legend_title_name, 2, 0)
#grid2.addWidget(self.legend_title_italic_check, 2, 1)
#grid2.addWidget(self.legend_title_bold_check, 2, 2)
#grid2.addWidget(self.legend_title_font_edit, 2, 3)
#grid2.addWidget(self.legend_label_italic_name, 3, 0)
#grid2.addWidget(self.legend_label_italic_check, 3, 1)
#grid2.addWidget(self.legend_label_bold_check, 3, 2)
#grid2.addWidget(self.legend_label_font_edit, 3, 3)
#return grid2
def create_layout(self):
grid = QGridLayout()
irow = 0
grid.addWidget(self.font_size_label, irow, 0)
grid.addWidget(self.font_size_edit, irow, 1)
grid.addWidget(self.font_size_button, irow, 2)
irow += 1
grid.addWidget(self.gradient_scale_label, irow, 0)
grid.addWidget(self.gradient_scale_checkbox, irow, 1)
irow += 1
grid.addWidget(self.background_color2_label, irow, 0)
grid.addWidget(self.background_color2_edit, irow, 1)
irow += 1
grid.addWidget(self.background_color_label, irow, 0)
grid.addWidget(self.background_color_edit, irow, 1)
irow += 1
grid.addWidget(self.highlight_color_label, irow, 0)
grid.addWidget(self.highlight_color_edit, irow, 1)
irow += 1
grid.addWidget(self.highlight_opacity_label, irow, 0)
grid.addWidget(self.highlight_opacity_edit, irow, 1)
grid.addWidget(self.highlight_opacity_button, irow, 2)
irow += 1
grid.addWidget(self.highlight_point_size_label, irow, 0)
grid.addWidget(self.highlight_point_size_edit, irow, 1)
grid.addWidget(self.highlight_point_size_button, irow, 2)
irow += 1
grid.addWidget(self.text_color_label, irow, 0)
grid.addWidget(self.text_color_edit, irow, 1)
irow += 1
grid.addWidget(self.text_size_label, irow, 0)
grid.addWidget(self.text_size_edit, irow, 1)
grid.addWidget(self.text_size_button, irow, 2)
irow += 1
grid.addWidget(self.annotation_color_label, irow, 0)
grid.addWidget(self.annotation_color_edit, irow, 1)
irow += 1
grid.addWidget(self.annotation_size_label, irow, 0)
grid.addWidget(self.annotation_size_edit, irow, 1)
grid.addWidget(self.annotation_size_button, irow, 2)
irow += 1
#grid.addWidget(self.clipping_min_label, irow, 0)
#grid.addWidget(self.clipping_min_edit, irow, 1)
#grid.addWidget(self.clipping_min_button, irow, 2)
#irow += 1
#grid.addWidget(self.clipping_max_label, irow, 0)
#grid.addWidget(self.clipping_max_edit, irow, 1)
#grid.addWidget(self.clipping_max_button, irow, 2)
#irow += 1
grid.addWidget(self.corner_coord_label, irow, 0)
grid.addWidget(self.corner_coord_checkbox, irow, 1)
irow += 1
grid.addWidget(self.coord_scale_label, irow, 0)
grid.addWidget(self.coord_scale_edit, irow, 1)
grid.addWidget(self.coord_scale_button, irow, 2)
irow += 1
grid.addWidget(self.coord_text_scale_label, irow, 0)
grid.addWidget(self.coord_text_scale_edit, irow, 1)
grid.addWidget(self.coord_text_scale_button, irow, 2)
irow += 1
#-----------------------------------------------
grid.addWidget(self.magnify_label, irow, 0)
grid.addWidget(self.magnify_edit, irow, 1)
irow += 1
grid.addWidget(self.picker_size_label, irow, 0)
grid.addWidget(self.picker_size_edit, irow, 1)
irow += 1
#--------------------------------------------------
grid_nastran = QGridLayout()
irow = 0
grid_nastran.addWidget(self.nastran_create_coords_checkbox, irow, 0)
irow += 1
grid_nastran.addWidget(self.nastran_is_element_quality_checkbox, irow, 0)
grid_nastran.addWidget(self.nastran_is_properties_checkbox, irow, 1)
irow += 1
grid_nastran.addWidget(self.nastran_is_bar_axes_checkbox, irow, 0)
irow += 1
grid_nastran.addWidget(self.nastran_is_shell_mcid_checkbox, irow, 0)
irow += 1
grid_nastran.addWidget(self.nastran_is_3d_bars_checkbox, irow, 0)
grid_nastran.addWidget(self.nastran_is_3d_bars_update_checkbox, irow, 1)
irow += 1
#bold_font = make_font(self._default_font_size, is_bold=True)
vbox_nastran = QVBoxLayout()
self.nastran_label = QLabel('Nastran:')
vbox_nastran.addWidget(self.nastran_label)
vbox_nastran.addLayout(grid_nastran)
#self.create_legend_widgets()
#grid2 = self.create_legend_layout()
ok_cancel_box = QHBoxLayout()
ok_cancel_box.addWidget(self.apply_button)
ok_cancel_box.addWidget(self.ok_button)
ok_cancel_box.addWidget(self.cancel_button)
vbox = QVBoxLayout()
vbox.addLayout(grid)
vbox.addLayout(vbox_nastran)
#vbox.addStretch()
#vbox.addLayout(grid2)
vbox.addStretch()
vbox.addLayout(ok_cancel_box)
self.setLayout(vbox)
def set_connections(self):
"""creates the actions for the menu"""
self.font_size_button.clicked.connect(self.on_default_font_size)
self.font_size_edit.valueChanged.connect(self.on_font)
self.annotation_size_edit.editingFinished.connect(self.on_annotation_size)
self.annotation_size_edit.valueChanged.connect(self.on_annotation_size)
self.annotation_color_edit.clicked.connect(self.on_annotation_color)
self.annotation_size_button.clicked.connect(self.on_default_annotation_size)
self.background_color_edit.clicked.connect(self.on_background_color)
self.background_color2_edit.clicked.connect(self.on_background_color2)
self.gradient_scale_checkbox.clicked.connect(self.on_gradient_scale)
self.highlight_color_edit.clicked.connect(self.on_highlight_color)
self.highlight_opacity_edit.valueChanged.connect(self.on_highlight_opacity)
self.text_color_edit.clicked.connect(self.on_text_color)
self.text_size_edit.valueChanged.connect(self.on_text_size)
self.text_size_button.clicked.connect(self.on_default_text_size)
self.picker_size_edit.valueChanged.connect(self.on_picker_size)
self.picker_size_edit.editingFinished.connect(self.on_picker_size)
self.coord_scale_edit.valueChanged.connect(self.on_coord_scale)
self.coord_scale_edit.editingFinished.connect(self.on_coord_scale)
self.coord_scale_button.clicked.connect(self.on_default_coord_scale)
self.corner_coord_checkbox.clicked.connect(self.on_corner_coord)
self.coord_text_scale_edit.valueChanged.connect(self.on_coord_text_scale)
self.coord_text_scale_edit.editingFinished.connect(self.on_coord_text_scale)
self.coord_text_scale_button.clicked.connect(self.on_default_coord_text_scale)
self.magnify_edit.valueChanged.connect(self.on_magnify)
self.magnify_edit.editingFinished.connect(self.on_magnify)
self.clipping_min_button.clicked.connect(self.on_default_clipping_min)
self.clipping_max_button.clicked.connect(self.on_default_clipping_max)
#------------------------------------
# format-specific
self.nastran_is_element_quality_checkbox.clicked.connect(self.on_nastran_is_element_quality)
self.nastran_is_properties_checkbox.clicked.connect(self.on_nastran_is_properties)
self.nastran_is_3d_bars_checkbox.clicked.connect(self.on_nastran_is_3d_bars)
self.nastran_is_3d_bars_update_checkbox.clicked.connect(self.on_nastran_is_3d_bars_update)
self.nastran_is_bar_axes_checkbox.clicked.connect(self.on_nastran_is_bar_axes)
self.nastran_create_coords_checkbox.clicked.connect(self.on_nastran_create_coords)
self.nastran_is_shell_mcid_checkbox.clicked.connect(self.on_nastran_is_shell_mcids)
#self.nastran_is_shell_mcid_checkbox.clicked.connect(self.on_nastran_is_shell_mcids2)
#------------------------------------
self.apply_button.clicked.connect(self.on_apply)
self.ok_button.clicked.connect(self.on_ok)
self.cancel_button.clicked.connect(self.on_cancel)
# closeEvent
def on_nastran_is_element_quality(self):
"""set the nastran element quality preferences"""
is_checked = self.nastran_is_element_quality_checkbox.isChecked()
if self.win_parent is not None:
self.win_parent.settings.nastran_is_element_quality = is_checked
def on_nastran_is_properties(self):
"""set the nastran properties preferences"""
is_checked = self.nastran_is_properties_checkbox.isChecked()
if self.win_parent is not None:
self.win_parent.settings.nastran_is_properties = is_checked
def on_nastran_is_3d_bars(self):
"""set the nastran properties preferences"""
is_checked = self.nastran_is_3d_bars_checkbox.isChecked()
if self.win_parent is not None:
self.win_parent.settings.nastran_is_3d_bars = is_checked
def on_nastran_is_3d_bars_update(self):
"""set the nastran properties preferences"""
is_checked = self.nastran_is_3d_bars_update_checkbox.isChecked()
if self.win_parent is not None:
self.win_parent.settings.nastran_is_3d_bars_update = is_checked
def on_nastran_is_bar_axes(self):
"""set the nastran properties preferences"""
is_checked = self.nastran_is_bar_axes_checkbox.isChecked()
if self.win_parent is not None:
self.win_parent.settings.nastran_is_bar_axes = is_checked
def on_nastran_create_coords(self):
"""set the nastran properties preferences"""
is_checked = self.nastran_create_coords_checkbox.isChecked()
if self.win_parent is not None:
self.win_parent.settings.nastran_create_coords = is_checked
def on_nastran_is_shell_mcids(self):
"""set the nastran properties preferences"""
is_checked = self.nastran_is_shell_mcid_checkbox.isChecked()
if self.win_parent is not None:
self.win_parent.settings.nastran_is_shell_mcids = is_checked
#def on_nastran_is_shell_mcids2(self):
#"""set the nastran properties preferences"""
#is_checked = self.nastran_is_shell_mcid_checkbox.isChecked()
#if self.win_parent is not None:
#self.win_parent.settings.nastran_is_shell_mcids = is_checked
def on_font(self, value=None):
"""update the font for the current window"""
if value is None:
value = self.font_size_edit.value()
font = QtGui.QFont()
font.setPointSize(value)
self.setFont(font)
bold_font = make_font(value, is_bold=True)
self.nastran_label.setFont(bold_font)
def on_annotation_size(self, value=None):
"""update the annotation size"""
if value is None:
value = int(self.annotation_size_edit.text())
self._annotation_size = value
#self.on_apply(force=True)
#self.min_edit.setText(func_str(self._default_min))
#self.min_edit.setStyleSheet("QLineEdit{background: white;}")
self.update_annotation_size_color()
def update_annotation_size_color(self):
if self.win_parent is not None:
self.win_parent.settings.set_annotation_size_color(size=self._annotation_size)
def on_gradient_scale(self):
is_checked = self.gradient_scale_checkbox.isChecked()
self.background_color2_label.setEnabled(is_checked)
self.background_color2_edit.setEnabled(is_checked)
if self.win_parent is not None:
self.win_parent.settings.set_gradient_background(use_gradient_background=is_checked)
def on_corner_coord(self):
is_checked = self.corner_coord_checkbox.isChecked()
if self.win_parent is not None:
self.win_parent.set_corner_axis_visiblity(is_checked, render=True)
def on_annotation_color(self):
rgb_color_ints = self.annotation_color_int
title = "Choose an annotation color"
passed, rgb_color_ints, rgb_color_floats = self.on_color(
self.annotation_color_edit, rgb_color_ints, title)
if passed:
self.annotation_color_int = rgb_color_ints
self.annotation_color_float = rgb_color_floats
self.update_annotation_size_color()
def on_background_color(self):
""" Choose a background color"""
title = "Choose a primary background color"
rgb_color_ints = self.background_color_int
color_edit = self.background_color_edit
func_name = 'set_background_color'
passed, rgb_color_ints, rgb_color_floats = self._background_color(
title, color_edit, rgb_color_ints, func_name)
if passed:
self.background_color_int = rgb_color_ints
self.background_color_float = rgb_color_floats
def on_background_color2(self):
""" Choose a background color"""
title = "Choose a secondary background color"
rgb_color_ints = self.background_color2_int
color_edit = self.background_color2_edit
func_name = 'set_background_color2'
passed, rgb_color_ints, rgb_color_floats = self._background_color(
title, color_edit, rgb_color_ints, func_name)
if passed:
self.background_color2_int = rgb_color_ints
self.background_color2_float = rgb_color_floats
def on_highlight_color(self):
""" Choose a highlight color"""
title = "Choose a highlight color"
rgb_color_ints = self.highlight_color_int
color_edit = self.highlight_color_edit
func_name = 'set_highlight_color'
passed, rgb_color_ints, rgb_color_floats = self._background_color(
title, color_edit, rgb_color_ints, func_name)
if passed:
self.highlight_color_int = rgb_color_ints
self.highlight_color_float = rgb_color_floats
def on_highlight_opacity(self, value=None):
if value is None:
value = self.highlight_opacity_edit.value()
self._highlight_opacity = value
if self.win_parent is not None:
self.win_parent.settings.set_highlight_opacity(value)
def on_highlight_point_size(self, value=None):
if value is None:
value = self.highlight_point_size_edit.value()
self._highlight_point_size = value
if self.win_parent is not None:
self.win_parent.settings.set_highlight_point_size(value)
def _background_color(self, title, color_edit, rgb_color_ints, func_name):
"""helper method for ``on_background_color`` and ``on_background_color2``"""
passed, rgb_color_ints, rgb_color_floats = self.on_color(
color_edit, rgb_color_ints, title)
if passed:
if self.win_parent is not None:
settings = self.win_parent.settings
func_background_color = getattr(settings, func_name)
func_background_color(rgb_color_floats)
return passed, rgb_color_ints, rgb_color_floats
def on_text_color(self):
"""Choose a text color"""
rgb_color_ints = self.text_color_int
title = "Choose a text color"
passed, rgb_color_ints, rgb_color_floats = self.on_color(
self.text_color_edit, rgb_color_ints, title)
if passed:
self.text_color_int = rgb_color_ints
self.text_color_float = rgb_color_floats
if self.win_parent is not None:
self.win_parent.settings.set_text_color(rgb_color_floats)
def on_default_text_size(self):
self.text_size_edit.setValue(self._default_text_size)
self.on_text_size(self._default_text_size)
def on_text_size(self, value=None):
if value is None:
value = self.text_size_edit.value()
self._text_size = value
if self.win_parent is not None:
self.win_parent.settings.set_text_size(value)
def on_color(self, color_edit, rgb_color_ints, title):
"""pops a color dialog"""
col = QColorDialog.getColor(QtGui.QColor(*rgb_color_ints), self,
title)
if not col.isValid():
return False, rgb_color_ints, None
color_float = col.getRgbF()[:3] # floats
color_int = [int(colori * 255) for colori in color_float]
assert isinstance(color_float[0], float), color_float
assert isinstance(color_int[0], int), color_int
color_edit.setStyleSheet(
"QPushButton {"
"background-color: rgb(%s, %s, %s);" % tuple(color_int) +
#"border:1px solid rgb(255, 170, 255); "
"}")
return True, color_int, color_float
def on_picker_size(self):
self._picker_size = float_locale(self.picker_size_edit.text())
if self.win_parent is not None:
self.win_parent.element_picker_size = self._picker_size / 100.
#self.on_apply(force=True)
def on_magnify(self, value=None):
if value is None:
value = self.magnify_edit.value()
self._magnify = value
if self.win_parent is not None:
self.win_parent.settings.set_magnify(value)
#---------------------------------------------------------------------------
def on_coord_scale(self, value=None):
if value is None:
value = self.coord_scale_edit.value()
self._coord_scale = value
if self.win_parent is not None:
self.win_parent.settings.set_coord_scale(value / 100.)
def on_default_coord_scale(self):
self.coord_scale_edit.setValue(self._default_coord_scale)
self.on_coord_scale(self._default_coord_scale)
def on_coord_text_scale(self, value=None):
if value is None:
value = self.coord_text_scale_edit.value()
self._coord_text_scale = value
if self.win_parent is not None:
self.win_parent.settings.set_coord_text_scale(value / 100.)
def on_default_coord_text_scale(self):
self.coord_text_scale_edit.setValue(self._default_coord_text_scale)
self.on_coord_text_scale(self._default_coord_text_scale)
#---------------------------------------------------------------------------
def on_default_font_size(self):
self.font_size_edit.setValue(self._default_font_size)
self.on_font(self._default_font_size)
def on_default_annotation_size(self):
self.annotation_size_edit.setValue(self._default_annotation_size)
self.on_annotation_size(self._default_annotation_size)
def on_default_clipping_min(self):
self.clipping_min_edit.setText(func_str(self._default_clipping_min))
self.clipping_min_edit.setStyleSheet("QLineEdit{background: white;}")
def on_default_clipping_max(self):
self.clipping_max_edit.setText(func_str(self._default_clipping_max))
self.clipping_max_edit.setStyleSheet("QLineEdit{background: white;}")
def on_validate(self):
font_size_value, flag0 = check_float(self.font_size_edit)
annotation_size_value, flag1 = check_float(self.annotation_size_edit)
assert isinstance(self.annotation_color_float[0], float), self.annotation_color_float
assert isinstance(self.annotation_color_int[0], int), self.annotation_color_int
picker_size_value, flag2 = check_float(self.picker_size_edit)
clipping_min_value, flag3 = check_float(self.clipping_min_edit)
clipping_max_value, flag4 = check_float(self.clipping_max_edit)
if all([flag0, flag1, flag2, flag3, flag4]):
self._annotation_size = annotation_size_value
self._picker_size = picker_size_value
self.out_data['font_size'] = int(font_size_value)
self.out_data['min_clip'] = min(clipping_min_value, clipping_max_value)
self.out_data['max_clip'] = max(clipping_min_value, clipping_max_value)
self.out_data['clicked_ok'] = True
return True
return False
def on_apply(self, force=False):
passed = self.on_validate()
if (passed or force) and self.win_parent is not None:
self.win_parent.settings.on_set_font_size(self.out_data['font_size'])
#self.win_parent.settings.set_annotation_size_color(self._annotation_size)
#self.win_parent.element_picker_size = self._picker_size / 100.
if passed and self.win_parent is not None:
self.win_parent.clipping_obj.apply_clipping(self.out_data)
return passed
def on_ok(self):
passed = self.on_apply()
if passed:
self.close()
#self.destroy()
def on_cancel(self):
self.out_data['close'] = True
self.close()
def create_widgets(self):
"""creates the display window"""
# Text Size
self.font_size = QLabel("Text Size:")
self.font_size_edit = QSpinBox(self)
self.font_size_edit.setValue(self._default_font_size)
self.font_size_edit.setRange(7, 20)
self.font_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Annotation Color
self.annotation_color = QLabel("Annotation Color:")
self.annotation_color_edit = QPushButtonColor(
self.annotation_color_int)
# Background Color
self.background_color = QLabel("Background Color:")
self.background_color_edit = QPushButtonColor(
self.background_color_int)
# Text Color
self.text_color = QLabel("Text Color:")
self.text_color_edit = QPushButtonColor(self.text_color_int)
#-----------------------------------------------------------------------
# Annotation Size
self.annotation_size = QLabel("Annotation Size:")
self.annotation_size_edit = QSpinBox(self)
self.annotation_size_edit.setRange(1, 500)
self.annotation_size_edit.setValue(self._default_annotation_size)
self.annotation_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Picker Size
self.picker_size = QLabel("Picker Size (% of Screen):")
self.picker_size_edit = QDoubleSpinBox(self)
self.picker_size_edit.setRange(0., 10.)
log_dim = log10(self.dim_max)
decimals = int(ceil(abs(log_dim)))
decimals = max(6, decimals)
self.picker_size_edit.setDecimals(decimals)
self.picker_size_edit.setSingleStep(10. / 5000.)
self.picker_size_edit.setValue(self._picker_size)
#-----------------------------------------------------------------------
# Clipping Min
self.clipping_min = QLabel("Clipping Min:")
self.clipping_min_edit = QLineEdit(str(self._default_clipping_min))
self.clipping_min_button = QPushButton("Default")
# Clipping Max
self.clipping_max = QLabel("Clipping Max:")
self.clipping_max_edit = QLineEdit(str(self._default_clipping_max))
self.clipping_max_button = QPushButton("Default")
#-----------------------------------------------------------------------
# closing
self.apply_button = QPushButton("Apply")
self.ok_button = QPushButton("OK")
self.cancel_button = QPushButton("Cancel")
class MeasurementSettings(QWidget):
"""
:type settings: Settings
"""
def __init__(self, settings: PartSettings, parent=None):
super().__init__(parent)
self.chosen_element: Optional[MeasurementListWidgetItem] = None
self.chosen_element_area: Optional[Tuple[AreaType, float]] = None
self.settings = settings
self.profile_list = QListWidget(self)
self.profile_description = QTextEdit(self)
self.profile_description.setReadOnly(True)
self.profile_options = QListWidget()
self.profile_options_chosen = QListWidget()
self.measurement_area_choose = EnumComboBox(AreaType)
self.per_component = EnumComboBox(PerComponent)
self.power_num = QDoubleSpinBox()
self.power_num.setDecimals(3)
self.power_num.setRange(-100, 100)
self.power_num.setValue(1)
self.choose_butt = QPushButton("→", self)
self.discard_butt = QPushButton("←", self)
self.proportion_butt = QPushButton("Ratio", self)
self.proportion_butt.setToolTip("Create proportion from two parameter")
self.move_up = QPushButton("↑", self)
self.move_down = QPushButton("↓", self)
self.remove_button = QPushButton("Remove")
self.save_butt = QPushButton("Save")
self.save_butt.setToolTip(
"Set name for set and choose at least one parameter")
self.save_butt_with_name = QPushButton(
"Save with custom parameters designation")
self.save_butt_with_name.setToolTip(
"Set name for set and choose at least one parameter")
self.reset_butt = QPushButton("Clear")
self.soft_reset_butt = QPushButton("Remove user parameters")
self.profile_name = QLineEdit(self)
self.delete_profile_butt = QPushButton("Delete ")
self.export_profiles_butt = QPushButton("Export")
self.import_profiles_butt = QPushButton("Import")
self.edit_profile_butt = QPushButton("Edit")
self.choose_butt.setDisabled(True)
self.choose_butt.clicked.connect(self.choose_option)
self.discard_butt.setDisabled(True)
self.discard_butt.clicked.connect(self.discard_option)
self.proportion_butt.setDisabled(True)
self.proportion_butt.clicked.connect(self.proportion_action)
self.save_butt.setDisabled(True)
self.save_butt.clicked.connect(self.save_action)
self.save_butt_with_name.setDisabled(True)
self.save_butt_with_name.clicked.connect(self.named_save_action)
self.profile_name.textChanged.connect(self.name_changed)
self.move_down.setDisabled(True)
self.move_down.clicked.connect(self.move_down_fun)
self.move_up.setDisabled(True)
self.move_up.clicked.connect(self.move_up_fun)
self.remove_button.setDisabled(True)
self.remove_button.clicked.connect(self.remove_element)
self.reset_butt.clicked.connect(self.reset_action)
self.soft_reset_butt.clicked.connect(self.soft_reset)
self.delete_profile_butt.setDisabled(True)
self.delete_profile_butt.clicked.connect(self.delete_profile)
self.export_profiles_butt.clicked.connect(
self.export_measurement_profiles)
self.import_profiles_butt.clicked.connect(
self.import_measurement_profiles)
self.edit_profile_butt.clicked.connect(self.edit_profile)
self.profile_list.itemSelectionChanged.connect(self.profile_chosen)
self.profile_options.itemSelectionChanged.connect(
self.create_selection_changed)
self.profile_options_chosen.itemSelectionChanged.connect(
self.create_selection_chosen_changed)
layout = QVBoxLayout()
layout.addWidget(QLabel("Measurement set:"))
profile_layout = QHBoxLayout()
profile_layout.addWidget(self.profile_list)
profile_layout.addWidget(self.profile_description)
profile_buttons_layout = QHBoxLayout()
profile_buttons_layout.addWidget(self.delete_profile_butt)
profile_buttons_layout.addWidget(self.export_profiles_butt)
profile_buttons_layout.addWidget(self.import_profiles_butt)
profile_buttons_layout.addWidget(self.edit_profile_butt)
profile_buttons_layout.addStretch()
layout.addLayout(profile_layout)
layout.addLayout(profile_buttons_layout)
heading_layout = QHBoxLayout()
# heading_layout.addWidget(QLabel("Create profile"), 1)
heading_layout.addWidget(h_line(), 6)
layout.addLayout(heading_layout)
name_layout = QHBoxLayout()
name_layout.addWidget(QLabel("Set name:"))
name_layout.addWidget(self.profile_name)
name_layout.addStretch()
name_layout.addWidget(QLabel("Per component:"))
name_layout.addWidget(self.per_component)
name_layout.addWidget(QLabel("Area:"))
name_layout.addWidget(self.measurement_area_choose)
name_layout.addWidget(QLabel("to power:"))
name_layout.addWidget(self.power_num)
layout.addLayout(name_layout)
create_layout = QHBoxLayout()
create_layout.addWidget(self.profile_options)
butt_op_layout = QVBoxLayout()
butt_op_layout.addStretch()
butt_op_layout.addWidget(self.choose_butt)
butt_op_layout.addWidget(self.discard_butt)
butt_op_layout.addWidget(self.proportion_butt)
butt_op_layout.addWidget(self.reset_butt)
butt_op_layout.addStretch()
create_layout.addLayout(butt_op_layout)
create_layout.addWidget(self.profile_options_chosen)
butt_move_layout = QVBoxLayout()
butt_move_layout.addStretch()
butt_move_layout.addWidget(self.move_up)
butt_move_layout.addWidget(self.move_down)
butt_move_layout.addWidget(self.remove_button)
butt_move_layout.addStretch()
create_layout.addLayout(butt_move_layout)
layout.addLayout(create_layout)
save_butt_layout = QHBoxLayout()
save_butt_layout.addWidget(self.soft_reset_butt)
save_butt_layout.addStretch()
save_butt_layout.addWidget(self.save_butt)
save_butt_layout.addWidget(self.save_butt_with_name)
layout.addLayout(save_butt_layout)
self.setLayout(layout)
for profile in MEASUREMENT_DICT.values():
help_text = profile.get_description()
lw = MeasurementListWidgetItem(profile.get_starting_leaf())
lw.setToolTip(help_text)
self.profile_options.addItem(lw)
self.profile_list.addItems(
list(sorted(self.settings.measurement_profiles.keys())))
if self.profile_list.count() == 0:
self.export_profiles_butt.setDisabled(True)
def remove_element(self):
elem = self.profile_options_chosen.currentItem()
if elem is None:
return
index = self.profile_options_chosen.currentRow()
self.profile_options_chosen.takeItem(index)
if self.profile_options_chosen.count() == 0:
self.move_down.setDisabled(True)
self.move_up.setDisabled(True)
self.remove_button.setDisabled(True)
self.discard_butt.setDisabled(True)
self.save_butt.setDisabled(True)
self.save_butt_with_name.setDisabled(True)
def delete_profile(self):
row = self.profile_list.currentRow()
item = self.profile_list.currentItem()
del self.settings.measurement_profiles[str(item.text())]
self.profile_list.takeItem(row)
if self.profile_list.count() == 0:
self.delete_profile_butt.setDisabled(True)
def profile_chosen(self):
self.delete_profile_butt.setEnabled(True)
if self.profile_list.count() == 0:
self.profile_description.setText("")
return
item = self.profile_list.currentItem()
if item is None:
self.profile_description.setText("")
return
profile = self.settings.measurement_profiles[item.text()]
self.profile_description.setText(str(profile))
def create_selection_changed(self):
self.choose_butt.setEnabled(True)
self.proportion_butt.setEnabled(True)
def proportion_action(self):
# TODO use get_parameters
if self.chosen_element is None:
item = self.profile_options.currentItem()
self.chosen_element_area = self.get_parameters(
deepcopy(item.stat),
self.measurement_area_choose.get_value(),
self.per_component.get_value(),
self.power_num.value(),
)
if self.chosen_element_area is None:
return
self.chosen_element = item
item.setIcon(QIcon(os.path.join(icons_dir, "task-accepted.png")))
elif (self.profile_options.currentItem() == self.chosen_element
and self.measurement_area_choose.get_value()
== self.chosen_element_area.area
and self.per_component.get_value()
== self.chosen_element_area.per_component):
self.chosen_element.setIcon(QIcon())
self.chosen_element = None
else:
item: MeasurementListWidgetItem = self.profile_options.currentItem(
)
leaf = self.get_parameters(
deepcopy(item.stat),
self.measurement_area_choose.get_value(),
self.per_component.get_value(),
self.power_num.value(),
)
if leaf is None:
return
lw = MeasurementListWidgetItem(
Node(op="/", left=self.chosen_element_area, right=leaf))
lw.setToolTip("User defined")
self.profile_options_chosen.addItem(lw)
self.chosen_element.setIcon(QIcon())
self.chosen_element = None
self.chosen_element_area = None
if self.good_name():
self.save_butt.setEnabled(True)
self.save_butt_with_name.setEnabled(True)
if self.profile_options.count() == 0:
self.choose_butt.setDisabled(True)
def create_selection_chosen_changed(self):
# print(self.profile_options_chosen.count())
self.remove_button.setEnabled(True)
if self.profile_options_chosen.count() == 0:
self.move_down.setDisabled(True)
self.move_up.setDisabled(True)
self.remove_button.setDisabled(True)
return
self.discard_butt.setEnabled(True)
if self.profile_options_chosen.currentRow() != 0:
self.move_up.setEnabled(True)
else:
self.move_up.setDisabled(True)
if self.profile_options_chosen.currentRow(
) != self.profile_options_chosen.count() - 1:
self.move_down.setEnabled(True)
else:
self.move_down.setDisabled(True)
def good_name(self):
if str(self.profile_name.text()).strip() == "":
return False
return True
def move_down_fun(self):
row = self.profile_options_chosen.currentRow()
item = self.profile_options_chosen.takeItem(row)
self.profile_options_chosen.insertItem(row + 1, item)
self.profile_options_chosen.setCurrentRow(row + 1)
self.create_selection_chosen_changed()
def move_up_fun(self):
row = self.profile_options_chosen.currentRow()
item = self.profile_options_chosen.takeItem(row)
self.profile_options_chosen.insertItem(row - 1, item)
self.profile_options_chosen.setCurrentRow(row - 1)
self.create_selection_chosen_changed()
def name_changed(self):
if self.good_name() and self.profile_options_chosen.count() > 0:
self.save_butt.setEnabled(True)
self.save_butt_with_name.setEnabled(True)
else:
self.save_butt.setDisabled(True)
self.save_butt_with_name.setDisabled(True)
@staticmethod
def get_parameters(node: Union[Node, Leaf], area: AreaType,
component: PerComponent, power: float):
if isinstance(node, Node):
return node
node = node.replace_(power=power)
if node.area is None:
node = node.replace_(area=area)
if node.per_component is None:
node = node.replace_(per_component=component)
try:
arguments = MEASUREMENT_DICT[str(node.name)].get_fields()
if len(arguments) > 0 and len(node.dict) == 0:
dial = FormDialog(arguments)
if dial.exec():
node = node._replace(dict=dial.get_values())
else:
return
except KeyError:
pass
return node
def choose_option(self):
selected_item = self.profile_options.currentItem()
# selected_row = self.profile_options.currentRow()
if not isinstance(selected_item, MeasurementListWidgetItem):
raise ValueError(
f"Current item (type: {type(selected_item)} is not instance of MeasurementListWidgetItem"
)
node = deepcopy(selected_item.stat)
# noinspection PyTypeChecker
node = self.get_parameters(node,
self.measurement_area_choose.get_value(),
self.per_component.get_value(),
self.power_num.value())
if node is None:
return
lw = MeasurementListWidgetItem(node)
for i in range(self.profile_options_chosen.count()):
if lw.text() == self.profile_options_chosen.item(i).text():
return
lw.setToolTip(selected_item.toolTip())
self.profile_options_chosen.addItem(lw)
if self.good_name():
self.save_butt.setEnabled(True)
self.save_butt_with_name.setEnabled(True)
if self.profile_options.count() == 0:
self.choose_butt.setDisabled(True)
def discard_option(self):
selected_item: MeasurementListWidgetItem = self.profile_options_chosen.currentItem(
)
# selected_row = self.profile_options_chosen.currentRow()
lw = MeasurementListWidgetItem(deepcopy(selected_item.stat))
lw.setToolTip(selected_item.toolTip())
self.create_selection_chosen_changed()
for i in range(self.profile_options.count()):
if lw.text() == self.profile_options.item(i).text():
return
self.profile_options.addItem(lw)
def edit_profile(self):
item = self.profile_list.currentItem()
if item is None:
return
profile = self.settings.measurement_profiles[str(item.text())]
self.profile_options_chosen.clear()
self.profile_name.setText(item.text())
for ch in profile.chosen_fields:
self.profile_options_chosen.addItem(
MeasurementListWidgetItem(ch.calculation_tree))
# self.gauss_img.setChecked(profile.use_gauss_image)
self.save_butt.setEnabled(True)
self.save_butt_with_name.setEnabled(True)
def save_action(self):
for i in range(self.profile_list.count()):
if self.profile_name.text() == self.profile_list.item(i).text():
ret = QMessageBox.warning(
self,
"Profile exist",
"Profile exist\nWould you like to overwrite it?",
QMessageBox.No | QMessageBox.Yes,
)
if ret == QMessageBox.No:
return
selected_values = []
for i in range(self.profile_options_chosen.count()):
element: MeasurementListWidgetItem = self.profile_options_chosen.item(
i)
selected_values.append(
MeasurementEntry(element.text(), element.stat))
stat_prof = MeasurementProfile(self.profile_name.text(),
selected_values)
if stat_prof.name not in self.settings.measurement_profiles:
self.profile_list.addItem(stat_prof.name)
self.settings.measurement_profiles[stat_prof.name] = stat_prof
self.settings.dump()
self.export_profiles_butt.setEnabled(True)
def named_save_action(self):
for i in range(self.profile_list.count()):
if self.profile_name.text() == self.profile_list.item(i).text():
ret = QMessageBox.warning(
self,
"Profile exist",
"Profile exist\nWould you like to overwrite it?",
QMessageBox.No | QMessageBox.Yes,
)
if ret == QMessageBox.No:
return
selected_values = []
for i in range(self.profile_options_chosen.count()):
txt = str(self.profile_options_chosen.item(i).text())
selected_values.append((txt, str, txt))
val_dialog = MultipleInput("Set fields name", list(selected_values))
if val_dialog.exec_():
selected_values = []
for i in range(self.profile_options_chosen.count()):
element: MeasurementListWidgetItem = self.profile_options_chosen.item(
i)
selected_values.append(
MeasurementEntry(val_dialog.result[element.text()],
element.stat))
stat_prof = MeasurementProfile(self.profile_name.text(),
selected_values)
if stat_prof.name not in self.settings.measurement_profiles:
self.profile_list.addItem(stat_prof.name)
self.settings.measurement_profiles[stat_prof.name] = stat_prof
self.export_profiles_butt.setEnabled(True)
def reset_action(self):
self.profile_options.clear()
self.profile_options_chosen.clear()
self.profile_name.setText("")
self.save_butt.setDisabled(True)
self.save_butt_with_name.setDisabled(True)
self.move_down.setDisabled(True)
self.move_up.setDisabled(True)
self.proportion_butt.setDisabled(True)
self.choose_butt.setDisabled(True)
self.discard_butt.setDisabled(True)
for profile in MEASUREMENT_DICT.values():
help_text = profile.get_description()
lw = MeasurementListWidgetItem(profile.get_starting_leaf())
lw.setToolTip(help_text)
self.profile_options.addItem(lw)
def soft_reset(self):
# TODO rim should not be removed
shift = 0
for i in range(self.profile_options.count()):
item = self.profile_options.item(i - shift)
if str(item.text()) not in MEASUREMENT_DICT:
self.profile_options.takeItem(i - shift)
if item == self.chosen_element:
self.chosen_element = None
del item
shift += 1
self.create_selection_changed()
def export_measurement_profiles(self):
exp = ExportDialog(self.settings.measurement_profiles, StringViewer)
if not exp.exec_():
return
dial = QFileDialog(self, "Export settings profiles")
dial.setDirectory(self.settings.get("io.export_directory", ""))
dial.setFileMode(QFileDialog.AnyFile)
dial.setAcceptMode(QFileDialog.AcceptSave)
dial.setNameFilter("measurement profile (*.json)")
dial.setDefaultSuffix("json")
dial.selectFile("measurements_profile.json")
if dial.exec_():
file_path = str(dial.selectedFiles()[0])
self.settings.set("io.export_directory", file_path)
data = {
x: self.settings.measurement_profiles[x]
for x in exp.get_export_list()
}
with open(file_path, "w") as ff:
json.dump(data,
ff,
cls=self.settings.json_encoder_class,
indent=2)
self.settings.set("io.save_directory", os.path.dirname(file_path))
def import_measurement_profiles(self):
dial = QFileDialog(self, "Import settings profiles")
dial.setDirectory(self.settings.get("io.export_directory", ""))
dial.setFileMode(QFileDialog.ExistingFile)
dial.setNameFilter("measurement profile (*.json)")
if dial.exec_():
file_path = str(dial.selectedFiles()[0])
self.settings.set("io.export_directory", file_path)
stat, err = self.settings.load_part(file_path)
if err:
QMessageBox.warning(
self, "Import error",
"error during importing, part of data were filtered.")
measurement_dict = self.settings.measurement_profiles
imp = ImportDialog(stat, measurement_dict, StringViewer)
if not imp.exec_():
return
for original_name, final_name in imp.get_import_list():
measurement_dict[final_name] = stat[original_name]
self.profile_list.clear()
self.profile_list.addItems(list(sorted(measurement_dict.keys())))
self.settings.dump()
def __init__(self, settings: PartSettings):
super().__init__()
self._settings = settings
self.export_btn = QPushButton("Export profile")
self.export_btn.clicked.connect(self.export_profile)
self.import_btn = QPushButton("Import profile")
self.import_btn.clicked.connect(self.import_profiles)
self.export_pipeline_btn = QPushButton("Export pipeline")
self.export_pipeline_btn.clicked.connect(self.export_pipeline)
self.import_pipeline_btn = QPushButton("Import pipeline")
self.import_pipeline_btn.clicked.connect(self.import_pipeline)
self.delete_btn = QPushButton("Delete profile")
self.delete_btn.setDisabled(True)
self.delete_btn.clicked.connect(self.delete_profile)
self.multiple_files_chk = QCheckBox("Show multiple files panel")
self.multiple_files_chk.setChecked(
self._settings.get("multiple_files_widget", False))
self.multiple_files_chk.stateChanged.connect(
self.multiple_files_visibility)
self.rename_btn = QPushButton("Rename profile")
self.rename_btn.clicked.connect(self.rename_profile)
self.rename_btn.setDisabled(True)
self.voxel_size_label = QLabel()
self.info_label = QPlainTextEdit()
self.info_label.setReadOnly(True)
self.profile_list = SearchableListWidget()
self.profile_list.currentTextChanged.connect(self.profile_chosen)
self.pipeline_list = SearchableListWidget()
self.pipeline_list.currentTextChanged.connect(self.profile_chosen)
self.spacing = [QDoubleSpinBox() for _ in range(3)]
self.lock_spacing = LockCheckBox()
self.lock_spacing.stateChanged.connect(self.spacing[1].setDisabled)
self.lock_spacing.stateChanged.connect(self.synchronize_spacing)
# noinspection PyUnresolvedReferences
self.spacing[2].valueChanged.connect(self.synchronize_spacing)
units_value = self._settings.get("units_value", Units.nm)
for el in self.spacing:
el.setAlignment(Qt.AlignRight)
el.setButtonSymbols(QAbstractSpinBox.NoButtons)
el.setRange(0, 1000000)
# noinspection PyUnresolvedReferences
el.valueChanged.connect(self.image_spacing_change)
self.units = EnumComboBox(Units)
self.units.set_value(units_value)
# noinspection PyUnresolvedReferences
self.units.currentIndexChanged.connect(self.update_spacing)
spacing_layout = QHBoxLayout()
spacing_layout.addWidget(self.lock_spacing)
for txt, el in zip(["x", "y", "z"], self.spacing[::-1]):
spacing_layout.addWidget(QLabel(txt + ":"))
spacing_layout.addWidget(el)
spacing_layout.addWidget(self.units)
spacing_layout.addStretch(1)
voxel_size_layout = QHBoxLayout()
voxel_size_layout.addWidget(self.voxel_size_label)
voxel_size_layout.addSpacing(30)
profile_layout = QGridLayout()
profile_layout.setSpacing(0)
profile_layout.addWidget(QLabel("Profiles:"), 0, 0)
profile_layout.addWidget(self.profile_list, 1, 0)
profile_layout.addWidget(QLabel("Pipelines:"), 2, 0)
profile_layout.addWidget(self.pipeline_list, 3, 0, 4, 1)
profile_layout.addWidget(self.info_label, 1, 1, 3, 2)
profile_layout.addWidget(self.export_btn, 4, 1)
profile_layout.addWidget(self.import_btn, 4, 2)
profile_layout.addWidget(self.export_pipeline_btn, 5, 1)
profile_layout.addWidget(self.import_pipeline_btn, 5, 2)
profile_layout.addWidget(self.delete_btn, 6, 1)
profile_layout.addWidget(self.rename_btn, 6, 2)
layout = QVBoxLayout()
layout.addLayout(spacing_layout)
layout.addLayout(voxel_size_layout)
layout.addWidget(self.multiple_files_chk)
layout.addLayout(profile_layout, 1)
self.setLayout(layout)
def __init__(self, jsonitem: JsonItem, parent=None):
super().__init__(parent)
assert jsonitem is not None
self.item = jsonitem
# name
self.nameLabel = QLabel(self.tr("name:"))
self.nameLineEdit = QLineEdit(self.item.name or "")
self.nameLabel.setBuddy(self.nameLineEdit)
# unit
self.unitLabel = QLabel(self.tr("unit:"))
self.unitLineEdit = QLineEdit(self.item.unit or "")
self.unitLabel.setBuddy(self.unitLineEdit)
# type
self.typeLabel = QLabel(self.tr("type:"))
self.typeComboBox = QComboBox()
self.typeComboBox.addItems([k for k, t in VALUETYPES])
self.typeComboBox.setCurrentIndex(
self.typeComboBox.findText(self.item.type))
self.typeComboBox.currentIndexChanged.connect(self.data_changed)
self.typeLabel.setBuddy(self.typeComboBox)
# decimals
self.decimalsLabel = QLabel(self.tr("decimals:"))
self.decimalsSpinBox = QSpinBox()
self.decimalsSpinBox.setRange(0, 10)
self.decimalsSpinBox.setValue(self.item.decimals or 0)
self.decimalsLabel.setBuddy(self.decimalsSpinBox)
self.decimalsSpinBox.valueChanged.connect(self.data_changed)
self.last_decimals = self.decimalsSpinBox.value()
# min
self.minLabel = QLabel(self.tr("minimum:"))
self.minSpinBox =QDoubleSpinBox()
self.minSpinBox.setRange(-sys.maxsize, sys.maxsize)
self.minLabel.setBuddy(self.minSpinBox)
self.minSpinBox.setValue(self.item.min or 0.0)
# max
self.maxLabel = QLabel(self.tr("maximum:"))
self.maxSpinBox = QDoubleSpinBox()
self.maxSpinBox.setRange(-sys.maxsize, sys.maxsize)
self.maxSpinBox.setValue(self.item.max or 100.0)
# numerator
self.scalefactorLabel = QLabel(self.tr("scalefactor:"))
self.scalefactorSpinBox = NoZerosDoubleSpinBox()
self.scalefactorSpinBox.setRange(-sys.maxsize, sys.maxsize)
self.scalefactorSpinBox.setButtonSymbols(QSpinBox.NoButtons)
self.scalefactorSpinBox.setDecimals(10)
self.scalefactorSpinBox.setValue(self.item.scalefactor or 1)
self.scalefactorLabel.setBuddy(self.scalefactorSpinBox)
# readonly
self.readonlyCheckBox = QCheckBox(self.tr("readonly"))
self.readonlyCheckBox.setChecked(Qt.Checked if self.item.readonly
else Qt.Unchecked)
self.readonlyCheckBox.stateChanged.connect(self.data_changed)
# buttons
self.buttons = QDialogButtonBox(
QDialogButtonBox.Ok | QDialogButtonBox.Cancel,
Qt.Horizontal
)
self.buttons.accepted.connect(self.accept)
self.buttons.rejected.connect(self.reject)
# layout
layout = QGridLayout()
layout.addWidget(self.nameLabel, 0, 0)
layout.addWidget(self.nameLineEdit, 0, 1)
layout.addWidget(self.unitLabel, 1, 0)
layout.addWidget(self.unitLineEdit, 1, 1)
layout.addWidget(self.typeLabel, 2, 0)
layout.addWidget(self.typeComboBox, 2, 1)
layout.addWidget(self.decimalsLabel, 3, 0)
layout.addWidget(self.decimalsSpinBox, 3, 1)
layout.addWidget(self.minLabel, 4, 0)
layout.addWidget(self.minSpinBox, 4, 1)
layout.addWidget(self.maxLabel, 5, 0)
layout.addWidget(self.maxSpinBox, 5, 1)
layout.addWidget(self.scalefactorLabel, 6, 0)
layout.addWidget(self.scalefactorSpinBox, 6, 1)
layout.addWidget(self.readonlyCheckBox, 7, 0, 1, 2)
layout.addWidget(self.buttons, 8, 0, 1, 2)
self.setLayout(layout)
# misc
self.setWindowTitle("Edit JsonItem '%s'" % self.item.key)
self.data_changed()
class SliderSpinBox(QWidget):
valueChanged = Signal(float)
def __init__(self, parent=None, value_range=(0, 100), slider_steps=100, spinbox_steps=1000, decimals=None):
QWidget.__init__(self, parent)
layout = QHBoxLayout(self)
self.setLayout(layout)
self.horizontalSlider = QSlider(Qt.Horizontal, self)
self.doubleSpinBox = QDoubleSpinBox(self)
self.decimals = decimals
layout.setMargin(0)
layout.addWidget(self.doubleSpinBox)
layout.addWidget(self.horizontalSlider)
self.doubleSpinBox.valueChanged.connect(self.spinbox_changed)
self.horizontalSlider.valueChanged.connect(self.slider_changed)
self.wt = []
self.changer = None
self.slider_steps = slider_steps
self.horizontalSlider.setMaximum(slider_steps)
self.spinbox_steps = spinbox_steps
self.set_range(value_range)
def set_value(self, value):
self.doubleSpinBox.setValue(value)
value = property(lambda self: self.doubleSpinBox.value(), set_value)
def set_range(self, value_range):
self.changer = "set_range"
spinbox_step_decimal = np.ceil(np.log10(1. / (float(value_range[1] - value_range[0]) / self.spinbox_steps)))
self.slider_decimals = int(np.ceil(np.log10(self.slider_steps) - np.log10(value_range[1] - value_range[0])))
if self.decimals is None:
self.doubleSpinBox.setDecimals(spinbox_step_decimal + 1)
else:
self.doubleSpinBox.setDecimals(self.decimals)
spinbox_step_decimal = min(self.decimals, spinbox_step_decimal)
self.slider_decimals = min(self.decimals, self.slider_decimals)
self.doubleSpinBox.setSingleStep(10 ** -spinbox_step_decimal)
self.value_range = value_range
self.doubleSpinBox.setMinimum(value_range[0])
self.doubleSpinBox.setMaximum(value_range[1])
self.horizontalSlider.setValue(np.floor(value_range[0]))
self.changer = None
self.doubleSpinBox.setValue(value_range[0])
def range(self):
return self.doubleSpinBox.minimum(), self.doubleSpinBox.maximum()
def slider_changed(self, value):
if self.changer is None:
self.changer = 'slider'
value = np.round(value * (self.value_range[1] - self.value_range[0]) / self.slider_steps + self.value_range[0], self.slider_decimals)
self.doubleSpinBox.setValue(value)
self.changer = None
self.value_changed(value)
def spinbox_changed(self, value):
if self.changer is None:
self.changer = 'spinbox'
slider_value = .5 + (value - self.value_range[0]) * self.slider_steps / (self.value_range[1] - self.value_range[0])
self.horizontalSlider.setValue(slider_value)
self.changer = None
self.value_changed(value)
@postpone_until_last_call_finishes
def value_changed(self, value):
self.valueChanged.emit(value)
def __init__(self, data, win_parent=None):
"""
+-----------------+
| Edit Node Props |
+-----------------+------+
| LEwingTip |
| Node2 |
| Node3 |
| Node4 |
| |
| All Nodes: |
| Color red |
| PointSize 3 |
| Opacity 0.3 |
| Show/Hide |
| |
| Name LEwingTip |
| Location X Y Z |
| Coord 0 |
| CoordType R, C, S |
| |
| Previous Next |
| |
| Close |
+------------------------+
"""
QDialog.__init__(self, win_parent)
self.setWindowTitle('Edit Node Properties')
#default
self.win_parent = win_parent
self.out_data = data
point_properties = data['point_properties']
print(point_properties)
#name = point_properties.name
point_size = point_properties.point_size
opacity = point_properties.opacity
color = point_properties.color
show = point_properties.is_visible
self.points = data['points']
self.keys = sorted(self.points.keys())
keys = self.keys
#nrows = len(keys)
active_point = data['active_point']
#self.active_key = keys[0]
self.active_key = active_point
name = self.active_key
description = self.points[self.active_key][0]
self._use_old_table = False
items = ['Node %i' % val for val in keys]
header_labels = ['Nodes']
table_model = Model(items, header_labels, self)
view = SingleChoiceQTableView(self) #Call your custom QTableView here
view.setModel(table_model)
if qt_version in [4, 'pyside']:
view.horizontalHeader().setResizeMode(QHeaderView.Stretch)
else:
view.horizontalHeader().setSectionResizeMode(QHeaderView.Stretch)
self.table = view
#self.representation = actor_obj.representation
#print('rep =', self.representation)
table = self.table
#headers = [QtCore.QString('Groups')]
header = table.horizontalHeader()
header.setStretchLastSection(True)
#----------------------------------------------
#self._default_is_apply = False
self.color = QLabel("Color:")
self.color_edit = QPushButton()
#self.color_edit.setFlat(True)
color = self.out_data['point_properties'].color
opacity = self.out_data['point_properties'].opacity
show = self.out_data['point_properties'].is_visible
#color = self.out_data[self.active_key].color
qcolor = QColor()
qcolor.setRgb(*color)
#print('color =%s' % str(color))
palette = QPalette(
self.color_edit.palette()) # make a copy of the palette
#palette.setColor(QPalette.Active, QPalette.Base, \
#qcolor)
palette.setColor(QPalette.Background, QColor('blue')) # ButtonText
self.color_edit.setPalette(palette)
self.color_edit.setStyleSheet("QPushButton {"
"background-color: rgb(%s, %s, %s);" %
tuple(color) +
#"border:1px solid rgb(255, 170, 255); "
"}")
self.all_nodes_header = QLabel("All Nodes:")
self.point_size = QLabel("Point Size:")
self.point_size_edit = QSpinBox(self)
self.point_size_edit.setRange(1, 10)
self.point_size_edit.setSingleStep(1)
self.point_size_edit.setValue(point_size)
self.opacity = QLabel("Opacity:")
self.opacity_edit = QDoubleSpinBox(self)
self.opacity_edit.setRange(0.1, 1.0)
self.opacity_edit.setDecimals(1)
self.opacity_edit.setSingleStep(0.1)
self.opacity_edit.setValue(opacity)
# show/hide
self.checkbox_show = QCheckBox("Show")
self.checkbox_hide = QCheckBox("Hide")
self.checkbox_show.setChecked(show)
self.checkbox_hide.setChecked(not show)
#----------------------------------------------
self.nodes_header = QLabel("Single Node:")
self.name = QLabel("ID:")
self.name_edit = QLineEdit('Node %i' % name)
self.name_edit.setDisabled(True)
self.description = QLabel("Description:")
self.description_edit = QLineEdit(str(description))
#self.description_edit.setDisabled(True)
location_x = 0.1
location_y = 0.1
location_z = 0.1
self.location = QLabel("Location:")
self.location_x_edit = QDoubleSpinBox(self)
self.location_y_edit = QDoubleSpinBox(self)
self.location_z_edit = QDoubleSpinBox(self)
#self.location_x_edit.setDecimals(1)
delta_x = abs(location_x) / 100. if location_x != 0.0 else 0.1
delta_y = abs(location_y) / 100. if location_y != 0.0 else 0.1
delta_z = abs(location_z) / 100. if location_z != 0.0 else 0.1
self.location_x_edit.setSingleStep(delta_x)
self.location_y_edit.setSingleStep(delta_y)
self.location_z_edit.setSingleStep(delta_z)
self.location_x_edit.setValue(location_x)
self.location_y_edit.setValue(location_y)
self.location_z_edit.setValue(location_z)
self.coord = QLabel("Coord:")
self.coord_edit = QSpinBox(self)
self.coord_edit.setRange(0, 99999999)
#self.coord_edit.setSingleStep(1)
self.coord_edit.setValue(0)
self.coord_type = QLabel("Coord Type:")
#----------------------------------------------
# closing
#if self._default_is_apply:
#self.apply_button.setDisabled(True)
self.close_button = QPushButton("Close")
self.create_layout()
self.set_connections()
class EditNodeProperties(QDialog):
def __init__(self, data, win_parent=None):
"""
+-----------------+
| Edit Node Props |
+-----------------+------+
| LEwingTip |
| Node2 |
| Node3 |
| Node4 |
| |
| All Nodes: |
| Color red |
| PointSize 3 |
| Opacity 0.3 |
| Show/Hide |
| |
| Name LEwingTip |
| Location X Y Z |
| Coord 0 |
| CoordType R, C, S |
| |
| Previous Next |
| |
| Close |
+------------------------+
"""
QDialog.__init__(self, win_parent)
self.setWindowTitle('Edit Node Properties')
#default
self.win_parent = win_parent
self.out_data = data
point_properties = data['point_properties']
print(point_properties)
#name = point_properties.name
point_size = point_properties.point_size
opacity = point_properties.opacity
color = point_properties.color
show = point_properties.is_visible
self.points = data['points']
self.keys = sorted(self.points.keys())
keys = self.keys
#nrows = len(keys)
active_point = data['active_point']
#self.active_key = keys[0]
self.active_key = active_point
name = self.active_key
description = self.points[self.active_key][0]
self._use_old_table = False
items = ['Node %i' % val for val in keys]
header_labels = ['Nodes']
table_model = Model(items, header_labels, self)
view = SingleChoiceQTableView(self) #Call your custom QTableView here
view.setModel(table_model)
if qt_version in [4, 'pyside']:
view.horizontalHeader().setResizeMode(QHeaderView.Stretch)
else:
view.horizontalHeader().setSectionResizeMode(QHeaderView.Stretch)
self.table = view
#self.representation = actor_obj.representation
#print('rep =', self.representation)
table = self.table
#headers = [QtCore.QString('Groups')]
header = table.horizontalHeader()
header.setStretchLastSection(True)
#----------------------------------------------
#self._default_is_apply = False
self.color = QLabel("Color:")
self.color_edit = QPushButton()
#self.color_edit.setFlat(True)
color = self.out_data['point_properties'].color
opacity = self.out_data['point_properties'].opacity
show = self.out_data['point_properties'].is_visible
#color = self.out_data[self.active_key].color
qcolor = QColor()
qcolor.setRgb(*color)
#print('color =%s' % str(color))
palette = QPalette(
self.color_edit.palette()) # make a copy of the palette
#palette.setColor(QPalette.Active, QPalette.Base, \
#qcolor)
palette.setColor(QPalette.Background, QColor('blue')) # ButtonText
self.color_edit.setPalette(palette)
self.color_edit.setStyleSheet("QPushButton {"
"background-color: rgb(%s, %s, %s);" %
tuple(color) +
#"border:1px solid rgb(255, 170, 255); "
"}")
self.all_nodes_header = QLabel("All Nodes:")
self.point_size = QLabel("Point Size:")
self.point_size_edit = QSpinBox(self)
self.point_size_edit.setRange(1, 10)
self.point_size_edit.setSingleStep(1)
self.point_size_edit.setValue(point_size)
self.opacity = QLabel("Opacity:")
self.opacity_edit = QDoubleSpinBox(self)
self.opacity_edit.setRange(0.1, 1.0)
self.opacity_edit.setDecimals(1)
self.opacity_edit.setSingleStep(0.1)
self.opacity_edit.setValue(opacity)
# show/hide
self.checkbox_show = QCheckBox("Show")
self.checkbox_hide = QCheckBox("Hide")
self.checkbox_show.setChecked(show)
self.checkbox_hide.setChecked(not show)
#----------------------------------------------
self.nodes_header = QLabel("Single Node:")
self.name = QLabel("ID:")
self.name_edit = QLineEdit('Node %i' % name)
self.name_edit.setDisabled(True)
self.description = QLabel("Description:")
self.description_edit = QLineEdit(str(description))
#self.description_edit.setDisabled(True)
location_x = 0.1
location_y = 0.1
location_z = 0.1
self.location = QLabel("Location:")
self.location_x_edit = QDoubleSpinBox(self)
self.location_y_edit = QDoubleSpinBox(self)
self.location_z_edit = QDoubleSpinBox(self)
#self.location_x_edit.setDecimals(1)
delta_x = abs(location_x) / 100. if location_x != 0.0 else 0.1
delta_y = abs(location_y) / 100. if location_y != 0.0 else 0.1
delta_z = abs(location_z) / 100. if location_z != 0.0 else 0.1
self.location_x_edit.setSingleStep(delta_x)
self.location_y_edit.setSingleStep(delta_y)
self.location_z_edit.setSingleStep(delta_z)
self.location_x_edit.setValue(location_x)
self.location_y_edit.setValue(location_y)
self.location_z_edit.setValue(location_z)
self.coord = QLabel("Coord:")
self.coord_edit = QSpinBox(self)
self.coord_edit.setRange(0, 99999999)
#self.coord_edit.setSingleStep(1)
self.coord_edit.setValue(0)
self.coord_type = QLabel("Coord Type:")
#----------------------------------------------
# closing
#if self._default_is_apply:
#self.apply_button.setDisabled(True)
self.close_button = QPushButton("Close")
self.create_layout()
self.set_connections()
def update_active_key(self, index):
name = self.active_key
old_obj = self.out_data['points'][name]
#self.active_key
#self.points[self.active_key]
old_obj[0] = str(self.description_edit.text())
#old_obj.coord = self.description_edit.value()
#old_obj.description = self.description_edit.value()
#old_obj.description = self.description_edit.value()
str_name = str(index.data().toString())
name = int(str_name[5:])
#i = self.keys.index(self.active_key)
self.active_key = name
point = self.points[self.active_key]
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
self.name_edit.setText(str(self.active_key))
self.description_edit.setText(point[0])
self.coord_edit.setValue(point[1])
if point[2] == 'R':
self.radio_rectangular.setChecked(True)
elif point[2] == 'C':
self.radio_cylindrical.setChecked(True)
elif point[2] == 'S':
self.radio_spherical.setChecked(True)
self.location_x_edit.setValue(point[3])
self.location_y_edit.setValue(point[4])
self.location_z_edit.setValue(point[5])
#obj = self.out_data[name]
#point_size = obj.point_size
#opacity = obj.opacity
#representation = obj.representation
#is_visible = obj.is_visible
#self.opacity_edit.setValue(opacity)
#self.checkbox_show.setChecked(is_visible)
#self.checkbox_hide.setChecked(not is_visible)
#def on_name_select(self):
#print('on_name_select')
#return
def create_layout(self):
cancel_box = QHBoxLayout()
cancel_box.addWidget(self.close_button)
grid1 = QGridLayout()
grid2 = QGridLayout()
#-----------------------------------------
# setup
self.radio_rectangular = QRadioButton('Rectangular')
self.radio_cylindrical = QRadioButton('Cylindrical')
self.radio_spherical = QRadioButton('Spherical')
coord_type_layout = QHBoxLayout()
coord_type_layout.addWidget(self.radio_rectangular)
coord_type_layout.addWidget(self.radio_cylindrical)
coord_type_layout.addWidget(self.radio_spherical)
location_layout = QHBoxLayout()
location_layout.addWidget(self.location_x_edit)
location_layout.addWidget(self.location_y_edit)
location_layout.addWidget(self.location_z_edit)
checkboxs = QButtonGroup(self)
checkboxs.addButton(self.checkbox_show)
checkboxs.addButton(self.checkbox_hide)
vbox1 = QVBoxLayout()
vbox1.addWidget(self.checkbox_show)
vbox1.addWidget(self.checkbox_hide)
#vbox1.addLayout(checkboxs)
#-----------------------------------------
irow = 0
grid1.addWidget(self.all_nodes_header, irow, 0)
irow += 1
grid1.addWidget(self.color, irow, 0)
grid1.addWidget(self.color_edit, irow, 1)
irow += 1
grid1.addWidget(self.opacity, irow, 0)
grid1.addWidget(self.opacity_edit, irow, 1)
irow += 1
grid1.addWidget(self.point_size, irow, 0)
grid1.addWidget(self.point_size_edit, irow, 1)
irow += 1
#-----------------------------------------
irow = 0
grid2.addWidget(self.nodes_header, irow, 0)
irow += 1
grid2.addWidget(self.name, irow, 0)
grid2.addWidget(self.name_edit, irow, 1)
irow += 1
grid2.addWidget(self.description, irow, 0)
grid2.addWidget(self.description_edit, irow, 1)
irow += 1
#| All Nodes: |
#| Color red |
#| PointSize 3 |
#| Opacity 0.3 |
#| Show/Hide |
#| |
#| Name LEwingTip |
#| Location X Y Z |
#| Coord 0 |
#| CoordType R, C, S |
#| |
#| Previous Next |
grid2.addWidget(self.coord, irow, 0)
grid2.addWidget(self.coord_edit, irow, 1)
irow += 1
grid2.addWidget(self.coord_type, irow, 0)
grid2.addLayout(coord_type_layout, irow, 1)
irow += 1
grid2.addWidget(self.location, irow, 0)
grid2.addLayout(location_layout, irow, 1)
irow += 1
#------------------------------------
vbox = QVBoxLayout()
vbox.addLayout(grid1)
vbox.addLayout(vbox1)
vbox.addStretch()
vbox.addWidget(self.table)
vbox.addLayout(grid2)
vbox.addStretch()
#vbox.addWidget(self.check_apply)
vbox.addLayout(cancel_box)
self.setLayout(vbox)
def set_connections(self):
if qt_version == 4:
self.connect(self.opacity_edit, QtCore.SIGNAL('clicked()'),
self.on_opacity)
self.connect(self.point_size, QtCore.SIGNAL('clicked()'),
self.on_point_size)
self.connect(self.color_edit, QtCore.SIGNAL('clicked()'),
self.on_color)
self.connect(self.checkbox_show, QtCore.SIGNAL('clicked()'),
self.on_show)
self.connect(self.checkbox_hide, QtCore.SIGNAL('clicked()'),
self.on_hide)
self.connect(self.description_edit,
QtCore.SIGNAL("valueChanged(int)"),
self.on_description)
self.connect(self.coord_edit, QtCore.SIGNAL("valueChanged(int)"),
self.on_coord)
self.connect(self.radio_rectangular, QtCore.SIGNAL('clicked()'),
self.on_coord_type)
self.connect(self.radio_cylindrical, QtCore.SIGNAL('clicked()'),
self.on_coord_type)
self.connect(self.radio_spherical, QtCore.SIGNAL('clicked()'),
self.on_coord_type)
self.connect(self.location_x_edit, QtCore.SIGNAL('clicked()'),
self.on_location_x)
self.connect(self.location_y_edit, QtCore.SIGNAL('clicked()'),
self.on_location_y)
self.connect(self.location_z_edit, QtCore.SIGNAL('clicked()'),
self.on_location_z)
self.connect(self.close_button, QtCore.SIGNAL('clicked()'),
self.on_close)
#self.connect(self.check_apply, QtCore.SIGNAL('clicked()'), self.on_check_apply)
#self.connect(self.apply_button, QtCore.SIGNAL('clicked()'), self.on_apply)
#self.connect(self.ok_button, QtCore.SIGNAL('clicked()'), self.on_ok)
#self.connect(self.close_button, QtCore.SIGNAL('clicked()'), self.on_close)
else:
#self.opacity_edit.clicked.connect(self.on_opacity)
#self.point_size.clicked.connect(self.on_point_size)
#self.color_edit.clicked.connect(self.on_color)
#self.checkbox_show.clicked.connect(self.on_show)
#self.checkbox_hide.clicked.connect(self.on_hide)
#self.description_edit.valueChanged.connect(self.on_description)
#self.coord_edit.valueChanged.connect(self.on_coord)
#self.radio_rectangular.clicked.connect(self.on_coord_type)
#self.radio_cylindrical.clicked.connect(self.on_coord_type)
#self.radio_spherical.clicked.connect(self.on_coord_type)
#self.location_x_edit.clicked.connect(self.on_location_x)
#self.location_y_edit.clicked.connect(self.on_location_y)
#self.location_z_edit.clicked.connect(self.on_location_z)
self.close_button.clicked.connect(self.on_close)
def on_color(self):
obj = self.out_data['point_properties']
rgb_color_ints = obj.color
msg = 'Points'
col = QColorDialog.getColor(QColor(*rgb_color_ints), self,
"Choose a %s color" % msg)
if col.isValid():
color = col.getRgbF()[:3]
obj.color = color
#print('new_color =', color)
self.color_edit.setStyleSheet(
"QPushButton {"
"background-color: rgb(%s, %s, %s);" % tuple(obj.color) +
#"border:1px solid rgb(255, 170, 255); "
"}")
def on_show(self):
is_checked = self.checkbox_show.isChecked()
self.out_data['point_properties'].is_visible = is_checked
def on_hide(self):
is_checked = self.checkbox_hide.isChecked()
self.out_data['point_properties'].is_visible = not is_checked
def on_point_size(self):
point_size = self.point_size_edit.value()
self.out_data['point_properties'].point_size = point_size
def on_opacity(self):
opacity = self.opacity_edit.value()
self.out_data['point_properties'].opacity = opacity
def on_description(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
description = self.description_edit.value()
self.out_data['points'][name][0] = description
def on_coord(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
coord_id = self.coord_edit.value()
self.out_data['points'][name][1] = coord_id
def on_coord_type(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
if self.radio_rectangular.isChecked():
coord_type = 'R'
elif self.radio_cylindrical.isChecked():
coord_type = 'C'
elif self.radio_spherical.isChecked():
coord_type = 'S'
else:
raise NotImplementedError()
self.out_data['points'][name][2] = coord_type
def on_location_x(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
value = self.coord_edit.value()
self.out_data['points'][name][3] = value
def on_location_y(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
value = self.coord_edit.value()
self.out_data['points'][name][4] = value
def on_location_z(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
value = self.coord_edit.value()
self.out_data['points'][name][5] = value
def closeEvent(self, event):
event.accept()
#def on_default_name(self):
#self.name_edit.setText(str(self._default_name))
#self.name_edit.setStyleSheet("QLineEdit{background: white;}")
#def check_float(self, cell):
#text = cell.text()
#try:
#value = eval_float_from_string(text)
#cell.setStyleSheet("QLineEdit{background: white;}")
#return value, True
#except ValueError:
#cell.setStyleSheet("QLineEdit{background: red;}")
#return None, False
#def check_name(self, cell):
#text = str(cell.text()).strip()
#if len(text):
#cell.setStyleSheet("QLineEdit{background: white;}")
#return text, True
#else:
#cell.setStyleSheet("QLineEdit{background: red;}")
#return None, False
def on_validate(self):
self.out_data['clicked_ok'] = True
self.out_data['clicked_cancel'] = False
old_obj = self.out_data[self.active_key]
old_obj.point_size = self.point_size_edit.value()
old_obj.opacity = self.opacity_edit.value()
old_obj.is_visible = self.checkbox_show.isChecked()
return True
#name_value, flag0 = self.check_name(self.name_edit)
#ox_value, flag1 = self.check_float(self.transparency_edit)
#if flag0 and flag1:
#self.out_data['clicked_ok'] = True
#return True
#return False
def on_apply(self):
passed = self.on_validate()
if passed:
self.win_parent.on_update_gui_nodes(self.out_data)
return passed
def on_ok(self):
passed = self.on_apply()
if passed:
self.close()
#self.destroy()
def on_close(self):
self.out_data['clicked_close'] = True
self.close()
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 Dimension(QWidget):
stateChanged = Signal(int)
valueChanged = Signal()
"""
pass in dimension
state: one of (State.X, State.Y, State.NONE, State.DISABLE)
Can be run independently by:
from mantidqt.widgets.sliceviewer.dimensionwidget import Dimension
from qtpy.QtWidgets import QApplication
app = QApplication([])
window = Dimension({'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):
super().__init__(parent)
self.minimum = dim_info['minimum']
self.nbins = dim_info['number_of_bins']
self.width = dim_info['width']
self.number = number
self.layout = QHBoxLayout(self)
self.layout.setContentsMargins(0, 2, 0, 0)
self.name = QLabel(dim_info['name'])
self.units = QLabel(dim_info['units'])
self.x = QPushButton('X')
self.x.setFixedSize(26, 26)
self.x.setCheckable(True)
self.x.clicked.connect(self.x_clicked)
self.y = QPushButton('Y')
self.y.setFixedSize(26, 26)
self.y.setCheckable(True)
self.y.clicked.connect(self.y_clicked)
self.slider = QSlider(Qt.Horizontal)
self.slider.setRange(0, self.nbins - 1)
self.slider.valueChanged.connect(self.slider_changed)
self.spinbox = QDoubleSpinBox()
self.spinbox.setDecimals(3)
self.spinbox.setRange(self.get_bin_center(0),
self.get_bin_center(self.nbins - 1))
self.spinbox.setSingleStep(self.width)
self.spinbox.editingFinished.connect(self.spinbox_changed)
self.layout.addWidget(self.name)
self.button_layout = QHBoxLayout()
self.button_layout.setContentsMargins(0, 0, 0, 0)
self.button_layout.setSpacing(0)
self.button_layout.addWidget(self.x)
self.button_layout.addWidget(self.y)
self.layout.addLayout(self.button_layout)
self.layout.addWidget(self.slider, stretch=1)
self.layout.addStretch(0)
self.layout.addWidget(self.spinbox)
self.layout.addWidget(self.units)
self.set_value(0)
if self.nbins < 2:
state = State.DISABLE
self.set_state(state)
def set_state(self, state):
self.state = state
if self.state == State.X:
self.x.setChecked(True)
self.y.setChecked(False)
self.slider.hide()
self.spinbox.hide()
self.units.hide()
elif self.state == State.Y:
self.x.setChecked(False)
self.y.setChecked(True)
self.slider.hide()
self.spinbox.hide()
self.units.hide()
elif self.state == State.NONE:
self.x.setChecked(False)
self.y.setChecked(False)
self.slider.show()
self.spinbox.show()
self.units.show()
else:
self.x.setChecked(False)
self.x.setDisabled(True)
self.y.setChecked(False)
self.y.setDisabled(True)
self.slider.hide()
self.spinbox.show()
self.spinbox.setDisabled(True)
self.units.show()
def get_state(self):
return self.state
def x_clicked(self):
old_state = self.state
self.set_state(State.X)
if self.state != old_state:
self.stateChanged.emit(self.number)
def y_clicked(self):
old_state = self.state
self.set_state(State.Y)
if self.state != old_state:
self.stateChanged.emit(self.number)
def spinbox_changed(self):
self.value = self.spinbox.value()
self.update_slider()
def slider_changed(self):
self.value = self.get_bin_center(self.slider.value())
self.update_spinbox()
self.valueChanged.emit()
def get_bin_center(self, n):
return (n + 0.5) * self.width + self.minimum
def update_slider(self):
i = (self.value - self.minimum) / self.width
self.slider.setValue(int(min(max(i, 0), self.nbins - 1)))
def update_spinbox(self):
self.spinbox.setValue(self.value)
def set_value(self, value):
self.value = value
self.update_slider()
self.update_spinbox()
def get_value(self):
return self.value
def setup_ui(self):
self.setWindowTitle('Neuroport DBS - Electrodes Depth')
self.setWindowFlags(Qt.FramelessWindowHint)
self.move(WINDOWDIMS_DEPTH[0], WINDOWDIMS_DEPTH[1])
self.setFixedSize(WINDOWDIMS_DEPTH[2], WINDOWDIMS_DEPTH[3])
self.show()
self.plot_widget = QWidget()
self.setCentralWidget(self.plot_widget)
# define Qt GUI elements
v_layout = QVBoxLayout()
v_layout.setSpacing(0)
v_layout.setContentsMargins(10, 0, 10, 10)
h_layout = QHBoxLayout()
self.comboBox_com_port = QComboBox()
h_layout.addWidget(self.comboBox_com_port)
self.pushButton_open = QPushButton("Open")
h_layout.addWidget(self.pushButton_open)
h_layout.addStretch()
self.label_offset = QLabel("Offset: ")
h_layout.addWidget(self.label_offset)
self.doubleSpinBox_offset = QDoubleSpinBox()
self.doubleSpinBox_offset.setMinimum(-100.00)
self.doubleSpinBox_offset.setMaximum(100.00)
self.doubleSpinBox_offset.setSingleStep(1.00)
self.doubleSpinBox_offset.setDecimals(2)
self.doubleSpinBox_offset.setValue(-10.00)
self.doubleSpinBox_offset.setFixedWidth(60)
h_layout.addWidget(self.doubleSpinBox_offset)
h_layout.addStretch()
h_layout.addWidget(QLabel("Stream to :"))
self.chk_NSP = QCheckBox("NSP")
self.chk_NSP.setChecked(True)
h_layout.addWidget(self.chk_NSP)
h_layout.addSpacing(5)
self.chk_LSL = QCheckBox("LSL")
self.chk_LSL.clicked.connect(self.on_chk_LSL_clicked)
self.chk_LSL.click(
) # default is enabled, click call to trigger LSL stream creation.
h_layout.addWidget(self.chk_LSL)
h_layout.addSpacing(5)
send_btn = QPushButton("Send")
send_btn.clicked.connect(self.send)
h_layout.addWidget(send_btn)
h_layout.addSpacing(5)
quit_btn = QPushButton('X')
quit_btn.setMaximumWidth(20)
quit_btn.clicked.connect(QApplication.instance().quit)
quit_btn.setStyleSheet("QPushButton { color: white; "
"background-color : red; "
"border-color : red; "
"border-width: 2px}")
h_layout.addWidget(quit_btn)
v_layout.addLayout(h_layout)
# define Qt GUI elements
# add a frame for the LCD numbers
self.lcd_frame = QFrame()
self.lcd_frame.setFrameShape(1)
lcd_layout = QGridLayout()
self.lcd_frame.setLayout(lcd_layout)
# RAW reading from DDU
self.raw_ddu = QLCDNumber()
self.raw_ddu.setDigitCount(7)
self.raw_ddu.setFrameShape(0)
self.raw_ddu.setSmallDecimalPoint(True)
self.raw_ddu.setFixedHeight(50)
self.raw_ddu.display("{0:.3f}".format(0))
lcd_layout.addWidget(self.raw_ddu, 0, 3, 2, 3)
self.offset_ddu = QLCDNumber()
self.offset_ddu.setDigitCount(7)
self.offset_ddu.setFixedHeight(150)
self.offset_ddu.display("{0:.3f}".format(-10))
self.offset_ddu.setFrameShape(0)
lcd_layout.addWidget(self.offset_ddu, 2, 0, 5, 6)
v_layout.addWidget(self.lcd_frame)
self.plot_widget.setLayout(v_layout)
# Populate control panel items
for port in serial.tools.list_ports.comports():
self.comboBox_com_port.addItem(port.device)
self.comboBox_com_port.addItem("cbsdk playback")
# Connect signals & slots
self.pushButton_open.clicked.connect(self.on_open_clicked)
self.comboBox_com_port.currentIndexChanged.connect(
self.on_comboBox_com_port_changed)
class PreferencesWindow(PyDialog):
"""
+-------------+
| Preferences |
+---------------------------------+
| Text Size ______ Default |
| Annotation Color ______ |
| Annotation Size ______ |
| Picker Size ______ |
| Back Color ______ |
| Text Color ______ |
| |
| Apply OK Cancel |
+---------------------------------+
"""
def __init__(self, data, win_parent=None):
"""
Saves the data members from data and
performs type checks
"""
PyDialog.__init__(self, data, win_parent)
self._updated_preference = False
self._default_font_size = data['font_size']
self._default_text_size = 14
self._default_annotation_size = 18
self._default_coord_scale = 0.05 * 100.
self._default_coord_text_scale = 0.5 * 100.
self._default_clipping_min = data['min_clip']
self._default_clipping_max = data['max_clip']
#self._default_annotation_size = data['annotation_size'] # int
#self.default_magnify = data['magnify']
self.dim_max = data['dim_max']
self._use_gradient_background = data['use_gradient_background'] # bool
self._annotation_size = data['annotation_size'] # int
#self.out_data = data
self._picker_size = data['picker_size'] * 100.
self._coord_scale = data['coord_scale'] * 100.
self._coord_text_scale = data['coord_text_scale'] * 100.
self._magnify = data['magnify']
self._text_size = data['text_size']
self.annotation_color_float, self.annotation_color_int = _check_color(
data['annotation_color'])
self.background_color_float, self.background_color_int = _check_color(
data['background_color'])
self.background_color2_float, self.background_color2_int = _check_color(
data['background_color2'])
self.text_color_float, self.text_color_int = _check_color(
data['text_color'])
self.setWindowTitle('Preferences')
self.create_widgets()
self.create_layout()
self.set_connections()
self.on_font(self._default_font_size)
self.on_gradient_scale()
#self.show()
def create_widgets(self):
"""creates the display window"""
# Text Size
self.font_size_label = QLabel("Font Size:")
self.font_size_edit = QSpinBox(self)
self.font_size_edit.setValue(self._default_font_size)
self.font_size_edit.setRange(7, 20)
self.font_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Annotation Color
self.annotation_color_label = QLabel("Annotation Color:")
self.annotation_color_edit = QPushButtonColor(self.annotation_color_int)
self.annotation_color_label.hide()
self.annotation_color_edit.hide()
#-----------------------------------------------------------------------
# Text Color
self.text_size_label = QLabel("Text Size:")
self.text_size_edit = QSpinBox(self)
self.text_size_edit.setValue(self._default_text_size)
self.text_size_edit.setRange(7, 30)
self.text_size_button = QPushButton("Default")
# Text Color
self.text_color_label = QLabel("Text Color:")
self.text_color_edit = QPushButtonColor(self.text_color_int)
#-----------------------------------------------------------------------
# Background Color
self.background_color_label = QLabel("Btm Background Color:")
self.background_color_edit = QPushButtonColor(self.background_color_int)
# Background Color2
self.gradient_scale_label = QLabel("Gradient Background:")
self.gradient_scale_checkbox = QCheckBox()
self.gradient_scale_checkbox.setChecked(self._use_gradient_background)
self.background_color2_label = QLabel("Top Background Color:")
self.background_color2_edit = QPushButtonColor(self.background_color2_int)
#-----------------------------------------------------------------------
# Annotation Size
self.annotation_size_label = QLabel("Annotation Size:")
self.annotation_size_edit = QSpinBox(self)
self.annotation_size_edit.setRange(1, 500)
self.annotation_size_edit.setValue(self._annotation_size)
self.annotation_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Picker Size
self.picker_size_label = QLabel("Picker Size (% of Screen):")
self.picker_size_edit = QDoubleSpinBox(self)
self.picker_size_edit.setRange(0., 10.)
log_dim = log10(self.dim_max)
decimals = int(ceil(abs(log_dim)))
decimals = max(6, decimals)
self.picker_size_edit.setDecimals(decimals)
self.picker_size_edit.setSingleStep(10. / 5000.)
self.picker_size_edit.setValue(self._picker_size)
#-----------------------------------------------------------------------
# Clipping Min
self.clipping_min_label = QLabel("Clipping Min:")
self.clipping_min_edit = QLineEdit(str(self._default_clipping_min))
self.clipping_min_button = QPushButton("Default")
# Clipping Max
self.clipping_max_label = QLabel("Clipping Max:")
self.clipping_max_edit = QLineEdit(str(self._default_clipping_max))
self.clipping_max_button = QPushButton("Default")
#-----------------------------------------------------------------------
self.coord_scale_label = QLabel('Coordinate System Scale:')
self.coord_scale_button = QPushButton("Default")
self.coord_scale_edit = QDoubleSpinBox(self)
self.coord_scale_edit.setRange(0.1, 100.)
self.coord_scale_edit.setDecimals(3)
self.coord_scale_edit.setSingleStep(2.5)
self.coord_scale_edit.setValue(self._coord_scale)
self.coord_text_scale_label = QLabel('Coordinate System Text Scale:')
self.coord_text_scale_button = QPushButton("Default")
self.coord_text_scale_edit = QDoubleSpinBox(self)
self.coord_text_scale_edit.setRange(0.1, 200.)
self.coord_text_scale_edit.setDecimals(3)
self.coord_text_scale_edit.setSingleStep(2.5)
self.coord_text_scale_edit.setValue(self._coord_text_scale)
#-----------------------------------------------------------------------
self.magnify_label = QLabel('Screenshot Magnify:')
self.magnify_edit = QSpinBox(self)
self.magnify_edit.setMinimum(1)
self.magnify_edit.setMaximum(10)
self.magnify_edit.setValue(self._magnify)
#-----------------------------------------------------------------------
# closing
self.apply_button = QPushButton("Apply")
self.ok_button = QPushButton("OK")
self.cancel_button = QPushButton("Cancel")
#def create_legend_widgets(self):
#"""
#Creates the widgets for the legend control
#Name Itailic Bold Font
#==== ======= ===== ========
#Title check check pulldown
#Label check check pulldown
#"""
#self.name_label = QLabel("Name:")
#self.italic_label = QLabel("Italic:")
#self.bold_label = QLabel("Bold:")
#self.font_label = QLabel("Font:")
#self.legend_label = QLabel("Legend:")
#self.legend_title_name = QLabel("Title")
#self.legend_title_italic_check = QCheckBox()
#self.legend_title_bold_check = QCheckBox()
#self.legend_title_font_edit = QComboBox()
#self.legend_title_font_edit.addItems(['cat', 'dog', 'frog'])
#self.legend_label_italic_name = QLabel("Label")
#self.legend_label_italic_check = QCheckBox()
#self.legend_label_bold_check = QCheckBox()
#self.legend_label_font_edit = QComboBox()
#self.legend_label_font_edit.addItems(['cat2', 'dog2', 'frog2'])
#def create_legend_layout(self):
#"""
#Creates the layout for the legend control
#Name Itailic Bold Font
#==== ======= ===== ========
#Title check check pulldown
#Label check check pulldown
#"""
#grid2 = QGridLayout()
#grid2.addWidget(self.legend_label, 0, 0)
#grid2.addWidget(self.name_label, 1, 0)
#grid2.addWidget(self.italic_label, 1, 1)
#grid2.addWidget(self.bold_label, 1, 2)
#grid2.addWidget(self.font_label, 1, 3)
#grid2.addWidget(self.legend_title_name, 2, 0)
#grid2.addWidget(self.legend_title_italic_check, 2, 1)
#grid2.addWidget(self.legend_title_bold_check, 2, 2)
#grid2.addWidget(self.legend_title_font_edit, 2, 3)
#grid2.addWidget(self.legend_label_italic_name, 3, 0)
#grid2.addWidget(self.legend_label_italic_check, 3, 1)
#grid2.addWidget(self.legend_label_bold_check, 3, 2)
#grid2.addWidget(self.legend_label_font_edit, 3, 3)
#return grid2
def create_layout(self):
grid = QGridLayout()
irow = 0
grid.addWidget(self.font_size_label, irow, 0)
grid.addWidget(self.font_size_edit, irow, 1)
grid.addWidget(self.font_size_button, irow, 2)
irow += 1
grid.addWidget(self.gradient_scale_label, irow, 0)
grid.addWidget(self.gradient_scale_checkbox, irow, 1)
irow += 1
grid.addWidget(self.background_color2_label, irow, 0)
grid.addWidget(self.background_color2_edit, irow, 1)
irow += 1
grid.addWidget(self.background_color_label, irow, 0)
grid.addWidget(self.background_color_edit, irow, 1)
irow += 1
grid.addWidget(self.text_color_label, irow, 0)
grid.addWidget(self.text_color_edit, irow, 1)
irow += 1
grid.addWidget(self.text_size_label, irow, 0)
grid.addWidget(self.text_size_edit, irow, 1)
grid.addWidget(self.text_size_button, irow, 2)
irow += 1
grid.addWidget(self.annotation_color_label, irow, 0)
grid.addWidget(self.annotation_color_edit, irow, 1)
irow += 1
grid.addWidget(self.annotation_size_label, irow, 0)
grid.addWidget(self.annotation_size_edit, irow, 1)
grid.addWidget(self.annotation_size_button, irow, 2)
irow += 1
#grid.addWidget(self.clipping_min_label, irow, 0)
#grid.addWidget(self.clipping_min_edit, irow, 1)
#grid.addWidget(self.clipping_min_button, irow, 2)
#irow += 1
#grid.addWidget(self.clipping_max_label, irow, 0)
#grid.addWidget(self.clipping_max_edit, irow, 1)
#grid.addWidget(self.clipping_max_button, irow, 2)
#irow += 1
grid.addWidget(self.coord_scale_label, irow, 0)
grid.addWidget(self.coord_scale_edit, irow, 1)
grid.addWidget(self.coord_scale_button, irow, 2)
irow += 1
grid.addWidget(self.coord_text_scale_label, irow, 0)
grid.addWidget(self.coord_text_scale_edit, irow, 1)
grid.addWidget(self.coord_text_scale_button, irow, 2)
irow += 1
#-----------------------------------------------
grid.addWidget(self.magnify_label, irow, 0)
grid.addWidget(self.magnify_edit, irow, 1)
irow += 1
grid.addWidget(self.picker_size_label, irow, 0)
grid.addWidget(self.picker_size_edit, irow, 1)
irow += 1
#self.create_legend_widgets()
#grid2 = self.create_legend_layout()
ok_cancel_box = QHBoxLayout()
ok_cancel_box.addWidget(self.apply_button)
ok_cancel_box.addWidget(self.ok_button)
ok_cancel_box.addWidget(self.cancel_button)
vbox = QVBoxLayout()
vbox.addLayout(grid)
#vbox.addStretch()
#vbox.addLayout(grid2)
vbox.addStretch()
vbox.addLayout(ok_cancel_box)
self.setLayout(vbox)
def set_connections(self):
self.font_size_button.clicked.connect(self.on_default_font_size)
self.font_size_edit.valueChanged.connect(self.on_font)
self.annotation_size_edit.editingFinished.connect(self.on_annotation_size)
self.annotation_size_edit.valueChanged.connect(self.on_annotation_size)
self.annotation_color_edit.clicked.connect(self.on_annotation_color)
self.annotation_size_button.clicked.connect(self.on_default_annotation_size)
self.background_color_edit.clicked.connect(self.on_background_color)
self.background_color2_edit.clicked.connect(self.on_background_color2)
self.gradient_scale_checkbox.clicked.connect(self.on_gradient_scale)
self.text_color_edit.clicked.connect(self.on_text_color)
self.text_size_edit.valueChanged.connect(self.on_text_size)
self.text_size_button.clicked.connect(self.on_default_text_size)
self.picker_size_edit.valueChanged.connect(self.on_picker_size)
self.picker_size_edit.editingFinished.connect(self.on_picker_size)
self.coord_scale_edit.valueChanged.connect(self.on_coord_scale)
self.coord_scale_edit.editingFinished.connect(self.on_coord_scale)
self.coord_scale_button.clicked.connect(self.on_default_coord_scale)
self.coord_text_scale_edit.valueChanged.connect(self.on_coord_text_scale)
self.coord_text_scale_edit.editingFinished.connect(self.on_coord_text_scale)
self.coord_text_scale_button.clicked.connect(self.on_default_coord_text_scale)
self.magnify_edit.valueChanged.connect(self.on_magnify)
self.magnify_edit.editingFinished.connect(self.on_magnify)
self.clipping_min_button.clicked.connect(self.on_default_clipping_min)
self.clipping_max_button.clicked.connect(self.on_default_clipping_max)
self.apply_button.clicked.connect(self.on_apply)
self.ok_button.clicked.connect(self.on_ok)
self.cancel_button.clicked.connect(self.on_cancel)
# closeEvent
def on_font(self, value=None):
"""update the font for the current window"""
if value is None:
value = self.font_size_edit.value()
font = QtGui.QFont()
font.setPointSize(value)
self.setFont(font)
def on_annotation_size(self, value=None):
"""update the annotation size"""
if value is None:
value = int(self.annotation_size_edit.text())
self._annotation_size = value
#self.on_apply(force=True)
#self.min_edit.setText(str(self._default_min))
#self.min_edit.setStyleSheet("QLineEdit{background: white;}")
self.update_annotation_size_color()
def update_annotation_size_color(self):
if self.win_parent is not None:
self.win_parent.settings.set_annotation_size_color(size=self._annotation_size)
def on_gradient_scale(self):
is_checked = self.gradient_scale_checkbox.isChecked()
self.background_color2_label.setEnabled(is_checked)
self.background_color2_edit.setEnabled(is_checked)
if self.win_parent is not None:
self.win_parent.settings.set_gradient_background(use_gradient_background=is_checked)
def on_annotation_color(self):
rgb_color_ints = self.annotation_color_int
title = "Choose an annotation color"
passed, rgb_color_ints, rgb_color_floats = self.on_color(
self.annotation_color_edit, rgb_color_ints, title)
if passed:
self.annotation_color_int = rgb_color_ints
self.annotation_color_float = rgb_color_floats
self.update_annotation_size_color()
def on_background_color(self):
""" Choose a background color"""
title = "Choose a primary background color"
rgb_color_ints = self.background_color_int
color_edit = self.background_color_edit
func_name = 'set_background_color'
passed, rgb_color_ints, rgb_color_floats = self._background_color(
title, color_edit, rgb_color_ints, func_name)
if passed:
self.background_color_int = rgb_color_ints
self.background_color_float = rgb_color_floats
def on_background_color2(self):
""" Choose a background color"""
title = "Choose a secondary background color"
rgb_color_ints = self.background_color2_int
color_edit = self.background_color2_edit
func_name = 'set_background_color2'
passed, rgb_color_ints, rgb_color_floats = self._background_color(
title, color_edit, rgb_color_ints, func_name)
if passed:
self.background_color2_int = rgb_color_ints
self.background_color2_float = rgb_color_floats
def _background_color(self, title, color_edit, rgb_color_ints, func_name):
"""helper method for ``on_background_color`` and ``on_background_color2``"""
passed, rgb_color_ints, rgb_color_floats = self.on_color(
color_edit, rgb_color_ints, title)
if passed:
if self.win_parent is not None:
settings = self.win_parent.settings
func_background_color = getattr(settings, func_name)
func_background_color(rgb_color_floats)
return passed, rgb_color_ints, rgb_color_floats
def on_text_color(self):
""" Choose a text color """
rgb_color_ints = self.text_color_int
title = "Choose a text color"
passed, rgb_color_ints, rgb_color_floats = self.on_color(
self.text_color_edit, rgb_color_ints, title)
if passed:
self.text_color_int = rgb_color_ints
self.text_color_float = rgb_color_floats
if self.win_parent is not None:
self.win_parent.settings.set_text_color(rgb_color_floats)
def on_default_text_size(self):
self.text_size_edit.setValue(self._default_text_size)
self.on_text_size(self._default_text_size)
def on_text_size(self, value=None):
if value is None:
value = self.text_size_edit.value()
self._text_size = value
if self.win_parent is not None:
self.win_parent.settings.set_text_size(value)
def on_color(self, color_edit, rgb_color_ints, title):
"""pops a color dialog"""
col = QColorDialog.getColor(QtGui.QColor(*rgb_color_ints), self,
title)
if not col.isValid():
return False, rgb_color_ints, None
color_float = col.getRgbF()[:3] # floats
color_int = [int(colori * 255) for colori in color_float]
assert isinstance(color_float[0], float), color_float
assert isinstance(color_int[0], int), color_int
color_edit.setStyleSheet(
"QPushButton {"
"background-color: rgb(%s, %s, %s);" % tuple(color_int) +
#"border:1px solid rgb(255, 170, 255); "
"}")
return True, color_int, color_float
def on_picker_size(self):
self._picker_size = float(self.picker_size_edit.text())
if self.win_parent is not None:
self.win_parent.element_picker_size = self._picker_size / 100.
#self.on_apply(force=True)
def on_magnify(self, value=None):
if value is None:
value = self.magnify_edit.value()
self._magnify = value
if self.win_parent is not None:
self.win_parent.settings.set_magnify(value)
#---------------------------------------------------------------------------
def on_coord_scale(self, value=None):
if value is None:
value = self.coord_scale_edit.value()
self._coord_scale = value
if self.win_parent is not None:
self.win_parent.settings.set_coord_scale(value / 100.)
def on_default_coord_scale(self):
self.coord_scale_edit.setValue(self._default_coord_scale)
self.on_coord_scale(self._default_coord_scale)
def on_coord_text_scale(self, value=None):
if value is None:
value = self.coord_text_scale_edit.value()
self._coord_text_scale = value
if self.win_parent is not None:
self.win_parent.settings.set_coord_text_scale(value / 100.)
def on_default_coord_text_scale(self):
self.coord_text_scale_edit.setValue(self._default_coord_text_scale)
self.on_coord_text_scale(self._default_coord_text_scale)
#---------------------------------------------------------------------------
def on_default_font_size(self):
self.font_size_edit.setValue(self._default_font_size)
self.on_font(self._default_font_size)
def on_default_annotation_size(self):
self.annotation_size_edit.setValue(self._default_annotation_size)
self.on_annotation_size(self._default_annotation_size)
def on_default_clipping_min(self):
self.clipping_min_edit.setText(str(self._default_clipping_min))
self.clipping_min_edit.setStyleSheet("QLineEdit{background: white;}")
def on_default_clipping_max(self):
self.clipping_max_edit.setText(str(self._default_clipping_max))
self.clipping_max_edit.setStyleSheet("QLineEdit{background: white;}")
def on_validate(self):
font_size_value, flag0 = check_float(self.font_size_edit)
annotation_size_value, flag1 = check_float(self.annotation_size_edit)
assert isinstance(self.annotation_color_float[0], float), self.annotation_color_float
assert isinstance(self.annotation_color_int[0], int), self.annotation_color_int
picker_size_value, flag2 = check_float(self.picker_size_edit)
clipping_min_value, flag3 = check_label_float(self.clipping_min_edit)
clipping_max_value, flag4 = check_label_float(self.clipping_max_edit)
if all([flag0, flag1, flag2, flag3, flag4]):
self._annotation_size = annotation_size_value
self._picker_size = picker_size_value
self.out_data['font_size'] = int(font_size_value)
self.out_data['min_clip'] = min(clipping_min_value, clipping_max_value)
self.out_data['max_clip'] = max(clipping_min_value, clipping_max_value)
self.out_data['clicked_ok'] = True
return True
return False
def on_apply(self, force=False):
passed = self.on_validate()
if (passed or force) and self.win_parent is not None:
self.win_parent.settings.on_set_font_size(self.out_data['font_size'])
#self.win_parent.settings.set_annotation_size_color(self._annotation_size)
#self.win_parent.element_picker_size = self._picker_size / 100.
if passed and self.win_parent is not None:
self.win_parent.clipping_obj.apply_clipping(self.out_data)
return passed
def on_ok(self):
passed = self.on_apply()
if passed:
self.close()
#self.destroy()
def on_cancel(self):
self.out_data['close'] = True
self.close()
def __init__(self, layer):
super().__init__(layer)
self.layer.events.edge_width.connect(self._on_edge_width_change)
self.layer.events.length.connect(self._on_length_change)
self.layer.events.out_of_slice_display.connect(
self._on_out_of_slice_display_change
)
self.layer.events.edge_color_mode.connect(
self._on_edge_color_mode_change
)
self.layer.events.edge_color.connect(self._on_edge_color_change)
# dropdown to select the property for mapping edge_color
color_properties = self._get_property_values()
color_prop_box = QComboBox(self)
color_prop_box.activated[str].connect(self.change_edge_color_property)
color_prop_box.addItems(color_properties)
self.color_prop_box = color_prop_box
self.edge_prop_label = QLabel(trans._('edge property:'))
# vector direct color mode adjustment and widget
self.edgeColorEdit = QColorSwatchEdit(
initial_color=self.layer.edge_color,
tooltip=trans._(
'click to set current edge color',
),
)
self.edgeColorEdit.color_changed.connect(self.change_edge_color_direct)
self.edge_color_label = QLabel(trans._('edge color:'))
self._on_edge_color_change()
# dropdown to select the edge color mode
colorModeComboBox = QComboBox(self)
color_modes = [e.value for e in ColorMode]
colorModeComboBox.addItems(color_modes)
colorModeComboBox.activated[str].connect(self.change_edge_color_mode)
self.color_mode_comboBox = colorModeComboBox
self._on_edge_color_mode_change()
# line width in pixels
self.widthSpinBox = QDoubleSpinBox()
self.widthSpinBox.setKeyboardTracking(False)
self.widthSpinBox.setSingleStep(0.1)
self.widthSpinBox.setMinimum(0.1)
self.widthSpinBox.setMaximum(np.inf)
self.widthSpinBox.setValue(self.layer.edge_width)
self.widthSpinBox.valueChanged.connect(self.change_width)
# line length
self.lengthSpinBox = QDoubleSpinBox()
self.lengthSpinBox.setKeyboardTracking(False)
self.lengthSpinBox.setSingleStep(0.1)
self.lengthSpinBox.setValue(self.layer.length)
self.lengthSpinBox.setMinimum(0.1)
self.lengthSpinBox.setMaximum(np.inf)
self.lengthSpinBox.valueChanged.connect(self.change_length)
out_of_slice_cb = QCheckBox()
out_of_slice_cb.setToolTip(trans._('Out of slice display'))
out_of_slice_cb.setChecked(self.layer.out_of_slice_display)
out_of_slice_cb.stateChanged.connect(self.change_out_of_slice)
self.outOfSliceCheckBox = out_of_slice_cb
self.layout().addRow(trans._('opacity:'), self.opacitySlider)
self.layout().addRow(trans._('width:'), self.widthSpinBox)
self.layout().addRow(trans._('length:'), self.lengthSpinBox)
self.layout().addRow(trans._('blending:'), self.blendComboBox)
self.layout().addRow(
trans._('edge color mode:'), self.color_mode_comboBox
)
self.layout().addRow(self.edge_color_label, self.edgeColorEdit)
self.layout().addRow(self.edge_prop_label, self.color_prop_box)
self.layout().addRow(trans._('out of slice:'), self.outOfSliceCheckBox)
def __init__(self, settings):
BaseWidget.__init__(self, settings=settings)
inf = float('inf')
def set_spin(spin, minVal=-inf, maxVal=+inf, decimals=3):
spin.setRange(minVal, maxVal)
spin.setDecimals(decimals)
spin.setSingleStep(0.01)
def tip(widget, text):
if text:
widget.setToolTip(text)
return widget
def setEnabled(widget, *widgets):
"""enables widget, when value of all widgets evaluates to true"""
def setEnabled():
widget.setEnabled(all(w.isChecked() for w in widgets))
for w in widgets:
w.toggled.connect(setEnabled)
return widget
def DoubleEdit():
edit = SmallQLineEdit()
edit.setValidator(QDoubleValidator())
return edit
# ui data elements
self.prefix = tip(QLineEdit(), self.TIP_prefix)
self.dataDir = tip(QLineEdit(), self.TIP_dataDir)
self.saveDir = tip(QLineEdit(), self.TIP_saveDir)
self.vanRuns = tip(QLineEdit(), self.TIP_vanRuns)
self.vanCmnt = tip(QLineEdit(), self.TIP_vanCmnt)
self.vanTemp = tip(DoubleEdit(), self.TIP_vanTemp)
self.ecRuns = tip(SmallQLineEdit(), self.TIP_ecRuns)
self.ecTemp = tip(DoubleEdit(), self.TIP_ecTemp)
self.ecFactor = tip(QDoubleSpinBox(), self.TIP_ecFactor)
set_spin(self.ecFactor, 0, 1)
self.binEon = tip(QCheckBox(), self.TIP_binEon)
self.binEstart = setEnabled(tip(QDoubleSpinBox(), self.TIP_binEstart),
self.binEon)
self.binEstep = setEnabled(tip(QDoubleSpinBox(), self.TIP_binEstep),
self.binEon)
self.binEend = setEnabled(tip(QDoubleSpinBox(), self.TIP_binEend),
self.binEon)
set_spin(self.binEstart)
set_spin(self.binEstep, decimals=4)
set_spin(self.binEend)
self.binQon = setEnabled(tip(QCheckBox(), self.TIP_binQon),
self.binEon)
self.binQstart = setEnabled(tip(QDoubleSpinBox(), self.TIP_binQstart),
self.binEon, self.binQon)
self.binQstep = setEnabled(tip(QDoubleSpinBox(), self.TIP_binQstep),
self.binEon, self.binQon)
self.binQend = setEnabled(tip(QDoubleSpinBox(), self.TIP_binQend),
self.binEon, self.binQon)
set_spin(self.binQstart)
set_spin(self.binQstep)
set_spin(self.binQend)
self.maskDetectors = tip(QLineEdit(), self.TIP_maskDetectors)
headers = ('Data runs', 'Comment', 'T (K)')
self.dataRunsView = tip(
DataTableView(self, headers,
TOFTOFSetupWidget.TofTofDataTableModel),
self.TIP_dataRunsView)
self.dataRunsView.horizontalHeader().setStretchLastSection(True)
self.dataRunsView.setHorizontalScrollBarPolicy(Qt.ScrollBarAsNeeded)
self.runDataModel = self.dataRunsView.model()
# ui controls
self.btnDataDir = tip(QPushButton('Browse'), self.TIP_btnDataDir)
self.btnSaveDir = tip(QPushButton('Browse'), self.TIP_btnSaveDir)
self.chkSubtractECVan = tip(
QCheckBox('Subtract empty can from vanadium'),
self.TIP_chkSubtractECVan)
self.vanEcFactor = setEnabled(
tip(QDoubleSpinBox(), self.TIP_vanEcFactor), self.chkSubtractECVan)
set_spin(self.vanEcFactor, 0, 1)
self.chkReplaceNaNs = setEnabled(
tip(QCheckBox(u'Replace special values in S(Q, ω) with 0'),
self.TIP_chkReplaceNaNs), self.binEon)
self.chkCreateDiff = setEnabled(
tip(QCheckBox('Create diffractograms'), self.TIP_chkCreateDiff),
self.binEon)
self.chkKeepSteps = tip(QCheckBox('Keep intermediate steps'),
self.TIP_chkKeepSteps)
self.chkSofTWNxspe = setEnabled(
tip(QCheckBox('NXSPE'), self.TIP_chkNxspe), self.binEon)
self.chkSofTWNexus = tip(QCheckBox('NeXus'), self.TIP_chkNexus)
self.chkSofTWAscii = tip(QCheckBox('Ascii'), self.TIP_chkAscii)
self.chkSofQWNexus = setEnabled(
tip(QCheckBox('NeXus'), self.TIP_chkNexus), self.binEon,
self.binQon)
self.chkSofQWAscii = setEnabled(
tip(QCheckBox('Ascii'), self.TIP_chkAscii), self.binEon,
self.binQon)
self.rbtNormaliseNone = tip(QRadioButton('none'),
self.TIP_rbtNormaliseNone)
self.rbtNormaliseMonitor = tip(QRadioButton('to monitor'),
self.TIP_rbtNormaliseMonitor)
self.rbtNormaliseTime = tip(QRadioButton('to time'),
self.TIP_rbtNormaliseTime)
self.rbtCorrectTOFNone = tip(QRadioButton('none'),
self.TIP_rbtCorrectTOFNone)
self.rbtCorrectTOFVan = tip(QRadioButton('vanadium'),
self.TIP_rbtCorrectTOFVan)
self.rbtCorrectTOFSample = tip(QRadioButton('sample'),
self.TIP_rbtCorrectTOFSample)
# ui layout
def _box(cls, widgets):
box = cls()
for wgt in widgets:
if isinstance(wgt, QLayout):
box.addLayout(wgt)
elif isinstance(wgt, QWidget):
box.addWidget(wgt)
else:
box.addStretch(wgt)
return box
def hbox(*widgets):
return _box(QHBoxLayout, widgets)
def vbox(*widgets):
return _box(QVBoxLayout, widgets)
def label(text, tip):
label = QLabel(text)
if tip:
label.setToolTip(tip)
return label
self.gbSave = QGroupBox('Save reduced data')
self.gbSave.setCheckable(True)
gbDataDir = QGroupBox('Data search directory')
gbPrefix = QGroupBox('Workspace prefix')
gbOptions = QGroupBox('Options')
gbInputs = QGroupBox('Inputs')
gbBinning = QGroupBox('Binning')
gbData = QGroupBox('Data')
box = QVBoxLayout()
self._layout.addLayout(box)
box.addLayout(
hbox(vbox(gbDataDir, gbInputs, gbBinning, gbOptions, 1),
vbox(gbPrefix, gbData, self.gbSave)))
gbDataDir.setLayout(hbox(self.dataDir, self.btnDataDir))
gbPrefix.setLayout(hbox(self.prefix, ))
grid = QGridLayout()
grid.addWidget(self.chkSubtractECVan, 0, 0, 1, 4)
grid.addWidget(label('Normalise', 'tip'), 1, 0)
grid.addWidget(self.rbtNormaliseNone, 1, 1)
grid.addWidget(self.rbtNormaliseMonitor, 1, 2)
grid.addWidget(self.rbtNormaliseTime, 1, 3)
grid.addWidget(QLabel('Correct TOF'), 2, 0)
grid.addWidget(self.rbtCorrectTOFNone, 2, 1)
grid.addWidget(self.rbtCorrectTOFVan, 2, 2)
grid.addWidget(self.rbtCorrectTOFSample, 2, 3)
grid.addWidget(self.chkReplaceNaNs, 3, 0, 1, 4)
grid.addWidget(self.chkCreateDiff, 4, 0, 1, 4)
grid.addWidget(self.chkKeepSteps, 5, 0, 1, 4)
grid.setColumnStretch(4, 1)
gbOptions.setLayout(grid)
btnGroup = QButtonGroup(self)
btnGroup.addButton(self.rbtNormaliseNone)
btnGroup.addButton(self.rbtNormaliseMonitor)
btnGroup.addButton(self.rbtNormaliseTime)
btnGroup = QButtonGroup(self)
btnGroup.addButton(self.rbtCorrectTOFNone)
btnGroup.addButton(self.rbtCorrectTOFVan)
btnGroup.addButton(self.rbtCorrectTOFSample)
grid = QGridLayout()
grid.addWidget(QLabel('Vanadium runs'), 0, 0)
grid.addWidget(self.vanRuns, 0, 1, 1, 3)
grid.addWidget(QLabel('Van. comment'), 1, 0)
grid.addWidget(self.vanCmnt, 1, 1, 1, 1)
grid.addLayout(hbox(QLabel('EC factor'), self.vanEcFactor), 1, 2, 1, 1)
grid.addLayout(hbox(QLabel('T (K)'), self.vanTemp), 1, 3)
grid.addWidget(QLabel('Empty can runs'), 2, 0)
grid.addWidget(self.ecRuns, 2, 1, 1, 1)
grid.addLayout(hbox(QLabel('EC factor'), self.ecFactor), 2, 2, 1, 1)
grid.addLayout(hbox(QLabel('T (K)'), self.ecTemp), 2, 3)
grid.addWidget(QLabel('Mask detectors'), 3, 0)
grid.addWidget(self.maskDetectors, 3, 1, 1, 3)
gbInputs.setLayout(grid)
grid = QGridLayout()
grid.addWidget(QLabel('on'), 0, 1)
grid.addWidget(QLabel('start'), 0, 2)
grid.addWidget(QLabel('step'), 0, 3)
grid.addWidget(QLabel('end'), 0, 4)
grid.addWidget(QLabel('Energy'), 1, 0)
grid.addWidget(self.binEon, 1, 1)
grid.addWidget(self.binEstart, 1, 2)
grid.addWidget(self.binEstep, 1, 3)
grid.addWidget(self.binEend, 1, 4)
grid.addWidget(QLabel('Q'), 2, 0)
grid.addWidget(self.binQon, 2, 1)
grid.addWidget(self.binQstart, 2, 2)
grid.addWidget(self.binQstep, 2, 3)
grid.addWidget(self.binQend, 2, 4)
for col in (0, 2, 3, 4):
grid.setColumnStretch(col, 1)
gbBinning.setLayout(grid)
gbData.setLayout(hbox(self.dataRunsView))
grid = QGridLayout()
saveDirGroup = hbox(self.saveDir, self.btnSaveDir)
grid.addWidget(QLabel('Directory'), 0, 0)
grid.addLayout(saveDirGroup, 0, 1, 1, 4)
grid.addWidget(setEnabled(QLabel(u'S(Q, ω):'), self.binEon), 1, 0)
grid.addWidget(self.chkSofQWNexus, 1, 1)
grid.addWidget(self.chkSofQWAscii, 1, 2)
grid.addItem(QSpacerItem(5, 5, hPolicy=QSizePolicy.Expanding), 1, 4)
grid.addWidget(QLabel(u'S(2θ, ω):'), 2, 0)
grid.addWidget(self.chkSofTWNexus, 2, 1)
grid.addWidget(self.chkSofTWAscii, 2, 2)
grid.addWidget(self.chkSofTWNxspe, 2, 3)
self.gbSave.setLayout(grid)
# handle signals
self.btnDataDir.clicked.connect(self._onDataDir)
self.btnSaveDir.clicked.connect(self._onSaveDir)
self.runDataModel.selectCell.connect(self._onSelectedCell)
def createDoubleSpinBox(self, variable_name, variable_value, variable_type, analysis_module_variables_model):
spinner = QDoubleSpinBox()
spinner.setDecimals(6)
spinner.setMinimumWidth(75)
spinner.setMaximum(analysis_module_variables_model.getVariableMaximumValue(variable_name))
spinner.setMinimum(analysis_module_variables_model.getVariableMinimumValue(variable_name))
spinner.setSingleStep(analysis_module_variables_model.getVariableStepValue(variable_name))
spinner.setValue(variable_value)
spinner.valueChanged.connect(partial(self.valueChanged, variable_name, variable_type, spinner))
return spinner
def __init__(self, settings: PartSettings, parent=None):
super().__init__(parent)
self.chosen_element: Optional[MeasurementListWidgetItem] = None
self.chosen_element_area: Optional[Tuple[AreaType, float]] = None
self.settings = settings
self.profile_list = QListWidget(self)
self.profile_description = QTextEdit(self)
self.profile_description.setReadOnly(True)
self.profile_options = QListWidget()
self.profile_options_chosen = QListWidget()
self.measurement_area_choose = EnumComboBox(AreaType)
self.per_component = EnumComboBox(PerComponent)
self.power_num = QDoubleSpinBox()
self.power_num.setDecimals(3)
self.power_num.setRange(-100, 100)
self.power_num.setValue(1)
self.choose_butt = QPushButton("→", self)
self.discard_butt = QPushButton("←", self)
self.proportion_butt = QPushButton("Ratio", self)
self.proportion_butt.setToolTip("Create proportion from two parameter")
self.move_up = QPushButton("↑", self)
self.move_down = QPushButton("↓", self)
self.remove_button = QPushButton("Remove")
self.save_butt = QPushButton("Save")
self.save_butt.setToolTip(
"Set name for set and choose at least one parameter")
self.save_butt_with_name = QPushButton(
"Save with custom parameters designation")
self.save_butt_with_name.setToolTip(
"Set name for set and choose at least one parameter")
self.reset_butt = QPushButton("Clear")
self.soft_reset_butt = QPushButton("Remove user parameters")
self.profile_name = QLineEdit(self)
self.delete_profile_butt = QPushButton("Delete ")
self.export_profiles_butt = QPushButton("Export")
self.import_profiles_butt = QPushButton("Import")
self.edit_profile_butt = QPushButton("Edit")
self.choose_butt.setDisabled(True)
self.choose_butt.clicked.connect(self.choose_option)
self.discard_butt.setDisabled(True)
self.discard_butt.clicked.connect(self.discard_option)
self.proportion_butt.setDisabled(True)
self.proportion_butt.clicked.connect(self.proportion_action)
self.save_butt.setDisabled(True)
self.save_butt.clicked.connect(self.save_action)
self.save_butt_with_name.setDisabled(True)
self.save_butt_with_name.clicked.connect(self.named_save_action)
self.profile_name.textChanged.connect(self.name_changed)
self.move_down.setDisabled(True)
self.move_down.clicked.connect(self.move_down_fun)
self.move_up.setDisabled(True)
self.move_up.clicked.connect(self.move_up_fun)
self.remove_button.setDisabled(True)
self.remove_button.clicked.connect(self.remove_element)
self.reset_butt.clicked.connect(self.reset_action)
self.soft_reset_butt.clicked.connect(self.soft_reset)
self.delete_profile_butt.setDisabled(True)
self.delete_profile_butt.clicked.connect(self.delete_profile)
self.export_profiles_butt.clicked.connect(
self.export_measurement_profiles)
self.import_profiles_butt.clicked.connect(
self.import_measurement_profiles)
self.edit_profile_butt.clicked.connect(self.edit_profile)
self.profile_list.itemSelectionChanged.connect(self.profile_chosen)
self.profile_options.itemSelectionChanged.connect(
self.create_selection_changed)
self.profile_options_chosen.itemSelectionChanged.connect(
self.create_selection_chosen_changed)
layout = QVBoxLayout()
layout.addWidget(QLabel("Measurement set:"))
profile_layout = QHBoxLayout()
profile_layout.addWidget(self.profile_list)
profile_layout.addWidget(self.profile_description)
profile_buttons_layout = QHBoxLayout()
profile_buttons_layout.addWidget(self.delete_profile_butt)
profile_buttons_layout.addWidget(self.export_profiles_butt)
profile_buttons_layout.addWidget(self.import_profiles_butt)
profile_buttons_layout.addWidget(self.edit_profile_butt)
profile_buttons_layout.addStretch()
layout.addLayout(profile_layout)
layout.addLayout(profile_buttons_layout)
heading_layout = QHBoxLayout()
# heading_layout.addWidget(QLabel("Create profile"), 1)
heading_layout.addWidget(h_line(), 6)
layout.addLayout(heading_layout)
name_layout = QHBoxLayout()
name_layout.addWidget(QLabel("Set name:"))
name_layout.addWidget(self.profile_name)
name_layout.addStretch()
name_layout.addWidget(QLabel("Per component:"))
name_layout.addWidget(self.per_component)
name_layout.addWidget(QLabel("Area:"))
name_layout.addWidget(self.measurement_area_choose)
name_layout.addWidget(QLabel("to power:"))
name_layout.addWidget(self.power_num)
layout.addLayout(name_layout)
create_layout = QHBoxLayout()
create_layout.addWidget(self.profile_options)
butt_op_layout = QVBoxLayout()
butt_op_layout.addStretch()
butt_op_layout.addWidget(self.choose_butt)
butt_op_layout.addWidget(self.discard_butt)
butt_op_layout.addWidget(self.proportion_butt)
butt_op_layout.addWidget(self.reset_butt)
butt_op_layout.addStretch()
create_layout.addLayout(butt_op_layout)
create_layout.addWidget(self.profile_options_chosen)
butt_move_layout = QVBoxLayout()
butt_move_layout.addStretch()
butt_move_layout.addWidget(self.move_up)
butt_move_layout.addWidget(self.move_down)
butt_move_layout.addWidget(self.remove_button)
butt_move_layout.addStretch()
create_layout.addLayout(butt_move_layout)
layout.addLayout(create_layout)
save_butt_layout = QHBoxLayout()
save_butt_layout.addWidget(self.soft_reset_butt)
save_butt_layout.addStretch()
save_butt_layout.addWidget(self.save_butt)
save_butt_layout.addWidget(self.save_butt_with_name)
layout.addLayout(save_butt_layout)
self.setLayout(layout)
for profile in MEASUREMENT_DICT.values():
help_text = profile.get_description()
lw = MeasurementListWidgetItem(profile.get_starting_leaf())
lw.setToolTip(help_text)
self.profile_options.addItem(lw)
self.profile_list.addItems(
list(sorted(self.settings.measurement_profiles.keys())))
if self.profile_list.count() == 0:
self.export_profiles_butt.setDisabled(True)
class Demo(QWidget):
sb_roundness = None
sb_opacity = None
sb_fadeperc = None
sb_lines = None
sb_line_length = None
sb_line_width = None
sb_inner_radius = None
sb_rev_s = None
btn_start = None
btn_stop = None
btn_pick_color = None
spinner = None
def __init__(self):
super().__init__()
self.init_ui()
def init_ui(self):
grid = QGridLayout()
groupbox1 = QGroupBox()
groupbox1_layout = QHBoxLayout()
groupbox2 = QGroupBox()
groupbox2_layout = QFormLayout()
button_hbox = QHBoxLayout()
self.setLayout(grid)
self.setWindowTitle("QtWaitingSpinner Creator")
self.setWindowFlags(Qt.Dialog)
# SPINNER
self.spinner = WaitingSpinner(self)
# Spinboxes
self.sb_roundness = QDoubleSpinBox()
self.sb_opacity = QDoubleSpinBox()
self.sb_fadeperc = QDoubleSpinBox()
self.sb_lines = QSpinBox()
self.sb_line_length = QDoubleSpinBox()
self.sb_line_width = QDoubleSpinBox()
self.sb_inner_radius = QDoubleSpinBox()
self.sb_rev_s = QDoubleSpinBox()
# set spinbox default values
self.sb_roundness.setValue(70)
self.sb_roundness.setRange(0, 9999)
self.sb_opacity.setValue(15)
self.sb_opacity.setRange(0, 9999)
self.sb_fadeperc.setValue(70)
self.sb_fadeperc.setRange(0, 9999)
self.sb_lines.setValue(12)
self.sb_lines.setRange(1, 9999)
self.sb_line_length.setValue(10)
self.sb_line_length.setRange(0, 9999)
self.sb_line_width.setValue(5)
self.sb_line_width.setRange(0, 9999)
self.sb_inner_radius.setValue(10)
self.sb_inner_radius.setRange(0, 9999)
self.sb_rev_s.setValue(1)
self.sb_rev_s.setRange(0.1, 9999)
# Buttons
self.btn_start = QPushButton("Start")
self.btn_stop = QPushButton("Stop")
self.btn_pick_color = QPushButton("Pick Color")
self.btn_show_init = QPushButton("Show init args")
self.btn_fade_in = QPushButton("Fade in")
self.btn_fade_out = QPushButton("Fade out")
# Connects
self.sb_roundness.valueChanged.connect(self.set_roundness)
self.sb_opacity.valueChanged.connect(self.set_opacity)
self.sb_fadeperc.valueChanged.connect(self.set_fadeperc)
self.sb_lines.valueChanged.connect(self.set_lines)
self.sb_line_length.valueChanged.connect(self.set_line_length)
self.sb_line_width.valueChanged.connect(self.set_line_width)
self.sb_inner_radius.valueChanged.connect(self.set_inner_radius)
self.sb_rev_s.valueChanged.connect(self.set_rev_s)
# qrainbowstyle
self.picker = qrainbowstyle.widgets.StylePickerGrid(self)
self.btn_start.clicked.connect(self.spinner_start)
self.btn_stop.clicked.connect(self.spinner_stop)
self.btn_pick_color.clicked.connect(self.show_color_picker)
self.btn_show_init.clicked.connect(self.show_init_args)
self.btn_fade_in.clicked.connect(self.fadeIn)
self.btn_fade_out.clicked.connect(self.fadeOut)
# Layout adds
groupbox1_layout.addWidget(self.spinner)
groupbox1.setLayout(groupbox1_layout)
groupbox2_layout.addRow(QLabel("Roundness:"), self.sb_roundness)
groupbox2_layout.addRow(QLabel("Opacity:"), self.sb_opacity)
groupbox2_layout.addRow(QLabel("Fade Perc:"), self.sb_fadeperc)
groupbox2_layout.addRow(QLabel("Lines:"), self.sb_lines)
groupbox2_layout.addRow(QLabel("Line Length:"), self.sb_line_length)
groupbox2_layout.addRow(QLabel("Line Width:"), self.sb_line_width)
groupbox2_layout.addRow(QLabel("Inner Radius:"), self.sb_inner_radius)
groupbox2_layout.addRow(QLabel("Rev/s:"), self.sb_rev_s)
groupbox2_layout.addRow(QLabel("Style: "), self.picker)
groupbox2.setLayout(groupbox2_layout)
button_hbox.addWidget(self.btn_start)
button_hbox.addWidget(self.btn_stop)
button_hbox.addWidget(self.btn_pick_color)
button_hbox.addWidget(self.btn_show_init)
button_hbox.addWidget(self.btn_fade_in)
button_hbox.addWidget(self.btn_fade_out)
grid.addWidget(groupbox1, *(1, 1))
grid.addWidget(groupbox2, *(1, 2))
grid.addLayout(button_hbox, *(2, 1))
self.spinner.start()
def set_roundness(self):
self.spinner.setRoundness(self.sb_roundness.value())
def set_opacity(self):
self.spinner.setMinimumTrailOpacity(self.sb_opacity.value())
def set_fadeperc(self):
self.spinner.setTrailFadePercentage(self.sb_fadeperc.value())
def set_lines(self):
self.spinner.setNumberOfLines(self.sb_lines.value())
def set_line_length(self):
self.spinner.setLineLength(self.sb_line_length.value())
def set_line_width(self):
self.spinner.setLineWidth(self.sb_line_width.value())
def set_inner_radius(self):
self.spinner.setInnerRadius(self.sb_inner_radius.value())
def set_rev_s(self):
self.spinner.setRevolutionsPerSecond(self.sb_rev_s.value())
def spinner_start(self):
self.spinner.start()
def spinner_stop(self):
self.spinner.stop()
def show_color_picker(self):
self.spinner.setColor(QColorDialog.getColor())
def show_init_args(self):
text = ('WaitingSpinner(\n'
' parent,\n'
' roundness={}, opacity={},\n'
' fade={}, radius={}, lines={},\n'
' line_length={}, line_width={},\n'
' speed={}, color={}\n'
')\n').format(self.sb_roundness.value(),
self.sb_opacity.value(),
self.sb_fadeperc.value(),
self.sb_inner_radius.value(),
self.sb_lines.value(),
self.sb_line_length.value(),
self.sb_line_width.value(),
self.sb_rev_s.value(),
self.spinner.color.getRgb()[:3])
msg_box = QMessageBox(text=text)
msg_box.setWindowTitle('Text was copied to clipboard')
cb = QApplication.clipboard()
cb.clear(mode=cb.Clipboard)
cb.setText(text, mode=cb.Clipboard)
print(text)
msg_box.exec_()
def fadeIn(self):
self.spinner.fadeIn()
def fadeOut(self):
self.spinner.fadeOut()
def create_widgets(self):
"""creates the display window"""
# Text Size
self.font_size_label = QLabel("Font Size:")
self.font_size_edit = QSpinBox(self)
self.font_size_edit.setValue(self._default_font_size)
self.font_size_edit.setRange(7, 20)
self.font_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Annotation Color
self.annotation_color_label = QLabel("Annotation Color:")
self.annotation_color_edit = QPushButtonColor(self.annotation_color_int)
self.annotation_color_label.hide()
self.annotation_color_edit.hide()
#-----------------------------------------------------------------------
# Text Color
self.text_size_label = QLabel("Text Size:")
self.text_size_edit = QSpinBox(self)
self.text_size_edit.setValue(self._default_text_size)
self.text_size_edit.setRange(7, 30)
self.text_size_button = QPushButton("Default")
# Text Color
self.text_color_label = QLabel("Text Color:")
self.text_color_edit = QPushButtonColor(self.text_color_int)
#-----------------------------------------------------------------------
# Highlight Color
self.highlight_opacity_label = QLabel("Highlight Opacity:")
self.highlight_opacity_edit = QDoubleSpinBox(self)
self.highlight_opacity_edit.setValue(self._highlight_opacity)
self.highlight_opacity_edit.setRange(0.1, 1.0)
self.highlight_opacity_edit.setDecimals(1)
self.highlight_opacity_edit.setSingleStep(0.1)
self.highlight_opacity_button = QPushButton("Default")
self.highlight_point_size_label = QLabel("Highlight Point Size:")
self.highlight_point_size_edit = QDoubleSpinBox(self)
self.highlight_point_size_edit.setValue(self._highlight_point_size)
self.highlight_point_size_edit.setRange(5.0, 30.0)
self.highlight_point_size_edit.setDecimals(2)
self.highlight_point_size_edit.setSingleStep(0.25)
self.highlight_point_size_button = QPushButton("Default")
# Text Color
self.highlight_color_label = QLabel("Highlight Color:")
self.highlight_color_edit = QPushButtonColor(self.highlight_color_int)
#-----------------------------------------------------------------------
# Background Color
self.background_color_label = QLabel("Btm Background Color:")
self.background_color_edit = QPushButtonColor(self.background_color_int)
# Background Color2
self.gradient_scale_label = QLabel("Gradient Background:")
self.gradient_scale_checkbox = QCheckBox()
self.gradient_scale_checkbox.setChecked(self._use_gradient_background)
self.background_color2_label = QLabel("Top Background Color:")
self.background_color2_edit = QPushButtonColor(self.background_color2_int)
#-----------------------------------------------------------------------
# Annotation Size
self.annotation_size_label = QLabel("Annotation Size:")
self.annotation_size_edit = QSpinBox(self)
self.annotation_size_edit.setRange(1, 500)
self.annotation_size_edit.setValue(self._annotation_size)
self.annotation_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Picker Size
self.picker_size_label = QLabel("Picker Size (% of Screen):")
self.picker_size_edit = QDoubleSpinBox(self)
self.picker_size_edit.setRange(0., 10.)
log_dim = log10(self.dim_max)
decimals = int(ceil(abs(log_dim)))
decimals = max(6, decimals)
self.picker_size_edit.setDecimals(decimals)
self.picker_size_edit.setSingleStep(10. / 5000.)
self.picker_size_edit.setValue(self._picker_size)
#-----------------------------------------------------------------------
# Clipping Min
self.clipping_min_label = QLabel("Clipping Min:")
self.clipping_min_edit = QLineEdit(func_str(self._default_clipping_min))
self.clipping_min_button = QPushButton("Default")
# Clipping Max
self.clipping_max_label = QLabel("Clipping Max:")
self.clipping_max_edit = QLineEdit(func_str(self._default_clipping_max))
self.clipping_max_button = QPushButton("Default")
#-----------------------------------------------------------------------
self.coord_scale_label = QLabel('Coordinate System Scale:')
self.coord_scale_button = QPushButton("Default")
self.coord_scale_edit = QDoubleSpinBox(self)
self.coord_scale_edit.setRange(0.1, 1000.)
self.coord_scale_edit.setDecimals(3)
self.coord_scale_edit.setSingleStep(1.0)
self.coord_scale_edit.setValue(self._coord_scale)
self.coord_text_scale_label = QLabel('Coordinate System Text Scale:')
self.coord_text_scale_button = QPushButton("Default")
self.coord_text_scale_edit = QDoubleSpinBox(self)
self.coord_text_scale_edit.setRange(0.1, 2000.)
self.coord_text_scale_edit.setDecimals(3)
self.coord_text_scale_edit.setSingleStep(2.)
self.coord_text_scale_edit.setValue(self._coord_text_scale)
# Show corner coord
self.corner_coord_label = QLabel("Show Corner Coordinate System:")
self.corner_coord_checkbox = QCheckBox()
self.corner_coord_checkbox.setChecked(self._show_corner_coord)
#-----------------------------------------------------------------------
self.magnify_label = QLabel('Screenshot Magnify:')
self.magnify_edit = QSpinBox(self)
self.magnify_edit.setMinimum(1)
self.magnify_edit.setMaximum(10)
self.magnify_edit.setValue(self._magnify)
#-----------------------------------------------------------------------
self.nastran_is_element_quality_checkbox = QCheckBox('Element Quality')
self.nastran_is_element_quality_checkbox.setToolTip('Cacluate Aspect Ratio, Skew Angle, Max/Min Interior Angle, etc.')
self.nastran_is_element_quality_checkbox.setChecked(self._nastran_is_element_quality)
self.nastran_is_properties_checkbox = QCheckBox('Properties')
self.nastran_is_properties_checkbox.setToolTip('Breakdown each layer of a PCOMP/PSHELL')
self.nastran_is_properties_checkbox.setChecked(self._nastran_is_properties)
self.nastran_is_3d_bars_checkbox = QCheckBox('3D Bars')
self.nastran_is_3d_bars_checkbox.setToolTip('Crete 3D Bar/Beam geometry')
self.nastran_is_3d_bars_checkbox.setChecked(self._nastran_is_3d_bars)
#self.nastran_is_3d_bars_checkbox.setDisabled(True)
self.nastran_is_3d_bars_update_checkbox = QCheckBox('Update 3D Bars')
self.nastran_is_3d_bars_update_checkbox.setToolTip('Update the 3D Bar/Beam cross-sections when deformations are applied')
self.nastran_is_3d_bars_update_checkbox.setChecked(self._nastran_is_3d_bars_update)
self.nastran_is_shell_mcid_checkbox = QCheckBox('Shell MCIDs')
self.nastran_is_shell_mcid_checkbox.setToolTip('Calculate the Material Coordinate Systems for Shells')
self.nastran_is_shell_mcid_checkbox.setChecked(self._nastran_is_shell_mcids)
self.nastran_create_coords_checkbox = QCheckBox('Coords')
self.nastran_create_coords_checkbox.setChecked(self._nastran_create_coords)
self.nastran_is_bar_axes_checkbox = QCheckBox('Bar Axes')
self.nastran_is_bar_axes_checkbox.setChecked(self._nastran_is_bar_axes)
#self.nastran_is_bar_axes_checkbox.setDisabled(True)
if 0:
self.nastran_stress_checkbox = QCheckBox('Stress')
self.nastran_plate_stress_checkbox = QCheckBox('Plate Stress')
self.nastran_composite_plate_stress_checkbox = QCheckBox('Composite Plate Stress')
self.nastran_rod_stress_checkbox = QCheckBox('Rod Stress')
self.nastran_bar_stress_checkbox = QCheckBox('Bar Stress')
self.nastran_beam_stress_checkbox = QCheckBox('Beam Stress')
self.nastran_stress_checkbox.setChecked(self._nastran_stress)
self.nastran_plate_stress_checkbox.setChecked(self._nastran_plate_stress)
self.nastran_composite_plate_stress_checkbox.setChecked(self._nastran_composite_plate_stress)
self.nastran_rod_stress_checkbox.setChecked(self._nastran_rod_stress)
self.nastran_bar_stress_checkbox.setChecked(self._nastran_bar_stress)
self.nastran_beam_stress_checkbox.setChecked(self._nastran_beam_stress)
self.nastran_strain_checkbox = QCheckBox('Strain')
self.nastran_plate_strain_checkbox = QCheckBox('Plate Strain')
self.nastran_composite_plate_strain_checkbox = QCheckBox('Composite Plate Strain')
self.nastran_rod_strain_checkbox = QCheckBox('Rod Strain')
self.nastran_bar_strain_checkbox = QCheckBox('Bar Strain')
self.nastran_beam_strain_checkbox = QCheckBox('Beam Strain')
self.nastran_strain_checkbox.setChecked(self._nastran_strain)
self.nastran_plate_strain_checkbox.setChecked(self._nastran_plate_strain)
self.nastran_composite_plate_strain_checkbox.setChecked(self._nastran_composite_plate_strain)
self.nastran_rod_strain_checkbox.setChecked(self._nastran_rod_strain)
self.nastran_bar_strain_checkbox.setChecked(self._nastran_bar_strain)
self.nastran_beam_strain_checkbox.setChecked(self._nastran_beam_strain)
#-----------------------------------------------------------------------
# closing
self.apply_button = QPushButton("Apply")
self.ok_button = QPushButton("OK")
self.cancel_button = QPushButton("Cancel")
def init_ui(self):
grid = QGridLayout()
groupbox1 = QGroupBox()
groupbox1_layout = QHBoxLayout()
groupbox2 = QGroupBox()
groupbox2_layout = QFormLayout()
button_hbox = QHBoxLayout()
self.setLayout(grid)
self.setWindowTitle("QtWaitingSpinner Creator")
self.setWindowFlags(Qt.Dialog)
# SPINNER
self.spinner = WaitingSpinner(self)
# Spinboxes
self.sb_roundness = QDoubleSpinBox()
self.sb_opacity = QDoubleSpinBox()
self.sb_fadeperc = QDoubleSpinBox()
self.sb_lines = QSpinBox()
self.sb_line_length = QDoubleSpinBox()
self.sb_line_width = QDoubleSpinBox()
self.sb_inner_radius = QDoubleSpinBox()
self.sb_rev_s = QDoubleSpinBox()
# set spinbox default values
self.sb_roundness.setValue(70)
self.sb_roundness.setRange(0, 9999)
self.sb_opacity.setValue(15)
self.sb_opacity.setRange(0, 9999)
self.sb_fadeperc.setValue(70)
self.sb_fadeperc.setRange(0, 9999)
self.sb_lines.setValue(12)
self.sb_lines.setRange(1, 9999)
self.sb_line_length.setValue(10)
self.sb_line_length.setRange(0, 9999)
self.sb_line_width.setValue(5)
self.sb_line_width.setRange(0, 9999)
self.sb_inner_radius.setValue(10)
self.sb_inner_radius.setRange(0, 9999)
self.sb_rev_s.setValue(1)
self.sb_rev_s.setRange(0.1, 9999)
# Buttons
self.btn_start = QPushButton("Start")
self.btn_stop = QPushButton("Stop")
self.btn_pick_color = QPushButton("Pick Color")
self.btn_show_init = QPushButton("Show init args")
self.btn_fade_in = QPushButton("Fade in")
self.btn_fade_out = QPushButton("Fade out")
# Connects
self.sb_roundness.valueChanged.connect(self.set_roundness)
self.sb_opacity.valueChanged.connect(self.set_opacity)
self.sb_fadeperc.valueChanged.connect(self.set_fadeperc)
self.sb_lines.valueChanged.connect(self.set_lines)
self.sb_line_length.valueChanged.connect(self.set_line_length)
self.sb_line_width.valueChanged.connect(self.set_line_width)
self.sb_inner_radius.valueChanged.connect(self.set_inner_radius)
self.sb_rev_s.valueChanged.connect(self.set_rev_s)
# qrainbowstyle
self.picker = qrainbowstyle.widgets.StylePickerGrid(self)
self.btn_start.clicked.connect(self.spinner_start)
self.btn_stop.clicked.connect(self.spinner_stop)
self.btn_pick_color.clicked.connect(self.show_color_picker)
self.btn_show_init.clicked.connect(self.show_init_args)
self.btn_fade_in.clicked.connect(self.fadeIn)
self.btn_fade_out.clicked.connect(self.fadeOut)
# Layout adds
groupbox1_layout.addWidget(self.spinner)
groupbox1.setLayout(groupbox1_layout)
groupbox2_layout.addRow(QLabel("Roundness:"), self.sb_roundness)
groupbox2_layout.addRow(QLabel("Opacity:"), self.sb_opacity)
groupbox2_layout.addRow(QLabel("Fade Perc:"), self.sb_fadeperc)
groupbox2_layout.addRow(QLabel("Lines:"), self.sb_lines)
groupbox2_layout.addRow(QLabel("Line Length:"), self.sb_line_length)
groupbox2_layout.addRow(QLabel("Line Width:"), self.sb_line_width)
groupbox2_layout.addRow(QLabel("Inner Radius:"), self.sb_inner_radius)
groupbox2_layout.addRow(QLabel("Rev/s:"), self.sb_rev_s)
groupbox2_layout.addRow(QLabel("Style: "), self.picker)
groupbox2.setLayout(groupbox2_layout)
button_hbox.addWidget(self.btn_start)
button_hbox.addWidget(self.btn_stop)
button_hbox.addWidget(self.btn_pick_color)
button_hbox.addWidget(self.btn_show_init)
button_hbox.addWidget(self.btn_fade_in)
button_hbox.addWidget(self.btn_fade_out)
grid.addWidget(groupbox1, *(1, 1))
grid.addWidget(groupbox2, *(1, 2))
grid.addLayout(button_hbox, *(2, 1))
self.spinner.start()
class PreferencesWindow(PyDialog):
"""
+-------------+
| Preferences |
+---------------------------------+
| Text Size ______ Default |
| Annotation Color ______ |
| Annotation Size ______ |
| Picker Size ______ |
| Back Color ______ |
| Text Color ______ |
| |
| Apply OK Cancel |
+---------------------------------+
"""
def __init__(self, data, win_parent=None):
"""
Saves the data members from data and
performs type checks
"""
PyDialog.__init__(self, data, win_parent)
self._updated_preference = False
self._default_font_size = data['font_size']
self._default_annotation_size = 18
self._default_clipping_min = data['clipping_min']
self._default_clipping_max = data['clipping_max']
self.dim_max = data['dim_max']
self._default_annotation_size = data['annotation_size'] # int
#self.out_data = data
self._picker_size = data['picker_size'] * 100.
self.annotation_color_float, self.annotation_color_int = _check_color(
data['annotation_color'])
self.background_color_float, self.background_color_int = _check_color(
data['background_color'])
self.text_color_float, self.text_color_int = _check_color(
data['text_color'])
#self.setupUi(self)
self.setWindowTitle('Preferences')
self.create_widgets()
self.create_layout()
self.set_connections()
self.on_set_font(self._default_font_size)
#self.show()
def create_widgets(self):
"""creates the display window"""
# Text Size
self.font_size = QLabel("Text Size:")
self.font_size_edit = QSpinBox(self)
self.font_size_edit.setValue(self._default_font_size)
self.font_size_edit.setRange(7, 20)
self.font_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Annotation Color
self.annotation_color = QLabel("Annotation Color:")
self.annotation_color_edit = QPushButtonColor(
self.annotation_color_int)
# Background Color
self.background_color = QLabel("Background Color:")
self.background_color_edit = QPushButtonColor(
self.background_color_int)
# Text Color
self.text_color = QLabel("Text Color:")
self.text_color_edit = QPushButtonColor(self.text_color_int)
#-----------------------------------------------------------------------
# Annotation Size
self.annotation_size = QLabel("Annotation Size:")
self.annotation_size_edit = QSpinBox(self)
self.annotation_size_edit.setRange(1, 500)
self.annotation_size_edit.setValue(self._default_annotation_size)
self.annotation_size_button = QPushButton("Default")
#-----------------------------------------------------------------------
# Picker Size
self.picker_size = QLabel("Picker Size (% of Screen):")
self.picker_size_edit = QDoubleSpinBox(self)
self.picker_size_edit.setRange(0., 10.)
log_dim = log10(self.dim_max)
decimals = int(ceil(abs(log_dim)))
decimals = max(6, decimals)
self.picker_size_edit.setDecimals(decimals)
self.picker_size_edit.setSingleStep(10. / 5000.)
self.picker_size_edit.setValue(self._picker_size)
#-----------------------------------------------------------------------
# Clipping Min
self.clipping_min = QLabel("Clipping Min:")
self.clipping_min_edit = QLineEdit(str(self._default_clipping_min))
self.clipping_min_button = QPushButton("Default")
# Clipping Max
self.clipping_max = QLabel("Clipping Max:")
self.clipping_max_edit = QLineEdit(str(self._default_clipping_max))
self.clipping_max_button = QPushButton("Default")
#-----------------------------------------------------------------------
# closing
self.apply_button = QPushButton("Apply")
self.ok_button = QPushButton("OK")
self.cancel_button = QPushButton("Cancel")
def create_layout(self):
grid = QGridLayout()
grid.addWidget(self.font_size, 0, 0)
grid.addWidget(self.font_size_edit, 0, 1)
grid.addWidget(self.font_size_button, 0, 2)
grid.addWidget(self.background_color, 1, 0)
grid.addWidget(self.background_color_edit, 1, 1)
grid.addWidget(self.text_color, 2, 0)
grid.addWidget(self.text_color_edit, 2, 1)
grid.addWidget(self.annotation_color, 3, 0)
grid.addWidget(self.annotation_color_edit, 3, 1)
grid.addWidget(self.annotation_size, 4, 0)
grid.addWidget(self.annotation_size_edit, 4, 1)
grid.addWidget(self.annotation_size_button, 4, 2)
grid.addWidget(self.picker_size, 5, 0)
grid.addWidget(self.picker_size_edit, 5, 1)
#grid.addWidget(self.clipping_min, 6, 0)
#grid.addWidget(self.clipping_min_edit, 6, 1)
#grid.addWidget(self.clipping_min_button, 6, 2)
#grid.addWidget(self.clipping_max, 7, 0)
#grid.addWidget(self.clipping_max_edit, 7, 1)
#grid.addWidget(self.clipping_max_button, 7, 2)
ok_cancel_box = QHBoxLayout()
ok_cancel_box.addWidget(self.apply_button)
ok_cancel_box.addWidget(self.ok_button)
ok_cancel_box.addWidget(self.cancel_button)
vbox = QVBoxLayout()
vbox.addLayout(grid)
vbox.addStretch()
vbox.addLayout(ok_cancel_box)
self.setLayout(vbox)
def set_connections(self):
self.font_size_button.clicked.connect(self.on_default_font_size)
self.font_size_edit.valueChanged.connect(self.on_set_font)
self.annotation_size_button.clicked.connect(
self.on_default_annotation_size)
self.annotation_size_edit.editingFinished.connect(
self.on_set_annotation_size)
self.annotation_size_edit.valueChanged.connect(
self.on_set_annotation_size)
self.annotation_color_edit.clicked.connect(self.on_annotation_color)
self.background_color_edit.clicked.connect(self.on_background_color)
self.text_color_edit.clicked.connect(self.on_text_color)
self.picker_size_edit.valueChanged.connect(self.on_picker_size)
self.picker_size_edit.editingFinished.connect(self.on_picker_size)
self.picker_size_edit.valueChanged.connect(self.on_picker_size)
self.clipping_min_button.clicked.connect(self.on_default_clipping_min)
self.clipping_max_button.clicked.connect(self.on_default_clipping_max)
self.apply_button.clicked.connect(self.on_apply)
self.ok_button.clicked.connect(self.on_ok)
self.cancel_button.clicked.connect(self.on_cancel)
# closeEvent
def on_set_font(self, value=None):
"""update the font for the current window"""
if value is None:
value = self.font_size_edit.value()
font = QtGui.QFont()
font.setPointSize(value)
self.setFont(font)
def on_set_annotation_size(self, value=None):
"""update the annotation size"""
if value is None:
value = int(self.annotation_size_edit.text())
self._annotation_size = value
#self.on_apply(force=True)
#self.min_edit.setText(str(self._default_min))
#self.min_edit.setStyleSheet("QLineEdit{background: white;}")
self.update_annotation_size_color()
def update_annotation_size_color(self):
if self.win_parent is not None:
self.win_parent.settings.set_annotation_size_color(
size=self._annotation_size)
def on_annotation_color(self):
rgb_color_ints = self.annotation_color_int
title = "Choose an annotation color"
passed, rgb_color_ints, rgb_color_floats = self.on_color(
self.annotation_color_edit, rgb_color_ints, title)
if passed:
self.annotation_color_int = rgb_color_ints
self.annotation_color_float = rgb_color_floats
self.update_annotation_size_color()
def on_background_color(self):
""" Choose a background color """
rgb_color_ints = self.background_color_int
title = "Choose a background color"
passed, rgb_color_ints, rgb_color_floats = self.on_color(
self.background_color_edit, rgb_color_ints, title)
if passed:
self.background_color_int = rgb_color_ints
self.background_color_float = rgb_color_floats
if self.win_parent is not None:
self.win_parent.settings.set_background_color(rgb_color_floats)
def on_text_color(self):
""" Choose a text color """
rgb_color_ints = self.text_color_int
title = "Choose a text color"
passed, rgb_color_ints, rgb_color_floats = self.on_color(
self.text_color_edit, rgb_color_ints, title)
if passed:
self.text_color_int = rgb_color_ints
self.text_color_float = rgb_color_floats
if self.win_parent is not None:
self.win_parent.settings.set_text_color(rgb_color_floats)
def on_color(self, color_edit, rgb_color_ints, title):
"""pops a color dialog"""
col = QColorDialog.getColor(QtGui.QColor(*rgb_color_ints), self, title)
if not col.isValid():
return False, rgb_color_ints, None
color_float = col.getRgbF()[:3] # floats
color_int = [int(colori * 255) for colori in color_float]
assert isinstance(color_float[0], float), color_float
assert isinstance(color_int[0], int), color_int
color_edit.setStyleSheet("QPushButton {"
"background-color: rgb(%s, %s, %s);" %
tuple(color_int) +
#"border:1px solid rgb(255, 170, 255); "
"}")
return True, color_int, color_float
def on_picker_size(self):
self._picker_size = float(self.picker_size_edit.text())
if self.win_parent is not None:
self.win_parent.element_picker_size = self._picker_size / 100.
#self.on_apply(force=True)
def on_default_font_size(self):
self.font_size_edit.setValue(self._default_font_size)
self.on_set_font(self._default_font_size)
def on_default_annotation_size(self):
self.annotation_size_edit.setValue(self._default_annotation_size)
self.on_set_annotation_size(self._default_annotation_size)
def on_default_clipping_min(self):
self.clipping_min_edit.setText(str(self._default_clipping_min))
self.clipping_min_edit.setStyleSheet("QLineEdit{background: white;}")
def on_default_clipping_max(self):
self.clipping_max_edit.setText(str(self._default_clipping_max))
self.clipping_max_edit.setStyleSheet("QLineEdit{background: white;}")
@staticmethod
def check_float(cell):
text = cell.text()
value = float(text)
return value, True
@staticmethod
def check_label_float(cell):
text = cell.text()
try:
value = eval_float_from_string(text)
cell.setStyleSheet("QLineEdit{background: white;}")
return value, True
except ValueError:
cell.setStyleSheet("QLineEdit{background: red;}")
return None, False
def on_validate(self):
font_size_value, flag0 = self.check_float(self.font_size_edit)
annotation_size_value, flag1 = self.check_float(
self.annotation_size_edit)
assert isinstance(self.annotation_color_float[0],
float), self.annotation_color_float
assert isinstance(self.annotation_color_int[0],
int), self.annotation_color_int
picker_size_value, flag2 = self.check_float(self.picker_size_edit)
clipping_min_value, flag3 = self.check_label_float(
self.clipping_min_edit)
clipping_max_value, flag4 = self.check_label_float(
self.clipping_max_edit)
if all([flag0, flag1, flag2, flag3, flag4]):
self._annotation_size = annotation_size_value
self._picker_size = picker_size_value
self.out_data['font_size'] = int(font_size_value)
self.out_data['clipping_min'] = min(clipping_min_value,
clipping_max_value)
self.out_data['clipping_max'] = max(clipping_min_value,
clipping_max_value)
self.out_data['clicked_ok'] = True
return True
return False
def on_apply(self, force=False):
passed = self.on_validate()
if (passed or force) and self.win_parent is not None:
self.win_parent.settings.on_set_font_size(
self.out_data['font_size'])
#self.win_parent.settings.set_annotation_size_color(self._annotation_size)
#self.win_parent.element_picker_size = self._picker_size / 100.
if passed and self.win_parent is not None:
self.win_parent._apply_clipping(self.out_data)
return passed
def on_ok(self):
passed = self.on_apply()
if passed:
self.close()
#self.destroy()
def on_cancel(self):
self.out_data['close'] = True
self.close()
def create_widgets(self):
"""creates the display window"""
# CORD2R
#self.origin_label = QLabel("Origin:")
#self.zaxis_label = QLabel("Z Axis:")
#self.xz_plane_label = QLabel("XZ Plane:")
# Z-Axis Projection
self.p1_label = QLabel("Origin:")
self.p3_label = QLabel("End:")
self.p2_label = QLabel("XZ Plane:")
self.zaxis_label = QLabel("Z Axis:")
self.method_pulldown = QComboBox()
for method in self.methods:
self.method_pulldown.addItem(method)
self.zaxis_method_pulldown = QComboBox()
for method in self.zaxis_methods:
self.zaxis_method_pulldown.addItem(method)
self.cid_label = QLabel("Coordinate System:")
self.p1_cid_pulldown = QComboBox()
self.p2_cid_pulldown = QComboBox()
self.p3_cid_pulldown = QComboBox()
self.zaxis_cid_pulldown = QComboBox()
cid_global_str = '0/Global'
for cid in sorted(self.cids):
if cid == 0:
cid_str = cid_global_str
else:
cid_str = str(cid)
#print('cid_str = %r' % cid_str)
self.p1_cid_pulldown.addItem(cid_str)
self.p2_cid_pulldown.addItem(cid_str)
self.p3_cid_pulldown.addItem(cid_str)
self.zaxis_cid_pulldown.addItem(cid_str)
self.p1_cid_pulldown.setCurrentIndex(0)
self.p2_cid_pulldown.setCurrentIndex(0)
self.p3_cid_pulldown.setCurrentIndex(0)
self.zaxis_cid_pulldown.setCurrentIndex(0)
if len(self.cids) == 1:
self.p1_cid_pulldown.setEnabled(False)
self.p2_cid_pulldown.setEnabled(False)
self.p3_cid_pulldown.setEnabled(False)
self.zaxis_cid_pulldown.setEnabled(False)
#self.p1_cid_pulldown.setItemText(0, cid_str)
#self.p2_cid_pulldown.setItemText(0, cid_str)
#self.zaxis_cid_pulldown.setItemText(0, cid_str)
self.p1_cid_pulldown.setToolTip('Defines the coordinate system for Point P1')
self.p2_cid_pulldown.setToolTip('Defines the coordinate system for Point P2')
self.p3_cid_pulldown.setToolTip('Defines the coordinate system for Point P3')
self.zaxis_cid_pulldown.setToolTip('Defines the coordinate system for the Z Axis')
self.p1_x_edit = QLineEdit('')
self.p1_y_edit = QLineEdit('')
self.p1_z_edit = QLineEdit('')
self.p2_x_edit = QLineEdit('')
self.p2_y_edit = QLineEdit('')
self.p2_z_edit = QLineEdit('')
self.p3_x_edit = QLineEdit('')
self.p3_y_edit = QLineEdit('')
self.p3_z_edit = QLineEdit('')
self.zaxis_x_edit = QLineEdit('')
self.zaxis_y_edit = QLineEdit('')
self.zaxis_z_edit = QLineEdit('')
self.additional_params_label = QLabel('Plane Parameters:')
self.case_info_label = QLabel('Case Info:')
self.p2_label = QLabel("XZ Plane:")
# Plane Color
self.plane_color_label = QLabel("Plane Color:")
self.plane_color_edit = QPushButtonColor(self.plane_color_int)
self.plane_opacity_label = QLabel("Plane Opacity:")
self.plane_opacity_edit = QDoubleSpinBox()
self.plane_opacity_edit.setRange(0.1, 1.0)
self.plane_opacity_edit.setDecimals(1)
self.plane_opacity_edit.setSingleStep(0.1)
self.plane_opacity_edit.setValue(self.plane_opacity)
self.flip_coord_label = QLabel("Flip Coordinate System:")
self.flip_coord_checkbox = QCheckBox()
#-----------------------------------------------------------------------
self.time_label = QLabel('Time:')
if self.gpforce is None:
times = ['0.', '0.5', '1.' , '1.5', '2.']
time = '0.'
else:
times = [str(time) for time in self.gpforce._times]
time = times[0]
self.times_pulldown = make_combo_box(times, time)
self.time_label.setEnabled(False)
self.times_pulldown.setEnabled(False)
#self.node_label = QLabel('Nodes:')
#self.node_edit = QNodeEdit(self.win_parent, self.model_name, parent=self.gui,
#pick_style='area', tab_to_next=False)
#self.element_label = QLabel('Elements:')
#self.element_edit = QElementEdit(self.win_parent, self.model_name, parent=self.gui,
#pick_style='area', tab_to_next=False)
#self.node_element_label = QLabel('Nodes/Elements:')
#self.node_element_edit = QLineEdit()
#self.node_element_edit.setReadOnly(True)
self.nplanes_label = QLabel('Num Planes:')
self.nplanes_spinner = QSpinBox()
self.nplanes_spinner.setMinimum(2)
self.nplanes_spinner.setMaximum(500)
self.nplanes_spinner.setValue(20)
#-----------------------------------------------------------------------
self.method_label = QLabel('Method:')
self.plane_label = QLabel('Plane:')
self.location_label = QLabel('Location:')
self.zaxis_method_label = QLabel('Z-Axis Method:')
self.cid_label = QLabel('Coordinate System:')
self.x_label = QLabel('X')
self.y_label = QLabel('Y')
self.z_label = QLabel('Z')
#self.location_label.setAlignment(Qt.AlignCenter)
self.cid_label.setAlignment(Qt.AlignCenter)
self.x_label.setAlignment(Qt.AlignCenter)
self.y_label.setAlignment(Qt.AlignCenter)
self.z_label.setAlignment(Qt.AlignCenter)
self.export_checkbox = QCheckBox()
self.csv_label = QLabel('CSV Filename:')
self.csv_edit = QLineEdit()
self.csv_button = QPushButton('Browse...')
self.csv_label.setEnabled(False)
self.csv_edit.setEnabled(False)
self.csv_button.setEnabled(False)
#-----------------------------------------------------------------------
# nodes
self.add_button = QPushButton('Add')
self.remove_button = QPushButton('Remove')
# elements
self.add2_button = QPushButton('Add')
self.remove2_button = QPushButton('Remove')
#-----------------------------------------------------------------------
# closing
self.apply_button = QPushButton('Apply')
self.cancel_button = QPushButton('Cancel')
self.set_bold_font(self._default_font_size)
class QtVectorsControls(QtLayerControls):
"""Qt view and controls for the napari Vectors layer.
Parameters
----------
layer : napari.layers.Vectors
An instance of a napari Vectors layer.
Attributes
----------
edge_color_label : qtpy.QtWidgets.QLabel
Label for edgeColorSwatch
edgeColorSwatch : qtpy.QtWidgets.QFrame
Color swatch showing display color of vectors.
edgeComboBox : qtpy.QtWidgets.QComboBox
Dropdown widget to select display color for vectors.
color_mode_comboBox : qtpy.QtWidgets.QComboBox
Dropdown widget to select edge_color_mode for the vectors.
color_prop_box : qtpy.QtWidgets.QComboBox
Dropdown widget to select _edge_color_property for the vectors.
edge_prop_label : qtpy.QtWidgets.QLabel
Label for color_prop_box
grid_layout : qtpy.QtWidgets.QGridLayout
Layout of Qt widget controls for the layer.
layer : napari.layers.Vectors
An instance of a napari Vectors layer.
lengthSpinBox : qtpy.QtWidgets.QDoubleSpinBox
Spin box widget controlling line length of vectors.
Multiplicative factor on projections for length of all vectors.
widthSpinBox : qtpy.QtWidgets.QDoubleSpinBox
Spin box widget controlling edge line width of vectors.
"""
def __init__(self, layer):
super().__init__(layer)
self.layer.events.edge_width.connect(self._on_edge_width_change)
self.layer.events.length.connect(self._on_length_change)
self.layer.events.edge_color_mode.connect(
self._on_edge_color_mode_change)
self.layer.events.edge_color.connect(self._on_edge_color_change)
# dropdown to select the property for mapping edge_color
color_properties = self._get_property_values()
color_prop_box = QComboBox(self)
color_prop_box.activated[str].connect(self.change_edge_color_property)
color_prop_box.addItems(color_properties)
self.color_prop_box = color_prop_box
self.edge_prop_label = QLabel('edge property:')
# vector direct color mode adjustment and widget
self.edgeColorEdit = QColorSwatchEdit(
initial_color=self.layer.edge_color,
tooltip='click to set current edge color',
)
self.edgeColorEdit.color_changed.connect(self.change_edge_color_direct)
self.edge_color_label = QLabel('edge color:')
self._on_edge_color_change()
# dropdown to select the edge color mode
colorModeComboBox = QComboBox(self)
colorModeComboBox.addItems(ColorMode.keys())
colorModeComboBox.activated[str].connect(self.change_edge_color_mode)
self.color_mode_comboBox = colorModeComboBox
self._on_edge_color_mode_change()
# line width in pixels
self.widthSpinBox = QDoubleSpinBox()
self.widthSpinBox.setKeyboardTracking(False)
self.widthSpinBox.setSingleStep(0.1)
self.widthSpinBox.setMinimum(0.1)
self.widthSpinBox.setValue(self.layer.edge_width)
self.widthSpinBox.valueChanged.connect(self.change_width)
# line length
self.lengthSpinBox = QDoubleSpinBox()
self.lengthSpinBox.setKeyboardTracking(False)
self.lengthSpinBox.setSingleStep(0.1)
self.lengthSpinBox.setValue(self.layer.length)
self.lengthSpinBox.setMinimum(0.1)
self.lengthSpinBox.valueChanged.connect(self.change_length)
# grid_layout created in QtLayerControls
# addWidget(widget, row, column, [row_span, column_span])
self.grid_layout.addWidget(QLabel('opacity:'), 0, 0)
self.grid_layout.addWidget(self.opacitySlider, 0, 1, 1, 2)
self.grid_layout.addWidget(QLabel('width:'), 1, 0)
self.grid_layout.addWidget(self.widthSpinBox, 1, 1, 1, 2)
self.grid_layout.addWidget(QLabel('length:'), 2, 0)
self.grid_layout.addWidget(self.lengthSpinBox, 2, 1, 1, 2)
self.grid_layout.addWidget(QLabel('blending:'), 3, 0)
self.grid_layout.addWidget(self.blendComboBox, 3, 1, 1, 2)
self.grid_layout.addWidget(QLabel('edge color mode:'), 4, 0)
self.grid_layout.addWidget(self.color_mode_comboBox, 4, 1, 1, 2)
self.grid_layout.addWidget(self.edge_color_label, 5, 0)
self.grid_layout.addWidget(self.edgeColorEdit, 5, 1, 1, 2)
self.grid_layout.addWidget(self.edge_prop_label, 6, 0)
self.grid_layout.addWidget(self.color_prop_box, 6, 1, 1, 2)
self.grid_layout.setRowStretch(7, 1)
self.grid_layout.setColumnStretch(1, 1)
self.grid_layout.setSpacing(4)
def change_edge_color_property(self, property: str):
"""Change edge_color_property of vectors on the layer model.
This property is the property the edge color is mapped to.
Parameters
----------
property : str
property to map the edge color to
"""
mode = self.layer.edge_color_mode
try:
self.layer.edge_color = property
self.layer.edge_color_mode = mode
except TypeError:
# if the selected property is the wrong type for the current color mode
# the color mode will be changed to the appropriate type, so we must update
self._on_edge_color_mode_change()
raise
def change_edge_color_mode(self, mode: str):
"""Change edge color mode of vectors on the layer model.
Parameters
----------
mode : str
Edge color for vectors. Must be: 'direct', 'cycle', or 'colormap'
"""
old_mode = self.layer.edge_color_mode
with self.layer.events.edge_color_mode.blocker():
try:
self.layer.edge_color_mode = mode
self._update_edge_color_gui(mode)
except ValueError:
# if the color mode was invalid, revert to the old mode
self.layer.edge_color_mode = old_mode
raise
def change_edge_color_direct(self, color: np.ndarray):
"""Change edge color of vectors on the layer model.
Parameters
----------
color : np.ndarray
Edge color for vectors, in an RGBA array
"""
self.layer.edge_color = color
def change_width(self, value):
"""Change edge line width of vectors on the layer model.
Parameters
----------
value : float
Line width of vectors.
"""
self.layer.edge_width = value
self.widthSpinBox.clearFocus()
self.setFocus()
def change_length(self, value):
"""Change length of vectors on the layer model.
Multiplicative factor on projections for length of all vectors.
Parameters
----------
value : float
Length of vectors.
"""
self.layer.length = value
self.lengthSpinBox.clearFocus()
self.setFocus()
def _update_edge_color_gui(self, mode: str):
""" Update the GUI element associated with edge_color.
This is typically used when edge_color_mode changes
Parameters
----------
mode : str
The new edge_color mode the GUI needs to be updated for.
Should be: 'direct', 'cycle', 'colormap'
"""
if mode in ('cycle', 'colormap'):
self.edgeColorEdit.setHidden(True)
self.edge_color_label.setHidden(True)
self.color_prop_box.setHidden(False)
self.edge_prop_label.setHidden(False)
elif mode == 'direct':
self.edgeColorEdit.setHidden(False)
self.edge_color_label.setHidden(False)
self.color_prop_box.setHidden(True)
self.edge_prop_label.setHidden(True)
def _get_property_values(self):
"""Get the current property values from the Vectors layer
Returns
-------
property_values : np.ndarray
array of all of the union of the property names (keys)
in Vectors.properties and Vectors._property_choices
"""
property_choices = [*self.layer._property_choices]
properties = [*self.layer.properties]
property_values = np.union1d(property_choices, properties)
return property_values
def _on_length_change(self, event=None):
"""Change length of vectors.
Parameters
----------
event : napari.utils.event.Event, optional
The napari event that triggered this method, by default None.
"""
with self.layer.events.length.blocker():
self.lengthSpinBox.setValue(self.layer.length)
def _on_edge_width_change(self, event=None):
""""Receive layer model width change event and update width spinbox.
Parameters
----------
event : napari.utils.event.Event, optional
The napari event that triggered this method, by default None.
"""
with self.layer.events.edge_width.blocker():
self.widthSpinBox.setValue(self.layer.edge_width)
def _on_edge_color_mode_change(self, event=None):
""""Receive layer model edge color mode change event & update dropdown.
Parameters
----------
event : napari.utils.event.Event, optional
The napari event that triggered this method, by default None.
"""
with qt_signals_blocked(self.color_mode_comboBox):
mode = self.layer.edge_color_mode
index = self.color_mode_comboBox.findText(mode,
Qt.MatchFixedString)
self.color_mode_comboBox.setCurrentIndex(index)
self._update_edge_color_gui(mode)
def _on_edge_color_change(self, event=None):
""""Receive layer model edge color change event & update dropdown.
Parameters
----------
event : napari.utils.event.Event, optional
The napari event that triggered this method, by default None.
"""
if self.layer._edge_color_mode == ColorMode.DIRECT:
with qt_signals_blocked(self.edgeColorEdit):
self.edgeColorEdit.setColor(self.layer.edge_color[0])
elif self.layer._edge_color_mode in (
ColorMode.CYCLE,
ColorMode.COLORMAP,
):
with qt_signals_blocked(self.color_prop_box):
prop = self.layer._edge_color_property
index = self.color_prop_box.findText(prop, Qt.MatchFixedString)
self.color_prop_box.setCurrentIndex(index)
class ShearMomentTorqueWindow(PyDialog):
"""
+-------------------------+
| ShearMomentTorqueWindow |
+-------------------------+
| Origin cid x y z |
| P2 cid x y z |
| z-axis cid x y z |
| tol cid x y z |
| |
| Apply OK Cancel |
+-------------------------+
"""
def __init__(self, data, win_parent=None):
"""
Saves the data members from data and
performs type checks
"""
PyDialog.__init__(self, data, win_parent)
self._updated_preference = False
self._default_font_size = data['font_size']
#self.dim_max = data['dim_max']
self.model_name = data['model_name']
self.cids = data['cids']
self.gpforce = data['gpforce']
#self._origin = data['origin']
#self._p1 = data['origin']
#self._p2 = data['origin']
#self.out_data = data
self.plane_color_float, self.plane_color_int = _check_color(
data['plane_color'])
self.plane_opacity = data['plane_opacity']
self.methods = ['Z-Axis Projection', 'CORD2R']
self.zaxis_methods = ['Global Z', 'Camera Normal', 'Manual']
self._zaxis_method = 0 # Global Z
self.setWindowTitle('Shear, Moment, Torque')
self.create_widgets()
self.create_layout()
self.set_connections()
self.on_font(self._default_font_size)
#self.on_gradient_scale()
#self.show()
def on_font(self, value=None):
"""update the font for the current window"""
if value is None:
value = self.font_size_edit.value()
font = QtGui.QFont()
font.setPointSize(value)
self.setFont(font)
def set_font_size(self, font_size):
"""
Updates the font size of all objects in the PyDialog
Parameters
----------
font_size : int
the font size
"""
if self.font_size == font_size:
return
self.font_size = font_size
font = make_font(font_size, is_bold=False)
self.setFont(font)
self.set_bold_font(font_size)
def set_bold_font(self, font_size):
"""
Updates the font size of all bolded objects in the dialog
Parameters
----------
font_size : int
the font size
"""
bold_font = make_font(font_size, is_bold=True)
self.additional_params_label.setFont(bold_font)
self.case_info_label.setFont(bold_font)
self.plane_label.setFont(bold_font)
self.location_label.setFont(bold_font)
self.cid_label.setFont(bold_font)
self.x_label.setFont(bold_font)
self.y_label.setFont(bold_font)
self.z_label.setFont(bold_font)
def create_widgets(self):
"""creates the display window"""
# CORD2R
#self.origin_label = QLabel("Origin:")
#self.zaxis_label = QLabel("Z Axis:")
#self.xz_plane_label = QLabel("XZ Plane:")
# Z-Axis Projection
self.p1_label = QLabel("Origin:")
self.p3_label = QLabel("End:")
self.p2_label = QLabel("XZ Plane:")
self.zaxis_label = QLabel("Z Axis:")
self.method_pulldown = QComboBox()
for method in self.methods:
self.method_pulldown.addItem(method)
self.zaxis_method_pulldown = QComboBox()
for method in self.zaxis_methods:
self.zaxis_method_pulldown.addItem(method)
self.cid_label = QLabel("Coordinate System:")
self.p1_cid_pulldown = QComboBox()
self.p2_cid_pulldown = QComboBox()
self.p3_cid_pulldown = QComboBox()
self.zaxis_cid_pulldown = QComboBox()
cid_global_str = '0/Global'
for cid in sorted(self.cids):
if cid == 0:
cid_str = cid_global_str
else:
cid_str = str(cid)
#print('cid_str = %r' % cid_str)
self.p1_cid_pulldown.addItem(cid_str)
self.p2_cid_pulldown.addItem(cid_str)
self.p3_cid_pulldown.addItem(cid_str)
self.zaxis_cid_pulldown.addItem(cid_str)
self.p1_cid_pulldown.setCurrentIndex(0)
self.p2_cid_pulldown.setCurrentIndex(0)
self.p3_cid_pulldown.setCurrentIndex(0)
self.zaxis_cid_pulldown.setCurrentIndex(0)
if len(self.cids) == 1:
self.p1_cid_pulldown.setEnabled(False)
self.p2_cid_pulldown.setEnabled(False)
self.p3_cid_pulldown.setEnabled(False)
self.zaxis_cid_pulldown.setEnabled(False)
#self.p1_cid_pulldown.setItemText(0, cid_str)
#self.p2_cid_pulldown.setItemText(0, cid_str)
#self.zaxis_cid_pulldown.setItemText(0, cid_str)
self.p1_cid_pulldown.setToolTip('Defines the coordinate system for Point P1')
self.p2_cid_pulldown.setToolTip('Defines the coordinate system for Point P2')
self.p3_cid_pulldown.setToolTip('Defines the coordinate system for Point P3')
self.zaxis_cid_pulldown.setToolTip('Defines the coordinate system for the Z Axis')
self.p1_x_edit = QLineEdit('')
self.p1_y_edit = QLineEdit('')
self.p1_z_edit = QLineEdit('')
self.p2_x_edit = QLineEdit('')
self.p2_y_edit = QLineEdit('')
self.p2_z_edit = QLineEdit('')
self.p3_x_edit = QLineEdit('')
self.p3_y_edit = QLineEdit('')
self.p3_z_edit = QLineEdit('')
self.zaxis_x_edit = QLineEdit('')
self.zaxis_y_edit = QLineEdit('')
self.zaxis_z_edit = QLineEdit('')
self.additional_params_label = QLabel('Plane Parameters:')
self.case_info_label = QLabel('Case Info:')
self.p2_label = QLabel("XZ Plane:")
# Plane Color
self.plane_color_label = QLabel("Plane Color:")
self.plane_color_edit = QPushButtonColor(self.plane_color_int)
self.plane_opacity_label = QLabel("Plane Opacity:")
self.plane_opacity_edit = QDoubleSpinBox()
self.plane_opacity_edit.setRange(0.1, 1.0)
self.plane_opacity_edit.setDecimals(1)
self.plane_opacity_edit.setSingleStep(0.1)
self.plane_opacity_edit.setValue(self.plane_opacity)
self.flip_coord_label = QLabel("Flip Coordinate System:")
self.flip_coord_checkbox = QCheckBox()
#-----------------------------------------------------------------------
self.time_label = QLabel('Time:')
if self.gpforce is None:
times = ['0.', '0.5', '1.' , '1.5', '2.']
time = '0.'
else:
times = [str(time) for time in self.gpforce._times]
time = times[0]
self.times_pulldown = make_combo_box(times, time)
self.time_label.setEnabled(False)
self.times_pulldown.setEnabled(False)
#self.node_label = QLabel('Nodes:')
#self.node_edit = QNodeEdit(self.win_parent, self.model_name, parent=self.gui,
#pick_style='area', tab_to_next=False)
#self.element_label = QLabel('Elements:')
#self.element_edit = QElementEdit(self.win_parent, self.model_name, parent=self.gui,
#pick_style='area', tab_to_next=False)
#self.node_element_label = QLabel('Nodes/Elements:')
#self.node_element_edit = QLineEdit()
#self.node_element_edit.setReadOnly(True)
self.nplanes_label = QLabel('Num Planes:')
self.nplanes_spinner = QSpinBox()
self.nplanes_spinner.setMinimum(2)
self.nplanes_spinner.setMaximum(500)
self.nplanes_spinner.setValue(20)
#-----------------------------------------------------------------------
self.method_label = QLabel('Method:')
self.plane_label = QLabel('Plane:')
self.location_label = QLabel('Location:')
self.zaxis_method_label = QLabel('Z-Axis Method:')
self.cid_label = QLabel('Coordinate System:')
self.x_label = QLabel('X')
self.y_label = QLabel('Y')
self.z_label = QLabel('Z')
#self.location_label.setAlignment(Qt.AlignCenter)
self.cid_label.setAlignment(Qt.AlignCenter)
self.x_label.setAlignment(Qt.AlignCenter)
self.y_label.setAlignment(Qt.AlignCenter)
self.z_label.setAlignment(Qt.AlignCenter)
self.export_checkbox = QCheckBox()
self.csv_label = QLabel('CSV Filename:')
self.csv_edit = QLineEdit()
self.csv_button = QPushButton('Browse...')
self.csv_label.setEnabled(False)
self.csv_edit.setEnabled(False)
self.csv_button.setEnabled(False)
#-----------------------------------------------------------------------
# nodes
self.add_button = QPushButton('Add')
self.remove_button = QPushButton('Remove')
# elements
self.add2_button = QPushButton('Add')
self.remove2_button = QPushButton('Remove')
#-----------------------------------------------------------------------
# closing
self.apply_button = QPushButton('Apply')
self.cancel_button = QPushButton('Cancel')
self.set_bold_font(self._default_font_size)
@property
def gui(self):
if self.win_parent is None:
return None
return self.win_parent.parent.gui
def create_layout(self):
"""sets up the window"""
grid = self._make_grid_layout()
#hbox_csv = QHBoxLayout()
grid2 = QGridLayout()
irow = 0
#grid2.addWidget(self.node_label, irow, 0)
#grid2.addWidget(self.node_edit, irow, 1)
#grid2.addWidget(self.add_button, irow, 2)
#grid2.addWidget(self.remove_button, irow, 3)
#irow += 1
#grid2.addWidget(self.element_label, irow, 0)
#grid2.addWidget(self.element_edit, irow, 1)
#grid2.addWidget(self.add2_button, irow, 2)
#grid2.addWidget(self.remove2_button, irow, 3)
#irow += 1
#grid2.addWidget(self.node_element_label, irow, 0)
#grid2.addWidget(self.node_element_edit, irow, 1)
#irow += 1
hbox_csv = QHBoxLayout()
hbox_csv.addWidget(self.export_checkbox)
hbox_csv.addWidget(self.csv_label)
hbox_csv.addWidget(self.csv_edit)
hbox_csv.addWidget(self.csv_button)
#----------------------------------------------
ok_cancel_box = QHBoxLayout()
ok_cancel_box.addWidget(self.apply_button)
ok_cancel_box.addWidget(self.cancel_button)
vbox = QVBoxLayout()
vbox.addLayout(grid)
vbox.addLayout(grid2)
#vbox.addStretch()
vbox.addLayout(hbox_csv)
vbox.addStretch()
#-----------------------
#vbox.addLayout(add_remove_box)
vbox.addLayout(ok_cancel_box)
self.on_method(0)
self.on_zaxis_method(0)
self.setLayout(vbox)
def on_export_checkbox(self):
"""this is called when the checkbox is clicked"""
is_checked = self.export_checkbox.isChecked()
self.csv_label.setEnabled(is_checked)
self.csv_edit.setEnabled(is_checked)
self.csv_button.setEnabled(is_checked)
def on_browse_csv(self):
"""opens a file dialog"""
default_dirname = os.getcwd()
csv_filename, wildcard = save_file_dialog(
self, 'Select the file name for export',
default_dirname, wildcard_csv)
if not csv_filename:
return
self.csv_edit.setText(csv_filename)
def _make_grid_layout(self):
"""builds the QGridLayout"""
grid = QGridLayout()
irow = 0
#-------------------------
grid.addWidget(self.location_label, irow, 0)
grid.addWidget(self.cid_label, irow, 1)
grid.addWidget(self.x_label, irow, 2)
grid.addWidget(self.y_label, irow, 3)
grid.addWidget(self.z_label, irow, 4)
irow += 1
add_row(irow, grid,
self.p1_label,
self.p1_cid_pulldown,
self.p1_x_edit, self.p1_y_edit, self.p1_z_edit)
irow += 1
add_row(irow, grid,
self.p3_label,
self.p3_cid_pulldown,
self.p3_x_edit, self.p3_y_edit, self.p3_z_edit)
irow += 1
grid.addWidget(self.plane_label, irow, 0)
irow += 1
grid.addWidget(self.method_label, irow, 0)
grid.addWidget(self.method_pulldown, irow, 1)
irow += 1
grid.addWidget(self.zaxis_method_label, irow, 0)
grid.addWidget(self.zaxis_method_pulldown, irow, 1)
irow += 1
add_row(irow, grid,
self.zaxis_label,
self.zaxis_cid_pulldown,
self.zaxis_x_edit, self.zaxis_y_edit, self.zaxis_z_edit)
irow += 1
add_row(irow, grid,
self.p2_label,
self.p2_cid_pulldown,
self.p2_x_edit, self.p2_y_edit, self.p2_z_edit)
irow += 1
#-----------------------------------------
grid.addWidget(self.case_info_label, irow, 0)
irow += 1
grid.addWidget(self.time_label, irow, 0)
grid.addWidget(self.times_pulldown, irow, 1)
irow += 1
grid.addWidget(self.nplanes_label, irow, 0)
grid.addWidget(self.nplanes_spinner, irow, 1)
irow += 1
#-----------------------------------------
grid.addWidget(self.additional_params_label, irow, 0)
irow += 1
grid.addWidget(self.plane_color_label, irow, 0)
grid.addWidget(self.plane_color_edit, irow, 1)
irow += 1
grid.addWidget(self.plane_opacity_label, irow, 0)
grid.addWidget(self.plane_opacity_edit, irow, 1)
irow += 1
#----------------------------------------------
return grid
def set_connections(self):
"""hooks up the gui actions"""
self.method_pulldown.currentIndexChanged.connect(self.on_method)
self.zaxis_method_pulldown.currentIndexChanged.connect(self.on_zaxis_method)
self.plane_color_edit.clicked.connect(self.on_plane_color)
self.export_checkbox.clicked.connect(self.on_export_checkbox)
self.csv_button.clicked.connect(self.on_browse_csv)
self.apply_button.clicked.connect(self.on_apply)
self.cancel_button.clicked.connect(self.on_cancel)
def on_method(self, method_int=None):
method = get_pulldown_text(method_int, self.methods, self.method_pulldown)
if method == 'Z-Axis Projection':
is_cord2r = False
elif method == 'CORD2R':
is_cord2r = True
else:
raise NotImplementedError(method)
if is_cord2r:
self._zaxis_method = self.zaxis_method_pulldown.currentIndex()
# set to manual
#self.on_zaxis_method(method_int=2) # manual
self.zaxis_method_pulldown.setCurrentIndex(2)
self.on_zaxis_method() # update
else:
self.zaxis_method_pulldown.setCurrentIndex(self._zaxis_method)
self.on_zaxis_method() # update
# works
self.zaxis_method_pulldown.setEnabled(not is_cord2r)
self.zaxis_method_pulldown.setVisible(not is_cord2r)
self.zaxis_method_label.setEnabled(not is_cord2r)
def on_zaxis_method(self, method_int=None):
method = get_pulldown_text(method_int, self.zaxis_methods, self.zaxis_method_pulldown)
if method == 'Global Z':
is_visible = False
elif method == 'Camera Normal':
is_visible = False
elif method == 'Manual':
is_visible = True
else:
raise NotImplementedError(method)
self.zaxis_cid_pulldown.setVisible(is_visible)
self.zaxis_x_edit.setVisible(is_visible)
self.zaxis_y_edit.setVisible(is_visible)
self.zaxis_z_edit.setVisible(is_visible)
def on_plane_color(self):
""" Choose a plane color"""
title = "Choose a cutting plane color"
rgb_color_ints = self.plane_color_int
color_edit = self.plane_color_edit
func_name = 'set_plane_color'
passed, rgb_color_ints, rgb_color_floats = self._background_color(
title, color_edit, rgb_color_ints, func_name)
if passed:
self.plane_color_int = rgb_color_ints
self.plane_color_float = rgb_color_floats
def _background_color(self, title, color_edit, rgb_color_ints, func_name):
"""helper method for ``on_background_color`` and ``on_background_color2``"""
passed, rgb_color_ints, rgb_color_floats = self.on_color(
color_edit, rgb_color_ints, title)
if passed and 0:
if self.win_parent is not None:
settings = self.win_parent.settings
func_background_color = getattr(settings, func_name)
func_background_color(rgb_color_floats)
return passed, rgb_color_ints, rgb_color_floats
def on_color(self, color_edit, rgb_color_ints, title):
"""pops a color dialog"""
col = QColorDialog.getColor(QtGui.QColor(*rgb_color_ints), self,
title)
if not col.isValid():
return False, rgb_color_ints, None
color_float = col.getRgbF()[:3] # floats
color_int = [int(colori * 255) for colori in color_float]
assert isinstance(color_float[0], float), color_float
assert isinstance(color_int[0], int), color_int
color_edit.setStyleSheet(
"QPushButton {"
"background-color: rgb(%s, %s, %s);" % tuple(color_int) +
#"border:1px solid rgb(255, 170, 255); "
"}")
return True, color_int, color_float
#---------------------------------------------------------------------------
def on_validate(self):
p1_cidi = self.p1_cid_pulldown.currentText()
p2_cidi = self.p2_cid_pulldown.currentText()
p3_cidi = self.p3_cid_pulldown.currentText()
zaxis_cidi = self.zaxis_cid_pulldown.currentText()
p1_cid = int(p1_cidi) if 'Global' not in p1_cidi else 0
p2_cid = int(p2_cidi) if 'Global' not in p2_cidi else 0
p3_cid = int(p3_cidi) if 'Global' not in p3_cidi else 0
zaxis_cid = int(zaxis_cidi) if 'Global' not in zaxis_cidi else 0
#print('p1_cidi=%r p2_cidi=%r p3_cidi=%r' % (p1_cidi, p2_cidi, zaxis_cidi))
#print('p2_cid=%r p2_cid=%r p3_cidi=%r' % (p2_cid, p2_cid, zaxis_cid))
p1_x, flag1 = check_float(self.p1_x_edit)
p1_y, flag2 = check_float(self.p1_y_edit)
p1_z, flag3 = check_float(self.p1_z_edit)
p2_x, flag4 = check_float(self.p2_x_edit)
p2_y, flag5 = check_float(self.p2_y_edit)
p2_z, flag6 = check_float(self.p2_z_edit)
p3_x, flag7 = check_float(self.p3_x_edit)
p3_y, flag8 = check_float(self.p3_y_edit)
p3_z, flag9 = check_float(self.p3_z_edit)
p1 = [p1_x, p1_y, p1_z]
p2 = [p2_x, p2_y, p2_z]
p3 = [p3_x, p3_y, p3_z]
flag10, flag11, flag12, zaxis_cid, zaxis = get_zaxis(
self.win_parent, # for camera
self.zaxis_method_pulldown,
self.zaxis_x_edit, self.zaxis_y_edit, self.zaxis_z_edit)
method = self.method_pulldown.currentText()
assert method in self.methods, 'method=%r' % method
flag13 = True
plane_opacity = self.plane_opacity_edit.value()
nplanes = self.nplanes_spinner.value()
csv_filename = None
flag14 = True
if self.export_checkbox.isChecked():
csv_filename, flag14 = check_save_path(self.csv_edit)
flags = [flag1, flag2, flag3, flag4, flag5, flag6, flag7, flag8, flag9,
flag10, flag11, flag12,
flag13, flag14]
if all(flags):
self.out_data['method'] = method
self.out_data['p1'] = [p1_cid, p1]
self.out_data['p2'] = [p2_cid, p2]
self.out_data['p3'] = [p2_cid, p3]
self.out_data['zaxis'] = [zaxis_cid, zaxis]
self.out_data['plane_color'] = self.plane_color_float
self.out_data['plane_opacity'] = plane_opacity
self.out_data['nplanes'] = nplanes
self.out_data['csv_filename'] = csv_filename
self.out_data['clicked_ok'] = True
return True
return False
def on_apply(self):
passed = self.on_validate()
if passed and self.win_parent is not None:
self.win_parent.shear_moment_torque_obj.make_smt_from_data(self.out_data, show=True)
#self.win_parent.make_smt_from_data(self.out_data)
return passed
def on_cancel(self):
self.out_data['close'] = True
self.close()
class ImageRotationDialog(ExToolWindow):
def __init__(self, signal, axes, parent, plugin):
super(ImageRotationDialog, self).__init__(parent)
self.ui = parent
self.create_controls()
self.accepted.connect(self.ok)
self.rejected.connect(self.close_new)
self.signal = signal
self.plugin = plugin
self.new_out = None
self._connected_updates = False
if isinstance(axes, str):
axm = signal.signal.axes_manager
if axes.startswith("nav"):
axes = (axm._axes.index(axm.navigation_axes[0]),
axm._axes.index(axm.navigation_axes[1]))
elif axes.startswith("sig"):
axes = (axm._axes.index(axm.signal_axes[0]),
axm._axes.index(axm.signal_axes[1]))
self.axes = axes
self.setWindowTitle(tr("Rotate"))
# TODO: TAG: Functionality check
if not hasattr(signal.signal, 'events'):
self.gbo_preview.setVisible(False)
# TODO: Add dynamic rotation, e.g. one that rotates when source
# signal's data_changed event triggers
def connect(self):
# TODO: Don't have to con/dis those in gbo
self.opt_new.toggled.connect(self.close_new)
self.num_angle.valueChanged.connect(self.update)
self.chk_grid.toggled.connect(self.update)
self.num_grid.valueChanged.connect(self.update)
self.chk_reshape.toggled.connect(self.update)
self.opt_new.toggled.connect(self.update)
self.opt_replace.toggled.connect(self.update)
def disconnect(self):
self.num_angle.valueChanged.disconnect(self.update)
self.chk_grid.toggled.disconnect(self.update)
self.num_grid.valueChanged.disconnect(self.update)
self.chk_reshape.toggled.disconnect(self.update)
self.opt_new.toggled.disconnect(self.update)
self.opt_replace.toggled.disconnect(self.update)
def ok(self):
# Draw figure if not already done
# TODO: TAG: Functionality check
if not hasattr(self.signal.signal, 'events') or \
not self.gbo_preview.isChecked():
self.update()
angle = self.num_angle.value()
reshape = self.chk_reshape.isChecked()
self.plugin.record_code(
r"<p>.rotate_signal({0}, reshape={1}, axes={2})".format(
angle, reshape, self.axes))
# Clean up event connections
if self.new_out is not None:
self.connect_update_plot(self.new_out.signal, disconnect=True)
def close_new(self, value=False):
if self.new_out is not None and not value:
self.new_out.close()
self.new_out = None
self._connected_updates = False
def set_preview(self, value):
if not hasattr(self.signal.signal, 'events'):
return
if value:
self.connect()
self.update()
else:
self.disconnect()
self.close_new()
def _axes_in_nav(self):
axm = self.signal.signal.axes_manager
navidx = [axm._axes.index(ax) for ax in axm.navigation_axes]
if self.axes[0] in navidx:
return True
return False
def connect_update_plot(self, signal, disconnect=False):
if self._connected_updates != disconnect:
return # Nothing to do, prevent double connections
if self._axes_in_nav():
f = signal._plot.navigator_plot.update
else:
f = signal._plot.signal_plot.update
# TODO: TAG: Functionality check
if hasattr(signal, 'events') and hasattr(
signal.events, 'data_changed'):
if disconnect:
signal.events.data_changed.disconnect(f)
else:
signal.events.data_changed.connect(f, [])
self._connected_updates = not disconnect
def update(self):
angle = self.num_angle.value()
reshape = self.chk_reshape.isChecked()
if self.opt_new.isChecked():
if self.new_out is None:
out = None
else:
out = self.new_out.signal
elif self.opt_replace.isChecked():
out = self.signal.signal
else:
return # Indeterminate state, do nothing
s = self.plugin.rotate_signal(angle, self.signal.signal, record=False,
reshape=reshape, out=out, axes=self.axes)
if out is None:
s.metadata.General.title = self.signal.name + "[Rotated]"
s.plot()
self.connect_update_plot(s)
if (self.gbo_preview.isChecked() and self.opt_new.isChecked() and
self.new_out is None):
self.new_out = self.ui.lut_signalwrapper[s]
else:
s = out
if self.chk_grid.isChecked() is True:
pass # TODO: Draw grid
def create_controls(self):
"""
Create UI controls.
"""
vbox = QVBoxLayout()
form = QFormLayout()
self.num_angle = QDoubleSpinBox()
self.num_angle.setValue(0.0)
self.num_angle.setMinimum(-360)
self.num_angle.setMaximum(360)
form.addRow(tr("Angle:"), self.num_angle)
vbox.addLayout(form)
self.gbo_preview = QGroupBox(tr("Preview"))
self.gbo_preview.setCheckable(True)
self.gbo_preview.setChecked(False)
gbo_vbox = QVBoxLayout()
self.chk_grid = QCheckBox(tr("Grid"))
self.chk_grid.setChecked(False)
self.num_grid = QSpinBox()
self.num_grid.setValue(4)
self.num_grid.setMinimum(1)
self.num_grid.setEnabled(False)
self.chk_grid.toggled[bool].connect(self.num_grid.setEnabled)
gbo_vbox.addWidget(self.chk_grid)
gbo_vbox.addWidget(self.num_grid)
self.gbo_preview.setLayout(gbo_vbox)
vbox.addWidget(self.gbo_preview)
self.gbo_preview.toggled[bool].connect(self.set_preview)
self.gbo_output = QGroupBox(tr("Output"))
self.opt_new = QRadioButton(tr("New signal"))
self.opt_replace = QRadioButton(tr("In place"))
self.opt_new.setChecked(True)
gbo_vbox2 = QVBoxLayout()
gbo_vbox2.addWidget(self.opt_new)
gbo_vbox2.addWidget(self.opt_replace)
self.gbo_output.setLayout(gbo_vbox2)
vbox.addWidget(self.gbo_output)
self.chk_reshape = QCheckBox(tr("Resize to fit"))
self.chk_reshape.setChecked(False)
vbox.addWidget(self.chk_reshape)
self.btn_ok = QPushButton(tr("&OK"))
self.btn_ok.setDefault(True)
self.btn_ok.clicked.connect(self.accept)
self.btn_cancel = QPushButton(tr("&Cancel"))
self.btn_cancel.clicked.connect(self.reject)
hbox = QHBoxLayout()
hbox.addWidget(self.btn_ok)
hbox.addWidget(self.btn_cancel)
vbox.addLayout(hbox)
vbox.addStretch(1)
self.setLayout(vbox)
class BreakSurfaceMenu(QDialog):
def __init__(self, data, win_parent=None):
"""
+-----------------+
| Break Surfaces |
+-----------------+------+
| EngineInlet |
| EngineOutlet |
| |
| Name EngineInlet |
| RegionMode * RegionID |
| * All |
| |
| AllowedRegions: |
| Region ID 3 |
| |
| PickMode * All |
| Pick Mode x On/Off |
| Pick Angle 20 deg |
| |
| Revert |
| RenumberRegions |
| Close |
+------------------------+
"""
QDialog.__init__(self, win_parent)
self.setWindowTitle('Break Surface')
#default
self.win_parent = win_parent
self.out_data = data
self.points = data['points']
self.keys = sorted(self.points.keys())
keys = self.keys
nrows = len(keys)
active_point = data['active_point']
#self.active_key = keys[0]
self.active_key = active_point
name = self.active_key
description = self.points[self.active_key][0]
self._use_old_table = False
items = ['Node %i' % val for val in keys]
header_labels = ['Nodes']
table_model = Model(items, header_labels, self)
view = SingleChoiceQTableView(self) #Call your custom QTableView here
view.setModel(table_model)
header = view.horizontalHeader()
header.setSectionResizeMode(0, QHeaderView.Stretch)
#header.setResizeMode(QtGui.QHeaderView.Stretch)
self.table = view
#self.representation = actor_obj.representation
#print('rep =', self.representation)
table = self.table
#headers = [QtCore.QString('Groups')]
header = table.horizontalHeader()
header.setStretchLastSection(True)
#----------------------------------------------
#self._default_is_apply = False
self.mode_header = QLabel("Mode:")
nregions_max = 10
pick_angle = 20.0
region_id = 4
all_regions = True
self.region_id = QLabel('Region ID:')
self.region_id_edit = QSpinBox(self)
self.region_id_edit.setRange(1, nregions_max)
self.region_id_edit.setSingleStep(1)
self.region_id_edit.setValue(region_id)
self.pick_angle = QLabel('Pick Angle:')
self.pick_angle_edit = QDoubleSpinBox(self)
self.pick_angle_edit.setRange(0.0, 360.0)
self.pick_angle_edit.setDecimals(3)
self.pick_angle_edit.setSingleStep(0.5)
self.pick_angle_edit.setValue(pick_angle)
# region IDs/all
self.checkbox_region_ids = QCheckBox('Region IDs')
self.checkbox_region_all = QCheckBox('All Regions')
self.checkbox_region_all.setChecked(all_regions)
self.checkbox_region_ids.setChecked(not all_regions)
# pick mode
self.checkbox_pick_mode = QCheckBox('Pick Mode (Off=label)')
self.checkbox_pick_mode.setChecked(False)
#----------------------------------------------
self.nodes_header = QLabel('Single Node:')
self.name = QLabel('ID:')
self.name_edit = QLineEdit('Node %d' % name)
self.name_edit.setDisabled(True)
#----------------------------------------------
self.location_x = QLabel('X:')
self.location_x_edit = QLineEdit('X')
self.location_y = QLabel('Y:')
self.location_y_edit = QLineEdit('Y')
self.location_z = QLabel('Z:')
self.location_z_edit = QLineEdit('Z')
#----------------------------------------------
# remove these...
self.description_edit = QLineEdit('Description')
self.coord_edit = QSpinBox()
#----------------------------------------------
# closing
#if self._default_is_apply:
#self.apply_button.setDisabled(True)
self.close_button = QPushButton('Close')
self.create_layout()
#self.set_connections()
def update_active_key(self, index):
name = self.active_key
old_obj = self.out_data['points'][name]
#self.active_key
#self.points[self.active_key]
old_obj[0] = str(self.description_edit.text())
#old_obj.coord = self.description_edit.value()
#old_obj.description = self.description_edit.value()
#old_obj.description = self.description_edit.value()
str_name = str(index.data())
name = int(str_name[5:])
#i = self.keys.index(self.active_key)
self.active_key = name
point = self.points[self.active_key]
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
self.name_edit.setText(str(self.active_key))
self.description_edit.setText(point[0])
self.coord_edit.setValue(point[1])
if point[2] == 'R':
self.radio_rectangular.setChecked(True)
elif point[2] == 'C':
self.radio_cylindrical.setChecked(True)
elif point[2] == 'S':
self.radio_spherical.setChecked(True)
self.location_x_edit.setText(func_str(point[3]))
self.location_y_edit.setText(func_str(point[4]))
self.location_z_edit.setText(func_str(point[5]))
#obj = self.out_data[name]
#point_size = obj.point_size
#opacity = obj.opacity
#representation = obj.representation
#is_visible = obj.is_visible
#self.opacity_edit.setValue(opacity)
#self.checkbox_show.setChecked(is_visible)
#self.checkbox_hide.setChecked(not is_visible)
#def on_name_select(self):
#print('on_name_select')
#return
def create_layout(self):
cancel_box = QHBoxLayout()
cancel_box.addWidget(self.close_button)
grid1 = QGridLayout()
grid2 = QGridLayout()
#-----------------------------------------
# setup
self.radio_rectangular = QRadioButton('Rectangular')
self.radio_cylindrical = QRadioButton('Cylindrical')
self.radio_spherical = QRadioButton('Spherical')
coord_type_layout = QHBoxLayout()
coord_type_layout.addWidget(self.radio_rectangular)
coord_type_layout.addWidget(self.radio_cylindrical)
coord_type_layout.addWidget(self.radio_spherical)
checkboxs = QButtonGroup(self)
checkboxs.addButton(self.checkbox_region_all)
checkboxs.addButton(self.checkbox_region_ids)
vbox1 = QVBoxLayout()
vbox1.addWidget(self.checkbox_region_all)
vbox1.addWidget(self.checkbox_region_ids)
#vbox1.addLayout(checkboxs)
#-----------------------------------------
irow = 0
grid2.addWidget(self.name, irow, 0)
grid2.addWidget(self.name_edit, irow, 1)
irow += 1
#grid2.addWidget(self.name, irow, 0)
grid2.addWidget(self.description_edit, irow, 1)
irow += 1
grid2.addWidget(self.location_x, irow, 0)
grid2.addWidget(self.location_x_edit, irow, 1)
irow += 1
grid2.addWidget(self.location_y, irow, 0)
grid2.addWidget(self.location_y_edit, irow, 1)
irow += 1
grid2.addWidget(self.location_z, irow, 0)
grid2.addWidget(self.location_z_edit, irow, 1)
irow += 1
#| Name EngineInlet |
#| RegionMode * RegionID |
#| * All |
#| |
#| AllowedRegions: |
#| Region ID 3 |
#| |
#| PickMode * All |
#| Pick Mode x On/Off |
#| Pick Angle 20 deg |
#| |
#| Revert |
#| RenumberRegions |
#| Close |
grid2.addWidget(self.region_id, irow, 0)
grid2.addWidget(self.region_id_edit, irow, 1)
irow += 1
#grid2.addWidget(self.pick_mode, irow, 0)
grid2.addWidget(self.checkbox_pick_mode, irow, 0)
irow += 1
grid2.addWidget(self.pick_angle, irow, 0)
grid2.addWidget(self.pick_angle_edit, irow, 1)
irow += 1
#grid2.addWidget(self.pi, irow, 0)
#grid2.addLayout(coord_type_layout, irow, 1)
#irow += 1
#grid2.addWidget(self.location, irow, 0)
#grid2.addLayout(location_layout, irow, 1)
#irow += 1
#------------------------------------
vbox = QVBoxLayout()
vbox.addLayout(grid1)
#vbox.addLayout(vbox1)
#vbox.addStretch()
vbox.addWidget(self.table)
vbox.addLayout(grid2)
vbox.addStretch()
#vbox.addWidget(self.check_apply)
vbox.addLayout(cancel_box)
self.setLayout(vbox)
def set_connections(self):
"""creates the actions for the menu"""
self.opacity_edit.clicked.connect(self.on_opacity)
self.point_size.clicked.connect(self.on_point_size)
self.color_edit.clicked.connect(self.on_color)
self.checkbox_show.clicked.connect(self.on_show)
self.checkbox_hide.clicked.connect(self.on_hide)
#self.connect(self.description_edit, QtCore.SIGNAL("valueChanged(int)"), self.on_description)
#self.connect(self.coord_edit, QtCore.SIGNAL("valueChanged(int)"), self.on_coord)
self.radio_rectangular.clicked.connect(self.on_coord_type)
self.radio_cylindrical.clicked.connect(self.on_coord_type)
self.radio_spherical.clicked.connect(self.on_coord_type)
self.location_x_edit.clicked.connect(self.on_location_x)
self.location_y_edit.clicked.connect(self.on_location_y)
self.location_z_edit.clicked.connect(self.on_location_z)
self.close_button.clicked.connect(self.on_close)
#self.connect(self.check_apply, QtCore.SIGNAL('clicked()'), self.on_check_apply)
#self.connect(self.apply_button, QtCore.SIGNAL('clicked()'), self.on_apply)
#self.connect(self.ok_button, QtCore.SIGNAL('clicked()'), self.on_ok)
self.close_button.clicked.connect(self.on_close)
def on_color(self):
obj = self.out_data['point_properties']
rgb_color_ints = obj.color
msg = 'Points'
col = QColorDialog.getColor(QtGui.QColor(*rgb_color_ints), self,
"Choose a %s color" % msg)
if col.isValid():
color = col.getRgbF()[:3]
obj.color = color
#print('new_color =', color)
self.color_edit.setStyleSheet(
"QPushButton {"
"background-color: rgb(%s, %s, %s);" % tuple(obj.color) +
#"border:1px solid rgb(255, 170, 255); "
"}")
def on_show(self):
is_checked = self.checkbox_show.isChecked()
self.out_data['point_properties'].is_visible = is_checked
def on_hide(self):
is_checked = self.checkbox_hide.isChecked()
self.out_data['point_properties'].is_visible = not is_checked
def on_point_size(self):
point_size = self.point_size_edit.value()
self.out_data['point_properties'].point_size = point_size
def on_opacity(self):
opacity = self.opacity_edit.value()
self.out_data['point_properties'].opacity = opacity
def on_description(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
description = self.description_edit.value()
self.out_data['points'][name][0] = description
def on_coord(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
coord_id = self.coord_edit.value()
self.out_data['points'][name][1] = coord_id
def on_coord_type(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
if self.radio_rectangular.isChecked():
coord_type = 'R'
elif self.radio_cylindrical.isChecked():
coord_type = 'C'
elif self.radio_spherical.isChecked():
coord_type = 'S'
else:
raise NotImplementedError()
self.out_data['points'][name][2] = coord_type
def on_location_x(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
value = self.coord_edit.value()
self.out_data['points'][name][3] = value
def on_location_y(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
value = self.coord_edit.value()
self.out_data['points'][name][4] = value
def on_location_z(self):
#1 : ['LERoot', 0, 'R', 1.0, 2.0, 3.0],
name = self.active_key
value = self.coord_edit.value()
self.out_data['points'][name][5] = value
def closeEvent(self, event):
event.accept()
#def on_default_name(self):
#self.name_edit.setText(str(self._default_name))
#self.name_edit.setStyleSheet("QLineEdit{background: white;}")
#def check_float(self, cell):
#text = cell.text()
#try:
#value = eval_float_from_string(text)
#cell.setStyleSheet("QLineEdit{background: white;}")
#return value, True
#except ValueError:
#cell.setStyleSheet("QLineEdit{background: red;}")
#return None, False
#def check_name(self, cell):
#text = str(cell.text()).strip()
#if len(text):
#cell.setStyleSheet("QLineEdit{background: white;}")
#return text, True
#else:
#cell.setStyleSheet("QLineEdit{background: red;}")
#return None, False
def on_validate(self):
self.out_data['clicked_ok'] = True
self.out_data['clicked_cancel'] = False
old_obj = self.out_data[self.active_key]
old_obj.point_size = self.point_size_edit.value()
old_obj.opacity = self.opacity_edit.value()
old_obj.is_visible = self.checkbox_show.isChecked()
return True
#name_value, flag0 = self.check_name(self.name_edit)
#ox_value, flag1 = self.check_float(self.transparency_edit)
#if flag0 and flag1:
#self.out_data['clicked_ok'] = True
#return True
#return False
def on_apply(self):
passed = self.on_validate()
if passed:
self.win_parent.on_update_gui_nodes(self.out_data)
return passed
def on_ok(self):
passed = self.on_apply()
if passed:
self.close()
#self.destroy()
def on_close(self):
self.out_data['clicked_close'] = True
self.close()
class Dimension(QWidget):
stateChanged = Signal(int)
valueChanged = Signal()
"""
pass in dimension
state: one of (State.X, State.Y, State.NONE, State.DISBALE)
Can be run independently by:
from mantidqt.widgets.sliceviewer.dimensionwidget import Dimension
from qtpy.QtWidgets import QApplication
app = QApplication([])
window = Dimension({'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):
super(Dimension, self).__init__(parent)
self.minimum = dim_info['minimum']
self.nbins = dim_info['number_of_bins']
self.width = dim_info['width']
self.number = number
self.layout = QHBoxLayout(self)
self.name = QLabel(dim_info['name'])
self.units = QLabel(dim_info['units'])
self.x = QPushButton('X')
self.x.setFixedSize(32,32)
self.x.setCheckable(True)
self.x.clicked.connect(self.x_clicked)
self.y = QPushButton('Y')
self.y.setFixedSize(32,32)
self.y.setCheckable(True)
self.y.clicked.connect(self.y_clicked)
self.slider = QSlider(Qt.Horizontal)
self.slider.setRange(0, self.nbins-1)
self.slider.valueChanged.connect(self.slider_changed)
self.spinbox = QDoubleSpinBox()
self.spinbox.setDecimals(3)
self.spinbox.setRange(self.get_bin_center(0), self.get_bin_center(self.nbins-1))
self.spinbox.setSingleStep(self.width)
self.spinbox.valueChanged.connect(self.spinbox_changed)
self.layout.addWidget(self.name)
self.layout.addWidget(self.x)
self.layout.addWidget(self.y)
self.layout.addWidget(self.slider, stretch=1)
self.layout.addStretch(0)
self.layout.addWidget(self.spinbox)
self.layout.addWidget(self.units)
self.set_value(0)
if self.nbins < 2:
state = State.DISABLE
self.set_state(state)
def set_state(self, state):
self.state = state
if self.state == State.X:
self.x.setChecked(True)
self.y.setChecked(False)
self.slider.hide()
self.spinbox.hide()
self.units.hide()
elif self.state == State.Y:
self.x.setChecked(False)
self.y.setChecked(True)
self.slider.hide()
self.spinbox.hide()
self.units.hide()
elif self.state == State.NONE:
self.x.setChecked(False)
self.y.setChecked(False)
self.slider.show()
self.spinbox.show()
self.units.show()
else:
self.x.setChecked(False)
self.x.setDisabled(True)
self.y.setChecked(False)
self.y.setDisabled(True)
self.slider.hide()
self.spinbox.show()
self.spinbox.setDisabled(True)
self.units.show()
def get_state(self):
return self.state
def x_clicked(self):
old_state = self.state
self.set_state(State.X)
if self.state != old_state:
self.stateChanged.emit(self.number)
def y_clicked(self):
old_state = self.state
self.set_state(State.Y)
if self.state != old_state:
self.stateChanged.emit(self.number)
def spinbox_changed(self):
self.value = self.spinbox.value()
self.update_slider()
self.valueChanged.emit()
def slider_changed(self):
self.value = self.get_bin_center(self.slider.value())
self.update_spinbox()
self.valueChanged.emit()
def get_bin_center(self, n):
return (n+0.5)*self.width+self.minimum
def update_slider(self):
i = (self.value-self.minimum)/self.width
self.slider.setValue(int(min(max(i, 0), self.nbins-1)))
def update_spinbox(self):
self.spinbox.setValue(self.value)
def set_value(self, value):
self.value = value
self.update_slider()
self.update_spinbox()
def get_value(self):
return self.value
def __init__(self, data, win_parent=None):
"""
+-----------------+
| Break Surfaces |
+-----------------+------+
| EngineInlet |
| EngineOutlet |
| |
| Name EngineInlet |
| RegionMode * RegionID |
| * All |
| |
| AllowedRegions: |
| Region ID 3 |
| |
| PickMode * All |
| Pick Mode x On/Off |
| Pick Angle 20 deg |
| |
| Revert |
| RenumberRegions |
| Close |
+------------------------+
"""
QDialog.__init__(self, win_parent)
self.setWindowTitle('Break Surface')
#default
self.win_parent = win_parent
self.out_data = data
self.points = data['points']
self.keys = sorted(self.points.keys())
keys = self.keys
nrows = len(keys)
active_point = data['active_point']
#self.active_key = keys[0]
self.active_key = active_point
name = self.active_key
description = self.points[self.active_key][0]
self._use_old_table = False
items = ['Node %i' % val for val in keys]
header_labels = ['Nodes']
table_model = Model(items, header_labels, self)
view = SingleChoiceQTableView(self) #Call your custom QTableView here
view.setModel(table_model)
header = view.horizontalHeader()
header.setSectionResizeMode(0, QHeaderView.Stretch)
#header.setResizeMode(QtGui.QHeaderView.Stretch)
self.table = view
#self.representation = actor_obj.representation
#print('rep =', self.representation)
table = self.table
#headers = [QtCore.QString('Groups')]
header = table.horizontalHeader()
header.setStretchLastSection(True)
#----------------------------------------------
#self._default_is_apply = False
self.mode_header = QLabel("Mode:")
nregions_max = 10
pick_angle = 20.0
region_id = 4
all_regions = True
self.region_id = QLabel('Region ID:')
self.region_id_edit = QSpinBox(self)
self.region_id_edit.setRange(1, nregions_max)
self.region_id_edit.setSingleStep(1)
self.region_id_edit.setValue(region_id)
self.pick_angle = QLabel('Pick Angle:')
self.pick_angle_edit = QDoubleSpinBox(self)
self.pick_angle_edit.setRange(0.0, 360.0)
self.pick_angle_edit.setDecimals(3)
self.pick_angle_edit.setSingleStep(0.5)
self.pick_angle_edit.setValue(pick_angle)
# region IDs/all
self.checkbox_region_ids = QCheckBox('Region IDs')
self.checkbox_region_all = QCheckBox('All Regions')
self.checkbox_region_all.setChecked(all_regions)
self.checkbox_region_ids.setChecked(not all_regions)
# pick mode
self.checkbox_pick_mode = QCheckBox('Pick Mode (Off=label)')
self.checkbox_pick_mode.setChecked(False)
#----------------------------------------------
self.nodes_header = QLabel('Single Node:')
self.name = QLabel('ID:')
self.name_edit = QLineEdit('Node %d' % name)
self.name_edit.setDisabled(True)
#----------------------------------------------
self.location_x = QLabel('X:')
self.location_x_edit = QLineEdit('X')
self.location_y = QLabel('Y:')
self.location_y_edit = QLineEdit('Y')
self.location_z = QLabel('Z:')
self.location_z_edit = QLineEdit('Z')
#----------------------------------------------
# remove these...
self.description_edit = QLineEdit('Description')
self.coord_edit = QSpinBox()
#----------------------------------------------
# closing
#if self._default_is_apply:
#self.apply_button.setDisabled(True)
self.close_button = QPushButton('Close')
self.create_layout()
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()
def createEditor(self, parent, option, index):
editor = QDoubleSpinBox(parent)
editor.setMinimum(0)
editor.setDecimals(5)
editor.setSingleStep(0.0001)
return editor
def __init__(self, parent=None, units=None):
QDoubleSpinBox.__init__(self, parent)
if units is not None:
self.setSuffix(' ' + str(units))
self._units = u(self.suffix().strip()).units
self.valueChanged.connect(self._emit_uValueChanged)
class StyleChooser(QWidget):
def __init__(self, line_style_set=STYLESET_DEFAULT):
QWidget.__init__(self)
self._style = PlotStyle("StyleChooser Internal Style")
self._styles = (STYLES["default"] if not line_style_set in STYLES else
STYLES[line_style_set])
self.setMinimumWidth(140)
self.setMaximumHeight(25)
layout = QHBoxLayout()
layout.setContentsMargins(0, 0, 0, 0)
layout.setSpacing(2)
self.line_chooser = QComboBox()
self.line_chooser.setToolTip("Select line style.")
for style in self._styles:
self.line_chooser.addItem(*style)
self.marker_chooser = QComboBox()
self.marker_chooser.setToolTip("Select marker style.")
for marker in MARKERS:
self.marker_chooser.addItem(*marker)
self.thickness_spinner = QDoubleSpinBox()
self.thickness_spinner.setToolTip("Line thickness")
self.thickness_spinner.setMinimum(0.1)
self.thickness_spinner.setDecimals(1)
self.thickness_spinner.setSingleStep(0.1)
self.size_spinner = QDoubleSpinBox()
self.size_spinner.setToolTip("Marker Size")
self.size_spinner.setMinimum(0.1)
self.size_spinner.setDecimals(1)
self.size_spinner.setSingleStep(0.1)
# the text content of the spinner varies, but shouldn't push the control out of boundaries
self.line_chooser.setMinimumWidth(110)
layout.addWidget(self.line_chooser)
layout.addWidget(self.thickness_spinner)
layout.addWidget(self.marker_chooser)
layout.addWidget(self.size_spinner)
self.setLayout(layout)
self.line_chooser.currentIndexChanged.connect(self._updateStyle)
self.marker_chooser.currentIndexChanged.connect(self._updateStyle)
self.thickness_spinner.valueChanged.connect(self._updateStyle)
self.size_spinner.valueChanged.connect(self._updateStyle)
self._updateLineStyleAndMarker(
self._style.line_style,
self._style.marker,
self._style.width,
self._style.size,
)
self._layout = layout
def getItemSizes(self):
line_style_combo_width = self._layout.itemAt(0).sizeHint().width()
thickness_spinner_width = self._layout.itemAt(1).sizeHint().width()
marker_combo_width = self._layout.itemAt(2).sizeHint().width()
size_spinner_width = self._layout.itemAt(3).sizeHint().width()
return (
line_style_combo_width,
thickness_spinner_width,
marker_combo_width,
size_spinner_width,
)
def _findLineStyleIndex(self, line_style):
for index, style in enumerate(self._styles):
if style[1] == line_style:
return index
elif style[1] is None and line_style == "":
return index
return -1
def _findMarkerStyleIndex(self, marker):
for index, style in enumerate(MARKERS):
if style[1] == marker:
return index
elif style[1] is None and marker == "":
return index
return -1
def _updateLineStyleAndMarker(self, line_style, marker, thickness, size):
self.line_chooser.setCurrentIndex(self._findLineStyleIndex(line_style))
self.marker_chooser.setCurrentIndex(self._findMarkerStyleIndex(marker))
self.thickness_spinner.setValue(thickness)
self.size_spinner.setValue(size)
def _updateStyle(self):
self.marker_chooser.setEnabled(
self.line_chooser.currentText() != "Area")
line_style = self.line_chooser.itemData(
self.line_chooser.currentIndex())
marker_style = self.marker_chooser.itemData(
self.marker_chooser.currentIndex())
thickness = float(self.thickness_spinner.value())
size = float(self.size_spinner.value())
self._style.line_style = line_style
self._style.marker = marker_style
self._style.width = thickness
self._style.size = size
def setStyle(self, style):
"""@type style: PlotStyle"""
self._style.copyStyleFrom(style)
self._updateLineStyleAndMarker(style.line_style, style.marker,
style.width, style.size)
def getStyle(self):
"""@rtype: PlotStyle"""
style = PlotStyle("Generated Style from StyleChooser")
style.copyStyleFrom(self._style)
return style
def createLabelLayout(self, layout=None):
if layout is None:
layout = QHBoxLayout()
titles = ["Line Style", "Width", "Marker Style", "Size"]
sizes = self.getItemSizes()
for title, size in zip(titles, sizes):
label = QLabel(title)
label.setFixedWidth(size)
layout.addWidget(label)
return layout
def createEditor(self, parent, options, index):
self.update = True
node = index.internalPointer()
if isinstance(node, JsonItem):
if node.type in ('float', 'int'):
editor = QDoubleSpinBox(parent)
editor.setSuffix(node.unit or "")
editor.setRange(node.min or -sys.maxsize,
node.max or sys.maxsize)
editor.setGeometry(options.rect)
editor.setDecimals(node.decimals or 0)
editor.show()
return editor
else:
return super().createEditor(parent, options, index)
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()