def motor_controller(self): ''' Sets up the GUI in the middle of the Screen to control the motors. Uses self._motorValues to determine which motors are present. ''' i = 0 for k, v in sorted(self._currentGoals.items()): group = QGroupBox() slider = QSlider(Qt.Horizontal) slider.setTickInterval(1) slider.setMinimum(-181) slider.setMaximum(181) slider.valueChanged.connect(self.slider_update) self._sliders[k] = slider textfield = QLineEdit() textfield.setText('0') textfield.textEdited.connect(self.textfield_update) self._textFields[k] = textfield label = QLabel() label.setText(k) layout = QVBoxLayout() layout.addWidget(label) layout.addWidget(self._sliders[k]) layout.addWidget(self._textFields[k]) group.setLayout(layout) self._widget.motorControlLayout.addWidget(group, i / 5, i % 5) i = i+1
def createSlider(self, minimum, maximum, default_value, tick_interval): """ Create a QtSlider with specified properties Parameters: @param minimum Minimum value for slider @param maximum Maximum value for slider @param default_value Initial value the slider is set to @param tick_inverval Integer value specifying difference between successive ticks @return Slider value """ slider = QSlider(Qt.Horizontal) slider.setMinimum(minimum) slider.setMaximum(maximum) slider.setValue(default_value) slider.setTickPosition(QSlider.TicksBelow) slider.setTickInterval(tick_interval) return slider
def __init__(self, title, jsp, num_rows=0): super(JointStatePublisherGui, self).__init__() font = QFont("Helvetica", 9, QFont.Bold) self.hlayout = QHBoxLayout(self) vlayout = QVBoxLayout() glayout = QGridLayout() right_l_lauout = QVBoxLayout() self.listVeiw = QListWidget() self.checkbox = [] self.value_line_edit = [] self.sliders = [] self.positions = [] self.progressbars = [] self.value_last = [] speed_max = enviromnt_conf['joint_speed'] slider_max = speed_max * 1000 position_max = enviromnt_conf['joint_max_position'] progress_max = position_max * 1000 #create joints widget for i in range(0, num_rows): if config[i][0]: g_in_g = QGridLayout() checkbox = QCheckBox(config[i][1]) checkbox.setFont(font) self.checkbox.append(checkbox) value_line_edit = QLineEdit() value_line_edit.setFont(font) value_line_edit.setText("0.0") self.value_line_edit.append(value_line_edit) display_lable = QLabel() display_lable.setFont(font) display_lable.setText("Position:") position_label = QLabel() position_label.setFont(font) position_label.setText("0.0") self.positions.append(position_label) position_progress_bar = QProgressBar() position_progress_bar.setMaximum(progress_max) position_progress_bar.setMinimum(-progress_max) position_progress_bar.setValue(0) self.progressbars.append(position_progress_bar) slider = QSlider() slider.setMaximum(slider_max) slider.setMinimum(-slider_max) slider.setOrientation(Qt.Horizontal) slider.valueChanged.connect(self.slider_value_changed) self.sliders.append(slider) g_in_g.addWidget(checkbox, 0, 0) g_in_g.addWidget(value_line_edit, 0, 1) g_in_g.addWidget(display_lable, 0, 2) g_in_g.addWidget(position_label, 0, 3) g_in_g.addWidget(slider, 1, 0, 1, 2) g_in_g.addWidget(position_progress_bar, 1, 2, 1, 2) glayout.addLayout(g_in_g, i, 0) #create v layout self.import_Btn = QPushButton('Import') self.import_Btn.setFont(font) self.import_Btn.clicked.connect(self.import_Btn_clecked) self.export_Btn = QPushButton('Export') self.export_Btn.setFont(font) self.export_Btn.clicked.connect(self.export_Btn_clicked) self.start_Btn = QPushButton("Start") self.start_Btn.setFont(font) self.start_Btn.clicked.connect(self.start_Btn_clicked) self.reset_Btn = QPushButton('Reset') self.reset_Btn.setFont(font) self.reset_Btn.clicked.connect(self.reset_Btn_clicked) self.record_Btn = QPushButton('Record') self.record_Btn.setFont(font) self.record_Btn.clicked.connect(self.record_Btn_clicked) self.replay_Btn = QPushButton('Repaly') self.replay_Btn.setFont(font) self.replay_Btn.clicked.connect(self.replay_Btn_clicked) self.delete_Btn = QPushButton("Delete") self.delete_Btn.setFont(font) self.delete_Btn.clicked.connect(self.delete_Btn_clicked) self.debug_Btn = QPushButton("Debug") self.debug_Btn.setFont(font) self.debug_Btn.clicked.connect(self.debug_Btn_clicked) vlayout.addWidget(self.import_Btn) vlayout.addWidget(self.export_Btn) vlayout.addWidget(self.start_Btn) vlayout.addWidget(self.reset_Btn) vlayout.addWidget(self.record_Btn) vlayout.addWidget(self.delete_Btn) vlayout.addWidget(self.replay_Btn) vlayout.addWidget(self.debug_Btn) self.master_url = QLineEdit("http://192.168.0.91:11311") self.master_url.setFont(font) self.master_ip = QLineEdit("192.168.0.91") self.master_ip.setFont(font) self.listVeiw.clicked.connect(self.listVeiw_clicked) self.listVeiw.currentRowChanged.connect( self.listVeiw_itemSelectionChanged) self.description = QTextEdit("") self.description.setFont(font) #self.description.setGeometry(0,100,100,500) right_l_lauout.addWidget(self.master_url) right_l_lauout.addWidget(self.master_ip) right_l_lauout.addWidget(self.listVeiw) right_l_lauout.addWidget(self.description) right_l_lauout.setStretch(0, 1) right_l_lauout.setStretch(1, 1) right_l_lauout.setStretch(2, 3) right_l_lauout.setStretch(3, 1) self.num_rows = len(self.checkbox) self.hlayout.addLayout(glayout) self.hlayout.addLayout(vlayout) self.hlayout.addLayout(right_l_lauout) self.setLayout(self.hlayout) self.callback_start = None self.callback_pause = None self.callback_record = None self.callback_reset = None self.callback_replay = None self.callback_replay_stop = None self.callback_delete = None self.callback_debug = None self.callback_import = None self.callback_export = None self.callback_list_clicked = None self.listVeiw_isClicked = False self.listVeiw_current_item = 0 self.listVeiw_len = 0 self.f = QFileDialog()
def init_sliders(self): sliderbox = self._widget.findChild(QLayout, 'Sliders') graph_button = QPushButton() graph_button.setCheckable(True) graph_button.setText("Graph Off") graph_button.toggle() graph_button.clicked.connect(self.set_graph_state) self.graph_button = graph_button firstCol = QVBoxLayout() firstCol.addWidget(graph_button) sliderbox.addLayout(firstCol) self.sliders = [] all_rows_layout = QVBoxLayout() chan_idx = 0 for num_channels_row in self.settings['num_channels']: row_layout = QHBoxLayout() for i in range(num_channels_row): idx = chan_idx * 1 slider_group = { 'slider_p': None, 'number_p': None, 'slider_v': None, 'number_v': None, 'on_off': None } layout_cluster = QVBoxLayout() slider_cluster = QHBoxLayout() label = QLabel() label.setText("Chan. %d" % (idx + 1)) label.setAlignment(Qt.AlignCenter) layout_cluster.addWidget(label) for j in range(2): layout = QVBoxLayout() layout.setAlignment(Qt.AlignHCenter) slider = QSlider(Qt.Vertical) slider.setMinimum(0) slider.setMaximum(255) slider.setValue( self.settings['valve_offsets'][chan_idx][j]) slider.setTickPosition(QSlider.TicksRight) slider.setTickInterval(5) spinbox = QSpinBox() spinbox.setRange(0, 255) spinbox.setValue( self.settings['valve_offsets'][chan_idx][j]) slider.valueChanged.connect(spinbox.setValue) spinbox.valueChanged.connect(slider.setValue) cb_function_curr = lambda value, idx=idx: self.send_slider_value( idx, value) slider.valueChanged.connect(cb_function_curr) label = QLabel() label.setAlignment(Qt.AlignCenter) if j == 0: slider_group['slider_p'] = slider slider_group['number_p'] = spinbox label.setText("P") else: slider_group['slider_v'] = slider slider_group['number_v'] = spinbox label.setText("V") labelmax = QLabel() labelmax.setAlignment(Qt.AlignCenter) labelmax.setText("255") labelmin = QLabel() labelmin.setAlignment(Qt.AlignCenter) labelmin.setText("0") layout.addWidget(label) layout.addWidget(labelmax) layout.addWidget(slider, Qt.AlignHCenter) layout.addWidget(labelmin) layout.addWidget(spinbox, Qt.AlignHCenter) layout.setAlignment(slider, Qt.AlignHCenter) layout.setAlignment(spinbox, Qt.AlignHCenter) slider_cluster.addLayout(layout) on_button = QPushButton() on_button.setCheckable(True) on_button.setText("Off") if self.settings['channel_states'][chan_idx]: on_button.toggle() on_button.setText("On") on_button.clicked.connect( lambda state, idx=idx: self.send_channel_state(idx, state)) slider_group['on_off'] = on_button layout_cluster.addLayout(slider_cluster) layout_cluster.addWidget(on_button) row_layout.addLayout(layout_cluster) row_layout.addSpacing(20) self.sliders.append(slider_group) chan_idx += 1 all_rows_layout.addLayout(row_layout) sliderbox.addLayout(all_rows_layout)
def init_sliders(self): sliderbox = self._widget.findChild(QLayout, 'Sliders') firstCol = QVBoxLayout() graph_button = QPushButton() graph_button.setCheckable(True) graph_button.setText("Graph Off") graph_button.toggle() graph_button.clicked.connect(self.set_graph_state) reset_button = QPushButton() reset_button.setCheckable(False) reset_button.setText("Reset") reset_button.clicked.connect(self.set_reset) self.graph_button = graph_button self.reset_button = reset_button firstCol.addWidget(graph_button) firstCol.addWidget(reset_button) firstCol.setAlignment(graph_button, Qt.AlignVCenter) firstCol.setAlignment(reset_button, Qt.AlignVCenter) zero_button = QPushButton() zero_button.setCheckable(False) zero_button.setText("Set All Zero") zero_button.clicked.connect(self.set_pressure_zero) self.zero_button = zero_button firstCol.addWidget(zero_button) firstCol.setAlignment(zero_button, Qt.AlignVCenter) transition_box = QVBoxLayout() label = QLabel() label.setAlignment(Qt.AlignCenter) label.setText("Transition Time") spinbox = QDoubleSpinBox() spinbox.setMinimum(0) spinbox.setMaximum(10) spinbox.setValue(self.settings['transitions']) spinbox.setDecimals(1) spinbox.setSingleStep(0.1) spinbox.setSuffix(" sec") spinbox.valueChanged.connect(self.set_transition_value) transition_box.addWidget(label) transition_box.addWidget(spinbox) transition_box.setAlignment(label, Qt.AlignBottom) transition_box.setAlignment(spinbox, Qt.AlignTop) firstCol.addLayout(transition_box) self.sliders = [] sliderbox.addLayout(firstCol) all_rows_layout = QVBoxLayout() chan_idx = 0 for num_channels_row in self.settings['num_channels']: row_layout = QHBoxLayout() for i in range(num_channels_row): idx = chan_idx * 1 slider_group = {'slider': None, 'number': None, 'on_off': None} layout_cluster = QVBoxLayout() layout = QVBoxLayout() layout.setAlignment(Qt.AlignHCenter) slider = QSlider(Qt.Vertical) slider.setMinimum(self.settings['min_pressure'][idx] * 10.0) slider.setMaximum(self.settings['max_pressure'][idx] * 10.0) slider.setValue(0) slider.setTickPosition(QSlider.TicksRight) slider.setTickInterval(20) spinbox = QDoubleSpinBox() spinbox.setMinimum(self.settings['min_pressure'][idx]) spinbox.setMaximum(self.settings['max_pressure'][idx]) spinbox.setValue(0) spinbox.setDecimals(1) spinbox.setSingleStep(0.1) cb_function_curr = lambda value, idx=idx, slider=False: self.send_slider_value( idx, value, slider) cb_function_curr2 = lambda value, idx=idx, slider=True: self.send_slider_value( idx, value, slider) slider.valueChanged.connect(cb_function_curr2) spinbox.valueChanged.connect(cb_function_curr) labelmax = QLabel() labelmax.setAlignment(Qt.AlignCenter) labelmax.setText("%0.1f" % (self.settings['max_pressure'][idx])) labelmin = QLabel() labelmin.setAlignment(Qt.AlignCenter) labelmin.setText("%0.1f" % (self.settings['min_pressure'][idx])) layout.addWidget(labelmax) layout.addWidget(slider) layout.addWidget(labelmin) layout.addWidget(spinbox) layout.setAlignment(slider, Qt.AlignHCenter) layout.setAlignment(spinbox, Qt.AlignHCenter) label = QLabel() label.setText("Chan. %d" % (chan_idx + 1)) label.setAlignment(Qt.AlignCenter) layout_cluster.addWidget(label) layout_cluster.addLayout(layout) slider_group['slider'] = slider slider_group['number'] = spinbox on_button = QPushButton() on_button.setCheckable(True) on_button.setText("Off") if self.settings['channel_states'][idx]: on_button.toggle() on_button.setText("On") on_button.clicked.connect( lambda state, idx=idx: self.send_channel_state(idx, state)) slider_group['on_off'] = on_button layout_cluster.addWidget(on_button) row_layout.addLayout(layout_cluster) row_layout.addSpacing(20) self.sliders.append(slider_group) chan_idx += 1 all_rows_layout.addLayout(row_layout) sliderbox.addLayout(all_rows_layout)
def init_sliders(self): sliderbox = self._widget.findChild(QLayout, 'Sliders') graph_button = QPushButton() graph_button.setCheckable(True) graph_button.setText("Graph Off") graph_button.toggle() graph_button.clicked.connect(self.set_graph_state) self.graph_button = graph_button firstCol = QVBoxLayout() firstCol.addWidget(graph_button) sliderbox.addLayout(firstCol) self.sliders = [] all_rows_layout = QVBoxLayout() chan_idx = 0 for num_channels_row in self.settings['num_channels']: row_layout = QHBoxLayout() for i in range(num_channels_row): idx = chan_idx * 1 slider_group = { 'slider_p': None, 'number_p': None, 'slider_i': None, 'number_i': None, 'slider_d': None, 'number_d': None, 'on_off': None } layout_cluster = QVBoxLayout() slider_cluster = QHBoxLayout() label = QLabel() label.setText("Chan. %d" % (idx + 1)) label.setAlignment(Qt.AlignCenter) layout_cluster.addWidget(label) for j in range(3): layout = QVBoxLayout() layout.setAlignment(Qt.AlignHCenter) if j == 0: maxrange = 1.0 elif j == 1: maxrange = 10 elif j == 2: maxrange = 10 slider = QSlider(Qt.Vertical) slider.setMinimum(0) slider.setMaximum(maxrange * 100) slider.setValue(self.settings['pid_gains'][chan_idx][j] * 100) slider.setTickPosition(QSlider.TicksRight) slider.setTickInterval(maxrange / 100.0) spinbox = QDoubleSpinBox() spinbox.setMinimum(0) spinbox.setMaximum(maxrange) spinbox.setValue(self.settings['pid_gains'][chan_idx][j]) spinbox.setDecimals(2) spinbox.setSingleStep(maxrange / 100.0) cb_function_number = lambda value, idx=idx, gain_idx=j, slider=False: self.send_slider_value( idx, gain_idx, value, slider) cb_function_slider = lambda value, idx=idx, gain_idx=j, slider=True: self.send_slider_value( idx, gain_idx, value, slider) slider.valueChanged.connect(cb_function_slider) spinbox.valueChanged.connect(cb_function_number) label = QLabel() label.setAlignment(Qt.AlignCenter) if j == 0: slider_group['slider_p'] = slider slider_group['number_p'] = spinbox label.setText("P") elif j == 1: slider_group['slider_i'] = slider slider_group['number_i'] = spinbox label.setText("I") elif j == 2: slider_group['slider_d'] = slider slider_group['number_d'] = spinbox label.setText("D") labelmax = QLabel() labelmax.setAlignment(Qt.AlignCenter) labelmax.setText("%0.1f" % (maxrange)) labelmin = QLabel() labelmin.setAlignment(Qt.AlignCenter) labelmin.setText("0") layout.addWidget(label) layout.addWidget(labelmax) layout.addWidget(slider, Qt.AlignHCenter) layout.addWidget(labelmin) layout.addWidget(spinbox, Qt.AlignHCenter) layout.setAlignment(slider, Qt.AlignHCenter) layout.setAlignment(spinbox, Qt.AlignHCenter) slider_cluster.addLayout(layout) on_button = QPushButton() on_button.setCheckable(True) on_button.setText("Off") if self.settings['channel_states'][chan_idx]: on_button.toggle() on_button.setText("On") on_button.clicked.connect( lambda state, idx=idx: self.send_channel_state(idx, state)) slider_group['on_off'] = on_button layout_cluster.addLayout(slider_cluster) layout_cluster.addWidget(on_button) row_layout.addLayout(layout_cluster) row_layout.addSpacing(20) self.sliders.append(slider_group) chan_idx += 1 all_rows_layout.addLayout(row_layout) sliderbox.addLayout(all_rows_layout)
def init_sliders(self): sliderbox = self._widget.findChild(QLayout,'Sliders') firstCol = QVBoxLayout() graph_button=QPushButton() graph_button.setCheckable(True) graph_button.setText("Graph Off") graph_button.toggle() graph_button.clicked.connect(self.set_graph_state) self.graph_button = graph_button reset_button=QPushButton() reset_button.setCheckable(False) reset_button.setText("Reset") reset_button.clicked.connect(self.set_reset) self.graph_button = graph_button self.reset_button = reset_button firstCol.addWidget(graph_button) firstCol.addWidget(reset_button) firstCol.addWidget(graph_button) firstCol.setAlignment(graph_button,Qt.AlignVCenter) zero_button=QPushButton() zero_button.setCheckable(False) zero_button.setText("Set All Zero") zero_button.clicked.connect(self.set_pressure_zero) self.zero_button = zero_button firstCol.addWidget(zero_button) firstCol.setAlignment(zero_button,Qt.AlignVCenter) transition_box = QVBoxLayout() label = QLabel() label.setAlignment(Qt.AlignCenter) label.setText("Transition Time") spinbox = QDoubleSpinBox() spinbox.setMinimum(0) spinbox.setMaximum(10) spinbox.setValue(self.settings['transitions']) spinbox.setDecimals(1) spinbox.setSingleStep(0.1) spinbox.setSuffix(" sec") spinbox.valueChanged.connect(self.set_transition_value) transition_box.addWidget(label) transition_box.addWidget(spinbox) transition_box.setAlignment(label,Qt.AlignBottom) transition_box.setAlignment(spinbox,Qt.AlignTop) firstCol.addLayout(transition_box) self.sliders = [] sliderbox.addLayout(firstCol) all_rows_layout = QVBoxLayout() g_idx = 0 for row in self.settings['gui_config']: num_groups_row = len(row) row_layout = QHBoxLayout() for gr_idx, s_group in enumerate(row): g_channels = s_group['channels'] g_layout = s_group['layout'] if 'horiz' in g_layout: group_layout = QHBoxLayout() else: group_layout = QVBoxLayout() control_group = {'sliders': [], 'on_off': None} label = QLabel() label.setText("Group. %d"%(g_idx+1)) label.setAlignment(Qt.AlignCenter) group_layout.addWidget(label) for c_idx, s_idx in enumerate(g_channels): idx = s_idx*1 slider_group={'slider':None, 'number':None} layout_cluster = QVBoxLayout() labelfirst = QLabel() labelfirst.setAlignment(Qt.AlignCenter) labellast = QLabel() labellast.setAlignment(Qt.AlignCenter) layout = QVBoxLayout() if 'diff' in g_layout and c_idx == 0: sublayout=QHBoxLayout() layout.setAlignment(Qt.AlignVCenter) slider = QSlider(Qt.Horizontal) slider.setMinimum(-100) slider.setMaximum(100) slider.setValue(0) slider.setTickPosition(QSlider.TicksRight) slider.setTickInterval(20) spinbox = QDoubleSpinBox() spinbox.setMinimum(-10) spinbox.setMaximum(10) spinbox.setValue(0) spinbox.setDecimals(1) spinbox.setSingleStep(0.1) labellast.setText("%0.1f"%(10)) # These are flipped becasue of order labelfirst.setText("%0.1f"%(-10)) max_label = labellast min_label = labelfirst else: layout.setAlignment(Qt.AlignHCenter) slider = QSlider(Qt.Vertical) slider.setMinimum(self.settings['min_pressure'][idx]*10.0) slider.setMaximum(self.settings['max_pressure'][idx]*10.0) slider.setValue(0) slider.setTickPosition(QSlider.TicksRight) slider.setTickInterval(20) spinbox = QDoubleSpinBox() spinbox.setMinimum(self.settings['min_pressure'][idx]) spinbox.setMaximum(self.settings['max_pressure'][idx]) spinbox.setValue(0) spinbox.setDecimals(1) spinbox.setSingleStep(0.1) labelfirst.setText("%0.1f"%(self.settings['max_pressure'][idx])) labellast.setText("%0.1f"%(self.settings['min_pressure'][idx])) max_label = labelfirst min_label = labellast cb_function_number = lambda value, g_idx=g_idx, s_idx=c_idx, slider=False: self.send_slider_value(g_idx,s_idx,value,slider) cb_function_slider = lambda value, g_idx=g_idx, s_idx=c_idx, slider=True: self.send_slider_value(g_idx,s_idx,value,slider) slider.valueChanged.connect(cb_function_slider) spinbox.valueChanged.connect(cb_function_number) if 'diff' in g_layout and c_idx == 0: sublayout.addWidget(labelfirst) sublayout.addWidget(slider) sublayout.addWidget(labellast) layout.addWidget(spinbox) layout.addLayout(sublayout) else: layout.addWidget(labelfirst) layout.addWidget(slider) layout.addWidget(labellast) layout.addWidget(spinbox) layout.setAlignment(slider, Qt.AlignHCenter) layout.setAlignment(spinbox, Qt.AlignHCenter) layout_cluster.addLayout(layout) slider_group['slider'] = slider slider_group['number'] = spinbox slider_group['max_label'] = max_label slider_group['min_label'] = min_label control_group['sliders'].append(slider_group) group_layout.addLayout(layout_cluster) on_button=QPushButton() on_button.setCheckable(True) on_button.setText("Off") if self.settings['channel_states'][idx]: on_button.toggle() on_button.setText("On") on_button.clicked.connect(lambda state, g_idx=g_idx: self.send_channel_state(g_idx,state)) group_layout.addWidget(on_button) row_layout.addLayout(group_layout) row_layout.addSpacing(20) control_group['on_off'] = on_button self.sliders.append(control_group) g_idx+=1 all_rows_layout.addLayout(row_layout) sliderbox.addLayout(all_rows_layout)
def createEditor(self, parent, option, index): print option print index.column() indices = [2, 3, 4] if index.column() not in indices: return None print "create_edit" if index.column() == 3: widget = QWidget(parent) slider = QSlider(Qt.Horizontal, widget) text_edit = QLineEdit(widget) text_edit.setFocus() text_edit.selectAll() text_edit.setAlignment(Qt.AlignHCenter | Qt.AlignVCenter) hbox = QVBoxLayout() # slider.setMinimumWidth(400) # hbox.setMargin(0); hbox.setContentsMargins(2,1,2,1); # min_label = QLabel("min") # max_label = QLabel("max") # vbox.addWidget(min_label) hbox.addWidget(slider) hbox.addWidget(text_edit) # vbox.addWidget(max_label) widget.setLayout(hbox) # widget.setMinimumWidth(400) slider.setMinimumHeight(32) text_edit.setMinimumHeight(36) widget.setMinimumHeight(80) widget.setAutoFillBackground(True) widget.setStyleSheet(".QWidget { background:rgb(200, 200, 200); margin:0px; border:1px solid rgb(170, 170, 170); }") # parent.setMinimumWidth(300) row = index.row() imin = index.sibling(row, self._column_names.index("min")) imax = index.sibling(row, self._column_names.index("max")) smin = index.model().data(imin, Qt.EditRole) smax = index.model().data(imax, Qt.EditRole) fmin = 0 fmax = 100 def isFloat(s): try: float(s) return True except: return False if isFloat(smin): fmin = float(smin) if isFloat(smax): fmax = float(smax) print fmin, fmax slider.setMinimum(int(fmin * 100)) slider.setMaximum(int(fmax * 100)) slider.setMouseTracking(True) @Slot(int) def sliderValueChanged(value): text_edit.setText(str(float(value)/100.)) print "slider value changed to %d" % value text_edit.setFocus() text_edit.selectAll() pass @Slot() def sliderDown(): print "slider pressed" @Slot() def sliderUp(): print "slider released" @Slot() def editingFinished(): text = text_edit.text() value = float(text) nvalue = value nvalue = min(nvalue, fmax) nvalue = max(nvalue, fmin) # print "nvalue is", nvalue if value != nvalue: text_edit.setText(str(nvalue)) svalue = int(nvalue*100) print "text changed to %s" % text print "nvalue is", nvalue print "svalue is %d" % svalue slider.blockSignals(True) slider.setSliderPosition(svalue) slider.blockSignals(False) pass @Slot(str) def lineEditTextChanged(text): # text_edit.setText(str(value)) # slider.setSliderDown(True) # slider.sliderPressed.emit() print "setSliderDown" if not isFloat(text): return value = float(text) nvalue = value # nvalue = min(nvalue, fmax) # nvalue = max(nvalue, fmin) # print "nvalue is", nvalue if value != nvalue: text_edit.setText(str(nvalue)) svalue = int(nvalue*100) print "text changed to %s" % text print "nvalue is", nvalue print "svalue is %d" % svalue slider.blockSignals(True) slider.setSliderPosition(svalue) slider.blockSignals(False) pass slider.valueChanged.connect(sliderValueChanged) slider.sliderPressed.connect(sliderDown) slider.sliderReleased.connect(sliderUp) text_edit.textChanged.connect(lineEditTextChanged) text_edit.editingFinished.connect(editingFinished) text_edit.selectAll() text_edit.setFocus() rx = QRegExp("^-?([1-9]\d*|0)(\.\d*)?$") v = QRegExpValidator(rx) text_edit.setValidator(v) widget.setFocusProxy(text_edit) edt = widget else: edt = QLineEdit(parent) if index.column() == 2: edt.setAlignment(Qt.AlignRight | Qt.AlignVCenter) elif index.column() == 4: edt.setAlignment(Qt.AlignLeft | Qt.AlignVCenter) rx = QRegExp("^-?([1-9]\d*|0)(\.\d*)?$") v = QRegExpValidator(rx); edt.setValidator(v) # edt.setInputMask("#00000000") return edt