from pyqtgraph.Qt import QtCore, QtGui from pyqtgraph.python2_3 import asUnicode from .Parameter import Parameter, registerParameterType from .ParameterItem import ParameterItem from pyqtgraph.widgets.SpinBox import SpinBox from pyqtgraph.widgets.ColorButton import ColorButton #from pyqtgraph.widgets.GradientWidget import GradientWidget ## creates import loop import pyqtgraph as pg import pyqtgraph.pixmaps as pixmaps import os from pyqtgraph.pgcollections import OrderedDict class WidgetParameterItem(ParameterItem): """ ParameterTree item with: * label in second column for displaying value * simple widget for editing value (displayed instead of label when item is selected) * button that resets value to default ================= ============================================================= Registered Types: int Displays a :class:`SpinBox ` in integer mode. float Displays a :class:`SpinBox `. bool Displays a QCheckBox str Displays a QLineEdit color Displays a :class:`ColorButton ` colormap Displays a :class:`GradientWidget ` ================= ============================================================= This class can be subclassed by overriding makeWidget() to provide a custom widget. """ def __init__(self, param, depth): ParameterItem.__init__(self, param, depth) self.hideWidget = True ## hide edit widget, replace with label when not selected ## set this to False to keep the editor widget always visible ## build widget into column 1 with a display label and default button. w = self.makeWidget() self.widget = w self.eventProxy = EventProxy(w, self.widgetEventFilter) opts = self.param.opts if 'tip' in opts: w.setToolTip(opts['tip']) self.defaultBtn = QtGui.QPushButton() self.defaultBtn.setFixedWidth(20) self.defaultBtn.setFixedHeight(20) modDir = os.path.dirname(__file__) self.defaultBtn.setIcon(QtGui.QIcon(pixmaps.getPixmap('default'))) self.defaultBtn.clicked.connect(self.defaultClicked) self.displayLabel = QtGui.QLabel() layout = QtGui.QHBoxLayout() layout.setContentsMargins(0, 0, 0, 0) layout.setSpacing(2) layout.addWidget(w) layout.addWidget(self.displayLabel) layout.addWidget(self.defaultBtn) self.layoutWidget = QtGui.QWidget() self.layoutWidget.setLayout(layout) if w.sigChanged is not None: w.sigChanged.connect(self.widgetValueChanged) if hasattr(w, 'sigChanging'): w.sigChanging.connect(self.widgetValueChanging) ## update value shown in widget. if opts.get('value', None) is not None: self.valueChanged(self, opts['value'], force=True) else: ## no starting value was given; use whatever the widget has self.widgetValueChanged() def makeWidget(self): """ Return a single widget that should be placed in the second tree column. The widget must be given three attributes: ========== ============================================================ sigChanged a signal that is emitted when the widget's value is changed value a function that returns the value setValue a function that sets the value ========== ============================================================ This is a good function to override in subclasses. """ opts = self.param.opts t = opts['type'] if t == 'int': defs = { 'value': 0, 'min': None, 'max': None, 'int': True, 'step': 1.0, 'minStep': 1.0, 'dec': False, 'siPrefix': False, 'suffix': '' } defs.update(opts) if 'limits' in opts: defs['bounds'] = opts['limits'] w = SpinBox() w.setOpts(**defs) w.sigChanged = w.sigValueChanged w.sigChanging = w.sigValueChanging elif t == 'float': defs = { 'value': 0, 'min': None, 'max': None, 'step': 1.0, 'dec': False, 'siPrefix': False, 'suffix': '' } defs.update(opts) if 'limits' in opts: defs['bounds'] = opts['limits'] w = SpinBox() w.setOpts(**defs) w.sigChanged = w.sigValueChanged w.sigChanging = w.sigValueChanging elif t == 'bool': w = QtGui.QCheckBox() w.sigChanged = w.toggled w.value = w.isChecked w.setValue = w.setChecked self.hideWidget = False elif t == 'str': w = QtGui.QLineEdit() w.sigChanged = w.editingFinished w.value = lambda: asUnicode(w.text()) w.setValue = lambda v: w.setText(asUnicode(v)) w.sigChanging = w.textChanged elif t == 'color': w = ColorButton() w.sigChanged = w.sigColorChanged w.sigChanging = w.sigColorChanging w.value = w.color w.setValue = w.setColor self.hideWidget = False w.setFlat(True) elif t == 'colormap': from pyqtgraph.widgets.GradientWidget import GradientWidget ## need this here to avoid import loop w = GradientWidget(orientation='bottom') w.sigChanged = w.sigGradientChangeFinished w.sigChanging = w.sigGradientChanged w.value = w.colorMap w.setValue = w.setColorMap self.hideWidget = False else: raise Exception("Unknown type '%s'" % asUnicode(t)) return w def widgetEventFilter(self, obj, ev): ## filter widget's events ## catch TAB to change focus ## catch focusOut to hide editor if ev.type() == ev.KeyPress: if ev.key() == QtCore.Qt.Key_Tab: self.focusNext(forward=True) return True ## don't let anyone else see this event elif ev.key() == QtCore.Qt.Key_Backtab: self.focusNext(forward=False) return True ## don't let anyone else see this event #elif ev.type() == ev.FocusOut: #self.hideEditor() return False def setFocus(self): self.showEditor() def isFocusable(self): return self.param.writable() def valueChanged(self, param, val, force=False): ## called when the parameter's value has changed ParameterItem.valueChanged(self, param, val) self.widget.sigChanged.disconnect(self.widgetValueChanged) try: if force or val != self.widget.value(): self.widget.setValue(val) self.updateDisplayLabel(val) ## always make sure label is updated, even if values match! finally: self.widget.sigChanged.connect(self.widgetValueChanged) self.updateDefaultBtn() def updateDefaultBtn(self): ## enable/disable default btn self.defaultBtn.setEnabled(not self.param.valueIsDefault() and self.param.writable()) def updateDisplayLabel(self, value=None): """Update the display label to reflect the value of the parameter.""" if value is None: value = self.param.value() opts = self.param.opts if isinstance(self.widget, QtGui.QAbstractSpinBox): text = asUnicode(self.widget.lineEdit().text()) elif isinstance(self.widget, QtGui.QComboBox): text = self.widget.currentText() else: text = asUnicode(value) self.displayLabel.setText(text) def widgetValueChanged(self): ## called when the widget's value has been changed by the user val = self.widget.value() newVal = self.param.setValue(val) def widgetValueChanging(self): """ Called when the widget's value is changing, but not finalized. For example: editing text before pressing enter or changing focus. """ pass def selected(self, sel): """Called when this item has been selected (sel=True) OR deselected (sel=False)""" ParameterItem.selected(self, sel) if self.widget is None: return if sel and self.param.writable(): self.showEditor() elif self.hideWidget: self.hideEditor() def showEditor(self): self.widget.show() self.displayLabel.hide() self.widget.setFocus(QtCore.Qt.OtherFocusReason) def hideEditor(self): self.widget.hide() self.displayLabel.show() def limitsChanged(self, param, limits): """Called when the parameter's limits have changed""" ParameterItem.limitsChanged(self, param, limits) t = self.param.opts['type'] if t == 'int' or t == 'float': self.widget.setOpts(bounds=limits) else: return ## don't know what to do with any other types.. def defaultChanged(self, param, value): self.updateDefaultBtn() def treeWidgetChanged(self): """Called when this item is added or removed from a tree.""" ParameterItem.treeWidgetChanged(self) ## add all widgets for this item into the tree if self.widget is not None: tree = self.treeWidget() if tree is None: return tree.setItemWidget(self, 1, self.layoutWidget) self.displayLabel.hide() self.selected(False) def defaultClicked(self): self.param.setToDefault() def optsChanged(self, param, opts): """Called when any options are changed that are not name, value, default, or limits""" #print "opts changed:", opts ParameterItem.optsChanged(self, param, opts) if 'readonly' in opts: self.updateDefaultBtn() ## If widget is a SpinBox, pass options straight through if isinstance(self.widget, SpinBox): if 'units' in opts and 'suffix' not in opts: opts['suffix'] = opts['units'] self.widget.setOpts(**opts) self.updateDisplayLabel() class EventProxy(QtCore.QObject): def __init__(self, qobj, callback): QtCore.QObject.__init__(self) self.callback = callback qobj.installEventFilter(self) def eventFilter(self, obj, ev): return self.callback(obj, ev) class SimpleParameter(Parameter): itemClass = WidgetParameterItem def __init__(self, *args, **kargs): Parameter.__init__(self, *args, **kargs) ## override a few methods for color parameters if self.opts['type'] == 'color': self.value = self.colorValue self.saveState = self.saveColorState def colorValue(self): return pg.mkColor(Parameter.value(self)) def saveColorState(self): state = Parameter.saveState(self) state['value'] = pg.colorTuple(self.value()) return state registerParameterType('int', SimpleParameter, override=True) registerParameterType('float', SimpleParameter, override=True) registerParameterType('bool', SimpleParameter, override=True) registerParameterType('str', SimpleParameter, override=True) registerParameterType('color', SimpleParameter, override=True) registerParameterType('colormap', SimpleParameter, override=True) class GroupParameterItem(ParameterItem): """ Group parameters are used mainly as a generic parent item that holds (and groups!) a set of child parameters. It also provides a simple mechanism for displaying a button or combo that can be used to add new parameters to the group. """ def __init__(self, param, depth): ParameterItem.__init__(self, param, depth) self.updateDepth(depth) self.addItem = None if 'addText' in param.opts: addText = param.opts['addText'] if 'addList' in param.opts: self.addWidget = QtGui.QComboBox() self.addWidget.setSizeAdjustPolicy(QtGui.QComboBox.AdjustToContents) self.updateAddList() self.addWidget.currentIndexChanged.connect(self.addChanged) else: self.addWidget = QtGui.QPushButton(addText) self.addWidget.clicked.connect(self.addClicked) w = QtGui.QWidget() l = QtGui.QHBoxLayout() l.setContentsMargins(0,0,0,0) w.setLayout(l) l.addWidget(self.addWidget) l.addStretch() #l.addItem(QtGui.QSpacerItem(200, 10, QtGui.QSizePolicy.Expanding, QtGui.QSizePolicy.Minimum)) self.addWidgetBox = w self.addItem = QtGui.QTreeWidgetItem([]) self.addItem.setFlags(QtCore.Qt.ItemIsEnabled) ParameterItem.addChild(self, self.addItem) def updateDepth(self, depth): ## Change item's appearance based on its depth in the tree ## This allows highest-level groups to be displayed more prominently. if depth == 0: for c in [0,1]: self.setBackground(c, QtGui.QBrush(QtGui.QColor(100,100,100))) self.setForeground(c, QtGui.QBrush(QtGui.QColor(220,220,255))) font = self.font(c) font.setBold(True) font.setPointSize(font.pointSize()+1) self.setFont(c, font) self.setSizeHint(0, QtCore.QSize(0, 25)) else: for c in [0,1]: self.setBackground(c, QtGui.QBrush(QtGui.QColor(220,220,220))) font = self.font(c) font.setBold(True) #font.setPointSize(font.pointSize()+1) self.setFont(c, font) self.setSizeHint(0, QtCore.QSize(0, 20)) def addClicked(self): """Called when "add new" button is clicked The parameter MUST have an 'addNew' method defined. """ self.param.addNew() def addChanged(self): """Called when "add new" combo is changed The parameter MUST have an 'addNew' method defined. """ if self.addWidget.currentIndex() == 0: return typ = asUnicode(self.addWidget.currentText()) self.param.addNew(typ) self.addWidget.setCurrentIndex(0) def treeWidgetChanged(self): ParameterItem.treeWidgetChanged(self) self.treeWidget().setFirstItemColumnSpanned(self, True) if self.addItem is not None: self.treeWidget().setItemWidget(self.addItem, 0, self.addWidgetBox) self.treeWidget().setFirstItemColumnSpanned(self.addItem, True) def addChild(self, child): ## make sure added childs are actually inserted before add btn if self.addItem is not None: ParameterItem.insertChild(self, self.childCount()-1, child) else: ParameterItem.addChild(self, child) def optsChanged(self, param, changed): if 'addList' in changed: self.updateAddList() def updateAddList(self): self.addWidget.blockSignals(True) try: self.addWidget.clear() self.addWidget.addItem(self.param.opts['addText']) for t in self.param.opts['addList']: self.addWidget.addItem(t) finally: self.addWidget.blockSignals(False) class GroupParameter(Parameter): """ Group parameters are used mainly as a generic parent item that holds (and groups!) a set of child parameters. It also provides a simple mechanism for displaying a button or combo that can be used to add new parameters to the group. To enable this, the group must be initialized with the 'addText' option (the text will be displayed on a button which, when clicked, will cause addNew() to be called). If the 'addList' option is specified as well, then a dropdown-list of addable items will be displayed instead of a button. """ itemClass = GroupParameterItem def addNew(self, typ=None): """ This method is called when the user has requested to add a new item to the group. """ raise Exception("Must override this function in subclass.") def setAddList(self, vals): """Change the list of options available for the user to add to the group.""" self.setOpts(addList=vals) registerParameterType('group', GroupParameter, override=True) class ListParameterItem(WidgetParameterItem): """ WidgetParameterItem subclass providing comboBox that lets the user select from a list of options. """ def __init__(self, param, depth): self.targetValue = None WidgetParameterItem.__init__(self, param, depth) def makeWidget(self): opts = self.param.opts t = opts['type'] w = QtGui.QComboBox() w.setMaximumHeight(20) ## set to match height of spin box and line edit w.sigChanged = w.currentIndexChanged w.value = self.value w.setValue = self.setValue self.widget = w ## needs to be set before limits are changed self.limitsChanged(self.param, self.param.opts['limits']) if len(self.forward) > 0: self.setValue(self.param.value()) return w def value(self): key = asUnicode(self.widget.currentText()) return self.forward.get(key, None) def setValue(self, val): self.targetValue = val if val not in self.reverse[0]: self.widget.setCurrentIndex(0) else: key = self.reverse[1][self.reverse[0].index(val)] ind = self.widget.findText(key) self.widget.setCurrentIndex(ind) def limitsChanged(self, param, limits): # set up forward / reverse mappings for name:value if len(limits) == 0: limits = [''] ## Can never have an empty list--there is always at least a singhe blank item. self.forward, self.reverse = ListParameter.mapping(limits) try: self.widget.blockSignals(True) val = self.targetValue #asUnicode(self.widget.currentText()) self.widget.clear() for k in self.forward: self.widget.addItem(k) if k == val: self.widget.setCurrentIndex(self.widget.count()-1) self.updateDisplayLabel() finally: self.widget.blockSignals(False) class ListParameter(Parameter): itemClass = ListParameterItem def __init__(self, **opts): self.forward = OrderedDict() ## {name: value, ...} self.reverse = ([], []) ## ([value, ...], [name, ...]) ## Parameter uses 'limits' option to define the set of allowed values if 'values' in opts: opts['limits'] = opts['values'] if opts.get('limits', None) is None: opts['limits'] = [] Parameter.__init__(self, **opts) self.setLimits(opts['limits']) def setLimits(self, limits): self.forward, self.reverse = self.mapping(limits) Parameter.setLimits(self, limits) #print self.name(), self.value(), limits if len(self.reverse) > 0 and self.value() not in self.reverse[0]: self.setValue(self.reverse[0][0]) #def addItem(self, name, value=None): #if name in self.forward: #raise Exception("Name '%s' is already in use for this parameter" % name) #limits = self.opts['limits'] #if isinstance(limits, dict): #limits = limits.copy() #limits[name] = value #self.setLimits(limits) #else: #if value is not None: #raise Exception ## raise exception or convert to dict? #limits = limits[:] #limits.append(name) ## what if limits == None? @staticmethod def mapping(limits): ## Return forward and reverse mapping objects given a limit specification forward = OrderedDict() ## {name: value, ...} reverse = ([], []) ## ([value, ...], [name, ...]) if isinstance(limits, dict): for k, v in limits.items(): forward[k] = v reverse[0].append(v) reverse[1].append(k) else: for v in limits: n = asUnicode(v) forward[n] = v reverse[0].append(v) reverse[1].append(n) return forward, reverse registerParameterType('list', ListParameter, override=True) class ActionParameterItem(ParameterItem): def __init__(self, param, depth): ParameterItem.__init__(self, param, depth) self.layoutWidget = QtGui.QWidget() self.layout = QtGui.QHBoxLayout() self.layoutWidget.setLayout(self.layout) self.button = QtGui.QPushButton(param.name()) #self.layout.addSpacing(100) self.layout.addWidget(self.button) self.layout.addStretch() self.button.clicked.connect(self.buttonClicked) param.sigNameChanged.connect(self.paramRenamed) self.setText(0, '') def treeWidgetChanged(self): ParameterItem.treeWidgetChanged(self) tree = self.treeWidget() if tree is None: return tree.setFirstItemColumnSpanned(self, True) tree.setItemWidget(self, 0, self.layoutWidget) def paramRenamed(self, param, name): self.button.setText(name) def buttonClicked(self): self.param.activate() class ActionParameter(Parameter): """Used for displaying a button within the tree.""" itemClass = ActionParameterItem sigActivated = QtCore.Signal(object) def activate(self): self.sigActivated.emit(self) self.emitStateChanged('activated', None) registerParameterType('action', ActionParameter, override=True) class TextParameterItem(WidgetParameterItem): def __init__(self, param, depth): WidgetParameterItem.__init__(self, param, depth) self.hideWidget = False self.subItem = QtGui.QTreeWidgetItem() self.addChild(self.subItem) def treeWidgetChanged(self): ## TODO: fix so that superclass method can be called ## (WidgetParameter should just natively support this style) #WidgetParameterItem.treeWidgetChanged(self) self.treeWidget().setFirstItemColumnSpanned(self.subItem, True) self.treeWidget().setItemWidget(self.subItem, 0, self.textBox) # for now, these are copied from ParameterItem.treeWidgetChanged self.setHidden(not self.param.opts.get('visible', True)) self.setExpanded(self.param.opts.get('expanded', True)) def makeWidget(self): self.textBox = QtGui.QTextEdit() self.textBox.setMaximumHeight(100) self.textBox.value = lambda: str(self.textBox.toPlainText()) self.textBox.setValue = self.textBox.setPlainText self.textBox.sigChanged = self.textBox.textChanged return self.textBox class TextParameter(Parameter): """Editable string; displayed as large text box in the tree.""" itemClass = TextParameterItem registerParameterType('text', TextParameter, override=True)