# -*- coding: utf-8 -*- from pyqtgraph.Qt import QtCore, QtGui from pyqtgraph.widgets.SpinBox import SpinBox #from pyqtgraph.SignalProxy import SignalProxy from pyqtgraph.WidgetGroup import WidgetGroup #from ColorMapper import ColorMapper from ..Node import Node import numpy as np from pyqtgraph.widgets.ColorButton import ColorButton try: import metaarray HAVE_METAARRAY = True except: HAVE_METAARRAY = False def generateUi(opts): """Convenience function for generating common UI types""" widget = QtGui.QWidget() l = QtGui.QFormLayout() l.setSpacing(0) widget.setLayout(l) ctrls = {} row = 0 for opt in opts: if len(opt) == 2: k, t = opt o = {} elif len(opt) == 3: k, t, o = opt else: raise Exception("Widget specification must be (name, type) or (name, type, {opts})") if t == 'intSpin': w = QtGui.QSpinBox() if 'max' in o: w.setMaximum(o['max']) if 'min' in o: w.setMinimum(o['min']) if 'value' in o: w.setValue(o['value']) elif t == 'doubleSpin': w = QtGui.QDoubleSpinBox() if 'max' in o: w.setMaximum(o['max']) if 'min' in o: w.setMinimum(o['min']) if 'value' in o: w.setValue(o['value']) elif t == 'spin': w = SpinBox() w.setOpts(**o) elif t == 'check': w = QtGui.QCheckBox() if 'checked' in o: w.setChecked(o['checked']) elif t == 'combo': w = QtGui.QComboBox() for i in o['values']: w.addItem(i) #elif t == 'colormap': #w = ColorMapper() elif t == 'color': w = ColorButton() else: raise Exception("Unknown widget type '%s'" % str(t)) if 'tip' in o: w.setToolTip(o['tip']) w.setObjectName(k) l.addRow(k, w) if o.get('hidden', False): w.hide() label = l.labelForField(w) label.hide() ctrls[k] = w w.rowNum = row row += 1 group = WidgetGroup(widget) return widget, group, ctrls class CtrlNode(Node): """Abstract class for nodes with auto-generated control UI""" sigStateChanged = QtCore.Signal(object) def __init__(self, name, ui=None, terminals=None): if ui is None: if hasattr(self, 'uiTemplate'): ui = self.uiTemplate else: ui = [] if terminals is None: terminals = {'In': {'io': 'in'}, 'Out': {'io': 'out', 'bypass': 'In'}} Node.__init__(self, name=name, terminals=terminals) self.ui, self.stateGroup, self.ctrls = generateUi(ui) self.stateGroup.sigChanged.connect(self.changed) def ctrlWidget(self): return self.ui def changed(self): self.update() self.sigStateChanged.emit(self) def process(self, In, display=True): out = self.processData(In) return {'Out': out} def saveState(self): state = Node.saveState(self) state['ctrl'] = self.stateGroup.state() return state def restoreState(self, state): Node.restoreState(self, state) if self.stateGroup is not None: self.stateGroup.setState(state.get('ctrl', {})) def hideRow(self, name): w = self.ctrls[name] l = self.ui.layout().labelForField(w) w.hide() l.hide() def showRow(self, name): w = self.ctrls[name] l = self.ui.layout().labelForField(w) w.show() l.show() def metaArrayWrapper(fn): def newFn(self, data, *args, **kargs): if HAVE_METAARRAY and isinstance(data, metaarray.MetaArray): d1 = fn(self, data.view(np.ndarray), *args, **kargs) info = data.infoCopy() if d1.shape != data.shape: for i in range(data.ndim): if 'values' in info[i]: info[i]['values'] = info[i]['values'][:d1.shape[i]] return metaarray.MetaArray(d1, info=info) else: return fn(self, data, *args, **kargs) return newFn