pyqtgraph/parametertree/parameterTypes.py
Luke Campagnola 81a32b0d1e Cleaned up and centralized export functionality
Moved GraphicsScene to its own directory, added exportDialog
Removed old export options from PlotItem / ViewBox (will re-enable once they are working again)
2012-03-11 11:59:45 -04:00

490 lines
17 KiB
Python

from pyqtgraph.Qt import QtCore, QtGui
from Parameter import Parameter, registerParameterType
from ParameterItem import ParameterItem
from pyqtgraph.widgets.SpinBox import SpinBox
from pyqtgraph.widgets.ColorButton import ColorButton
import pyqtgraph as pg
import os, collections
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
- provides SpinBox, CheckBox, LineEdit, and ColorButton types
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(os.path.join(modDir, 'default.png')))
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.
self.valueChanged(self, opts['value'], force=True)
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: unicode(w.text())
w.setValue = lambda v: w.setText(unicode(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)
else:
raise Exception("Unknown type '%s'" % unicode(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 = unicode(self.widget.lineEdit().text())
elif isinstance(self.widget, QtGui.QComboBox):
text = self.widget.currentText()
else:
text = unicode(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)
if self.opts['type'] == 'color':
self.value = self.colorValue
def colorValue(self):
return pg.mkColor(Parameter.value(self))
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)
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)
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))
self.addItem = None
if 'addText' in param.opts:
addText = param.opts['addText']
if 'addList' in param.opts:
self.addWidget = QtGui.QComboBox()
self.addWidget.addItem(addText)
for t in param.opts['addList']:
self.addWidget.addItem(t)
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.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 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 = unicode(self.addWidget.currentText())
self.param.addNew(typ)
self.addWidget.setCurrentIndex(0)
def treeWidgetChanged(self):
ParameterItem.treeWidgetChanged(self)
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)
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.
"""
type = 'group'
itemClass = GroupParameterItem
def addNew(self, typ=None):
raise Exception("Must override this function in subclass.")
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):
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):
#vals = self.param.opts['limits']
key = unicode(self.widget.currentText())
#if isinstance(vals, dict):
#return vals[key]
#else:
#return key
print key, self.forward
return self.forward[key]
def setValue(self, val):
#vals = self.param.opts['limits']
#if isinstance(vals, dict):
#key = None
#for k,v in vals.iteritems():
#if v == val:
#key = k
#if key is None:
#raise Exception("Value '%s' not allowed." % val)
#else:
#key = unicode(val)
if val not in self.reverse:
self.widget.setCurrentIndex(0)
else:
key = self.reverse[val]
ind = self.widget.findText(key)
self.widget.setCurrentIndex(ind)
def limitsChanged(self, param, limits):
# set up forward / reverse mappings for name:value
self.forward = collections.OrderedDict() ## name: value
self.reverse = collections.OrderedDict() ## value: name
if isinstance(limits, dict):
for k, v in limits.iteritems():
self.forward[k] = v
self.reverse[v] = k
else:
for v in limits:
n = unicode(v)
self.forward[n] = v
self.reverse[v] = n
try:
self.widget.blockSignals(True)
val = unicode(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)
finally:
self.widget.blockSignals(False)
class ListParameter(Parameter):
type = 'list'
itemClass = ListParameterItem
def __init__(self, **opts):
self.forward = collections.OrderedDict() ## name: value
self.reverse = collections.OrderedDict() ## value: name
if 'values' in opts:
opts['limits'] = opts['values']
Parameter.__init__(self, **opts)
def setLimits(self, limits):
self.forward = collections.OrderedDict() ## name: value
self.reverse = collections.OrderedDict() ## value: name
if isinstance(limits, dict):
for k, v in limits.iteritems():
self.forward[k] = v
self.reverse[v] = k
else:
for v in limits:
n = unicode(v)
self.forward[n] = v
self.reverse[v] = n
Parameter.setLimits(self, limits)
#print self.name(), self.value(), limits
if self.value() not in self.reverse and len(self.reverse) > 0:
self.setValue(self.reverse.keys()[0])
registerParameterType('list', ListParameter, override=True)