def __init__(self,**kwd):
PlotArea.__init__(self)
self.x = 0
self.y = 0
self.width = 100
self.height = 100
self.data = [1,2.3,1.7,4.2]
self.labels = None # or list of strings
self.startAngle = 90
self.direction = "clockwise"
self.simpleLabels = 1
self.checkLabelOverlap = 0
self.pointerLabelMode = None
self.sameRadii = False
self.orderMode = 'fixed'
self.xradius = self.yradius = None
self.slices = TypedPropertyCollection(WedgeProperties)
self.slices[0].fillColor = colors.darkcyan
self.slices[1].fillColor = colors.blueviolet
self.slices[2].fillColor = colors.blue
self.slices[3].fillColor = colors.cyan
self.slices[4].fillColor = colors.pink
self.slices[5].fillColor = colors.magenta
self.slices[6].fillColor = colors.yellow
def __init__(self,**kwd):
PlotArea.__init__(self)
self.x = 0
self.y = 0
self.width = 100
self.height = 100
self.data = [1,2.3,1.7,4.2]
self.labels = None # or list of strings
self.startAngle = 90
self.direction = "clockwise"
self.simpleLabels = 1
self.checkLabelOverlap = 0
self.pointerLabelMode = None
self.sameRadii = False
self.orderMode = 'fixed'
self.xradius = self.yradius = None
self.slices = TypedPropertyCollection(WedgeProperties)
self.slices[0].fillColor = colors.darkcyan
self.slices[1].fillColor = colors.blueviolet
self.slices[2].fillColor = colors.blue
self.slices[3].fillColor = colors.cyan
self.slices[4].fillColor = colors.pink
self.slices[5].fillColor = colors.magenta
self.slices[6].fillColor = colors.yellow
def __init__(self, _value='', **kw):
PlotArea.__init__(self)
del self.__dict__['width']
del self.__dict__['height']
self.x = self.y = 0
kw.setdefault('value', _value)
self._BCC.__init__(self, **kw)
def __init__(self,_value='',**kw):
PlotArea.__init__(self)
del self.__dict__['width']
del self.__dict__['height']
self.x = self.y = 0
kw.setdefault('value',_value)
self._BCC.__init__(self,**kw)
def __init__(self):
PlotArea.__init__(self)
self.reversePlotOrder = 0
self.xValueAxis = XValueAxis()
self.yValueAxis = YValueAxis()
# this defines two series of 3 points. Just an example.
self.data = [((1, 1), (2, 2), (2.5, 1), (3, 3), (4, 5)), ((1, 2), (2, 3), (2.5, 2), (3, 4), (4, 6))]
self.lines = TypedPropertyCollection(LinePlotProperties)
self.lines.strokeWidth = 1
self.lines[0].strokeColor = colors.red
self.lines[1].strokeColor = colors.blue
self.lineLabels = TypedPropertyCollection(Label)
self.lineLabelFormat = None
self.lineLabelArray = None
# this says whether the origin is inside or outside
# the bar - +10 means put the origin ten points
# above the tip of the bar if value > 0, or ten
# points inside if bar value < 0. This is different
# to label dx/dy which are not dependent on the
# sign of the data.
self.lineLabelNudge = 10
# if you have multiple series, by default they butt
# together.
# New line chart attributes.
self.joinedLines = 1 # Connect items with straight lines.
# private attributes
self._inFill = None
def __init__(self, _value="", **kw):
PlotArea.__init__(self)
del self.__dict__["width"]
del self.__dict__["height"]
self.x = self.y = 0
kw.setdefault("value", _value)
self._BCC.__init__(self, **kw)
def __init__(self,BCC=None,_value='',**kw):
self._BCC = BCC
class Combiner(self.__class__,BCC):
__name__ = self.__class__.__name__
self.__class__ = Combiner
PlotArea.__init__(self)
del self.width, self.height
self.x = self.y = 0
kw.setdefault('value',_value)
BCC.__init__(self,**kw)
def __init__(self,BCC=None,_value='',**kw):
self._BCC = BCC
class Combiner(self.__class__,BCC):
__name__ = self.__class__.__name__
self.__class__ = Combiner
PlotArea.__init__(self)
del self.width, self.height
self.x = self.y = 0
kw.setdefault('value',_value)
BCC.__init__(self,**kw)
def __init__(self):
PlotArea.__init__(self)
self.data = [[10,12,14,16,14,12], [6,8,10,12,9,11]]
self.labels = None # or list of strings
self.startAngle = 90
self.direction = "clockwise"
self.strands = TypedPropertyCollection(StrandProperties)
self.strands[0].fillColor = colors.cornsilk
self.strands[1].fillColor = colors.cyan
def __init__(self):
PlotArea.__init__(self)
self.xAxis = XValueAxis()
self.xAxis.gridStrokeColor = colors.black
self.yAxis = YValueAxis()
self.yAxis.gridStrokeColor = colors.black
self.pointSets = TypedPropertyCollection(PointSetProperties)
self.pointSets[0].fillColor = colors.blue
self.pointSets[1].fillColor = colors.red
self.pointSets[2].fillColor = colors.green
self.pointSets[3].fillColor = colors.purple
def __init__(self):
PlotArea.__init__(self)
self.data = [[10,12,14,16,14,12], [6,8,10,12,9,11]]
self.labels = None # or list of strings
self.labels = ['a','b','c','d','e','f']
self.startAngle = 90
self.direction = "clockwise"
self.strands = TypedPropertyCollection(StrandProperty)
self.spokes = TypedPropertyCollection(SpokeProperty)
self.spokeLabels = TypedPropertyCollection(SpokeLabel)
self.spokeLabels._text = None
self.strandLabels = TypedPropertyCollection(StrandLabel)
self.x = 10
self.y = 10
self.width = 180
self.height = 180
def __init__(self):
PlotArea.__init__(self)
self.data = [[10,12,14,16,14,12], [6,8,10,12,9,11]]
self.labels = None # or list of strings
self.labels = ['a','b','c','d','e','f']
self.startAngle = 90
self.direction = "clockwise"
self.strands = TypedPropertyCollection(StrandProperty)
self.spokes = TypedPropertyCollection(SpokeProperty)
self.spokeLabels = TypedPropertyCollection(SpokeLabel)
self.spokeLabels._text = None
self.strandLabels = TypedPropertyCollection(StrandLabel)
self.x = 10
self.y = 10
self.width = 180
self.height = 180
def __init__(self):
PlotArea.__init__(self)
self.reversePlotOrder = 0
self.xValueAxis = XValueAxis()
self.yValueAxis = YValueAxis()
# this defines two series of 3 points. Just an example.
self.data = [
((1,1), (2,2), (2.5,1), (3,3), (4,5)),
((1,2), (2,3), (2.5,2), (3,4), (4,6))
]
self.lines = TypedPropertyCollection(LinePlotProperties)
self.lines.strokeWidth = 1
self.lines[0].strokeColor = colors.red
self.lines[1].strokeColor = colors.blue
self.lineLabels = TypedPropertyCollection(Label)
self.lineLabelFormat = None
self.lineLabelArray = None
# this says whether the origin is inside or outside
# the bar - +10 means put the origin ten points
# above the tip of the bar if value > 0, or ten
# points inside if bar value < 0. This is different
# to label dx/dy which are not dependent on the
# sign of the data.
self.lineLabelNudge = 10
# if you have multiple series, by default they butt
# together.
# New line chart attributes.
self.joinedLines = 1 # Connect items with straight lines.
#private attributes
self._inFill = None
self.annotations = []
self.behindAxes = 0
self.gridFirst = 0