from .. import functions as fn
from .GraphicsObject import GraphicsObject
from .ScatterPlotItem import ScatterPlotItem
from ..Qt import QtGui, QtCore
import numpy as np
from .. import getConfigOption
__all__ = ['GraphItem']
[docs]class GraphItem(GraphicsObject):
"""A GraphItem displays graph information as
a set of nodes connected by lines (as in 'graph theory', not 'graphics').
Useful for drawing networks, trees, etc.
"""
[docs] def __init__(self, **kwds):
GraphicsObject.__init__(self)
self.scatter = ScatterPlotItem()
self.scatter.setParentItem(self)
self.adjacency = None
self.pos = None
self.picture = None
self.pen = 'default'
self.setData(**kwds)
[docs] def setData(self, **kwds):
"""
Change the data displayed by the graph.
============== =======================================================================
**Arguments:**
pos (N,2) array of the positions of each node in the graph.
adj (M,2) array of connection data. Each row contains indexes
of two nodes that are connected or None to hide lines
pen The pen to use when drawing lines between connected
nodes. May be one of:
* QPen
* a single argument to pass to pg.mkPen
* a record array of length M
with fields (red, green, blue, alpha, width). Note
that using this option may have a significant performance
cost.
* None (to disable connection drawing)
* 'default' to use the default foreground color.
symbolPen The pen(s) used for drawing nodes.
symbolBrush The brush(es) used for drawing nodes.
``**opts`` All other keyword arguments are given to
:func:`ScatterPlotItem.setData() <pyqtgraph.ScatterPlotItem.setData>`
to affect the appearance of nodes (symbol, size, brush,
etc.)
============== =======================================================================
"""
if 'adj' in kwds:
self.adjacency = kwds.pop('adj')
if hasattr(self.adjacency, '__len__') and len(self.adjacency) == 0:
self.adjacency = None
elif self.adjacency is not None and self.adjacency.dtype.kind not in 'iu':
raise Exception("adjacency must be None or an array of either int or unsigned type.")
self._update()
if 'pos' in kwds:
self.pos = kwds['pos']
self._update()
if 'pen' in kwds:
self.setPen(kwds.pop('pen'))
self._update()
if 'symbolPen' in kwds:
kwds['pen'] = kwds.pop('symbolPen')
if 'symbolBrush' in kwds:
kwds['brush'] = kwds.pop('symbolBrush')
self.scatter.setData(**kwds)
self.informViewBoundsChanged()
def _update(self):
self.picture = None
self.prepareGeometryChange()
self.update()
[docs] def setPen(self, *args, **kwargs):
"""
Set the pen used to draw graph lines.
May be:
* None to disable line drawing
* Record array with fields (red, green, blue, alpha, width)
* Any set of arguments and keyword arguments accepted by
:func:`mkPen <pyqtgraph.mkPen>`.
* 'default' to use the default foreground color.
"""
if len(args) == 1 and len(kwargs) == 0:
self.pen = args[0]
else:
self.pen = fn.mkPen(*args, **kwargs)
self.picture = None
self.update()
def generatePicture(self):
self.picture = QtGui.QPicture()
if self.pen is None or self.pos is None or self.adjacency is None:
return
p = QtGui.QPainter(self.picture)
try:
pts = self.pos[self.adjacency]
pen = self.pen
if isinstance(pen, np.ndarray):
lastPen = None
for i in range(pts.shape[0]):
pen = self.pen[i]
if np.any(pen != lastPen):
lastPen = pen
if pen.dtype.fields is None:
p.setPen(fn.mkPen(color=(pen[0], pen[1], pen[2], pen[3]), width=1))
else:
p.setPen(fn.mkPen(color=(pen['red'], pen['green'], pen['blue'], pen['alpha']), width=pen['width']))
p.drawLine(QtCore.QPointF(*pts[i][0]), QtCore.QPointF(*pts[i][1]))
else:
if pen == 'default':
pen = getConfigOption('foreground')
p.setPen(fn.mkPen(pen))
pts = pts.reshape((pts.shape[0]*pts.shape[1], pts.shape[2]))
path = fn.arrayToQPath(x=pts[:,0], y=pts[:,1], connect='pairs')
p.drawPath(path)
finally:
p.end()
def paint(self, p, *args):
if self.picture == None:
self.generatePicture()
if getConfigOption('antialias') is True:
p.setRenderHint(p.RenderHint.Antialiasing)
self.picture.play(p)
def boundingRect(self):
return self.scatter.boundingRect()
def dataBounds(self, *args, **kwds):
return self.scatter.dataBounds(*args, **kwds)
def pixelPadding(self):
return self.scatter.pixelPadding()