Add register_ptr_to_python to PersistenceDiagram bindings to match changes in Boost.Python
from PyQt4 import QtGui, QtCore
from dionysus import Simplex
class ComplexViewer2D(QtGui.QGraphicsView):
def __init__(self, points, complex = None, values = None, subcomplex = None):
super(QtGui.QGraphicsView, self).__init__()
self._pan = False
self.points = points
if complex:
complex = [s for s in complex]
else:
# Create vertex simplices if no complex provided
complex = [Simplex([i]) for i in xrange(len(self.points))]
if not subcomplex:
subcomplex = []
if not values:
values = [0]*len(self.points)
self.values = values
self.maxval, self.minval = max(values), min(values)
self.setRenderHint(QtGui.QPainter.Antialiasing)
self.scene = QtGui.QGraphicsScene(self)
self.setScene(self.scene)
minx = min(p[0] for p in points)
miny = min(p[1] for p in points)
maxx = max(p[0] for p in points)
maxy = max(p[1] for p in points)
radius = min(maxx - minx, maxy - miny)/100
self.scene.setSceneRect(minx - 10*radius, miny - 10*radius, (maxx - minx) + 20*radius, (maxy - miny) + 20*radius)
self.draw_complex(complex, radius, colormap = self.colormap)
self.draw_complex(subcomplex, 3*radius, colormap = lambda v: QtCore.Qt.green, line_color = QtCore.Qt.green)
# Flip y-axis
self.scale(1,-1)
# Set the correct view
rect = self.scene.itemsBoundingRect()
self.fitInView(rect, QtCore.Qt.KeepAspectRatio)
def draw_complex(self, complex, radius, colormap, line_color = QtCore.Qt.black):
complex.sort(lambda s1, s2: -cmp(s1.dimension(), s2.dimension()))
for s in complex:
vertices = [v for v in s.vertices]
if s.dimension() == 0: # point
p = self.points[vertices[0]]
v = self.values[vertices[0]]
item = QtGui.QGraphicsEllipseItem(p[0] - radius/2,p[1] - radius/2,radius,radius)
color = colormap(v)
item.setBrush(QtGui.QBrush(color))
item.setPen(QtGui.QPen(color))
elif s.dimension() == 1: # edge
p0 = self.points[vertices[0]]
p1 = self.points[vertices[1]]
item = QtGui.QGraphicsLineItem(p0[0], p0[1], p1[0], p1[1])
item.setPen(QtGui.QPen(line_color))
else: # higher-d simplex
pts = [QtCore.QPointF(self.points[v][0], self.points[v][1]) for v in vertices]
item = QtGui.QGraphicsPolygonItem(QtGui.QPolygonF(pts))
item.setBrush(QtCore.Qt.blue)
self.scene.addItem(item)
def colormap(self, v):
if self.maxval <= self.minval:
t = 0
else:
t = (v - self.minval)/(self.maxval - self.minval)
c = QtGui.QColor()
c.setHsv(int(t*255), 255, 255)
return c
def wheelEvent(self, event):
delta = 1 + float(event.delta())/100
if delta < 0:
event.ignore()
return
self.scale(delta, delta)
event.accept()
def mousePressEvent(self, event):
if event.button() == QtCore.Qt.RightButton:
self._pan = True
self._panStartX = event.x()
self._panStartY = event.y()
self.setCursor(QtCore.Qt.ClosedHandCursor)
event.accept()
def mouseReleaseEvent(self, event):
if event.button() == QtCore.Qt.RightButton:
self._pan = False
self.setCursor(QtCore.Qt.ArrowCursor)
event.accept()
return
event.ignore()
def mouseMoveEvent(self, event):
if self._pan:
self.horizontalScrollBar().setValue(self.horizontalScrollBar().value() - (event.x() - self._panStartX))
self.verticalScrollBar().setValue(self.verticalScrollBar().value() - (event.y() - self._panStartY))
self._panStartX = event.x()
self._panStartY = event.y()
event.accept()
return
event.ignore()
def show_complex_2D(points, complex = None, values = None, subcomplex = None, app = None):
#app = QtGui.QApplication([])
view = ComplexViewer2D(points, complex, values, subcomplex)
view.show()
view.raise_()
app.exec_()