# For detailed comments on animation and the techniqes used here, see
# the wiki entry http://www.scipy.org/Cookbook/Matplotlib/Animations
import os, sys
import matplotlib
matplotlib.use('QtAgg') # qt3 example
from qt import *
# Note: color-intensive applications may require a different color allocation
# strategy.
QApplication.setColorSpec(QApplication.NormalColor)
TRUE = 1
FALSE = 0
ITERS = 1000
import pylab as p
import numpy as npy
import time
class BlitQT(QObject):
def __init__(self):
QObject.__init__(self, None, "app")
self.ax = p.subplot(111)
self.canvas = self.ax.figure.canvas
self.cnt = 0
# create the initial line
self.x = npy.arange(0,2*npy.pi,0.01)
self.line, = p.plot(self.x, npy.sin(self.x), animated=True, lw=2)
self.background = None
def timerEvent(self, evt):
if self.background is None:
self.background = self.canvas.copy_from_bbox(self.ax.bbox)
# restore the clean slate background
self.canvas.restore_region(self.background)
# update the data
self.line.set_ydata(npy.sin(self.x+self.cnt/10.0))
# just draw the animated artist
self.ax.draw_artist(self.line)
# just redraw the axes rectangle
self.canvas.blit(self.ax.bbox)
if self.cnt==ITERS:
# print the timing info and quit
print 'FPS:' , ITERS/(time.time()-self.tstart)
sys.exit()
else:
self.cnt += 1
p.subplots_adjust(left=0.3, bottom=0.3) # check for flipy bugs
p.grid() # to ensure proper background restore
app = BlitQT()
# for profiling
app.tstart = time.time()
app.startTimer(0)
p.show()
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