#!/usr/bin/env python
"""
Copyright (C) 2003-2004 Andrew Straw, Jeremy O'Donoghue and others
License: This work is licensed under the PSF. A copy should be included
with this source code, and is also available at
http://www.python.org/psf/license.html
This is yet another example of using matplotlib with wx. Hopefully
this is pretty full-featured:
- both matplotlib toolbar and WX buttons manipulate plot
- full wxApp framework, including widget interaction
- XRC (XML wxWidgets resource) file to create GUI (made with XRCed)
This was derived from embedding_in_wx and dynamic_image_wxagg.
Thanks to matplotlib and wx teams for creating such great software!
"""
import sys, time, os, gc
import matplotlib
matplotlib.use('WXAgg')
import matplotlib.cm as cm
from matplotlib.backends.backend_wxagg import Toolbar, FigureCanvasWxAgg
from matplotlib.figure import Figure
import numpy as npy
from wx import *
from wx.xrc import *
ERR_TOL = 1e-5 # floating point slop for peak-detection
matplotlib.rc('image', origin='lower')
class PlotPanel(Panel):
def __init__(self, parent):
Panel.__init__(self, parent, -1)
self.fig = Figure((5,4), 75)
self.canvas = FigureCanvasWxAgg(self, -1, self.fig)
self.toolbar = Toolbar(self.canvas) #matplotlib toolbar
self.toolbar.Realize()
#self.toolbar.set_active([0,1])
# Now put all into a sizer
sizer = BoxSizer(VERTICAL)
# This way of adding to sizer allows resizing
sizer.Add(self.canvas, 1, LEFT|TOP|GROW)
# Best to allow the toolbar to resize!
sizer.Add(self.toolbar, 0, GROW)
self.SetSizer(sizer)
self.Fit()
def init_plot_data(self):
a = self.fig.add_subplot(111)
x = npy.arange(120.0)*2*npy.pi/60.0
y = npy.arange(100.0)*2*npy.pi/50.0
self.x, self.y = npy.meshgrid(x, y)
z = npy.sin(self.x) + npy.cos(self.y)
self.im = a.imshow( z, cmap=cm.jet)#, interpolation='nearest')
zmax = npy.amax(z) - ERR_TOL
ymax_i, xmax_i = npy.nonzero(z >= zmax)
if self.im.origin == 'upper':
ymax_i = z.shape[0]-ymax_i
self.lines = a.plot(xmax_i,ymax_i,'ko')
self.toolbar.update() # Not sure why this is needed - ADS
def GetToolBar(self):
# You will need to override GetToolBar if you are using an
# unmanaged toolbar in your frame
return self.toolbar
def OnWhiz(self,evt):
self.x += npy.pi/15
self.y += npy.pi/20
z = npy.sin(self.x) + npy.cos(self.y)
self.im.set_array(z)
zmax = npy.amax(z) - ERR_TOL
ymax_i, xmax_i = npy.nonzero(z >= zmax)
if self.im.origin == 'upper':
ymax_i = z.shape[0]-ymax_i
self.lines[0].set_data(xmax_i,ymax_i)
self.canvas.draw()
def onEraseBackground(self, evt):
# this is supposed to prevent redraw flicker on some X servers...
pass
class MyApp(App):
def OnInit(self):
self.res = XmlResource("data/embedding_in_wx3.xrc")
# main frame and panel ---------
self.frame = self.res.LoadFrame(None,"MainFrame")
self.panel = XRCCTRL(self.frame,"MainPanel")
# matplotlib panel -------------
# container for matplotlib panel (I like to make a container
# panel for our panel so I know where it'll go when in XRCed.)
plot_container = XRCCTRL(self.frame,"plot_container_panel")
sizer = BoxSizer(VERTICAL)
# matplotlib panel itself
self.plotpanel = PlotPanel(plot_container)
self.plotpanel.init_plot_data()
# wx boilerplate
sizer.Add(self.plotpanel, 1, EXPAND)
plot_container.SetSizer(sizer)
# whiz button ------------------
whiz_button = XRCCTRL(self.frame,"whiz_button")
EVT_BUTTON(whiz_button, whiz_button.GetId(),
self.plotpanel.OnWhiz)
# bang button ------------------
bang_button = XRCCTRL(self.frame,"bang_button")
EVT_BUTTON(bang_button, bang_button.GetId(),
self.OnBang)
# final setup ------------------
sizer = self.panel.GetSizer()
self.frame.Show(1)
self.SetTopWindow(self.frame)
return True
def OnBang(self,event):
bang_count = XRCCTRL(self.frame,"bang_count")
bangs = bang_count.GetValue()
bangs = int(bangs)+1
bang_count.SetValue(str(bangs))
if __name__ == '__main__':
app = MyApp(0)
app.MainLoop()
