Re: [Matplotlib-users] How to make diagram x_label by time and x_lable can move automatic

[不坏阿峰]

is there someone can help me ?
many thanks


2014-06-19 19:36 GMT+07:00 不坏阿峰 <onlydeb...@gmail.com>:

> Dear all
>
> could some expert can help me.
> I have modify from one demo. but i do not how to change the x_lable to
> time like H:M:S, and can move it.  i have try some way, but failed.
>
> hope some expert can do me a favor.
> thanks a lot
>
> ######################
> # coding=utf-8
> import os
> import pprint
> import random, time
> import sys
> from PyQt4 import QtGui, QtCore
>
> from threading import *
> import time
> import datetime
>
> import matplotlib
> matplotlib.use('WXAgg')
> from matplotlib.figure import Figure
> from matplotlib.backends.backend_qt4agg import \
>     FigureCanvasQTAgg as FigCanvas, \
>     NavigationToolbar2QT as NavigationToolbar
> import numpy as np
> import pylab
>
>
> class DataGen(object):
>     """ A silly class that generates pseudo-random data for
>         display in the plot.
>     """
>     def __init__(self, init=50):
>         self.data = self.init = init
>
>     def next(self):
>         self._recalc_data()
>         return self.data
>
>     def _recalc_data(self):
>         delta = random.uniform(-0.5, 0.5)
>         r = random.random()
>
>         if r > 0.9:
>             self.data += delta * 15
>         elif r > 0.8:
>             # attraction to the initial value
>             delta += (0.5 if self.init > self.data else -0.5)
>             self.data += delta
>         else:
>             self.data += delta
>
> class myThing():
>     class myThread(Thread):
>         def __init__(self):
>             Thread.__init__(self)
>             self.running = True
>             self.vec = [0]
>             self.dg = DataGen()
>
>             print "Initializing myThread..."
>
>         def run(self):
>             print "Running myThread..."
>             while self.running:
>                 time.sleep(1)
>                 self.vec.append(self.dg.next())
>                 print "Splat"
>
>         def getVec(self):
>             return self.vec
>
>         def stop(self):
>             self.running = False
>
>     def __init__(self):
>         self.theThread = self.myThread()
>         self.threadRunning = True
>         print "initializing myThing..."
>         self.theThread.start()
>
>     def __del__(self):
>         self.theThread.stop()
>
>     def getVec(self):
>         #print self.theThread.vec[:]
>         return self.theThread.vec[:]
>
>
> class ApplicationWindow(QtGui.QMainWindow):
>     """ The main window of the application
>     """
>
>     def __init__(self):
>         QtGui.QMainWindow.__init__(self)
>         self.setAttribute(QtCore.Qt.WA_DeleteOnClose)
>         self.setWindowTitle('Demo: dynamic matplotlib graph')
>
>         self.thing1 = myThing()
>         self.thing2 = myThing()
>         self.starttime =  int(time.time())
>
>
>         self.create_menu()
>         #self.create_status_bar()
>         self.create_main_panel()
>
>         self.redraw_timer = QtCore.QTimer(self)
>         QtCore.QObject.connect(self.redraw_timer,
> QtCore.SIGNAL("timeout()"), self.on_redraw_timer)
>         self.redraw_timer.start(4000)
>
>
>     def create_menu(self):
>         menu_file = QtGui.QMenu("&File", self)
>         #menu_file.addAction(u'&Save plot', self.on_save_plot,
>         #                         QtCore.Qt.CTRL + QtCore.Qt.Key_S)
>         menu_file.addSeparator()
>         menu_file.addAction(u'E&xit', self.on_exit,
>                                  QtCore.Qt.CTRL + QtCore.Qt.Key_X)
>
>         self.menuBar().addMenu(menu_file)
>
>     def create_main_panel(self):
>         self.panel = QtGui.QFrame(self)
>         self.setCentralWidget(self.panel)
>
>         self.init_plot()
>         self.canvas = FigCanvas(self.fig)
>         self.canvas.setMinimumHeight(150)
>
>         #self.toolbar = NavigationToolbar(self.canvas, None)
>         self.vbox = QtGui.QVBoxLayout()
>         self.vbox.addWidget(self.canvas)
>
>         self.panel.setLayout(self.vbox)
>         #self.vbox.Fit(self)
>
>         self.unit = 20
>         width, height = self.geometry().width(), self.geometry().height()
>         self.show()
>
>     def init_plot(self):
>         self.dpi = 100
>         self.fig = Figure((5.0, 3.0), dpi=self.dpi)
>
>         self.axes = self.fig.add_subplot(111, navigate=False)
>         self.axes.set_axis_bgcolor('black')
>
>         self.axes.set_title('Very important random data', size=10)
>         self.axes.set_xlabel('Time flies like an arrow',size=10)
>         self.axes.set_ylabel('Random is just random',size=10)
>
>         pylab.setp(self.axes.get_xticklabels(), fontsize=8)
>         pylab.setp(self.axes.get_yticklabels(), fontsize=8)
>
>         self.plot_data = self.axes.plot(
>             self.thing1.getVec(),
>             linewidth=0.5,
>             color=(1, 1, 0),
>             #marker='o',
>             label="set1",
>             )[0]
>         print  self.thing1.getVec(), "<<>>"
>         self.plot_data2 = self.axes.plot(
>             self.thing2.getVec(),
>             linewidth=1,
>             dashes=[.2, .4],
>             color=(0, 1, 1),
>             label="set2",
>             )[0]
>
>
>     def draw_plot(self):
>         """ Redraws the plot
>         """
>         self.data = self.thing1.getVec()
>         self.data2 = self.thing2.getVec()
>         def do_cal(urdata):
>             newdata = []
>             for x in range(len(urdata)):
>                 urtime = x + self.starttime
>                 newdata.append(urtime)
>             return newdata
>
>         xmax = len(self.data) if len(self.data) > 50 else 50
>
>         xmin = xmax - 50
>
>         min1 = min(self.data)
>         min2 = min(self.data2)
>         theMin = min(min1, min2)
>
>         ymin = round(theMin, 0) - 1
>
>         max1 = max(self.data)
>         max2 = max(self.data2)
>         theMax = max(max1, max2)
>
>         ymax = round(theMax, 0) + 1
>
>         self.axes.set_xbound(lower=xmin, upper=xmax)
>         self.axes.set_ybound(lower=ymin, upper=ymax)
>
>         self.axes.grid(True, color='gray')
>         pylab.setp(self.axes.get_xticklabels(),
>                 visible=True)
>
>         self.plot_data.set_xdata(np.arange(len(self.data)))
>         self.plot_data.set_ydata(np.array(self.data))
>         self.plot_data2.set_xdata(np.arange(len(self.data2)))
>         #self.plot_data2.set_xdata(np.array(newdata2))
>         self.plot_data2.set_ydata(np.array(self.data2))
>
>         self.canvas.draw()
>
>
>     def on_redraw_timer(self):
>         self.draw_plot()
>
>     def on_exit(self):
>         self.close()
>
>     def closeEvent(self, event):
>         for thing in (self.thing1, self.thing2):
>             thing.theThread.stop()
>             thing.theThread.join()
>
> if __name__ == '__main__':
>     app = QtGui.QApplication(sys.argv)
>     aw = ApplicationWindow()
>     aw.show()
>     sys.exit(app.exec_())
>
> #################################
> [image: 内嵌图片 1]
>

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