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I am working on a project for my radiation oncology department. We have a device that we place on the patient and it sends back information about its orientation, acceleration, etc. I am writing a program to display this data on a 3d plot over time. I have been working on this for some time. I can tell that I am on the cusp of finishing, but I cannot seem to resolve this issue with my code. I am using Python 2.7.x.

# Import various required libraries.
import matplotlib
import matplotlib.pyplot
matplotlib.use('WXAgg')
from mpl_toolkits.mplot3d    import Axes3D
from matplotlib.figure       import Figure
from matplotlib.backends.backend_wxagg import \
     FigureCanvasWxAgg       as FigCanvas, \
     NavigationToolbar2WxAgg as NavigationToolbar
import math, numpy, os, pylab, pprint, random, serial, sys, wx


# Define a class of global variables and methods.
class g(object):
    COM_PORT = 'COM24'          # the comport that thec sensor is to be plugged into. Need to add an automatic check for this.
    TimeWindow = 60             # The width of the time window desired in seconds. This is the width to be kept for the scrolling plot.
    IntraGatheringPeriod = 500  # Time in between successive data gatherings in milliseconds. Default is 1000 ms.
    TBFLAGS = (wx.TB_HORIZONTAL | wx.NO_BORDER | wx.TB_FLAT) #wx.TB_FLAT | wx.TB_HORZ_LAYOUT



class getAccDataTest(object):
    # A class that generates pseudo-random data for display.

    def __init__(self, init=[0,0,0]):
        # Initialize the data value set.
        self.data = self.init = init

    def next(self):
        # Generate the next data value set.
        self._recalc_data()
        return self.data

    def _recalc_data(self):
        # Generate a data value set.
        # Returns three floats consisting of the x, y, z
        # acceleration data, respectively.
        self.data[0] = random.random()
        self.data[1] = random.random()
        self.data[2] = random.random()


class GraphFrame(wx.Frame):
    # Craete and initialize all the various components of the main frame of the
    # application.


    def __init__(self):
        # Initialize the graphing frame.
        wx.Frame.__init__(self, None, -1, 'Yei Plotter', size=(1000,800))

        # Set the data genarator.
        self.getAccDataTest = getAccDataTest()

        # Get the next data.
        nextData = self.getAccDataTest.next()
        self.dataX = [nextData[0]]
        self.dataY = [nextData[1]]
        self.dataZ = [nextData[2]]

        # Set the initial data gathering flag to true so as to have data gathering turned off.
        self.paused = False

        # Set a timer for when to refresh everything.
        self.redraw_timer = wx.Timer(self)
        self.Bind(wx.EVT_TIMER, self.on_redraw_timer, self.redraw_timer)        
        self.redraw_timer.Start(g.IntraGatheringPeriod)

        # Initialize the main panel.
        self.panel = wx.Panel(self)

        # Initialize the plot.
        self.init_plot()

        # Create a canvas to hold the figure.
        self.canvas = FigCanvas(self.panel, -1, self.figure)

    # The method to initialize the plot.
    def init_plot(self):
        # Create a figure object to display the figure in.
        self.figure = matplotlib.figure.Figure()

        # Create the axes.
        self.axes1 = self.figure.add_subplot(1,1,1, projection='3d')

        # Dynamically set the x,y,z tick labels.
        pylab.setp(self.axes1.get_xticklabels(), fontsize=8)
        pylab.setp(self.axes1.get_yticklabels(), fontsize=8)
        pylab.setp(self.axes1.get_zticklabels(), fontsize=8)

        # plot the data as a line series, and save the reference 
        # to the plotted line series
        self.plot_data1 = self.axes1.plot(self.dataX, self.dataY, self.dataZ)[0]

    def draw_plot(self):
        # Redraws the plot.

        # It "follows" xmax to produce a sliding window effect. therefore, xmin is
        # assigned after xmax.
        Tmax = len(self.dataX) if len(self.dataX) > g.TimeWindow else g.TimeWindow
        Tmin = Tmax - g.TimeWindow

        # For ymin and ymax, find the minimal and maximal values
        # in the data set and add a mininal margin.
        # 
        # Note that it's easy to change this scheme to the 
        # minimal/maximal value in the current display, and not
        # the whole data set.
        Amin = round(min(self.dataX), 0) - 1
        Amax = round(max(self.dataX), 0) + 1

        # Set the bounds for the x,y,z data labels.
        self.axes1.set_xbound(lower=Amin, upper=Amax)
        self.axes1.set_ybound(lower=Amin, upper=Amax)
        self.axes1.set_zbound(lower=Amin, upper=Amax)

        # Anecdote: axes.grid assumes b=True. If any other flag is given even if b is
        # set to False. So just passing the flag into the first statement won't work.
        self.axes1.grid(True, color='gray')

        # Using setp here is convenient because get_xticklabels returns a list over
        # which one needs to explicitly iterate, and setp already handles this.
        pylab.setp(self.axes1.get_xticklabels(), visible=True)
        pylab.setp(self.axes1.get_yticklabels(), visible=True)
        pylab.setp(self.axes1.get_zticklabels(), visible=True)

        # Set the x data to be plotted.
        self.plot_data1.set_xdata(numpy.array(self.dataX))

        # Set the y data to be plotted.
        self.plot_data1.set_ydata(numpy.array(self.dataY))

##        # Set the z data to be plotted.
##        self.plot_data1.set_zdata(numpy.array(self.dataZ))

#################################        
        # Draw the canvas.      #
#################################
        self.canvas.draw()      # This is the line from which the error seems to come from.
#################################

    # Define a method to get another data point and redraw the plot everytime the redraw timer triggers.
    def on_redraw_timer(self, event):
        # if paused do not add data, but still redraw the plot
        # (to respond to scale modifications, grid change, etc.)
        if not self.paused:
            nextData = self.getAccDataTest.next()
            self.dataX.append(nextData[0])
            self.dataY.append(nextData[1])
            self.dataZ.append(nextData[2])

        self.draw_plot()



if __name__ == '__main__':
    app = wx.PySimpleApp()      # Create an object for the application gui.
    app.frame = GraphFrame()    # Create a frame object for the graphing frame.
    app.frame.Show()            # Make the graph frame visible.
    app.MainLoop()              # Run the mainloop to handle all the application events.

# END

The resulting error message:

Traceback (most recent call last):
  File "C:/Users/aliasus77/Documents/Yei Plotter/YeiPlotter-dev5.py", line 328, in on_redraw_timer
    self.draw_plot()
  File "C:/Users/aliasus77/Documents/Yei Plotter/YeiPlotter-dev5.py", line 273, in draw_plot
    self.canvas.draw()
  File "C:\Python27\lib\site-packages\matplotlib\backends\backend_wxagg.py", line 44, in draw
    FigureCanvasAgg.draw(self)
  File "C:\Python27\lib\site-packages\matplotlib\backends\backend_agg.py", line 451, in draw
    self.figure.draw(self.renderer)
  File "C:\Python27\lib\site-packages\matplotlib\artist.py", line 55, in draw_wrapper
    draw(artist, renderer, *args, **kwargs)
  File "C:\Python27\lib\site-packages\matplotlib\figure.py", line 1034, in draw
    func(*args)
  File "C:\Python27\lib\site-packages\mpl_toolkits\mplot3d\axes3d.py", line 270, in draw
    Axes.draw(self, renderer)
  File "C:\Python27\lib\site-packages\matplotlib\artist.py", line 55, in draw_wrapper
    draw(artist, renderer, *args, **kwargs)
  File "C:\Python27\lib\site-packages\matplotlib\axes.py", line 2086, in draw
    a.draw(renderer)
  File "C:\Python27\lib\site-packages\mpl_toolkits\mplot3d\art3d.py", line 117, in draw
    xs, ys, zs = proj3d.proj_transform(xs3d, ys3d, zs3d, renderer.M)
  File "C:\Python27\lib\site-packages\mpl_toolkits\mplot3d\proj3d.py", line 194, in proj_transform
    return proj_transform_vec(vec, M)
  File "C:\Python27\lib\site-packages\mpl_toolkits\mplot3d\proj3d.py", line 153, in proj_transform_vec
    vecw = np.dot(M, vec)
TypeError: can't multiply sequence by non-int of type 'float'

Thanks to tcaswell, who pointed out that almost certainly a list is being passed instead of an (numpy) array. I put some numpy.array() around some lists and the error resolved itself. However, the plot was not showing anything. Then I replaced

        # Set the x data to be plotted.
        self.plot_data1.set_xdata(numpy.array(self.dataX))

        # Set the y data to be plotted.
        self.plot_data1.set_ydata(numpy.array(self.dataY))

##        # Set the z data to be plotted.
##        self.plot_data1.set_zdata(numpy.array(self.dataZ))

with

        # plot the data as a line series, and save the reference 
        # to the plotted line series
        self.plot_data1 = self.axes1.plot(numpy.array(self.dataX), 
                                          numpy.array(self.dataY), 
                                          numpy.array(self.dataZ))[0]

and it works! Thank you very much!

EDIT: I added a link to a revision of the code without extraneous gui elements.

EDIT: I pasted the code here. I originally put a link so the post would be cleaner, but I understand links can break over time.

EDIT: I added information on what I did to make the program work and placed a SOLVED mark in the title.

share|improve this question
    
Try to reduce your code to a minimum amont of lines which reproduce the problem, probably without the GUI-stuff. –  GBy Jul 5 at 16:49
    
I edited my post to include a link to reduced code. Thanks for the tip. –  user2368315 Jul 5 at 19:14
    
Please paste the code here. Links will rot over time which will make this question useless to future readers. –  tcaswell Jul 6 at 1:06
    
and you are almost certainly passing in a list instead of an array someplace. –  tcaswell Jul 6 at 1:06
    
I edited my post to include the code in the post. tcaswell: I will try converting lists to mumpy.array and see if that works. –  user2368315 Jul 6 at 18:40
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