I am trying to plot all my data files in a directory in python and then saving the resulting the plots. I am **not** trying to write efficient python code (unfortunately): just interested in plotting data for now.

I am a newbie at python and my object is to get figures organized in my dissertation.

So with the below code, this is what I am trying to do:

- I list all
`.dat`

files with`glob`

- I populate an array with the file names
- I loop through this file names array and
`plot_surface`

each of the data files

The data that I trying to plot is here

The errors that are spat out at me are:

## Errors

```
File "/home/dnaneet/Research/test_collection/dftdata/profile2.py", line 59, in <module>
plot(x, y, z)
File "/usr/lib/pymodules/python2.7/matplotlib/pyplot.py", line 2286, in plot
ret = ax.plot(*args, **kwargs)
File "/usr/lib/pymodules/python2.7/matplotlib/axes.py", line 3783, in plot
for line in self._get_lines(*args, **kwargs):
File "/usr/lib/pymodules/python2.7/matplotlib/axes.py", line 317, in _grab_next_args
for seg in self._plot_args(remaining, kwargs):
File "/usr/lib/pymodules/python2.7/matplotlib/axes.py", line 278, in _plot_args
raise ValueError, 'third arg must be a format string'
ValueError: third arg must be a format string
```

## Python code

`import os import glob import sys import subprocess import matplotlib.pyplot as plt from mpl_toolkits.mplot3d import Axes3D import numpy as np from numpy import * from numpy.random import rand from pylab import pcolor, show, colorbar, xticks, yticks from pylab import * print 'Listing all profile/dat files' profilefilelist = glob.glob('*profile*.dat') raw_input('Press ENTER to continue...') print profilefilelist for i in profilefilelist: DATA = i def get_data(fname=DATA): '''Read 2d array of z coordinates from file. Convert to float values and wrap in a numpy array.''' with open(fname) as f: data = [map(float, line.split()) for line in f] return np.array(data) def plot(x, y, z): fig = plt.figure() ax = fig.gca(projection='3d') ax.plot_surface(x, y, z, rstride=5, cstride=5,cmap="binary",linewidth=0.1) ax.set_zlim3d(0.0,4.0) ax.set_xlabel('X',fontsize=16,fontweight="bold") ax.set_ylabel('Y',fontsize=16,fontweight="bold") ax.set_zlabel('h(X,T)',fontsize=16,fontweight="bold") savefig(os.getcwd()+DATA+'.pdf',figsize=(5,5),dpi=600) savefig(os.getcwd()+DATA+'.pdf',figsize=(5,5),dpi=600) if __name__ == '__main__': z = get_data() x = range(z.shape[0]) y = range(z.shape[1]) x, y = np.meshgrid(x, y) plot(x, y, z)`

## Question

Is this as a result of my poor indentation or is something more sinister going on over here? What should I do to correct these errors?

I don't understand python very well and have been trying to move away from mathematica (since I will graduate and can't afford the mathematicas or matlabs of the world anymore).

## Previous code as offered on SE:

## Modified code (based on answers)

`import os import glob import sys import subprocess import matplotlib.pyplot as plt from mpl_toolkits.mplot3d import Axes3D import numpy as np from numpy import * from numpy.random import rand from pylab import pcolor, show, colorbar, xticks, yticks from pylab import * print 'Listing all profile/dat files' profilefilelist = glob.glob('*profile*.dat') raw_input('Press ENTER to continue...') print profilefilelist DATA=profilefilelist for i in DATA: def get_data(fname=i): '''Read 2d array of z coordinates from file. Convert to float values and wrap in a numpy array.''' with open(fname) as f: data = [map(float, line.split()) for line in f] return np.array(data) for i in DATA: def my_plot(x, y, z): fig = plt.figure() ax = fig.gca(projection='3d') ax.plot_surface(x, y, z, rstride=5, cstride=5,cmap="binary",linewidth=0.1) ax.set_zlim3d(0.0,4.0) ax.set_xlabel('X',fontsize=16,fontweight="bold") ax.set_ylabel('Y',fontsize=16,fontweight="bold") ax.set_zlabel('h(X,T)',fontsize=16,fontweight="bold") plt.show() # savefig(os.getcwd()+DATA+'.pdf',figsize=(5,5),dpi=600) # savefig(os.getcwd()+DATA+'.pdf',figsize=(5,5),dpi=600) if __name__ == '__main__': z = get_data() x = range(z.shape[0]) y = range(z.shape[1]) x, y = np.meshgrid(x, y) my_plot(x, y, z)`