# How do you make this code more pythonic?

Could you guys please tell me how I can make the following code more pythonic?

The code is correct. Full disclosure - it's problem 1b in Handout #4 of this machine learning course. I'm supposed to use newton's algorithm on the two data sets for fitting a logistic hypothesis. But they use matlab & I'm using scipy

Eg one question i have is the matrixes kept rounding to integers until I initialized one value to 0.0. Is there a better way?

Thanks

``````import os.path
import math
from numpy import matrix
from scipy.linalg import inv #, det, eig

x = matrix( '0.0;0;1'  )
y = 11
grad = matrix( '0.0;0;0'  )
hess = matrix('0.0,0,0;0,0,0;0,0,0')
theta = matrix( '0.0;0;0'  )

# run until convergence=6or7
for i in range(1, 6):
#reset
grad = matrix( '0.0;0;0'  )
hess = matrix('0.0,0,0;0,0,0;0,0,0')

xfile = open("q1x.dat", "r")
yfile = open("q1y.dat", "r")

#over whole set=99 items
for i in range(1, 100):
xline = xfile.readline()
s= xline.split("  ")
x[0] = float(s[1])
x[1] = float(s[2])
y = float(yfile.readline())

hypoth = 1/ (1+ math.exp(-(theta.transpose() * x)))

for j in range(0,3):
grad[j] = grad[j] + (y-hypoth)* x[j]
for k in range(0,3):
hess[j,k] = hess[j,k] - (hypoth *(1-hypoth)*x[j]*x[k])

theta = theta - inv(hess)*grad #update theta after construction

xfile.close()
yfile.close()

print "done"
print theta
``````
-
what does line y = 11 do? – SilentGhost Jun 17 '09 at 14:05
that sets the cool bit. – Geo Jun 17 '09 at 14:05
+1 for using the word pythonic in a sentence. – samoz Jun 17 '09 at 14:08
It doesn't do anything. C++ was my first language... – MercerKernel Jun 17 '09 at 14:15
so, by removing it you make your code more pythonic! – SilentGhost Jun 17 '09 at 14:25

## 5 Answers

``````x = matrix([[0.],[0],[1]])
theta = matrix(zeros([3,1]))
for i in range(5):
grad = matrix(zeros([3,1]))
hess = matrix(zeros([3,3]))
[xfile, yfile] = [open('q1'+a+'.dat', 'r') for a in 'xy']
for xline, yline in zip(xfile, yfile):
x.transpose()[0,:2] = [map(float, xline.split("  ")[1:3])]
y = float(yline)
hypoth = 1 / (1 + math.exp(theta.transpose() * x))
grad += (y - hypoth) * x
hess -= hypoth * (1 - hypoth) * x * x.transpose()
theta += inv(hess) * grad
print "done"
print theta
``````
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I don't know, the code works fine. When they're matrices it seems to do inner product. I got the code from here (scipy.org/SciPy_Tutorial) – MercerKernel Jun 17 '09 at 18:43
@MercerKernel: cool - I learned something new! my use of arrays instead of matrices forced me do use dot. with matrices you can use "*"! I fixed the code and also allowed myself to make theta = -old_theta to simplify – yairchu Jun 17 '09 at 19:27
hmm, your map line complains about dimensions. I had to rewrite it as x[:2] = array([xline.split(" ")[1:3]], dtype=float).transpose() Same thing on the math.exp line i think you need theta.transpose() – MercerKernel Jun 17 '09 at 19:45
several things make it more pythonic than your post: range(5) instead of range(1,6) because "real men" enumerate from 0. iterating files to get lines. zip. "a +=" instead of "a = a +". not closing the files and letting the garbage collector do it :) – yairchu Jun 17 '09 at 21:35
This isn't so much an improvement in its "pythonicity" but you should never, ever, ever use inv(mat) * vector to solve a linear system. Use solve(mat, vector) - this does less floating point ops and generally leads to less error in the result due to rounding. – dwf Jul 22 '09 at 1:38

One obvious change is to get rid of the "for i in range(1, 100):" and just iterate over the file lines. To iterate over both files (xfile and yfile), zip them. ie replace that block with something like:

`````` import itertools

for xline, yline in itertools.izip(xfile, yfile):
s= xline.split("  ")
x[0] = float(s[1])
x[1] = float(s[2])
y = float(yline)
...
``````

(This is assuming the file is 100 lines, (ie. you want the whole file). If you're deliberately restricting to the first 100 lines, you could use something like:

`````` for i, xline, yline in itertools.izip(range(100), xfile, yfile):
``````

However, its also inefficient to iterate over the same file 6 times - better to load it into memory in advance, and loop over it there, ie. outside your loop, have:

``````xfile = open("q1x.dat", "r")
yfile = open("q1y.dat", "r")
data = zip([line.split("  ")[1:3] for line in xfile], map(float, yfile))
``````

And inside just:

``````for (x1,x2), y in data:
x[0] = x1
x[1] = x2
...
``````
-
that should be line.split(" ")[1:3] as yairchu did it. Split two spaces, this site edits my code. – MercerKernel Jun 17 '09 at 20:30
Oops, you're right - I missed that. Updated. – Brian Jun 18 '09 at 8:46

the matrixes kept rounding to integers until I initialized one value to 0.0. Is there a better way?

At the top of your code:

``````from __future__ import division
``````

In Python 2.6 and earlier, integer division always returns an integer unless there is at least one floating point number within. In Python 3.0 (and in future division in 2.6), division works more how we humans might expect it to.

If you want integer division to return an integer, and you've imported from future, use a double //. That is

``````from __future__ import division
print 1//2 # prints 0
print 5//2 # prints 2
print 1/2  # prints 0.5
print 5/2  # prints 2.5
``````
-

You could make use of the with statement.

-
except that nobody gets the with statement yet... – Daren Thomas Jun 17 '09 at 14:48
-1: in what way? Just randomly? or with something as aPurpose? – S.Lott Jun 17 '09 at 14:56
for file handling. – Geo Jun 17 '09 at 19:31
yeah, he could also make use httplib to add some spice.. ? – yairchu Jun 17 '09 at 19:33
that's the best you could come up with? – Geo Jun 17 '09 at 20:06

the code that reads the files into lists could be drastically simpler

``````for line in open("q1x.dat", "r"):
x = map(float,line.split("  ")[1:])
y = map(float, open("q1y.dat", "r").readlines())
``````
-
you are overriding x all the time. perhaps you intended x = [map(float, line.split(" ")[1:] for line in open("q1x.dat", "r") ?? – yairchu Jun 17 '09 at 14:28
wait doesn't his code do that too? – Nathan Jun 17 '09 at 15:00
@Nathan: to clear some confusion - lets call your "y" "ys" as it has a list of all "y"s in OP's code. your "x" however could not be renamed to "xs" as it has the same values of his "x". then it would seem odd that you calculate "x" and "ys" and not "xs" and "ys". I hope I'm clear.. – yairchu Jun 17 '09 at 19:29