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I wrote the following program in Python 2 to do Newton's method computations for my math problem set, and while it works perfectly, for reasons unbeknownst to me, when I initially load it in ipython with %run -i NewtonsMethodMultivariate.py, the Python 3 division is not imported. I know this because after I load my Python program, entering x**(3/4) gives "1". After manually importing the new division, then x**(3/4) remains x**(3/4), as expected. Why is this?

# coding: utf-8
from __future__ import division
from sympy import symbols, Matrix, zeros

x, y = symbols('x y')
X = Matrix([[x],[y]])
tol = 1e-3

def roots(h,a):
  def F(s):
    return h.subs({x: s[0,0], y: s[1,0]})
  def D(s):
    return h.jacobian(X).subs({x: s[0,0], y: s[1,0]})
  if F(a) == zeros((2,1)):
    return a
  else:
    while (F(a)).norm() > tol:
      a = a - ((D(a))**(-1))*F(a)
      print a.evalf(10)

I would use Python 3 to avoid this issue, but my Linux distribution only ships SymPy for Python 2. Thanks to the help anyone can provide.

Also, in case anyone was wondering, I haven't yet generalized this script for nxn Jacobians, and only had to deal with 2x2 in my problem set. Additionally, I'm slicing the 2x2 zero matrix instead of using the command zeros(2,1) because SymPy 0.7.1, installed on my machine, complains that "zeros() takes exactly one argument", though the wiki suggests otherwise. Maybe this command is only for the git version. (Thanks eryksun for correcting my notation, which fixed the issue with the zeros function.)

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It's zeros((2,1)); the argument is either a scalar or a tuple. Did you test division immediately after the import with print 1/2? –  eryksun Nov 28 '11 at 1:59
    
Out of curiosity, what happens if you add print division to the end of your program? Does it print something like: _Feature((2, 2, 0, 'alpha', 2), (3, 0, 0, 'alpha', 0), 8192)? And if so, what does that same print statement give you from the ipython command line? Note that there are several tens of thousands of Google results for "ipython from future import division". It seems you're not the first to notice this. :-) –  Kirk Strauser Nov 28 '11 at 2:05
    
@eryksun Thanks for correcting me on my usage of the zeros command; I've updated my program. So if I open ipython, run from __future__ import division, and then print 1/2, the result is 0.5, as expected. But if I instead, upon opening ipython and running %run -i NewtonsMethodMultivariate.py, and then print 1/2, I get 0. The line to import the Python 3 division is clearly in my program, so I don't know what's up. –  Sara Fauzia Nov 28 '11 at 2:08
    
@KirkStrauser I have googled this, but the fix is to use the import line for division that I cited above, but why doesn't it seem to have an effect? From the iPython command line, I get exactly what you said after adding print division to the last line of my program. From the commandline I also get the same. –  Sara Fauzia Nov 28 '11 at 2:15
    
Why would you hardcode your h function or consider moving to py3 instead of entering x**(3/4.) or x**0.75 ? –  John Machin Nov 28 '11 at 3:57

2 Answers 2

up vote 6 down vote accepted

Both ipython -i command and run -i in ipython interpreter ignore from __future__ import division in print05.py script.

$ cat print05.py 
from __future__ import division
print(1/2)

In ipython console:

In [1]: print 1/2
0
In [2]: run -i print05.py
0.5
In [3]: division
Out[3]: _Feature((2, 2, 0, 'alpha', 2), (3, 0, 0, 'alpha', 0), 8192)
In [4]: print 1/2
0
In [5]: from __future__ import division
In [6]: print 1/2
0.5

execfile and import produce the same result:

>>> print 1/2
0
>>> execfile('print05.py')
0.5
>>> print 1/2
0
>>> from __future__ import division
>>> print 1/2
0.5

from __future__ import division should not have effect on the source code from different modules, otherwise it would break code in other modules that don't expect its presence.

Here, from __future__ import division has effect:

$ python -i print05.py
0.5
>>> print 1/2
0.5
>>> division
_Feature((2, 2, 0, 'alpha', 2), (3, 0, 0, 'alpha', 0), 8192)

The module name in this case is __main__ both inside print05.py and in the prompt.

Here, the first print 1/2 executes in print05 module, the second one in __main__ module so it also works as expected:

$ python -im print05
0.5
>>> print 1/2
0

And here's something wrong:

$ ipython -i print05.py
0.5
In [1]: division
Out[1]: _Feature((2, 2, 0, 'alpha', 2), (3, 0, 0, 'alpha', 0), 8192)
In [2]: print 1/2
0

The docs for __future__ say:

If an interpreter is started with the -i option, is passed a script name to execute, and the script includes a future statement, it will be in effect in the interactive session started after the script is executed.

So It might be a bug in ipython if its -i option tries to emulate the same python option.

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Thanks a lot for the explanation. It's unfortunate, because I inputed my function "h" on the ipython commandline, and it has terms with fractional exponents, but I guess I have to hardcode "h" into the program if I don't want to import future division manually. –  Sara Fauzia Nov 28 '11 at 2:40
    
@Sara Fauzia: if you defined h() function before ..import division then it will use integer division. You could use edit you_module.py to add functions from ipython console. –  J.F. Sebastian Nov 28 '11 at 2:49
    
@J.F. Sebastian So using python interactively, as you pointed out, indeeds does work properly, as I just tested. Is this a bug, what happens with ipython? –  Sara Fauzia Nov 28 '11 at 2:50
    
@Sara Fauzia: There's a sympy profile that imports future division. –  eryksun Nov 28 '11 at 2:52
    
@eryksun But the default profile imports everything, and I thought this is eschewed from in an individual program. (Correct me if I'm mistaken, as I am a newbie.) –  Sara Fauzia Nov 28 '11 at 2:56

SymPy also provides a script -- isympy -- which is a wrapper for IPython which executes some common commands, including an import of division from future. It's quite handy, and in newer IPython versions (0.11+) it also allows automatic constructions of Symbols (which is nice as I always seem to forget); run it with the -a parameter.

As for Python 3, there is support for it in the development version and the next release will have it; when distributions are going to pack it I don't know.

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