# Problems in summing two polynomials using python

I'm asked to make a program that calculates the addition of two polynomials of n and m degrees. I made two dictionaries (one for the first polynomial and the other is for the other polynomial) since each one has the coefficients as values and degrees as keys so that I can check whether the keys from both dictionaries are identical, then I can sum their values. But I don't know why I always get an error. My code so far is:

``````class poly:
def __init__(self, L=[], D=[]):
self.coef=L
self.deg=D

if len(self.coef)>len(self.deg):
dec=dict(zip(self.deg,self.coef))
dec[0]=self.coef[-1]

else:
dec=dict(zip(self.deg,self.coef))

Dec1=dec

if len(L2.coef)>len(L2.deg):
dec=dict(zip(L2.deg,L2.coef))
dec[0]=L2.coef[-1]
else:
dec=dict(zip(L2.deg,L2.coef))

Dec2=dec
p=[]

if len(Dec2)>len(Dec1):
for i in Dec2:
if i in Dec1:
s=Dec1[i]+Dec2[i]
p=p+[s]
else:
p=p+p[Dec2[i]]

for x in Dec1:
if x in Dec2:
p=p
else:
p=p+[dec1[x]]
return(poly(p))

if len(Dec2)<len(Dec1):
for x in Dec1:
if x in Dec2:
g=Dec1[x]
p=p+[g]
else:
p=p+[Dec1[x]]

for m in Dec2:
if m in Dec1:
p=p
else:
p=p+[Dec2[m]]
return (poly(p))
``````

This code doesn't work for all my examples such as

``````>>> p=poly([2,4,7,34],[6,4,2])
>>> p1=poly([6,3,7,2,8],[8,4,2,1])
>>> p2=p+p1
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
p2=p+p1
File "poly.py", line 31, in __add__
p=p+p[Dec2[i]]
IndexError: list index out of range
>>> #The numbers in the first list is the coefficients and the second list is for degrees
``````

This doesn't work! But it worked when I've done the addition without using class method. I'm a beginner and I did my best to fix the problem.

Another question is how to write the def str for my code? I really don't have any idea what I should write in the beginning. I'm sorry guys but I'm new in programming and I need an easy code such as mine.

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Not that its causing your particular problem, but be careful using `[]` as a default value in `__init__` (or anywhere else, for that matter): stackoverflow.com/questions/1132941/… – lvc Apr 28 '12 at 23:04
Also, it might make more sense to store your polynomial as a single list of coefficients, so that `x^3 + 2` has coefficients `[1, 0, 2]`. – lvc Apr 28 '12 at 23:18
I did both! first my init was without [] but it didn't work. So i will get ride of it. Sorry for not having mentioned that i'm expecting that the user enters a string!! – user1354396 Apr 28 '12 at 23:45
@user1354396: Have you printed out the values you are indexing `Dec2` with in the line that throws that error? I bet you'll find they're not the ones you're expecting ;) – Joel Cornett Apr 29 '12 at 0:08

1. By common convention, class names should be capitalized (ie `Poly`)
2. You have `__add__` doing a lot of stuff that has nothing to do with adding. This should be a warning sign.
3. A lot of `__add__`'s work is mucking about with the data storage format. Maybe you should use a better storage format, one which won't need so much reshuffling?
4. You have a lot of repetitive chunks of code in `__add__`; this is usually an indicator that the code should be factored into a subroutine.
5. You have this object (`self`) making changes to the internal details of another object (`L2`) - another bad smell.

If you move the normalization code for self (`if len(self.coef) > len(self.deg) ...`) from `__add__` into `__init__`, this will solve #2, #3, half of #4, and #5 all in one go (you no longer have to "do to" L2, it will "do to" itself).

If you realize that it's pretty much irrelevant whether `len(Dec1) > len(Dec2)` or not, you can get rid of another block of redundant code. This fixes the other half of #4. Suddenly `__add__` shrinks from 48 lines of code to about 12, and becomes much easier to understand and debug.

For sake of comparison:

``````from itertools import izip_longest, chain, product
from collections import defaultdict

class Poly(object):
def __init__(self, coeff=None, power=None):
if coeff is None: coeff = []
if power is None: power = []
self.d = defaultdict(int)
for c,p in izip_longest(coeff, power, fillvalue=0):
if c != 0:
self.d[p] += c

@classmethod
def fromDict(cls, d):
return cls(d.itervalues(), d.iterkeys())

@property
def degree(self):
return max(p for p,c in self.d.iteritems() if c != 0)

return Poly(
chain(self.d.itervalues(), poly.d.itervalues()),
chain(self.d.iterkeys(),   poly.d.iterkeys())
)

def __mul__(self, poly):
return Poly(
(cs*cp for cs,cp in product(self.d.itervalues(), poly.d.itervalues())),
(ps+pp for ps,pp in product(self.d.iterkeys(),   poly.d.iterkeys()))
)

def __call__(self, x):
return sum(c*x**p for p,c in self.d.iteritems())

def __str__(self):
clauses = sorted(((p,c) for p,c in self.d.iteritems() if c != 0), reverse=True)
return " + ".join("{}x^{}".format(c,p) for p,c in clauses) or "0"
``````

Note that:

1. Each method is short and does only things relevant to what it is supposed to accomplish.
2. I purposefully wrote `__init__` to be very fault-tolerant; it will cheerfully accept multiple coefficients of a given power and sum them. This allowed me to greatly simplify `__add__` and `__mul__`, basically just throwing all the resulting clauses at a new Poly and letting it clean them up again.
3. I have included a minimal implementation of `__str__`, which will result in moderately ugly output like `5x^2 + -2x^1 + -5x^0`. You may wish to add special handling for negative coefficients and powers of 1 or 0, to make it produce `5x^2 - 2x - 5` instead.
4. This is for the purpose of understanding, not plagiarism; do not submit it to your teacher as is, he will never in a million years believe you actually wrote it ;-)
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