this code is working fine. say for 1980 it gives the result **2 ^ 2 *3 ^ 2 *5 ^ 1 *7 ^ 0 *11 ^ 1 ***(an extra asterisk remains at the end. i can remove it. and that has nothing to with my problem.
the code is:

```
prime=[2,3,5]
f=7
def next_prime(f):
j=0
while j==0:
for x in prime:
if f%x==0:
f+=2
break
else:
j=1
return f;
def factorization(n):
list=[2,3,5]
power=[]
x=0
while x<len(list):
j=0
while n%list[x]==0:
j+=1
n=n/list[x]
power.append(j)
x+=1
if n!=1:
while n!=1:
g=next_prime(f)
j=0
while n%g==0:
j+=1
n=n/g
else:
power.append(j)
prime.append(g)
x=0
while x<len(power):
print(prime[x],"^",power[x],"*",end="")
x+=1
factorization(1980)
```

then if i want to remove the term **7 ^ 0** from the result therefore all the primes which have the power zero, i made change in line 31 (**if j!=0:** instead of **else:**). and then the code's not working. it's working for numbers like 13860 where no prime has the power zero not in numbers like 1980. i can't find the problem!
the changed code is:

```
prime=[2,3,5]
f=7
def next_prime(f):
j=0
while j==0:
for x in prime:
if f%x==0:
f+=2
break
else:
j=1
return f;
def factorization(n):
list=[2,3,5]
power=[]
x=0
while x<len(list):
j=0
while n%list[x]==0:
j+=1
n=n/list[x]
power.append(j)
x+=1
if n!=1:
while n!=1:
g=next_prime(f)
j=0
while n%g==0:
j+=1
n=n/g
if j!=0:
power.append(j)
prime.append(g)
x=0
while x<len(power):
print(prime[x],"^",power[x],"*",end="")
x+=1
factorization(1980)
```

`list`

is a bad choice of a variable name. It shadows the built-in`list`

type name. – Lev Levitsky Jul 26 '12 at 8:18