# I'm trying to write a general function for adding/multiplying terms in a sequence

I'm trying to write a function with 4 arguments in python

``````def sequence(operation, start, n, term):
``````

where operation is a function, start is the beginning number of the sequence, and n is th last number of the sequence, term is function that manipulates the terms in the sequence.

For example

``````>>> sequence(add, 2, 10, square)
``````

would return the summation of the square of 2, 3, 4, ..., 10

given that:

``````def square(x):
return x * x
``````
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And...? Where's your problem? – Daniel Roseman Sep 9 '11 at 10:40
Homework? Maybe some attempt on your own might be a good idea. – Jakob Bowyer Sep 9 '11 at 10:40
google for "python" with each of the following keywords "map", "reduce" and "range". – Michael Anderson Sep 9 '11 at 10:43
Or just read about each of those functions here: docs.python.org/library/functions.html – Michael Anderson Sep 9 '11 at 10:44
yup! i've tried using recognizing the patterns in summation and product in that it combines the next term with the preceding. However, I don't know how to use the arguments – James Smith Sep 9 '11 at 10:44

``````from operator import add,mul

def square(x):  return x * x

def sequence(oper,m,n,func):
if oper not in (add,mul):
return None
return reduce(lambda a,b: oper(a,func(b)),
xrange(m,n+1),
0 if oper==add else 1)

print sequence(add, 3,4, square)
print sequence(mul,2,3,square)
print sequence('qq',10,110,square)
``````

result

``````25
36
None
``````
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``````def sequence(operation, start, n, term):
return reduce(operation, map(term, range(start, n+1)))
``````

The range function in Python is half-open ie. range(start, stop) returns a list of integers from start to stop-1. So, for example:

``````>>> range(2,10)
[2,3,4,5,6,7,8,9]
``````

Therefore, to solve your problem you would need range(start, n+1).

To apply the function "term" to each integer in this range you would use the built-in function map eg:

``````>>> map(square,range(2,11))
[4, 9, 16, 25, 36, 49, 64, 81, 100]
``````

The final part of the function requires the built-in function reduce which takes as its arguments a function, an iterable and an optional initial value (which is not required in this instance).

reduce applies the given function to the first two elements of the iterable; it then applies the function to the result of the first calculation and the third element of the iterable and so on.

So, for example:

``````>>> from operator import add
>>> reduce(add, [4, 9, 16, 25])
``````

... is equivalent to:

``````>>> add( add( add(4, 9), 16), 25)
``````

... and:

``````>>> reduce(add, [4, 9, 16, 25, 36, 49, 64, 81, 100])
``````

... is equivalent to:

``````>>> add( add( add( add( add( add( add( add(4, 9), 16), 25), 36), 49), 64), 81), 100)
``````
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`range(start, n+1)` effectively creates an object, while `xrange(start, n+1)` creates an iterator that will drop the numbers one after the other on demand. Your solution would be improved writing `reduce(operation, map(term, xrange(start, n+1)))` . Similarly, `map(...,...)` creates also an object while `imap(...,...)` creates an iterator. With `return reduce(operation, map(term, range(start, n+1)))`, your solution will be perfect and better than mine, because more general. I upvote – eyquem Sep 9 '11 at 12:44
``````reduce(lambda a,b: a+b, map(square, range(2,11)))
``````
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You can define sequence in one-liner using Python Built-in functions `range`, `reduce` and `map`.

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