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I would like to generate a sequence in a list, I know how to do this using a for loop, but if I wanted to generate the list such that the previously generated element was included in the next element, how would I do this? I am very unsure

i.e generate the list such that its items were:

where x is just a symbol


rather than [x,x+1,x+2]

Any help greatly appreciated!

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The question isn't terribly clear. I take it x isn't always the same thing in your expression? –  larsmans Jun 10 '13 at 15:18
@larsmans x is just a symbol –  user1987097 Jun 10 '13 at 15:21
you mean a variable? –  Jerry Meng Jun 10 '13 at 15:23
Never mind, I see it now. –  larsmans Jun 10 '13 at 15:23
No I mean a symbol if I multiplied x*x I would get x**2. –  user1987097 Jun 10 '13 at 15:41
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6 Answers

up vote 6 down vote accepted

I like to use a generator for this sort of thing.

def sequence(x, N):
    i = 0
    result = 1
    while i < N:
        result *= (x + i)
        i += 1
        yield result

>>> list(sequence(5, 10))
[5, 30, 210, 1680, 15120, 151200, 1663200, 19958400, 259459200, 3632428800L]

If you have numpy installed, this is faster:

np.multiply.accumulate(np.arange(x, x + N))
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I see that everyone else does too. Haha. Good work, team. –  Dan Allan Jun 10 '13 at 21:18
+1 for numpy :) Sweet! –  Rob Y Jun 11 '13 at 1:51
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Basically, you need to maintain state between the elements, and the list comprehension won't do that for you. A couple of ways to maintain state that come to mind are, a) use a generator, b) use a class EDIT or c) a closure.

Use a generator

def product(x, n):
    accumulator = 1
    for i in xrange(n + 1):
        accumulator *= x + i
        yield accumulator

x = 5
print [n for n in product(x, 2)]
# or just list(product(x, 2))

Or, use a class to maintain state

class Accumulator(object):

    def __init__(self):
        self.value = 1
        self.count = 0

    def __call__(self, x):
        self.value *= x + self.count
        self.count += 1
        return self.value

a = Accumulator()
x = 5
print [a(x) for _ in xrange(3)]

...The benefit of the class approach is that you could use a different value for x each iteration, like:

b = Accumulator()
print [b(x) for x in [1, 2, 3]]
>>> [1, 3, 15]


Just to be thorough, a closure would work, too:

def accumulator():

    # we need a container here because closures keep variables by reference; could have used a list too
    state = {'value': 1, 'count': 0}

    def accumulate(x):
        state['value'] *= x + state['count']
        state['count'] += 1
        return state['value']

    return accumulate

a = accumulator()
print [a(5) for _ in xrange(3)]
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lol everyone climbing over each other to write the generator for this ;) –  Rob Y Jun 10 '13 at 15:54
This is cool, and it reminded me that a numpy ufuncs have an accumulate method that does the job here. (See the edit on my answer.) –  Dan Allan Jun 10 '13 at 23:21
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Computationally wasteful but gets the job done

from operator import mul
z = range(5, 11)
print z                                                                     
[5, 6, 7, 8, 9, 10]

[reduce(mul, z[:i]) for i in range(1, len(z))]                              
[5, 30, 210, 1680, 15120]
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More idiomatic hacking using for-comprehensions and a custom operator:

def n(a):
    global previous
    previous = a
    return a

[n(previous * (x+i)) for previous in [1] for i in range(0,3)]

yields, if x == 1,

[1, 2, 6]
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Use generators with list comprehensions.

def reqd(x, n):
    '''x is the number and n is number of elements '''
    yield x

    i = 0
    original = x
    while i < n:
        i += 1
        x *= (original + i)
        yield x

x = 2
listt = [a for a in reqd(x, 10)]
print listt

Change the list comprehension in the end to get the list that you want.

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Try this. Deque are used to get a fast access to the elements at the end of the constructing list, as well as a constant append time. pol[-1] means the last element in the queue.

from collections import deque
def multCum(f, x, end):
    pol = deque([x])
    for i in range(1, end):
    return list(pol)

def f(x, y):
    return x * y

multCum(f, 1, 3)

[1, 2, 6]
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I corrected it using functions. –  Mikaël Mayer Jun 10 '13 at 15:38
A generator would be a more idiomatic approach than a deque. (Besides, lists probably have good enough append time unless you're doing heavy modification over the lifetime of the list.) –  millimoose Jun 10 '13 at 15:46
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