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I would like to generate a sequence such that the previously generated element was included in the next element, I am unsure how to do this.

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

where x is just a Sympy symbol


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

I'm thinking something like


but I keep getting a type error

Any help greatly appreciated!

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In the end I just used danodonovan's solution and declared result as a symbol. –  user1987097 Jun 11 '13 at 15:56

4 Answers 4

up vote 1 down vote accepted

Maybe using a recursive lambda function and a map ?

>>> fact = lambda x: x == 0 and 1 or x * fact(x - 1)
>>> map(fact, range(4))
[1, 1, 2, 6]

and many other ways besides. If you want to return a string define your recursive function to return a string;

def fact(i):
    if i == 0:
        return 'x'
        return fact(i - 1) + '*(x+%d)' % i

and then

>>> map(fact, range(4))
['x', 'x*(x+1)', 'x*(x+1)*(x+2)', 'x*(x+1)*(x+2)*(x+3)']

and if you're using sympy and think that using strings is an "anti-pattern"

import sympy

def fact(i):
    if i == 0:
        return sympy.Symbol('x')
        return sympy.Symbol('(x+%d)' % i) * fact(i - 1)


>>> map(fact, range(4))
[x, (x+1)*x, (x+1)*(x+2)*x, (x+1)*(x+2)*(x+3)*x]
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I wish to return symbols, I can't see how to adapt this. –  user1987097 Jun 10 '13 at 16:28
A Sympy Symbol that is* –  user1987097 Jun 10 '13 at 16:35
Please, oh please, do not suggest using strings in a question about sympy. It is one of the biggest antipatterns in this context. –  Krastanov Jun 10 '13 at 17:04
You're more than welcome to suggest alternatives, this is SO –  danodonovan Jun 10 '13 at 19:06

You can use sympy.RaisingFactorial:

import sympy.RaisingFactorial as RF
from sympy.abc import x
ans = [RF(x,i) for i in xrange(1,length+1)]

Which gives:

[x, x*(x + 1), x*(x + 1)*(x + 2)]
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RisingFactorial is probably the best way, especially if you only want the final term, but you can also do

a = [x]
for i in range(1, 5): # Replace 5 with however far up you want to go
    a.append(a[-1]*(x - i))
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Assuming there is no ready made function, you can define a polynomial expression (not a Poly) by it's roots pretty easily...

def poly_by_roots(roots, sym):
    return prod(map(lambda x: sym-x, roots))

then apply to a list of roots

polys = [poly_by_roots(range(a,1), x) for a in range(-5,1)]

it's not the most efficient method, that is any which uses the fact that the previous polynomial differs by only (x+i), for example

def poch_list(x,n):
    if n==0:
        return [x]
        val = poch_list(x,n-1)
        return val + [val[-1]*(x+n)]

which allows symbolic lengths, which may or may not be a good thing.

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