I'm really trying to wrap my brain around how recursion works and understand recursive algorithms. For example, the code below returns 120 when I enter 5, excuse my ignorance, and I'm just not seeing why?
def fact(n):
if n == 0:
return 1
else:
return n * fact(n-1)
answer = int (raw_input('Enter some number: '))
print fact(answer)
lets walk through the execution.
fact(5):
5 is not 0, so fact(5) = 5 * fact(4)
what is fact(4)?
fact(4):
4 is not 0, so fact(4) = 4 * fact(3)
what is fact(3)?
fact(3):
3 is not 0, so fact(3) = 3 * fact(2)
what is fact(2)?
fact(2):
2 is not 0, so fact(2) = 2 * fact(1)
what is fact(1)?
fact(1):
1 is not 0, so fact(1) = 1 * fact(0)
what is fact(0)?
fact(0):
0 IS 0, so fact(0) is 1
Now lets gather our result.
fact(5) = 5* fact(4)
substitute in our result for fact(4)
fact(5) = 5 * 4 * fact(3)
substitute in our result for fact(3)
fact(5) = 5 * 4 * 3 * fact(2)
substitute in our result for fact(2)
fact(5) = 5 * 4 * 3 * 2 * fact(1)
substitute in our result for fact(1)
fact(5) = 5 * 4 * 3 * 2 * 1 * fact(0)
substitute in our result for fact(0)
fact(5) = 5 * 4 * 3 * 2 * 1 * 1 = 120
And there you have it. Recursion is the process of breaking a larger problem down by looking at it as successfully smaller problems until you reach a trivial (or "base") case.
Break the problem down into its execution steps.
fact(5)
| 5 * fact(4)
|| 5 * (4 * fact(3))
||| 5 * (4 * (3 * fact(2))
|||| 5 * (4 * (3 * (2 * fact(1))))
||||| 5 * (4 * (3 * (2 * (1 * fact(0)))))
|||||| 5 * 4 * 3 * 2 * 1 * 1
120
Your function simply calls itself, just as any other function can call it. In this case however, your function needs a stopping point so that it doesn't infinitely recurse (causing a Stack Overflow!). In your case this is when n
is 0 (it should probably be 1 instead).
Keep in mind that each invocation of fact(), whether invoked externally or invoked by itself, gets its own distinct set of local variables.
fact1 has n of 5
fact2 has n of 4
fact3 has n of 3
fact4 has n of 2
fact5 has n on 1
fact6 has n of 0
The deepest ones (EG fact6 is deepest) are computed completely before the levels above them in the callstack are able to finish.
So fact6 returns a 1 to fact5 (termination case).
fact5 returns a 1 to fact4 (1*1)
fact4 returns a 2 to fact3 (2*1)
fact3 returns a 6 to fact2 (3*2)
fact2 returns a 24 to fact1 (4*6)
and finally fact1 returns 120 (5*24) to its caller, whatever that may be.
A recursive function is one that calls itself and continues to do so until evaluation is finished and a result is produced. The key with the factorial function you have above is the return x * fact(x-1)
So if you input 5 it will execute 5 * fact(5-1) * fact 4-1) .... And so on until it hits 0 and then returns 1. So you will have 5*4*3*2*1 which is 120.
It continues to allocate variables on the stack. So if you put a number that is too high it could result in a stack overflow exception. Unless you use something called tail call optimization (TCO) which turns the recursive function into a for loop and cleans up the memory allocated.
来源:https://stackoverflow.com/questions/11693819/understanding-recursion-in-python