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While reading Peter Norvig's Python IAQ, I came across this code snippet:

def _if(test):
    return lambda alternative: \
               lambda result: \
                   [delay(result), delay(alternative)][not not test]()
def delay(f):
    if callable(f): return f
    else: return lambda: f
fact = lambda n: _if (n <= 1) (1) (lambda: n * fact(n-1))

I searched this in the internet and this code appeared in several forums but it seems that those who commented on it all understand how it works.

I am quite new to functional programming concepts. I know that if test is evaluated to True, delay(alternative) will be selected. But in fact, if test is true, result is returned. This seems counter-intuitive to me.

share|improve this question
IMHO not good Python style. –  Paulo Scardine Jan 17 '13 at 2:01
5 lambdas in 7 lines? Is this an example of how not to code in Python? –  Alex L Jan 17 '13 at 2:06
It might be helpful to understand this if you convert each lambda to a named function (except the one in delay, which I think is pretty obvious). If that's not sufficient, try substituting through various results—e.g., manually evaluate fact(2). (A better solution would be to go learn Haskell or ML, then figure out the obvious code this is incomprehensibly translated from, and then work out how it could be translated to Python and why Norvig chose this way… but I assume you want a slightly shorter-range solution.) –  abarnert Jan 17 '13 at 2:08
I agree with what is said here - Python is not a functional language - while it draws some awesome stuff from functional languages, it's not a good idea to try and use a pure functional style, it's not optimal. –  Lattyware Jan 17 '13 at 2:13
Nowhere in his IAQ Peter Norvig said it was a good idea :) («If u cn rd ths, u cn gt a jb in fncnl prg (if thr wr any)») –  Pavel Anossov Jan 17 '13 at 2:31

2 Answers 2

Let's see:

  • _if(True) is called, and immediately returns a lambda with the alternative parameter
  • The returned lambda is called with alternative set to 1 and returns the result lambda
  • The result lambda is called with result set to lambda: n * fact(n-1)
  • not not True evaluates to 1 (This example is from python 2.4 era!), which indexes the second list item, which is delay(alternative)
  • alternative was set to 1 earlier
  • delay(1) is called, which returns lambda: 1
  • lambda: 1 is called, it returns 1.

TL/DR: 1 is the alternative.


Named functions version:

def _if(test):
    def then_closure(expr_if_true):
        def else_closure(expr_if_false):
            if test:
                delayed = delay(expr_if_true)
                delayed = delay(expr_if_false)
            return delayed()
        return else_closure
    return then_closure
share|improve this answer
+1, very nice… but I think it might be clearer if you started with fact(2) instead of fact(1). I know the OP says he just wants to understand the _if True bit, but I suspect he actually needs one more step. –  abarnert Jan 17 '13 at 2:10
Thank you, Pavel. –  foresightyj Jan 18 '13 at 5:35
@Pavel Thank you. Your explanation really helped me understand it. It seems that i was tripped by the variable names. If I switch the variable names of result and alternative, the code starts to make sense to me. In that case, _if is used like _if (test) result alternative. –  foresightyj Jan 18 '13 at 5:43

Walk it through in reverse.

fact = lambda n: _if (n <= 1) (1) (lambda: n * fact(n-1))

The first function reduces to [ _if( 100 <= 1) ] and it selects between the two functions [ (1) ] and [ (lambda : n * fact(n-1)) ]. As already described True functions call the 2nd functions, False calls the first. So the second function is called and the lambda is evaluated as:

lambda: 100 * fact(99)

Note that the delay function effective does nothing for this case. The whole process starts over again with fact(99):

fact(99) =  lambda n: _if (99 <= 1) (1) (lambda: 99 * fact(98))

Again the _if function call is True and it triggers the 2nd function call which then calls another fact(98), and so forth.

The stack slowly builds up:

100 * fact(99) 
100 * 99 * fact(98)
100 * 99 * 98 * fact(97)

The special case is fact(1):

fact(1) = lambda n: _if (1 <= 1) (1) (lambda: 1 * fact(0))

since _if is now False the first function is passed to delay which converts it to a function and calls it, returning 1 and allowing the stack to resolve. The multiplication occurs and the result is given (100!).

share|improve this answer
_if isn't given two parameters. –  Pavel Anossov Jan 17 '13 at 2:16
That's true, how does one refer to the result and alternative functions? –  Adam Cadien Jan 17 '13 at 2:17
_if (n <= 1) returns a function, which is passed 1 as a parameter, and then that returns a function which is passed lambda: n * fact(n-1)? –  Alex L Jan 17 '13 at 2:25
Absolutely, this has been reflected in my post. –  Adam Cadien Jan 17 '13 at 2:31

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