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Recently, reading Python "Functional Programming HOWTO", I came across a mentioned there test_generators.py standard module, where I found the following generator:

# conjoin is a simple backtracking generator, named in honor of Icon's
# "conjunction" control structure.  Pass a list of no-argument functions
# that return iterable objects.  Easiest to explain by example:  assume the
# function list [x, y, z] is passed.  Then conjoin acts like:
#
# def g():
#     values = [None] * 3
#     for values[0] in x():
#         for values[1] in y():
#             for values[2] in z():
#                 yield values
#
# So some 3-lists of values *may* be generated, each time we successfully
# get into the innermost loop.  If an iterator fails (is exhausted) before
# then, it "backtracks" to get the next value from the nearest enclosing
# iterator (the one "to the left"), and starts all over again at the next
# slot (pumps a fresh iterator).  Of course this is most useful when the
# iterators have side-effects, so that which values *can* be generated at
# each slot depend on the values iterated at previous slots.

def simple_conjoin(gs):

    values = [None] * len(gs)

    def gen(i):
        if i >= len(gs):
            yield values
        else:
            for values[i] in gs[i]():
                for x in gen(i+1):
                    yield x

    for x in gen(0):
        yield x

It took me a while to understand how it works. It uses a mutable list values to store the yielded results of the iterators, and the N+1 iterator return the values, which passes through the whole chain of the iterators.

As I stumbled into this code while reading about functional programming, I started thinking if it was possible to rewrite this conjoin generator using functional programming (using functions from the itertools module). There are a lot of routines written in functional style (just glance at the end of this article in the Recipes section).

But, unfortunately, I haven't found any solution.

So, is it possible to write this conjoin generator using functional programming just using the itertools module?

Thanks

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It seems counter-intuitive to mix a functional style with the expectation of side effects. If the functions were pure, each one would only need to be called once. @Ionuț: It's not like map or zip. It's closer to a cartesian product, but there's a twist of function application mixed in for flavor. –  recursive Aug 17 '11 at 13:12
1  
Either you want lazy, functional programming with no side-effects, in which case you want itertools.product, or you want side-effects, in which case you have to do it yourself. You can't have both. –  katrielalex Aug 17 '11 at 13:17
    
So, if I understand right, they made that quite complicated code with using the mutable values list just to be able to access the values generated by all enclosing iterators to the left. And if we don't need any side-effects, we can use itertools.product to get the same functionality. –  ovgolovin Aug 17 '11 at 13:26
    
@revursive, yes, you're right. I noticed it after submitting the comment. –  Ionuț G. Stan Aug 17 '11 at 13:29
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2 Answers 2

up vote 3 down vote accepted

This seems to work, and it's still lazy:

def conjoin(gs):
    return [()] if not gs else (
        (val,) + suffix for val in gs[0]() for suffix in conjoin(gs[1:])
    )

def range3():
    return range(3)

print list(conjoin([range3, range3]))

Output:

[(0, 0), (0, 1), (0, 2), (1, 0), (1, 1), (1, 2), (2, 0), (2, 1), (2, 2)]

Example usage to show mutable state:

x = ""
def mutablerange():
    global x
    x += "x"
    return [x + str(i) for i in range(3)]

print list(conjoin([range3, mutablerange]))

Output: (watch the increasing number of 'x's)

[(0, 'x0'), (0, 'x1'), (0, 'x2'), (1, 'xx0'), (1, 'xx1'), (1, 'xx2'), (2, 'xxx0'), (2, 'xxx1'), (2, 'xxx2')]

And if we use itertools.product:

x = ""
print list(itertools.product(range3(), mutablerange()))

the result is the following:

[(0, 'x0'), (0, 'x1'), (0, 'x2'), (1, 'x0'), (1, 'x1'), (1, 'x2'), (2, 'x0'), (2, 'x1'), (2, 'x2')]

So, one clearly see, that itertools.product caches the values returned by the iterator.

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Yeah. Thanks. But it's not really functinal-style. @katrielalex in the comments mentioned that the same functionality can be achieved by using itertools.product function. –  ovgolovin Aug 17 '11 at 13:33
    
How is it not functional? itertools.product is different because it doesn't do the function application. It works with lists of values. My implementation re-applies the functions so that any side-effects will happen correctly, per your definition of conjoin. product does not. –  recursive Aug 17 '11 at 13:34
2  
The mutability of values isn't the core thing. It's that the functions change some other thing (anything), that stays changed between times they are run, so that their next run can be influenced by their previous run. This is what makes it impossible to create a true functional implementation that is also useful (recursive's is one or the other, not both at the same time) -- the functions have to have side effects (not be pure) in order to be useful with simple_conjoin. Without side effects, it's just a cartesian product, as others have mentioned. –  agf Aug 17 '11 at 13:53
1  
With itertools.product, each function is only iterated over once. With simple_conjoin, how many times each inner loop happens depends on when the outer loops are exhausted, so the functions may be iterated over many time. Sure, you could use functions with side effects with itertools.product, but they would still only be iterated over once, so you can't get i.e. (0, 0), (0, 1), (1, 10), (5, 11), because the values are reused, so if you get 0 then 1 from the 2nd iterator, you will always have 0 or 1 in the 2nd column. –  agf Aug 17 '11 at 14:04
1  
@ovgolovin, the weird for values[0] in x(): thing is a red herring -- it's just a clever accumulator. The difference between this and itertools.product is that itertools.product accepts generators and caches values that will be used multiple times, while conjoin accepts generator functions which it re-calls instead of using cached values. –  senderle Aug 17 '11 at 14:07
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simple_conjoin uses the same basic building blocks -- loops, conditions, and yield -- as the building blocks of the itertools recipes. It also treats functions as data, a hallmark of functional programming.

Of course this is most useful when the iterators have side-effects, so that which values can be generated at each slot depend on the values iterated at previous slots.

This, however, is contrary to the way functional programming works. In functional programming, each function takes input and produces output, and reacts with the rest of the program in no other way.

In simple_conjoin, the functions take no input, and have side effects. This is central to it's use.

So while you can certainly write it in functional style, it won't be useful in simple translation.

You'd need to figure out a way to write it so it operated without side effects before you could produce a truly "functional" implementation.

Note: @recursive's answer is good, but if range3 had side effects it wouldn't be truly functional.

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