Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a network of nodes passing structured data in between. For my subproblem, we have this branch - linear sequence of nodes:

nodes = [source, n1, n2, n3, n4]

First node is a generator, each other node gets values from input node and provides output value. Current implementation is plain get() from a pipe and put() to a pipe and there is separate thread per node (there is reason for that). I want to change it to a yield-ing iterator.

And I want to evaluate in a following way (if we consider node to be a callable):

for result in n4(n3(n2(n1(source()))):
    print result

I imagine the construction of evaluation context like this:

context = src
for node in nodes[1:]:
    context = pipe(context, node)

for result in context:
    print result

Limitations:

I still want to be able to use nodes separately - not nested, piping data by other means, because the nodes might be in separate threads. Example: [source, n1,n2] in one thread (might be nested), [n3, n4] in the other (might be nested), data piped between n2 and n3. Case: there might be a non-linear node graph where I want to group branches this way.

node has to be a class to hold computation state

How the implementation of the context and the pipe(context, node) might look like? Or if it can be solved in a different way, do you have any hints?

Can yield from in Python 3.3 (PEP380) help my case in any way?

share|improve this question
add comment

1 Answer 1

If all you want is to compose arbitrary numbers of functions (or callables), use the compose_mult recipe from the functional module documentation.

A solution which uses that:

from functional import compose, foldr, partial
from itertools  import imap
compose_mult = partial(reduce, compose) 
chain_nodes = lambda nodes: imap(compose_mult(nodes[1:]), nodes[0])
chain_gen_nodes = lambda nodes: imap(compose_mult((g.send for g in nodes[1:])), nodes[0])


# equivalent not as a one-liner
#def chain_nodes(nodes):
#    source = nodes[0]
#    composed_nodes = compose_mult(nodes[1:])
#    return (composed_nodes(x) for x in source)

If the nodes are generators that accept input (via send), then use chain_gen_nodes, which extracts their send function.

Note, however, that one is not allowed to send to a just-started generator (because it has to be at the point of a yield to receive the value). This is something you are going to have to handle yourself, such as by having your generators yield a dummy value on their first iteration, and advancing them at some point before sending them to chain_nodes. Or you could just keep your nodes as ordinary callables.

If you do need to advance the iterators one step: next(izip(*nodes[1:]))

share|improve this answer
    
That is what I wrote in my question - that is the principle I want to achieve. Problem is, that the list of nodes is not known prior to computation. That is why I have listed nodes as an array nodes = [...]. –  Stiivi Apr 12 '12 at 12:35
1  
@Stiivi It is not what you wrote. However, I have updated my answer. –  Marcin Apr 12 '12 at 12:41
    
I apologize for not being clear enough and thank you for your suggestion - seems to be useful solution. Do you think it can be done using standard python library ('no' or 'too complicated' is also accepted simple answer)? I would like to avoid more dependencies (functional in this case). –  Stiivi Apr 12 '12 at 18:31
    
@Stiivi reduce and partial exist in the standard library. You can probably roll your own version of compose quite easily. –  Marcin Apr 12 '12 at 19:48
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.