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