# How to use RxPY (or RxJS) combine_latest with a group_by observable

In ReactiveX I can take the latest value out of each of a number of observables, which each may or may not be emitting at different frequencies, as follows (using RxPY):

``````from __future__ import print_function

from rx import Observable
import time
import IPython
import random

random.seed(123)

x1 = Observable.interval(random.randint(50, 500))
x2 = Observable.interval(random.randint(50, 500))
x3 = Observable.interval(random.randint(50, 500))

xc = Observable.combine_latest(x1, x2, x3, lambda a1, a2, a3: [a1, a2, a3])

xc.subscribe(lambda s: print(s))

input("Press Enter to end")
``````

However, how would I do the same thing, that is, print the latest value from each of a set of observables, whenever any of the observables emits a value, when said observables were created using a group_by?

``````from __future__ import print_function

from rx import Observable
import time
import IPython
import random

random.seed(123)

n = 5
xx = Observable.interval(random.randint(50, 500)).group_by(lambda x: x % 5) # create n observables
print(xx)
``````

Thing is this returns an observable group object:

``````<rx.core.anonymousobservable.AnonymousObservable object at 0xb631bb10>
``````

So for any given n how would I perform the same combine_latest operation on this object?

I understand that in this stylized example the observables will emit at the same rate, but I need the solution to generalize to different emission frequencies as per the explicit example at the top.

Given that the structure of RxPY and RxJS are so similar, I am happy to consider analogous RxJS answers.

Edit: If the number of groups is finite and pretty small, this is a cleaner way you can go about this without sacrificing much performance:

``````groups\$.scan(lambda prev, group\$: [
Observable.combineLatest(prev + [group\$])\
.map(lambda nest: nest[0] + [nest[1]] if len(nest) == 2 else nest)
], [])
``````

Here, `scan` builds an Observable that emits any time any group emits. It does this by nesting the emissions from the list of groups in the previous iteration. Because `prev` is an observable of arrays, we flatting using `map` with list concat. The arrays wrapping the `scan` results accommodate the base case of the first group.

Edit: I realized a little after writing the answer below the line that its behavior, which doesn't emit any items until all streams have emitted one more, is probably not wanted. Off the top of my head, the shortest but certainly not the cleanest solution is to stash the latest values and start each stream with them, like so:

``````def group_combine(groups\$):
last = []

def mutate_last(v): # too bad this isn't JS :/
last = v

return groups\$.scan(lambda streams, next_stream: streams + [next_stream], [])\
.switch_map(lambda streams: Observable.combine_latest(
[stream.start_with(last[i]) if i < len(last) else stream\
for i, stream in enumerate(streams)]
))\
.for_each(mutate_last)
``````

Give this a try:

``````// groups\$ = x.group_by(...)
groups\$.scan(lambda streams, next_stream: streams + [next_stream], [])\
.switch_map(lambda streams: Observable.combine_latest(streams))\
.subscribe(lambda values: ...)
``````

First, we accumulate the group streams into a growing list, then we keep switching to the `combine_latest` over that list.

• Wow seems really complicated. Is there any advantage if, say, all the streams started emitting immediately and so existed kind of immediately? I think in my actual use case I would be able to organise that. So in my example where n=5, if you wait at most 2.5 seconds, then the group_by will be fully populated so you don't have to worry about accumulations. In that case, would there be a simpler solution? – Thomas Browne Oct 23 '17 at 8:26
• @ThomasBrowne You're in luck! If you don't have too many groups, I think the most recent edit will suit your needs. – concat Oct 23 '17 at 14:53