# how to get set of three next values from generator in a loop

I have one question because I can not find a solution for my problem.

gen is a generator (result of difflib.Differ.compare()):

normally by iterating over gen I can read each line. The problem is that on each iteration I need to read the current line and the two next lines.

Example (normal output by iterating line by line):

``````iteration 1:
line = 'a'
iteration 2:
line = 'b'
iteration 3:
line = 'c'
iteration 4:
line = 'd'
iteration 5:
line = 'e'
iteration 6:
line = 'f'
iteration 7:
line = 'g'
``````

but in my case I need to get this:

``````iteration 1:
line = 'a'
next1 = 'b'
next2 = 'c'
iteration 2:
line = 'b'
next1 = 'c'
next2 = 'd'
iteration 3:
line = 'c'
next1 = 'd'
next2 = 'e'
iteration 4:
line = 'd'
next1 = 'e'
next2 = 'f'
iteration 5:
line = 'e'
next1 = 'f'
next2 = 'g'
iteration 6:
line = 'f'
next1 = 'g'
next2 = None
iteration 7:
line = 'g'
next1 = None
next2 = None
``````

I was trying to play with gen.send(), itertools.islice(), but I can not find the proper solution. I don't want to convert this generator into a list (then I could read next1 as gen[i + 1], next2 as gen[i + 2], but this is totally inefficient when the diff output is large.

-
Is `gen` reading from a file? –  jadkik94 Dec 5 '12 at 20:52

Try keeping temporary variables.

``````line = iterator.next()
next1 = iterator.next()

for next2 in iterator:
#do stuff
line = next1
next1 = next2
``````
-
looking at this code it seems to be the most optimal way, isn't it? I have tried this example and seems to work as expected. –  user1880342 Dec 5 '12 at 21:52
It's effectively the same thing as jadkik94's solution, except his is constructed to be it's own function. For simplicity and ease of use, I would recommend using his `genby3` function: `for x, y, z in genby3(xrange(10)):...`. –  TorelTwiddler Dec 6 '12 at 20:45

This is what I'd suggest as a general solution for any iterator/generator. I think it's most efficient this way.

``````def genby3(gen):
it = iter(gen) # Make it a separate iterator, to avoid consuming it totally
L1 = it.next() # Get the first two elements
L2 = it.next()
for L3 in it:
yield [L1, L2, L3] # Get the results grouped in 3
L1, L2 = L2, L3 # Update the last 2 elements
yield [L2, L3, None] # And take care of the last 2 cases
yield [L3, None, None]

print list(genby3(xrange(10)))
``````

If it was a file you were reading from, you could `seek`, `readline` then go back, but it might get messy, so you can treat it as any other iterator.

UPDATE: Made it work nicely for more than just 3 items per iteration, it works just as the other does.

``````def genby(gen, n):
assert n>=1, 'This does not make sense with less than one element'
it = iter(gen)
last = list(it.next() for i in xrange(n-1))

for nth_item in it:
last = last+[nth_item]
yield last
last.pop(0)

for i in xrange(n-1):
last = last+[None]
yield last
last.pop(0)

r = xrange(10)
for i, n in enumerate(genby(r, 3)):
print i, 'iteration'
print '\t', n
``````

Edit 2: Moved the concatenation of the lists before the yield statement, just to avoid having to make it twice. Slight improvement performance wise.

-
I have tried it and works as expected, but I wonder if this is the most efficient way of doing it. In my opinion the best way to achieve this suggested TorelTwiddler. –  user1880342 Dec 5 '12 at 21:56
@user1880342 It's the same as mine, except mine is wrapped in a function that acts as a generator too. And the updated version works for more than only 3 items, but that might not be relevant to your use case. –  jadkik94 Dec 6 '12 at 7:44
@user1880342 Also, it does not take care of the last few items with `None`s, but it would be straight-forward to do it from there. –  jadkik94 Dec 6 '12 at 7:51

How about zipping the three sequences together?

``````izip_longest(gen, islice(gen,1,None), islice(gen,2,None), fillvalue=None)
``````
-
That doesn't work. The first loop generates the the first, third and sixth values generated by `gen` and discards the values in-between. –  pillmuncher Dec 5 '12 at 21:23

There's a recipe in the `itertools` docs, `pairwise()`. It can be adapted:

``````from itertools import tee, izip_longest

def triplewise(iterable):
xs, ys, zs = tee(iterable, 3)
next(ys, None)
next(zs, None)
next(zs, None)
return izip_longest(xs, ys, zs)

for line, next1, next2 in triplewise(gen):
...
``````

It can also be generalized:

``````from itertools import tee, izip, izip_longest, islice

no_fillvalue = object()

def nwise(iterable, n=2, fillvalue=no_fillvalue):
iters = (islice(each, i, None) for i, each in enumerate(tee(iterable, n)))
if fillvalue is no_fillvalue:
return izip(*iters)
return izip_longest(*iters, fillvalue=fillvalue)

for line, next1, next2 in nwise(gen, 3, None):
...
``````
-

You could use something like this:

``````def genTriplets(a):
first = a.next()
second = a.next()
third = a.next()
while True:
yield (first, second, third)
first = second
second = third
try:
third = a.next()
except StopIteration:
third = None
if (first is None and second is None and third is None):
break
``````
-
I have tried it and works as expected, but I wonder if this is the most efficient way of doing it. In my opinion the best way to achieve this suggested TorelTwiddler. –  user1880342 Dec 5 '12 at 21:57
Yes, TorelTwiddler's approach is faster (though both are O(n)). However, wrapping your iteration logic in a generator allows you to separate it from the code invoking it; this could make later changes easier (such as accommodating variable window-widths, as jadkik94 implemented). Depending on your application, this might be worth the performance hit. –  dckrooney Dec 5 '12 at 22:54