# How can I efficiently combine two time series to alternate?

Let's say I have two very long series - big and small

``````index = pd.date_range(start='1952', periods=10**6, freq='s')
big = pd.Series(np.ones(len(index))*97, index)
small = pd.Series(np.ones(len(index))*2, index)
``````

What I would like to achieve is create a new series which combines `big` and `small`, alternating between their values, using `borders` to determine when to switch to the other one (e.g. there is a border every 5 sec)

``````borders = pd.date_range(start='1952', periods=len(index)/5.0, freq='5s')
``````

Is there an efficient matrix-based operation combo that can be used to achieve this? I tried looking at various join, merge etc. operators in the docs, but couldn't find anything offering similar logic.

I could achieve this using a for-loop, but that lasts over a minute even for a series of `len()` 10ˆ5

``````alternating = pd.Series()
for i in range(1, 100, 2):
b0 = borders[i-1]
b1 = borders[i]
b2 = borders[i+1]
sec = pd.offsets.Second(1)
alternating = alternating.append(small[b0:b1-sec]).append(big[b1:b2-sec])
``````

Sample output of `alternating.head(24)`

``````1952-01-16 00:00:00     2
1952-01-16 00:00:01     2
1952-01-16 00:00:02     2
1952-01-16 00:00:03     2
1952-01-16 00:00:04     2
1952-01-16 00:00:05    97
1952-01-16 00:00:06    97
1952-01-16 00:00:07    97
1952-01-16 00:00:08    97
1952-01-16 00:00:09    97
1952-01-16 00:00:10     2
1952-01-16 00:00:11     2
1952-01-16 00:00:12     2
1952-01-16 00:00:13     2
1952-01-16 00:00:14     2
1952-01-16 00:00:15    97
1952-01-16 00:00:16    97
1952-01-16 00:00:17    97
1952-01-16 00:00:18    97
1952-01-16 00:00:19    97
1952-01-16 00:00:20     2
1952-01-16 00:00:21     2
1952-01-16 00:00:22     2
1952-01-16 00:00:23     2
``````
-

If your period is a fraction of a minute, you can try something like this:

``````index = pd.date_range(start='1952', periods=10**6, freq='s')
big = pd.Series(np.ones(len(index))*97, index)
small = pd.Series(np.ones(len(index))*2, index)

alternating = big[big.index.second % 10 >= 5].combine_first(small)
``````

`alternating` looks then exactly as you asked and is calculated within 150ms.

-
Great, this is what I needed! The weird thing is that I know these methods individually, but it's not that easy to start combining them mentally - the first thing that always comes to mind is a structural, loop-based algorithm... And to change the interval you just make the condition a bit more complex - e.g. `big.index.second / 17 % 2 == 0` for 17 sec. –  kermit666 Jan 16 '13 at 14:35
BTW, noticed that you reply really fast. Is there some app you're using? I tried subscribing to some tags through stackexchange, but I only get daily e-mail digests. Is there a faster method? –  kermit666 Jan 16 '13 at 14:38
17 seconds is not a fraction of a minute, therefore this won't work as awaited (0..16, 17..33, 34..50, 51..59, the last interval is shorter). But you can use this to calculate timedelta to some fixed datetime in total seconds or use the row number. –  eumiro Jan 16 '13 at 14:56
Yes, good spotting. what I got so far is `start = big.index[0].to_pydatetime()`and `alternating = big[(big.index.to_pydatetime() - start).total_seconds() / 17 % 2 == 0]`, but I can't seem to find a way to map the total_seconds() call to all elements. –  kermit666 Jan 16 '13 at 15:33
@kermit666, how about `big[(big.index.astype(np.int64) / 10**9) % 34 >= 17].combine_first(small)` –  eumiro Jan 16 '13 at 19:48