# Aggregating Tally counters

Many times I find myself counting occurrences with `Tally[ ]` and then, once I discarded the original list, having to add (and join) to that counters list the results from another list.

This typically happens when I am counting configurations, occurrences, doing some discrete statistics, etc.

So I defined a very simple but handy function for Tally aggregation:

``````aggTally[listUnTallied__List:{},
listUnTallied1_List,
listTallied_List] :=
Join[Tally@Join[listUnTallied, listUnTallied1], listTallied] //.
{a___, {x_, p_}, b___, {x_, q_}, c___} -> {a, {x, p + q}, b, c};
``````

Such that

``````l = {x, y, z}; lt = Tally@l;
n = {x};
m = {x, y, t};

aggTally[n, {}]
{{x, 1}}

aggTally[m, n, {}]
{{x, 2}, {y, 1}, {t, 1}}

aggTally[m, n, lt]
{{x, 3}, {y, 2}, {t, 1}, {z, 1}}
``````

This function has two problems:

1) Performance

``````Timing[Fold[aggTally[Range@#2, #1] &, {}, Range[100]];]
{23.656, Null}
(* functional equivalent to *)
Timing[s = {}; j = 1; While[j < 100, s = aggTally[Range@j, s]; j++]]
{23.047, Null}
``````

2) It does not validate that the last argument is a real Tallied list or null (less important for me, though)

Is there a simple, elegant, faster and more effective solution? (I understand that these are too many requirements, but wishing is free)

-

## 4 Answers

Perhaps, this will suit your needs?

``````aggTallyAlt[listUnTallied__List : {}, listUnTallied1_List, listTallied : {{_, _Integer} ...}] :=
{#[[1, 1]], Total@#[[All, 2]]} & /@
GatherBy[Join[Tally@Join[listUnTallied, listUnTallied1], listTallied], First]
``````

The timings are much better, and there is a pattern-based check on the last arg.

EDIT:

Here is a faster version:

``````aggTallyAlt1[listUnTallied__List : {}, listUnTallied1_List, listTallied : {{_, _Integer} ...}] :=
Transpose[{#[[All, 1, 1]], Total[#[[All, All, 2]], {2}]}] &@
GatherBy[Join[Tally@Join[listUnTallied, listUnTallied1], listTallied], First]
``````

The timings for it:

``````In[39]:= Timing[Fold[aggTallyAlt1[Range@#2, #1] &, {}, Range[100]];]
Timing[s = {}; j = 1; While[j < 100, s = aggTallyAlt1[Range@j, s]; j++]]

Out[39]= {0.015, Null}

Out[40]= {0.016, Null}
``````
-
It really flies! –  belisarius Feb 28 '11 at 15:51
Your second version is VERY fast. It seems ReplaceRepeated[ ] should be used very carefully when performance is an issue. –  belisarius Feb 28 '11 at 16:02
Indeed, `ReplaceRepeated` should be used with care. I have a small section on this topic in my book: mathprogramming-intro.org/book/node355.html. To see some example where its performance is quite decent (due to usage of linked lists), you may want to look at e.g. this thread: groups.google.com/group/comp.soft-sys.math.mathematica/msg/…. So, it all depends on the pattern. Patterns with many blanks are usually inefficient when used with `ReplaceRepeated`. –  Leonid Shifrin Feb 28 '11 at 16:10
Thanks for the pointers. I'll have to revisit some old code ... –  belisarius Feb 28 '11 at 16:20

The following solution is just a small modification of your original function. It applies `Sort` before using `ReplaceRepeated` and can thus use a less general replacement pattern which makes it much faster:

``````aggTally[listUnTallied__List : {}, listUnTallied1_List,
listTallied : {{_, _Integer} ...}] :=
Sort[Join[Tally@Join[listUnTallied, listUnTallied1],
listTallied]] //. {a___, {x_, p_}, {x_, q_}, c___} -> {a, {x, p + q}, c};
``````
-
Although the performance is not comparable to those solutions without patterns, the improvement over my function is really impressive with such a little modification. Thanks. –  belisarius Feb 28 '11 at 16:52

Here's the fastest thing I've come up with yet, (ab)using the tagging available with `Sow` and `Reap`:

``````aggTally5[untallied___List, tallied_List: {}] :=
Last[Reap[
Scan[((Sow[#2, #] &) @@@ Tally[#]) &, {untallied}];
Sow[#2, #] & @@@ tallied;
, _, {#, Total[#2]} &]]
``````

Not going to win any beauty contests, but it's all about speed, right? =)

-
Thanks! I didn't check why, but seems to fail with aggTally2[m, n, lt] (arguments in the question). Where have you been? We missed you! :) –  belisarius Feb 28 '11 at 15:56
Very, very busy, so I've been mostly lurking. I see that several of my colleagues are carrying the torch admirably though! I updated my answer with the right paste, but I realized it's not quite right... –  Michael Pilat Feb 28 '11 at 16:18
Updated with a working solution, and faster all around to boot. –  Michael Pilat Feb 28 '11 at 16:50

If you stay purely symbolic, you may try something along the lines of

``````(Plus @@ Times @@@ Join[#1, #2] /. Plus -> List /. Times -> List) &
``````

for joining tally lists. This is stupid fast but returns something that isn't a tally list, so it needs some work (after which it may not be so fast anymore ;) ).

EDIT: So I've got a working version:

``````aggT = Replace[(Plus @@ Times @@@ Join[#1, #2]
/. Plus -> List
/. Times[a_, b_] :> List[b, a]),
k_Symbol -> List[k, 1], {1}] &;
``````

Using a couple of random symbolic tables I get

``````a := Tally@b;
b := Table[f[RandomInteger@99 + 1], {i, 100}];

Timing[Fold[aggT[#1, #2] &, a, Table[a, {i, 100}]];]
--> {0.104954, Null}
``````

This version only adds tally lists, doesn't check anything, still returns some integers, and comparing to Leonid's function:

``````Timing[Fold[aggTallyAlt1[#2, #1] &, a, Table[b, {i, 100}]];]
--> {0.087039, Null}
``````

it's already a couple of seconds slower :-(.

Oh well, nice try.

-
It seems to return inhomogeneous elements. Those having only one occurrence does not show the counter. –  belisarius Feb 28 '11 at 15:43
Uuh, well, like I said it's very rough around the edges. Mainly I just wanted to show off an outside the box idea. I'll see if I have time to play around with it some more, though Leonid seems to be on the ball. –  Timo Feb 28 '11 at 17:42
Thanks for your effort! There are very good answers already. Anyway, I'll keep it open for a couple of days. –  belisarius Feb 28 '11 at 21:24