# Count instances of each unique integer in a vector in 1 line of code?

Is there a slick way to rewrite this Julia function, perhaps using just 1 line of code, without making it much slower? (I just started using Julia. It's great!) `K` is a positive integer and `zd` is a vector of positive integers no greater than `K`. Thanks!

``````function tally(zd)
ret = zeros(Int64, K)
for k in zd
ret[k] += 1
end
return ret
end
``````

Example:

``````julia> K = 5
julia> zd = [1,2,2,2,2,3];
julia> tally(zd)
5-element Array{Float64,1}:
1
4
1
0
0
``````
• This seems pretty slick already. – John Myles White Jan 17 '14 at 15:34
• I guess I had in mind a 1 line solution using something like `reduce` or `fold`, and I was also just curious about other approaches, but you're right, this may be good enough. And I like the suggestions below to use `hist`. I think I'll do that. Thanks all for the feedback! – Jeff Jan 18 '14 at 20:52

I haven't tested the performance, but using the hist function should work:

``````hist(zd,0.5:K+0.5)
``````

gives:

5-element Array{Int64,1}: 1 4 1 0 0

or, if the zeros are unimportant, just use

``````hist(zd)
3-element Array{Int64,1}:
1
4
1
``````

Any alternative probably will not be faster. Your loop already does only one pass through the array. Julia loops are fast, and there is no speed advantage to vectorized code, as there is in other languages.

Have a look at Julia's implementation of the `hist` function. This is taken directly from the Julia Standard Library:

``````function hist(v::AbstractVector, edg::AbstractVector)
n = length(edg)-1
h = zeros(Int, n)
for x in v
i = searchsortedfirst(edg, x)-1
if 1 <= i <= n
h[i] += 1
end
end
edg,h
end
``````

The "edg" parameter contains the edges of the bins. If we remove that feature, we get exactly the function you wrote.

``````countmap(x[, wv])
Return a dictionary that maps distinct values in x to their counts (or total weights).
``````

There are a bunch of counting functions included in the StatsBase.jl package. Your tally function is equivalent to `counts(zd, 1:K)`.

There are also methods for counting unique elements of types other than integer, too, such as `countmap`, which returns a dictionary mapping unique values to their number of occurrences.

I know its old but how about

`[sum(zd .== i) for i in unique(zd)]`

in a short test it performed better than your initial function (time and memory wise).

Caution: result not sorted!