# The number of occurences of elements in a vector [JULIA]

I have a vector of 2500 values composed of repeated values and `NaN` values. I want to remove all the `NaN` values and compute the number of occurrences of each other value.

``````y
2500-element Array{Int64,1}:
8
43
NaN
46
NaN
8
8
3
46
NaN
``````

For example: the number of occurences of 8 is 3 the number of occurences of 46 is 2 the number of occurences of 43 is 1.

``````y=rand(1:10,20)
u=unique(y)
d=Dict([(i,count(x->x==i,y)) for i in u])
println("count for 10 is \$(d[10])")
``````
• it works. but l can't access to the array value by value, for instance (6,1) how can l read only then only 1 ?. l need that to draw a histogram. x-axis represents the different values and the y-axis is the number of occurnces of each value .[(i,count(x->x==i,y)) for i in u] 9-element Array{Tuple{Any,Int64},1}: (6,1) (1,2) (7,3) (10,3) (9,3) (2,3) (5,1) (3,2) (8,2) – vincet Aug 23 '16 at 13:34
• just edited for access by value – Felipe Lema Aug 23 '16 at 14:54
• This works, and is very elegant. But it passes over the array `y` many times. If you have many unique values in `y`, it becomes unbearably slow, easily several orders of magnitude slower than necessary. `countmap` avoids this problem. – DNF Aug 26 '16 at 13:34
• Not ruling out your comment (I actually didn't know about `countmap` and I'm checking out `StatsBase`), however, as you say so: "if you have". I'm convinced that premature optimization is evil and I'm a believer of "the rules of optimization" – Felipe Lema Aug 29 '16 at 11:54
• Well, that's fair enough as a personal philosophy. I don't share the (apparently widespread) negative opinion of optimization. Furthermore, answers on Stackoverflow are visible for posterity, so I think that pointing out potential performance problems is a reasonable thing to do. Not all optimization is "premature", especially if it just involves applying general coding principles (e.g. "pass over an array just once.") – DNF Sep 1 '16 at 6:23

To remove the `NaN` values you can use the filter function. From the Julia docs:

filter(function, collection)

Return a copy of collection, removing elements for which function is false.

``````x = filter(y->!isnan(y),y)
filter!(y->!isnan(y),y)
``````

Thus, we create as our function the conditional `!isnan(y)` and use it to filter the array `y` (note, we could also have written `filter(z->!isnan(z),y)` using `z` or any other variable we chose, since the first argument of `filter` is just defining an inline function). Note, we can either then save this as a new object or use the modify in place version, signaled by the `!` in order to simply modify the existing object `y`

Then, either before or after this, depending on whether we want to include the `NaN`s in our count, we can use the `countmap()` function from StatsBase. From the Julia docs:

countmap(x)

Return a dictionary mapping each unique value in x to its number of occurrences.

``````using StatsBase
a = countmap(y)
``````

you can then access specific elements of this dictionary, e.g. `a[-1]` will tell you how many occurrences there are of `-1`

Or, if you wanted to then convert that dictionary to an Array, you could use:

``````b = hcat([[key, val] for (key, val) in a]...)'
``````

Note: Thanks to @JeffBezanon for comments on correct method for filtering `NaN` values.

• Filtering with `y->y!=NaN` doesn't work, because `NaN!=NaN` is true (as per the rules of IEEE floating point arithmetic). Instead you can filter with `y->!isnan(y)`. – Jeff Bezanson Aug 29 '16 at 21:51
• @JeffBezanson Good catch, thanks! I corrected it in the response. – Michael Ohlrogge Aug 29 '16 at 22:25

`countmap` is the best solution I've seen so far, but here's a written out version, which is only slightly slower. It only passes over the array once, so if you have many unique values, it is very efficient:

``````function countmemb1(y)
d = Dict{Int, Int}()
for val in y
if isnan(val)
continue
end
if val in keys(d)
d[val] += 1
else
d[val] = 1
end
end
return d
end
``````

The solution in the accepted answer can be a bit faster if there are a very small number of unique values, but otherwise scales poorly.

Edit: Because I just couldn't leave well enough alone, here's a version that is more generic and also faster (`countmap` doesn't accept strings, sets or tuples, for example):

``````function countmemb(itr)
d = Dict{eltype(itr), Int}()
for val in itr
if isa(val, Number) && isnan(val)
continue
end
d[val] = get!(d, val, 0) + 1
end
return d
end
``````