# What is clearest way to add up all elements in 2 dimensional array by position using Ruby?

What is the clearest and most efficient way to add all the elements in 2D array by their position in Ruby. Example:

``````2darray = [[1,2,3],[1,2,3]]
result = [2,4,6]
``````

I have the following code

``````def sum_elements_by_position(array)
total_elements = array.length
result = []

for i in 0...array.first.length
n = 0
array.each { |subarray| n += subarray[i] }
result << n
end
result
end
``````

Assumptions: All primary elements are of the same length

For bonus points it would be great to see a solution that works primary elements of an arbitrary length

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Minitech has the answer for you. To deal with arbitrary length, you should `zip` from the longest array, then deal with the `nil`s in the `inject`. –  oldergod Dec 18 '12 at 0:41

You can `zip` the first row with the rest of them and then do the sum:

``````def sum_elements_by_position(array)
array[0].zip(*array[1..-1]).map do |col|
col.inject(:+)
end
end
``````
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@oldergod: I do. Getting my aliases mixed up! Thanks! –  U2744 SNOWFLAKE Dec 18 '12 at 0:37
Thanks! had to look up some of the methods but its a nice way of doing it and definitely shorter than my method. Both run about as fast as each other when benchmarked. –  Stanislav Beremski Dec 18 '12 at 0:55

Here's a solution addressing when the rows aren't the same length.

``````def sum_cols arr
arr.reduce( [] ) do |res,row|
row.each_with_index { |e,i| res[i] ||= 0; res[i] += e }
res
end
end

irb> sum_cols [ [0,1,2], [3,4], [5,6,7,8] ]
=> [8, 11, 9, 8]
``````

@oldergod suggested using zip based on the longest row, but finding the longest row and rejecting nils has a cost. I benchmarked the following against the above method using the example array above and found the reduce+each_with_index method more than 30% faster:

``````def sum_cols_using_zip arr
max_len = arr.map(&:size).max
([0] * max_len).zip(*arr).map do |col|
col.compact.inject(:+)
end
end
``````
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I'd do this:

``````a.transpose.map {|x| x.reduce(:+)}
``````

Clean, simple, flexible. The `.transpose` turns this

``````[[1,2,3,4],[2,3,4,5],[3,4,5,6]]
``````

into this

``````[[1, 2, 3], [2, 3, 4], [3, 4, 5], [4, 5, 6]]
``````

and then `.map` applies `.reduce` to each subarray. And `.reduce`, in turn, aggregates the subvalues by adding them. Or, more precisely, by applying the `+` method to them.

I highly recommend reading the doc for these functions until you fully understand this example, as it's a pretty good succinct demonstration of how to think in a Rubyish way!

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