3

I'm having a 2d array and I want to use something similar to flatMap and reduce together with a range of each of the two dimension. In my example I want to add each number from position 1 to 3 in each row 0 to 2.

My code at the moment looks similar to the following and it does work.

let array = [
     [3,6,8,4],
     [3,7,4,6],
     [2,4,5,7],
     [5,3,7,4]
]

let row = 1
let col = 2
var reducedValue = 0        
        
(row-1...row+1).forEach {
     reducedValue = array[$0][col-1...col+1].compactMap { $0 }.reduce(reducedValue, +)
}

The expected output is:

51
//6 + 8 + 4 + 7 + 4 + 6 + 4 + 5 + 7

However I was wondering if there is a solution similar to the this one:

reducedValue = array[row-1...row+1][col-1...col+1].compactMap { $0 }.reduce(0, +)

Or maybe even without the compactMap similar to this:

reducedValue = array[row-1...row+1][col-1...col+1].reduce(0, +)
2
  • 1
    Please give both input (which you have) and desired output.
    – matt
    Oct 28, 2020 at 18:40
  • I updated my question. Thanks! : )
    – Marco Boerner
    Oct 28, 2020 at 18:45

3 Answers 3

Reset to default
4

You could flatten the array of arrays and then reduce that. For example:

let total = array[row-1...row+1]
    .flatMap { $0[col-1...col+1] }
    .reduce(0, +)

That yields:

51

If you wanted to avoid the overhead of building that flattened array (which is immaterial unless dealing with very large subarrays, i.e., millions of values), you can perform the calculation lazily:

let total = array[row-1...row+1]
    .lazy
    .flatMap { $0[col-1...col+1] }
    .reduce(0, +)
2

Another option, which adds the values of the selected rows and columns without creating an intermediate array:

let value = array[row-1...row+1].reduce(0, { $0 + $1[col-1...col+1].reduce(0, +) })
print(value) // 51

The outer reduce() iterates over the selected rows and adds for each row the sum of the values of the values in the selected columns, which are computed in the inner reduce().

1

While the functional approach would give you the most succinct code

let result = array[row-1...row+1].reduce(into: 0) { $0 += $1[col-1...col+1].reduce(into: 0, +=) }

, the classic imperative code should not be ignored:

var result = 0
for i in row-1...row+1 {
    for j in col-1...col+1 {
        result += array[i][j]
    }
}

The imperative approach, though more verbose and not 100% Swift idiomatic (uses a var when a let alternative exists), is more readable in this particular context, of processing mathematical concepts.

2
  • I do like the imperative code as well in terms of understanding and readability. However my original code was already embedded in pretty much two similar for-in loops to iterate over the 2d array. And store each value in a new 2d array. That would have meant 4 levels of for-in loops. :)
    – Marco Boerner
    Oct 30, 2020 at 23:04
  • @MarcoBoerner, yeah, 4 level of for loops are not nice at all. You might want to split that logic in two: computing the 2d arrays, computing the sum for each 2d array, regardless of the sum computation approach you take (functional or imperative)
    – Cristik
    Oct 31, 2020 at 5:13

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