# How to use flatMap() and reduce() on a range of a 2d array

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, +)
``````
• Please give both input (which you have) and desired output.
– matt
Oct 28, 2020 at 18:40
• I updated my question. Thanks! : ) Oct 28, 2020 at 18:45

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, +)
``````

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()`.

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.

• 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. :) 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) Oct 31, 2020 at 5:13