To caclulate the algorithmic complexity, you need to tally up the number of operations performed in the algorithm (the big-O notation is concerned about worst case scenario)

In the first case, you have a loop that is performed N times (y.length==N). Inside the loop you have one operation (executed on each iteration). This is linear in the number of inputs, so O(x)=N.

*Note*: calculating y[i].length is a constant length operation.

In the second case, you have the outer loop that is performed N times (just like in the first case), and in each iteration another loop if the same length (N==B[i].length) is executed. Inside the inner loop you have one operation (executed on each iteration of the inner loop). This is O(N*N)==O(N^2) overall.

*Note*: calculating b[i][j] is a constant length operation

*Note*: remember that for big-O, only the fastest-growing term matters, so additive constants can be ignored (e.g. the initialization of the return value and the return instruction are both operations, but are constants and not executed in a loop; the term depending on N grows faster than constant)