# Get diagonal without using numpy?

I'm trying to get the diagonal from a matrix in Python without using `numpy` (I really can't use it). Does someone here knows how to do it?

Example of what I want to get:

``````get_diagonal ([[1,2,3,4],[5,6,7,8],[9,10,11,12]], 1, 1, 1)
Result: [1, 6, 11]
``````

Or like:

``````get_diagonal ([[1,2,3,4],[5,6,7,8],[9,10,11,12]], 1, 2, 1)
Result: [2, 7, 12]
``````

Until know I've tried a lot of stuff but doesn't work.

``````def obter_diagonal(matrix, line, column, direc):
d = []
if direc == 1:
for i in matrix:
for j in i:
if all(i == line, j == column):
d.extend(matrix[i][j])
else:
for i in matrix:
for j in i:
d.extend[len(matrix)-1-i][j]
return d
``````

If `direc==1` I need to get the diagonal that goes from left-> right, top-> bottom.
If `direc==-1` need to get the diag that goes from right-> left, top->bottom.

To get the leading diagonal you could do

``````diag = [ mat[i][i] for i in range(len(mat)) ]
``````

or even

``````diag = [ row[i] for i,row in enumerate(mat) ]
``````

And play similar games for other diagonals. For example, for the counter-diagonal (top-right to bottom-left) you would do something like:

``````diag = [ row[-i-1] for i,row in enumerate(mat) ]
``````

For other minor diagonals you would have to use `if` conditionals in the list comprehension, e.g.:

``````diag = [ row[i+offset] for i,row in enumerate(mat) if 0 <= i+offset < len(row)]
``````

For diagonal:

`[m[i][i] for i in xrange(0, len(m))]`

For counter-diagonal:

`[m[i][~i] for i in xrange(0, len(m))]`

``````def get_diagonal(m, i0, j0, d):
return [m[(i0 + i - 1)%len(m)][(j0 + d*i - 1)%len(m)]
for i in range(len(m))]
``````

Which gets the diagonals in forward or reverse directions:

``````m = [[1, 2, 3, 4],
[5, 6, 7, 8],
[9,10,11,12]]

print get_diagonal(m, 1, 1, 1)    # [1, 6, 11]
print get_diagonal(m, 1, 2, 1)    # [2, 7, 12]
print get_diagonal(m, 1, 4,-1)    # [4, 7, 10]
``````

It even wraps around the matrix to get diagonals:

``````print get_diagonal(m, 1, 4, 1)    # [4, 5, 10]
print get_diagonal(m, 1, 1,-1)    # [1, 8, 11]
print get_diagonal(m, 3, 1, 1)    # [9, 2, 7 ]
``````
• The fact that the `i0` and `j0` position arguments don't represent the direct index of an element in `m` is confusing because sequences in Python are indexed starting from zero, not one, as they are. In other words, `get_diagonal(m, 1, 4, 1)` find the diagonal of element `m` not `m` as most would likely assume. – martineau Oct 22 '17 at 16:57
• Changing `get_diagonal()` to `return [m[(i0 + i) % len(m)][(j0 + d*i) % len(m)] for i in range(len(m))])` would make the `i0` and `j0` position arguments zero-based index values, as is customary. – martineau Oct 22 '17 at 17:26
• I'm guessing I used 1-based indexing because that's what the OP wanted from the examples given in the question. – bcorso Oct 25 '17 at 5:19

Well, I have a solution that works for me.

Input :

First line contains an integer N

The next N lines denote the matrix's rows, with each line containing space-separated integers describing the columns.

Sample Input :

``````3
11 2 4
4 5 6
10 8 -12
``````

Code :

``````import sys

n = int(input().strip())
a = []
for a_i in range(n):
a_t = [int(a_temp) for a_temp in input().strip().split(' ')]
a.append(a_t)

pri_d = [];
pri_m = 0;
sec_d = [];
sec_m = n - 1;
for i in a:
pri_d.append(i[pri_m]);
sec_d.append(i[sec_m]);
pri_m = pri_m + 1;
sec_m = sec_m - 1;
print(pri_d);
print(sec_d);
``````

output :

``````[11, 5, -12]
[4, 5, 10]
``````

Since nobody mentioned map or lambdas here, I'll leave a solution:

``````list(map(lambda x: x[a.index(x)], a))
``````

That way at array 0 it will grab element 0, and so on.

As for the opposite diagonal you might want to either flip the array bottom-up or take into consideration the length of the array minus one and subtract the current index to it:

``````list(map(lambda x: x[(len(a) - 1) - a.index(x)], a)))
``````

Hope it helps!