I think you are a bit confused about what
mahal() is doing. First, computation of the Mahalanobis distance requires a population of points, from which the covariance will be calculated.
In the Matlab docs for this function it makes it clear that the distance being computed is:
d(I) = (Y(I,:)-mu)*inv(SIGMA)*(Y(I,:)-mu)'
mu is the population average of
SIGMA is the population covariance matrix of
X. Since your population consists of a single point (the origin), it has no covariance, and so the
SIGMA matrix is not invertible, hence the error where you get NaN/Inf values in the distances.
If you know the covariance structure that you want to use for the Mahalanobis distance, then you can just use the formula above to compute it for yourself. Let's say that the covariance you care about is stored in a matrix
S. You want the distance w.r.t. the origin, so you don't need to subtract anything from the values in
Y, all you need to compute is:
for ii = 1:size(Y,1)
d(ii) = Y(ii,:)*inv(S)*Y(ii,:)'; % Where Y(ii,:) is assumed to be a row vector.'