Suppose I have a NxN matrix M (lil_matrix or csr_matrix) from scipy.sparse, and I want to make it (N+1)xN where M_modified[i,j] = M[i,j] for 0 <= i < N (and all j) and M[N,j] = 0 for all j. Basically, I want to add a row of zeros to the bottom of M and preserve the remainder of the matrix. Is there a way to do this without copying the data?
I don't think that there is any way to really escape from doing the copying. Both of those types of sparse matrices store their data as Numpy arrays (in the data and indices attributes for csr and in the data and rows attributes for lil) internally and Numpy arrays can't be extended. Update with more information: LIL does stand for LInked List, but the current implementation doesn't quite live up to the name. The Numpy arrays used for 


Scipy doesn't have a way to do this without copying the data but you can do it yourself by changing the attributes that define the sparse matrix. There are 4 attributes that make up the csr_matrix: data: An array containing the actual values in the matrix indices: An array containing the column index corresponding to each value in data indptr: An array that specifies the index before the first value in data for each row. If the row is empty then the index is the same as the previous column. shape: A tuple containing the shape of the matrix If you are simply adding a row of zeros to the bottom all you have to do is change the shape and indptr for your matrix.
Here is a function to handle the more general case of vstacking any 2 csr_matrices. You still end up copying the underlying numpy arrays but it is still significantly faster than the scipy vstack method.



Not sure if you're still looking for a solution, but maybe others can look into 

