c_ | Translates slice objects to concatenation along the second axis. |
r_ | Translates slice objects to concatenation along the first axis. |
s_ | A nicer way to build up index tuples for arrays. |
nonzero (a) | Return the indices of the elements that are non-zero. |
where (condition, [x, y]) | Return elements, either from x or y , depending on condition . |
indices (dimensions[, dtype]) | Return an array representing the indices of a grid. |
ix_ (*args) | Construct an open mesh from multiple sequences. |
ogrid |
nd_grid instance which returns an open multi-dimensional “meshgrid”. |
ravel_multi_index (multi_index, dims[, mode, ...]) | Converts a tuple of index arrays into an array of flat indices, applying boundary modes to the multi-index. |
unravel_index (indices, dims[, order]) | Converts a flat index or array of flat indices into a tuple of coordinate arrays. |
diag_indices (n[, ndim]) | Return the indices to access the main diagonal of an array. |
diag_indices_from (arr) | Return the indices to access the main diagonal of an n-dimensional array. |
mask_indices (n, mask_func[, k]) | Return the indices to access (n, n) arrays, given a masking function. |
tril_indices (n[, k, m]) | Return the indices for the lower-triangle of an (n, m) array. |
tril_indices_from (arr[, k]) | Return the indices for the lower-triangle of arr. |
triu_indices (n[, k, m]) | Return the indices for the upper-triangle of an (n, m) array. |
triu_indices_from (arr[, k]) | Return the indices for the upper-triangle of arr. |
take (a, indices[, axis, out, mode]) | Take elements from an array along an axis. |
choose (a, choices[, out, mode]) | Construct an array from an index array and a set of arrays to choose from. |
compress (condition, a[, axis, out]) | Return selected slices of an array along given axis. |
diag (v[, k]) | Extract a diagonal or construct a diagonal array. |
diagonal (a[, offset, axis1, axis2]) | Return specified diagonals. |
select (condlist, choicelist[, default]) | Return an array drawn from elements in choicelist, depending on conditions. |
lib.stride_tricks.as_strided (x[, shape, ...]) | Create a view into the array with the given shape and strides. |