numpy.mat

numpy.copyto

# Array manipulation routines¶

## Basic operations¶

 `copyto`(dst, src[, casting, where]) Copies values from one array to another, broadcasting as necessary.

## Changing array shape¶

 `reshape`(a, newshape[, order]) Gives a new shape to an array without changing its data. `ravel`(a[, order]) Return a contiguous flattened array. `ndarray.flat` A 1-D iterator over the array. `ndarray.flatten`([order]) Return a copy of the array collapsed into one dimension.

## Transpose-like operations¶

 `moveaxis`(a, source, destination) Move axes of an array to new positions. `rollaxis`(a, axis[, start]) Roll the specified axis backwards, until it lies in a given position. `swapaxes`(a, axis1, axis2) Interchange two axes of an array. `ndarray.T` Same as self.transpose(), except that self is returned if self.ndim < 2. `transpose`(a[, axes]) Permute the dimensions of an array.

## Changing number of dimensions¶

 `atleast_1d`(*arys) Convert inputs to arrays with at least one dimension. `atleast_2d`(*arys) View inputs as arrays with at least two dimensions. `atleast_3d`(*arys) View inputs as arrays with at least three dimensions. `broadcast` Produce an object that mimics broadcasting. `broadcast_to`(array, shape[, subok]) Broadcast an array to a new shape. `broadcast_arrays`(*args, **kwargs) Broadcast any number of arrays against each other. `expand_dims`(a, axis) Expand the shape of an array. `squeeze`(a[, axis]) Remove single-dimensional entries from the shape of an array.

## Changing kind of array¶

 `asarray`(a[, dtype, order]) Convert the input to an array. `asanyarray`(a[, dtype, order]) Convert the input to an ndarray, but pass ndarray subclasses through. `asmatrix`(data[, dtype]) Interpret the input as a matrix. `asfarray`(a[, dtype]) Return an array converted to a float type. `asfortranarray`(a[, dtype]) Return an array laid out in Fortran order in memory. `ascontiguousarray`(a[, dtype]) Return a contiguous array in memory (C order). `asarray_chkfinite`(a[, dtype, order]) Convert the input to an array, checking for NaNs or Infs. `asscalar`(a) Convert an array of size 1 to its scalar equivalent. `require`(a[, dtype, requirements]) Return an ndarray of the provided type that satisfies requirements.

## Joining arrays¶

 `concatenate`((a1, a2, ...)[, axis]) Join a sequence of arrays along an existing axis. `stack`(arrays[, axis]) Join a sequence of arrays along a new axis. `column_stack`(tup) Stack 1-D arrays as columns into a 2-D array. `dstack`(tup) Stack arrays in sequence depth wise (along third axis). `hstack`(tup) Stack arrays in sequence horizontally (column wise). `vstack`(tup) Stack arrays in sequence vertically (row wise).

## Splitting arrays¶

 `split`(ary, indices_or_sections[, axis]) Split an array into multiple sub-arrays. `array_split`(ary, indices_or_sections[, axis]) Split an array into multiple sub-arrays. `dsplit`(ary, indices_or_sections) Split array into multiple sub-arrays along the 3rd axis (depth). `hsplit`(ary, indices_or_sections) Split an array into multiple sub-arrays horizontally (column-wise). `vsplit`(ary, indices_or_sections) Split an array into multiple sub-arrays vertically (row-wise).

## Tiling arrays¶

 `tile`(A, reps) Construct an array by repeating A the number of times given by reps. `repeat`(a, repeats[, axis]) Repeat elements of an array.

 `delete`(arr, obj[, axis]) Return a new array with sub-arrays along an axis deleted. `insert`(arr, obj, values[, axis]) Insert values along the given axis before the given indices. `append`(arr, values[, axis]) Append values to the end of an array. `resize`(a, new_shape) Return a new array with the specified shape. `trim_zeros`(filt[, trim]) Trim the leading and/or trailing zeros from a 1-D array or sequence. `unique`(ar[, return_index, return_inverse, ...]) Find the unique elements of an array.
 `flip`(m, axis) Reverse the order of elements in an array along the given axis. `fliplr`(m) Flip array in the left/right direction. `flipud`(m) Flip array in the up/down direction. `reshape`(a, newshape[, order]) Gives a new shape to an array without changing its data. `roll`(a, shift[, axis]) Roll array elements along a given axis. `rot90`(m[, k, axes]) Rotate an array by 90 degrees in the plane specified by axes.