Array objects consist of one- or multidimensional homogeneous, fixed-size structures, i.e., they have a fixed number of elements all of the same datatype (which allows much faster methods than Python's list object). An array element is retrieved as A[i,j,k,..] (list elements are retrieved as L[i][j][k]..). A matrix is a two-dimensional array.
Arrays a have attributes a.attr, which can be distinguished in properties and methods a.meth(). The former return values (such as the shape and type) that belong to the array; the latter specify actions that are to be performed on the array. Often there is a function that performs the same action as a method; function and method then have the same name. However,the default settings of the parameters may differ for methods and their corresponding functions.
Arrays can be created in various ways:
with the function array(obj), where 'obj' is a (nested) sequence, e.g. a list [ ] or a tuple ( ). When 'obj' is an array, a copy of this array is returned. The function matrix does the same for matrices.
with the function copy(obj), where 'obj' is another array or matrix or a (nested) sequence,
with the function asarray(obj), which is like 'copy', except that no copy is made if 'obj' is already an array.
with the function empty(shape, dtype) which produces an uninitialized array with specified shape and typecode, or with the function empty_like(a) which produces an uninitialized array with the same shape and typecode as its argument a,
with the function ones(shape, dtype) producing an array initialized with ones, or ones_like(a).
with the function zeros(shape, dtype) producing an array initialized with zeros, or zeros_like(a),
with the function identity(n,dtype) producing a 2-d n*n identity matrix,
with the function arange(..) which does the same as array(range(..)),
with the function concatenate(..) which concatenates sequences to an array.