I loaded a MATLAB .mat
file via scipy.io.loadmat
and it gave me a list of numpy.void
objects.
What are they, how can they be used and where can I get some reference documentation on them?
According to the numpy
documentation: http://docs.scipy.org/doc/numpy/reference/arrays.dtypes.html, numpy.void
types are defined as flexible data types. Basically, these are data types where there is no pre-defined type associated to the variable(s) you're looking at. If you look at numpy
, you have data types such as float
, uint8
, bool
, string
, etc.
void
is to accommodate for more generic and flexible types and are for those data types that don't necessary fall into any one of these pre-defined data types. This situation is mostly encountered when you're loading in a struct
where each element has multiple data types associated with multiple fields. Each structure element could have a combination of different data types, and the amalgamation of all of these data types to represent an instance of this structure element thus leads us to numpy.void
.
With the documentation, you can certainly do the same operations like you would with any other data type. Take a look at the generic
data type methods here: http://docs.scipy.org/doc/numpy/reference/generated/numpy.generic.html#numpy.generic . In fact, all numpy
data types are derived from this generic class, including numpy.void
.
In the first link I provided at the beginning of this post, it shows a good example of how to create a custom record type, where a record is a combination of a tuple of numbers and a string. When creating a list of these records, each type in the list is of type numpy.void
and it demonstrates that a record is of this data type. However, bear in mind that this record list has a data type that is of this record, but each element of this list will be of type numpy.void
.
However, as a matter of self-containment, let's re-create the example here: Let's create a custom record type where it has two fields associated for each variable you create:
name
grades
As such, you'd do something like:
import numpy as np
dt = np.dtype([('name', np.str_, 16), ('grades', np.float64, (2,))])
As such, let's create an example list of two elements and instantiate their fields:
x = np.array([('Sarah', (8.0, 7.0)), ('John', (6.0, 7.0))], dtype=dt)
Because we made this list into a numpy.array
, we expect its data type to be so:
type(x)
We get:
<type 'numpy.ndarray'>
Remember, the list itself is a numpy.array
, but not the individual elements.
To access the second element of this list, which is the second record, we do:
x[1]
We get:
('John', [6.0, 7.0])
To check the type of the second record, we do:
type(x[1])
We get:
<type 'numpy.void'> # As expected
To access the name of the second record, we do:
x[1]['name']
We get:
'John'
To access the grades of the second record, we do:
x[1]['grades']
We get:
array([ 6., 7.])
To check the type of the name inside the second record, we do:
type(x[1]['name'])
We get:
<type 'numpy.string_'>
To check the type of the grades inside the second record, we do:
type(x[1]['grades'])
We get:
<type 'numpy.ndarray'>
Take note that each element in this list is of type numpy.void
. However, the individual fields for each element in our list is either a tuple of numbers, or a string. The collection of these elements together is of type numpy.void
.
itemsize
varies. A str_
is also a flexible dtype.
np.void
that doesn't have any .names
- which is just a chunk of raw memory (bytes, but not np.bytes_
which is null-terminated) - so np.array([b'123'], np.void)
is valid