numpy.
dtype
Create a data type object.
A numpy array is homogeneous, and contains elements described by a dtype object. A dtype object can be constructed from different combinations of fundamental numeric types.
Object to be converted to a data type object.
Add padding to the fields to match what a C compiler would output for a similar C-struct. Can be True only if obj is a dictionary or a comma-separated string. If a struct dtype is being created, this also sets a sticky alignment flag isalignedstruct.
True
isalignedstruct
Make a new copy of the data-type object. If False, the result may just be a reference to a built-in data-type object.
False
See also
result_type
Examples
Using array-scalar type:
>>> np.dtype(np.int16) dtype('int16')
Structured type, one field name ‘f1’, containing int16:
>>> np.dtype([('f1', np.int16)]) dtype([('f1', '<i2')])
Structured type, one field named ‘f1’, in itself containing a structured type with one field:
>>> np.dtype([('f1', [('f1', np.int16)])]) dtype([('f1', [('f1', '<i2')])])
Structured type, two fields: the first field contains an unsigned int, the second an int32:
>>> np.dtype([('f1', np.uint64), ('f2', np.int32)]) dtype([('f1', '<u8'), ('f2', '<i4')])
Using array-protocol type strings:
>>> np.dtype([('a','f8'),('b','S10')]) dtype([('a', '<f8'), ('b', 'S10')])
Using comma-separated field formats. The shape is (2,3):
>>> np.dtype("i4, (2,3)f8") dtype([('f0', '<i4'), ('f1', '<f8', (2, 3))])
Using tuples. int is a fixed type, 3 the field’s shape. void is a flexible type, here of size 10:
int
void
>>> np.dtype([('hello',(np.int64,3)),('world',np.void,10)]) dtype([('hello', '<i8', (3,)), ('world', 'V10')])
Subdivide int16 into 2 int8’s, called x and y. 0 and 1 are the offsets in bytes:
int16
int8
>>> np.dtype((np.int16, {'x':(np.int8,0), 'y':(np.int8,1)})) dtype((numpy.int16, [('x', 'i1'), ('y', 'i1')]))
Using dictionaries. Two fields named ‘gender’ and ‘age’:
>>> np.dtype({'names':['gender','age'], 'formats':['S1',np.uint8]}) dtype([('gender', 'S1'), ('age', 'u1')])
Offsets in bytes, here 0 and 25:
>>> np.dtype({'surname':('S25',0),'age':(np.uint8,25)}) dtype([('surname', 'S25'), ('age', 'u1')])
alignment
The required alignment (bytes) of this data-type according to the compiler.
base
Returns dtype for the base element of the subarrays, regardless of their dimension or shape.
byteorder
A character indicating the byte-order of this data-type object.
char
A unique character code for each of the 21 different built-in types.
descr
__array_interface__ description of the data-type.
fields
Dictionary of named fields defined for this data type, or None.
None
flags
Bit-flags describing how this data type is to be interpreted.
hasobject
Boolean indicating whether this dtype contains any reference-counted objects in any fields or sub-dtypes.
Boolean indicating whether the dtype is a struct which maintains field alignment.
isbuiltin
Integer indicating how this dtype relates to the built-in dtypes.
isnative
Boolean indicating whether the byte order of this dtype is native to the platform.
itemsize
The element size of this data-type object.
kind
A character code (one of ‘biufcmMOSUV’) identifying the general kind of data.
name
A bit-width name for this data-type.
names
Ordered list of field names, or None if there are no fields.
ndim
Number of dimensions of the sub-array if this data type describes a sub-array, and 0 otherwise.
0
num
A unique number for each of the 21 different built-in types.
shape
Shape tuple of the sub-array if this data type describes a sub-array, and () otherwise.
()
str
The array-protocol typestring of this data-type object.
subdtype
Tuple (item_dtype, shape) if this dtype describes a sub-array, and None otherwise.
(item_dtype, shape)
type
The type object used to instantiate a scalar of this data-type.
Methods
newbyteorder([new_order])
newbyteorder
Return a new dtype with a different byte order.
