# cf.Field.domain_axis_position¶

Field.domain_axis_position(identity)[source]

Return the position in the data of a domain axis construct.

New in version 3.0.0.

Parameters
identity:

Select the domain axis construct by one of:

• An identity or key of a 1-d coordinate construct that whose data spans the domain axis construct.

• A domain axis construct identity or key.

• The position of the domain axis construct in the field construct’s data.

A construct identity is specified by a string (e.g. 'latitude', 'long_name=time', 'ncvar%lat', etc.); or a compiled regular expression (e.g. re.compile('^atmosphere')) that selects the relevant constructs whose identities match via re.search.

Each construct has a number of identities, and is selected if any of them match any of those provided. A construct’s identities are those returned by its identities method. In the following example, the construct x has six identities:

>>> x.identities()
['time', 'long_name=Time', 'foo=bar', 'standard_name=time', 'ncvar%t', 'T']


A construct key may optionally have the 'key%' prefix. For example 'dimensioncoordinate2' and 'key%dimensioncoordinate2' are both acceptable keys.

A position of a domain axis construct in the field construct’s data is specified by an integer index.

Note that in the output of a print call or dump method, a construct is always described by one of its identities, and so this description may always be used as an identity argument.

Parameter example:

identity='long_name=Latitude'

Parameter example:

identity='dimensioncoordinate1'

Parameter example:

identity='domainaxis2'

Parameter example:

identity='key%domainaxis2'

Parameter example:

identity='ncdim%y'

Parameter example:

identity=2

Returns
int

The position in the field construct’s data of the selected domain axis construct.

Examples:

>>> f
<CF Field: air_temperature(time(12), latitude(64), longitude(128)) K>
>>> f.get_data_axes()
('domainaxis0', 'domainaxis1', 'domainaxis2')
>>> f.domain_axis_position('T')
0
>>> f.domain_axis_position('latitude')
1
>>> f.domain_axis_position('domainaxis1')
1
>>> f.domain_axis_position(2)
2
>>> f.domain_axis_position(-2)
1