A field (as well as any other object which inherits from cf.Variable) always contains a cf.Units object which gives the physical units of the values contained in its data array.
The cf.Units object is stored in the field’s Units attribute but may also be accessed through the field’s units and calendar CF properties, which may take any value allowed by the CF conventions. In particular, the value of the units CF property is a string that can be recognized by UNIDATA’s Udunits-2 package, with a few exceptions for greater consistency with CF. These are detailed by cf.Units object.
The Field’s units may be assigned directly to its cf.Units object:
>>> f.Units.units = 'days since 1-1-1'
>>> f.Units.calendar = 'noleap'
>>> f.Units = cf.Units('metre')
But the same result is achieved by assigning to the field’s units and calendar CF properties:
>>> f.units = 'days since 1-1-1'
>>> f.calendar = 'noleap'
>>> f.Units
<CF Units: days since 1-1-1 calendar=noleap>
>>> f.units
'days since 1-1-1'
>>> f.calendar
'noleap'
Time units may be given as durations of time or as an amount of time since a reference time:
>>> f.units = 'day'
>>> f.units = 'seconds since 1992-10-8 15:15:42.5 -6:00'
Note
It is recommended that the units 'year' and 'month' be used with caution, as explained in the following excerpt from the CF conventions: “The Udunits package defines a year to be exactly 365.242198781 days (the interval between 2 successive passages of the sun through vernal equinox). It is not a calendar year. Udunits includes the following definitions for years: a common_year is 365 days, a leap_year is 366 days, a Julian_year is 365.25 days, and a Gregorian_year is 365.2425 days. For similar reasons the unit 'month', which is defined to be exactly year/12, should also be used with caution.”
The date given in reference time units is always associated with one of the calendars recognized by the CF conventions and may be set with the calendar CF property (on the field or Units object).
If the calendar is not set then, as in the CF conventions, for the purposes of calculation and comparison, it defaults to the mixed Gregorian/Julian calendar as defined by Udunits:
>>> f.units = 'days since 2000-1-1'
>>> f.calendar
AttributeError: Can't get 'Field' attribute 'calendar'
>>> g.units = 'days since 2000-1-1'
>>> g.calendar = 'gregorian'
>>> g.Units.equals(f.Units)
True
The calendar is ignored for units other than reference time units.
Changing units to equivalent units causes the variable’s data array values to be modified in place (if required) when they are next accessed, and not before:
>>> f.units
'metre'
>>> f.array
array([ 0., 1000., 2000., 3000., 4000.])
>>> f.units = 'kilometre'
>>> f.units
'kilometre'
>>> f.array
array([ 0., 1., 2., 3., 4.])
>>> f.units
'hours since 2000-1-1'
>>> f.array
array([-1227192., -1227168., -1227144.])
>>> f.units = 'days since 1860-1-1'
>>> f.array
array([ 1., 2., 3.])
The cf.Units object may be operated on with augmented arithmetic assignments and binary arithmetic operations:
>>> f.units
'kelvin'
>>> f.array
array([ 273.15, 274.15, 275.15, 276.15, 277.15])
>>> f.Units -= 273.15
>>> f.units
'K @ 273.15'
>>> f.array
array([ 0., 1., 2., 3., 4.])
>>> f.Units = f.Units + 273.15
>>> f.units
'K'
>>> f.array
array([ 273.15, 274.15, 275.15, 276.15, 277.15])
>>> f.units = 'K @ 237.15'
'K @ 273.15'
>>> f.array
array([ 0., 1., 2., 3., 4.])
If the field has a data array and its units are changed to non-equivalent units then a TypeError will be raised when the data are next accessed:
>>> f.units
'm s-1'
>>> f.units = 'K'
>>> f.array
TypeError: Units are not convertible: <CF Units: m s-1>, <CF Units: K>
Warning
Do not change the calendar of reference time units in the current version. Whilst this is possible, it will almost certainly result in an incorrect interpretation of the data array or an error. Allowing the calendar to be changed is under development and will be available soon.
The cf.Units object has methods for assessing whether two units are equivalent or equal, regardless of their exact string representations.
Two units are equivalent if and only if numeric values in one unit are convertible to numeric values in the other unit (such as 'kilometres' and 'metres'). Two units are equal if and only if they are equivalent and their conversion is a scale factor of 1 (such as 'kilometres' and '1000 metres'). Note that equivalence and equality are based on internally stored binary representations of the units, rather than their string representations.
>>> f.units = 'm/s'
>>> g.units = 'm s-1'
>>> f.Units == g.Units
True
>>> f.Units.equals(g.Units)
True
>>> g.units = 'km s-1'
>>> f.Units.equivalent(g.Units)
False
>>> f.units = 'days since 1987-12-3'
>>> g.units = 'hours since 2000-12-1'
>>> f.Units == g.Units
False
>>> f.Units.equivalent(g.Units)
True
The units of a coordinate’s bounds are always the same as the coordinate itself, and the units of the bounds automatically change when a coordinate’s units are changed:
>>> c.units
'degrees'
>>> c.bounds.units
'degrees'
>>> c.bounds.array
array([ 0., 90.])
>>> c.units = 'radians'
>>> c.bounds.units
'radians'
>>> c.bounds.array
array([ 0. , 1.57079633])