cf.DimensionCoordinate

---

class cf.DimensionCoordinate(properties=None, data=None, bounds=None, geometry=None, interior_ring=None, source=None, copy=True, _use_data=True)

Bases: cf.abstract.coordinate.Coordinate, cf.mixin.propertiesdatabounds.PropertiesDataBounds, cfdm.dimensioncoordinate.DimensionCoordinate

A dimension coordinate construct of the CF data model.

A dimension coordinate construct provides information which locate the cells of the domain and which depend on a subset of the domain axis constructs. The dimension coordinate construct is able to unambiguously describe cell locations because a domain axis can be associated with at most one dimension coordinate construct, whose data array values must all be non-missing and strictly monotonically increasing or decreasing. They must also all be of the same numeric data type. If cell bounds are provided, then each cell must have exactly two vertices. CF-netCDF coordinate variables and numeric scalar coordinate variables correspond to dimension coordinate constructs.

The dimension coordinate construct consists of a data array of the coordinate values which spans a subset of the domain axis constructs, an optional array of cell bounds recording the extents of each cell (stored in a cf.Bounds object), and properties to describe the coordinates. An array of cell bounds spans the same domain axes as its coordinate array, with the addition of an extra dimension whose size is that of the number of vertices of each cell. This extra dimension does not correspond to a domain axis construct since it does not relate to an independent axis of the domain. Note that, for climatological time axes, the bounds are interpreted in a special way indicated by the cell method constructs.

NetCDF interface

The netCDF variable name of the construct may be accessed with the nc_set_variable, nc_get_variable, nc_del_variable and nc_has_variable methods.

Initialisation

Parameters

properties: dict, optional

Set descriptive properties. The dictionary keys are property names, with corresponding values. Ignored if the source parameter is set.

Properties may also be set after initialisation with the set_properties and set_property methods.

Parameter example:

properties={'standard_name': 'time'}

data: Data, optional

Set the data array. Ignored if the source parameter is set.

The data array may also be set after initialisation with the set_data method.

bounds: Bounds, optional

Set the bounds array. Ignored if the source parameter is set.

The bounds array may also be set after initialisation with the set_bounds method.

source: optional

Initialize the properties, data and bounds from those of source.

copy: bool, optional

If False then do not deep copy input parameters prior to initialization. By default arguments are deep copied.

Inspection

Methods

dump	A full description of the dimension coordinate construct.
identity	Return the canonical identity.
identities	Return all possible identities.
direction	Return True if the dimension coordinate values are increasing, otherwise return False.

Attributes

construct_type	Return a description of the construct type.
id	A canonical identity.
ctype	The CF coordinate type.
T	True if and only if the data are coordinates for a CF ‘T’ axis.
X	True if and only if the data are coordinates for a CF ‘X’ axis.
Y	True if and only if the data are coordinates for a CF ‘Y’ axis.
Z	True if and only if the data are coordinates for a CF ‘Z’ axis.
decreasing	True if the dimension coordinate is decreasing, otherwise False.
increasing	True for dimension coordinate constructs, False otherwise.

Bounds

Methods

del_bounds	Remove the bounds.
get_bounds	Return the bounds.
has_bounds	Whether or not there are bounds.
set_bounds	Set the bounds.
get_bounds_data	Return the bounds data.
create_bounds	Create cell bounds.
contiguous	Return True if a construct has contiguous cells.

Attributes

bounds	Return the bounds.
cellsize	The cell sizes.
lower_bounds	The lower bounds of cells.
upper_bounds	The upper bounds of cells.

Selection

Methods

match_by_identity	Determine whether or not a variable satisfies conditions.
match_by_naxes	Whether or not the data has a given dimensionality.
match_by_ncvar	Whether or not the netCDF variable name satisfies conditions.
match_by_property	Determine whether or not a variable satisfies conditions.
match_by_units	Whether or not the construct has given units.

Properties

Methods

del_property	Remove a property.
get_property	Get a CF property.
has_property	Whether a property has been set.
set_property	Set a property.
properties	Return all properties.
clear_properties	Remove all properties.
set_properties	Set properties.

Attributes

add_offset	The add_offset CF property.
axis	The axis CF property.
calendar	The calendar CF property.
comment	The comment CF property.
_FillValue	The _FillValue CF property.
history	The history CF property.
leap_month	The leap_month CF property.
leap_year	The leap_year CF property.
long_name	The long_name CF property.
missing_value	The missing_value CF property.
month_lengths	The month_lengths CF property.
positive	The positive CF property.
scale_factor	The scale_factor CF property.
standard_name	The standard_name CF property.
units	The units CF property.
valid_max	The valid_max CF property.
valid_min	The valid_min CF property.
valid_range	The valid_range CF property.

Units

Methods

override_units	Override the units.
override_calendar	Override the calendar of date-time units.

Attributes

Units

The cf.Units object containing the units of the data array.

Data

Attributes

array	A numpy array deep copy of the data array.
data	The Data object containing the data array.
datetime_array	An independent numpy array of date-time objects.
datum	Return an element of the data array as a standard Python scalar.
dtype	The numpy data type of the data array.
isscalar	True if the data array is scalar.
ndim	The number of dimensions in the data array.
shape	A tuple of the data array’s dimension sizes.
size	The number of elements in the data array.
varray	A numpy array view of the data array.

Methods

__getitem__	Return a subspace of the field construct defined by indices.
del_data	Remove the data.
get_data	Return the data.
has_data	Whether a data has been set.
set_data	Set the data.

Rearranging elements

flatten	Flatten axes of the data
flip	TODO
insert_dimension	Expand the shape of the data array.
roll	TODO
squeeze	Remove size 1 dimensions from the data array
swapaxes	Interchange two axes of an array.
transpose	Permute the axes of the data array.

Data array mask

fill_value

Return the data array missing data value.

binary_mask	A binary (0 and 1) missing data mask of the data array.
count	Count the non-masked elements of the data.
count_masked	Count the masked elements of the data.
hardmask	Whether the mask is hard (True) or soft (False).
mask	The mask of the data array.
mask_invalid	Mask the array where invalid values occur.

Changing data values

__setitem__	Called to implement assignment to x[indices]
mask_invalid	Mask the array where invalid values occur.
subspace	Return a new variable whose data is subspaced.
where	Set data array elements depending on a condition.

Miscellaneous

chunk	Partition the data array.
close	Close all files referenced by the construct.
convert_reference_time	Convert reference time data values to have new units.
cyclic	Set the cyclicity of axes of the data array.
files	Return the names of any files containing parts of the data array.
period	Set the period for cyclic coordinates.

Miscellaneous

Methods

concatenate	Join a sequence of variables together.
copy	Return a deep copy.
equals	Whether two instances are the same.
inspect	Inspect the object for debugging.
uncompress	Uncompress the construct.

Mathematical operations

Methods

Trigonometrical and hyperbolic functions

arcsinh	Take the inverse hyperbolic sine of the data element-wise.
arctan	Take the trigonometric inverse tangent of the data element-wise.
cos	Take the trigonometric cosine of the data, element-wise.
cosh	Take the hyperbolic cosine of the data array in place.
sin	The trigonometric sine of the data, element-wise.
sinh	Take the hyperbolic sine of the data array in place.
tan	The trigonometric tangent of the data, element-wise.
tanh	Take the hyperbolic tangent of the data array.

Rounding and truncation

ceil	The ceiling of the data, element-wise.
clip	Limit the values in the data.
floor	Floor the data array, element-wise.
rint	Round the data to the nearest integer, element-wise.
round	Round the data to the given number of decimals.
trunc	Truncate the data, element-wise.

Statistical collapses

max	The maximum of the data array.
mean	The unweighted mean the data array.
mid_range	The unweighted average of the maximum and minimum of the data array.
min	The minimum of the data array.
range	The absolute difference between the maximum and minimum of the data array.
sample_size	The number of non-missing data elements in the data array.
sum	The sum of the data array.
sd	The unweighted sample standard deviation of the data array.
var	The unweighted sample variance of the data array.

Exponential and logarithmic functions

exp	The exponential of the data, element-wise.
log	The logarithm of the data array.

Date-time operations

Attributes

day	The day of each date-time data array element.
datetime_array	An independent numpy array of date-time objects.
hour	The hour of each date-time data array element.
minute	The minute of each date-time data array element.
month	The month of each date-time data array element.
reference_datetime	The reference date-time of units of elapsed time.
second	The second of each date-time data array element.
year	The year of each date-time data array element.

Logic functions

Truth value testing

all	Test whether all data elements evaluate to True.
any	Test whether any data elements evaluate to True.

Comparison

allclose	Test whether all data are element-wise equal to other, broadcastable data.
equivalent	True if two constructs are equal, False otherwise.

Set operations

unique

The unique elements of the data.

NetCDF

Methods

nc_del_variable	Remove the netCDF variable name.
nc_get_variable	Return the netCDF variable name.
nc_has_variable	Whether the netCDF variable name has been set.
nc_set_variable	Set the netCDF variable name.

Aliases

Methods

match

Alias for match_by_identity.

Attributes

dtarray

Alias for datetime_array.

Arithmetic and comparison operations

Arithmetic, bitwise and comparison operations are defined as element-wise operations on the data, which yield a new construct or, for augmented assignments, modify the construct’s data in-place.

Comparison operators

__lt__	The rich comparison operator <
__le__	The rich comparison operator <=
__eq__	The rich comparison operator ==
__ne__	The rich comparison operator !=
__gt__	The rich comparison operator >
__ge__	The rich comparison operator >=

Binary arithmetic operators

__add__	The binary arithmetic operation +
__sub__	The binary arithmetic operation -
__mul__	The binary arithmetic operation *
__div__	The binary arithmetic operation /
__truediv__	The binary arithmetic operation / (true division)
__floordiv__	The binary arithmetic operation //
__pow__	The binary arithmetic operations ** and pow
__mod__	The binary arithmetic operation %

Binary arithmetic operators with reflected (swapped) operands

__radd__	The binary arithmetic operation + with reflected operands
__rsub__	The binary arithmetic operation - with reflected operands
__rmul__	The binary arithmetic operation * with reflected operands
__rdiv__	The binary arithmetic operation / with reflected operands
__rtruediv__	The binary arithmetic operation / (true division) with reflected operands
__rfloordiv__	The binary arithmetic operation // with reflected operands
__rpow__	The binary arithmetic operations ** and pow with reflected operands
__rmod__	The binary arithmetic operation % with reflected operands

Augmented arithmetic assignments

__iadd__	The augmented arithmetic assignment +=
__isub__	The augmented arithmetic assignment -=
__imul__	The augmented arithmetic assignment *=
__idiv__	The augmented arithmetic assignment /=
__itruediv__	The augmented arithmetic assignment /= (true division)
__ifloordiv__	The augmented arithmetic assignment //=
__ipow__	The augmented arithmetic assignment **=
__imod__	The binary arithmetic operation %=

Unary arithmetic operators

__neg__	The unary arithmetic operation -
__pos__	The unary arithmetic operation +
__abs__	The unary arithmetic operation abs

Binary bitwise operators

__and__	The binary bitwise operation &
__or__	The binary bitwise operation |
__xor__	The binary bitwise operation ^
__lshift__	The binary bitwise operation <<
__rshift__	The binary bitwise operation >>

Binary bitwise operators with reflected (swapped) operands

__rand__	The binary bitwise operation & with reflected operands
__ror__	The binary bitwise operation | with reflected operands
__rxor__	The binary bitwise operation ^ with reflected operands
__rlshift__	The binary bitwise operation << with reflected operands
__rrshift__	The binary bitwise operation >> with reflected operands

Augmented bitwise assignments

__iand__	The augmented bitwise assignment &=
__ior__	The augmented bitwise assignment |=
__ixor__	The augmented bitwise assignment ^=
__ilshift__	The augmented bitwise assignment <<=
__irshift__	The augmented bitwise assignment >>=

Unary bitwise operators

__invert__

The unary bitwise operation ~

Special

Methods

__contains__	Called to implement membership test operators.
__deepcopy__	Called by the copy.deepcopy function.
__getitem__	Return a subspace of the field construct defined by indices.
__repr__	Called by the repr built-in function.
__setitem__	Called to implement assignment to x[indices]
__str__	Called by the str built-in function.
__array__	Returns a numpy array representation of the data.
__data__	Returns a new reference to the data.
__query_set__	TODO
__query_wi__	TODO
__query_wo__	TODO 1