cf.Query¶
-
class
cf.
Query
(operator, value, units=None, exact=True, attr=None)[source]¶ Bases:
object
Store a query operation.
The query operation is an operator with a right hand side operand. For example, an operator could be “strictly less than” and a right hand side operand could 3.
Such a query (such as “is strictly less than 3?”) may be evaluated for an arbitrary left hand side operand, x (such as “is x strictly less than 3?”).
The result of the query is dependent on the object type of left hand side operand, x. For example, if x is an integer then evaluating “is x strictly less than 3?” will result in a boolean; but if x is a
numpy
array then “is x strictly less than 3?” will likely produce a numpy array of booleans.The query is evaluated with its
evaluate
method or equivalently with the==
operator:>>> q = cf.Query('lt', 3) >>> q.evaluate(2) True >>> 2 == q True >>> q == 2 True >>> 4 == q False
The inverse of the query may be evaluated with the
!=
operator:>>> q = cf.Query('wi', [3, 5]) >>> q.evaluate(4) True >>> 4 == q True >>> 4 != q False >>> q != 6 True
The following operators are supported:
operator Description Constructor 'lt'
Is x strictly less than a value? cf.lt
'le'
Is x less than or equal to a value? cf.le
'gt'
Is x strictly greater than a value? cf.gt
'ge'
Is x greater than or equal to a value? cf.ge
'eq'
Is x equal to a value? cf.eq
'ne'
Is x not equal to a value? cf.ne
'wi'
Is x within a given range of values (range bounds included)? cf.wi
'wo'
Is x without a given range of values (range bounds excluded)? cf.wo
'set'
Is x equal to any member of a collection? cf.set
'contain'
If cells are defined, is value contained in a cell of x? otherwise is x equal to a value? cf.contain
For the
'wi'
,'wo '
and'set'
operators, if the left hand side operand supports broadcasting over its elements (such as anumpy
array or acf.Field
object) then each element is tested independently. For example:>>> q = cf.Query('wi', [3, 4]) >>> q == [2, 3, 4] False >>> print q == numpy.array([2, 3, 4]) [ False True True]
As a convenience, for each operator there is an identically named constructor function which returns the appropriate
cf.Query
object. For example:>>> cf.lt(3) <CF Query: lt 3>
Compound queries
Multiple queries may be logically combined with the bitwise
&
and|
operators to form a newcf.Query
object. For example:>>> q = cf.ge(3) >>> r = cf.lt(5) >>> s = q & r >>> s >>> <CF Query: [(ge 3) & (lt 5)]> >>> 4 == s True >>> t = q | r >>> t <CF Query: [(ge 3) | (lt 5)]> >>> 2 == t True
Compound queries may be combined further:
>>> u = s | cf.wi(1.5, 2.5) >>> u <CF Query: [[(ge 3) & (lt 5)] | (wi (1.5, 2.5))]> >>> 2 == u True >>> u & t <CF Query: [[[(ge 3) & (lt 5)] | (wi (1.5, 2.5))] & [(ge 3) | (lt 5)]]>
If any of the component queries are for left hand side operand attributes, then these are retained in a compound query. For example:
>>> q = cf.ge(3) >>> r = cf.lt(5, attr='bar') >>> s = q & r >>> s = e.addattr('foo') >>> s <CF Query: foo[(ge 3) & bar(lt 5)]>
In this example,
>>> x == s
is equivalent to
>>> (x.foo == cf.ge(3)) & (x.foo.bar == cf.lt(5))
Attributes
Attribute Description attr
An attribute name such that this attribute of the left hand side operand is compared, rather than the operand itself. If there is more than one attribute name then each is interpreted as an attribute of the previous attribute. operator
The query operation (such as 'lt'
, for example). AlwaysNone
for compound queries.exact
If False then string values are treated as a regular expressions as understood by the re
module and are evaluated using there.match
method. Ignored for all operators except'eq'
,'ne'
and'set'
.Initialization
Parameters: - operator:
str
The query operator.
- value:
The right hand side of the query operation.
- units:
str
orcf.Units
, optional The units of value. By default, the same units, if any, as the left hand side of the query operation are assumed.
- exact:
bool
, optional If False then string values are treated as a regular expressions as understood by the
re
module and are evaluated using there.match
method. Ignored for all operators except'eq'
,'ne'
and'set'
.- attr:
str
, optional Specify an attribute (or an attribute of an attribute, etc.) of a left hand side operand which is compared, rather than the operand itself.
- Example:
cf.Query('ge', 2, attr='ndim')
will return True when evaluated for a numpy array with two or more dimensions.- Example:
q=cf.Query('ge', 2, attr='lower_bounds.month')
will compare themonth
attribute of thelower_bounds
attribute. I.e.q==x
is equivalent tocf.Query('ge', 2)==x.lower_bounds.month
.
Examples: >>> cf.Query('le', 5.6) <CF Query: (le 5.6)> >>> cf.Query('gt', 5.6, 'metres') <CF Query: (gt <CF Data: 5.6 metres>)> >>> cf.Query('gt', cf.Data(5.6, 'metres')) <CF Query: (gt <CF Data: 5.6 metres>)> >>> cf.Query('wi', [2, 56]) <CF Query: (wi [2, 56])> >>> cf.Query('set', [2, 56], 'seconds') <CF Query: (set <CF Data: [2, 56] seconds>)> >>> cf.Query('set', cf.Data([2, 56], 'seconds')) <CF Query: (set <CF Data: [2, 56] seconds>)> >>> cf.Query('eq', 'air_temperature') <CF Query: (eq 'air_temperature')> >>> cf.Query('eq', 'temperature', exact=False) <CF Query: (eq 'temperature')> >>> cf.Query('gt', 1, attr='ndim') <CF Query: ndim(gt 1)>
- operator:
Methods¶
__init__ (operator, value[, units, exact, attr]) |
Initialization |
addattr (attr) |
Return a cf.Query object with a new left hand side operand attribute to be used during evaluation. |
copy () |
Return a deep copy. |
dump ([display]) |
Return a string containing a full description of the instance. |
equals (other[, traceback]) |
|
equivalent (other[, traceback]) |
|
evaluate (x) |
Evaluate the query operation for a given left hand side operand. |
inspect () |
Inspect the object for debugging. |