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The operator module exports a set of functions implemented in C
corresponding to the intrinsic operators of Python. For example, operator.add(x, y)
is equivalent to the expression x+y. The function names are those used for
special class methods; variants without leading and trailing "__"
are also provided for convenience.
The functions fall into categories that perform object comparisons, logical operations,
mathematical operations, sequence operations, and abstract type tests.
The object comparison functions are useful for all objects, and are named after the rich
comparison operators they support:
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- Perform ``rich comparisons'' between a and b. Specifically,
lt(a,
b) is equivalent to a < b, le(a,
b) is equivalent to a <= b, eq(a,
b) is equivalent to a == b, ne(a,
b) is equivalent to a != b, gt(a,
b) is equivalent to a > b and ge(a,
b) is equivalent to a >= b. Note
that unlike the built-in cmp(), these functions can return any
value, which may or may not be interpretable as a Boolean value. See the Python
Reference Manual for more informations about rich comparisons. New in version 2.2.
The logical operations are also generally applicable to all objects, and support truth
tests, identity tests, and boolean operations:
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- Return the outcome of not o. (Note that there is no __not__() method for object instances; only the interpreter core
defines this operation. The result is affected by the __nonzero__()
and __len__() methods.)
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- Return True if o is true, and False
otherwise. This is equivalent to using the bool constructor.
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- Return
a is b. Tests object identity. New in version 2.3.
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- Return
a is not b. Tests object identity. New in version 2.3.
The mathematical and bitwise operations are the most numerous:
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- Return the absolute value of o.
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- Return a
+ b, for a and b
numbers.
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- Return the bitwise and of a and b.
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- Return a
/ b when __future__.division is
not in effect. This is also known as ``classic'' division.
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- Return a
// b. New in
version 2.2.
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- Return the bitwise inverse of the number o. This is equivalent to
~o.
The names invert() and __invert__()
were added in Python 2.0.
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- Return a shifted left by b.
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- Return a
% b.
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- Return a
* b, for a and b
numbers.
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- Return o negated.
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- Return the bitwise or of a and b.
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- Return o positive.
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- Return a
** b, for a and b
numbers. New in version 2.3.
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- Return a shifted right by b.
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- Return a
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- Return a
/ b when __future__.division is
in effect. This is also known as division. New in version 2.2.
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- Return the bitwise exclusive or of a and b.
Operations which work with sequences include:
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- Return a
+ b for a and b
sequences.
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- Return the outcome of the test b
in a. Note the
reversed operands. The name __contains__() was added in Python
2.0.
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- Return the number of occurrences of b in a.
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- Remove the value of a at index b.
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- Delete the slice of a from index b to index c
-1.
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- Return the value of a at index b.
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- Return the slice of a from index b to index c
-1.
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- Return the index of the first of occurrence of b in a.
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- Return a
* b where a is a sequence and b
is an integer.
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Deprecated since release 2.0. Use contains() instead.
Alias for contains().
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- Set the value of a at index b to c.
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a, b, c, v) |
- Set the slice of a from index b to index c
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to the sequence v.
The operator module also defines a few predicates to test the type
of objects. Note: Be careful not to misinterpret the
results of these functions; only isCallable() has any measure of
reliability with instance objects. For example:
>>> class C:
... pass
...
>>> import operator
>>> o = C()
>>> operator.isMappingType(o)
True
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Deprecated since release 2.0. Use the callable()
built-in function instead.
Returns true if the object o can be called like a function, otherwise it
returns false. True is returned for functions, bound and unbound methods, class objects,
and instance objects which support the __call__() method.
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- Returns true if the object o supports the mapping interface. This is true for
dictionaries and all instance objects. Warning:
There is no reliable way to test if an instance supports the complete mapping protocol
since the interface itself is ill-defined. This makes this test less useful than it
otherwise might be.
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- Returns true if the object o represents a number. This is true for all
numeric types implemented in C, and for all instance objects. Warning: There is no reliable way to test if an instance supports the
complete numeric interface since the interface itself is ill-defined. This makes this test
less useful than it otherwise might be.
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- Returns true if the object o supports the sequence protocol. This returns
true for all objects which define sequence methods in C, and for all instance objects. Warning: There is no reliable way to test if an
instance supports the complete sequence interface since the interface itself is
ill-defined. This makes this test less useful than it otherwise might be.
Example: Build a dictionary that maps the ordinals from 0 to 256
to their character equivalents.
>>> import operator
>>> d = {}
>>> keys = range(256)
>>> vals = map(chr, keys)
>>> map(operator.setitem, [d]*len(keys), keys, vals)
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