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author | Martin Panter <vadmium+py@gmail.com> | 2015-09-23 05:34:48 (GMT) |
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committer | Martin Panter <vadmium+py@gmail.com> | 2015-09-23 05:34:48 (GMT) |
commit | e52c41a714e46ebd78eef212382240bd8828eaf9 (patch) | |
tree | 12cf6004a9e7f39c65007cb7d7661faa36e4edf0 | |
parent | 1ccf44c4766644e64c183c0b1dbf00ca76f847cc (diff) | |
parent | aa0da864b874afb8c1cbad5614a6242349f0fe21 (diff) | |
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Issue #12067: Merge comparisons doc from 3.4 into 3.5
-rw-r--r-- | Doc/reference/expressions.rst | 244 | ||||
-rw-r--r-- | Misc/NEWS | 7 |
2 files changed, 195 insertions, 56 deletions
diff --git a/Doc/reference/expressions.rst b/Doc/reference/expressions.rst index 3a51f97..5c33ce6 100644 --- a/Doc/reference/expressions.rst +++ b/Doc/reference/expressions.rst @@ -1036,10 +1036,6 @@ must be integers. .. _comparisons: -.. _is: -.. _is not: -.. _in: -.. _not in: Comparisons =========== @@ -1075,66 +1071,183 @@ Note that ``a op1 b op2 c`` doesn't imply any kind of comparison between *a* and *c*, so that, e.g., ``x < y > z`` is perfectly legal (though perhaps not pretty). +Value comparisons +----------------- + The operators ``<``, ``>``, ``==``, ``>=``, ``<=``, and ``!=`` compare the -values of two objects. The objects need not have the same type. If both are -numbers, they are converted to a common type. Otherwise, the ``==`` and ``!=`` -operators *always* consider objects of different types to be unequal, while the -``<``, ``>``, ``>=`` and ``<=`` operators raise a :exc:`TypeError` when -comparing objects of different types that do not implement these operators for -the given pair of types. You can control comparison behavior of objects of -non-built-in types by defining rich comparison methods like :meth:`__gt__`, -described in section :ref:`customization`. - -Comparison of objects of the same type depends on the type: - -* Numbers are compared arithmetically. - -* The values :const:`float('NaN')` and :const:`Decimal('NaN')` are special. - They are identical to themselves, ``x is x`` but are not equal to themselves, - ``x != x``. Additionally, comparing any value to a not-a-number value +values of two objects. The objects do not need to have the same type. + +Chapter :ref:`objects` states that objects have a value (in addition to type +and identity). The value of an object is a rather abstract notion in Python: +For example, there is no canonical access method for an object's value. Also, +there is no requirement that the value of an object should be constructed in a +particular way, e.g. comprised of all its data attributes. Comparison operators +implement a particular notion of what the value of an object is. One can think +of them as defining the value of an object indirectly, by means of their +comparison implementation. + +Because all types are (direct or indirect) subtypes of :class:`object`, they +inherit the default comparison behavior from :class:`object`. Types can +customize their comparison behavior by implementing +:dfn:`rich comparison methods` like :meth:`__lt__`, described in +:ref:`customization`. + +The default behavior for equality comparison (``==`` and ``!=``) is based on +the identity of the objects. Hence, equality comparison of instances with the +same identity results in equality, and equality comparison of instances with +different identities results in inequality. A motivation for this default +behavior is the desire that all objects should be reflexive (i.e. ``x is y`` +implies ``x == y``). + +A default order comparison (``<``, ``>``, ``<=``, and ``>=``) is not provided; +an attempt raises :exc:`TypeError`. A motivation for this default behavior is +the lack of a similar invariant as for equality. + +The behavior of the default equality comparison, that instances with different +identities are always unequal, may be in contrast to what types will need that +have a sensible definition of object value and value-based equality. Such +types will need to customize their comparison behavior, and in fact, a number +of built-in types have done that. + +The following list describes the comparison behavior of the most important +built-in types. + +* Numbers of built-in numeric types (:ref:`typesnumeric`) and of the standard + library types :class:`fractions.Fraction` and :class:`decimal.Decimal` can be + compared within and across their types, with the restriction that complex + numbers do not support order comparison. Within the limits of the types + involved, they compare mathematically (algorithmically) correct without loss + of precision. + + The not-a-number values :const:`float('NaN')` and :const:`Decimal('NaN')` + are special. They are identical to themselves (``x is x`` is true) but + are not equal to themselves (``x == x`` is false). Additionally, + comparing any number to a not-a-number value will return ``False``. For example, both ``3 < float('NaN')`` and ``float('NaN') < 3`` will return ``False``. -* Bytes objects are compared lexicographically using the numeric values of their - elements. +* Binary sequences (instances of :class:`bytes` or :class:`bytearray`) can be + compared within and across their types. They compare lexicographically using + the numeric values of their elements. + +* Strings (instances of :class:`str`) compare lexicographically using the + numerical Unicode code points (the result of the built-in function + :func:`ord`) of their characters. [#]_ + + Strings and binary sequences cannot be directly compared. + +* Sequences (instances of :class:`tuple`, :class:`list`, or :class:`range`) can + be compared only within each of their types, with the restriction that ranges + do not support order comparison. Equality comparison across these types + results in unequality, and ordering comparison across these types raises + :exc:`TypeError`. + + Sequences compare lexicographically using comparison of corresponding + elements, whereby reflexivity of the elements is enforced. + + In enforcing reflexivity of elements, the comparison of collections assumes + that for a collection element ``x``, ``x == x`` is always true. Based on + that assumption, element identity is compared first, and element comparison + is performed only for distinct elements. This approach yields the same + result as a strict element comparison would, if the compared elements are + reflexive. For non-reflexive elements, the result is different than for + strict element comparison, and may be surprising: The non-reflexive + not-a-number values for example result in the following comparison behavior + when used in a list:: + + >>> nan = float('NaN') + >>> nan is nan + True + >>> nan == nan + False <-- the defined non-reflexive behavior of NaN + >>> [nan] == [nan] + True <-- list enforces reflexivity and tests identity first + + Lexicographical comparison between built-in collections works as follows: + + - For two collections to compare equal, they must be of the same type, have + the same length, and each pair of corresponding elements must compare + equal (for example, ``[1,2] == (1,2)`` is false because the type is not the + same). + + - Collections that support order comparison are ordered the same as their + first unequal elements (for example, ``[1,2,x] <= [1,2,y]`` has the same + value as ``x <= y``). If a corresponding element does not exist, the + shorter collection is ordered first (for example, ``[1,2] < [1,2,3]`` is + true). + +* Mappings (instances of :class:`dict`) compare equal if and only if they have + equal `(key, value)` pairs. Equality comparison of the keys and elements + enforces reflexivity. + + Order comparisons (``<``, ``>``, ``<=``, and ``>=``) raise :exc:`TypeError`. + +* Sets (instances of :class:`set` or :class:`frozenset`) can be compared within + and across their types. + + They define order + comparison operators to mean subset and superset tests. Those relations do + not define total orderings (for example, the two sets ``{1,2}`` and ``{2,3}`` + are not equal, nor subsets of one another, nor supersets of one + another). Accordingly, sets are not appropriate arguments for functions + which depend on total ordering (for example, :func:`min`, :func:`max`, and + :func:`sorted` produce undefined results given a list of sets as inputs). -* Strings are compared lexicographically using the numeric equivalents (the - result of the built-in function :func:`ord`) of their characters. [#]_ String - and bytes object can't be compared! + Comparison of sets enforces reflexivity of its elements. -* Tuples and lists are compared lexicographically using comparison of - corresponding elements. This means that to compare equal, each element must - compare equal and the two sequences must be of the same type and have the same - length. +* Most other built-in types have no comparison methods implemented, so they + inherit the default comparison behavior. - If not equal, the sequences are ordered the same as their first differing - elements. For example, ``[1,2,x] <= [1,2,y]`` has the same value as - ``x <= y``. If the corresponding element does not exist, the shorter - sequence is ordered first (for example, ``[1,2] < [1,2,3]``). +User-defined classes that customize their comparison behavior should follow +some consistency rules, if possible: -* Mappings (dictionaries) compare equal if and only if they have the same - ``(key, value)`` pairs. Order comparisons ``('<', '<=', '>=', '>')`` - raise :exc:`TypeError`. +* Equality comparison should be reflexive. + In other words, identical objects should compare equal: -* Sets and frozensets define comparison operators to mean subset and superset - tests. Those relations do not define total orderings (the two sets ``{1,2}`` - and ``{2,3}`` are not equal, nor subsets of one another, nor supersets of one - another). Accordingly, sets are not appropriate arguments for functions - which depend on total ordering. For example, :func:`min`, :func:`max`, and - :func:`sorted` produce undefined results given a list of sets as inputs. + ``x is y`` implies ``x == y`` + +* Comparison should be symmetric. + In other words, the following expressions should have the same result: + + ``x == y`` and ``y == x`` + + ``x != y`` and ``y != x`` + + ``x < y`` and ``y > x`` + + ``x <= y`` and ``y >= x`` + +* Comparison should be transitive. + The following (non-exhaustive) examples illustrate that: + + ``x > y and y > z`` implies ``x > z`` -* Most other objects of built-in types compare unequal unless they are the same - object; the choice whether one object is considered smaller or larger than - another one is made arbitrarily but consistently within one execution of a - program. + ``x < y and y <= z`` implies ``x < z`` -Comparison of objects of differing types depends on whether either of the -types provide explicit support for the comparison. Most numeric types can be -compared with one another. When cross-type comparison is not supported, the -comparison method returns ``NotImplemented``. +* Inverse comparison should result in the boolean negation. + In other words, the following expressions should have the same result: + ``x == y`` and ``not x != y`` + + ``x < y`` and ``not x >= y`` (for total ordering) + + ``x > y`` and ``not x <= y`` (for total ordering) + + The last two expressions apply to totally ordered collections (e.g. to + sequences, but not to sets or mappings). See also the + :func:`~functools.total_ordering` decorator. + +Python does not enforce these consistency rules. In fact, the not-a-number +values are an example for not following these rules. + + +.. _in: +.. _not in: .. _membership-test-details: +Membership test operations +-------------------------- + The operators :keyword:`in` and :keyword:`not in` test for membership. ``x in s`` evaluates to true if *x* is a member of *s*, and false otherwise. ``x not in s`` returns the negation of ``x in s``. All built-in sequences and set types @@ -1176,6 +1289,13 @@ The operator :keyword:`not in` is defined to have the inverse true value of operator: is not pair: identity; test + +.. _is: +.. _is not: + +Identity comparisons +-------------------- + The operators :keyword:`is` and :keyword:`is not` test for object identity: ``x is y`` is true if and only if *x* and *y* are the same object. ``x is not y`` yields the inverse truth value. [#]_ @@ -1405,12 +1525,24 @@ precedence and have a left-to-right chaining feature as described in the cases, Python returns the latter result, in order to preserve that ``divmod(x,y)[0] * y + x % y`` be very close to ``x``. -.. [#] While comparisons between strings make sense at the byte level, they may - be counter-intuitive to users. For example, the strings ``"\u00C7"`` and - ``"\u0043\u0327"`` compare differently, even though they both represent the - same unicode character (LATIN CAPITAL LETTER C WITH CEDILLA). To compare - strings in a human recognizable way, compare using - :func:`unicodedata.normalize`. +.. [#] The Unicode standard distinguishes between :dfn:`code points` + (e.g. U+0041) and :dfn:`abstract characters` (e.g. "LATIN CAPITAL LETTER A"). + While most abstract characters in Unicode are only represented using one + code point, there is a number of abstract characters that can in addition be + represented using a sequence of more than one code point. For example, the + abstract character "LATIN CAPITAL LETTER C WITH CEDILLA" can be represented + as a single :dfn:`precomposed character` at code position U+00C7, or as a + sequence of a :dfn:`base character` at code position U+0043 (LATIN CAPITAL + LETTER C), followed by a :dfn:`combining character` at code position U+0327 + (COMBINING CEDILLA). + + The comparison operators on strings compare at the level of Unicode code + points. This may be counter-intuitive to humans. For example, + ``"\u00C7" == "\u0043\u0327"`` is ``False``, even though both strings + represent the same abstract character "LATIN CAPITAL LETTER C WITH CEDILLA". + + To compare strings at the level of abstract characters (that is, in a way + intuitive to humans), use :func:`unicodedata.normalize`. .. [#] Due to automatic garbage-collection, free lists, and the dynamic nature of descriptors, you may notice seemingly unusual behaviour in certain uses of @@ -125,6 +125,13 @@ IDLE Documentation ------------- +- Issue #12067: Rewrite Comparisons section in the Expressions chapter of the + language reference. Some of the details of comparing mixed types were + incorrect or ambiguous. NotImplemented is only relevant at a lower level + than the Expressions chapter. Added details of comparing range() objects, + and default behaviour and consistency suggestions for user-defined classes. + Patch from Andy Maier. + - Issue #24952: Clarify the default size argument of stack_size() in the "threading" and "_thread" modules. Patch from Mattip. |