diff options
author | Georg Brandl <georg@python.org> | 2010-10-06 08:03:21 (GMT) |
---|---|---|
committer | Georg Brandl <georg@python.org> | 2010-10-06 08:03:21 (GMT) |
commit | 16489247aae58e6cfdc8f76fa02867a5e624063d (patch) | |
tree | 897e1374905f29729ecc1a4ace2920a428bd3643 | |
parent | 16215c732c4c40b6c2555db6083feaaa2f6f5d7b (diff) | |
download | cpython-16489247aae58e6cfdc8f76fa02867a5e624063d.zip cpython-16489247aae58e6cfdc8f76fa02867a5e624063d.tar.gz cpython-16489247aae58e6cfdc8f76fa02867a5e624063d.tar.bz2 |
Merged revisions 79901,80170,80273,80342-80343,81061,81366,81368,81370,81840 via svnmerge from
svn+ssh://svn.python.org/python/branches/py3k
................
r79901 | georg.brandl | 2010-04-08 08:33:16 +0200 (Do, 08 Apr 2010) | 1 line
Fix indentation.
................
r80170 | georg.brandl | 2010-04-18 11:50:07 +0200 (So, 18 Apr 2010) | 1 line
Remove colspanning cells.
................
r80273 | georg.brandl | 2010-04-20 20:15:54 +0200 (Di, 20 Apr 2010) | 1 line
Markup nit.
................
r80342 | georg.brandl | 2010-04-22 09:00:42 +0200 (Do, 22 Apr 2010) | 1 line
Fix indentation.
................
r80343 | georg.brandl | 2010-04-22 09:02:51 +0200 (Do, 22 Apr 2010) | 1 line
Typo fixes.
................
r81061 | georg.brandl | 2010-05-10 23:17:00 +0200 (Mo, 10 Mai 2010) | 1 line
Fix nits in the lexical analysis section: \u requires four digits, backtick is not allowed in source in 3.x.
................
r81366 | georg.brandl | 2010-05-19 22:58:02 +0200 (Mi, 19 Mai 2010) | 61 lines
Recorded merge of revisions 80030,80067,80069,80080-80081,80084,80432-80433,80465,80470,81059,81065-81067 via svnmerge from
svn+ssh://pythondev@svn.python.org/python/trunk
........
r80030 | georg.brandl | 2010-04-13 08:43:54 +0200 (Di, 13 Apr 2010) | 1 line
Get rid of multi-row cells.
........
r80067 | georg.brandl | 2010-04-14 10:53:38 +0200 (Mi, 14 Apr 2010) | 1 line
#5341: typo.
........
r80069 | georg.brandl | 2010-04-14 15:50:31 +0200 (Mi, 14 Apr 2010) | 1 line
Add an x-ref to where the O_ constants are documented and move the SEEK_ constants after lseek().
........
r80080 | georg.brandl | 2010-04-14 21:16:38 +0200 (Mi, 14 Apr 2010) | 1 line
#8399: add note about Windows and O_BINARY.
........
r80081 | georg.brandl | 2010-04-14 23:34:44 +0200 (Mi, 14 Apr 2010) | 1 line
#5250: document __instancecheck__ and __subclasscheck__. I hope the part about the class/metaclass distinction is understandable.
........
r80084 | georg.brandl | 2010-04-14 23:46:45 +0200 (Mi, 14 Apr 2010) | 1 line
Fix missing.
........
r80432 | georg.brandl | 2010-04-24 10:56:58 +0200 (Sa, 24 Apr 2010) | 1 line
Markup fixes.
........
r80433 | georg.brandl | 2010-04-24 11:08:10 +0200 (Sa, 24 Apr 2010) | 1 line
#7507: quote "!" in pipes.quote(); it is a special character for some shells.
........
r80465 | georg.brandl | 2010-04-25 12:29:17 +0200 (So, 25 Apr 2010) | 1 line
Remove LaTeXy index entry syntax.
........
r80470 | georg.brandl | 2010-04-25 12:57:15 +0200 (So, 25 Apr 2010) | 1 line
Patch from Tim Hatch: Make socket setblocking <-> settimeout examples symmetric.
........
r81059 | georg.brandl | 2010-05-10 23:02:51 +0200 (Mo, 10 Mai 2010) | 1 line
#8642: fix wrong function name.
........
r81065 | georg.brandl | 2010-05-10 23:46:50 +0200 (Mo, 10 Mai 2010) | 1 line
Fix reference direction.
........
r81066 | georg.brandl | 2010-05-10 23:50:57 +0200 (Mo, 10 Mai 2010) | 1 line
Consolidate deprecation messages.
........
r81067 | georg.brandl | 2010-05-10 23:51:33 +0200 (Mo, 10 Mai 2010) | 1 line
Fix typo.
........
................
r81368 | georg.brandl | 2010-05-19 23:06:36 +0200 (Mi, 19 Mai 2010) | 9 lines
Merged revisions 80068 via svnmerge from
svn+ssh://pythondev@svn.python.org/python/trunk
........
r80068 | georg.brandl | 2010-04-14 10:56:01 +0200 (Mi, 14 Apr 2010) | 1 line
#5341: fix typo and adapt docstring syntax.
........
................
r81370 | georg.brandl | 2010-05-19 23:39:51 +0200 (Mi, 19 Mai 2010) | 1 line
Add descriptor HOWTO to py3k docs.
................
r81840 | alexander.belopolsky | 2010-06-08 20:59:20 +0200 (Di, 08 Jun 2010) | 9 lines
Merged revisions 81489 via svnmerge from
svn+ssh://pythondev@svn.python.org/python/trunk
........
r81489 | georg.brandl | 2010-05-23 17:29:29 -0400 (Sun, 23 May 2010) | 1 line
#1436346: make it more obvious that timetuple[7] is yday.
........
................
-rw-r--r-- | Doc/howto/descriptor.rst | 431 | ||||
-rw-r--r-- | Doc/howto/index.rst | 1 | ||||
-rw-r--r-- | Doc/library/datetime.rst | 17 | ||||
-rw-r--r-- | Doc/library/multiprocessing.rst | 10 | ||||
-rw-r--r-- | Doc/library/urllib.request.rst | 2 | ||||
-rw-r--r-- | Doc/reference/lexical_analysis.rst | 8 |
6 files changed, 452 insertions, 17 deletions
diff --git a/Doc/howto/descriptor.rst b/Doc/howto/descriptor.rst new file mode 100644 index 0000000..a9ef1d8 --- /dev/null +++ b/Doc/howto/descriptor.rst @@ -0,0 +1,431 @@ +====================== +Descriptor HowTo Guide +====================== + +:Author: Raymond Hettinger +:Contact: <python at rcn dot com> + +.. Contents:: + +Abstract +-------- + +Defines descriptors, summarizes the protocol, and shows how descriptors are +called. Examines a custom descriptor and several built-in python descriptors +including functions, properties, static methods, and class methods. Shows how +each works by giving a pure Python equivalent and a sample application. + +Learning about descriptors not only provides access to a larger toolset, it +creates a deeper understanding of how Python works and an appreciation for the +elegance of its design. + + +Definition and Introduction +--------------------------- + +In general, a descriptor is an object attribute with "binding behavior", one +whose attribute access has been overridden by methods in the descriptor +protocol. Those methods are :meth:`__get__`, :meth:`__set__`, and +:meth:`__delete__`. If any of those methods are defined for an object, it is +said to be a descriptor. + +The default behavior for attribute access is to get, set, or delete the +attribute from an object's dictionary. For instance, ``a.x`` has a lookup chain +starting with ``a.__dict__['x']``, then ``type(a).__dict__['x']``, and +continuing through the base classes of ``type(a)`` excluding metaclasses. If the +looked-up value is an object defining one of the descriptor methods, then Python +may override the default behavior and invoke the descriptor method instead. +Where this occurs in the precedence chain depends on which descriptor methods +were defined. Note that descriptors are only invoked for new style objects or +classes (a class is new style if it inherits from :class:`object` or +:class:`type`). + +Descriptors are a powerful, general purpose protocol. They are the mechanism +behind properties, methods, static methods, class methods, and :func:`super()`. +They are used used throughout Python itself to implement the new style classes +introduced in version 2.2. Descriptors simplify the underlying C-code and offer +a flexible set of new tools for everyday Python programs. + + +Descriptor Protocol +------------------- + +``descr.__get__(self, obj, type=None) --> value`` + +``descr.__set__(self, obj, value) --> None`` + +``descr.__delete__(self, obj) --> None`` + +That is all there is to it. Define any of these methods and an object is +considered a descriptor and can override default behavior upon being looked up +as an attribute. + +If an object defines both :meth:`__get__` and :meth:`__set__`, it is considered +a data descriptor. Descriptors that only define :meth:`__get__` are called +non-data descriptors (they are typically used for methods but other uses are +possible). + +Data and non-data descriptors differ in how overrides are calculated with +respect to entries in an instance's dictionary. If an instance's dictionary +has an entry with the same name as a data descriptor, the data descriptor +takes precedence. If an instance's dictionary has an entry with the same +name as a non-data descriptor, the dictionary entry takes precedence. + +To make a read-only data descriptor, define both :meth:`__get__` and +:meth:`__set__` with the :meth:`__set__` raising an :exc:`AttributeError` when +called. Defining the :meth:`__set__` method with an exception raising +placeholder is enough to make it a data descriptor. + + +Invoking Descriptors +-------------------- + +A descriptor can be called directly by its method name. For example, +``d.__get__(obj)``. + +Alternatively, it is more common for a descriptor to be invoked automatically +upon attribute access. For example, ``obj.d`` looks up ``d`` in the dictionary +of ``obj``. If ``d`` defines the method :meth:`__get__`, then ``d.__get__(obj)`` +is invoked according to the precedence rules listed below. + +The details of invocation depend on whether ``obj`` is an object or a class. +Either way, descriptors only work for new style objects and classes. A class is +new style if it is a subclass of :class:`object`. + +For objects, the machinery is in :meth:`object.__getattribute__` which +transforms ``b.x`` into ``type(b).__dict__['x'].__get__(b, type(b))``. The +implementation works through a precedence chain that gives data descriptors +priority over instance variables, instance variables priority over non-data +descriptors, and assigns lowest priority to :meth:`__getattr__` if provided. The +full C implementation can be found in :cfunc:`PyObject_GenericGetAttr()` in +`Objects/object.c <http://svn.python.org/view/python/trunk/Objects/object.c?view=markup>`_\. + +For classes, the machinery is in :meth:`type.__getattribute__` which transforms +``B.x`` into ``B.__dict__['x'].__get__(None, B)``. In pure Python, it looks +like:: + + def __getattribute__(self, key): + "Emulate type_getattro() in Objects/typeobject.c" + v = object.__getattribute__(self, key) + if hasattr(v, '__get__'): + return v.__get__(None, self) + return v + +The important points to remember are: + +* descriptors are invoked by the :meth:`__getattribute__` method +* overriding :meth:`__getattribute__` prevents automatic descriptor calls +* :meth:`__getattribute__` is only available with new style classes and objects +* :meth:`object.__getattribute__` and :meth:`type.__getattribute__` make + different calls to :meth:`__get__`. +* data descriptors always override instance dictionaries. +* non-data descriptors may be overridden by instance dictionaries. + +The object returned by ``super()`` also has a custom :meth:`__getattribute__` +method for invoking descriptors. The call ``super(B, obj).m()`` searches +``obj.__class__.__mro__`` for the base class ``A`` immediately following ``B`` +and then returns ``A.__dict__['m'].__get__(obj, A)``. If not a descriptor, +``m`` is returned unchanged. If not in the dictionary, ``m`` reverts to a +search using :meth:`object.__getattribute__`. + +Note, in Python 2.2, ``super(B, obj).m()`` would only invoke :meth:`__get__` if +``m`` was a data descriptor. In Python 2.3, non-data descriptors also get +invoked unless an old-style class is involved. The implementation details are +in :cfunc:`super_getattro()` in +`Objects/typeobject.c <http://svn.python.org/view/python/trunk/Objects/typeobject.c?view=markup>`_ +and a pure Python equivalent can be found in `Guido's Tutorial`_. + +.. _`Guido's Tutorial`: http://www.python.org/2.2.3/descrintro.html#cooperation + +The details above show that the mechanism for descriptors is embedded in the +:meth:`__getattribute__()` methods for :class:`object`, :class:`type`, and +:func:`super`. Classes inherit this machinery when they derive from +:class:`object` or if they have a meta-class providing similar functionality. +Likewise, classes can turn-off descriptor invocation by overriding +:meth:`__getattribute__()`. + + +Descriptor Example +------------------ + +The following code creates a class whose objects are data descriptors which +print a message for each get or set. Overriding :meth:`__getattribute__` is +alternate approach that could do this for every attribute. However, this +descriptor is useful for monitoring just a few chosen attributes:: + + class RevealAccess(object): + """A data descriptor that sets and returns values + normally and prints a message logging their access. + """ + + def __init__(self, initval=None, name='var'): + self.val = initval + self.name = name + + def __get__(self, obj, objtype): + print('Retrieving', self.name) + return self.val + + def __set__(self, obj, val): + print('Updating', self.name) + self.val = val + + >>> class MyClass(object): + x = RevealAccess(10, 'var "x"') + y = 5 + + >>> m = MyClass() + >>> m.x + Retrieving var "x" + 10 + >>> m.x = 20 + Updating var "x" + >>> m.x + Retrieving var "x" + 20 + >>> m.y + 5 + +The protocol is simple and offers exciting possibilities. Several use cases are +so common that they have been packaged into individual function calls. +Properties, bound and unbound methods, static methods, and class methods are all +based on the descriptor protocol. + + +Properties +---------- + +Calling :func:`property` is a succinct way of building a data descriptor that +triggers function calls upon access to an attribute. Its signature is:: + + property(fget=None, fset=None, fdel=None, doc=None) -> property attribute + +The documentation shows a typical use to define a managed attribute ``x``:: + + class C(object): + def getx(self): return self.__x + def setx(self, value): self.__x = value + def delx(self): del self.__x + x = property(getx, setx, delx, "I'm the 'x' property.") + +To see how :func:`property` is implemented in terms of the descriptor protocol, +here is a pure Python equivalent:: + + class Property(object): + "Emulate PyProperty_Type() in Objects/descrobject.c" + + def __init__(self, fget=None, fset=None, fdel=None, doc=None): + self.fget = fget + self.fset = fset + self.fdel = fdel + self.__doc__ = doc + + def __get__(self, obj, objtype=None): + if obj is None: + return self + if self.fget is None: + raise AttributeError, "unreadable attribute" + return self.fget(obj) + + def __set__(self, obj, value): + if self.fset is None: + raise AttributeError, "can't set attribute" + self.fset(obj, value) + + def __delete__(self, obj): + if self.fdel is None: + raise AttributeError, "can't delete attribute" + self.fdel(obj) + +The :func:`property` builtin helps whenever a user interface has granted +attribute access and then subsequent changes require the intervention of a +method. + +For instance, a spreadsheet class may grant access to a cell value through +``Cell('b10').value``. Subsequent improvements to the program require the cell +to be recalculated on every access; however, the programmer does not want to +affect existing client code accessing the attribute directly. The solution is +to wrap access to the value attribute in a property data descriptor:: + + class Cell(object): + . . . + def getvalue(self, obj): + "Recalculate cell before returning value" + self.recalc() + return obj._value + value = property(getvalue) + + +Functions and Methods +--------------------- + +Python's object oriented features are built upon a function based environment. +Using non-data descriptors, the two are merged seamlessly. + +Class dictionaries store methods as functions. In a class definition, methods +are written using :keyword:`def` and :keyword:`lambda`, the usual tools for +creating functions. The only difference from regular functions is that the +first argument is reserved for the object instance. By Python convention, the +instance reference is called *self* but may be called *this* or any other +variable name. + +To support method calls, functions include the :meth:`__get__` method for +binding methods during attribute access. This means that all functions are +non-data descriptors which return bound or unbound methods depending whether +they are invoked from an object or a class. In pure python, it works like +this:: + + class Function(object): + . . . + def __get__(self, obj, objtype=None): + "Simulate func_descr_get() in Objects/funcobject.c" + return types.MethodType(self, obj, objtype) + +Running the interpreter shows how the function descriptor works in practice:: + + >>> class D(object): + def f(self, x): + return x + + >>> d = D() + >>> D.__dict__['f'] # Stored internally as a function + <function f at 0x00C45070> + >>> D.f # Get from a class becomes an unbound method + <unbound method D.f> + >>> d.f # Get from an instance becomes a bound method + <bound method D.f of <__main__.D object at 0x00B18C90>> + +The output suggests that bound and unbound methods are two different types. +While they could have been implemented that way, the actual C implemention of +:ctype:`PyMethod_Type` in +`Objects/classobject.c <http://svn.python.org/view/python/trunk/Objects/classobject.c?view=markup>`_ +is a single object with two different representations depending on whether the +:attr:`im_self` field is set or is *NULL* (the C equivalent of *None*). + +Likewise, the effects of calling a method object depend on the :attr:`im_self` +field. If set (meaning bound), the original function (stored in the +:attr:`im_func` field) is called as expected with the first argument set to the +instance. If unbound, all of the arguments are passed unchanged to the original +function. The actual C implementation of :func:`instancemethod_call()` is only +slightly more complex in that it includes some type checking. + + +Static Methods and Class Methods +-------------------------------- + +Non-data descriptors provide a simple mechanism for variations on the usual +patterns of binding functions into methods. + +To recap, functions have a :meth:`__get__` method so that they can be converted +to a method when accessed as attributes. The non-data descriptor transforms a +``obj.f(*args)`` call into ``f(obj, *args)``. Calling ``klass.f(*args)`` +becomes ``f(*args)``. + +This chart summarizes the binding and its two most useful variants: + + +-----------------+----------------------+------------------+ + | Transformation | Called from an | Called from a | + | | Object | Class | + +=================+======================+==================+ + | function | f(obj, \*args) | f(\*args) | + +-----------------+----------------------+------------------+ + | staticmethod | f(\*args) | f(\*args) | + +-----------------+----------------------+------------------+ + | classmethod | f(type(obj), \*args) | f(klass, \*args) | + +-----------------+----------------------+------------------+ + +Static methods return the underlying function without changes. Calling either +``c.f`` or ``C.f`` is the equivalent of a direct lookup into +``object.__getattribute__(c, "f")`` or ``object.__getattribute__(C, "f")``. As a +result, the function becomes identically accessible from either an object or a +class. + +Good candidates for static methods are methods that do not reference the +``self`` variable. + +For instance, a statistics package may include a container class for +experimental data. The class provides normal methods for computing the average, +mean, median, and other descriptive statistics that depend on the data. However, +there may be useful functions which are conceptually related but do not depend +on the data. For instance, ``erf(x)`` is handy conversion routine that comes up +in statistical work but does not directly depend on a particular dataset. +It can be called either from an object or the class: ``s.erf(1.5) --> .9332`` or +``Sample.erf(1.5) --> .9332``. + +Since staticmethods return the underlying function with no changes, the example +calls are unexciting:: + + >>> class E(object): + def f(x): + print(x) + f = staticmethod(f) + + >>> print(E.f(3)) + 3 + >>> print(E().f(3)) + 3 + +Using the non-data descriptor protocol, a pure Python version of +:func:`staticmethod` would look like this:: + + class StaticMethod(object): + "Emulate PyStaticMethod_Type() in Objects/funcobject.c" + + def __init__(self, f): + self.f = f + + def __get__(self, obj, objtype=None): + return self.f + +Unlike static methods, class methods prepend the class reference to the +argument list before calling the function. This format is the same +for whether the caller is an object or a class:: + + >>> class E(object): + def f(klass, x): + return klass.__name__, x + f = classmethod(f) + + >>> print(E.f(3)) + ('E', 3) + >>> print(E().f(3)) + ('E', 3) + + +This behavior is useful whenever the function only needs to have a class +reference and does not care about any underlying data. One use for classmethods +is to create alternate class constructors. In Python 2.3, the classmethod +:func:`dict.fromkeys` creates a new dictionary from a list of keys. The pure +Python equivalent is:: + + class Dict: + . . . + def fromkeys(klass, iterable, value=None): + "Emulate dict_fromkeys() in Objects/dictobject.c" + d = klass() + for key in iterable: + d[key] = value + return d + fromkeys = classmethod(fromkeys) + +Now a new dictionary of unique keys can be constructed like this:: + + >>> Dict.fromkeys('abracadabra') + {'a': None, 'r': None, 'b': None, 'c': None, 'd': None} + +Using the non-data descriptor protocol, a pure Python version of +:func:`classmethod` would look like this:: + + class ClassMethod(object): + "Emulate PyClassMethod_Type() in Objects/funcobject.c" + + def __init__(self, f): + self.f = f + + def __get__(self, obj, klass=None): + if klass is None: + klass = type(obj) + def newfunc(*args): + return self.f(klass, *args) + return newfunc + diff --git a/Doc/howto/index.rst b/Doc/howto/index.rst index 022beee..417ae00 100644 --- a/Doc/howto/index.rst +++ b/Doc/howto/index.rst @@ -16,6 +16,7 @@ Currently, the HOWTOs are: advocacy.rst cporting.rst curses.rst + descriptor.rst doanddont.rst functional.rst regex.rst diff --git a/Doc/library/datetime.rst b/Doc/library/datetime.rst index 5899ba7..456c1a0 100644 --- a/Doc/library/datetime.rst +++ b/Doc/library/datetime.rst @@ -455,7 +455,9 @@ Instance methods: Return a :class:`time.struct_time` such as returned by :func:`time.localtime`. The hours, minutes and seconds are 0, and the DST flag is -1. ``d.timetuple()`` is equivalent to ``time.struct_time((d.year, d.month, d.day, 0, 0, 0, - d.weekday(), d.toordinal() - date(d.year, 1, 1).toordinal() + 1, -1))`` + d.weekday(), yday, -1))``, where ``yday = d.toordinal() - date(d.year, 1, + 1).toordinal() + 1`` is the day number within the current year starting with + ``1`` for January 1st. .. method:: date.toordinal() @@ -919,12 +921,13 @@ Instance methods: Return a :class:`time.struct_time` such as returned by :func:`time.localtime`. ``d.timetuple()`` is equivalent to ``time.struct_time((d.year, d.month, d.day, - d.hour, d.minute, d.second, d.weekday(), d.toordinal() - date(d.year, 1, - 1).toordinal() + 1, dst))`` The :attr:`tm_isdst` flag of the result is set - according to the :meth:`dst` method: :attr:`tzinfo` is ``None`` or :meth:`dst` - returns ``None``, :attr:`tm_isdst` is set to ``-1``; else if :meth:`dst` - returns a non-zero value, :attr:`tm_isdst` is set to ``1``; else ``tm_isdst`` is - set to ``0``. + d.hour, d.minute, d.second, d.weekday(), yday, dst))``, where ``yday = + d.toordinal() - date(d.year, 1, 1).toordinal() + 1`` is the day number within + the current year starting with ``1`` for January 1st. The :attr:`tm_isdst` flag + of the result is set according to the :meth:`dst` method: :attr:`tzinfo` is + ``None`` or :meth:`dst`` returns ``None``, :attr:`tm_isdst` is set to ``-1``; + else if :meth:`dst` returns a non-zero value, :attr:`tm_isdst` is set to ``1``; + else ``tm_isdst`` is set to ``0``. .. method:: datetime.utctimetuple() diff --git a/Doc/library/multiprocessing.rst b/Doc/library/multiprocessing.rst index 85a8241..7fbb258 100644 --- a/Doc/library/multiprocessing.rst +++ b/Doc/library/multiprocessing.rst @@ -61,15 +61,15 @@ object and then calling its :meth:`~Process.start` method. :class:`Process` follows the API of :class:`threading.Thread`. A trivial example of a multiprocess program is :: - from multiprocessing import Process + from multiprocessing import Process def f(name): print('hello', name) - if __name__ == '__main__': - p = Process(target=f, args=('bob',)) - p.start() - p.join() + if __name__ == '__main__': + p = Process(target=f, args=('bob',)) + p.start() + p.join() To show the individual process IDs involved, here is an expanded example:: diff --git a/Doc/library/urllib.request.rst b/Doc/library/urllib.request.rst index c4a8a79..1278434 100644 --- a/Doc/library/urllib.request.rst +++ b/Doc/library/urllib.request.rst @@ -1058,7 +1058,7 @@ Examples -------- This example gets the python.org main page and displays the first 300 bytes of -it.:: +it. :: >>> import urllib.request >>> f = urllib.request.urlopen('http://www.python.org/') diff --git a/Doc/reference/lexical_analysis.rst b/Doc/reference/lexical_analysis.rst index aa30173..1b8b7b5 100644 --- a/Doc/reference/lexical_analysis.rst +++ b/Doc/reference/lexical_analysis.rst @@ -512,13 +512,13 @@ Notes: (4) Individual code units which form parts of a surrogate pair can be encoded using - this escape sequence. Unlike in Standard C, exactly two hex digits are required. + this escape sequence. Exactly four hex digits are required. (5) Any Unicode character can be encoded this way, but characters outside the Basic Multilingual Plane (BMP) will be encoded using a surrogate pair if Python is - compiled to use 16-bit code units (the default). Individual code units which - form parts of a surrogate pair can be encoded using this escape sequence. + compiled to use 16-bit code units (the default). Exactly eight hex digits + are required. .. index:: unrecognized escape sequence @@ -700,4 +700,4 @@ tokens or are otherwise significant to the lexical analyzer:: The following printing ASCII characters are not used in Python. Their occurrence outside string literals and comments is an unconditional error:: - $ ? + $ ? ` |