mirror of
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1b7f891f41
svn+ssh://pythondev@svn.python.org/python/trunk ........ r58096 | brett.cannon | 2007-09-10 23:38:27 +0200 (Mon, 10 Sep 2007) | 4 lines Fix a possible segfault from recursing too deep to get the repr of a list. Closes issue #1096. ........ r58097 | bill.janssen | 2007-09-10 23:51:02 +0200 (Mon, 10 Sep 2007) | 33 lines More work on SSL support. * Much expanded test suite: All protocols tested against all other protocols. All protocols tested with all certificate options. Tests for bad key and bad cert. Test of STARTTLS functionality. Test of RAND_* functions. * Fixes for threading/malloc bug. * Issue 1065 fixed: sslsocket class renamed to SSLSocket. sslerror class renamed to SSLError. Function "wrap_socket" now used to wrap an existing socket. * Issue 1583946 finally fixed: Support for subjectAltName added. Subject name now returned as proper DN list of RDNs. * SSLError exported from socket as "sslerror". * RAND_* functions properly exported from ssl.py. * Documentation improved: Example of how to create a self-signed certificate. Better indexing. ........ r58098 | guido.van.rossum | 2007-09-11 00:02:25 +0200 (Tue, 11 Sep 2007) | 9 lines Patch # 1140 (my code, approved by Effbot). Make sure the type of the return value of re.sub(x, y, z) is the type of y+x (i.e. unicode if either is unicode, str if they are both str) even if there are no substitutions or if x==z (which triggered various special cases in join_list()). Could be backported to 2.5; no need to port to 3.0. ........ r58099 | guido.van.rossum | 2007-09-11 00:36:02 +0200 (Tue, 11 Sep 2007) | 8 lines Patch # 1026 by Benjamin Aranguren (with Alex Martelli): Backport abc.py and isinstance/issubclass overloading to 2.6. I had to backport test_typechecks.py myself, and make one small change to abc.py to avoid duplicate work when x.__class__ and type(x) are the same. ........ r58100 | bill.janssen | 2007-09-11 01:41:24 +0200 (Tue, 11 Sep 2007) | 3 lines A better way of finding an open port to test with. ........ r58101 | bill.janssen | 2007-09-11 03:09:19 +0200 (Tue, 11 Sep 2007) | 4 lines Make sure test_ssl doesn't reference the ssl module in a context where it can't be imported. ........ r58102 | bill.janssen | 2007-09-11 04:42:07 +0200 (Tue, 11 Sep 2007) | 3 lines Fix some documentation bugs. ........ r58103 | nick.coghlan | 2007-09-11 16:01:18 +0200 (Tue, 11 Sep 2007) | 1 line Always use the -E flag when spawning subprocesses in test_cmd_line (Issue 1056) ........ r58106 | thomas.heller | 2007-09-11 21:17:48 +0200 (Tue, 11 Sep 2007) | 3 lines Disable some tests that fail on the 'ppc Debian unstable' buildbot to find out if they cause the segfault on the 'alpha Debian' machine. ........ r58108 | brett.cannon | 2007-09-11 23:02:28 +0200 (Tue, 11 Sep 2007) | 6 lines Generators had their throw() method allowing string exceptions. That's a no-no. Fixes issue #1147. Need to fix 2.5 to raise a proper warning if a string exception is passed in. ........ r58112 | georg.brandl | 2007-09-12 20:03:51 +0200 (Wed, 12 Sep 2007) | 3 lines New documentation page for the bdb module. (This doesn't need to be merged to Py3k.) ........ r58114 | georg.brandl | 2007-09-12 20:05:57 +0200 (Wed, 12 Sep 2007) | 2 lines Bug #1152: use non-deprecated name in example. ........ r58115 | georg.brandl | 2007-09-12 20:08:33 +0200 (Wed, 12 Sep 2007) | 2 lines Fix #1122: wrong return type documented for various _Size() functions. ........ r58117 | georg.brandl | 2007-09-12 20:10:56 +0200 (Wed, 12 Sep 2007) | 2 lines Fix #1139: PyFile_Encoding really is PyFile_SetEncoding. ........ r58119 | georg.brandl | 2007-09-12 20:29:18 +0200 (Wed, 12 Sep 2007) | 2 lines bug #1154: release memory allocated by "es" PyArg_ParseTuple format specifier. ........ r58121 | bill.janssen | 2007-09-12 20:52:05 +0200 (Wed, 12 Sep 2007) | 1 line root certificate for https://svn.python.org/, used in test_ssl ........ r58122 | georg.brandl | 2007-09-12 21:00:07 +0200 (Wed, 12 Sep 2007) | 3 lines Bug #1153: repr.repr() now doesn't require set and dictionary items to be orderable to properly represent them. ........ r58125 | georg.brandl | 2007-09-12 21:29:28 +0200 (Wed, 12 Sep 2007) | 4 lines #1120: put explicit version in the shebang lines of pydoc, idle and smtpd.py scripts that are installed by setup.py. That way, they work when only "make altinstall" is used. ........ r58139 | mark.summerfield | 2007-09-13 16:54:30 +0200 (Thu, 13 Sep 2007) | 9 lines Replaced variable o with obj in operator.rst because o is easy to confuse. Added a note about Python 3's collections.Mapping etc., above section that describes isMappingType() etc. Added xrefs between os, os.path, fileinput, and open(). ........ r58143 | facundo.batista | 2007-09-13 20:13:15 +0200 (Thu, 13 Sep 2007) | 7 lines Merged the decimal-branch (revisions 54886 to 58140). Decimal is now fully updated to the latests Decimal Specification (v1.66) and the latests test cases (v2.56). Thanks to Mark Dickinson for all his help during this process. ........ r58145 | facundo.batista | 2007-09-13 20:42:09 +0200 (Thu, 13 Sep 2007) | 7 lines Put the parameter watchexp back in (changed watchexp from an int to a bool). Also second argument to watchexp is now converted to Decimal, just as with all the other two-argument operations. Thanks Mark Dickinson. ........ r58147 | andrew.kuchling | 2007-09-14 00:49:34 +0200 (Fri, 14 Sep 2007) | 1 line Add various items ........ r58148 | andrew.kuchling | 2007-09-14 00:50:10 +0200 (Fri, 14 Sep 2007) | 1 line Make target unique ........ r58154 | facundo.batista | 2007-09-14 20:58:34 +0200 (Fri, 14 Sep 2007) | 3 lines Included the new functions, and new descriptions. ........ r58155 | thomas.heller | 2007-09-14 21:40:35 +0200 (Fri, 14 Sep 2007) | 2 lines ctypes.util.find_library uses dump(1) instead of objdump(1) on Solaris. Fixes issue #1777530; will backport to release25-maint. ........ r58159 | facundo.batista | 2007-09-14 23:29:52 +0200 (Fri, 14 Sep 2007) | 3 lines Some additions (examples and a bit on the tutorial). ........ r58160 | georg.brandl | 2007-09-15 18:53:36 +0200 (Sat, 15 Sep 2007) | 2 lines Remove bdb from the "undocumented modules" list. ........ r58164 | bill.janssen | 2007-09-17 00:06:00 +0200 (Mon, 17 Sep 2007) | 15 lines Add support for asyncore server-side SSL support. This requires adding the 'makefile' method to ssl.SSLSocket, and importing the requisite fakefile class from socket.py, and making the appropriate changes to it to make it use the SSL connection. Added sample HTTPS server to test_ssl.py, and test that uses it. Change SSL tests to use https://svn.python.org/, instead of www.sf.net and pop.gmail.com. Added utility function to ssl module, get_server_certificate, to wrap up the several things to be done to pull a certificate from a remote server. ........ r58173 | bill.janssen | 2007-09-17 01:16:46 +0200 (Mon, 17 Sep 2007) | 1 line use binary mode when reading files for testAsyncore to make Windows happy ........ r58175 | raymond.hettinger | 2007-09-17 02:55:00 +0200 (Mon, 17 Sep 2007) | 7 lines Sync-up named tuples with the latest version of the ASPN recipe. Allows optional commas in the field-name spec (help when named tuples are used in conjuction with sql queries). Adds the __fields__ attribute for introspection and to support conversion to dictionary form. Adds a __replace__() method similar to str.replace() but using a named field as a target. Clean-up spelling and presentation in doc-strings. ........ r58176 | brett.cannon | 2007-09-17 05:28:34 +0200 (Mon, 17 Sep 2007) | 5 lines Add a bunch of GIL release/acquire points in tp_print implementations and for PyObject_Print(). Closes issue #1164. ........ r58177 | sean.reifschneider | 2007-09-17 07:45:04 +0200 (Mon, 17 Sep 2007) | 2 lines issue1597011: Fix for bz2 module corner-case error due to error checking bug. ........ r58180 | facundo.batista | 2007-09-17 18:26:50 +0200 (Mon, 17 Sep 2007) | 3 lines Decimal is updated, :) ........ r58181 | facundo.batista | 2007-09-17 19:30:13 +0200 (Mon, 17 Sep 2007) | 5 lines The methods always return Decimal classes, even if they're executed through a subclass (thanks Mark Dickinson). Added a bit of testing for this. ........ r58183 | sean.reifschneider | 2007-09-17 22:53:21 +0200 (Mon, 17 Sep 2007) | 2 lines issue1082: Fixing platform and system for Vista. ........ r58185 | andrew.kuchling | 2007-09-18 03:36:16 +0200 (Tue, 18 Sep 2007) | 1 line Add item; sort properly ........ r58186 | raymond.hettinger | 2007-09-18 05:33:19 +0200 (Tue, 18 Sep 2007) | 1 line Handle corner cased on 0-tuples and 1-tuples. Add verbose option so people can see how it works. ........ r58192 | georg.brandl | 2007-09-18 09:24:40 +0200 (Tue, 18 Sep 2007) | 2 lines A bit of reordering, also show more subheadings in the lang ref index. ........ r58193 | facundo.batista | 2007-09-18 18:53:18 +0200 (Tue, 18 Sep 2007) | 4 lines Speed up of the various division operations (remainder, divide, divideint and divmod). Thanks Mark Dickinson. ........ r58197 | raymond.hettinger | 2007-09-19 00:18:02 +0200 (Wed, 19 Sep 2007) | 1 line Cleanup docs for NamedTuple. ........
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28 KiB
ReStructuredText
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.. _simple:
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*****************
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Simple statements
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*****************
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.. index:: pair: simple; statement
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Simple statements are comprised within a single logical line. Several simple
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statements may occur on a single line separated by semicolons. The syntax for
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simple statements is:
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.. productionlist::
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simple_stmt: `expression_stmt`
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: | `assert_stmt`
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: | `assignment_stmt`
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: | `augmented_assignment_stmt`
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: | `pass_stmt`
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: | `del_stmt`
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: | `return_stmt`
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: | `yield_stmt`
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: | `raise_stmt`
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: | `break_stmt`
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: | `continue_stmt`
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: | `import_stmt`
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: | `global_stmt`
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: | `nonlocal_stmt`
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.. _exprstmts:
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Expression statements
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=====================
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.. index:: pair: expression; statement
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.. index:: pair: expression; list
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Expression statements are used (mostly interactively) to compute and write a
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value, or (usually) to call a procedure (a function that returns no meaningful
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result; in Python, procedures return the value ``None``). Other uses of
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expression statements are allowed and occasionally useful. The syntax for an
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expression statement is:
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.. productionlist::
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expression_stmt: `expression_list`
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An expression statement evaluates the expression list (which may be a single
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expression).
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.. index::
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builtin: repr
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object: None
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pair: string; conversion
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single: output
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pair: standard; output
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pair: writing; values
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pair: procedure; call
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In interactive mode, if the value is not ``None``, it is converted to a string
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using the built-in :func:`repr` function and the resulting string is written to
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standard output on a line by itself (except if the result is ``None``, so that
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procedure calls do not cause any output.)
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.. _assignment:
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Assignment statements
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=====================
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.. index::
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pair: assignment; statement
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pair: binding; name
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pair: rebinding; name
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object: mutable
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pair: attribute; assignment
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Assignment statements are used to (re)bind names to values and to modify
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attributes or items of mutable objects:
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.. productionlist::
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assignment_stmt: (`target_list` "=")+ (`expression_list` | `yield_expression`)
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target_list: `target` ("," `target`)* [","]
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target: `identifier`
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: | "(" `target_list` ")"
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: | "[" `target_list` "]"
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: | `attributeref`
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: | `subscription`
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: | `slicing`
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: | "*" `target`
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(See section :ref:`primaries` for the syntax definitions for the last three
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symbols.)
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An assignment statement evaluates the expression list (remember that this can be
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a single expression or a comma-separated list, the latter yielding a tuple) and
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assigns the single resulting object to each of the target lists, from left to
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right.
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.. index::
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single: target
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pair: target; list
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Assignment is defined recursively depending on the form of the target (list).
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When a target is part of a mutable object (an attribute reference, subscription
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or slicing), the mutable object must ultimately perform the assignment and
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decide about its validity, and may raise an exception if the assignment is
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unacceptable. The rules observed by various types and the exceptions raised are
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given with the definition of the object types (see section :ref:`types`).
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.. index:: triple: target; list; assignment
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Assignment of an object to a target list, optionally enclosed in parentheses or
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square brackets, is recursively defined as follows.
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* If the target list is a single target: The object is assigned to that target.
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* If the target list is a comma-separated list of targets:
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* If the target list contains one target prefixed with an asterisk, called a
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"starred" target: The object must be a sequence with at least as many items
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as there are targets in the target list, minus one. The first items of the
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sequence are assigned, from left to right, to the targets before the starred
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target. The final items of the sequence are assigned to the targets after
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the starred target. A list of the remaining items in the sequence is then
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assigned to the starred target (the list can be empty).
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* Else: The object must be a sequence with the same number of items as there
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are targets in the target list, and the items are assigned, from left to
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right, to the corresponding targets.
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Assignment of an object to a single target is recursively defined as follows.
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* If the target is an identifier (name):
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* If the name does not occur in a :keyword:`global` or :keyword:`nonlocal`
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statement in the current code block: the name is bound to the object in the
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current local namespace.
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* Otherwise: the name is bound to the object in the global namespace or the
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outer namespace determined by :keyword:`nonlocal`, respectively.
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The name is rebound if it was already bound. This may cause the reference
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count for the object previously bound to the name to reach zero, causing the
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object to be deallocated and its destructor (if it has one) to be called.
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* If the target is an attribute reference: The primary expression in the
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reference is evaluated. It should yield an object with assignable attributes;
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if this is not the case, :exc:`TypeError` is raised. That object is then
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asked to assign the assigned object to the given attribute; if it cannot
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perform the assignment, it raises an exception (usually but not necessarily
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:exc:`AttributeError`).
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.. index::
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pair: subscription; assignment
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object: mutable
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* If the target is a subscription: The primary expression in the reference is
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evaluated. It should yield either a mutable sequence object (such as a list)
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or a mapping object (such as a dictionary). Next, the subscript expression is
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evaluated.
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.. index::
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object: sequence
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object: list
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If the primary is a mutable sequence object (such as a list), the subscript
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must yield an integer. If it is negative, the sequence's length is added to
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it. The resulting value must be a nonnegative integer less than the
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sequence's length, and the sequence is asked to assign the assigned object to
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its item with that index. If the index is out of range, :exc:`IndexError` is
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raised (assignment to a subscripted sequence cannot add new items to a list).
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.. index::
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object: mapping
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object: dictionary
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If the primary is a mapping object (such as a dictionary), the subscript must
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have a type compatible with the mapping's key type, and the mapping is then
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asked to create a key/datum pair which maps the subscript to the assigned
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object. This can either replace an existing key/value pair with the same key
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value, or insert a new key/value pair (if no key with the same value existed).
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For user-defined objects, the :meth:`__setitem__` method is called with
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appropriate arguments.
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.. index:: pair: slicing; assignment
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* If the target is a slicing: The primary expression in the reference is
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evaluated. It should yield a mutable sequence object (such as a list). The
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assigned object should be a sequence object of the same type. Next, the lower
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and upper bound expressions are evaluated, insofar they are present; defaults
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are zero and the sequence's length. The bounds should evaluate to integers.
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If either bound is negative, the sequence's length is added to it. The
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resulting bounds are clipped to lie between zero and the sequence's length,
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inclusive. Finally, the sequence object is asked to replace the slice with
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the items of the assigned sequence. The length of the slice may be different
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from the length of the assigned sequence, thus changing the length of the
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target sequence, if the object allows it.
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(In the current implementation, the syntax for targets is taken to be the same
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as for expressions, and invalid syntax is rejected during the code generation
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phase, causing less detailed error messages.)
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WARNING: Although the definition of assignment implies that overlaps between the
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left-hand side and the right-hand side are 'safe' (for example ``a, b = b, a``
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swaps two variables), overlaps *within* the collection of assigned-to variables
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are not safe! For instance, the following program prints ``[0, 2]``::
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x = [0, 1]
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i = 0
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i, x[i] = 1, 2
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print(x)
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.. seealso::
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:pep:`3132` - Extended Iterable Unpacking
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The specification for the ``*target`` feature.
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.. _augassign:
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Augmented assignment statements
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-------------------------------
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.. index::
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pair: augmented; assignment
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single: statement; assignment, augmented
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Augmented assignment is the combination, in a single statement, of a binary
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operation and an assignment statement:
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.. productionlist::
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augmented_assignment_stmt: `target` `augop` (`expression_list` | `yield_expression`)
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augop: "+=" | "-=" | "*=" | "/=" | "%=" | "**="
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: | ">>=" | "<<=" | "&=" | "^=" | "|="
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(See section :ref:`primaries` for the syntax definitions for the last three
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symbols.)
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An augmented assignment evaluates the target (which, unlike normal assignment
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statements, cannot be an unpacking) and the expression list, performs the binary
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operation specific to the type of assignment on the two operands, and assigns
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the result to the original target. The target is only evaluated once.
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An augmented assignment expression like ``x += 1`` can be rewritten as ``x = x +
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1`` to achieve a similar, but not exactly equal effect. In the augmented
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version, ``x`` is only evaluated once. Also, when possible, the actual operation
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is performed *in-place*, meaning that rather than creating a new object and
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assigning that to the target, the old object is modified instead.
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With the exception of assigning to tuples and multiple targets in a single
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statement, the assignment done by augmented assignment statements is handled the
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same way as normal assignments. Similarly, with the exception of the possible
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*in-place* behavior, the binary operation performed by augmented assignment is
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the same as the normal binary operations.
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For targets which are attribute references, the initial value is retrieved with
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a :meth:`getattr` and the result is assigned with a :meth:`setattr`. Notice
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that the two methods do not necessarily refer to the same variable. When
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:meth:`getattr` refers to a class variable, :meth:`setattr` still writes to an
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instance variable. For example::
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class A:
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x = 3 # class variable
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a = A()
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a.x += 1 # writes a.x as 4 leaving A.x as 3
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.. _assert:
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The :keyword:`assert` statement
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===============================
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.. index::
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statement: assert
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pair: debugging; assertions
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Assert statements are a convenient way to insert debugging assertions into a
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program:
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.. productionlist::
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assert_stmt: "assert" `expression` ["," `expression`]
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The simple form, ``assert expression``, is equivalent to ::
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if __debug__:
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if not expression: raise AssertionError
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The extended form, ``assert expression1, expression2``, is equivalent to ::
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if __debug__:
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if not expression1: raise AssertionError, expression2
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.. index::
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single: __debug__
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exception: AssertionError
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These equivalences assume that ``__debug__`` and :exc:`AssertionError` refer to
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the built-in variables with those names. In the current implementation, the
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built-in variable ``__debug__`` is ``True`` under normal circumstances,
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``False`` when optimization is requested (command line option -O). The current
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code generator emits no code for an assert statement when optimization is
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requested at compile time. Note that it is unnecessary to include the source
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code for the expression that failed in the error message; it will be displayed
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as part of the stack trace.
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Assignments to ``__debug__`` are illegal. The value for the built-in variable
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is determined when the interpreter starts.
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.. _pass:
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The :keyword:`pass` statement
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=============================
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.. index:: statement: pass
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pair: null; operation
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.. productionlist::
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pass_stmt: "pass"
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:keyword:`pass` is a null operation --- when it is executed, nothing happens.
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It is useful as a placeholder when a statement is required syntactically, but no
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code needs to be executed, for example::
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def f(arg): pass # a function that does nothing (yet)
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class C: pass # a class with no methods (yet)
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.. _del:
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The :keyword:`del` statement
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============================
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.. index:: statement: del
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pair: deletion; target
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triple: deletion; target; list
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.. productionlist::
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del_stmt: "del" `target_list`
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Deletion is recursively defined very similar to the way assignment is defined.
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Rather that spelling it out in full details, here are some hints.
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Deletion of a target list recursively deletes each target, from left to right.
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.. index::
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statement: global
|
|
pair: unbinding; name
|
|
|
|
Deletion of a name removes the binding of that name from the local or global
|
|
namespace, depending on whether the name occurs in a :keyword:`global` statement
|
|
in the same code block. If the name is unbound, a :exc:`NameError` exception
|
|
will be raised.
|
|
|
|
.. index:: pair: free; variable
|
|
|
|
It is illegal to delete a name from the local namespace if it occurs as a free
|
|
variable in a nested block.
|
|
|
|
.. index:: pair: attribute; deletion
|
|
|
|
Deletion of attribute references, subscriptions and slicings is passed to the
|
|
primary object involved; deletion of a slicing is in general equivalent to
|
|
assignment of an empty slice of the right type (but even this is determined by
|
|
the sliced object).
|
|
|
|
|
|
.. _return:
|
|
|
|
The :keyword:`return` statement
|
|
===============================
|
|
|
|
.. index:: statement: return
|
|
pair: function; definition
|
|
pair: class; definition
|
|
|
|
.. productionlist::
|
|
return_stmt: "return" [`expression_list`]
|
|
|
|
:keyword:`return` may only occur syntactically nested in a function definition,
|
|
not within a nested class definition.
|
|
|
|
If an expression list is present, it is evaluated, else ``None`` is substituted.
|
|
|
|
:keyword:`return` leaves the current function call with the expression list (or
|
|
``None``) as return value.
|
|
|
|
.. index:: keyword: finally
|
|
|
|
When :keyword:`return` passes control out of a :keyword:`try` statement with a
|
|
:keyword:`finally` clause, that :keyword:`finally` clause is executed before
|
|
really leaving the function.
|
|
|
|
In a generator function, the :keyword:`return` statement is not allowed to
|
|
include an :token:`expression_list`. In that context, a bare :keyword:`return`
|
|
indicates that the generator is done and will cause :exc:`StopIteration` to be
|
|
raised.
|
|
|
|
|
|
.. _yield:
|
|
|
|
The :keyword:`yield` statement
|
|
==============================
|
|
|
|
.. productionlist::
|
|
yield_stmt: `yield_expression`
|
|
|
|
The yield statement is nothing but a yield expression used as a statement,
|
|
see :ref:`yieldexpr`.
|
|
|
|
|
|
.. _raise:
|
|
|
|
The :keyword:`raise` statement
|
|
==============================
|
|
|
|
.. index:: statement: raise
|
|
pair: raising; exception
|
|
|
|
.. productionlist::
|
|
raise_stmt: "raise" [`expression` ["from" `expression`]]
|
|
|
|
If no expressions are present, :keyword:`raise` re-raises the last exception
|
|
that was active in the current scope. If no exception is active in the current
|
|
scope, a :exc:`TypeError` exception is raised indicating that this is an error
|
|
(if running under IDLE, a :exc:`Queue.Empty` exception is raised instead).
|
|
|
|
Otherwise, :keyword:`raise` evaluates the first expression as the exception
|
|
object. It must be either a subclass or an instance of :class:`BaseException`.
|
|
If it is a class, the exception instance will be obtained when needed by
|
|
instantiating the class with no arguments.
|
|
|
|
The :dfn:`type` of the exception is the exception instance's class, the
|
|
:dfn:`value` is the instance itself.
|
|
|
|
.. index:: object: traceback
|
|
|
|
A traceback object is normally created automatically when an exception is raised
|
|
and attached to it as the :attr:`__traceback__` attribute; however, you can set
|
|
your own traceback using the :meth:`with_traceback` exception method, like so::
|
|
|
|
raise RuntimeError("foo occurred").with_traceback(tracebackobj)
|
|
|
|
.. XXX document exception chaining
|
|
|
|
The "from" clause is used for exception chaining, which is not documented yet.
|
|
|
|
Additional information on exceptions can be found in section :ref:`exceptions`,
|
|
and information about handling exceptions is in section :ref:`try`.
|
|
|
|
.. seealso::
|
|
|
|
:pep:`3109` - Raising exceptions in Python 3000
|
|
Describes the differences in :keyword:`raise` statements between Python
|
|
2.x and 3.0.
|
|
|
|
|
|
.. _break:
|
|
|
|
The :keyword:`break` statement
|
|
==============================
|
|
|
|
.. index:: statement: break
|
|
statement: for
|
|
statement: while
|
|
pair: loop; statement
|
|
|
|
.. productionlist::
|
|
break_stmt: "break"
|
|
|
|
:keyword:`break` may only occur syntactically nested in a :keyword:`for` or
|
|
:keyword:`while` loop, but not nested in a function or class definition within
|
|
that loop.
|
|
|
|
.. index:: keyword: else
|
|
pair: loop control; target
|
|
|
|
It terminates the nearest enclosing loop, skipping the optional :keyword:`else`
|
|
clause if the loop has one.
|
|
|
|
If a :keyword:`for` loop is terminated by :keyword:`break`, the loop control
|
|
target keeps its current value.
|
|
|
|
.. index:: keyword: finally
|
|
|
|
When :keyword:`break` passes control out of a :keyword:`try` statement with a
|
|
:keyword:`finally` clause, that :keyword:`finally` clause is executed before
|
|
really leaving the loop.
|
|
|
|
|
|
.. _continue:
|
|
|
|
The :keyword:`continue` statement
|
|
=================================
|
|
|
|
.. index:: statement: continue
|
|
statement: for
|
|
statement: while
|
|
pair: loop; statement
|
|
keyword: finally
|
|
|
|
.. productionlist::
|
|
continue_stmt: "continue"
|
|
|
|
:keyword:`continue` may only occur syntactically nested in a :keyword:`for` or
|
|
:keyword:`while` loop, but not nested in a function or class definition or
|
|
:keyword:`finally` statement within that loop. [#]_ It continues with the next
|
|
cycle of the nearest enclosing loop.
|
|
|
|
|
|
.. _import:
|
|
|
|
The :keyword:`import` statement
|
|
===============================
|
|
|
|
.. index::
|
|
statement: import
|
|
single: module; importing
|
|
pair: name; binding
|
|
keyword: from
|
|
|
|
.. productionlist::
|
|
import_stmt: "import" `module` ["as" `name`] ( "," `module` ["as" `name`] )*
|
|
: | "from" `relative_module` "import" `identifier` ["as" `name`]
|
|
: ( "," `identifier` ["as" `name`] )*
|
|
: | "from" `relative_module` "import" "(" `identifier` ["as" `name`]
|
|
: ( "," `identifier` ["as" `name`] )* [","] ")"
|
|
: | "from" `module` "import" "*"
|
|
module: (`identifier` ".")* `identifier`
|
|
relative_module: "."* `module` | "."+
|
|
name: `identifier`
|
|
|
|
Import statements are executed in two steps: (1) find a module, and initialize
|
|
it if necessary; (2) define a name or names in the local namespace (of the scope
|
|
where the :keyword:`import` statement occurs). The first form (without
|
|
:keyword:`from`) repeats these steps for each identifier in the list. The form
|
|
with :keyword:`from` performs step (1) once, and then performs step (2)
|
|
repeatedly.
|
|
|
|
In this context, to "initialize" a built-in or extension module means to call an
|
|
initialization function that the module must provide for the purpose (in the
|
|
reference implementation, the function's name is obtained by prepending string
|
|
"init" to the module's name); to "initialize" a Python-coded module means to
|
|
execute the module's body.
|
|
|
|
.. index::
|
|
single: modules (in module sys)
|
|
single: sys.modules
|
|
pair: module; name
|
|
pair: built-in; module
|
|
pair: user-defined; module
|
|
pair: filename; extension
|
|
triple: module; search; path
|
|
module: sys
|
|
|
|
The system maintains a table of modules that have been or are being initialized,
|
|
indexed by module name. This table is accessible as ``sys.modules``. When a
|
|
module name is found in this table, step (1) is finished. If not, a search for
|
|
a module definition is started. When a module is found, it is loaded. Details
|
|
of the module searching and loading process are implementation and platform
|
|
specific. It generally involves searching for a "built-in" module with the
|
|
given name and then searching a list of locations given as ``sys.path``.
|
|
|
|
.. index::
|
|
pair: module; initialization
|
|
exception: ImportError
|
|
single: code block
|
|
exception: SyntaxError
|
|
|
|
If a built-in module is found, its built-in initialization code is executed and
|
|
step (1) is finished. If no matching file is found, :exc:`ImportError` is
|
|
raised. If a file is found, it is parsed, yielding an executable code block. If
|
|
a syntax error occurs, :exc:`SyntaxError` is raised. Otherwise, an empty module
|
|
of the given name is created and inserted in the module table, and then the code
|
|
block is executed in the context of this module. Exceptions during this
|
|
execution terminate step (1).
|
|
|
|
When step (1) finishes without raising an exception, step (2) can begin.
|
|
|
|
The first form of :keyword:`import` statement binds the module name in the local
|
|
namespace to the module object, and then goes on to import the next identifier,
|
|
if any. If the module name is followed by :keyword:`as`, the name following
|
|
:keyword:`as` is used as the local name for the module.
|
|
|
|
.. index::
|
|
pair: name; binding
|
|
exception: ImportError
|
|
|
|
The :keyword:`from` form does not bind the module name: it goes through the list
|
|
of identifiers, looks each one of them up in the module found in step (1), and
|
|
binds the name in the local namespace to the object thus found. As with the
|
|
first form of :keyword:`import`, an alternate local name can be supplied by
|
|
specifying ":keyword:`as` localname". If a name is not found,
|
|
:exc:`ImportError` is raised. If the list of identifiers is replaced by a star
|
|
(``'*'``), all public names defined in the module are bound in the local
|
|
namespace of the :keyword:`import` statement..
|
|
|
|
.. index:: single: __all__ (optional module attribute)
|
|
|
|
The *public names* defined by a module are determined by checking the module's
|
|
namespace for a variable named ``__all__``; if defined, it must be a sequence of
|
|
strings which are names defined or imported by that module. The names given in
|
|
``__all__`` are all considered public and are required to exist. If ``__all__``
|
|
is not defined, the set of public names includes all names found in the module's
|
|
namespace which do not begin with an underscore character (``'_'``).
|
|
``__all__`` should contain the entire public API. It is intended to avoid
|
|
accidentally exporting items that are not part of the API (such as library
|
|
modules which were imported and used within the module).
|
|
|
|
The :keyword:`from` form with ``*`` may only occur in a module scope. If the
|
|
wild card form of import --- ``import *`` --- is used in a function and the
|
|
function contains or is a nested block with free variables, the compiler will
|
|
raise a :exc:`SyntaxError`.
|
|
|
|
.. index::
|
|
keyword: from
|
|
triple: hierarchical; module; names
|
|
single: packages
|
|
single: __init__.py
|
|
|
|
**Hierarchical module names:** when the module names contains one or more dots,
|
|
the module search path is carried out differently. The sequence of identifiers
|
|
up to the last dot is used to find a "package"; the final identifier is then
|
|
searched inside the package. A package is generally a subdirectory of a
|
|
directory on ``sys.path`` that has a file :file:`__init__.py`. [XXX Can't be
|
|
bothered to spell this out right now; see the URL
|
|
http://www.python.org/doc/essays/packages.html for more details, also about how
|
|
the module search works from inside a package.]
|
|
|
|
.. index:: builtin: __import__
|
|
|
|
The built-in function :func:`__import__` is provided to support applications
|
|
that determine which modules need to be loaded dynamically; refer to
|
|
:ref:`built-in-funcs` for additional information.
|
|
|
|
|
|
.. _future:
|
|
|
|
Future statements
|
|
-----------------
|
|
|
|
.. index:: pair: future; statement
|
|
|
|
A :dfn:`future statement` is a directive to the compiler that a particular
|
|
module should be compiled using syntax or semantics that will be available in a
|
|
specified future release of Python. The future statement is intended to ease
|
|
migration to future versions of Python that introduce incompatible changes to
|
|
the language. It allows use of the new features on a per-module basis before
|
|
the release in which the feature becomes standard.
|
|
|
|
.. productionlist:: *
|
|
future_statement: "from" "__future__" "import" feature ["as" name]
|
|
: ("," feature ["as" name])*
|
|
: | "from" "__future__" "import" "(" feature ["as" name]
|
|
: ("," feature ["as" name])* [","] ")"
|
|
feature: identifier
|
|
name: identifier
|
|
|
|
A future statement must appear near the top of the module. The only lines that
|
|
can appear before a future statement are:
|
|
|
|
* the module docstring (if any),
|
|
* comments,
|
|
* blank lines, and
|
|
* other future statements.
|
|
|
|
.. XXX change this if future is cleaned out
|
|
|
|
The features recognized by Python 3.0 are ``absolute_import``, ``division``,
|
|
``generators``, ``nested_scopes`` and ``with_statement``. They are all
|
|
redundant because they are always enabled, and only kept for backwards
|
|
compatibility.
|
|
|
|
A future statement is recognized and treated specially at compile time: Changes
|
|
to the semantics of core constructs are often implemented by generating
|
|
different code. It may even be the case that a new feature introduces new
|
|
incompatible syntax (such as a new reserved word), in which case the compiler
|
|
may need to parse the module differently. Such decisions cannot be pushed off
|
|
until runtime.
|
|
|
|
For any given release, the compiler knows which feature names have been defined,
|
|
and raises a compile-time error if a future statement contains a feature not
|
|
known to it.
|
|
|
|
The direct runtime semantics are the same as for any import statement: there is
|
|
a standard module :mod:`__future__`, described later, and it will be imported in
|
|
the usual way at the time the future statement is executed.
|
|
|
|
The interesting runtime semantics depend on the specific feature enabled by the
|
|
future statement.
|
|
|
|
Note that there is nothing special about the statement::
|
|
|
|
import __future__ [as name]
|
|
|
|
That is not a future statement; it's an ordinary import statement with no
|
|
special semantics or syntax restrictions.
|
|
|
|
Code compiled by calls to the builtin functions :func:`exec` and :func:`compile`
|
|
that occur in a module :mod:`M` containing a future statement will, by default,
|
|
use the new syntax or semantics associated with the future statement. This can
|
|
be controlled by optional arguments to :func:`compile` --- see the documentation
|
|
of that function for details.
|
|
|
|
A future statement typed at an interactive interpreter prompt will take effect
|
|
for the rest of the interpreter session. If an interpreter is started with the
|
|
:option:`-i` option, is passed a script name to execute, and the script includes
|
|
a future statement, it will be in effect in the interactive session started
|
|
after the script is executed.
|
|
|
|
|
|
.. _global:
|
|
|
|
The :keyword:`global` statement
|
|
===============================
|
|
|
|
.. index:: statement: global
|
|
|
|
.. productionlist::
|
|
global_stmt: "global" `identifier` ("," `identifier`)*
|
|
|
|
.. index:: triple: global; name; binding
|
|
|
|
The :keyword:`global` statement is a declaration which holds for the entire
|
|
current code block. It means that the listed identifiers are to be interpreted
|
|
as globals. It would be impossible to assign to a global variable without
|
|
:keyword:`global`, although free variables may refer to globals without being
|
|
declared global.
|
|
|
|
Names listed in a :keyword:`global` statement must not be used in the same code
|
|
block textually preceding that :keyword:`global` statement.
|
|
|
|
Names listed in a :keyword:`global` statement must not be defined as formal
|
|
parameters or in a :keyword:`for` loop control target, :keyword:`class`
|
|
definition, function definition, or :keyword:`import` statement.
|
|
|
|
(The current implementation does not enforce the latter two restrictions, but
|
|
programs should not abuse this freedom, as future implementations may enforce
|
|
them or silently change the meaning of the program.)
|
|
|
|
.. index::
|
|
builtin: exec
|
|
builtin: eval
|
|
builtin: compile
|
|
|
|
**Programmer's note:** the :keyword:`global` is a directive to the parser. It
|
|
applies only to code parsed at the same time as the :keyword:`global` statement.
|
|
In particular, a :keyword:`global` statement contained in a string or code
|
|
object supplied to the builtin :func:`exec` function does not affect the code
|
|
block *containing* the function call, and code contained in such a string is
|
|
unaffected by :keyword:`global` statements in the code containing the function
|
|
call. The same applies to the :func:`eval` and :func:`compile` functions.
|
|
|
|
|
|
.. _nonlocal:
|
|
|
|
The :keyword:`nonlocal` statement
|
|
=================================
|
|
|
|
.. index:: statement: nonlocal
|
|
|
|
.. productionlist::
|
|
nonlocal_stmt: "nonlocal" `identifier` ("," `identifier`)*
|
|
|
|
XXX: To be documented.
|
|
|
|
|
|
.. rubric:: Footnotes
|
|
|
|
.. [#] It may occur within an :keyword:`except` or :keyword:`else` clause. The
|
|
restriction on occurring in the :keyword:`try` clause is implementor's laziness
|
|
and will eventually be lifted.
|
|
|