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glossary.po
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# SOME DESCRIPTIVE TITLE.
# Copyright (C) 2001-2022, Python Software Foundation
# This file is distributed under the same license as the Python package.
# FIRST AUTHOR <EMAIL@ADDRESS>, YEAR.
#
#, fuzzy
msgid ""
msgstr ""
"Project-Id-Version: Python 3.9\n"
"Report-Msgid-Bugs-To: \n"
"POT-Creation-Date: 2022-05-20 01:14+0900\n"
"PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n"
"Last-Translator: FULL NAME <EMAIL@ADDRESS>\n"
"Language-Team: LANGUAGE <[email protected]>\n"
"MIME-Version: 1.0\n"
"Content-Type: text/plain; charset=UTF-8\n"
"Content-Transfer-Encoding: 8bit\n"
#: glossary.rst:5
msgid "Glossary"
msgstr ""
#: glossary.rst:10
msgid "``>>>``"
msgstr ""
#: glossary.rst:12
msgid ""
"The default Python prompt of the interactive shell. Often seen for code "
"examples which can be executed interactively in the interpreter."
msgstr ""
#: glossary.rst:14
msgid "``...``"
msgstr ""
#: glossary.rst:16
msgid "Can refer to:"
msgstr ""
#: glossary.rst:18
msgid ""
"The default Python prompt of the interactive shell when entering the code "
"for an indented code block, when within a pair of matching left and right "
"delimiters (parentheses, square brackets, curly braces or triple quotes), or "
"after specifying a decorator."
msgstr ""
#: glossary.rst:23
msgid "The :const:`Ellipsis` built-in constant."
msgstr ""
#: glossary.rst:24
msgid "2to3"
msgstr ""
#: glossary.rst:26
msgid ""
"A tool that tries to convert Python 2.x code to Python 3.x code by handling "
"most of the incompatibilities which can be detected by parsing the source "
"and traversing the parse tree."
msgstr ""
#: glossary.rst:30
msgid ""
"2to3 is available in the standard library as :mod:`lib2to3`; a standalone "
"entry point is provided as :file:`Tools/scripts/2to3`. See :ref:`2to3-"
"reference`."
msgstr ""
#: glossary.rst:33
msgid "abstract base class"
msgstr ""
#: glossary.rst:35
msgid ""
"Abstract base classes complement :term:`duck-typing` by providing a way to "
"define interfaces when other techniques like :func:`hasattr` would be clumsy "
"or subtly wrong (for example with :ref:`magic methods <special-lookup>`). "
"ABCs introduce virtual subclasses, which are classes that don't inherit from "
"a class but are still recognized by :func:`isinstance` and :func:"
"`issubclass`; see the :mod:`abc` module documentation. Python comes with "
"many built-in ABCs for data structures (in the :mod:`collections.abc` "
"module), numbers (in the :mod:`numbers` module), streams (in the :mod:`io` "
"module), import finders and loaders (in the :mod:`importlib.abc` module). "
"You can create your own ABCs with the :mod:`abc` module."
msgstr ""
#: glossary.rst:46
msgid "annotation"
msgstr ""
#: glossary.rst:48
msgid ""
"A label associated with a variable, a class attribute or a function "
"parameter or return value, used by convention as a :term:`type hint`."
msgstr ""
#: glossary.rst:52
msgid ""
"Annotations of local variables cannot be accessed at runtime, but "
"annotations of global variables, class attributes, and functions are stored "
"in the :attr:`__annotations__` special attribute of modules, classes, and "
"functions, respectively."
msgstr ""
#: glossary.rst:58
msgid ""
"See :term:`variable annotation`, :term:`function annotation`, :pep:`484` "
"and :pep:`526`, which describe this functionality."
msgstr ""
#: glossary.rst:60
msgid "argument"
msgstr ""
#: glossary.rst:62
msgid ""
"A value passed to a :term:`function` (or :term:`method`) when calling the "
"function. There are two kinds of argument:"
msgstr ""
#: glossary.rst:65
msgid ""
":dfn:`keyword argument`: an argument preceded by an identifier (e.g. "
"``name=``) in a function call or passed as a value in a dictionary preceded "
"by ``**``. For example, ``3`` and ``5`` are both keyword arguments in the "
"following calls to :func:`complex`::"
msgstr ""
#: glossary.rst:73
msgid ""
":dfn:`positional argument`: an argument that is not a keyword argument. "
"Positional arguments can appear at the beginning of an argument list and/or "
"be passed as elements of an :term:`iterable` preceded by ``*``. For example, "
"``3`` and ``5`` are both positional arguments in the following calls::"
msgstr ""
#: glossary.rst:82
msgid ""
"Arguments are assigned to the named local variables in a function body. See "
"the :ref:`calls` section for the rules governing this assignment. "
"Syntactically, any expression can be used to represent an argument; the "
"evaluated value is assigned to the local variable."
msgstr ""
#: glossary.rst:87
msgid ""
"See also the :term:`parameter` glossary entry, the FAQ question on :ref:`the "
"difference between arguments and parameters <faq-argument-vs-parameter>`, "
"and :pep:`362`."
msgstr ""
#: glossary.rst:90
msgid "asynchronous context manager"
msgstr ""
#: glossary.rst:92
msgid ""
"An object which controls the environment seen in an :keyword:`async with` "
"statement by defining :meth:`__aenter__` and :meth:`__aexit__` methods. "
"Introduced by :pep:`492`."
msgstr ""
#: glossary.rst:95
msgid "asynchronous generator"
msgstr ""
#: glossary.rst:97
msgid ""
"A function which returns an :term:`asynchronous generator iterator`. It "
"looks like a coroutine function defined with :keyword:`async def` except "
"that it contains :keyword:`yield` expressions for producing a series of "
"values usable in an :keyword:`async for` loop."
msgstr ""
#: glossary.rst:102
msgid ""
"Usually refers to an asynchronous generator function, but may refer to an "
"*asynchronous generator iterator* in some contexts. In cases where the "
"intended meaning isn't clear, using the full terms avoids ambiguity."
msgstr ""
#: glossary.rst:106
msgid ""
"An asynchronous generator function may contain :keyword:`await` expressions "
"as well as :keyword:`async for`, and :keyword:`async with` statements."
msgstr ""
#: glossary.rst:109
msgid "asynchronous generator iterator"
msgstr ""
#: glossary.rst:111
msgid "An object created by a :term:`asynchronous generator` function."
msgstr ""
#: glossary.rst:113
msgid ""
"This is an :term:`asynchronous iterator` which when called using the :meth:"
"`__anext__` method returns an awaitable object which will execute the body "
"of the asynchronous generator function until the next :keyword:`yield` "
"expression."
msgstr ""
#: glossary.rst:118
msgid ""
"Each :keyword:`yield` temporarily suspends processing, remembering the "
"location execution state (including local variables and pending try-"
"statements). When the *asynchronous generator iterator* effectively resumes "
"with another awaitable returned by :meth:`__anext__`, it picks up where it "
"left off. See :pep:`492` and :pep:`525`."
msgstr ""
#: glossary.rst:123
msgid "asynchronous iterable"
msgstr ""
#: glossary.rst:125
msgid ""
"An object, that can be used in an :keyword:`async for` statement. Must "
"return an :term:`asynchronous iterator` from its :meth:`__aiter__` method. "
"Introduced by :pep:`492`."
msgstr ""
#: glossary.rst:128
msgid "asynchronous iterator"
msgstr ""
#: glossary.rst:130
msgid ""
"An object that implements the :meth:`__aiter__` and :meth:`__anext__` "
"methods. ``__anext__`` must return an :term:`awaitable` object. :keyword:"
"`async for` resolves the awaitables returned by an asynchronous iterator's :"
"meth:`__anext__` method until it raises a :exc:`StopAsyncIteration` "
"exception. Introduced by :pep:`492`."
msgstr ""
#: glossary.rst:135
msgid "attribute"
msgstr ""
#: glossary.rst:137
msgid ""
"A value associated with an object which is referenced by name using dotted "
"expressions. For example, if an object *o* has an attribute *a* it would be "
"referenced as *o.a*."
msgstr ""
#: glossary.rst:140
msgid "awaitable"
msgstr ""
#: glossary.rst:142
msgid ""
"An object that can be used in an :keyword:`await` expression. Can be a :"
"term:`coroutine` or an object with an :meth:`__await__` method. See also :"
"pep:`492`."
msgstr ""
#: glossary.rst:145
msgid "BDFL"
msgstr ""
#: glossary.rst:147
msgid ""
"Benevolent Dictator For Life, a.k.a. `Guido van Rossum <https://gvanrossum."
"github.io/>`_, Python's creator."
msgstr ""
#: glossary.rst:149
msgid "binary file"
msgstr ""
#: glossary.rst:151
msgid ""
"A :term:`file object` able to read and write :term:`bytes-like objects "
"<bytes-like object>`. Examples of binary files are files opened in binary "
"mode (``'rb'``, ``'wb'`` or ``'rb+'``), :data:`sys.stdin.buffer`, :data:`sys."
"stdout.buffer`, and instances of :class:`io.BytesIO` and :class:`gzip."
"GzipFile`."
msgstr ""
#: glossary.rst:158
msgid ""
"See also :term:`text file` for a file object able to read and write :class:"
"`str` objects."
msgstr ""
#: glossary.rst:160
msgid "bytes-like object"
msgstr ""
#: glossary.rst:162
msgid ""
"An object that supports the :ref:`bufferobjects` and can export a C-:term:"
"`contiguous` buffer. This includes all :class:`bytes`, :class:`bytearray`, "
"and :class:`array.array` objects, as well as many common :class:`memoryview` "
"objects. Bytes-like objects can be used for various operations that work "
"with binary data; these include compression, saving to a binary file, and "
"sending over a socket."
msgstr ""
#: glossary.rst:169
msgid ""
"Some operations need the binary data to be mutable. The documentation often "
"refers to these as \"read-write bytes-like objects\". Example mutable "
"buffer objects include :class:`bytearray` and a :class:`memoryview` of a :"
"class:`bytearray`. Other operations require the binary data to be stored in "
"immutable objects (\"read-only bytes-like objects\"); examples of these "
"include :class:`bytes` and a :class:`memoryview` of a :class:`bytes` object."
msgstr ""
#: glossary.rst:177
msgid "bytecode"
msgstr ""
#: glossary.rst:179
msgid ""
"Python source code is compiled into bytecode, the internal representation of "
"a Python program in the CPython interpreter. The bytecode is also cached in "
"``.pyc`` files so that executing the same file is faster the second time "
"(recompilation from source to bytecode can be avoided). This \"intermediate "
"language\" is said to run on a :term:`virtual machine` that executes the "
"machine code corresponding to each bytecode. Do note that bytecodes are not "
"expected to work between different Python virtual machines, nor to be stable "
"between Python releases."
msgstr ""
#: glossary.rst:189
msgid ""
"A list of bytecode instructions can be found in the documentation for :ref:"
"`the dis module <bytecodes>`."
msgstr ""
#: glossary.rst:191
msgid "callback"
msgstr ""
#: glossary.rst:193
msgid ""
"A subroutine function which is passed as an argument to be executed at some "
"point in the future."
msgstr ""
#: glossary.rst:195
msgid "class"
msgstr ""
#: glossary.rst:197
msgid ""
"A template for creating user-defined objects. Class definitions normally "
"contain method definitions which operate on instances of the class."
msgstr ""
#: glossary.rst:200
msgid "class variable"
msgstr ""
#: glossary.rst:202
msgid ""
"A variable defined in a class and intended to be modified only at class "
"level (i.e., not in an instance of the class)."
msgstr ""
#: glossary.rst:204
msgid "coercion"
msgstr ""
#: glossary.rst:206
msgid ""
"The implicit conversion of an instance of one type to another during an "
"operation which involves two arguments of the same type. For example, "
"``int(3.15)`` converts the floating point number to the integer ``3``, but "
"in ``3+4.5``, each argument is of a different type (one int, one float), and "
"both must be converted to the same type before they can be added or it will "
"raise a :exc:`TypeError`. Without coercion, all arguments of even "
"compatible types would have to be normalized to the same value by the "
"programmer, e.g., ``float(3)+4.5`` rather than just ``3+4.5``."
msgstr ""
#: glossary.rst:214
msgid "complex number"
msgstr ""
#: glossary.rst:216
msgid ""
"An extension of the familiar real number system in which all numbers are "
"expressed as a sum of a real part and an imaginary part. Imaginary numbers "
"are real multiples of the imaginary unit (the square root of ``-1``), often "
"written ``i`` in mathematics or ``j`` in engineering. Python has built-in "
"support for complex numbers, which are written with this latter notation; "
"the imaginary part is written with a ``j`` suffix, e.g., ``3+1j``. To get "
"access to complex equivalents of the :mod:`math` module, use :mod:`cmath`. "
"Use of complex numbers is a fairly advanced mathematical feature. If you're "
"not aware of a need for them, it's almost certain you can safely ignore them."
msgstr ""
#: glossary.rst:226
msgid "context manager"
msgstr ""
#: glossary.rst:228
msgid ""
"An object which controls the environment seen in a :keyword:`with` statement "
"by defining :meth:`__enter__` and :meth:`__exit__` methods. See :pep:`343`."
msgstr ""
#: glossary.rst:231
msgid "context variable"
msgstr ""
#: glossary.rst:233
msgid ""
"A variable which can have different values depending on its context. This is "
"similar to Thread-Local Storage in which each execution thread may have a "
"different value for a variable. However, with context variables, there may "
"be several contexts in one execution thread and the main usage for context "
"variables is to keep track of variables in concurrent asynchronous tasks. "
"See :mod:`contextvars`."
msgstr ""
#: glossary.rst:240
msgid "contiguous"
msgstr ""
#: glossary.rst:244
msgid ""
"A buffer is considered contiguous exactly if it is either *C-contiguous* or "
"*Fortran contiguous*. Zero-dimensional buffers are C and Fortran "
"contiguous. In one-dimensional arrays, the items must be laid out in memory "
"next to each other, in order of increasing indexes starting from zero. In "
"multidimensional C-contiguous arrays, the last index varies the fastest when "
"visiting items in order of memory address. However, in Fortran contiguous "
"arrays, the first index varies the fastest."
msgstr ""
#: glossary.rst:252
msgid "coroutine"
msgstr ""
#: glossary.rst:254
msgid ""
"Coroutines are a more generalized form of subroutines. Subroutines are "
"entered at one point and exited at another point. Coroutines can be "
"entered, exited, and resumed at many different points. They can be "
"implemented with the :keyword:`async def` statement. See also :pep:`492`."
msgstr ""
#: glossary.rst:259
msgid "coroutine function"
msgstr ""
#: glossary.rst:261
msgid ""
"A function which returns a :term:`coroutine` object. A coroutine function "
"may be defined with the :keyword:`async def` statement, and may contain :"
"keyword:`await`, :keyword:`async for`, and :keyword:`async with` keywords. "
"These were introduced by :pep:`492`."
msgstr ""
#: glossary.rst:266
msgid "CPython"
msgstr ""
#: glossary.rst:268
msgid ""
"The canonical implementation of the Python programming language, as "
"distributed on `python.org <https://www.python.org>`_. The term \"CPython\" "
"is used when necessary to distinguish this implementation from others such "
"as Jython or IronPython."
msgstr ""
#: glossary.rst:272
msgid "decorator"
msgstr ""
#: glossary.rst:274
msgid ""
"A function returning another function, usually applied as a function "
"transformation using the ``@wrapper`` syntax. Common examples for "
"decorators are :func:`classmethod` and :func:`staticmethod`."
msgstr ""
#: glossary.rst:278
msgid ""
"The decorator syntax is merely syntactic sugar, the following two function "
"definitions are semantically equivalent::"
msgstr ""
#: glossary.rst:289
msgid ""
"The same concept exists for classes, but is less commonly used there. See "
"the documentation for :ref:`function definitions <function>` and :ref:`class "
"definitions <class>` for more about decorators."
msgstr ""
#: glossary.rst:292
msgid "descriptor"
msgstr ""
#: glossary.rst:294
msgid ""
"Any object which defines the methods :meth:`__get__`, :meth:`__set__`, or :"
"meth:`__delete__`. When a class attribute is a descriptor, its special "
"binding behavior is triggered upon attribute lookup. Normally, using *a.b* "
"to get, set or delete an attribute looks up the object named *b* in the "
"class dictionary for *a*, but if *b* is a descriptor, the respective "
"descriptor method gets called. Understanding descriptors is a key to a deep "
"understanding of Python because they are the basis for many features "
"including functions, methods, properties, class methods, static methods, and "
"reference to super classes."
msgstr ""
#: glossary.rst:304
msgid ""
"For more information about descriptors' methods, see :ref:`descriptors` or "
"the :ref:`Descriptor How To Guide <descriptorhowto>`."
msgstr ""
#: glossary.rst:306
msgid "dictionary"
msgstr ""
#: glossary.rst:308
msgid ""
"An associative array, where arbitrary keys are mapped to values. The keys "
"can be any object with :meth:`__hash__` and :meth:`__eq__` methods. Called a "
"hash in Perl."
msgstr ""
#: glossary.rst:311
msgid "dictionary comprehension"
msgstr ""
#: glossary.rst:313
msgid ""
"A compact way to process all or part of the elements in an iterable and "
"return a dictionary with the results. ``results = {n: n ** 2 for n in "
"range(10)}`` generates a dictionary containing key ``n`` mapped to value ``n "
"** 2``. See :ref:`comprehensions`."
msgstr ""
#: glossary.rst:317
msgid "dictionary view"
msgstr ""
#: glossary.rst:319
msgid ""
"The objects returned from :meth:`dict.keys`, :meth:`dict.values`, and :meth:"
"`dict.items` are called dictionary views. They provide a dynamic view on the "
"dictionary’s entries, which means that when the dictionary changes, the view "
"reflects these changes. To force the dictionary view to become a full list "
"use ``list(dictview)``. See :ref:`dict-views`."
msgstr ""
#: glossary.rst:325
msgid "docstring"
msgstr ""
#: glossary.rst:327
msgid ""
"A string literal which appears as the first expression in a class, function "
"or module. While ignored when the suite is executed, it is recognized by "
"the compiler and put into the :attr:`__doc__` attribute of the enclosing "
"class, function or module. Since it is available via introspection, it is "
"the canonical place for documentation of the object."
msgstr ""
#: glossary.rst:333
msgid "duck-typing"
msgstr ""
#: glossary.rst:335
msgid ""
"A programming style which does not look at an object's type to determine if "
"it has the right interface; instead, the method or attribute is simply "
"called or used (\"If it looks like a duck and quacks like a duck, it must be "
"a duck.\") By emphasizing interfaces rather than specific types, well-"
"designed code improves its flexibility by allowing polymorphic "
"substitution. Duck-typing avoids tests using :func:`type` or :func:"
"`isinstance`. (Note, however, that duck-typing can be complemented with :"
"term:`abstract base classes <abstract base class>`.) Instead, it typically "
"employs :func:`hasattr` tests or :term:`EAFP` programming."
msgstr ""
#: glossary.rst:344
msgid "EAFP"
msgstr ""
#: glossary.rst:346
msgid ""
"Easier to ask for forgiveness than permission. This common Python coding "
"style assumes the existence of valid keys or attributes and catches "
"exceptions if the assumption proves false. This clean and fast style is "
"characterized by the presence of many :keyword:`try` and :keyword:`except` "
"statements. The technique contrasts with the :term:`LBYL` style common to "
"many other languages such as C."
msgstr ""
#: glossary.rst:352
msgid "expression"
msgstr ""
#: glossary.rst:354
msgid ""
"A piece of syntax which can be evaluated to some value. In other words, an "
"expression is an accumulation of expression elements like literals, names, "
"attribute access, operators or function calls which all return a value. In "
"contrast to many other languages, not all language constructs are "
"expressions. There are also :term:`statement`\\s which cannot be used as "
"expressions, such as :keyword:`while`. Assignments are also statements, not "
"expressions."
msgstr ""
#: glossary.rst:361
msgid "extension module"
msgstr ""
#: glossary.rst:363
msgid ""
"A module written in C or C++, using Python's C API to interact with the core "
"and with user code."
msgstr ""
#: glossary.rst:365
msgid "f-string"
msgstr ""
#: glossary.rst:367
msgid ""
"String literals prefixed with ``'f'`` or ``'F'`` are commonly called \"f-"
"strings\" which is short for :ref:`formatted string literals <f-strings>`. "
"See also :pep:`498`."
msgstr ""
#: glossary.rst:370
msgid "file object"
msgstr ""
#: glossary.rst:372
msgid ""
"An object exposing a file-oriented API (with methods such as :meth:`read()` "
"or :meth:`write()`) to an underlying resource. Depending on the way it was "
"created, a file object can mediate access to a real on-disk file or to "
"another type of storage or communication device (for example standard input/"
"output, in-memory buffers, sockets, pipes, etc.). File objects are also "
"called :dfn:`file-like objects` or :dfn:`streams`."
msgstr ""
#: glossary.rst:380
msgid ""
"There are actually three categories of file objects: raw :term:`binary files "
"<binary file>`, buffered :term:`binary files <binary file>` and :term:`text "
"files <text file>`. Their interfaces are defined in the :mod:`io` module. "
"The canonical way to create a file object is by using the :func:`open` "
"function."
msgstr ""
#: glossary.rst:385
msgid "file-like object"
msgstr ""
#: glossary.rst:387
msgid "A synonym for :term:`file object`."
msgstr ""
#: glossary.rst:388
msgid "finder"
msgstr ""
#: glossary.rst:390
msgid ""
"An object that tries to find the :term:`loader` for a module that is being "
"imported."
msgstr ""
#: glossary.rst:393
msgid ""
"Since Python 3.3, there are two types of finder: :term:`meta path finders "
"<meta path finder>` for use with :data:`sys.meta_path`, and :term:`path "
"entry finders <path entry finder>` for use with :data:`sys.path_hooks`."
msgstr ""
#: glossary.rst:397
msgid "See :pep:`302`, :pep:`420` and :pep:`451` for much more detail."
msgstr ""
#: glossary.rst:398
msgid "floor division"
msgstr ""
#: glossary.rst:400
msgid ""
"Mathematical division that rounds down to nearest integer. The floor "
"division operator is ``//``. For example, the expression ``11 // 4`` "
"evaluates to ``2`` in contrast to the ``2.75`` returned by float true "
"division. Note that ``(-11) // 4`` is ``-3`` because that is ``-2.75`` "
"rounded *downward*. See :pep:`238`."
msgstr ""
#: glossary.rst:405
msgid "function"
msgstr ""
#: glossary.rst:407
msgid ""
"A series of statements which returns some value to a caller. It can also be "
"passed zero or more :term:`arguments <argument>` which may be used in the "
"execution of the body. See also :term:`parameter`, :term:`method`, and the :"
"ref:`function` section."
msgstr ""
#: glossary.rst:411
msgid "function annotation"
msgstr ""
#: glossary.rst:413
msgid "An :term:`annotation` of a function parameter or return value."
msgstr ""
#: glossary.rst:415
msgid ""
"Function annotations are usually used for :term:`type hints <type hint>`: "
"for example, this function is expected to take two :class:`int` arguments "
"and is also expected to have an :class:`int` return value::"
msgstr ""
#: glossary.rst:423
msgid "Function annotation syntax is explained in section :ref:`function`."
msgstr ""
#: glossary.rst:425
msgid ""
"See :term:`variable annotation` and :pep:`484`, which describe this "
"functionality."
msgstr ""
#: glossary.rst:427
msgid "__future__"
msgstr ""
#: glossary.rst:429
msgid ""
"A :ref:`future statement <future>`, ``from __future__ import <feature>``, "
"directs the compiler to compile the current module using syntax or semantics "
"that will become standard in a future release of Python. The :mod:"
"`__future__` module documents the possible values of *feature*. By "
"importing this module and evaluating its variables, you can see when a new "
"feature was first added to the language and when it will (or did) become the "
"default::"
msgstr ""
#: glossary.rst:440
msgid "garbage collection"
msgstr ""
#: glossary.rst:442
msgid ""
"The process of freeing memory when it is not used anymore. Python performs "
"garbage collection via reference counting and a cyclic garbage collector "
"that is able to detect and break reference cycles. The garbage collector "
"can be controlled using the :mod:`gc` module."
msgstr ""
#: glossary.rst:448
msgid "generator"
msgstr ""
#: glossary.rst:450
msgid ""
"A function which returns a :term:`generator iterator`. It looks like a "
"normal function except that it contains :keyword:`yield` expressions for "
"producing a series of values usable in a for-loop or that can be retrieved "
"one at a time with the :func:`next` function."
msgstr ""
#: glossary.rst:455
msgid ""
"Usually refers to a generator function, but may refer to a *generator "
"iterator* in some contexts. In cases where the intended meaning isn't "
"clear, using the full terms avoids ambiguity."
msgstr ""
#: glossary.rst:458
msgid "generator iterator"
msgstr ""
#: glossary.rst:460
msgid "An object created by a :term:`generator` function."
msgstr ""
#: glossary.rst:462
msgid ""
"Each :keyword:`yield` temporarily suspends processing, remembering the "
"location execution state (including local variables and pending try-"
"statements). When the *generator iterator* resumes, it picks up where it "
"left off (in contrast to functions which start fresh on every invocation)."
msgstr ""
#: glossary.rst:469
msgid "generator expression"
msgstr ""
#: glossary.rst:471
msgid ""
"An expression that returns an iterator. It looks like a normal expression "
"followed by a :keyword:`!for` clause defining a loop variable, range, and an "
"optional :keyword:`!if` clause. The combined expression generates values "
"for an enclosing function::"
msgstr ""
#: glossary.rst:478
msgid "generic function"
msgstr ""
#: glossary.rst:480
msgid ""
"A function composed of multiple functions implementing the same operation "
"for different types. Which implementation should be used during a call is "
"determined by the dispatch algorithm."
msgstr ""
#: glossary.rst:484
msgid ""
"See also the :term:`single dispatch` glossary entry, the :func:`functools."
"singledispatch` decorator, and :pep:`443`."
msgstr ""
#: glossary.rst:486
msgid "generic type"
msgstr ""
#: glossary.rst:488
msgid ""
"A :term:`type` that can be parameterized; typically a :ref:`container "
"class<sequence-types>` such as :class:`list` or :class:`dict`. Used for :"
"term:`type hints <type hint>` and :term:`annotations <annotation>`."
msgstr ""
#: glossary.rst:493
msgid ""
"For more details, see :ref:`generic alias types<types-genericalias>`, :pep:"
"`483`, :pep:`484`, :pep:`585`, and the :mod:`typing` module."
msgstr ""
#: glossary.rst:495
msgid "GIL"
msgstr ""
#: glossary.rst:497
msgid "See :term:`global interpreter lock`."
msgstr ""
#: glossary.rst:498
msgid "global interpreter lock"
msgstr ""
#: glossary.rst:500
msgid ""
"The mechanism used by the :term:`CPython` interpreter to assure that only "
"one thread executes Python :term:`bytecode` at a time. This simplifies the "
"CPython implementation by making the object model (including critical built-"
"in types such as :class:`dict`) implicitly safe against concurrent access. "
"Locking the entire interpreter makes it easier for the interpreter to be "
"multi-threaded, at the expense of much of the parallelism afforded by multi-"
"processor machines."
msgstr ""
#: glossary.rst:509
msgid ""
"However, some extension modules, either standard or third-party, are "
"designed so as to release the GIL when doing computationally-intensive tasks "
"such as compression or hashing. Also, the GIL is always released when doing "
"I/O."
msgstr ""
#: glossary.rst:514
msgid ""
"Past efforts to create a \"free-threaded\" interpreter (one which locks "
"shared data at a much finer granularity) have not been successful because "
"performance suffered in the common single-processor case. It is believed "
"that overcoming this performance issue would make the implementation much "
"more complicated and therefore costlier to maintain."
msgstr ""
#: glossary.rst:520
msgid "hash-based pyc"
msgstr ""
#: glossary.rst:522
msgid ""
"A bytecode cache file that uses the hash rather than the last-modified time "
"of the corresponding source file to determine its validity. See :ref:`pyc-"
"invalidation`."
msgstr ""
#: glossary.rst:525
msgid "hashable"
msgstr ""
#: glossary.rst:527
msgid ""
"An object is *hashable* if it has a hash value which never changes during "
"its lifetime (it needs a :meth:`__hash__` method), and can be compared to "
"other objects (it needs an :meth:`__eq__` method). Hashable objects which "
"compare equal must have the same hash value."
msgstr ""
#: glossary.rst:532
msgid ""
"Hashability makes an object usable as a dictionary key and a set member, "
"because these data structures use the hash value internally."
msgstr ""
#: glossary.rst:535
msgid ""
"Most of Python's immutable built-in objects are hashable; mutable containers "
"(such as lists or dictionaries) are not; immutable containers (such as "
"tuples and frozensets) are only hashable if their elements are hashable. "
"Objects which are instances of user-defined classes are hashable by "
"default. They all compare unequal (except with themselves), and their hash "
"value is derived from their :func:`id`."
msgstr ""
#: glossary.rst:542
msgid "IDLE"
msgstr ""
#: glossary.rst:544
msgid ""
"An Integrated Development Environment for Python. IDLE is a basic editor "
"and interpreter environment which ships with the standard distribution of "
"Python."
msgstr ""
#: glossary.rst:547
msgid "immutable"
msgstr ""
#: glossary.rst:549
msgid ""
"An object with a fixed value. Immutable objects include numbers, strings "
"and tuples. Such an object cannot be altered. A new object has to be "
"created if a different value has to be stored. They play an important role "
"in places where a constant hash value is needed, for example as a key in a "
"dictionary."
msgstr ""
#: glossary.rst:554
msgid "import path"
msgstr ""
#: glossary.rst:556
msgid ""
"A list of locations (or :term:`path entries <path entry>`) that are searched "
"by the :term:`path based finder` for modules to import. During import, this "
"list of locations usually comes from :data:`sys.path`, but for subpackages "
"it may also come from the parent package's ``__path__`` attribute."
msgstr ""
#: glossary.rst:561
msgid "importing"
msgstr ""
#: glossary.rst:563
msgid ""
"The process by which Python code in one module is made available to Python "
"code in another module."
msgstr ""
#: glossary.rst:565
msgid "importer"
msgstr ""
#: glossary.rst:567
msgid ""
"An object that both finds and loads a module; both a :term:`finder` and :"
"term:`loader` object."
msgstr ""
#: glossary.rst:569
msgid "interactive"
msgstr ""
#: glossary.rst:571
msgid ""
"Python has an interactive interpreter which means you can enter statements "
"and expressions at the interpreter prompt, immediately execute them and see "
"their results. Just launch ``python`` with no arguments (possibly by "
"selecting it from your computer's main menu). It is a very powerful way to "
"test out new ideas or inspect modules and packages (remember ``help(x)``)."
msgstr ""
#: glossary.rst:577
msgid "interpreted"
msgstr ""
#: glossary.rst:579
msgid ""