python-docs-bn-in/tutorial/inputoutput.po at 3.14 · python/python-docs-bn-in

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# SOME DESCRIPTIVE TITLE.

# This file is distributed under the same license as the Python package.

# FIRST AUTHOR <EMAIL@ADDRESS>, YEAR.

#, fuzzy

msgid ""

msgstr ""

"Project-Id-Version: Python 3.14\n"

"Report-Msgid-Bugs-To: \n"

"POT-Creation-Date: 2025-05-22 14:20+0200\n"

"PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n"

"Last-Translator: FULL NAME <EMAIL@ADDRESS>\n"

"Language-Team: LANGUAGE <LL@li.org>\n"

"MIME-Version: 1.0\n"

"Content-Type: text/plain; charset=UTF-8\n"

"Content-Transfer-Encoding: 8bit\n"

#: tutorial/inputoutput.rst:5

msgid "Input and Output"

msgstr ""

#: tutorial/inputoutput.rst:7

msgid ""

"There are several ways to present the output of a program; data can be "

"printed in a human-readable form, or written to a file for future use. This "

"chapter will discuss some of the possibilities."

msgstr ""

#: tutorial/inputoutput.rst:15

msgid "Fancier Output Formatting"

msgstr ""

#: tutorial/inputoutput.rst:17

msgid ""

"So far we've encountered two ways of writing values: *expression statements* "

"and the :func:`print` function. (A third way is using "

"the :meth:`~io.TextIOBase.write` method of file objects; the standard output "

"file can be referenced as ``sys.stdout``. See the Library Reference for more "

"information on this.)"

msgstr ""

#: tutorial/inputoutput.rst:22

msgid ""

"Often you'll want more control over the formatting of your output than "

"simply printing space-separated values. There are several ways to format "

"output."

msgstr ""

#: tutorial/inputoutput.rst:25

msgid ""

"To use :ref:`formatted string literals <tut-f-strings>`, begin a string with "

"``f`` or ``F`` before the opening quotation mark or triple quotation mark. "

"Inside this string, you can write a Python expression between ``{`` and ``}"

"`` characters that can refer to variables or literal values."

msgstr ""

#: tutorial/inputoutput.rst:32

msgid ""

">>> year = 2016\n"

">>> event = 'Referendum'\n"

">>> f'Results of the {year} {event}'\n"

"'Results of the 2016 Referendum'"

msgstr ""

#: tutorial/inputoutput.rst:37

msgid ""

"The :meth:`str.format` method of strings requires more manual effort. "

"You'll still use ``{`` and ``}`` to mark where a variable will be "

"substituted and can provide detailed formatting directives, but you'll also "

"need to provide the information to be formatted. In the following code block "

"there are two examples of how to format variables:"

msgstr ""

#: tutorial/inputoutput.rst:46

msgid ""

">>> yes_votes = 42_572_654\n"

">>> total_votes = 85_705_149\n"

">>> percentage = yes_votes / total_votes\n"

">>> '{:-9} YES votes {:2.2%}'.format(yes_votes, percentage)\n"

"' 42572654 YES votes 49.67%'"

msgstr ""

#: tutorial/inputoutput.rst:52

msgid ""

"Notice how the ``yes_votes`` are padded with spaces and a negative sign only "

"for negative numbers. The example also prints ``percentage`` multiplied by "

"100, with 2 decimal places and followed by a percent sign "

"(see :ref:`formatspec` for details)."

msgstr ""

#: tutorial/inputoutput.rst:57

msgid ""

"Finally, you can do all the string handling yourself by using string slicing "

"and concatenation operations to create any layout you can imagine. The "

"string type has some methods that perform useful operations for padding "

"strings to a given column width."

msgstr ""

#: tutorial/inputoutput.rst:62

msgid ""

"When you don't need fancy output but just want a quick display of some "

"variables for debugging purposes, you can convert any value to a string with "

"the :func:`repr` or :func:`str` functions."

msgstr ""

#: tutorial/inputoutput.rst:66

msgid ""

"The :func:`str` function is meant to return representations of values which "

"are fairly human-readable, while :func:`repr` is meant to generate "

"representations which can be read by the interpreter (or will force "

"a :exc:`SyntaxError` if there is no equivalent syntax). For objects which "

"don't have a particular representation for human consumption, :func:`str` "

"will return the same value as :func:`repr`. Many values, such as numbers or "

"structures like lists and dictionaries, have the same representation using "

"either function. Strings, in particular, have two distinct representations."

msgstr ""

#: tutorial/inputoutput.rst:75

msgid "Some examples::"

msgstr ""

#: tutorial/inputoutput.rst:77

msgid ""

">>> s = 'Hello, world.'\n"

">>> str(s)\n"

"'Hello, world.'\n"

">>> repr(s)\n"

"\"'Hello, world.'\"\n"

">>> str(1/7)\n"

"'0.14285714285714285'\n"

">>> x = 10 * 3.25\n"

">>> y = 200 * 200\n"

">>> s = 'The value of x is ' + repr(x) + ', and y is ' + repr(y) + '...'\n"

">>> print(s)\n"

"The value of x is 32.5, and y is 40000...\n"

">>> # The repr() of a string adds string quotes and backslashes:\n"

">>> hello = 'hello, world\\n'\n"

">>> hellos = repr(hello)\n"

">>> print(hellos)\n"

"'hello, world\\n'\n"

">>> # The argument to repr() may be any Python object:\n"

">>> repr((x, y, ('spam', 'eggs')))\n"

"\"(32.5, 40000, ('spam', 'eggs'))\""

msgstr ""

#: tutorial/inputoutput.rst:98

msgid ""

"The :mod:`string` module contains a :class:`~string.Template` class that "

"offers yet another way to substitute values into strings, using placeholders "

"like ``$x`` and replacing them with values from a dictionary, but offers "

"much less control of the formatting."

msgstr ""

#: tutorial/inputoutput.rst:114

msgid "Formatted String Literals"

msgstr ""

#: tutorial/inputoutput.rst:116

msgid ""

":ref:`Formatted string literals <f-strings>` (also called f-strings for "

"short) let you include the value of Python expressions inside a string by "

"prefixing the string with ``f`` or ``F`` and writing expressions as "

"``{expression}``."

msgstr ""

#: tutorial/inputoutput.rst:121

msgid ""

"An optional format specifier can follow the expression. This allows greater "

"control over how the value is formatted. The following example rounds pi to "

"three places after the decimal::"

msgstr ""

#: tutorial/inputoutput.rst:125

msgid ""

">>> import math\n"

">>> print(f'The value of pi is approximately {math.pi:.3f}.')\n"

"The value of pi is approximately 3.142."

msgstr ""

#: tutorial/inputoutput.rst:129

msgid ""

"Passing an integer after the ``':'`` will cause that field to be a minimum "

"number of characters wide. This is useful for making columns line up. ::"

msgstr ""

#: tutorial/inputoutput.rst:132

msgid ""

">>> table = {'Sjoerd': 4127, 'Jack': 4098, 'Dcab': 7678}\n"

">>> for name, phone in table.items():\n"

"... print(f'{name:10} ==> {phone:10d}')\n"

"...\n"

"Sjoerd ==> 4127\n"

"Jack ==> 4098\n"

"Dcab ==> 7678"

msgstr ""

#: tutorial/inputoutput.rst:140

msgid ""

"Other modifiers can be used to convert the value before it is formatted. ``'!"

"a'`` applies :func:`ascii`, ``'!s'`` applies :func:`str`, and ``'!r'`` "

"applies :func:`repr`::"

msgstr ""

#: tutorial/inputoutput.rst:144

msgid ""

">>> animals = 'eels'\n"

">>> print(f'My hovercraft is full of {animals}.')\n"

"My hovercraft is full of eels.\n"

">>> print(f'My hovercraft is full of {animals!r}.')\n"

"My hovercraft is full of 'eels'."

msgstr ""

#: tutorial/inputoutput.rst:150

msgid ""

"The ``=`` specifier can be used to expand an expression to the text of the "

"expression, an equal sign, then the representation of the evaluated "

"expression:"

msgstr ""

#: tutorial/inputoutput.rst:159

msgid ""

"See :ref:`self-documenting expressions <bpo-36817-whatsnew>` for more "

"information on the ``=`` specifier. For a reference on these format "

"specifications, see the reference guide for the :ref:`formatspec`."

msgstr ""

#: tutorial/inputoutput.rst:166

msgid "The String format() Method"

msgstr ""

#: tutorial/inputoutput.rst:168

msgid "Basic usage of the :meth:`str.format` method looks like this::"

msgstr ""

#: tutorial/inputoutput.rst:170

msgid ""

">>> print('We are the {} who say \"{}!\"'.format('knights', 'Ni'))\n"

"We are the knights who say \"Ni!\""

msgstr ""

#: tutorial/inputoutput.rst:173

msgid ""

"The brackets and characters within them (called format fields) are replaced "

"with the objects passed into the :meth:`str.format` method. A number in the "

"brackets can be used to refer to the position of the object passed into "

"the :meth:`str.format` method. ::"

msgstr ""

#: tutorial/inputoutput.rst:178

msgid ""

">>> print('{0} and {1}'.format('spam', 'eggs'))\n"

"spam and eggs\n"

">>> print('{1} and {0}'.format('spam', 'eggs'))\n"

"eggs and spam"

msgstr ""

#: tutorial/inputoutput.rst:183

msgid ""

"If keyword arguments are used in the :meth:`str.format` method, their values "

"are referred to by using the name of the argument. ::"

msgstr ""

#: tutorial/inputoutput.rst:186

msgid ""

">>> print('This {food} is {adjective}.'.format(\n"

"... food='spam', adjective='absolutely horrible'))\n"

"This spam is absolutely horrible."

msgstr ""

#: tutorial/inputoutput.rst:190

msgid "Positional and keyword arguments can be arbitrarily combined::"

msgstr ""

#: tutorial/inputoutput.rst:192

msgid ""

">>> print('The story of {0}, {1}, and {other}.'.format('Bill', 'Manfred',\n"

"... other='Georg'))\n"

"The story of Bill, Manfred, and Georg."

msgstr ""

#: tutorial/inputoutput.rst:196

msgid ""

"If you have a really long format string that you don't want to split up, it "

"would be nice if you could reference the variables to be formatted by name "

"instead of by position. This can be done by simply passing the dict and "

"using square brackets ``'[]'`` to access the keys. ::"

msgstr ""

#: tutorial/inputoutput.rst:201

msgid ""

">>> table = {'Sjoerd': 4127, 'Jack': 4098, 'Dcab': 8637678}\n"

">>> print('Jack: {0[Jack]:d}; Sjoerd: {0[Sjoerd]:d}; '\n"

"... 'Dcab: {0[Dcab]:d}'.format(table))\n"

"Jack: 4098; Sjoerd: 4127; Dcab: 8637678"

msgstr ""

#: tutorial/inputoutput.rst:206

msgid ""

"This could also be done by passing the ``table`` dictionary as keyword "

"arguments with the ``**`` notation. ::"

msgstr ""

#: tutorial/inputoutput.rst:209

msgid ""

">>> table = {'Sjoerd': 4127, 'Jack': 4098, 'Dcab': 8637678}\n"

">>> print('Jack: {Jack:d}; Sjoerd: {Sjoerd:d}; Dcab: "

"{Dcab:d}'.format(**table))\n"

"Jack: 4098; Sjoerd: 4127; Dcab: 8637678"

msgstr ""

#: tutorial/inputoutput.rst:213

msgid ""

"This is particularly useful in combination with the built-in "

"function :func:`vars`, which returns a dictionary containing all local "

"variables::"

msgstr ""

#: tutorial/inputoutput.rst:216

msgid ""

">>> table = {k: str(v) for k, v in vars().items()}\n"

">>> message = \" \".join([f'{k}: ' + '{' + k +'};' for k in table.keys()])\n"

">>> print(message.format(**table))\n"

"__name__: __main__; __doc__: None; __package__: None; __loader__: ..."

msgstr ""

#: tutorial/inputoutput.rst:221

msgid ""

"As an example, the following lines produce a tidily aligned set of columns "

"giving integers and their squares and cubes::"

msgstr ""

#: tutorial/inputoutput.rst:224

msgid ""

">>> for x in range(1, 11):\n"

"... print('{0:2d} {1:3d} {2:4d}'.format(x, x*x, x*x*x))\n"

"...\n"

" 1 1 1\n"

" 2 4 8\n"

" 3 9 27\n"

" 4 16 64\n"

" 5 25 125\n"

" 6 36 216\n"

" 7 49 343\n"

" 8 64 512\n"

" 9 81 729\n"

"10 100 1000"

msgstr ""

#: tutorial/inputoutput.rst:238

msgid ""

"For a complete overview of string formatting with :meth:`str.format`, "

"see :ref:`formatstrings`."

msgstr ""

#: tutorial/inputoutput.rst:243

msgid "Manual String Formatting"

msgstr ""

#: tutorial/inputoutput.rst:245

msgid "Here's the same table of squares and cubes, formatted manually::"

msgstr ""

#: tutorial/inputoutput.rst:247

msgid ""

">>> for x in range(1, 11):\n"

"... print(repr(x).rjust(2), repr(x*x).rjust(3), end=' ')\n"

"... # Note use of 'end' on previous line\n"

"... print(repr(x*x*x).rjust(4))\n"

"...\n"

" 1 1 1\n"

" 2 4 8\n"

" 3 9 27\n"

" 4 16 64\n"

" 5 25 125\n"

" 6 36 216\n"

" 7 49 343\n"

" 8 64 512\n"

" 9 81 729\n"

"10 100 1000"

msgstr ""

#: tutorial/inputoutput.rst:263

msgid ""

"(Note that the one space between each column was added by the "

"way :func:`print` works: it always adds spaces between its arguments.)"

msgstr ""

#: tutorial/inputoutput.rst:266

msgid ""

"The :meth:`str.rjust` method of string objects right-justifies a string in a "

"field of a given width by padding it with spaces on the left. There are "

"similar methods :meth:`str.ljust` and :meth:`str.center`. These methods do "

"not write anything, they just return a new string. If the input string is "

"too long, they don't truncate it, but return it unchanged; this will mess up "

"your column lay-out but that's usually better than the alternative, which "

"would be lying about a value. (If you really want truncation you can always "

"add a slice operation, as in ``x.ljust(n)[:n]``.)"

msgstr ""

#: tutorial/inputoutput.rst:275

msgid ""

"There is another method, :meth:`str.zfill`, which pads a numeric string on "

"the left with zeros. It understands about plus and minus signs::"

msgstr ""

#: tutorial/inputoutput.rst:278

msgid ""

">>> '12'.zfill(5)\n"

"'00012'\n"

">>> '-3.14'.zfill(7)\n"

"'-003.14'\n"

">>> '3.14159265359'.zfill(5)\n"

"'3.14159265359'"

msgstr ""

#: tutorial/inputoutput.rst:287

msgid "Old string formatting"

msgstr ""

#: tutorial/inputoutput.rst:289

msgid ""

"The % operator (modulo) can also be used for string formatting. Given "

"``format % values`` (where *format* is a string), ``%`` conversion "

"specifications in *format* are replaced with zero or more elements of "

"*values*. This operation is commonly known as string interpolation. For "

"example::"

msgstr ""

#: tutorial/inputoutput.rst:296

msgid ""

">>> import math\n"

">>> print('The value of pi is approximately %5.3f.' % math.pi)\n"

"The value of pi is approximately 3.142."

msgstr ""

#: tutorial/inputoutput.rst:300

msgid ""

"More information can be found in the :ref:`old-string-formatting` section."

msgstr ""

#: tutorial/inputoutput.rst:306

msgid "Reading and Writing Files"

msgstr ""

#: tutorial/inputoutput.rst:312

msgid ""

":func:`open` returns a :term:`file object`, and is most commonly used with "

"two positional arguments and one keyword argument: ``open(filename, mode, "

"encoding=None)``"

msgstr ""

#: tutorial/inputoutput.rst:318

msgid ">>> f = open('workfile', 'w', encoding=\"utf-8\")"

msgstr ""

#: tutorial/inputoutput.rst:325

msgid ""

"The first argument is a string containing the filename. The second argument "

"is another string containing a few characters describing the way in which "

"the file will be used. *mode* can be ``'r'`` when the file will only be "

"read, ``'w'`` for only writing (an existing file with the same name will be "

"erased), and ``'a'`` opens the file for appending; any data written to the "

"file is automatically added to the end. ``'r+'`` opens the file for both "

"reading and writing. The *mode* argument is optional; ``'r'`` will be "

"assumed if it's omitted."

msgstr ""

#: tutorial/inputoutput.rst:334

msgid ""

"Normally, files are opened in :dfn:`text mode`, that means, you read and "

"write strings from and to the file, which are encoded in a specific "

"*encoding*. If *encoding* is not specified, the default is platform "

"dependent (see :func:`open`). Because UTF-8 is the modern de-facto standard, "

"``encoding=\"utf-8\"`` is recommended unless you know that you need to use a "

"different encoding. Appending a ``'b'`` to the mode opens the file "

"in :dfn:`binary mode`. Binary mode data is read and written "

"as :class:`bytes` objects. You can not specify *encoding* when opening file "

"in binary mode."

msgstr ""

#: tutorial/inputoutput.rst:344

msgid ""

"In text mode, the default when reading is to convert platform-specific line "

"endings (``\\n`` on Unix, ``\\r\\n`` on Windows) to just ``\\n``. When "

"writing in text mode, the default is to convert occurrences of ``\\n`` back "

"to platform-specific line endings. This behind-the-scenes modification to "

"file data is fine for text files, but will corrupt binary data like that "

"in :file:`JPEG` or :file:`EXE` files. Be very careful to use binary mode "

"when reading and writing such files."

msgstr ""

#: tutorial/inputoutput.rst:352

msgid ""

"It is good practice to use the :keyword:`with` keyword when dealing with "

"file objects. The advantage is that the file is properly closed after its "

"suite finishes, even if an exception is raised at some point. "

"Using :keyword:`!with` is also much shorter than writing "

"equivalent :keyword:`try`\\ -\\ :keyword:`finally` blocks::"

msgstr ""

#: tutorial/inputoutput.rst:358

msgid ""

">>> with open('workfile', encoding=\"utf-8\") as f:\n"

"... read_data = f.read()\n"

"\n"

">>> # We can check that the file has been automatically closed.\n"

">>> f.closed\n"

"True"

msgstr ""

#: tutorial/inputoutput.rst:365

msgid ""

"If you're not using the :keyword:`with` keyword, then you should call "

"``f.close()`` to close the file and immediately free up any system resources "

"used by it."

msgstr ""

#: tutorial/inputoutput.rst:370

msgid ""

"Calling ``f.write()`` without using the :keyword:`!with` keyword or calling "

"``f.close()`` **might** result in the arguments of ``f.write()`` not being "

"completely written to the disk, even if the program exits successfully."

msgstr ""

#: tutorial/inputoutput.rst:378

msgid ""

"After a file object is closed, either by a :keyword:`with` statement or by "

"calling ``f.close()``, attempts to use the file object will automatically "

"fail. ::"

msgstr ""

#: tutorial/inputoutput.rst:382

msgid ""

">>> f.close()\n"

">>> f.read()\n"

"Traceback (most recent call last):\n"

" File \"<stdin>\", line 1, in <module>\n"

"ValueError: I/O operation on closed file."

msgstr ""

#: tutorial/inputoutput.rst:392

msgid "Methods of File Objects"

msgstr ""

#: tutorial/inputoutput.rst:394

msgid ""

"The rest of the examples in this section will assume that a file object "

"called ``f`` has already been created."

msgstr ""

#: tutorial/inputoutput.rst:397

msgid ""

"To read a file's contents, call ``f.read(size)``, which reads some quantity "

"of data and returns it as a string (in text mode) or bytes object (in binary "

"mode). *size* is an optional numeric argument. When *size* is omitted or "

"negative, the entire contents of the file will be read and returned; it's "

"your problem if the file is twice as large as your machine's memory. "

"Otherwise, at most *size* characters (in text mode) or *size* bytes (in "

"binary mode) are read and returned. If the end of the file has been reached, "

"``f.read()`` will return an empty string (``''``). ::"

msgstr ""

#: tutorial/inputoutput.rst:406

msgid ""

">>> f.read()\n"

"'This is the entire file.\\n'\n"

">>> f.read()\n"

"''"

msgstr ""

#: tutorial/inputoutput.rst:411

msgid ""

"``f.readline()`` reads a single line from the file; a newline character "

"(``\\n``) is left at the end of the string, and is only omitted on the last "

"line of the file if the file doesn't end in a newline. This makes the "

"return value unambiguous; if ``f.readline()`` returns an empty string, the "

"end of the file has been reached, while a blank line is represented by "

"``'\\n'``, a string containing only a single newline. ::"

msgstr ""

#: tutorial/inputoutput.rst:418

msgid ""

">>> f.readline()\n"

"'This is the first line of the file.\\n'\n"

">>> f.readline()\n"

"'Second line of the file\\n'\n"

">>> f.readline()\n"

"''"

msgstr ""

#: tutorial/inputoutput.rst:425

msgid ""

"For reading lines from a file, you can loop over the file object. This is "

"memory efficient, fast, and leads to simple code::"

msgstr ""

#: tutorial/inputoutput.rst:428

msgid ""

">>> for line in f:\n"

"... print(line, end='')\n"

"...\n"

"This is the first line of the file.\n"

"Second line of the file"

msgstr ""

#: tutorial/inputoutput.rst:434

msgid ""

"If you want to read all the lines of a file in a list you can also use "

"``list(f)`` or ``f.readlines()``."

msgstr ""

#: tutorial/inputoutput.rst:437

msgid ""

"``f.write(string)`` writes the contents of *string* to the file, returning "

"the number of characters written. ::"

msgstr ""

#: tutorial/inputoutput.rst:440

msgid ""

">>> f.write('This is a test\\n')\n"

"15"

msgstr ""

#: tutorial/inputoutput.rst:443

msgid ""

"Other types of objects need to be converted -- either to a string (in text "

"mode) or a bytes object (in binary mode) -- before writing them::"

msgstr ""

#: tutorial/inputoutput.rst:446

msgid ""

">>> value = ('the answer', 42)\n"

">>> s = str(value) # convert the tuple to string\n"

">>> f.write(s)\n"

"18"

msgstr ""

#: tutorial/inputoutput.rst:451

msgid ""

"``f.tell()`` returns an integer giving the file object's current position in "

"the file represented as number of bytes from the beginning of the file when "

"in binary mode and an opaque number when in text mode."

msgstr ""

#: tutorial/inputoutput.rst:455

msgid ""

"To change the file object's position, use ``f.seek(offset, whence)``. The "

"position is computed from adding *offset* to a reference point; the "

"reference point is selected by the *whence* argument. A *whence* value of 0 "

"measures from the beginning of the file, 1 uses the current file position, "

"and 2 uses the end of the file as the reference point. *whence* can be "

"omitted and defaults to 0, using the beginning of the file as the reference "

"point. ::"

msgstr ""

#: tutorial/inputoutput.rst:462

msgid ""

">>> f = open('workfile', 'rb+')\n"

">>> f.write(b'0123456789abcdef')\n"

"16\n"

">>> f.seek(5) # Go to the 6th byte in the file\n"

"5\n"

">>> f.read(1)\n"

"b'5'\n"

">>> f.seek(-3, 2) # Go to the 3rd byte before the end\n"

"13\n"

">>> f.read(1)\n"

"b'd'"

msgstr ""

#: tutorial/inputoutput.rst:474

msgid ""

"In text files (those opened without a ``b`` in the mode string), only seeks "

"relative to the beginning of the file are allowed (the exception being "

"seeking to the very file end with ``seek(0, 2)``) and the only valid "

"*offset* values are those returned from the ``f.tell()``, or zero. Any other "

"*offset* value produces undefined behaviour."

msgstr ""

#: tutorial/inputoutput.rst:480

msgid ""

"File objects have some additional methods, such as :meth:`~io.IOBase.isatty` "

"and :meth:`~io.IOBase.truncate` which are less frequently used; consult the "

"Library Reference for a complete guide to file objects."

msgstr ""

#: tutorial/inputoutput.rst:488

msgid "Saving structured data with :mod:`json`"

msgstr ""

#: tutorial/inputoutput.rst:492

msgid ""

"Strings can easily be written to and read from a file. Numbers take a bit "

"more effort, since the :meth:`~io.TextIOBase.read` method only returns "

"strings, which will have to be passed to a function like :func:`int`, which "

"takes a string like ``'123'`` and returns its numeric value 123. When you "

"want to save more complex data types like nested lists and dictionaries, "

"parsing and serializing by hand becomes complicated."

msgstr ""

#: tutorial/inputoutput.rst:499

msgid ""

"Rather than having users constantly writing and debugging code to save "

"complicated data types to files, Python allows you to use the popular data "

"interchange format called `JSON (JavaScript Object Notation) <https://"

"json.org>`_. The standard module called :mod:`json` can take Python data "

"hierarchies, and convert them to string representations; this process is "

"called :dfn:`serializing`. Reconstructing the data from the string "

"representation is called :dfn:`deserializing`. Between serializing and "

"deserializing, the string representing the object may have been stored in a "

"file or data, or sent over a network connection to some distant machine."

msgstr ""

#: tutorial/inputoutput.rst:510

msgid ""

"The JSON format is commonly used by modern applications to allow for data "

"exchange. Many programmers are already familiar with it, which makes it a "

"good choice for interoperability."

msgstr ""

#: tutorial/inputoutput.rst:514

msgid ""

"If you have an object ``x``, you can view its JSON string representation "

"with a simple line of code::"

msgstr ""

#: tutorial/inputoutput.rst:517

msgid ""

">>> import json\n"

">>> x = [1, 'simple', 'list']\n"

">>> json.dumps(x)\n"

"'[1, \"simple\", \"list\"]'"

msgstr ""

#: tutorial/inputoutput.rst:522

msgid ""

"Another variant of the :func:`~json.dumps` function, "

"called :func:`~json.dump`, simply serializes the object to a :term:`text "

"file`. So if ``f`` is a :term:`text file` object opened for writing, we can "

"do this::"

msgstr ""

#: tutorial/inputoutput.rst:526

msgid "json.dump(x, f)"

msgstr ""

#: tutorial/inputoutput.rst:528

msgid ""

"To decode the object again, if ``f`` is a :term:`binary file` or :term:`text "

"file` object which has been opened for reading::"

msgstr ""

#: tutorial/inputoutput.rst:531

msgid "x = json.load(f)"

msgstr ""

#: tutorial/inputoutput.rst:534

msgid ""

"JSON files must be encoded in UTF-8. Use ``encoding=\"utf-8\"`` when opening "

"JSON file as a :term:`text file` for both of reading and writing."

msgstr ""

#: tutorial/inputoutput.rst:537

msgid ""

"This simple serialization technique can handle lists and dictionaries, but "

"serializing arbitrary class instances in JSON requires a bit of extra "

"effort. The reference for the :mod:`json` module contains an explanation of "

"this."

msgstr ""

#: tutorial/inputoutput.rst:543

msgid ":mod:`pickle` - the pickle module"

msgstr ""

#: tutorial/inputoutput.rst:545

msgid ""

"Contrary to :ref:`JSON <tut-json>`, *pickle* is a protocol which allows the "

"serialization of arbitrarily complex Python objects. As such, it is "

"specific to Python and cannot be used to communicate with applications "

"written in other languages. It is also insecure by default: deserializing "

"pickle data coming from an untrusted source can execute arbitrary code, if "

"the data was crafted by a skilled attacker."

msgstr ""