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svn+ssh://svn.python.org/python/branches/py3k ................ r73941 | georg.brandl | 2009-07-11 12:39:00 +0200 (Sa, 11 Jul 2009) | 9 lines Merged revisions 73940 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r73940 | georg.brandl | 2009-07-11 12:37:38 +0200 (Sa, 11 Jul 2009) | 1 line #6430: add note about size of "u" type. ........ ................ r73942 | georg.brandl | 2009-07-11 12:39:23 +0200 (Sa, 11 Jul 2009) | 1 line #6430: remove mention of "w" array typecode. ................ r73943 | georg.brandl | 2009-07-11 12:43:08 +0200 (Sa, 11 Jul 2009) | 1 line #6421: The self argument of module-level PyCFunctions is now a reference to the module object. ................ r74076 | georg.brandl | 2009-07-18 11:07:48 +0200 (Sa, 18 Jul 2009) | 1 line #6502: add missing comma in docstring. ................ r74094 | georg.brandl | 2009-07-19 09:25:56 +0200 (So, 19 Jul 2009) | 10 lines Recorded merge of revisions 74089 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r74089 | senthil.kumaran | 2009-07-19 04:43:43 +0200 (So, 19 Jul 2009) | 3 lines Fix for issue5102, timeout value propages between redirects, proxy, digest and auth handlers. Fixed tests to reflect the same. ........ ................ r74186 | georg.brandl | 2009-07-23 11:19:09 +0200 (Do, 23 Jul 2009) | 9 lines Recorded merge of revisions 74185 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r74185 | georg.brandl | 2009-07-23 11:17:09 +0200 (Do, 23 Jul 2009) | 1 line Fix the "pylocals" gdb command. ........ ................ r74211 | georg.brandl | 2009-07-26 16:48:09 +0200 (So, 26 Jul 2009) | 9 lines Recorded merge of revisions 74210 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r74210 | georg.brandl | 2009-07-26 16:44:23 +0200 (So, 26 Jul 2009) | 1 line Move member descriptions inside the classes. ........ ................ r74212 | georg.brandl | 2009-07-26 16:54:51 +0200 (So, 26 Jul 2009) | 9 lines Merged revisions 74209 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r74209 | georg.brandl | 2009-07-26 16:37:28 +0200 (So, 26 Jul 2009) | 1 line builtin -> built-in. ........ ................ r74213 | georg.brandl | 2009-07-26 17:02:41 +0200 (So, 26 Jul 2009) | 9 lines Merged revisions 74207 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r74207 | georg.brandl | 2009-07-26 16:19:57 +0200 (So, 26 Jul 2009) | 1 line #6577: fix (hopefully) all links to builtin instead of module/class-specific objects. ........ ................ r74214 | georg.brandl | 2009-07-26 17:03:49 +0200 (So, 26 Jul 2009) | 9 lines Merged revisions 74205 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r74205 | georg.brandl | 2009-07-26 15:36:39 +0200 (So, 26 Jul 2009) | 1 line #6576: fix cross-refs in re docs. ........ ................ r74247 | georg.brandl | 2009-07-29 09:27:08 +0200 (Mi, 29 Jul 2009) | 9 lines Merged revisions 74239 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r74239 | georg.brandl | 2009-07-28 18:55:32 +0000 (Di, 28 Jul 2009) | 1 line Clarify quote_plus() usage. ........ ................ r74254 | georg.brandl | 2009-07-29 18:14:16 +0200 (Mi, 29 Jul 2009) | 1 line #6586: fix return/argument type doc for os.read() and os.write(). ................ r74262 | alexandre.vassalotti | 2009-07-29 21:54:39 +0200 (Mi, 29 Jul 2009) | 57 lines Merged revisions 74074,74077,74111,74188,74192-74193,74200,74252-74253,74258-74261 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r74074 | georg.brandl | 2009-07-18 05:03:10 -0400 (Sat, 18 Jul 2009) | 1 line #6513: fix example code: warning categories are classes, not instances. ........ r74077 | georg.brandl | 2009-07-18 05:43:40 -0400 (Sat, 18 Jul 2009) | 1 line #6489: fix an ambiguity in getiterator() documentation. ........ r74111 | benjamin.peterson | 2009-07-20 09:30:10 -0400 (Mon, 20 Jul 2009) | 1 line remove docs for deprecated -p option ........ r74188 | benjamin.peterson | 2009-07-23 10:25:31 -0400 (Thu, 23 Jul 2009) | 1 line use bools ........ r74192 | georg.brandl | 2009-07-24 12:28:38 -0400 (Fri, 24 Jul 2009) | 1 line Fix arg types of et#. ........ r74193 | georg.brandl | 2009-07-24 12:46:38 -0400 (Fri, 24 Jul 2009) | 1 line Dont put "void" in signature for nullary functions. ........ r74200 | georg.brandl | 2009-07-25 09:02:15 -0400 (Sat, 25 Jul 2009) | 1 line #6571: add index entries for more operators. ........ r74252 | georg.brandl | 2009-07-29 12:06:31 -0400 (Wed, 29 Jul 2009) | 1 line #6593: fix link targets. ........ r74253 | georg.brandl | 2009-07-29 12:09:17 -0400 (Wed, 29 Jul 2009) | 1 line #6591: add reference to ioctl in fcntl module for platforms other than Windows. ........ r74258 | georg.brandl | 2009-07-29 12:57:05 -0400 (Wed, 29 Jul 2009) | 1 line Add a link to readline, and mention IPython and bpython. ........ r74259 | georg.brandl | 2009-07-29 13:07:21 -0400 (Wed, 29 Jul 2009) | 1 line Fix some markup and small factual glitches found by M. Markert. ........ r74260 | georg.brandl | 2009-07-29 13:15:20 -0400 (Wed, 29 Jul 2009) | 1 line Fix a few markup glitches. ........ r74261 | georg.brandl | 2009-07-29 13:50:25 -0400 (Wed, 29 Jul 2009) | 1 line Rewrite the section about classes a bit; mostly tidbits, and a larger update to the section about "private" variables to reflect the Pythonic consensus better. ........ ................ r74311 | georg.brandl | 2009-08-04 22:29:27 +0200 (Di, 04 Aug 2009) | 1 line Slightly improve buffer-related error message. ................ r74334 | georg.brandl | 2009-08-06 19:51:03 +0200 (Do, 06 Aug 2009) | 1 line #6648: mention surrogateescape handler where all standard handlers are listed. ................ r74368 | georg.brandl | 2009-08-13 09:56:35 +0200 (Do, 13 Aug 2009) | 21 lines Merged revisions 74328,74332-74333,74365 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r74328 | georg.brandl | 2009-08-06 17:06:25 +0200 (Do, 06 Aug 2009) | 1 line Fix base keyword arg name for int() and long(). ........ r74332 | georg.brandl | 2009-08-06 19:23:21 +0200 (Do, 06 Aug 2009) | 1 line Fix punctuation and one copy-paste error. ........ r74333 | georg.brandl | 2009-08-06 19:43:55 +0200 (Do, 06 Aug 2009) | 1 line #6658: fix two typos. ........ r74365 | georg.brandl | 2009-08-13 09:48:05 +0200 (Do, 13 Aug 2009) | 1 line #6679: Remove mention that sub supports no flags. ........ ................
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.. _tut-io:
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****************
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Input and Output
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****************
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There are several ways to present the output of a program; data can be printed
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in a human-readable form, or written to a file for future use. This chapter will
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discuss some of the possibilities.
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.. _tut-formatting:
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Fancier Output Formatting
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=========================
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So far we've encountered two ways of writing values: *expression statements* and
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the :func:`print` function. (A third way is using the :meth:`write` method
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of file objects; the standard output file can be referenced as ``sys.stdout``.
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See the Library Reference for more information on this.)
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.. index:: module: string
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Often you'll want more control over the formatting of your output than simply
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printing space-separated values. There are two ways to format your output; the
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first way is to do all the string handling yourself; using string slicing and
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concatenation operations you can create any layout you can imagine. The
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standard module :mod:`string` contains some useful operations for padding
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strings to a given column width; these will be discussed shortly. The second
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way is to use the :meth:`str.format` method.
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The :mod:`string` module contains a class Template which offers yet another way
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to substitute values into strings.
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One question remains, of course: how do you convert values to strings? Luckily,
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Python has ways to convert any value to a string: pass it to the :func:`repr`
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or :func:`str` functions.
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The :func:`str` function is meant to return representations of values which are
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fairly human-readable, while :func:`repr` is meant to generate representations
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which can be read by the interpreter (or will force a :exc:`SyntaxError` if
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there is not equivalent syntax). For objects which don't have a particular
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representation for human consumption, :func:`str` will return the same value as
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:func:`repr`. Many values, such as numbers or structures like lists and
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dictionaries, have the same representation using either function. Strings and
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floating point numbers, in particular, have two distinct representations.
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Some examples::
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>>> s = 'Hello, world.'
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>>> str(s)
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'Hello, world.'
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>>> repr(s)
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"'Hello, world.'"
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>>> str(1.0/7.0)
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'0.142857142857'
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>>> repr(1.0/7.0)
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'0.14285714285714285'
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>>> x = 10 * 3.25
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>>> y = 200 * 200
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>>> s = 'The value of x is ' + repr(x) + ', and y is ' + repr(y) + '...'
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>>> print(s)
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The value of x is 32.5, and y is 40000...
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>>> # The repr() of a string adds string quotes and backslashes:
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... hello = 'hello, world\n'
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>>> hellos = repr(hello)
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>>> print(hellos)
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'hello, world\n'
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>>> # The argument to repr() may be any Python object:
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... repr((x, y, ('spam', 'eggs')))
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"(32.5, 40000, ('spam', 'eggs'))"
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Here are two ways to write a table of squares and cubes::
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>>> for x in range(1, 11):
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... print(repr(x).rjust(2), repr(x*x).rjust(3), end=' ')
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... # Note use of 'end' on previous line
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... print(repr(x*x*x).rjust(4))
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...
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1 1 1
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2 4 8
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3 9 27
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4 16 64
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5 25 125
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6 36 216
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7 49 343
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8 64 512
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9 81 729
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10 100 1000
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>>> for x in range(1, 11):
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... print('{0:2d} {1:3d} {2:4d}'.format(x, x*x, x*x*x))
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...
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1 1 1
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2 4 8
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3 9 27
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4 16 64
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5 25 125
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6 36 216
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7 49 343
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8 64 512
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9 81 729
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10 100 1000
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(Note that in the first example, one space between each column was added by the
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way :func:`print` works: it always adds spaces between its arguments.)
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This example demonstrates the :meth:`rjust` method of string objects, which
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right-justifies a string in a field of a given width by padding it with spaces
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on the left. There are similar methods :meth:`ljust` and :meth:`center`. These
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methods do not write anything, they just return a new string. If the input
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string is too long, they don't truncate it, but return it unchanged; this will
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mess up your column lay-out but that's usually better than the alternative,
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which would be lying about a value. (If you really want truncation you can
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always add a slice operation, as in ``x.ljust(n)[:n]``.)
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There is another method, :meth:`zfill`, which pads a numeric string on the left
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with zeros. It understands about plus and minus signs::
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>>> '12'.zfill(5)
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'00012'
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>>> '-3.14'.zfill(7)
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'-003.14'
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>>> '3.14159265359'.zfill(5)
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'3.14159265359'
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Basic usage of the :meth:`str.format` method looks like this::
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>>> print('We are the {0} who say "{1}!"'.format('knights', 'Ni'))
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We are the knights who say "Ni!"
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The brackets and characters within them (called format fields) are replaced with
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the objects passed into the :meth:`~str.format` method. The number in the
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brackets refers to the position of the object passed into the
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:meth:`~str.format` method. ::
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>>> print('{0} and {1}'.format('spam', 'eggs'))
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spam and eggs
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>>> print('{1} and {0}'.format('spam', 'eggs'))
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eggs and spam
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If keyword arguments are used in the :meth:`~str.format` method, their values
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are referred to by using the name of the argument. ::
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>>> print('This {food} is {adjective}.'.format(
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... food='spam', adjective='absolutely horrible'))
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This spam is absolutely horrible.
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Positional and keyword arguments can be arbitrarily combined::
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>>> print('The story of {0}, {1}, and {other}.'.format('Bill', 'Manfred',
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other='Georg'))
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The story of Bill, Manfred, and Georg.
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An optional ``':'`` and format specifier can follow the field name. This also
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greater control over how the value is formatted. The following example
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truncates the Pi to three places after the decimal.
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>>> import math
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>>> print('The value of PI is approximately {0:.3f}.'.format(math.pi))
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The value of PI is approximately 3.142.
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Passing an integer after the ``':'`` will cause that field to be a minimum
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number of characters wide. This is useful for making tables pretty. ::
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>>> table = {'Sjoerd': 4127, 'Jack': 4098, 'Dcab': 7678}
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>>> for name, phone in table.items():
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... print('{0:10} ==> {1:10d}'.format(name, phone))
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...
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Jack ==> 4098
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Dcab ==> 7678
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Sjoerd ==> 4127
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If you have a really long format string that you don't want to split up, it
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would be nice if you could reference the variables to be formatted by name
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instead of by position. This can be done by simply passing the dict and using
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square brackets ``'[]'`` to access the keys ::
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>>> table = {'Sjoerd': 4127, 'Jack': 4098, 'Dcab': 8637678}
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>>> print('Jack: {0[Jack]:d}; Sjoerd: {0[Sjoerd]:d}; '
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'Dcab: {0[Dcab]:d}'.format(table))
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Jack: 4098; Sjoerd: 4127; Dcab: 8637678
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This could also be done by passing the table as keyword arguments with the '**'
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notation. ::
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>>> table = {'Sjoerd': 4127, 'Jack': 4098, 'Dcab': 8637678}
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>>> print('Jack: {Jack:d}; Sjoerd: {Sjoerd:d}; Dcab: {Dcab:d}'.format(**table))
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Jack: 4098; Sjoerd: 4127; Dcab: 8637678
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This is particularly useful in combination with the new built-in :func:`vars`
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function, which returns a dictionary containing all local variables.
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For a complete overview of string formatting with :meth:`str.format`, see
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:ref:`formatstrings`.
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Old string formatting
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---------------------
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The ``%`` operator can also be used for string formatting. It interprets the
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left argument much like a :cfunc:`sprintf`\ -style format string to be applied
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to the right argument, and returns the string resulting from this formatting
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operation. For example::
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>>> import math
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>>> print('The value of PI is approximately %5.3f.' % math.pi)
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The value of PI is approximately 3.142.
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Since :meth:`str.format` is quite new, a lot of Python code still uses the ``%``
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operator. However, because this old style of formatting will eventually removed
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from the language :meth:`str.format` should generally be used.
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More information can be found in the :ref:`old-string-formatting` section.
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.. _tut-files:
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Reading and Writing Files
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=========================
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.. index::
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builtin: open
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object: file
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:func:`open` returns a file object, and is most commonly used with two
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arguments: ``open(filename, mode)``.
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::
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>>> f = open('/tmp/workfile', 'w')
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.. XXX str(f) is <io.TextIOWrapper object at 0x82e8dc4>
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>>> print(f)
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<open file '/tmp/workfile', mode 'w' at 80a0960>
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The first argument is a string containing the filename. The second argument is
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another string containing a few characters describing the way in which the file
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will be used. *mode* can be ``'r'`` when the file will only be read, ``'w'``
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for only writing (an existing file with the same name will be erased), and
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``'a'`` opens the file for appending; any data written to the file is
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automatically added to the end. ``'r+'`` opens the file for both reading and
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writing. The *mode* argument is optional; ``'r'`` will be assumed if it's
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omitted.
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Normally, files are opened in :dfn:`text mode`, that means, you read and write
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strings from and to the file, which are encoded in a specific encoding (the
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default being UTF-8). ``'b'`` appended to the mode opens the file in
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:dfn:`binary mode`: now the data is read and written in the form of bytes
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objects. This mode should be used for all files that don't contain text.
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In text mode, the default is to convert platform-specific line endings (``\n``
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on Unix, ``\r\n`` on Windows) to just ``\n`` on reading and ``\n`` back to
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platform-specific line endings on writing. This behind-the-scenes modification
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to file data is fine for text files, but will corrupt binary data like that in
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:file:`JPEG` or :file:`EXE` files. Be very careful to use binary mode when
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reading and writing such files.
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.. _tut-filemethods:
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Methods of File Objects
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-----------------------
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The rest of the examples in this section will assume that a file object called
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``f`` has already been created.
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To read a file's contents, call ``f.read(size)``, which reads some quantity of
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data and returns it as a string or bytes object. *size* is an optional numeric
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argument. When *size* is omitted or negative, the entire contents of the file
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will be read and returned; it's your problem if the file is twice as large as
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your machine's memory. Otherwise, at most *size* bytes are read and returned.
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If the end of the file has been reached, ``f.read()`` will return an empty
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string (``''``). ::
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>>> f.read()
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'This is the entire file.\n'
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>>> f.read()
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''
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``f.readline()`` reads a single line from the file; a newline character (``\n``)
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is left at the end of the string, and is only omitted on the last line of the
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file if the file doesn't end in a newline. This makes the return value
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unambiguous; if ``f.readline()`` returns an empty string, the end of the file
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has been reached, while a blank line is represented by ``'\n'``, a string
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containing only a single newline. ::
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>>> f.readline()
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'This is the first line of the file.\n'
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>>> f.readline()
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'Second line of the file\n'
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>>> f.readline()
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''
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``f.readlines()`` returns a list containing all the lines of data in the file.
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If given an optional parameter *sizehint*, it reads that many bytes from the
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file and enough more to complete a line, and returns the lines from that. This
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is often used to allow efficient reading of a large file by lines, but without
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having to load the entire file in memory. Only complete lines will be returned.
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::
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>>> f.readlines()
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['This is the first line of the file.\n', 'Second line of the file\n']
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An alternative approach to reading lines is to loop over the file object. This is
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memory efficient, fast, and leads to simpler code::
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>>> for line in f:
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... print(line, end='')
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...
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This is the first line of the file.
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Second line of the file
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The alternative approach is simpler but does not provide as fine-grained
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control. Since the two approaches manage line buffering differently, they
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should not be mixed.
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``f.write(string)`` writes the contents of *string* to the file, returning
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the number of characters written. ::
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>>> f.write('This is a test\n')
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15
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To write something other than a string, it needs to be converted to a string
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first::
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>>> value = ('the answer', 42)
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>>> s = str(value)
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>>> f.write(s)
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18
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``f.tell()`` returns an integer giving the file object's current position in the
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file, measured in bytes from the beginning of the file. To change the file
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object's position, use ``f.seek(offset, from_what)``. The position is computed
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from adding *offset* to a reference point; the reference point is selected by
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the *from_what* argument. A *from_what* value of 0 measures from the beginning
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of the file, 1 uses the current file position, and 2 uses the end of the file as
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the reference point. *from_what* can be omitted and defaults to 0, using the
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beginning of the file as the reference point. ::
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>>> f = open('/tmp/workfile', 'rb+')
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>>> f.write(b'0123456789abcdef')
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16
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>>> f.seek(5) # Go to the 6th byte in the file
|
|
5
|
|
>>> f.read(1)
|
|
b'5'
|
|
>>> f.seek(-3, 2) # Go to the 3rd byte before the end
|
|
13
|
|
>>> f.read(1)
|
|
b'd'
|
|
|
|
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)``).
|
|
|
|
When you're done with a file, call ``f.close()`` to close it and free up any
|
|
system resources taken up by the open file. After calling ``f.close()``,
|
|
attempts to use the file object will automatically fail. ::
|
|
|
|
>>> f.close()
|
|
>>> f.read()
|
|
Traceback (most recent call last):
|
|
File "<stdin>", line 1, in ?
|
|
ValueError: I/O operation on closed file
|
|
|
|
It is good practice to use the :keyword:`with` keyword when dealing with file
|
|
objects. This has the advantage that the file is properly closed after its
|
|
suite finishes, even if an exception is raised on the way. It is also much
|
|
shorter than writing equivalent :keyword:`try`\ -\ :keyword:`finally` blocks::
|
|
|
|
>>> with open('/tmp/workfile', 'r') as f:
|
|
... read_data = f.read()
|
|
>>> f.closed
|
|
True
|
|
|
|
File objects have some additional methods, such as :meth:`~file.isatty` and
|
|
:meth:`~file.truncate` which are less frequently used; consult the Library
|
|
Reference for a complete guide to file objects.
|
|
|
|
|
|
.. _tut-pickle:
|
|
|
|
The :mod:`pickle` Module
|
|
------------------------
|
|
|
|
.. index:: module: pickle
|
|
|
|
Strings can easily be written to and read from a file. Numbers take a bit more
|
|
effort, since the :meth:`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. However, when you want to save more complex
|
|
data types like lists, dictionaries, or class instances, things get a lot more
|
|
complicated.
|
|
|
|
Rather than have users be constantly writing and debugging code to save
|
|
complicated data types, Python provides a standard module called :mod:`pickle`.
|
|
This is an amazing module that can take almost any Python object (even some
|
|
forms of Python code!), and convert it to a string representation; this process
|
|
is called :dfn:`pickling`. Reconstructing the object from the string
|
|
representation is called :dfn:`unpickling`. Between pickling and unpickling,
|
|
the string representing the object may have been stored in a file or data, or
|
|
sent over a network connection to some distant machine.
|
|
|
|
If you have an object ``x``, and a file object ``f`` that's been opened for
|
|
writing, the simplest way to pickle the object takes only one line of code::
|
|
|
|
pickle.dump(x, f)
|
|
|
|
To unpickle the object again, if ``f`` is a file object which has been opened
|
|
for reading::
|
|
|
|
x = pickle.load(f)
|
|
|
|
(There are other variants of this, used when pickling many objects or when you
|
|
don't want to write the pickled data to a file; consult the complete
|
|
documentation for :mod:`pickle` in the Python Library Reference.)
|
|
|
|
:mod:`pickle` is the standard way to make Python objects which can be stored and
|
|
reused by other programs or by a future invocation of the same program; the
|
|
technical term for this is a :dfn:`persistent` object. Because :mod:`pickle` is
|
|
so widely used, many authors who write Python extensions take care to ensure
|
|
that new data types such as matrices can be properly pickled and unpickled.
|
|
|
|
|