2007-08-15 11:28:01 -03:00
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.. _tut-brieftourtwo:
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*********************************************
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Brief Tour of the Standard Library -- Part II
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*********************************************
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This second tour covers more advanced modules that support professional
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programming needs. These modules rarely occur in small scripts.
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.. _tut-output-formatting:
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Output Formatting
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=================
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2008-05-23 02:03:59 -03:00
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The :mod:`repr` module provides a version of :func:`repr` customized for
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2007-08-15 11:28:01 -03:00
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abbreviated displays of large or deeply nested containers::
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2008-05-25 04:20:14 -03:00
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>>> import repr
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2008-05-23 02:03:59 -03:00
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>>> repr.repr(set('supercalifragilisticexpialidocious'))
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2007-08-15 11:28:01 -03:00
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"set(['a', 'c', 'd', 'e', 'f', 'g', ...])"
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The :mod:`pprint` module offers more sophisticated control over printing both
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built-in and user defined objects in a way that is readable by the interpreter.
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When the result is longer than one line, the "pretty printer" adds line breaks
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and indentation to more clearly reveal data structure::
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>>> import pprint
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>>> t = [[[['black', 'cyan'], 'white', ['green', 'red']], [['magenta',
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... 'yellow'], 'blue']]]
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...
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>>> pprint.pprint(t, width=30)
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[[[['black', 'cyan'],
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'white',
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['green', 'red']],
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[['magenta', 'yellow'],
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'blue']]]
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The :mod:`textwrap` module formats paragraphs of text to fit a given screen
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width::
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>>> import textwrap
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>>> doc = """The wrap() method is just like fill() except that it returns
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... a list of strings instead of one big string with newlines to separate
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... the wrapped lines."""
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...
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>>> print textwrap.fill(doc, width=40)
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The wrap() method is just like fill()
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except that it returns a list of strings
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instead of one big string with newlines
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to separate the wrapped lines.
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The :mod:`locale` module accesses a database of culture specific data formats.
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The grouping attribute of locale's format function provides a direct way of
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formatting numbers with group separators::
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>>> import locale
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>>> locale.setlocale(locale.LC_ALL, 'English_United States.1252')
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'English_United States.1252'
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>>> conv = locale.localeconv() # get a mapping of conventions
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>>> x = 1234567.8
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>>> locale.format("%d", x, grouping=True)
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'1,234,567'
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2009-08-13 09:05:52 -03:00
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>>> locale.format_string("%s%.*f", (conv['currency_symbol'],
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... conv['frac_digits'], x), grouping=True)
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2007-08-15 11:28:01 -03:00
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'$1,234,567.80'
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.. _tut-templating:
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Templating
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==========
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2013-10-09 03:54:32 -03:00
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The :mod:`string` module includes a versatile :class:`~string.Template` class
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with a simplified syntax suitable for editing by end-users. This allows users
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to customize their applications without having to alter the application.
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2007-08-15 11:28:01 -03:00
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The format uses placeholder names formed by ``$`` with valid Python identifiers
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(alphanumeric characters and underscores). Surrounding the placeholder with
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braces allows it to be followed by more alphanumeric letters with no intervening
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spaces. Writing ``$$`` creates a single escaped ``$``::
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>>> from string import Template
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>>> t = Template('${village}folk send $$10 to $cause.')
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>>> t.substitute(village='Nottingham', cause='the ditch fund')
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'Nottinghamfolk send $10 to the ditch fund.'
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2013-10-09 03:54:32 -03:00
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The :meth:`~string.Template.substitute` method raises a :exc:`KeyError` when a
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placeholder is not supplied in a dictionary or a keyword argument. For
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mail-merge style applications, user supplied data may be incomplete and the
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:meth:`~string.Template.safe_substitute` method may be more appropriate ---
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it will leave placeholders unchanged if data is missing::
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2007-08-15 11:28:01 -03:00
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>>> t = Template('Return the $item to $owner.')
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>>> d = dict(item='unladen swallow')
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>>> t.substitute(d)
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Traceback (most recent call last):
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2012-09-24 11:30:39 -03:00
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...
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2007-08-15 11:28:01 -03:00
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KeyError: 'owner'
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>>> t.safe_substitute(d)
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'Return the unladen swallow to $owner.'
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Template subclasses can specify a custom delimiter. For example, a batch
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renaming utility for a photo browser may elect to use percent signs for
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placeholders such as the current date, image sequence number, or file format::
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>>> import time, os.path
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>>> photofiles = ['img_1074.jpg', 'img_1076.jpg', 'img_1077.jpg']
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>>> class BatchRename(Template):
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... delimiter = '%'
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>>> fmt = raw_input('Enter rename style (%d-date %n-seqnum %f-format): ')
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Enter rename style (%d-date %n-seqnum %f-format): Ashley_%n%f
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>>> t = BatchRename(fmt)
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>>> date = time.strftime('%d%b%y')
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>>> for i, filename in enumerate(photofiles):
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... base, ext = os.path.splitext(filename)
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... newname = t.substitute(d=date, n=i, f=ext)
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2008-05-25 21:54:22 -03:00
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... print '{0} --> {1}'.format(filename, newname)
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2007-08-15 11:28:01 -03:00
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img_1074.jpg --> Ashley_0.jpg
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img_1076.jpg --> Ashley_1.jpg
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img_1077.jpg --> Ashley_2.jpg
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Another application for templating is separating program logic from the details
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of multiple output formats. This makes it possible to substitute custom
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templates for XML files, plain text reports, and HTML web reports.
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.. _tut-binary-formats:
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Working with Binary Data Record Layouts
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=======================================
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2013-10-09 03:54:32 -03:00
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The :mod:`struct` module provides :func:`~struct.pack` and
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:func:`~struct.unpack` functions for working with variable length binary
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record formats. The following example shows
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2008-01-24 05:38:26 -04:00
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how to loop through header information in a ZIP file without using the
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:mod:`zipfile` module. Pack codes ``"H"`` and ``"I"`` represent two and four
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byte unsigned numbers respectively. The ``"<"`` indicates that they are
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standard size and in little-endian byte order::
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2007-08-15 11:28:01 -03:00
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import struct
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data = open('myfile.zip', 'rb').read()
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start = 0
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for i in range(3): # show the first 3 file headers
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start += 14
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2008-01-24 05:38:26 -04:00
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fields = struct.unpack('<IIIHH', data[start:start+16])
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2007-08-15 11:28:01 -03:00
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crc32, comp_size, uncomp_size, filenamesize, extra_size = fields
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start += 16
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filename = data[start:start+filenamesize]
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start += filenamesize
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extra = data[start:start+extra_size]
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print filename, hex(crc32), comp_size, uncomp_size
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start += extra_size + comp_size # skip to the next header
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.. _tut-multi-threading:
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Multi-threading
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===============
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Threading is a technique for decoupling tasks which are not sequentially
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dependent. Threads can be used to improve the responsiveness of applications
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that accept user input while other tasks run in the background. A related use
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case is running I/O in parallel with computations in another thread.
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The following code shows how the high level :mod:`threading` module can run
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tasks in background while the main program continues to run::
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2009-02-19 23:31:23 -04:00
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import threading, zipfile
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2007-08-15 11:28:01 -03:00
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class AsyncZip(threading.Thread):
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def __init__(self, infile, outfile):
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2008-05-25 04:20:14 -03:00
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threading.Thread.__init__(self)
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2007-08-15 11:28:01 -03:00
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self.infile = infile
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self.outfile = outfile
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2016-05-10 07:45:32 -03:00
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2007-08-15 11:28:01 -03:00
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def run(self):
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f = zipfile.ZipFile(self.outfile, 'w', zipfile.ZIP_DEFLATED)
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f.write(self.infile)
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f.close()
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print 'Finished background zip of: ', self.infile
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background = AsyncZip('mydata.txt', 'myarchive.zip')
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background.start()
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print 'The main program continues to run in foreground.'
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background.join() # Wait for the background task to finish
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print 'Main program waited until background was done.'
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The principal challenge of multi-threaded applications is coordinating threads
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that share data or other resources. To that end, the threading module provides
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a number of synchronization primitives including locks, events, condition
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variables, and semaphores.
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While those tools are powerful, minor design errors can result in problems that
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are difficult to reproduce. So, the preferred approach to task coordination is
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to concentrate all access to a resource in a single thread and then use the
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2008-05-25 04:20:14 -03:00
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:mod:`Queue` module to feed that thread with requests from other threads.
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Applications using :class:`Queue.Queue` objects for inter-thread communication
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and coordination are easier to design, more readable, and more reliable.
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2007-08-15 11:28:01 -03:00
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.. _tut-logging:
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Logging
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=======
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The :mod:`logging` module offers a full featured and flexible logging system.
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At its simplest, log messages are sent to a file or to ``sys.stderr``::
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import logging
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logging.debug('Debugging information')
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logging.info('Informational message')
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logging.warning('Warning:config file %s not found', 'server.conf')
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logging.error('Error occurred')
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logging.critical('Critical error -- shutting down')
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2012-09-24 11:30:39 -03:00
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This produces the following output:
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.. code-block:: none
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2007-08-15 11:28:01 -03:00
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WARNING:root:Warning:config file server.conf not found
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ERROR:root:Error occurred
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CRITICAL:root:Critical error -- shutting down
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By default, informational and debugging messages are suppressed and the output
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is sent to standard error. Other output options include routing messages
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through email, datagrams, sockets, or to an HTTP Server. New filters can select
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2013-10-09 03:54:32 -03:00
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different routing based on message priority: :const:`~logging.DEBUG`,
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:const:`~logging.INFO`, :const:`~logging.WARNING`, :const:`~logging.ERROR`,
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and :const:`~logging.CRITICAL`.
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2007-08-15 11:28:01 -03:00
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The logging system can be configured directly from Python or can be loaded from
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a user editable configuration file for customized logging without altering the
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application.
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.. _tut-weak-references:
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Weak References
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===============
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Python does automatic memory management (reference counting for most objects and
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2007-12-02 10:58:50 -04:00
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:term:`garbage collection` to eliminate cycles). The memory is freed shortly
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after the last reference to it has been eliminated.
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2007-08-15 11:28:01 -03:00
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This approach works fine for most applications but occasionally there is a need
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to track objects only as long as they are being used by something else.
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Unfortunately, just tracking them creates a reference that makes them permanent.
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The :mod:`weakref` module provides tools for tracking objects without creating a
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reference. When the object is no longer needed, it is automatically removed
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from a weakref table and a callback is triggered for weakref objects. Typical
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applications include caching objects that are expensive to create::
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>>> import weakref, gc
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>>> class A:
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... def __init__(self, value):
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2012-10-22 08:14:20 -03:00
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... self.value = value
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2007-08-15 11:28:01 -03:00
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... def __repr__(self):
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2012-10-22 08:14:20 -03:00
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... return str(self.value)
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2007-08-15 11:28:01 -03:00
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...
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>>> a = A(10) # create a reference
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>>> d = weakref.WeakValueDictionary()
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>>> d['primary'] = a # does not create a reference
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>>> d['primary'] # fetch the object if it is still alive
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10
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>>> del a # remove the one reference
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>>> gc.collect() # run garbage collection right away
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0
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>>> d['primary'] # entry was automatically removed
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Traceback (most recent call last):
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2008-02-22 08:56:34 -04:00
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File "<stdin>", line 1, in <module>
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2007-08-15 11:28:01 -03:00
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d['primary'] # entry was automatically removed
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File "C:/python26/lib/weakref.py", line 46, in __getitem__
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o = self.data[key]()
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KeyError: 'primary'
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.. _tut-list-tools:
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Tools for Working with Lists
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============================
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Many data structure needs can be met with the built-in list type. However,
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sometimes there is a need for alternative implementations with different
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performance trade-offs.
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2013-10-09 03:54:32 -03:00
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The :mod:`array` module provides an :class:`~array.array()` object that is like
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a list that stores only homogeneous data and stores it more compactly. The
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following example shows an array of numbers stored as two byte unsigned binary
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numbers (typecode ``"H"``) rather than the usual 16 bytes per entry for regular
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lists of Python int objects::
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2007-08-15 11:28:01 -03:00
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>>> from array import array
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>>> a = array('H', [4000, 10, 700, 22222])
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>>> sum(a)
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26932
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>>> a[1:3]
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array('H', [10, 700])
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|
2013-10-09 03:54:32 -03:00
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The :mod:`collections` module provides a :class:`~collections.deque()` object
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that is like a list with faster appends and pops from the left side but slower
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lookups in the middle. These objects are well suited for implementing queues
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and breadth first tree searches::
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2007-08-15 11:28:01 -03:00
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>>> from collections import deque
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>>> d = deque(["task1", "task2", "task3"])
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>>> d.append("task4")
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>>> print "Handling", d.popleft()
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Handling task1
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|
2012-09-24 11:30:39 -03:00
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::
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2007-08-15 11:28:01 -03:00
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unsearched = deque([starting_node])
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def breadth_first_search(unsearched):
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node = unsearched.popleft()
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for m in gen_moves(node):
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if is_goal(m):
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return m
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unsearched.append(m)
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In addition to alternative list implementations, the library also offers other
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tools such as the :mod:`bisect` module with functions for manipulating sorted
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lists::
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>>> import bisect
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>>> scores = [(100, 'perl'), (200, 'tcl'), (400, 'lua'), (500, 'python')]
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>>> bisect.insort(scores, (300, 'ruby'))
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>>> scores
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[(100, 'perl'), (200, 'tcl'), (300, 'ruby'), (400, 'lua'), (500, 'python')]
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The :mod:`heapq` module provides functions for implementing heaps based on
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regular lists. The lowest valued entry is always kept at position zero. This
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is useful for applications which repeatedly access the smallest element but do
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not want to run a full list sort::
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>>> from heapq import heapify, heappop, heappush
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>>> data = [1, 3, 5, 7, 9, 2, 4, 6, 8, 0]
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>>> heapify(data) # rearrange the list into heap order
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>>> heappush(data, -5) # add a new entry
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>>> [heappop(data) for i in range(3)] # fetch the three smallest entries
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[-5, 0, 1]
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.. _tut-decimal-fp:
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Decimal Floating Point Arithmetic
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=================================
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2013-10-09 03:54:32 -03:00
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The :mod:`decimal` module offers a :class:`~decimal.Decimal` datatype for
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decimal floating point arithmetic. Compared to the built-in :class:`float`
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implementation of binary floating point, the class is especially helpful for
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* financial applications and other uses which require exact decimal
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representation,
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* control over precision,
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* control over rounding to meet legal or regulatory requirements,
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* tracking of significant decimal places, or
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* applications where the user expects the results to match calculations done by
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hand.
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2007-08-15 11:28:01 -03:00
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For example, calculating a 5% tax on a 70 cent phone charge gives different
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results in decimal floating point and binary floating point. The difference
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becomes significant if the results are rounded to the nearest cent::
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2008-05-25 04:20:14 -03:00
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>>> from decimal import *
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>>> x = Decimal('0.70') * Decimal('1.05')
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>>> x
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2009-06-28 18:48:15 -03:00
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Decimal('0.7350')
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2009-11-24 10:27:02 -04:00
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>>> x.quantize(Decimal('0.01')) # round to nearest cent
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Decimal('0.74')
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>>> round(.70 * 1.05, 2) # same calculation with floats
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0.73
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2007-08-15 11:28:01 -03:00
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2013-10-09 03:54:32 -03:00
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The :class:`~decimal.Decimal` result keeps a trailing zero, automatically
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inferring four place significance from multiplicands with two place
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significance. Decimal reproduces mathematics as done by hand and avoids
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issues that can arise when binary floating point cannot exactly represent
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decimal quantities.
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2007-08-15 11:28:01 -03:00
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2013-10-09 03:54:32 -03:00
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Exact representation enables the :class:`~decimal.Decimal` class to perform
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modulo calculations and equality tests that are unsuitable for binary floating
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point::
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2007-08-15 11:28:01 -03:00
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>>> Decimal('1.00') % Decimal('.10')
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Decimal('0.00')
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2007-08-15 11:28:01 -03:00
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>>> 1.00 % 0.10
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0.09999999999999995
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>>> sum([Decimal('0.1')]*10) == Decimal('1.0')
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True
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>>> sum([0.1]*10) == 1.0
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2008-05-25 04:20:14 -03:00
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False
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2007-08-15 11:28:01 -03:00
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The :mod:`decimal` module provides arithmetic with as much precision as needed::
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>>> getcontext().prec = 36
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>>> Decimal(1) / Decimal(7)
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2009-06-28 18:48:15 -03:00
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Decimal('0.142857142857142857142857142857142857')
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2007-08-15 11:28:01 -03:00
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