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Thanks Loic Bistuer for helping in shaping the patch and Claude Paroz for the review.
412 lines
18 KiB
Plaintext
412 lines
18 KiB
Plaintext
============
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Unicode data
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============
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Django natively supports Unicode data everywhere. Providing your database can
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somehow store the data, you can safely pass around Unicode strings to
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templates, models and the database.
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This document tells you what you need to know if you're writing applications
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that use data or templates that are encoded in something other than ASCII.
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Creating the database
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=====================
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Make sure your database is configured to be able to store arbitrary string
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data. Normally, this means giving it an encoding of UTF-8 or UTF-16. If you use
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a more restrictive encoding -- for example, latin1 (iso8859-1) -- you won't be
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able to store certain characters in the database, and information will be lost.
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* MySQL users, refer to the `MySQL manual`_ for details on how to set or alter
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the database character set encoding.
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* PostgreSQL users, refer to the `PostgreSQL manual`_ (section 22.3.2 in
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PostgreSQL 9) for details on creating databases with the correct encoding.
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* SQLite users, there is nothing you need to do. SQLite always uses UTF-8
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for internal encoding.
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.. _MySQL manual: http://dev.mysql.com/doc/refman/5.6/en/charset-database.html
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.. _PostgreSQL manual: http://www.postgresql.org/docs/current/static/multibyte.html
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All of Django's database backends automatically convert Unicode strings into
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the appropriate encoding for talking to the database. They also automatically
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convert strings retrieved from the database into Python Unicode strings. You
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don't even need to tell Django what encoding your database uses: that is
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handled transparently.
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For more, see the section "The database API" below.
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General string handling
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=======================
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Whenever you use strings with Django -- e.g., in database lookups, template
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rendering or anywhere else -- you have two choices for encoding those strings.
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You can use Unicode strings, or you can use normal strings (sometimes called
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"bytestrings") that are encoded using UTF-8.
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In Python 3, the logic is reversed, that is normal strings are Unicode, and
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when you want to specifically create a bytestring, you have to prefix the
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string with a 'b'. As we are doing in Django code from version 1.5,
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we recommend that you import ``unicode_literals`` from the __future__ library
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in your code. Then, when you specifically want to create a bytestring literal,
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prefix the string with 'b'.
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Python 2 legacy::
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my_string = "This is a bytestring"
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my_unicode = u"This is an Unicode string"
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Python 2 with unicode literals or Python 3::
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from __future__ import unicode_literals
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my_string = b"This is a bytestring"
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my_unicode = "This is an Unicode string"
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See also :doc:`Python 3 compatibility </topics/python3>`.
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.. warning::
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A bytestring does not carry any information with it about its encoding.
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For that reason, we have to make an assumption, and Django assumes that all
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bytestrings are in UTF-8.
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If you pass a string to Django that has been encoded in some other format,
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things will go wrong in interesting ways. Usually, Django will raise a
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``UnicodeDecodeError`` at some point.
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If your code only uses ASCII data, it's safe to use your normal strings,
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passing them around at will, because ASCII is a subset of UTF-8.
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Don't be fooled into thinking that if your :setting:`DEFAULT_CHARSET` setting is set
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to something other than ``'utf-8'`` you can use that other encoding in your
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bytestrings! :setting:`DEFAULT_CHARSET` only applies to the strings generated as
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the result of template rendering (and email). Django will always assume UTF-8
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encoding for internal bytestrings. The reason for this is that the
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:setting:`DEFAULT_CHARSET` setting is not actually under your control (if you are the
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application developer). It's under the control of the person installing and
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using your application -- and if that person chooses a different setting, your
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code must still continue to work. Ergo, it cannot rely on that setting.
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In most cases when Django is dealing with strings, it will convert them to
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Unicode strings before doing anything else. So, as a general rule, if you pass
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in a bytestring, be prepared to receive a Unicode string back in the result.
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Translated strings
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------------------
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Aside from Unicode strings and bytestrings, there's a third type of string-like
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object you may encounter when using Django. The framework's
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internationalization features introduce the concept of a "lazy translation" --
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a string that has been marked as translated but whose actual translation result
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isn't determined until the object is used in a string. This feature is useful
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in cases where the translation locale is unknown until the string is used, even
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though the string might have originally been created when the code was first
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imported.
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Normally, you won't have to worry about lazy translations. Just be aware that
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if you examine an object and it claims to be a
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``django.utils.functional.__proxy__`` object, it is a lazy translation.
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Calling ``unicode()`` with the lazy translation as the argument will generate a
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Unicode string in the current locale.
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For more details about lazy translation objects, refer to the
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:doc:`internationalization </topics/i18n/index>` documentation.
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Useful utility functions
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------------------------
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Because some string operations come up again and again, Django ships with a few
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useful functions that should make working with Unicode and bytestring objects
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a bit easier.
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Conversion functions
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~~~~~~~~~~~~~~~~~~~~
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The ``django.utils.encoding`` module contains a few functions that are handy
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for converting back and forth between Unicode and bytestrings.
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* ``smart_text(s, encoding='utf-8', strings_only=False, errors='strict')``
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converts its input to a Unicode string. The ``encoding`` parameter
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specifies the input encoding. (For example, Django uses this internally
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when processing form input data, which might not be UTF-8 encoded.) The
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``strings_only`` parameter, if set to True, will result in Python
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numbers, booleans and ``None`` not being converted to a string (they keep
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their original types). The ``errors`` parameter takes any of the values
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that are accepted by Python's ``unicode()`` function for its error
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handling.
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If you pass ``smart_text()`` an object that has a ``__unicode__``
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method, it will use that method to do the conversion.
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* ``force_text(s, encoding='utf-8', strings_only=False,
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errors='strict')`` is identical to ``smart_text()`` in almost all
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cases. The difference is when the first argument is a :ref:`lazy
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translation <lazy-translations>` instance. While ``smart_text()``
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preserves lazy translations, ``force_text()`` forces those objects to a
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Unicode string (causing the translation to occur). Normally, you'll want
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to use ``smart_text()``. However, ``force_text()`` is useful in
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template tags and filters that absolutely *must* have a string to work
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with, not just something that can be converted to a string.
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* ``smart_bytes(s, encoding='utf-8', strings_only=False, errors='strict')``
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is essentially the opposite of ``smart_text()``. It forces the first
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argument to a bytestring. The ``strings_only`` parameter has the same
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behavior as for ``smart_text()`` and ``force_text()``. This is
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slightly different semantics from Python's builtin ``str()`` function,
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but the difference is needed in a few places within Django's internals.
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Normally, you'll only need to use ``smart_text()``. Call it as early as
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possible on any input data that might be either Unicode or a bytestring, and
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from then on, you can treat the result as always being Unicode.
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.. _uri-and-iri-handling:
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URI and IRI handling
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~~~~~~~~~~~~~~~~~~~~
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Web frameworks have to deal with URLs (which are a type of IRI_). One
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requirement of URLs is that they are encoded using only ASCII characters.
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However, in an international environment, you might need to construct a
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URL from an IRI_ -- very loosely speaking, a URI_ that can contain Unicode
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characters. Quoting and converting an IRI to URI can be a little tricky, so
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Django provides some assistance.
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* The function :func:`django.utils.encoding.iri_to_uri()` implements the
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conversion from IRI to URI as required by the specification (:rfc:`3987#section-3.1`).
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* The functions :func:`django.utils.http.urlquote()` and
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:func:`django.utils.http.urlquote_plus()` are versions of Python's standard
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``urllib.quote()`` and ``urllib.quote_plus()`` that work with non-ASCII
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characters. (The data is converted to UTF-8 prior to encoding.)
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These two groups of functions have slightly different purposes, and it's
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important to keep them straight. Normally, you would use ``urlquote()`` on the
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individual portions of the IRI or URI path so that any reserved characters
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such as '&' or '%' are correctly encoded. Then, you apply ``iri_to_uri()`` to
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the full IRI and it converts any non-ASCII characters to the correct encoded
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values.
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.. note::
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Technically, it isn't correct to say that ``iri_to_uri()`` implements the
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full algorithm in the IRI specification. It doesn't (yet) perform the
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international domain name encoding portion of the algorithm.
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The ``iri_to_uri()`` function will not change ASCII characters that are
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otherwise permitted in a URL. So, for example, the character '%' is not
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further encoded when passed to ``iri_to_uri()``. This means you can pass a
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full URL to this function and it will not mess up the query string or anything
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like that.
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An example might clarify things here::
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>>> urlquote('Paris & Orléans')
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'Paris%20%26%20Orl%C3%A9ans'
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>>> iri_to_uri('/favorites/François/%s' % urlquote('Paris & Orléans'))
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'/favorites/Fran%C3%A7ois/Paris%20%26%20Orl%C3%A9ans'
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If you look carefully, you can see that the portion that was generated by
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``urlquote()`` in the second example was not double-quoted when passed to
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``iri_to_uri()``. This is a very important and useful feature. It means that
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you can construct your IRI without worrying about whether it contains
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non-ASCII characters and then, right at the end, call ``iri_to_uri()`` on the
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result.
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Similarly, Django provides :func:`django.utils.encoding.uri_to_iri()` which
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implements the conversion from URI to IRI as per :rfc:`3987#section-3.2`.
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It decodes all percent-encodings except those that don't represent a valid
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UTF-8 sequence.
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An example to demonstrate::
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>>> uri_to_iri('/%E2%99%A5%E2%99%A5/?utf8=%E2%9C%93')
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'/♥♥/?utf8=✓'
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>>> uri_to_iri('%A9helloworld')
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'%A9helloworld'
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In the first example, the UTF-8 characters and reserved characters are
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unquoted. In the second, the percent-encoding remains unchanged because it
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lies outside the valid UTF-8 range.
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Both ``iri_to_uri()`` and ``uri_to_iri()`` functions are idempotent, which means the
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following is always true::
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iri_to_uri(iri_to_uri(some_string)) = iri_to_uri(some_string)
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uri_to_iri(uri_to_iri(some_string)) = uri_to_iri(some_string)
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So you can safely call it multiple times on the same URI/IRI without risking
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double-quoting problems.
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.. _URI: http://www.ietf.org/rfc/rfc2396.txt
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.. _IRI: http://www.ietf.org/rfc/rfc3987.txt
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Models
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======
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Because all strings are returned from the database as Unicode strings, model
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fields that are character based (CharField, TextField, URLField, etc) will
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contain Unicode values when Django retrieves data from the database. This
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is *always* the case, even if the data could fit into an ASCII bytestring.
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You can pass in bytestrings when creating a model or populating a field, and
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Django will convert it to Unicode when it needs to.
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Choosing between ``__str__()`` and ``__unicode__()``
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----------------------------------------------------
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.. note::
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If you are on Python 3, you can skip this section because you'll always
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create ``__str__()`` rather than ``__unicode__()``. If you'd like
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compatibility with Python 2, you can decorate your model class with
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:func:`~django.utils.encoding.python_2_unicode_compatible`.
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One consequence of using Unicode by default is that you have to take some care
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when printing data from the model.
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In particular, rather than giving your model a ``__str__()`` method, we
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recommended you implement a ``__unicode__()`` method. In the ``__unicode__()``
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method, you can quite safely return the values of all your fields without
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having to worry about whether they fit into a bytestring or not. (The way
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Python works, the result of ``__str__()`` is *always* a bytestring, even if you
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accidentally try to return a Unicode object).
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You can still create a ``__str__()`` method on your models if you want, of
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course, but you shouldn't need to do this unless you have a good reason.
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Django's ``Model`` base class automatically provides a ``__str__()``
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implementation that calls ``__unicode__()`` and encodes the result into UTF-8.
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This means you'll normally only need to implement a ``__unicode__()`` method
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and let Django handle the coercion to a bytestring when required.
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Taking care in ``get_absolute_url()``
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-------------------------------------
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URLs can only contain ASCII characters. If you're constructing a URL from
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pieces of data that might be non-ASCII, be careful to encode the results in a
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way that is suitable for a URL. The :func:`~django.core.urlresolvers.reverse`
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function handles this for you automatically.
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If you're constructing a URL manually (i.e., *not* using the ``reverse()``
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function), you'll need to take care of the encoding yourself. In this case,
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use the ``iri_to_uri()`` and ``urlquote()`` functions that were documented
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above_. For example::
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from django.utils.encoding import iri_to_uri
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from django.utils.http import urlquote
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def get_absolute_url(self):
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url = '/person/%s/?x=0&y=0' % urlquote(self.location)
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return iri_to_uri(url)
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This function returns a correctly encoded URL even if ``self.location`` is
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something like "Jack visited Paris & Orléans". (In fact, the ``iri_to_uri()``
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call isn't strictly necessary in the above example, because all the
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non-ASCII characters would have been removed in quoting in the first line.)
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.. _above: `URI and IRI handling`_
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The database API
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================
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You can pass either Unicode strings or UTF-8 bytestrings as arguments to
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``filter()`` methods and the like in the database API. The following two
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querysets are identical::
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from __future__ import unicode_literals
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qs = People.objects.filter(name__contains='Å')
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qs = People.objects.filter(name__contains=b'\xc3\x85') # UTF-8 encoding of Å
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Templates
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=========
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You can use either Unicode or bytestrings when creating templates manually::
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from __future__ import unicode_literals
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from django.template import Template
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t1 = Template(b'This is a bytestring template.')
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t2 = Template('This is a Unicode template.')
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But the common case is to read templates from the filesystem, and this creates
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a slight complication: not all filesystems store their data encoded as UTF-8.
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If your template files are not stored with a UTF-8 encoding, set the :setting:`FILE_CHARSET`
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setting to the encoding of the files on disk. When Django reads in a template
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file, it will convert the data from this encoding to Unicode. (:setting:`FILE_CHARSET`
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is set to ``'utf-8'`` by default.)
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The :setting:`DEFAULT_CHARSET` setting controls the encoding of rendered templates.
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This is set to UTF-8 by default.
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Template tags and filters
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-------------------------
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A couple of tips to remember when writing your own template tags and filters:
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* Always return Unicode strings from a template tag's ``render()`` method
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and from template filters.
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* Use ``force_text()`` in preference to ``smart_text()`` in these
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places. Tag rendering and filter calls occur as the template is being
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rendered, so there is no advantage to postponing the conversion of lazy
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translation objects into strings. It's easier to work solely with Unicode
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strings at that point.
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Email
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=====
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Django's email framework (in ``django.core.mail``) supports Unicode
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transparently. You can use Unicode data in the message bodies and any headers.
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However, you're still obligated to respect the requirements of the email
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specifications, so, for example, email addresses should use only ASCII
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characters.
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The following code example demonstrates that everything except email addresses
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can be non-ASCII::
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from __future__ import unicode_literals
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from django.core.mail import EmailMessage
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subject = 'My visit to Sør-Trøndelag'
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sender = 'Arnbjörg Ráðormsdóttir <arnbjorg@example.com>'
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recipients = ['Fred <fred@example.com']
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body = '...'
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msg = EmailMessage(subject, body, sender, recipients)
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msg.attach("Une pièce jointe.pdf", "%PDF-1.4.%...", mimetype="application/pdf")
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msg.send()
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Form submission
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===============
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HTML form submission is a tricky area. There's no guarantee that the
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submission will include encoding information, which means the framework might
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have to guess at the encoding of submitted data.
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Django adopts a "lazy" approach to decoding form data. The data in an
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``HttpRequest`` object is only decoded when you access it. In fact, most of
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the data is not decoded at all. Only the ``HttpRequest.GET`` and
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``HttpRequest.POST`` data structures have any decoding applied to them. Those
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two fields will return their members as Unicode data. All other attributes and
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methods of ``HttpRequest`` return data exactly as it was submitted by the
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client.
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By default, the :setting:`DEFAULT_CHARSET` setting is used as the assumed encoding
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for form data. If you need to change this for a particular form, you can set
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the ``encoding`` attribute on an ``HttpRequest`` instance. For example::
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def some_view(request):
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# We know that the data must be encoded as KOI8-R (for some reason).
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request.encoding = 'koi8-r'
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...
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You can even change the encoding after having accessed ``request.GET`` or
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``request.POST``, and all subsequent accesses will use the new encoding.
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Most developers won't need to worry about changing form encoding, but this is
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a useful feature for applications that talk to legacy systems whose encoding
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you cannot control.
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Django does not decode the data of file uploads, because that data is normally
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treated as collections of bytes, rather than strings. Any automatic decoding
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there would alter the meaning of the stream of bytes.
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