Metadata-Version: 1.0
Name: loxun
Version: 0.6
Summary: large output in XML using unicode and namespaces
Home-page: http://pypi.python.org/pypi/loxun/
Author: Thomas Aglassinger
Author-email: roskakori@users.sourceforge.net
License: GNU Lesser General Public License 3 or later
Description: 
        loxun is a Python module to write large output in XML using Unicode and
        namespaces. Of course you can also use it for small XML output with plain 8
        bit strings and no namespaces.
        
        loxun's features are:
        
        * **small memory foot print**: the document is created on the fly by writing to
        an output stream, no need to keep all of it in memory.
        
        * **easy to use namespaces**: simply add a namespace and refer to it using the
        standard ``namespace:tag`` syntax.
        
        * **mix unicode and string**: pass both unicode or plain 8 bit strings to any
        of the methods. Internally loxun converts them to unicode, so once a
        parameter got accepted by the API you can rely on it not causing any
        messy ``UnicodeError`` trouble.
        
        * **automatic escaping**: no need to manually handle special characters such
        as ``<`` or ``&`` when writing text and attribute values.
        
        * **robustness**: while you write the document, sanity checks are performed on
        everything you do. Many silly mistakes immediately result in an
        ``XmlError``, for example missing end elements or references to undeclared
        namespaces.
        
        * **open source**: distributed under the GNU Lesser General Public License 3
        or later.
        
        Here is a very basic example. First you have to create an output stream. In
        many cases this would be a file, but for the sake of simplicity we use a
        ``StringIO`` here:
        
        >>> from StringIO import StringIO
        >>> out = StringIO()
        
        Then you can create an `XmlWriter` to write to this output:
        
        >>> xml = XmlWriter(out)
        
        Now write the content:
        
        >>> xml.addNamespace("xhtml", "http://www.w3.org/1999/xhtml")
        >>> xml.startTag("xhtml:html")
        >>> xml.startTag("xhtml:body")
        >>> xml.text("Hello world!")
        >>> xml.tag("xhtml:img", {"src": "smile.png", "alt": ":-)"})
        >>> xml.endTag()
        >>> xml.endTag()
        >>> xml.close()
        
        And the result is:
        
        >>> print out.getvalue().rstrip("\r\n")
        <?xml version="1.0" encoding="utf-8"?>
        <xhtml:html xmlns:xhtml="http://www.w3.org/1999/xhtml">
        <xhtml:body>
        Hello world!
        <xhtml:img alt=":-)" src="smile.png" />
        </xhtml:body>
        </xhtml:html>
        
        Writing a simple document
        =========================
        
        The following example creates a very simple XHTML document.
        
        To make it simple, the output goes to a string, but you could also use
        a file that has been created using
        ``codecs.open(filename, "wb", encoding)``.
        
        >>> from StringIO import StringIO
        >>> out = StringIO()
        
        First create an `XmlWriter` to write the XML code to the specified output:
        
        >>> xml = XmlWriter(out)
        
        This automatically adds the XML prolog:
        
        >>> print out.getvalue().rstrip("\r\n")
        <?xml version="1.0" encoding="utf-8"?>
        
        Next add the ``<html>`` start tag:
        
        >>> xml.startTag("html")
        
        Now comes the <body>. To pass attributes, specify them in a dictionary.
        So in order to add::
        
        <body id="top">
        
        use:
        
        >>> xml.startTag("body", {"id": "top"})
        
        Let' add a little text so there is something to look at:
        
        >>> xml.text("Hello world!")
        
        Wrap it up: close all elements and the document.
        
        >>> xml.endTag()
        >>> xml.endTag()
        >>> xml.close()
        
        And this is what we get:
        
        >>> print out.getvalue().rstrip("\r\n")
        <?xml version="1.0" encoding="utf-8"?>
        <html>
        <body id="top">
        Hello world!
        </body>
        </html>
        
        Using namespaces
        ================
        
        Now the same thing but with a namespace. First create the prolog
        and header like above:
        
        >>> out = StringIO()
        >>> xml = XmlWriter(out)
        
        Next add the namespace:
        
        >>> xml.addNamespace("xhtml", "http://www.w3.org/1999/xhtml")
        
        Now elements can use qualified tag names using a colon (:) to separate
        namespace and tag name:
        
        >>> xml.startTag("xhtml:html")
        >>> xml.startTag("xhtml:body")
        >>> xml.text("Hello world!")
        >>> xml.endTag()
        >>> xml.endTag()
        >>> xml.close()
        
        As a result, tag names are now prefixed with "xhtml:":
        
        >>> print out.getvalue().rstrip("\r\n")
        <?xml version="1.0" encoding="utf-8"?>
        <xhtml:html xmlns:xhtml="http://www.w3.org/1999/xhtml">
        <xhtml:body>
        Hello world!
        </xhtml:body>
        </xhtml:html>
        
        Working with non ASCII characters
        =================================
        
        Sometimes you want to use characters outside the ASCII range, for example
        German Umlauts, the Euro symbol or Japanese Kanji. The easiest and performance
        wise best way is to use Unicode strings. For example:
        
        >>> from StringIO import StringIO
        >>> out = StringIO()
        >>> xml = XmlWriter(out, prolog=False)
        >>> xml.text(u"The price is \u20ac 100") # Unicode of Euro symbol
        >>> out.getvalue().rstrip("\r\n")
        'The price is \xe2\x82\xac 100'
        
        Notice the "u" before the string passed to `XmlWriter.text()`, it declares the
        string to be a unicode string that can hold any character, even those that are
        beyond the 8 bit range.
        
        Also notice that in the output the Euro symbol looks very different from the
        input. This is because the output encoding is UTF-8 (the default), which
        has the advantage of keeping all ASCII characters the same and turning any
        characters with a code of 128 or more into a sequence of 8 bit bytes that
        can easily fit into an output stream to a binary file or ``StringIO``.
        
        If you have to stick to classic 8 bit string parameters, loxun attempts to
        convert them to unicode. By default it assumes ASCII encoding, which does
        not work out as soon as you use a character outside the ASCII range:
        
        >>> from StringIO import StringIO
        >>> out = StringIO()
        >>> xml = XmlWriter(out, prolog=False)
        >>> xml.text("The price is \xa4 100") # ISO-8859-15 code of Euro symbol
        Traceback (most recent call last):
        ...
        UnicodeDecodeError: 'ascii' codec can't decode byte 0xa4 in position 13: ordinal not in range(128)
        
        In this case you have to tell the writer the encoding you use by specifying
        the the ``sourceEncoding``:
        
        >>> from StringIO import StringIO
        >>> out = StringIO()
        >>> xml = XmlWriter(out, prolog=False, sourceEncoding="iso-8859-15")
        
        Now everything works out again:
        
        >>> xml.text("The price is \xa4 100") # ISO-8859-15 code of Euro symbol
        >>> out.getvalue().rstrip("\r\n")
        'The price is \xe2\x82\xac 100'
        
        Of course in practice you will not mess around with hex codes to pass your
        texts. Instead you just specify the source encoding using the mechanisms
        described in PEP 263,
        `Defining Python Source Code Encodings <http://www.python.org/dev/peps/pep-0263/>`_:
        
        Changing the XML prolog
        =======================
        
        When you create a writer, it automatically write an XML prolog
        processing instruction to the output. This is what the default prolog
        looks like:
        
        >>> from StringIO import StringIO
        >>> out = StringIO()
        >>> xml = XmlWriter(out)
        >>> print out.getvalue().rstrip("\r\n")
        <?xml version="1.0" encoding="utf-8"?>
        
        You can change the version or encoding:
        
        >>> out = StringIO()
        >>> xml = XmlWriter(out, encoding=u"ascii", version=u"1.1")
        >>> print out.getvalue().rstrip("\r\n")
        <?xml version="1.1" encoding="ascii"?>
        
        To completely omit the prolog, set the parameter ``prolog=False``:
        
        >>> out = StringIO()
        >>> xml = XmlWriter(out, prolog=False)
        >>> out.getvalue()
        ''
        
        Adding other content
        ====================
        
        Apart from text and tags, XML provides a few more things you can add to
        documents. Here's an example that shows how to do it with loxun.
        
        First, create a writer:
        
        >>> from StringIO import StringIO
        >>> out = StringIO()
        >>> xml = XmlWriter(out)
        
        Let's add a document type definition:
        
        >>> xml.raw("<!DOCTYPE html PUBLIC \"-//W3C//DTD XHTML 1.0 Strict//EN\" SYSTEM \"http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd\">")
        >>> xml.newline()
        
        Notice that loxun uses the generic `XmlWriter.raw()` for that, which allows to
        add any content without validation or escaping. You can do all sorts of nasty
        things with ``raw()`` that will result in invalid XML, but this is one of its
        reasonable uses.
        
        Next, let's add a comment:
        
        >>> xml.comment("Show case some rarely used XML constructs")
        
        Here is a processing instruction:
        
        >>> xml.processingInstruction("xml-stylesheet", "href=\"default.css\" type=\"text/css\"")
        
        And finally a CDATA section:
        
        >>> xml.cdata(">> this will not be parsed <<")
        
        And the result is:
        
        >>> print out.getvalue().rstrip("\r\n")
        <?xml version="1.0" encoding="utf-8"?>
        <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN" SYSTEM "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
        <!-- Show case some rarely used XML constructs -->
        <?xml-stylesheet href="default.css" type="text/css"?>
        <![CDATA[>> this will not be parsed <<]]>
        
        
        Version history
        ===============
        
        
        Version 0.6, 03-Jun-2010
        ------------------------
        
        * Added option ``indent`` to specify the indentation text each new line starts with.
        * Added option ``newline`` to specify how lines written should end.
        * Fixed that `XmlWriter.tag()` did not remove namespaces declared immediately
        before it.
        * Cleaned up documentation.
        
        Version 0.5, 25-May-2010
        ------------------------
        
        * Fixed typo in namespace attribute name.
        * Fixed adding of namespaces before calls to `XmlWriter.tag()` which resulted
        in an `XmlError`.
        
        Version 0.4, 21-May-2010
        ------------------------
        
        * Added option ``sourceEncoding`` to simplify processing of classic strings.
        The manual section "Working with non ASCII characters" explains how to use
        it.
        
        Version 0.3, 17-May-2010
        ------------------------
        
        * Added scoped namespaces which are removed automatically by
        `XmlWriter.endTag()`.
        * Changed ``text()`` to normalize newlines and white space if pretty printing
        is enabled.
        * Moved writing of XML prolog to the constructor and removed
        ``XmlWriter.prolog()``. To omit the prolog, specify ``prolog=False`` when
        creating the `XmlWriter`. If you later want to write the prolog yourself,
        use `XmlWriter.processingInstruction()`.
        * Renamed ``*Element()`` to ``*Tag`` because they really only write tags, not
        whole elements.
        
        Version 0.2, 16-May-2010
        ------------------------
        
        * Added `XmlWriter.comment()`, `XmlWriter.cdata()` and
        `XmlWriter.processingInstruction()` to write these specific XML constructs.
        * Added indentation and automatic newline to text if pretty printing is
        enabled.
        * Removed newline from prolog in case pretty printing is disabled.
        * Fixed missing "?" in prolog.
        
        Version 0.1, 15-May-2010
        ------------------------
        
        * Initial release.
        
Keywords: xml output stream large big huge namespace unicode memory footprint
Platform: UNKNOWN
Classifier: Development Status :: 3 - Alpha
Classifier: Environment :: Plugins
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: GNU Library or Lesser General Public License (LGPL)
Classifier: Natural Language :: English
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: Python :: 2.5
Classifier: Programming Language :: Python :: 2.6
Classifier: Topic :: Internet :: WWW/HTTP :: Dynamic Content
Classifier: Topic :: Software Development :: Libraries
Classifier: Topic :: Text Processing :: Markup :: XML
