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1 .. -*- mode: rst; encoding: utf-8 -*-
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2
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3 ==============
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4 Markup Streams
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5 ==============
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6
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7 A stream is the common representation of markup as a *stream of events*.
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8
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9
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10 .. contents:: Contents
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11 :depth: 2
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12 .. sectnum::
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13
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14
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15 Basics
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16 ======
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17
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18 A stream can be attained in a number of ways. It can be:
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19
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20 * the result of parsing XML or HTML text, or
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21 * programmatically generated, or
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22 * the result of selecting a subset of another stream filtered by an XPath
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23 expression.
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24
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25 For example, the functions ``XML()`` and ``HTML()`` can be used to convert
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26 literal XML or HTML text to a markup stream::
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27
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28 >>> from genshi import XML
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29 >>> stream = XML('<p class="intro">Some text and '
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30 ... '<a href="http://example.org/">a link</a>.'
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31 ... '<br/></p>')
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32 >>> stream
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33 <genshi.core.Stream object at 0x6bef0>
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34
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35 The stream is the result of parsing the text into events. Each event is a tuple
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36 of the form ``(kind, data, pos)``, where:
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37
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38 * ``kind`` defines what kind of event it is (such as the start of an element,
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39 text, a comment, etc).
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40 * ``data`` is the actual data associated with the event. How this looks depends
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41 on the event kind.
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42 * ``pos`` is a ``(filename, lineno, column)`` tuple that describes where the
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43 event “comes from”.
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44
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45 ::
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46
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47 >>> for kind, data, pos in stream:
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48 ... print kind, `data`, pos
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49 ...
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50 START (u'p', [(u'class', u'intro')]) ('<string>', 1, 0)
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51 TEXT u'Some text and ' ('<string>', 1, 31)
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52 START (u'a', [(u'href', u'http://example.org/')]) ('<string>', 1, 31)
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53 TEXT u'a link' ('<string>', 1, 67)
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54 END u'a' ('<string>', 1, 67)
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55 TEXT u'.' ('<string>', 1, 72)
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56 START (u'br', []) ('<string>', 1, 72)
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57 END u'br' ('<string>', 1, 77)
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58 END u'p' ('<string>', 1, 77)
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59
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60
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61 Filtering
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62 =========
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63
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64 One important feature of markup streams is that you can apply *filters* to the
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65 stream, either filters that come with Genshi, or your own custom filters.
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66
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67 A filter is simply a callable that accepts the stream as parameter, and returns
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68 the filtered stream::
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69
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70 def noop(stream):
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71 """A filter that doesn't actually do anything with the stream."""
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72 for kind, data, pos in stream:
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73 yield kind, data, pos
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74
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75 Filters can be applied in a number of ways. The simplest is to just call the
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76 filter directly::
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77
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78 stream = noop(stream)
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79
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80 The ``Stream`` class also provides a ``filter()`` method, which takes an
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81 arbitrary number of filter callables and applies them all::
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82
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83 stream = stream.filter(noop)
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84
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85 Finally, filters can also be applied using the *bitwise or* operator (``|``),
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86 which allows a syntax similar to pipes on Unix shells::
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87
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88 stream = stream | noop
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89
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90 One example of a filter included with Genshi is the ``HTMLSanitizer`` in
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91 ``genshi.filters``. It processes a stream of HTML markup, and strips out any
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92 potentially dangerous constructs, such as Javascript event handlers.
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93 ``HTMLSanitizer`` is not a function, but rather a class that implements
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94 ``__call__``, which means instances of the class are callable.
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95
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96 Both the ``filter()`` method and the pipe operator allow easy chaining of
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97 filters::
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98
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99 from genshi.filters import HTMLSanitizer
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100 stream = stream.filter(noop, HTMLSanitizer())
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101
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102 That is equivalent to::
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103
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104 stream = stream | noop | HTMLSanitizer()
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105
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106
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107 Serialization
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108 =============
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109
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110 The ``Stream`` class provides two methods for serializing this list of events:
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111 ``serialize()`` and ``render()``. The former is a generator that yields chunks
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112 of ``Markup`` objects (which are basically unicode strings that are considered
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113 safe for output on the web). The latter returns a single string, by default
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114 UTF-8 encoded.
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115
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116 Here's the output from ``serialize()``::
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117
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118 >>> for output in stream.serialize():
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119 ... print `output`
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120 ...
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121 <Markup u'<p class="intro">'>
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122 <Markup u'Some text and '>
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123 <Markup u'<a href="http://example.org/">'>
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124 <Markup u'a link'>
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125 <Markup u'</a>'>
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126 <Markup u'.'>
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127 <Markup u'<br/>'>
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128 <Markup u'</p>'>
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129
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130 And here's the output from ``render()``::
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131
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132 >>> print stream.render()
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133 <p class="intro">Some text and <a href="http://example.org/">a link</a>.<br/></p>
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134
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135 Both methods can be passed a ``method`` parameter that determines how exactly
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136 the events are serialzed to text. This parameter can be either “xml” (the
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137 default), “xhtml”, “html”, “text”, or a custom serializer class::
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138
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139 >>> print stream.render('html')
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140 <p class="intro">Some text and <a href="http://example.org/">a link</a>.<br></p>
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141
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142 Note how the `<br>` element isn't closed, which is the right thing to do for
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143 HTML.
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144
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145 In addition, the ``render()`` method takes an ``encoding`` parameter, which
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146 defaults to “UTF-8”. If set to ``None``, the result will be a unicode string.
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147
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148 The different serializer classes in ``genshi.output`` can also be used
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149 directly::
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150
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151 >>> from genshi.filters import HTMLSanitizer
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152 >>> from genshi.output import TextSerializer
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153 >>> print TextSerializer()(HTMLSanitizer()(stream))
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154 Some text and a link.
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155
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156 The pipe operator allows a nicer syntax::
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157
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158 >>> print stream | HTMLSanitizer() | TextSerializer()
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159 Some text and a link.
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160
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161 Using XPath
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162 ===========
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163
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164 XPath can be used to extract a specific subset of the stream via the
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165 ``select()`` method::
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166
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167 >>> substream = stream.select('a')
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168 >>> substream
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169 <genshi.core.Stream object at 0x7118b0>
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170 >>> print substream
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171 <a href="http://example.org/">a link</a>
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172
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173 Often, streams cannot be reused: in the above example, the sub-stream is based
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174 on a generator. Once it has been serialized, it will have been fully consumed,
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175 and cannot be rendered again. To work around this, you can wrap such a stream
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176 in a ``list``::
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177
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178 >>> from genshi import Stream
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179 >>> substream = Stream(list(stream.select('a')))
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180 >>> substream
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181 <genshi.core.Stream object at 0x7118b0>
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182 >>> print substream
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183 <a href="http://example.org/">a link</a>
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184 >>> print substream.select('@href')
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185 http://example.org/
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186 >>> print substream.select('text()')
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187 a link
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