1 | <chapter id="chapter-pads" xreflabel="Pads and capabilities"> |
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2 | <title>Pads and capabilities</title> |
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3 | <para> |
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4 | As we have seen in <xref linkend="chapter-elements"/>, the pads are |
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5 | the element's interface to the outside world. Data streams from one |
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6 | element's source pad to another element's sink pad. The specific |
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7 | type of media that the element can handle will be exposed by the |
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8 | pad's capabilities. We will talk more on capabilities later in this |
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9 | chapter (see <xref linkend="section-caps"/>). |
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10 | </para> |
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11 | |
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12 | <sect1 id="section-pads"> |
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13 | <title>Pads</title> |
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14 | <para> |
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15 | A pad type is defined by two properties: its direction and its |
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16 | availability. As we've mentioned before, &GStreamer; defines two |
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17 | pad directions: source pads and sink pads. This terminology is |
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18 | defined from the view of within the element: elements receive data |
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19 | on their sink pads and generate data on their source pads. |
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20 | Schematically, sink pads are drawn on the left side of an element, |
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21 | whereas source pads are drawn on the right side of an element. In |
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22 | such graphs, data flows from left to right. |
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23 | <footnote> |
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24 | <para> |
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25 | In reality, there is no objection to data flowing from a |
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26 | source pad to the sink pad of an element upstream (to the |
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27 | left of this element in drawings). Data will, however, always |
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28 | flow from a source pad of one element to the sink pad of |
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29 | another. |
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30 | </para> |
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31 | </footnote> |
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32 | </para> |
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33 | |
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34 | <para> |
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35 | Pad directions are very simple compared to pad availability. A pad |
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36 | can have any of three availabilities: always, sometimes and on |
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37 | request. The meaning of those three types is exactly as it says: |
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38 | always pads always exist, sometimes pad exist only in certain |
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39 | cases (and can disappear randomly), and on-request pads appear |
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40 | only if explicitely requested by applications. |
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41 | </para> |
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42 | |
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43 | <sect2 id="section-pads-dynamic"> |
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44 | <title>Dynamic (or sometimes) pads</title> |
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45 | <para> |
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46 | Some elements might not have all of their pads when the element is |
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47 | created. This can happen, for example, with an Ogg demuxer element. |
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48 | The element will read the Ogg stream and create dynamic pads for |
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49 | each contained elementary stream (vorbis, theora) when it detects |
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50 | such a stream in the Ogg stream. Likewise, it will delete the pad |
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51 | when the stream ends. This principle is very useful for demuxer |
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52 | elements, for example. |
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53 | </para> |
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54 | <para> |
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55 | Running <application>gst-inspect oggdemux</application> will show |
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56 | that the element has only one pad: a sink pad called 'sink'. The |
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57 | other pads are <quote>dormant</quote>. You can see this in the pad |
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58 | template because there is an <quote>Exists: Sometimes</quote> |
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59 | property. Depending on the type of Ogg file you play, the pads will |
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60 | be created. We will see that this is very important when you are |
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61 | going to create dynamic pipelines. You can attach a signal handler |
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62 | to an element to inform you when the element has created a new pad |
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63 | from one of its <quote>sometimes</quote> pad templates. The |
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64 | following piece of code is an example of how to do this: |
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65 | </para> |
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66 | <programlisting><!-- example-begin pad.c a --> |
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67 | #include <gst/gst.h> |
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68 | |
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69 | static void |
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70 | cb_new_pad (GstElement *element, |
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71 | GstPad *pad, |
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72 | gpointer data) |
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73 | { |
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74 | g_print ("A new pad %s was created\n", gst_pad_get_name (pad)); |
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75 | |
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76 | /* here, you would setup a new pad link for the newly created pad */ |
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77 | <!-- example-end pad.c a -->[..] |
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78 | <!-- example-begin pad.c b --> |
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79 | } |
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80 | |
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81 | int |
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82 | main(int argc, char *argv[]) |
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83 | { |
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84 | GstElement *pipeline, *source, *demux; |
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85 | |
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86 | /* init */ |
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87 | gst_init (&argc, &argv); |
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88 | |
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89 | /* create elements */ |
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90 | pipeline = gst_pipeline_new ("my_pipeline"); |
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91 | source = gst_element_factory_make ("filesrc", "source"); |
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92 | g_object_set (source, "location", argv[1], NULL); |
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93 | demux = gst_element_factory_make ("oggdemux", "demuxer"); |
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94 | |
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95 | /* you would normally check that the elements were created properly */ |
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96 | |
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97 | /* put together a pipeline */ |
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98 | gst_bin_add_many (GST_BIN (pipeline), source, demux, NULL); |
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99 | gst_element_link (source, demux); |
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100 | |
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101 | /* listen for newly created pads */ |
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102 | g_signal_connect (demux, "new-pad", G_CALLBACK (cb_new_pad), NULL); |
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103 | |
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104 | /* start the pipeline */ |
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105 | gst_element_set_state (GST_ELEMENT (pipeline), GST_STATE_PLAYING); |
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106 | while (gst_bin_iterate (GST_BIN (pipeline))); |
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107 | <!--example-end pad.c b --> |
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108 | [..]<!-- example-begin pad.c c --><!-- |
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109 | return 0; |
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110 | --><!-- example-end pad.c c --> |
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111 | <!-- example-begin pad.c d --> |
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112 | } |
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113 | <!-- example-end pad.c d --></programlisting> |
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114 | </sect2> |
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115 | |
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116 | <sect2 id="section-pads-request"> |
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117 | <title>Request pads</title> |
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118 | <para> |
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119 | An element can also have request pads. These pads are not created |
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120 | automatically but are only created on demand. This is very useful |
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121 | for multiplexers, aggregators and tee elements. Aggregators are |
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122 | elements that merge the content of several input streams together |
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123 | into one output stream. Tee elements are the reverse: they are |
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124 | elements that have one input stream and copy this stream to each |
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125 | of their output pads, which are created on request. Whenever an |
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126 | application needs another copy of the stream, it can simply request |
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127 | a new output pad from the tee element. |
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128 | </para> |
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129 | <para> |
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130 | The following piece of code shows how you can request a new output |
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131 | pad from a <quote>tee</quote> element: |
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132 | </para> |
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133 | <programlisting> |
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134 | static void |
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135 | some_function (GstElement *tee) |
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136 | { |
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137 | GstPad * pad; |
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138 | |
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139 | pad = gst_element_get_request_pad (tee, "src%d"); |
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140 | g_print ("A new pad %s was created\n", gst_pad_get_name (pad)); |
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141 | |
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142 | /* here, you would link the pad */ |
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143 | [..] |
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144 | } |
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145 | </programlisting> |
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146 | <para> |
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147 | The <function>gst_element_get_request_pad ()</function> method |
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148 | can be used to get a pad from the element based on the name of |
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149 | the pad template. It is also possible to request a pad that is |
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150 | compatible with another pad template. This is very useful if |
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151 | you want to link an element to a multiplexer element and you |
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152 | need to request a pad that is compatible. The method |
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153 | <function>gst_element_get_compatible_pad ()</function> can be |
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154 | used to request a compatible pad, as shown in the next example. |
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155 | It will request a compatible pad from an Ogg multiplexer from |
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156 | any input. |
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157 | </para> |
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158 | <programlisting> |
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159 | static void |
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160 | link_to_multiplexer (GstPad *tolink_pad, |
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161 | GstElement *mux) |
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162 | { |
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163 | GstPad *pad; |
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164 | |
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165 | pad = gst_element_get_compatible_pad (mux, tolink_pad); |
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166 | gst_pad_link (tolinkpad, pad); |
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167 | |
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168 | g_print ("A new pad %s was created and linked to %s\n", |
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169 | gst_pad_get_name (pad), gst_pad_get_name (tolink_pad)); |
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170 | } |
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171 | </programlisting> |
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172 | </sect2> |
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173 | </sect1> |
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174 | |
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175 | <sect1 id="section-caps"> |
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176 | <title>Capabilities of a pad</title> |
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177 | <para> |
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178 | Since the pads play a very important role in how the element is |
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179 | viewed by the outside world, a mechanism is implemented to describe |
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180 | the data that can flow or currently flows through the pad by using |
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181 | capabilities. Here,w e will briefly describe what capabilities are |
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182 | and how to use them, enough to get an understanding of the concept. |
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183 | For an in-depth look into capabilities and a list of all capabilities |
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184 | defined in &GStreamer;, see the <ulink type="http" |
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185 | url="http://gstreamer.freedesktop.org/data/doc/gstreamer/head/pwg/html/index.html">Plugin |
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186 | Writers Guide</ulink>. |
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187 | </para> |
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188 | <para> |
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189 | Capabilities are attached to pad templates and to pads. For pad |
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190 | templates, it will describe the types of media that may stream |
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191 | over a pad created from this template. For pads, it can either |
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192 | be a list of possible caps (usually a copy of the pad template's |
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193 | capabilities), in which case the pad is not yet negotiated, or it |
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194 | is the type of media that currently streams over this pad, in |
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195 | which case the pad has been negotiated already. |
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196 | </para> |
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197 | |
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198 | <sect2 id="section-caps-structure"> |
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199 | <title>Dissecting capabilities</title> |
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200 | <para> |
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201 | A pads capabilities are described in a <classname>GstCaps</classname> |
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202 | object. Internally, a <ulink type="http" |
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203 | url="../../gstreamer/html/gstreamer-GstCaps.html"><classname>GstCaps</classname></ulink> |
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204 | will contain one or more <ulink type="http" |
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205 | url="../../gstreamer/html/gstreamer-GstStructure.html"><classname>GstStructure</classname></ulink> |
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206 | that will describe one media type. A negotiated pad will have |
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207 | capabilities set that contain exactly <emphasis>one</emphasis> |
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208 | structure. Also, this structure will contain only |
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209 | <emphasis>fixed</emphasis> values. These constraints are not |
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210 | true for unnegotiated pads or pad templates. |
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211 | </para> |
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212 | <para> |
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213 | As an example, below is a dump of the capabilities of the |
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214 | <quote>vorbisdec</quote> element, which you will get by running |
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215 | <command>gst-inspect vorbisdec</command>. You will see two pads: |
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216 | a source and a sink pad. Both of these pads are always available, |
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217 | and both have capabilities attached to them. The sink pad will |
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218 | accept vorbis-encoded audio data, with the mime-type |
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219 | <quote>audio/x-vorbis</quote>. The source pad will be used |
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220 | to send raw (decoded) audio samples to the next element, with |
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221 | a raw audio mime-type (either <quote>audio/x-raw-int</quote> or |
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222 | <quote>audio/x-raw-float</quote>). The source pad will also |
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223 | contain properties for the audio samplerate and the amount of |
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224 | channels, plus some more that you don't need to worry about |
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225 | for now. |
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226 | </para> |
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227 | <programlisting> |
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228 | Pad Templates: |
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229 | SRC template: 'src' |
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230 | Availability: Always |
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231 | Capabilities: |
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232 | audio/x-raw-float |
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233 | rate: [ 8000, 50000 ] |
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234 | channels: [ 1, 2 ] |
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235 | endianness: 1234 |
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236 | width: 32 |
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237 | buffer-frames: 0 |
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238 | |
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239 | SINK template: 'sink' |
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240 | Availability: Always |
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241 | Capabilities: |
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242 | audio/x-vorbis |
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243 | </programlisting> |
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244 | </sect2> |
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245 | |
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246 | <sect2 id="section-caps-props"> |
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247 | <title>Properties and values</title> |
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248 | <para> |
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249 | Properties are used to describe extra information for |
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250 | capabilities. A property consists of a key (a string) and |
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251 | a value. There are different possible value types that can be used: |
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252 | </para> |
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253 | <itemizedlist> |
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254 | <listitem> |
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255 | <para> |
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256 | Basic types, this can be pretty much any |
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257 | <classname>GType</classname> registered with Glib. Those |
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258 | properties indicate a specific, non-dynamic value for this |
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259 | property. Examples include: |
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260 | </para> |
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261 | <itemizedlist> |
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262 | <listitem> |
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263 | <para> |
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264 | An integer value (<classname>G_TYPE_INT</classname>): |
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265 | the property has this exact value. |
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266 | </para> |
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267 | </listitem> |
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268 | <listitem> |
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269 | <para> |
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270 | A boolean value (<classname>G_TYPE_BOOLEAN</classname>): |
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271 | the property is either TRUE or FALSE. |
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272 | </para> |
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273 | </listitem> |
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274 | <listitem> |
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275 | <para> |
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276 | A float value (<classname>G_TYPE_FLOAT</classname>): |
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277 | the property has this exact floating point value. |
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278 | </para> |
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279 | </listitem> |
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280 | <listitem> |
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281 | <para> |
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282 | A string value (<classname>G_TYPE_STRING</classname>): |
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283 | the property contains a UTF-8 string. |
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284 | </para> |
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285 | </listitem> |
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286 | </itemizedlist> |
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287 | </listitem> |
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288 | <listitem> |
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289 | <para> |
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290 | Range types are <classname>GType</classname>s registered by |
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291 | &GStreamer; to indicate a range of possible values. They are |
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292 | used for indicating allowed audio samplerate values or |
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293 | supported video sizes. The two types defined in &GStreamer; |
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294 | are: |
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295 | </para> |
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296 | <itemizedlist> |
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297 | <listitem> |
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298 | <para> |
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299 | An integer range value |
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300 | (<classname>GST_TYPE_INT_RANGE</classname>): the property |
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301 | denotes a range of possible integers, with a lower and an |
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302 | upper boundary. The <quote>vorbisdec</quote> element, for |
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303 | example, has a rate property that can be between 8000 and |
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304 | 50000. |
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305 | </para> |
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306 | </listitem> |
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307 | <listitem> |
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308 | <para> |
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309 | A float range value |
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310 | (<classname>GST_TYPE_FLOAT_RANGE</classname>): the property |
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311 | denotes a range of possible floating point values, with a |
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312 | lower and an upper boundary. |
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313 | </para> |
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314 | </listitem> |
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315 | </itemizedlist> |
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316 | </listitem> |
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317 | <listitem> |
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318 | <para> |
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319 | A list value (<classname>GST_TYPE_LIST</classname>): the |
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320 | property can take any value from a list of basic values |
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321 | given in this list. |
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322 | </para> |
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323 | </listitem> |
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324 | </itemizedlist> |
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325 | </sect2> |
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326 | </sect1> |
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327 | |
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328 | <sect1 id="section-caps-api"> |
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329 | <title>What capabilities are used for</title> |
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330 | <para> |
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331 | Capabilities describe the type of data that is streamed between |
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332 | two pads, or that one pad (template) supports. This makes them |
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333 | very useful for various purposes: |
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334 | </para> |
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335 | <itemizedlist> |
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336 | <listitem> |
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337 | <para> |
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338 | Autoplugging: automatically finding elements to link to a |
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339 | pad based on its capabilities. All autopluggers use this |
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340 | method. |
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341 | </para> |
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342 | </listitem> |
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343 | <listitem> |
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344 | <para> |
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345 | Compatibility detection: when two pads are linked, &GStreamer; |
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346 | can verify if the two pads are talking about the same media |
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347 | type. The process of linking two pads and checking if they |
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348 | are compatible is called <quote>caps negotiation</quote>. |
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349 | </para> |
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350 | </listitem> |
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351 | <listitem> |
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352 | <para> |
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353 | Metadata: by reading the capabilities from a pad, applications |
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354 | can provide information about the type of media that is being |
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355 | streamed over the pad, which is information about the stream |
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356 | thatis currently being played back. |
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357 | </para> |
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358 | </listitem> |
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359 | <listitem> |
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360 | <para> |
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361 | Filtering: an application can use capabilities to limit the |
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362 | possible media types that can stream between two pads to a |
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363 | specific subset of their supported stream types. An application |
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364 | can, for example, use <quote>filtered caps</quote> to set a |
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365 | specific (non-fixed) video size that will stream between two |
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366 | pads. |
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367 | </para> |
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368 | </listitem> |
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369 | </itemizedlist> |
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370 | |
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371 | <sect2 id="section-caps-metadata"> |
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372 | <title>Using capabilities for metadata</title> |
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373 | <para> |
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374 | A pad can have a set (i.e. one or more) of capabilities attached |
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375 | to it. You can get values of properties in a set of capabilities |
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376 | by querying individual properties of one structure. You can get |
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377 | a structure from a caps using |
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378 | <function>gst_caps_get_structure ()</function>: |
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379 | </para> |
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380 | <programlisting> |
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381 | static void |
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382 | read_video_props (GstCaps *caps) |
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383 | { |
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384 | gint width, height; |
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385 | const GstStructure *str; |
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386 | |
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387 | str = gst_caps_get_structure (caps); |
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388 | if (!gst_structure_get_int (str, "width", &width) || |
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389 | !gst_structure_get_int (str, "height", &height)) { |
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390 | g_print ("No width/height available\n"); |
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391 | return; |
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392 | } |
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393 | |
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394 | g_print ("The video size of this set of capabilities is %dx%d\n", |
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395 | width, height); |
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396 | } |
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397 | </programlisting> |
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398 | </sect2> |
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399 | |
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400 | <sect2 id="section-caps-filter"> |
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401 | <title>Creating capabilities for filtering</title> |
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402 | <para> |
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403 | While capabilities are mainly used inside a plugin to describe the |
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404 | media type of the pads, the application programmer also has to have |
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405 | basic understanding of capabilities in order to interface with the |
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406 | plugins, especially when using filtered caps. When you're using |
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407 | filtered caps or fixation, you're limiting the allowed types of |
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408 | media that can stream between two pads to a subset of their supported |
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409 | media types. You do this by filtering using your own set of |
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410 | capabilities. In order to do this, you need to create your own |
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411 | <classname>GstCaps</classname>. The simplest way to do this is by |
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412 | using the convenience function <function>gst_caps_new_simple |
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413 | ()</function>: |
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414 | </para> |
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415 | <programlisting> |
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416 | static void |
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417 | link_pads_with_filter (GstPad *one, |
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418 | GstPad *other) |
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419 | { |
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420 | GstCaps *caps; |
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421 | |
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422 | caps = gst_caps_new_simple ("video/x-raw-yuv", |
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423 | "width", G_TYPE_INT, 384, |
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424 | "height", G_TYPE_INT, 288, |
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425 | "framerate", G_TYPE_DOUBLE, 25., |
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426 | NULL); |
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427 | gst_pad_link_filtered (one, other, caps); |
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428 | } |
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429 | </programlisting> |
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430 | <para> |
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431 | In some cases, you will want to create a more elaborate set of |
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432 | capabilities to filter a link between two pads. Then, this function |
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433 | is too simplistic and you'll want to use the method |
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434 | <function>gst_caps_new_full ()</function>: |
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435 | </para> |
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436 | <programlisting> |
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437 | static void |
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438 | link_pads_with_filter (GstPad *one, |
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439 | GstPad *other) |
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440 | { |
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441 | GstCaps *caps; |
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442 | |
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443 | caps = gst_caps_new_full ( |
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444 | gst_structure_new ("video/x-raw-yuv", |
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445 | "width", G_TYPE_INT, 384, |
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446 | "height", G_TYPE_INT, 288, |
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447 | "framerate", G_TYPE_DOUBLE, 25., |
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448 | NULL), |
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449 | gst_structure_new ("video/x-raw-rgb", |
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450 | "width", G_TYPE_INT, 384, |
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451 | "height", G_TYPE_INT, 288, |
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452 | "framerate", G_TYPE_DOUBLE, 25., |
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453 | NULL), |
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454 | NULL); |
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455 | |
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456 | gst_pad_link_filtered (one, other, caps); |
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457 | } |
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458 | </programlisting> |
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459 | <para> |
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460 | See the API references for the full API of |
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461 | <classname>GstStructure</classname> and |
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462 | <classname>GstCaps</classname>. |
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463 | </para> |
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464 | </sect2> |
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465 | </sect1> |
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466 | |
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467 | <sect1 id="section-pads-ghost"> |
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468 | <title>Ghost pads</title> |
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469 | <para> |
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470 | You can see from <xref linkend="section-bin-noghost-img"/> how a bin |
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471 | has no pads of its own. This is where "ghost pads" come into play. |
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472 | </para> |
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473 | <figure float="1" id="section-bin-noghost-img"> |
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474 | <title>Visualisation of a <ulink type="http" |
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475 | url="../../gstreamer/html/GstBin.html"><classname>GstBin</classname></ulink> |
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476 | element without ghost pads</title> |
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477 | <mediaobject> |
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478 | <imageobject> |
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479 | <imagedata fileref="images/bin-element-noghost.ℑ" |
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480 | format="&IMAGE;"/> |
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481 | </imageobject> |
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482 | </mediaobject> |
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483 | </figure> |
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484 | <para> |
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485 | A ghost pad is a pad from some element in the bin that can be |
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486 | accessed directly from the bin as well. Compare it to a symbolic |
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487 | link in UNIX filesystems. Using ghost pads on bins, the bin also |
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488 | has a pad and can transparently be used as an element in other |
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489 | parts of your code. |
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490 | </para> |
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491 | |
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492 | <figure float="1" id="section-bin-ghost-img"> |
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493 | <title>Visualisation of a <ulink type="http" |
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494 | url="../../gstreamer/html/GstBin.html"><classname>GstBin</classname></ulink> |
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495 | element with a ghost pad</title> |
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496 | <mediaobject> |
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497 | <imageobject> |
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498 | <imagedata fileref="images/bin-element-ghost.ℑ" |
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499 | format="&IMAGE;"/> |
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500 | </imageobject> |
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501 | </mediaobject> |
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502 | </figure> |
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503 | <para> |
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504 | <xref linkend="section-bin-ghost-img"/> is a representation of a |
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505 | ghost pad. The sink pad of element one is now also a pad of the bin. |
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506 | Obviously, ghost pads can be added to any type of elements, not just |
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507 | to a <classname>GstBin</classname>. |
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508 | </para> |
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509 | <para> |
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510 | A ghostpad is created using the function |
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511 | <function>gst_element_add_ghost_pad ()</function>: |
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512 | </para> |
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513 | <programlisting><!-- example-begin ghostpad.c a --> |
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514 | #include <gst/gst.h> |
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515 | |
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516 | int |
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517 | main (int argc, |
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518 | char *argv[]) |
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519 | { |
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520 | GstElement *bin, *sink; |
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521 | |
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522 | /* init */ |
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523 | gst_init (&argc, &argv); |
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524 | |
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525 | /* create element, add to bin, add ghostpad */ |
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526 | sink = gst_element_factory_make ("fakesink", "sink"); |
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527 | bin = gst_bin_new ("mybin"); |
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528 | gst_bin_add (GST_BIN (bin), sink); |
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529 | gst_element_add_ghost_pad (bin, |
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530 | gst_element_get_pad (sink, "sink"), "sink"); |
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531 | <!-- example-end ghostpad.c a --> |
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532 | [..]<!-- example-begin ghostpad.c b --><!-- |
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533 | return 0; |
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534 | --><!-- example-end ghostpad.c b --> |
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535 | <!-- example-begin ghostpad.c c --> |
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536 | } |
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537 | <!-- example-end ghostpad.c c --></programlisting> |
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538 | <para> |
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539 | In the above example, the bin now also has a pad: the pad called |
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540 | <quote>sink</quote> of the given element. The bin can, from here |
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541 | on, be used as a substitute for the sink element. You could, for |
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542 | example, link another element to the bin. |
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543 | </para> |
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544 | </sect1> |
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545 | </chapter> |
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