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2 /** \mainpage Vamp Plugin SDK
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3
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4 \section about About Vamp
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5
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6 Vamp is an API for C and C++ plugins that process sampled audio data
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7 to produce descriptive output (measurements or semantic observations).
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8 Find more information at http://www.vamp-plugins.org/ .
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9
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10 Although the official API for Vamp plugins is defined in C for maximum
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11 binary compatibility, we strongly recommend using the provided C++
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12 classes in the SDK to implement your own plugins and hosts.
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13
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14 \section plugins For Plugins
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15
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16 Plugins should subclass Vamp::Plugin, and then use a
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17 Vamp::PluginAdapter to expose the correct C API for the plugin. Read
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18 the documentation for Vamp::PluginBase and Vamp::Plugin before
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19 starting.
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20
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21 Plugins should be compiled and linked into dynamic libraries using the
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22 usual convention for your platform, and should link (preferably
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23 statically) with -lvamp-sdk. Any number of plugins can reside in a
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24 single dynamic library. See plugins.cpp in the example plugins
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25 directory for the sort of code that will need to accompany your plugin
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26 class or classes, to make it possible for a host to look up your
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27 plugins properly.
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28
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29 Please read the relevant README file for your platform found in the
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30 Vamp SDK build/ directory, for details about how to ensure the
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31 resulting dynamic library exports the correct linker symbols.
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32
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33 The following example plugins are provided. You may legally reuse any
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34 amount of the code from these examples in any plugins you write,
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35 whether proprietary or open-source.
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36
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37 - ZeroCrossing calculates the positions and density of zero-crossing
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38 points in an audio waveform.
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39
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40 - SpectralCentroid calculates the centre of gravity of the frequency
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41 domain representation of each block of audio.
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42
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43 - PowerSpectrum calculates a power spectrum from the input audio.
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44 Actually, it doesn't do any work except calculating power from a
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45 cartesian complex FFT output. The work of calculating this frequency
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46 domain output is done for it by the host or host SDK; the plugin just
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47 needs to declare that it wants frequency domain input. This is the
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48 simplest of the example plugins.
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49
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50 - AmplitudeFollower is a simple implementation of SuperCollider's
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51 amplitude-follower algorithm.
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52
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53 - PercussionOnsetDetector estimates the locations of percussive
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54 onsets using a simple method described in "Drum Source Separation
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55 using Percussive Feature Detection and Spectral Modulation" by Dan
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56 Barry, Derry Fitzgerald, Eugene Coyle and Bob Lawlor, ISSC 2005.
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57
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58 - FixedTempoEstimator calculates a single beats-per-minute value
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59 which is an estimate of the tempo of a piece of music that is assumed
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60 to be of fixed tempo, using autocorrelation of a frequency domain
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61 energy rise metric. It has several outputs that return intermediate
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62 results used in the calculation, and may be a useful example of a
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63 plugin having several outputs with varying feature structures.
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64
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65 Plugin authors should also read the Programmer's Guide at
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66 http://vamp-plugins.org/guide.pdf .
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67
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68 \section hosts For Hosts
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69
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70 Hosts will normally use a Vamp::PluginHostAdapter to convert each
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71 plugin's exposed C API back into a useful Vamp::Plugin C++ object.
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72
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73 The Vamp::HostExt namespace contains several additional C++ classes to
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74 do this work for them, and make the host's life easier:
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75
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76 - Vamp::HostExt::PluginLoader provides a very easy interface for a
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77 host to discover, load, and find out category information about the
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78 available plugins. Most Vamp hosts will probably want to use this
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79 class.
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80
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81 - Vamp::HostExt::PluginInputDomainAdapter provides a simple means for
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82 hosts to handle plugins that want frequency-domain input, without
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83 having to convert the input themselves.
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84
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85 - Vamp::HostExt::PluginChannelAdapter provides a simple means for
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86 hosts to use plugins that do not necessarily support the same number
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87 of audio channels as they have available, without having to apply a
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88 channel management / mixdown policy themselves.
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89
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90 - Vamp::HostExt::PluginBufferingAdapter provides a means for hosts to
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91 avoid having to negotiate the input step and block size, instead
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92 permitting the host to use any block size they desire (and a step
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93 size equal to it). This is particularly useful for "streaming" hosts
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94 that cannot seek backwards in the input audio stream and so would
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95 otherwise need to implement an additional buffer to support step
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96 sizes smaller than the block size.
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97
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98 - Vamp::HostExt::PluginSummarisingAdapter provides summarisation
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99 methods such as mean and median averages of output features, for use
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100 in any context where an available plugin produces individual values
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101 but the result that is actually needed is some sort of aggregate.
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102
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103 The PluginLoader class can also use the input domain, channel, and
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104 buffering adapters automatically to make these conversions transparent
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105 to the host if required.
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106
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107 Host authors should also refer to the example host code in the host
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108 directory of the SDK.
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109
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110 Hosts should link with -lvamp-hostsdk.
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111
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112 (The following notes in this section are mostly relevant for
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113 developers that are not using the HostExt classes, or that wish to
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114 know more about the policy they implement.)
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115
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116 The Vamp API does not officially specify how to load plugin libraries
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117 or where to find them. However, the SDK does include a function
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118 (Vamp::PluginHostAdapter::getPluginPath()) that returns a recommended
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119 directory search path that hosts may use for plugin libraries, and a
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120 class (Vamp::HostExt::PluginLoader) that implements a sensible
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121 cross-platform lookup policy using this path. We recommend using this
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122 class in your host unless you have a good reason not to want to. This
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123 implementation also permits the user to set the environment variable
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124 VAMP_PATH to override the default path if desired.
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125
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126 The policy used by Vamp::HostExt::PluginLoader -- and our
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127 recommendation for any host -- is to search each directory in this
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128 path for .DLL (on Windows), .so (on Linux, Solaris, BSD etc) or .dylib
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129 (on OS/X) files, then to load each one and perform a dynamic name
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130 lookup on the vampGetPluginDescriptor function to enumerate the
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131 plugins in the library. The example host has some code that may help,
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132 but this operation will necessarily be system-dependent.
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133
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134 Vamp also has an informal convention for sorting plugins into
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135 functional categories. In addition to the library file itself, a
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136 plugin library may install a category file with the same name as the
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137 library but .cat extension. The existence and format of this file are
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138 not specified by the Vamp API, but by convention the file may contain
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139 lines of the format
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140
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141 \code
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142 vamp:pluginlibrary:pluginname::General Category > Specific Category
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143 \endcode
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144
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145 which a host may read and use to assign plugins a location within a
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146 category tree for display to the user. The expectation is that
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147 advanced users may also choose to set up their own preferred category
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148 trees, which is why this information is not queried as part of the
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149 Vamp plugin's API itself. The Vamp::HostExt::PluginLoader class also
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150 provides support for plugin category lookup using this scheme.
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151
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152 \section license License
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153
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154 This plugin SDK is freely redistributable under a "new-style BSD"
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155 licence. See the file COPYING for more details. In short, you may
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156 modify and redistribute the SDK and example plugins within any
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157 commercial or non-commercial, proprietary or open-source plugin or
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158 application under almost any conditions, with no obligation to provide
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159 source code, provided you retain the original copyright note.
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160
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161
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162 */
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