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1
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2 Vamp
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3 ====
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4
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5 An API for audio analysis and feature extraction plugins.
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6
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7 http://www.vamp-plugins.org/
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8
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9 Vamp is an API for C and C++ plugins that process sampled audio data
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10 to produce descriptive output (measurements or semantic observations).
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11
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12 The principal differences between Vamp and a real-time audio
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13 processing plugin system such as VST are:
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14
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15 * Vamp plugins may output complex multidimensional data with labels.
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16 As a consequence, they are likely to work best when the output
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17 data has a much lower sampling rate than the input. (This also
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18 means it is usually desirable to implement them in C++ using the
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19 high-level base class provided rather than use the raw C API.)
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20
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21 * While Vamp plugins receive data block-by-block, they are not
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22 required to return output immediately on receiving the input.
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23 A Vamp plugin may be non-causal, preferring to store up data
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24 based on its input until the end of a processing run and then
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25 return all results at once.
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26
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27 * Vamp plugins have more control over their inputs than a typical
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28 real-time processing plugin. For example, they can indicate to
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29 the host their preferred processing block and step sizes, and these
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30 may differ.
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31
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32 * Vamp plugins may ask to receive data in the frequency domain
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33 instead of the time domain. The host takes the responsibility
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34 for converting the input data using an FFT of windowed frames.
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35 This simplifies plugins that do straightforward frequency-domain
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36 processing and permits the host to cache frequency-domain data
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37 when possible.
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38
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39 * A Vamp plugin is configured once before each processing run, and
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40 receives no further parameter changes during use -- unlike real-
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41 time plugin APIs in which the input parameters may change at any
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42 time. This also means that fundamental properties such as the
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43 number of values per output or the preferred processing block
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44 size may depend on the input parameters.
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45
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46 * Vamp plugins do not have to be able to run in real time.
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47
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48
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49 About this SDK
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50 ==============
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51
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52 This is version 1.1 of the Vamp plugin Software Development Kit.
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53 Plugins and hosts built with this SDK are binary compatible with those
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54 built using version 1.0 of the SDK.
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55
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56 This SDK contains the following:
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57
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58 * vamp/vamp.h
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59
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60 The formal C language plugin API for Vamp plugins.
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61
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62 A Vamp plugin is a dynamic library (.so, .dll or .dylib depending on
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63 platform) exposing one C-linkage entry point (vampGetPluginDescriptor)
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64 which returns data defined in the rest of this C header.
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65
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66 Although the C API is the official API for Vamp, we don't recommend
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67 that you program directly to it. The C++ abstraction found in the
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68 vamp-sdk directory (below) is preferable for most purposes and is
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69 more thoroughly documented.
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70
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71 * vamp-sdk
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72
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73 C++ classes for straightforwardly implementing Vamp plugins and hosts.
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74
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75 Plugins should subclass Vamp::Plugin and then use Vamp::PluginAdapter
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76 to expose the correct C API for the plugin. Plugin authors should
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77 read vamp-sdk/PluginBase.h and Plugin.h for code documentation, and
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78 refer to the example plugin code in the examples directory. Plugins
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79 should link with -lvamp-sdk.
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80
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81 Hosts may use the Vamp::PluginHostAdapter to convert the loaded
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82 plugin's C API back into a Vamp::Plugin object. Host authors should
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83 refer to the example host code in the host directory. Hosts should
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84 link with -lvamp-hostsdk.
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85
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86 * vamp-sdk/hostext
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87
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88 Additional C++ classes to make a host's life easier (introduced in
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89 version 1.1 of the Vamp SDK).
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90
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91 Vamp::HostExt::PluginLoader provides a very easy interface for a host
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92 to discover, load, and find out category information about the
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93 available plugins. Most "casual" Vamp hosts will probably want to use
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94 this class.
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95
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96 Vamp::HostExt::PluginInputDomainAdapter provides a means for hosts to
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97 handle plugins that expect frequency-domain input, without having to
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98 convert the input themselves.
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99
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100 Vamp::HostExt::PluginChannelAdapter provides a means for hosts to use
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101 plugins that do not necessarily support the same number of audio
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102 channels as they have available, without having to worry about
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103 applying a channel management / mixdown policy themselves.
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104
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105 The PluginLoader class can also use the input domain and channel
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106 adapters automatically to make the entire conversion process
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107 transparent to the host if required.
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108
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109 * examples
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110
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111 Example plugins implemented using the C++ classes. ZeroCrossing
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112 calculates the positions and density of zero-crossing points in an
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113 audio waveform. SpectralCentroid calculates the centre of gravity of
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114 the frequency domain representation of each block of audio.
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115 AmplitudeFollower tracks the amplitude of a signal based on a method
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116 from the SuperCollider real-time audio system.
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117 PercussionOnsetDetector estimates the locations of percussive onsets
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118 using a simple method described in "Drum Source Separation using
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119 Percussive Feature Detection and Spectral Modulation" by Dan Barry,
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120 Derry Fitzgerald, Eugene Coyle and Bob Lawlor, ISSC 2005.
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121
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122 * host
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123
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124 A simple command-line Vamp host, capable of loading a plugin and using
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125 it to process a complete audio file, with its default parameters.
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126 Requires libsndfile (http://www.mega-nerd.com/libsndfile/).
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127
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128 If you don't have libsndfile, you may want to edit the Makefile to
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129 change the default build target from "all" to "sdk", so as to compile
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130 only the SDK and not the host.
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131
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132
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133 Plugin Lookup and Categorisation
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134 ================================
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135
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136 The Vamp API does not officially specify how to load plugin libraries
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137 or where to find them. However, the SDK does include a function
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138 (Vamp::PluginHostAdapter::getPluginPath()) that returns a recommended
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139 directory search path that hosts may use for plugin libraries, and a
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140 class (Vamp::HostExt::PluginLoader) that implements a sensible
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141 cross-platform lookup policy using this path. We recommend using this
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142 class in your host unless you have a good reason not to want to. This
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143 implementation also permits the user to set the environment variable
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144 VAMP_PATH to override the default path if desired.
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145
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146 The policy used by Vamp::HostExt::PluginLoader -- and our
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147 recommendation for any host -- is to search each directory in the path
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148 returned by getPluginPath for .DLL (on Windows), .so (on Linux,
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149 Solaris, BSD etc) or .dylib (on OS/X) files, then to load each one and
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150 perform a dynamic name lookup on the vampGetPluginDescriptor function
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151 to enumerate the plugins in the library. This operation will
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152 necessarily be system-dependent.
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153
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154 Vamp also has an informal convention for sorting plugins into
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155 functional categories. In addition to the library file itself, a
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156 plugin library may install a category file with the same name as the
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157 library but .cat extension. The existence and format of this file are
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158 not specified by the Vamp API, but by convention the file may contain
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159 lines of the format
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160
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161 vamp:pluginlibrary:pluginname::General Category > Specific Category
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162
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163 which a host may read and use to assign plugins a location within a
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164 category tree for display to the user. The expectation is that
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165 advanced users may also choose to set up their own preferred category
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166 trees, which is why this information is not queried as part of the
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167 Vamp plugin's API itself. The Vamp::HostExt::PluginLoader class also
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168 provides support for plugin category lookup using this scheme.
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169
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170
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171 Building and Installing the SDK and Examples
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172 ============================================
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173
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174 To build the SDK, the simple host, and the example plugins, edit the
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175 Makefile to suit your platform according to the comments in it, then
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176 run "make".
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177
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178 Installing the example plugins so that they can be found by other Vamp
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179 hosts depends on your platform:
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180
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181 * Windows: copy the files
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182 examples/vamp-example-plugins.dll
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183 examples/vamp-example-plugins.cat
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184 to
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185 C:\Program Files\Vamp Plugins
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186
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187 * Linux: copy the files
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188 examples/vamp-example-plugins.so
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189 examples/vamp-example-plugins.cat
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190 to
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191 /usr/local/lib/vamp/
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192
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193 * OS/X: copy the files
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194 examples/vamp-example-plugins.dylib
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195 examples/vamp-example-plugins.cat
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196 to
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197 /Library/Audio/Plug-Ins/Vamp
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198
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199 When building a plugin or host of your own using the SDK, you will
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200 need to include the headers from the vamp-sdk directory; then when
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201 linking your plugin or host, we suggest statically linking the SDK
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202 code (in preference to distributing it alongside your program in DLL
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203 form). An easy way to do this, if using a project-based build tool
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204 such as Visual Studio or XCode, is simply to add the .cpp files in the
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205 vamp-sdk directory to your project.
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206
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207
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208 Licensing
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209 =========
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210
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211 This plugin SDK is freely redistributable under a "new-style BSD"
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212 licence. See the file COPYING for more details. In short, you may
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213 modify and redistribute the SDK and example plugins within any
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214 commercial or non-commercial, proprietary or open-source plugin or
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215 application under almost any conditions, with no obligation to provide
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216 source code, provided you retain the original copyright note.
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217
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218
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219 See Also
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220 ========
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221
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222 Sonic Visualiser, an interactive open-source graphical audio
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223 inspection, analysis and visualisation tool supporting Vamp plugins.
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224 http://www.sonicvisualiser.org/
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225
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226
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227 Authors
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228 =======
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229
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230 Vamp and the Vamp SDK were designed and made at the Centre for Digital
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231 Music at Queen Mary, University of London.
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232
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233 The SDK was written by Chris Cannam, copyright (c) 2005-2007
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234 Chris Cannam and QMUL.
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235
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236 Mark Sandler and Christian Landone provided ideas and direction, and
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237 Mark Levy, Dan Stowell, Martin Gasser and Craig Sapp provided testing
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238 and other input for the 1.0 API and SDK. The API also uses some ideas
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239 from prior plugin systems, notably DSSI (http://dssi.sourceforge.net)
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240 and FEAPI (http://feapi.sourceforge.net).
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241
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