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1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
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2
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3 /*
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4 Vamp
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5
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6 An API for audio analysis and feature extraction plugins.
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7
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8 Centre for Digital Music, Queen Mary, University of London.
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9 Copyright 2006 Chris Cannam.
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10
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11 Permission is hereby granted, free of charge, to any person
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12 obtaining a copy of this software and associated documentation
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13 files (the "Software"), to deal in the Software without
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14 restriction, including without limitation the rights to use, copy,
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15 modify, merge, publish, distribute, sublicense, and/or sell copies
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16 of the Software, and to permit persons to whom the Software is
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17 furnished to do so, subject to the following conditions:
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18
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19 The above copyright notice and this permission notice shall be
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20 included in all copies or substantial portions of the Software.
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21
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22 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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23 EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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24 MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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25 NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR
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26 ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF
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27 CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
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28 WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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29
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30 Except as contained in this notice, the names of the Centre for
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31 Digital Music; Queen Mary, University of London; and Chris Cannam
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32 shall not be used in advertising or otherwise to promote the sale,
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33 use or other dealings in this Software without prior written
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34 authorization.
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35 */
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36
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37 #ifndef _VAMP_PLUGIN_H_
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38 #define _VAMP_PLUGIN_H_
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39
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40 #include "PluginBase.h"
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41 #include "RealTime.h"
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42
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43 #include <string>
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44 #include <vector>
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45 #include <map>
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46
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47 namespace Vamp {
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48
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49 /**
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50 * \class Plugin Plugin.h <vamp-sdk/Plugin.h>
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51 *
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52 * Vamp::Plugin is a base class for plugin instance classes
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53 * that provide feature extraction from audio or related data.
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54 *
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55 * In most cases, the input will be audio and the output will be a
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56 * stream of derived data at a lower sampling resolution than the
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57 * input.
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58 *
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59 * Note that this class inherits several abstract methods from
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60 * PluginBase. These must be implemented by the subclass.
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61 *
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62 *
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63 * PLUGIN LIFECYCLE
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64 *
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65 * Feature extraction plugins are managed differently from real-time
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66 * plugins (such as VST effects). The main difference is that the
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67 * parameters for a feature extraction plugin are configured before
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68 * the plugin is used, and do not change during use.
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69 *
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70 * 1. Host constructs the plugin, passing it the input sample rate.
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71 * The plugin may do basic initialisation, but should not do anything
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72 * computationally expensive at this point. You must make sure your
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73 * plugin is cheap to construct, otherwise you'll seriously affect the
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74 * startup performance of almost all hosts. If you have serious
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75 * initialisation to do, the proper place is in initialise() (step 5).
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76 *
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77 * 2. Host may query the plugin's available outputs.
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78 *
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79 * 3. Host queries programs and parameter descriptors, and may set
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80 * some or all of them. Parameters that are not explicitly set should
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81 * take their default values as specified in the parameter descriptor.
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82 * When a program is set, the parameter values may change and the host
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83 * will re-query them to check.
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84 *
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85 * 4. Host queries the preferred step size, block size and number of
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86 * channels. These may all vary depending on the parameter values.
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87 * (Note however that you cannot make the number of distinct outputs
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88 * dependent on parameter values.)
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89 *
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90 * 5. Plugin is properly initialised with a call to initialise. This
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91 * fixes the step size, block size, and number of channels, as well as
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92 * all of the parameter and program settings. If the values passed in
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93 * to initialise do not match the plugin's advertised preferred values
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94 * from step 4, the plugin may refuse to initialise and return false
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95 * (although if possible it should accept the new values). Any
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96 * computationally expensive setup code should take place here.
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97 *
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98 * 6. Host finally checks the number of values, resolution, extents
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99 * etc per output (which may vary depending on the number of channels,
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100 * step size and block size as well as the parameter values).
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101 *
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102 * 7. Host will repeatedly call the process method to pass in blocks
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103 * of input data. This method may return features extracted from that
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104 * data (if the plugin is causal).
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105 *
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106 * 8. Host will call getRemainingFeatures exactly once, after all the
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107 * input data has been processed. This may return any non-causal or
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108 * leftover features.
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109 *
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110 * 9. At any point after initialise was called, the host may
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111 * optionally call the reset method and restart processing. (This
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112 * does not mean it can change the parameters, which are fixed from
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113 * initialise until destruction.)
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114 *
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115 * A plugin does not need to handle the case where setParameter or
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116 * selectProgram is called after initialise has been called. It's the
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117 * host's responsibility not to do that. Similarly, the plugin may
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118 * safely assume that initialise is called no more than once.
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119 */
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120
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121 class Plugin : public PluginBase
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122 {
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123 public:
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124 virtual ~Plugin() { }
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125
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126 /**
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127 * Initialise a plugin to prepare it for use with the given number
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128 * of input channels, step size (window increment, in sample
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129 * frames) and block size (window size, in sample frames).
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130 *
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131 * The input sample rate should have been already specified at
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132 * construction time.
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133 *
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134 * Return true for successful initialisation, false if the number
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135 * of input channels, step size and/or block size cannot be
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136 * supported.
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137 */
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138 virtual bool initialise(size_t inputChannels,
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139 size_t stepSize,
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140 size_t blockSize) = 0;
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141
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142 /**
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143 * Reset the plugin after use, to prepare it for another clean
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144 * run. Not called for the first initialisation (i.e. initialise
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145 * must also do a reset).
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146 */
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147 virtual void reset() = 0;
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148
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149 enum InputDomain { TimeDomain, FrequencyDomain };
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150
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151 /**
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152 * Get the plugin's required input domain. If this is TimeDomain,
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153 * the samples provided to the process() function (below) will be
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154 * in the time domain, as for a traditional audio processing
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155 * plugin. If this is FrequencyDomain, the host will carry out a
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156 * windowed FFT of size equal to the negotiated block size on the
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157 * data before passing the frequency bin data in to process().
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158 * The plugin does not get to choose the window type -- the host
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159 * will either let the user do so, or will use a Hanning window.
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160 */
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161 virtual InputDomain getInputDomain() const = 0;
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162
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163 /**
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164 * Get the preferred block size (window size -- the number of
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165 * sample frames passed in each block to the process() function).
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166 * This should be called before initialise().
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167 *
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168 * A plugin that can handle any block size may return 0. The
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169 * final block size will be set in the initialise() call.
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170 */
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171 virtual size_t getPreferredBlockSize() const { return 0; }
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172
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173 /**
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174 * Get the preferred step size (window increment -- the distance
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175 * in sample frames between the start frames of consecutive blocks
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176 * passed to the process() function) for the plugin. This should
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177 * be called before initialise().
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178 *
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179 * A plugin may return 0 if it has no particular interest in the
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180 * step size. In this case, the host should make the step size
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181 * equal to the block size if the plugin is accepting input in the
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182 * time domain. If the plugin is accepting input in the frequency
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183 * domain, the host may use any step size. The final step size
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184 * will be set in the initialise() call.
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185 */
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186 virtual size_t getPreferredStepSize() const { return 0; }
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187
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188 /**
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189 * Get the minimum supported number of input channels.
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190 */
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191 virtual size_t getMinChannelCount() const { return 1; }
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192
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193 /**
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194 * Get the maximum supported number of input channels.
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195 */
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196 virtual size_t getMaxChannelCount() const { return 1; }
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197
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198 struct OutputDescriptor
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199 {
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200 /**
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201 * The name of the output, in computer-usable form. Should be
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202 * reasonably short and without whitespace or punctuation, using
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203 * the characters [a-zA-Z0-9_-] only.
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204 * Example: "zero_crossing_count"
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205 */
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206 std::string identifier;
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207
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208 /**
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209 * The human-readable name of the output.
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210 * Example: "Zero Crossing Counts"
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211 */
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212 std::string name;
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213
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214 /**
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215 * A human-readable short text describing the output. May be
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216 * empty if the name has said it all already.
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217 * Example: "The number of zero crossing points per processing block"
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218 */
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219 std::string description;
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220
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221 /**
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222 * The unit of the output, in human-readable form.
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223 */
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224 std::string unit;
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225
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226 /**
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227 * True if the output has the same number of values per sample
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228 * for every output sample. Outputs for which this is false
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229 * are unlikely to be very useful in a general-purpose host.
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230 */
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231 bool hasFixedBinCount;
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232
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233 /**
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234 * The number of values per result of the output. Undefined
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235 * if hasFixedBinCount is false. If this is zero, the output
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236 * is point data (i.e. only the time of each output is of
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237 * interest, the value list will be empty).
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238 */
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239 size_t binCount;
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240
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241 /**
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242 * The (human-readable) names of each of the bins, if
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243 * appropriate. This is always optional.
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244 */
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245 std::vector<std::string> binNames;
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246
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247 /**
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248 * True if the results in each output bin fall within a fixed
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249 * numeric range (minimum and maximum values). Undefined if
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250 * binCount is zero.
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251 */
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252 bool hasKnownExtents;
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253
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254 /**
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255 * Minimum value of the results in the output. Undefined if
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256 * hasKnownExtents is false or binCount is zero.
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257 */
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258 float minValue;
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259
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260 /**
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261 * Maximum value of the results in the output. Undefined if
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262 * hasKnownExtents is false or binCount is zero.
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263 */
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264 float maxValue;
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265
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266 /**
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267 * True if the output values are quantized to a particular
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268 * resolution. Undefined if binCount is zero.
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269 */
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270 bool isQuantized;
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271
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272 /**
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273 * Quantization resolution of the output values (e.g. 1.0 if
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274 * they are all integers). Undefined if isQuantized is false
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275 * or binCount is zero.
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276 */
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277 float quantizeStep;
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278
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279 enum SampleType {
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280
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281 /// Results from each process() align with that call's block start
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282 OneSamplePerStep,
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283
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284 /// Results are evenly spaced in time (sampleRate specified below)
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285 FixedSampleRate,
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286
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287 /// Results are unevenly spaced and have individual timestamps
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288 VariableSampleRate
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289 };
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290
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291 /**
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292 * Positioning in time of the output results.
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293 */
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294 SampleType sampleType;
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295
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296 /**
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297 * Sample rate of the output results, as samples per second.
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298 * Undefined if sampleType is OneSamplePerStep.
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299 *
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300 * If sampleType is VariableSampleRate and this value is
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301 * non-zero, then it may be used to calculate a resolution for
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302 * the output (i.e. the "duration" of each sample, in time,
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303 * will be 1/sampleRate seconds). It's recommended to set
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304 * this to zero if that behaviour is not desired.
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305 */
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306 float sampleRate;
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307 };
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308
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309 typedef std::vector<OutputDescriptor> OutputList;
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310
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311 /**
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312 * Get the outputs of this plugin. An output's index in this list
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313 * is used as its numeric index when looking it up in the
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314 * FeatureSet returned from the process() call.
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315 */
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316 virtual OutputList getOutputDescriptors() const = 0;
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317
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318 struct Feature
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319 {
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320 /**
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321 * True if an output feature has its own timestamp. This is
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322 * mandatory if the output has VariableSampleRate, and is
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323 * likely to be disregarded otherwise.
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324 */
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325 bool hasTimestamp;
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326
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327 /**
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328 * Timestamp of the output feature. This is mandatory if the
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329 * output has VariableSampleRate, and is likely to be
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330 * disregarded otherwise. Undefined if hasTimestamp is false.
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331 */
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332 RealTime timestamp;
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333
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334 /**
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335 * Results for a single sample of this feature. If the output
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336 * hasFixedBinCount, there must be the same number of values
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337 * as the output's binCount count.
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338 */
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339 std::vector<float> values;
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340
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341 /**
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342 * Label for the sample of this feature.
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343 */
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344 std::string label;
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345 };
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346
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347 typedef std::vector<Feature> FeatureList;
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348 typedef std::map<int, FeatureList> FeatureSet; // key is output no
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349
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350 /**
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351 * Process a single block of input data.
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352 *
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353 * If the plugin's inputDomain is TimeDomain, inputBuffers will
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354 * point to one array of floats per input channel, and each of
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cannam@3
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355 * these arrays will contain blockSize consecutive audio samples
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356 * (the host will zero-pad as necessary). The timestamp will be
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357 * the real time in seconds of the start of the supplied block of
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358 * samples.
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359 *
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360 * If the plugin's inputDomain is FrequencyDomain, inputBuffers
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361 * will point to one array of floats per input channel, and each
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362 * of these arrays will contain blockSize/2+1 consecutive pairs of
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363 * real and imaginary component floats corresponding to bins
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364 * 0..(blockSize/2) of the FFT output. That is, bin 0 (the first
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365 * pair of floats) contains the DC output, up to bin blockSize/2
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366 * which contains the Nyquist-frequency output. There will
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cannam@78
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367 * therefore be blockSize+2 floats per channel in total. The
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368 * timestamp will be the real time in seconds of the centre of the
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369 * FFT input window (i.e. the very first block passed to process
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370 * might contain the FFT of half a block of zero samples and the
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371 * first half-block of the actual data, with a timestamp of zero).
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372 *
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373 * Return any features that have become available after this
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cannam@3
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374 * process call. (These do not necessarily have to fall within
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375 * the process block, except for OneSamplePerStep outputs.)
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376 */
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377 virtual FeatureSet process(const float *const *inputBuffers,
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cannam@3
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378 RealTime timestamp) = 0;
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379
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380 /**
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381 * After all blocks have been processed, calculate and return any
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382 * remaining features derived from the complete input.
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383 */
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384 virtual FeatureSet getRemainingFeatures() = 0;
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385
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386 /**
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cannam@53
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387 * Used to distinguish between Vamp::Plugin and other potential
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cannam@64
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388 * sibling subclasses of PluginBase. Do not reimplement this
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cannam@53
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389 * function in your subclass.
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cannam@53
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390 */
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cannam@3
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391 virtual std::string getType() const { return "Feature Extraction Plugin"; }
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cannam@3
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392
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cannam@3
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393 protected:
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cannam@3
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394 Plugin(float inputSampleRate) :
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cannam@3
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395 m_inputSampleRate(inputSampleRate) { }
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cannam@3
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396
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cannam@3
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397 float m_inputSampleRate;
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cannam@3
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398 };
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cannam@3
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399
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cannam@3
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400 }
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cannam@3
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401
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cannam@3
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402 #endif
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cannam@3
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403
|
cannam@3
|
404
|
cannam@3
|
405
|