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annotate src/Modules/SAI/ModuleSAI.cc @ 35:b893a04a845e

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-More fixes
author tomwalters
date Fri, 26 Feb 2010 07:16:34 +0000
parents 491b1b1d1dc5
children c5f5e9569863
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tomwalters@0 1 // Copyright 2006-2010, Thomas Walters
tomwalters@0 2 //
tomwalters@0 3 // AIM-C: A C++ implementation of the Auditory Image Model
tomwalters@0 4 // http://www.acousticscale.org/AIMC
tomwalters@0 5 //
tomwalters@0 6 // This program is free software: you can redistribute it and/or modify
tomwalters@0 7 // it under the terms of the GNU General Public License as published by
tomwalters@0 8 // the Free Software Foundation, either version 3 of the License, or
tomwalters@0 9 // (at your option) any later version.
tomwalters@0 10 //
tomwalters@0 11 // This program is distributed in the hope that it will be useful,
tomwalters@0 12 // but WITHOUT ANY WARRANTY; without even the implied warranty of
tomwalters@0 13 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
tomwalters@0 14 // GNU General Public License for more details.
tomwalters@0 15 //
tomwalters@0 16 // You should have received a copy of the GNU General Public License
tomwalters@0 17 // along with this program. If not, see <http://www.gnu.org/licenses/>.
tomwalters@0 18
tomwalters@0 19 /*! \file
tomwalters@0 20 * \brief SAI module
tomwalters@0 21 */
tomwalters@0 22
tomwalters@0 23 /*
tomwalters@0 24 * \author Thomas Walters <tom@acousticscale.org>
tomwalters@0 25 * \date created 2007/08/29
tomwalters@23 26 * \version \$Id$
tomwalters@0 27 */
tomwalters@15 28 #include <cmath>
tomwalters@0 29
tomwalters@0 30 #include "Modules/SAI/ModuleSAI.h"
tomwalters@0 31
tomwalters@5 32 namespace aimc {
tomwalters@0 33 ModuleSAI::ModuleSAI(Parameters *parameters) : Module(parameters) {
tomwalters@5 34 module_identifier_ = "weighted_sai";
tomwalters@5 35 module_type_ = "sai";
tomwalters@0 36 module_description_ = "Stabilised auditory image";
tomwalters@23 37 module_version_ = "$Id$";
tomwalters@0 38
tomwalters@0 39 min_delay_ms_ = parameters_->DefaultFloat("sai.min_delay_ms", 0.0f);
tomwalters@0 40 max_delay_ms_ = parameters_->DefaultFloat("sai.max_delay_ms", 35.0f);
tomwalters@0 41 strobe_weight_alpha_ = parameters_->DefaultFloat("sai.strobe_weight_alpha",
tomwalters@0 42 0.5f);
tomwalters@0 43 buffer_memory_decay_ = parameters_->DefaultFloat("sai.buffer_memory_decay",
tomwalters@0 44 0.03f);
tomwalters@0 45 frame_period_ms_ = parameters_->DefaultFloat("sai.frame_period_ms", 20.0f);
tomwalters@0 46
tomwalters@5 47 max_concurrent_strobes_
tomwalters@5 48 = parameters_->DefaultInt("sai.max_concurrent_strobes", 50);
tomwalters@5 49
tomwalters@5 50 min_strobe_delay_idx_ = 0;
tomwalters@5 51 max_strobe_delay_idx_ = 0;
tomwalters@0 52 sai_decay_factor_ = 0.0f;
tomwalters@5 53 fire_counter_ = 0;
tomwalters@0 54 }
tomwalters@0 55
tomwalters@0 56 bool ModuleSAI::InitializeInternal(const SignalBank &input) {
tomwalters@0 57 // The SAI output bank must be as long as the SAI's Maximum delay.
tomwalters@0 58 // One sample is added to the SAI buffer length to account for the
tomwalters@0 59 // zero-lag point
tomwalters@6 60 int sai_buffer_length = 1 + floor(input.sample_rate() * max_delay_ms_
tomwalters@6 61 / 1000.0f);
tomwalters@5 62 channel_count_ = input.channel_count();
tomwalters@0 63
tomwalters@0 64 // Make an output SignalBank with the same number of channels and centre
tomwalters@0 65 // frequencies as the input, but with a different buffer length
tomwalters@0 66 if (!output_.Initialize(input.channel_count(),
tomwalters@0 67 sai_buffer_length,
tomwalters@5 68 input.sample_rate())) {
tomwalters@0 69 LOG_ERROR("Failed to create output buffer in SAI module");
tomwalters@0 70 return false;
tomwalters@0 71 }
tomwalters@8 72 for (int i = 0; i < input.channel_count(); ++i) {
tomwalters@5 73 output_.set_centre_frequency(i, input.centre_frequency(i));
tomwalters@0 74 }
tomwalters@0 75
tomwalters@0 76 // sai_temp_ will be initialized to zero
tomwalters@0 77 if (!sai_temp_.Initialize(output_)) {
tomwalters@0 78 LOG_ERROR("Failed to create temporary buffer in SAI module");
tomwalters@0 79 return false;
tomwalters@0 80 }
tomwalters@0 81
tomwalters@5 82 frame_period_samples_ = floor(input.sample_rate() * frame_period_ms_
tomwalters@5 83 / 1000.0f);
tomwalters@5 84 min_strobe_delay_idx_ = floor(input.sample_rate() * min_delay_ms_
tomwalters@5 85 / 1000.0f);
tomwalters@5 86 max_strobe_delay_idx_ = floor(input.sample_rate() * max_delay_ms_
tomwalters@5 87 / 1000.0f);
tomwalters@0 88
tomwalters@0 89 // Make sure we don't go past the output buffer's upper bound
tomwalters@5 90 if (max_strobe_delay_idx_ > output_.buffer_length()) {
tomwalters@0 91 max_strobe_delay_idx_ = output_.buffer_length();
tomwalters@5 92 }
tomwalters@0 93
tomwalters@0 94 // Define decay factor from time since last sample (see ti2003)
tomwalters@0 95 sai_decay_factor_ = pow(0.5f, 1.0f / (buffer_memory_decay_
tomwalters@0 96 * input.sample_rate()));
tomwalters@0 97
tomwalters@0 98 // Precompute strobe weights
tomwalters@0 99 strobe_weights_.resize(max_concurrent_strobes_);
tomwalters@0 100 for (int n = 0; n < max_concurrent_strobes_; ++n) {
tomwalters@5 101 strobe_weights_[n] = pow(1.0f / (n + 1), strobe_weight_alpha_);
tomwalters@0 102 }
tomwalters@0 103
tomwalters@5 104 ResetInternal();
tomwalters@0 105
tomwalters@0 106 return true;
tomwalters@0 107 }
tomwalters@0 108
tomwalters@3 109 void ModuleSAI::ResetInternal() {
tomwalters@5 110 // Active Strobes
tomwalters@5 111 active_strobes_.clear();
tomwalters@5 112 active_strobes_.resize(channel_count_);
tomwalters@5 113 fire_counter_ = frame_period_samples_ - 1;
tomwalters@0 114 }
tomwalters@0 115
tomwalters@0 116 void ModuleSAI::Process(const SignalBank &input) {
tomwalters@0 117 // Reset the next strobe times
tomwalters@0 118 next_strobes_.clear();
tomwalters@0 119 next_strobes_.resize(output_.channel_count(), 0);
tomwalters@0 120
tomwalters@0 121 // Offset the times on the strobes from the previous buffer
tomwalters@5 122 for (int ch = 0; ch < input.channel_count(); ++ch) {
tomwalters@5 123 active_strobes_[ch].ShiftStrobes(input.buffer_length());
tomwalters@0 124 }
tomwalters@0 125
tomwalters@0 126 // Loop over samples to make the SAI
tomwalters@5 127 for (int i = 0; i < input.buffer_length(); ++i) {
tomwalters@0 128 float decay_factor = pow(sai_decay_factor_, fire_counter_);
tomwalters@0 129 // Loop over channels
tomwalters@5 130 for (int ch = 0; ch < input.channel_count(); ++ch) {
tomwalters@0 131 // Local convenience variables
tomwalters@5 132 StrobeList &active_strobes = active_strobes_[ch];
tomwalters@5 133 int next_strobe_index = next_strobes_[ch];
tomwalters@0 134
tomwalters@5 135 // Update strobes
tomwalters@0 136 // If we are up to or beyond the next strobe...
tomwalters@5 137 if (next_strobe_index < input.strobe_count(ch)) {
tomwalters@5 138 if (i == input.strobe(ch, next_strobe_index)) {
tomwalters@5 139 // A new strobe has arrived.
tomwalters@5 140 // If there are too many strobes active, then get rid of the
tomwalters@5 141 // earliest one
tomwalters@5 142 if (active_strobes.strobe_count() >= max_concurrent_strobes_) {
tomwalters@5 143 active_strobes.DeleteFirstStrobe();
tomwalters@0 144 }
tomwalters@0 145
tomwalters@5 146 // Add the active strobe to the list of current strobes and
tomwalters@5 147 // calculate the strobe weight
tomwalters@5 148 float weight = 1.0f;
tomwalters@5 149 if (active_strobes.strobe_count() > 0) {
tomwalters@5 150 int last_strobe_time = active_strobes.Strobe(
tomwalters@5 151 active_strobes.strobe_count() - 1).time;
tomwalters@5 152
tomwalters@5 153 // If the strobe occured within 10 impulse-response
tomwalters@5 154 // cycles of the previous strobe, then lower its weight
tomwalters@5 155 weight = (i - last_strobe_time) / input.sample_rate()
tomwalters@5 156 * input.centre_frequency(ch) / 10.0f;
tomwalters@5 157 if (weight > 1.0f)
tomwalters@5 158 weight = 1.0f;
tomwalters@5 159 }
tomwalters@5 160 active_strobes.AddStrobe(i, weight);
tomwalters@5 161 next_strobe_index++;
tomwalters@5 162
tomwalters@5 163
tomwalters@5 164 // Update the strobe weights
tomwalters@0 165 float total_strobe_weight = 0.0f;
tomwalters@5 166 for (int si = 0; si < active_strobes.strobe_count(); ++si) {
tomwalters@5 167 total_strobe_weight += (active_strobes.Strobe(si).weight
tomwalters@5 168 * strobe_weights_[active_strobes.strobe_count() - si - 1]);
tomwalters@0 169 }
tomwalters@5 170 for (int si = 0; si < active_strobes.strobe_count(); ++si) {
tomwalters@5 171 active_strobes.SetWorkingWeight(si,
tomwalters@5 172 (active_strobes.Strobe(si).weight
tomwalters@5 173 * strobe_weights_[active_strobes.strobe_count() - si - 1])
tomwalters@5 174 / total_strobe_weight);
tomwalters@0 175 }
tomwalters@0 176 }
tomwalters@0 177 }
tomwalters@0 178
tomwalters@5 179 // Remove inactive strobes
tomwalters@5 180 while (active_strobes.strobe_count() > 0) {
tomwalters@5 181 // Get the relative time of the first strobe, and see if it exceeds
tomwalters@5 182 // the maximum allowed time.
tomwalters@5 183 if ((i - active_strobes.Strobe(0).time) > max_strobe_delay_idx_)
tomwalters@5 184 active_strobes.DeleteFirstStrobe();
tomwalters@0 185 else
tomwalters@0 186 break;
tomwalters@0 187 }
tomwalters@0 188
tomwalters@5 189 // Update the SAI buffer with the weighted effect of all the active
tomwalters@5 190 // strobes at the current sample
tomwalters@5 191 for (int si = 0; si < active_strobes.strobe_count(); ++si) {
tomwalters@5 192 // Add the effect of active strobe at correct place in the SAI buffer
tomwalters@5 193 // Calculate 'delay', the time from the strobe event to now
tomwalters@5 194 int delay = i - active_strobes.Strobe(si).time;
tomwalters@0 195
tomwalters@0 196 // If the delay is greater than the (user-set)
tomwalters@0 197 // minimum strobe delay, the strobe can be used
tomwalters@5 198 if (delay >= min_strobe_delay_idx_ && delay < max_strobe_delay_idx_) {
tomwalters@0 199 // The value at be added to the SAI
tomwalters@5 200 float sig = input.sample(ch, i);
tomwalters@0 201
tomwalters@0 202 // Weight the sample correctly
tomwalters@5 203 sig *= active_strobes.Strobe(si).working_weight;
tomwalters@0 204
tomwalters@0 205 // Adjust the weight acording to the number of samples until the
tomwalters@0 206 // next output frame
tomwalters@5 207 sig *= decay_factor;
tomwalters@0 208
tomwalters@0 209 // Update the temporary SAI buffer
tomwalters@5 210 output_.set_sample(ch, delay, output_.sample(ch, delay) + sig);
tomwalters@0 211 }
tomwalters@0 212 }
tomwalters@0 213
tomwalters@5 214 next_strobes_[ch] = next_strobe_index;
tomwalters@8 215 } // End loop over channels
tomwalters@0 216
tomwalters@5 217 fire_counter_--;
tomwalters@0 218
tomwalters@5 219 // Check to see if we need to output an SAI frame on this sample
tomwalters@5 220 if (fire_counter_ <= 0) {
tomwalters@0 221 // Decay the SAI by the correct amount and add the current output frame
tomwalters@5 222 float decay = pow(sai_decay_factor_, frame_period_samples_);
tomwalters@0 223
tomwalters@5 224 for (int ch = 0; ch < input.channel_count(); ++ch) {
tomwalters@0 225 for (int i = 0; i < output_.buffer_length(); ++i) {
tomwalters@5 226 output_.set_sample(ch, i,
tomwalters@5 227 sai_temp_[ch][i] + output_[ch][i] * decay);
tomwalters@0 228 }
tomwalters@0 229 }
tomwalters@0 230
tomwalters@0 231 // Zero the temporary signal
tomwalters@0 232 for (int ch = 0; ch < sai_temp_.channel_count(); ++ch) {
tomwalters@0 233 for (int i = 0; i < sai_temp_.buffer_length(); ++i) {
tomwalters@0 234 sai_temp_.set_sample(ch, i, 0.0f);
tomwalters@0 235 }
tomwalters@0 236 }
tomwalters@0 237
tomwalters@5 238 fire_counter_ = frame_period_samples_ - 1;
tomwalters@0 239
tomwalters@5 240 // Transfer the current time to the output buffer
tomwalters@5 241 output_.set_start_time(input.start_time() + i);
tomwalters@0 242 PushOutput();
tomwalters@0 243 }
tomwalters@8 244 } // End loop over samples
tomwalters@0 245 }
tomwalters@0 246
tomwalters@0 247 ModuleSAI::~ModuleSAI() {
tomwalters@0 248 }
tomwalters@5 249 } // namespace aimc