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annotate devuvuzelator-vst.cpp @ 3:8b79175c9f02

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* fix off-by-one error
author Chris Cannam
date Fri, 11 Jun 2010 11:45:41 +0100
parents e621e794011f
children d90abfa9585a
rev   line source
Chris@0 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@0 2
Chris@2 3 #define _USE_MATH_DEFINES
Chris@2 4
Chris@0 5 #include <iostream>
Chris@0 6 #include <cmath>
Chris@2 7 #include <cstdio>
Chris@2 8 #include <malloc.h>
Chris@0 9
Chris@2 10 #include "public.sdk/source/vst2.x/audioeffect.h"
Chris@2 11
Chris@2 12 #define snprintf _snprintf
Chris@2 13 #define alloca _alloca
Chris@0 14
Chris@0 15 #define FFTSIZE 1024
Chris@0 16
Chris@0 17 class Devuvuzelator : public AudioEffect
Chris@0 18 {
Chris@0 19 enum {
Chris@0 20 LowParam = 0,
Chris@0 21 HighParam = 1,
Chris@0 22 FundamentalParam = 2,
Chris@0 23 BandwidthParam = 3,
Chris@0 24 HarmonicsParam = 4,
Chris@0 25 ReductionParam = 5,
Chris@0 26 NumParams = 6
Chris@0 27 };
Chris@0 28
Chris@0 29 public:
Chris@0 30 Devuvuzelator(audioMasterCallback cb);
Chris@0 31 ~Devuvuzelator();
Chris@0 32
Chris@0 33 virtual void getEffectName(char *n) {
Chris@0 34 vst_strncpy(n, "Devuvuzelator", kVstMaxEffectNameLen);
Chris@0 35 }
Chris@0 36 virtual void getProductString(char *n) {
Chris@0 37 vst_strncpy(n, "Devuvuzelator", kVstMaxProductStrLen);
Chris@0 38 }
Chris@0 39 virtual void getVendorString(char *n) {
Chris@0 40 vst_strncpy(n, "Queen Mary, University of London", kVstMaxVendorStrLen);
Chris@0 41 }
Chris@0 42
Chris@0 43 virtual void setParameter(VstInt32 index, float value);
Chris@0 44 virtual float getParameter(VstInt32 index);
Chris@0 45 virtual void getParameterLabel(VstInt32 index, char* label);
Chris@0 46 virtual void getParameterDisplay(VstInt32 index, char* text);
Chris@0 47 virtual void getParameterName(VstInt32 index, char* text);
Chris@0 48
Chris@0 49 virtual void setSampleRate (float sampleRate) {
Chris@0 50 m_sampleRate = sampleRate;
Chris@0 51 AudioEffect::setSampleRate(sampleRate);
Chris@0 52 }
Chris@0 53
Chris@0 54 virtual void processReplacing (float** inputs, float** outputs, VstInt32 sampleFrames) {
Chris@0 55 m_input = inputs[0];
Chris@0 56 m_output = outputs[0];
Chris@0 57 runImpl(sampleFrames);
Chris@0 58 }
Chris@0 59
Chris@0 60 void reset();
Chris@0 61 void window(float *);
Chris@0 62 void runImpl(unsigned long);
Chris@0 63 void processFrame();
Chris@0 64 void processSpectralFrame();
Chris@0 65
Chris@0 66 static void fft(unsigned int n, bool inverse,
Chris@0 67 double *ri, double *ii, double *ro, double *io);
Chris@0 68
Chris@2 69 float m_sampleRate;
Chris@0 70 float *m_input;
Chris@0 71 float *m_output;
Chris@0 72
Chris@1 73 float m_low;
Chris@0 74 float m_high;
Chris@0 75 float m_fundamental;
Chris@0 76 float m_bandwidth;
Chris@2 77 int m_harmonics;
Chris@0 78 float m_reduction;
Chris@0 79
Chris@0 80 const int m_fftsize;
Chris@0 81 const int m_increment;
Chris@0 82 int m_fill;
Chris@0 83 int m_read;
Chris@0 84 float *m_buffer;
Chris@0 85 float *m_outacc;
Chris@0 86 double *m_real;
Chris@0 87 double *m_imag;
Chris@0 88 double *m_window;
Chris@0 89 };
Chris@0 90
Chris@1 91 // VST params 0->1
Chris@1 92
Chris@0 93 void
Chris@0 94 Devuvuzelator::setParameter(VstInt32 index, float value)
Chris@0 95 {
Chris@1 96 switch (index) {
Chris@1 97 case 0: m_low = -80 + 80 * value; break;
Chris@1 98 case 1: m_high = -80 + 80 * value; break;
Chris@1 99 case 2: m_fundamental = 110 + 440 * value; break;
Chris@1 100 case 3: m_bandwidth = 20 + 80 * value; break;
Chris@1 101 case 4: m_harmonics = int(value * 6 + 0.5); break;
Chris@1 102 case 5: m_reduction = 20 * value; break;
Chris@1 103 }
Chris@0 104 }
Chris@0 105
Chris@0 106 float
Chris@0 107 Devuvuzelator::getParameter(VstInt32 index)
Chris@0 108 {
Chris@1 109 switch (index) {
Chris@1 110 case 0: return (m_low + 80) / 80;
Chris@1 111 case 1: return (m_high + 80) / 80;
Chris@1 112 case 2: return (m_fundamental - 110) / 440;
Chris@1 113 case 3: return (m_bandwidth - 20) / 80;
Chris@2 114 case 4: return (m_harmonics / 6.f);
Chris@1 115 case 5: return m_reduction / 20;
Chris@1 116 }
Chris@2 117 return 0;
Chris@0 118 }
Chris@0 119
Chris@0 120 // NB! The max name length for VST parameter names, labels
Chris@0 121 // (i.e. units) and display values (i.e. string renderings of current
Chris@0 122 // value) is a rather amazing 8 bytes
Chris@0 123
Chris@0 124 void
Chris@0 125 Devuvuzelator::getParameterLabel(VstInt32 index, char *label)
Chris@0 126 {
Chris@0 127 const char *units[NumParams] = {
Chris@0 128 "dB",
Chris@0 129 "dB",
Chris@0 130 "Hz",
Chris@0 131 "Hz",
Chris@0 132 "",
Chris@0 133 "dB",
Chris@0 134 };
Chris@0 135
Chris@0 136 vst_strncpy(label, units[index], kVstMaxParamStrLen);
Chris@0 137 }
Chris@0 138
Chris@0 139 void
Chris@0 140 Devuvuzelator::getParameterDisplay(VstInt32 index, char *label)
Chris@0 141 {
Chris@2 142 switch (index) {
Chris@2 143 case 0: snprintf(label, kVstMaxParamStrLen, "%f", m_low); break;
Chris@2 144 case 1: snprintf(label, kVstMaxParamStrLen, "%f", m_high); break;
Chris@2 145 case 2: snprintf(label, kVstMaxParamStrLen, "%f", m_fundamental); break;
Chris@2 146 case 3: snprintf(label, kVstMaxParamStrLen, "%f", m_bandwidth); break;
Chris@2 147 case 4: snprintf(label, kVstMaxParamStrLen, "%d", m_harmonics); break;
Chris@2 148 case 5: snprintf(label, kVstMaxParamStrLen, "%f", m_reduction); break;
Chris@2 149 }
Chris@0 150 }
Chris@0 151
Chris@0 152 void
Chris@0 153 Devuvuzelator::getParameterName(VstInt32 index, char *label)
Chris@0 154 {
Chris@0 155 const char *names[NumParams] = {
Chris@0 156 "Floor",
Chris@0 157 "Ceiling",
Chris@0 158 "Pitch",
Chris@0 159 "B/W",
Chris@0 160 "Partials",
Chris@0 161 "Reductn",
Chris@0 162 };
Chris@0 163
Chris@0 164 vst_strncpy(label, names[index], kVstMaxParamStrLen);
Chris@0 165 }
Chris@0 166
Chris@0 167 Devuvuzelator::Devuvuzelator(audioMasterCallback cb) :
Chris@0 168 AudioEffect(cb, 0, NumParams),
Chris@0 169 m_sampleRate(0),
Chris@0 170 m_input(0),
Chris@0 171 m_output(0),
Chris@0 172 m_low(0),
Chris@0 173 m_high(0),
Chris@0 174 m_fftsize(FFTSIZE),
Chris@0 175 m_increment(m_fftsize/4),
Chris@0 176 m_fill(0),
Chris@0 177 m_read(0)
Chris@0 178 {
Chris@0 179 m_buffer = new float[m_fftsize];
Chris@0 180 m_outacc = new float[m_fftsize * 2];
Chris@0 181 m_real = new double[m_fftsize];
Chris@0 182 m_imag = new double[m_fftsize];
Chris@0 183 m_window = new double[m_fftsize];
Chris@0 184
Chris@0 185 for (int i = 0; i < m_fftsize; ++i) {
Chris@0 186 m_window[i] = 0.5 - 0.5 * cos(2 * M_PI * i / m_fftsize);
Chris@0 187 }
Chris@0 188
Chris@0 189 m_low = -40;
Chris@0 190 m_high = -20;
Chris@0 191 m_fundamental = 220;
Chris@0 192 m_bandwidth = 60;
Chris@0 193 m_harmonics = 3;
Chris@0 194 m_reduction = 10;
Chris@0 195
Chris@2 196 setUniqueID('qmvz');
Chris@0 197 setNumInputs(1);
Chris@0 198 setNumOutputs(1);
Chris@0 199 canProcessReplacing(true);
Chris@0 200 canDoubleReplacing(false);
Chris@0 201
Chris@0 202 reset();
Chris@0 203 }
Chris@0 204
Chris@0 205 Devuvuzelator::~Devuvuzelator()
Chris@0 206 {
Chris@0 207 delete[] m_buffer;
Chris@0 208 delete[] m_outacc;
Chris@0 209 delete[] m_real;
Chris@0 210 delete[] m_imag;
Chris@0 211 delete[] m_window;
Chris@0 212 }
Chris@0 213
Chris@0 214 void
Chris@0 215 Devuvuzelator::reset()
Chris@0 216 {
Chris@0 217 for (int i = 0; i < m_fftsize; ++i) {
Chris@0 218 m_buffer[i] = 0.f;
Chris@0 219 }
Chris@0 220 for (int i = 0; i < m_fftsize*2; ++i) {
Chris@0 221 m_outacc[i] = 0.f;
Chris@0 222 }
Chris@0 223 m_fill = 0;
Chris@0 224 m_read = 0;
Chris@0 225 }
Chris@0 226
Chris@0 227 void
Chris@0 228 Devuvuzelator::runImpl(unsigned long sampleCount)
Chris@0 229 {
Chris@0 230 if (!m_input || !m_output) return;
Chris@0 231
Chris@0 232 int ii = 0;
Chris@0 233 int oi = 0;
Chris@2 234 const int sc = sampleCount;
Chris@0 235
Chris@2 236 while (ii < sc) {
Chris@0 237
Chris@0 238 m_output[oi++] = m_outacc[m_read++] / 1.5f;
Chris@0 239
Chris@0 240 if (m_fill == m_fftsize) {
Chris@0 241
Chris@0 242 processFrame();
Chris@0 243
Chris@0 244 for (int j = m_increment; j < m_fftsize; ++j) {
Chris@0 245 m_buffer[j - m_increment] = m_buffer[j];
Chris@0 246 }
Chris@0 247
Chris@0 248 for (int j = m_increment; j < m_fftsize*2; ++j) {
Chris@0 249 m_outacc[j - m_increment] = m_outacc[j];
Chris@0 250 }
Chris@0 251
Chris@0 252 for (int j = m_fftsize*2 - m_increment; j < m_fftsize*2; ++j) {
Chris@0 253 m_outacc[j] = 0.f;
Chris@0 254 }
Chris@0 255
Chris@0 256 m_fill -= m_increment;
Chris@0 257 m_read -= m_increment;
Chris@0 258 }
Chris@0 259
Chris@0 260 m_buffer[m_fill++] = m_input[ii++];
Chris@0 261 }
Chris@0 262 }
Chris@0 263
Chris@0 264 void
Chris@0 265 Devuvuzelator::processFrame()
Chris@0 266 {
Chris@0 267 double *frame = (double *)alloca(m_fftsize * sizeof(double));
Chris@0 268 int ix = m_fftsize/2;
Chris@0 269 for (int i = 0; i < m_fftsize; ++i) {
Chris@0 270 frame[ix++] = m_buffer[i] * m_window[i];
Chris@0 271 if (ix == m_fftsize) ix = 0;
Chris@0 272 }
Chris@0 273
Chris@0 274 fft(m_fftsize, false, frame, 0, m_real, m_imag);
Chris@0 275
Chris@0 276 processSpectralFrame();
Chris@0 277
Chris@0 278 for (int i = 0; i < m_fftsize/2-1; ++i) {
Chris@3 279 m_real[m_fftsize-i-1] = m_real[i+1];
Chris@3 280 m_imag[m_fftsize-i-1] = -m_imag[i+1];
Chris@0 281 }
Chris@0 282
Chris@0 283 double *spare = (double *)alloca(m_fftsize * sizeof(double));
Chris@0 284 fft(m_fftsize, true, m_real, m_imag, frame, spare);
Chris@0 285
Chris@0 286 ix = m_fftsize/2;
Chris@0 287 for (int i = 0; i < m_fftsize; ++i) {
Chris@0 288 m_outacc[m_fftsize + i] += frame[ix++] * m_window[i];
Chris@0 289 if (ix == m_fftsize) ix = 0;
Chris@0 290 }
Chris@0 291 }
Chris@0 292
Chris@0 293 // FFT implementation by Don Cross, public domain.
Chris@0 294 // This version scales the forward transform.
Chris@0 295
Chris@0 296 void Devuvuzelator::fft(unsigned int n, bool inverse,
Chris@0 297 double *ri, double *ii, double *ro, double *io)
Chris@0 298 {
Chris@0 299 if (!ri || !ro || !io) return;
Chris@0 300
Chris@0 301 unsigned int bits;
Chris@0 302 unsigned int i, j, k, m;
Chris@0 303 unsigned int blockSize, blockEnd;
Chris@0 304
Chris@0 305 double tr, ti;
Chris@0 306
Chris@0 307 if (n < 2) return;
Chris@0 308 if (n & (n-1)) return;
Chris@0 309
Chris@0 310 double angle = 2.0 * M_PI;
Chris@0 311 if (inverse) angle = -angle;
Chris@0 312
Chris@0 313 for (i = 0; ; ++i) {
Chris@0 314 if (n & (1 << i)) {
Chris@0 315 bits = i;
Chris@0 316 break;
Chris@0 317 }
Chris@0 318 }
Chris@0 319
Chris@0 320 static unsigned int tableSize = 0;
Chris@0 321 static int *table = 0;
Chris@0 322
Chris@0 323 if (tableSize != n) {
Chris@0 324
Chris@0 325 delete[] table;
Chris@0 326
Chris@0 327 table = new int[n];
Chris@0 328
Chris@0 329 for (i = 0; i < n; ++i) {
Chris@0 330
Chris@0 331 m = i;
Chris@0 332
Chris@0 333 for (j = k = 0; j < bits; ++j) {
Chris@0 334 k = (k << 1) | (m & 1);
Chris@0 335 m >>= 1;
Chris@0 336 }
Chris@0 337
Chris@0 338 table[i] = k;
Chris@0 339 }
Chris@0 340
Chris@0 341 tableSize = n;
Chris@0 342 }
Chris@0 343
Chris@0 344 if (ii) {
Chris@0 345 for (i = 0; i < n; ++i) {
Chris@0 346 ro[table[i]] = ri[i];
Chris@0 347 io[table[i]] = ii[i];
Chris@0 348 }
Chris@0 349 } else {
Chris@0 350 for (i = 0; i < n; ++i) {
Chris@0 351 ro[table[i]] = ri[i];
Chris@0 352 io[table[i]] = 0.0;
Chris@0 353 }
Chris@0 354 }
Chris@0 355
Chris@0 356 blockEnd = 1;
Chris@0 357
Chris@0 358 for (blockSize = 2; blockSize <= n; blockSize <<= 1) {
Chris@0 359
Chris@0 360 double delta = angle / (double)blockSize;
Chris@0 361 double sm2 = -sin(-2 * delta);
Chris@0 362 double sm1 = -sin(-delta);
Chris@0 363 double cm2 = cos(-2 * delta);
Chris@0 364 double cm1 = cos(-delta);
Chris@0 365 double w = 2 * cm1;
Chris@0 366 double ar[3], ai[3];
Chris@0 367
Chris@0 368 for (i = 0; i < n; i += blockSize) {
Chris@0 369
Chris@0 370 ar[2] = cm2;
Chris@0 371 ar[1] = cm1;
Chris@0 372
Chris@0 373 ai[2] = sm2;
Chris@0 374 ai[1] = sm1;
Chris@0 375
Chris@0 376 for (j = i, m = 0; m < blockEnd; j++, m++) {
Chris@0 377
Chris@0 378 ar[0] = w * ar[1] - ar[2];
Chris@0 379 ar[2] = ar[1];
Chris@0 380 ar[1] = ar[0];
Chris@0 381
Chris@0 382 ai[0] = w * ai[1] - ai[2];
Chris@0 383 ai[2] = ai[1];
Chris@0 384 ai[1] = ai[0];
Chris@0 385
Chris@0 386 k = j + blockEnd;
Chris@0 387 tr = ar[0] * ro[k] - ai[0] * io[k];
Chris@0 388 ti = ar[0] * io[k] + ai[0] * ro[k];
Chris@0 389
Chris@0 390 ro[k] = ro[j] - tr;
Chris@0 391 io[k] = io[j] - ti;
Chris@0 392
Chris@0 393 ro[j] += tr;
Chris@0 394 io[j] += ti;
Chris@0 395 }
Chris@0 396 }
Chris@0 397
Chris@0 398 blockEnd = blockSize;
Chris@0 399 }
Chris@0 400
Chris@0 401 if (!inverse) {
Chris@0 402
Chris@0 403 double denom = (double)n;
Chris@0 404
Chris@0 405 for (i = 0; i < n; i++) {
Chris@0 406 ro[i] /= denom;
Chris@0 407 io[i] /= denom;
Chris@0 408 }
Chris@0 409 }
Chris@0 410 }
Chris@0 411
Chris@0 412 AudioEffect *createEffectInstance(audioMasterCallback audioMaster)
Chris@0 413 {
Chris@0 414 return new Devuvuzelator(audioMaster);
Chris@0 415 }
Chris@0 416
Chris@1 417 #include "devuvuzelator.cpp"
Chris@1 418