SCDoc: Use proper static string constants instead of comparing string literals.
[supercollider.git] / server / plugins / Loudness.cpp
blobf879fcd01cbf5a5a90f3df9eb509ea0d73a5e215
1 /*
2 SuperCollider real time audio synthesis system
3 Copyright (c) 2002 James McCartney. All rights reserved.
4 http://www.audiosynth.com
6 This program is free software; you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation; either version 2 of the License, or
9 (at your option) any later version.
11 This program is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
16 You should have received a copy of the GNU General Public License
17 along with this program; if not, write to the Free Software
18 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
21 //Nick Collins 8 Nov 2007
22 //loudness model
25 #include "ML.h"
27 //perhaps need to have sampling rate choice here: but then, double rate, double fft size, only use bottom 1024 again as useful spectrum in human hearing range! So should just work?
28 int eqlbandbins[43]= {1,2,3,4,5,6,7,8,9,11,13,15,17,19,22,25,28,32,36,41,46,52,58,65,73,82,92,103,116,129,144,161,180,201,225,251,280,312,348,388,433,483,513};
29 int eqlbandsizes[42]= {1,1,1,1,1,1,1,1,2,2,2,2,2,3,3,3,4,4,5,5,6,6,7,8,9,10,11,13,13,15,17,19,21,24,26,29,32,36,40,45,50,29}; //was 30
31 float contours[42][11]= {{ 47.88, 59.68, 68.55, 75.48, 81.71, 87.54, 93.24, 98.84,104.44,109.94,115.31},{ 29.04, 41.78, 51.98, 60.18, 67.51, 74.54, 81.34, 87.97, 94.61,101.21,107.74},{ 20.72, 32.83, 43.44, 52.18, 60.24, 67.89, 75.34, 82.70, 89.97, 97.23,104.49},{ 15.87, 27.14, 37.84, 46.94, 55.44, 63.57, 71.51, 79.34, 87.14, 94.97,102.37},{ 12.64, 23.24, 33.91, 43.27, 52.07, 60.57, 68.87, 77.10, 85.24, 93.44,100.90},{ 10.31, 20.43, 31.03, 40.54, 49.59, 58.33, 66.89, 75.43, 83.89, 92.34,100.80},{ 8.51, 18.23, 28.83, 38.41, 47.65, 56.59, 65.42, 74.16, 82.89, 91.61,100.33},{ 7.14, 16.55, 27.11, 36.79, 46.16, 55.27, 64.29, 73.24, 82.15, 91.06, 99.97},{ 5.52, 14.58, 25.07, 34.88, 44.40, 53.73, 62.95, 72.18, 81.31, 90.44, 99.57},{ 3.98, 12.69, 23.10, 32.99, 42.69, 52.27, 61.66, 71.15, 80.54, 89.93, 99.31},{ 2.99, 11.43, 21.76, 31.73, 41.49, 51.22, 60.88, 70.51, 80.11, 89.70, 99.30},{ 2.35, 10.58, 20.83, 30.86, 40.68, 50.51, 60.33, 70.08, 79.83, 89.58, 99.32},{ 2.05, 10.12, 20.27, 30.35, 40.22, 50.10, 59.97, 69.82, 79.67, 89.52, 99.38},{ 2.00, 9.93, 20.00, 30.07, 40.00, 49.93, 59.87, 69.80, 79.73, 89.67, 99.60},{ 2.19, 10.00, 20.00, 30.00, 40.00, 50.00, 59.99, 69.99, 79.98, 89.98, 99.97},{ 2.71, 10.56, 20.61, 30.71, 40.76, 50.81, 60.86, 70.96, 81.01, 91.06,101.17},{ 3.11, 11.05, 21.19, 31.41, 41.53, 51.64, 61.75, 71.95, 82.05, 92.15,102.33},{ 2.39, 10.69, 21.14, 31.52, 41.73, 51.95, 62.11, 72.31, 82.46, 92.56,102.59},{ 1.50, 10.11, 20.82, 31.32, 41.62, 51.92, 62.12, 72.32, 82.52, 92.63,102.56},{ -0.17, 8.50, 19.27, 29.77, 40.07, 50.37, 60.57, 70.77, 80.97, 91.13,101.23},{ -1.80, 6.96, 17.77, 28.29, 38.61, 48.91, 59.13, 69.33, 79.53, 89.71, 99.86},{ -3.42, 5.49, 16.36, 26.94, 37.31, 47.61, 57.88, 68.08, 78.28, 88.41, 98.39},{ -4.73, 4.38, 15.34, 25.99, 36.39, 46.71, 57.01, 67.21, 77.41, 87.51, 97.41},{ -5.73, 3.63, 14.74, 25.48, 35.88, 46.26, 56.56, 66.76, 76.96, 87.06, 96.96},{ -6.24, 3.33, 14.59, 25.39, 35.84, 46.22, 56.52, 66.72, 76.92, 87.04, 97.00},{ -6.09, 3.62, 15.03, 25.83, 36.37, 46.70, 57.00, 67.20, 77.40, 87.57, 97.68},{ -5.32, 4.44, 15.90, 26.70, 37.28, 47.60, 57.90, 68.10, 78.30, 88.52, 98.78},{ -3.49, 6.17, 17.52, 28.32, 38.85, 49.22, 59.52, 69.72, 79.92, 90.20,100.61},{ -0.81, 8.58, 19.73, 30.44, 40.90, 51.24, 61.52, 71.69, 81.87, 92.15,102.63},{ 2.91, 11.82, 22.64, 33.17, 43.53, 53.73, 63.96, 74.09, 84.22, 94.45,104.89},{ 6.68, 15.19, 25.71, 36.03, 46.25, 56.31, 66.45, 76.49, 86.54, 96.72,107.15},{ 10.43, 18.65, 28.94, 39.02, 49.01, 58.98, 68.93, 78.78, 88.69, 98.83,109.36},{ 13.56, 21.65, 31.78, 41.68, 51.45, 61.31, 71.07, 80.73, 90.48,100.51,111.01},{ 14.36, 22.91, 33.19, 43.09, 52.71, 62.37, 71.92, 81.38, 90.88,100.56,110.56},{ 15.06, 23.90, 34.23, 44.05, 53.48, 62.90, 72.21, 81.43, 90.65, 99.93,109.34},{ 15.36, 23.90, 33.89, 43.31, 52.40, 61.42, 70.29, 79.18, 88.00, 96.69,105.17},{ 15.60, 23.90, 33.60, 42.70, 51.50, 60.20, 68.70, 77.30, 85.80, 94.00,101.70},{ 15.60, 23.90, 33.60, 42.70, 51.50, 60.20, 68.70, 77.30, 85.80, 94.00,101.70},{ 15.60, 23.90, 33.60, 42.70, 51.50, 60.20, 68.70, 77.30, 85.80, 94.00,101.70},{ 15.60, 23.90, 33.60, 42.70, 51.50, 60.20, 68.70, 77.30, 85.80, 94.00,101.70},{ 15.60, 23.90, 33.60, 42.70, 51.50, 60.20, 68.70, 77.30, 85.80, 94.00,101.70},{ 15.60, 23.90, 33.60, 42.70, 51.50, 60.20, 68.70, 77.30, 85.80, 94.00,101.70}};
32 double phons[11]={2,10,20,30,40,50,60,70,80,90,100};
35 //other functions
36 static void Loudness_dofft(Loudness *, uint32);
38 void Loudness_Ctor(Loudness* unit)
40 //may want to check sampling rate here!
42 unit->m_numbands= 42;
44 unit->m_ERBbands = (float*)RTAlloc(unit->mWorld, unit->m_numbands * sizeof(float));
46 Clear(unit->m_numbands, unit->m_ERBbands);
48 unit->m_sones=0;
49 //unit->m_phontotal=0;
51 unit->mCalcFunc = (UnitCalcFunc)&Loudness_next;
52 Loudness_next(unit, 1);
55 void Loudness_Dtor(Loudness *unit)
57 RTFree(unit->mWorld, unit->m_ERBbands);
60 void Loudness_next(Loudness *unit, int wrongNumSamples)
62 float fbufnum = ZIN0(0);
64 //next FFT bufffer ready, update
65 //assuming at this point that buffer precalculated for any resampling
66 if (fbufnum > -0.01f)
67 Loudness_dofft(unit, (uint32)fbufnum);
69 //always output sones
70 //float outval= unit->m_sones;
72 //printf("sones %f phontotal %f \n",outval, unit->m_phontotal);
74 //control rate output
75 ZOUT0(0)=unit->m_sones;
78 //temporal masking over ERB bands: peaks take a while to decay
79 //spectral masking over which bins summed as contributors for ERB bands; spreading activation function actually implies that the overall power is greater from spread?
80 //masking not triangular but slanted towards masking higher frequency content (ie, lower freq bins mask upper)
82 //for true MP3 style compression would have to see if each FFT bin was noise like or sine like (transient measure on instantaneous frequency for example), and use the appropriate masking curve
83 //efficiency is preferred here
85 //thus can calculate squared powers as you go? cheapest if only have effect of spectral masking above, covering a fixed number of bins? but then, frequency biased loudness based on ERB band centre frequency!
87 //calculation function once FFT data ready
88 void Loudness_dofft(Loudness *unit, uint32 ibufnum)
90 World *world = unit->mWorld;
91 //if (ibufnum >= world->mNumSndBufs) ibufnum = 0;
92 SndBuf *buf; // = world->mSndBufs + ibufnum;
93 //int numbins = buf->samples - 2 >> 1;
94 //support LocalBuf
96 if (ibufnum >= world->mNumSndBufs) {
97 int localBufNum = ibufnum - world->mNumSndBufs;
98 Graph *parent = unit->mParent;
99 if(localBufNum <= parent->localBufNum) {
100 buf = parent->mLocalSndBufs + localBufNum;
101 } else {
102 buf = world->mSndBufs;
104 } else {
105 buf = world->mSndBufs + ibufnum;
107 LOCK_SNDBUF(buf);
109 float * data= buf->data;
111 float loudsum=0.0;
113 float smask= ZIN0(1);
114 float tmask= ZIN0(2);
116 for (int k=0; k<unit->m_numbands; ++k){
118 int bandstart=eqlbandbins[k];
119 //int bandend=eqlbandbins[k+1];
120 int bandsize= eqlbandsizes[k];
121 int bandend= bandstart+bandsize;
123 float bsum=0.0;
124 float real, imag, power;
125 int index;
126 float lastpower=0.0;
128 for (int h=bandstart; h<bandend;++h) {
129 index = 2*h;
130 real= data[index];
131 imag= data[index+1];
133 power = (real*real) + (imag*imag);
136 //would involve spectral masking here
137 power = sc_max(lastpower*smask,power); //sideways spectral masking with leaky integration
138 lastpower= power;
140 //psychophysical sensation; within critical band, sum using a p metric, (sum m^p)^(1/p)
141 //compresses the gain
143 //power of three combination
144 //bsum= bsum+(power*power*power);
146 //won't sum up power very well
147 //if(power>bsum) bsum=power;
149 bsum= bsum+power;
153 //store recips of bandsizes?
154 //why average? surely just take max or sum is better!
155 //bsum= bsum/bandsize;
157 //into dB, avoid log of 0
158 //float db= 10*log10((bsum*10000000)+0.001);
159 //float db= 10*log10((bsum*32382)+0.001);
160 //empricially derived 32382*2.348
162 float db= 10*log10((bsum*76032.936f)+0.001f); //correct multipler until you get loudness output of 1!
164 //correcting for power of three combination
165 //bsum=bsum+0.001;
166 //4.8810017610244 = log10(76032.936)
167 //float db= 10*((0.33334*log10(bsum)) + 4.8810017610244); //correct multipler until you get loudness output of 1!
170 //printf("bsum %f db %f \n",bsum,db);
172 //convert via contour
173 if(db<contours[k][0]) db=0;
174 else if (db>contours[k][10]) db=phons[10];
175 else {
177 float prop=0.0;
178 int j;
179 for (j=1; j<11; ++j) {
180 if(db<contours[k][j]) {
181 prop= (db-contours[k][j-1])/(contours[k][j]-contours[k][j-1]);
182 break;
185 if(j==10)
186 prop=1.0;
189 db= (1.f-prop)*phons[j-1]+ prop*phons[j];
190 //printf("prop %f db %f j %d\n",prop,db,j);
193 //spectralmasking, 6dB drop per frame?
194 //try also with just take db
195 unit->m_ERBbands[k] = sc_max(db, (unit->m_ERBbands[k]) - tmask);
197 //printf("db %f erbband %f \n",db, unit->m_ERBbands[k]);
199 //must sum as intensities, not dbs once corrected, pow used to be other way around
200 //loudsum+= ((pow(10, 0.1*unit->m_ERBbands[k])-0.001)*0.0000308813538386); //
202 loudsum+= ((pow(10, 0.1*unit->m_ERBbands[k])-0.001)); //multiplier not needed since invert below; can trust no overflow?
205 //total excitation, correct back to dB scale in phons
206 //float phontotal= 10*log10((loudsum*32382)+0.001);
207 float phontotal= 10*log10((loudsum)+0.001); //didn't use divisor above, so no need to restore here
209 //unit->m_phontotal= phontotal;
210 //now to sones:
211 /* from Praat: Excitation.c Sones = 2 ** ((Phones - 40) / 10) */
212 unit->m_sones= pow (2.f, (phontotal - 40) / 10);
214 //printf("phontotal %f sones %f \n",phontotal, unit->m_sones);
216 //about 5 times per second
217 //if((unit->m_triggerid) && ((unit->m_frame%2==0))) SendTrigger(&unit->mParent->mNode, unit->m_triggerid, bestkey);