qm-dsp: maths/MathUtilities.cpp annotate

annotate maths/MathUtilities.cpp @ 283:5e125f030287

* Fixes to problems shown up by vamp-plugin-tester. Still not all plugins pass all tests, though

author	Chris Cannam <c.cannam@qmul.ac.uk>
date	Mon, 23 Mar 2009 16:28:53 +0000
parents	9c403afdd9e9
children	702ff8c08137

rev	line source
c@241	1 /* -- c-basic-offset: 4 indent-tabs-mode: nil -- vi:set ts=8 sts=4 sw=4: */
c@241	2
c@241	3 /*
c@241	4 QM DSP Library
c@241	5
c@241	6 Centre for Digital Music, Queen Mary, University of London.
c@241	7 This file copyright 2005-2006 Christian Landone.
c@241	8 All rights reserved.
c@241	9 */
c@241	10
c@241	11 #include "MathUtilities.h"
c@241	12
c@241	13 #include <iostream>
c@241	14 #include <cmath>
c@241	15
c@241	16
c@241	17 double MathUtilities::mod(double x, double y)
c@241	18 {
c@241	19 double a = floor( x / y );
c@241	20
c@241	21 double b = x - ( y * a );
c@241	22 return b;
c@241	23 }
c@241	24
c@241	25 double MathUtilities::princarg(double ang)
c@241	26 {
c@241	27 double ValOut;
c@241	28
c@241	29 ValOut = mod( ang + M_PI, -2 * M_PI ) + M_PI;
c@241	30
c@241	31 return ValOut;
c@241	32 }
c@241	33
c@241	34 void MathUtilities::getAlphaNorm(const double data, unsigned int len, unsigned int alpha, double ANorm)
c@241	35 {
c@241	36 unsigned int i;
c@241	37 double temp = 0.0;
c@241	38 double a=0.0;
c@241	39
c@241	40 for( i = 0; i < len; i++)
c@241	41 {
c@241	42 temp = data[ i ];
c@241	43
c@241	44 a += ::pow( fabs(temp), alpha );
c@241	45 }
c@241	46 a /= ( double )len;
c@241	47 a = ::pow( a, ( 1.0 / (double) alpha ) );
c@241	48
c@241	49 *ANorm = a;
c@241	50 }
c@241	51
c@241	52 double MathUtilities::getAlphaNorm( const std::vector <double> &data, unsigned int alpha )
c@241	53 {
c@241	54 unsigned int i;
c@241	55 unsigned int len = data.size();
c@241	56 double temp = 0.0;
c@241	57 double a=0.0;
c@241	58
c@241	59 for( i = 0; i < len; i++)
c@241	60 {
c@241	61 temp = data[ i ];
c@241	62
c@241	63 a += ::pow( fabs(temp), alpha );
c@241	64 }
c@241	65 a /= ( double )len;
c@241	66 a = ::pow( a, ( 1.0 / (double) alpha ) );
c@241	67
c@241	68 return a;
c@241	69 }
c@241	70
c@241	71 double MathUtilities::round(double x)
c@241	72 {
c@241	73 double val = (double)floor(x + 0.5);
c@241	74
c@241	75 return val;
c@241	76 }
c@241	77
c@241	78 double MathUtilities::median(const double *src, unsigned int len)
c@241	79 {
c@241	80 unsigned int i, j;
c@241	81 double tmp = 0.0;
c@241	82 double tempMedian;
c@241	83 double medianVal;
c@241	84
c@241	85 double* scratch = new double[ len ];//Vector < double > sortedX = Vector < double > ( size );
c@241	86
c@241	87 for ( i = 0; i < len; i++ )
c@241	88 {
c@241	89 scratch[i] = src[i];
c@241	90 }
c@241	91
c@241	92 for ( i = 0; i < len - 1; i++ )
c@241	93 {
c@241	94 for ( j = 0; j < len - 1 - i; j++ )
c@241	95 {
c@241	96 if ( scratch[j + 1] < scratch[j] )
c@241	97 {
c@241	98 // compare the two neighbors
c@241	99 tmp = scratch[j]; // swap a[j] and a[j+1]
c@241	100 scratch[j] = scratch[j + 1];
c@241	101 scratch[j + 1] = tmp;
c@241	102 }
c@241	103 }
c@241	104 }
c@241	105 int middle;
c@241	106 if ( len % 2 == 0 )
c@241	107 {
c@241	108 middle = len / 2;
c@241	109 tempMedian = ( scratch[middle] + scratch[middle - 1] ) / 2;
c@241	110 }
c@241	111 else
c@241	112 {
c@241	113 middle = ( int )floor( len / 2.0 );
c@241	114 tempMedian = scratch[middle];
c@241	115 }
c@241	116
c@241	117 medianVal = tempMedian;
c@241	118
c@241	119 delete [] scratch;
c@241	120 return medianVal;
c@241	121 }
c@241	122
c@241	123 double MathUtilities::sum(const double *src, unsigned int len)
c@241	124 {
c@241	125 unsigned int i ;
c@241	126 double retVal =0.0;
c@241	127
c@241	128 for( i = 0; i < len; i++)
c@241	129 {
c@241	130 retVal += src[ i ];
c@241	131 }
c@241	132
c@241	133 return retVal;
c@241	134 }
c@241	135
c@241	136 double MathUtilities::mean(const double *src, unsigned int len)
c@241	137 {
c@241	138 double retVal =0.0;
c@241	139
c@241	140 double s = sum( src, len );
c@241	141
c@241	142 retVal = s / (double)len;
c@241	143
c@241	144 return retVal;
c@241	145 }
c@241	146
c@279	147 double MathUtilities::mean(const std::vector<double> &src,
c@279	148 unsigned int start,
c@279	149 unsigned int count)
c@279	150 {
c@279	151 double sum = 0.;
c@279	152
c@279	153 for (int i = 0; i < count; ++i)
c@279	154 {
c@279	155 sum += src[start + i];
c@279	156 }
c@279	157
c@279	158 return sum / count;
c@279	159 }
c@279	160
c@241	161 void MathUtilities::getFrameMinMax(const double data, unsigned int len, double min, double *max)
c@241	162 {
c@241	163 unsigned int i;
c@241	164 double temp = 0.0;
c@241	165 double a=0.0;
c@283	166
c@283	167 if (len == 0) {
c@283	168 min = max = 0;
c@283	169 return;
c@283	170 }
c@241	171
c@241	172 *min = data[0];
c@241	173 *max = data[0];
c@241	174
c@241	175 for( i = 0; i < len; i++)
c@241	176 {
c@241	177 temp = data[ i ];
c@241	178
c@241	179 if( temp < *min )
c@241	180 {
c@241	181 *min = temp ;
c@241	182 }
c@241	183 if( temp > *max )
c@241	184 {
c@241	185 *max = temp ;
c@241	186 }
c@241	187
c@241	188 }
c@241	189 }
c@241	190
c@241	191 int MathUtilities::getMax( double* pData, unsigned int Length, double* pMax )
c@241	192 {
c@241	193 unsigned int index = 0;
c@241	194 unsigned int i;
c@241	195 double temp = 0.0;
c@241	196
c@241	197 double max = pData[0];
c@241	198
c@241	199 for( i = 0; i < Length; i++)
c@241	200 {
c@241	201 temp = pData[ i ];
c@241	202
c@241	203 if( temp > max )
c@241	204 {
c@241	205 max = temp ;
c@241	206 index = i;
c@241	207 }
c@241	208
c@241	209 }
c@241	210
c@279	211 if (pMax) *pMax = max;
c@279	212
c@279	213
c@279	214 return index;
c@279	215 }
c@279	216
c@279	217 int MathUtilities::getMax( const std::vector<double> & data, double* pMax )
c@279	218 {
c@279	219 unsigned int index = 0;
c@279	220 unsigned int i;
c@279	221 double temp = 0.0;
c@279	222
c@279	223 double max = data[0];
c@279	224
c@279	225 for( i = 0; i < data.size(); i++)
c@279	226 {
c@279	227 temp = data[ i ];
c@279	228
c@279	229 if( temp > max )
c@279	230 {
c@279	231 max = temp ;
c@279	232 index = i;
c@279	233 }
c@279	234
c@279	235 }
c@279	236
c@279	237 if (pMax) *pMax = max;
c@241	238
c@241	239
c@241	240 return index;
c@241	241 }
c@241	242
c@241	243 void MathUtilities::circShift( double* pData, int length, int shift)
c@241	244 {
c@241	245 shift = shift % length;
c@241	246 double temp;
c@241	247 int i,n;
c@241	248
c@241	249 for( i = 0; i < shift; i++)
c@241	250 {
c@241	251 temp=*(pData + length - 1);
c@241	252
c@241	253 for( n = length-2; n >= 0; n--)
c@241	254 {
c@241	255 (pData+n+1)=(pData+n);
c@241	256 }
c@241	257
c@241	258 *pData = temp;
c@241	259 }
c@241	260 }
c@241	261
c@241	262 int MathUtilities::compareInt (const void * a, const void * b)
c@241	263 {
c@241	264 return ( (int)a - (int)b );
c@241	265 }
c@241	266
c@259	267 void MathUtilities::normalise(double *data, int length, NormaliseType type)
c@259	268 {
c@259	269 switch (type) {
c@259	270
c@259	271 case NormaliseNone: return;
c@259	272
c@259	273 case NormaliseUnitSum:
c@259	274 {
c@259	275 double sum = 0.0;
c@259	276 for (int i = 0; i < length; ++i) {
c@259	277 sum += data[i];
c@259	278 }
c@259	279 if (sum != 0.0) {
c@259	280 for (int i = 0; i < length; ++i) {
c@259	281 data[i] /= sum;
c@259	282 }
c@259	283 }
c@259	284 }
c@259	285 break;
c@259	286
c@259	287 case NormaliseUnitMax:
c@259	288 {
c@259	289 double max = 0.0;
c@259	290 for (int i = 0; i < length; ++i) {
c@259	291 if (fabs(data[i]) > max) {
c@259	292 max = fabs(data[i]);
c@259	293 }
c@259	294 }
c@259	295 if (max != 0.0) {
c@259	296 for (int i = 0; i < length; ++i) {
c@259	297 data[i] /= max;
c@259	298 }
c@259	299 }
c@259	300 }
c@259	301 break;
c@259	302
c@259	303 }
c@259	304 }
c@259	305
c@259	306 void MathUtilities::normalise(std::vector<double> &data, NormaliseType type)
c@259	307 {
c@259	308 switch (type) {
c@259	309
c@259	310 case NormaliseNone: return;
c@259	311
c@259	312 case NormaliseUnitSum:
c@259	313 {
c@259	314 double sum = 0.0;
c@259	315 for (int i = 0; i < data.size(); ++i) sum += data[i];
c@259	316 if (sum != 0.0) {
c@259	317 for (int i = 0; i < data.size(); ++i) data[i] /= sum;
c@259	318 }
c@259	319 }
c@259	320 break;
c@259	321
c@259	322 case NormaliseUnitMax:
c@259	323 {
c@259	324 double max = 0.0;
c@259	325 for (int i = 0; i < data.size(); ++i) {
c@259	326 if (fabs(data[i]) > max) max = fabs(data[i]);
c@259	327 }
c@259	328 if (max != 0.0) {
c@259	329 for (int i = 0; i < data.size(); ++i) data[i] /= max;
c@259	330 }
c@259	331 }
c@259	332 break;
c@259	333
c@259	334 }
c@259	335 }
c@259	336
c@279	337 void MathUtilities::adaptiveThreshold(std::vector<double> &data)
c@279	338 {
c@279	339 int sz = int(data.size());
c@279	340 if (sz == 0) return;
c@279	341
c@279	342 std::vector<double> smoothed(sz);
c@279	343
c@279	344 int p_pre = 8;
c@279	345 int p_post = 7;
c@279	346
c@279	347 for (int i = 0; i < sz; ++i) {
c@279	348
c@279	349 int first = std::max(0, i - p_pre);
c@279	350 int last = std::min(sz - 1, i + p_post);
c@279	351
c@279	352 smoothed[i] = mean(data, first, last - first + 1);
c@279	353 }
c@279	354
c@279	355 for (int i = 0; i < sz; i++) {
c@279	356 data[i] -= smoothed[i];
c@279	357 if (data[i] < 0.0) data[i] = 0.0;
c@279	358 }
c@279	359 }
c@259	360
c@280	361 bool
c@280	362 MathUtilities::isPowerOfTwo(int x)
c@280	363 {
c@280	364 if (x < 2) return false;
c@280	365 if (x & (x-1)) return false;
c@280	366 return true;
c@280	367 }
c@280	368
c@280	369 int
c@280	370 MathUtilities::nextPowerOfTwo(int x)
c@280	371 {
c@280	372 if (isPowerOfTwo(x)) return x;
c@280	373 int n = 1;
c@280	374 while (x) { x >>= 1; n <<= 1; }
c@280	375 return n;
c@280	376 }
c@280	377
c@280	378 int
c@280	379 MathUtilities::previousPowerOfTwo(int x)
c@280	380 {
c@280	381 if (isPowerOfTwo(x)) return x;
c@280	382 int n = 1;
c@280	383 x >>= 1;
c@280	384 while (x) { x >>= 1; n <<= 1; }
c@280	385 return n;
c@280	386 }
c@280	387
c@280	388 int
c@280	389 MathUtilities::nearestPowerOfTwo(int x)
c@280	390 {
c@280	391 if (isPowerOfTwo(x)) return x;
c@280	392 int n0 = previousPowerOfTwo(x), n1 = nearestPowerOfTwo(x);
c@280	393 if (x - n0 < n1 - x) return n0;
c@280	394 else return n1;
c@280	395 }
c@280	396

Mercurial > hg > qm-dsp

annotate maths/MathUtilities.cpp @ 283:5e125f030287