nuclear@0: /******************************************************************** nuclear@0: * * nuclear@0: * THIS FILE IS PART OF THE OggVorbis SOFTWARE CODEC SOURCE CODE. * nuclear@0: * USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS * nuclear@0: * GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE * nuclear@0: * IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. * nuclear@0: * * nuclear@0: * THE OggVorbis SOURCE CODE IS (C) COPYRIGHT 1994-2009 * nuclear@0: * by the Xiph.Org Foundation http://www.xiph.org/ * nuclear@0: * * nuclear@0: ******************************************************************** nuclear@0: nuclear@0: function: linear scale -> dB, Bark and Mel scales nuclear@0: last mod: $Id: scales.h 16227 2009-07-08 06:58:46Z xiphmont $ nuclear@0: nuclear@0: ********************************************************************/ nuclear@0: nuclear@0: #ifndef _V_SCALES_H_ nuclear@0: #define _V_SCALES_H_ nuclear@0: nuclear@0: #include nuclear@0: #include "os.h" nuclear@0: nuclear@0: #ifdef _MSC_VER nuclear@0: /* MS Visual Studio doesn't have C99 inline keyword. */ nuclear@0: #define inline __inline nuclear@0: #endif nuclear@0: nuclear@0: /* 20log10(x) */ nuclear@0: #define VORBIS_IEEE_FLOAT32 1 nuclear@0: #ifdef VORBIS_IEEE_FLOAT32 nuclear@0: nuclear@0: static inline float unitnorm(float x){ nuclear@0: union { nuclear@0: ogg_uint32_t i; nuclear@0: float f; nuclear@0: } ix; nuclear@0: ix.f = x; nuclear@0: ix.i = (ix.i & 0x80000000U) | (0x3f800000U); nuclear@0: return ix.f; nuclear@0: } nuclear@0: nuclear@0: /* Segher was off (too high) by ~ .3 decibel. Center the conversion correctly. */ nuclear@0: static inline float todB(const float *x){ nuclear@0: union { nuclear@0: ogg_uint32_t i; nuclear@0: float f; nuclear@0: } ix; nuclear@0: ix.f = *x; nuclear@0: ix.i = ix.i&0x7fffffff; nuclear@0: return (float)(ix.i * 7.17711438e-7f -764.6161886f); nuclear@0: } nuclear@0: nuclear@0: #define todB_nn(x) todB(x) nuclear@0: nuclear@0: #else nuclear@0: nuclear@0: static float unitnorm(float x){ nuclear@0: if(x<0)return(-1.f); nuclear@0: return(1.f); nuclear@0: } nuclear@0: nuclear@0: #define todB(x) (*(x)==0?-400.f:log(*(x)**(x))*4.34294480f) nuclear@0: #define todB_nn(x) (*(x)==0.f?-400.f:log(*(x))*8.6858896f) nuclear@0: nuclear@0: #endif nuclear@0: nuclear@0: #define fromdB(x) (exp((x)*.11512925f)) nuclear@0: nuclear@0: /* The bark scale equations are approximations, since the original nuclear@0: table was somewhat hand rolled. The below are chosen to have the nuclear@0: best possible fit to the rolled tables, thus their somewhat odd nuclear@0: appearance (these are more accurate and over a longer range than nuclear@0: the oft-quoted bark equations found in the texts I have). The nuclear@0: approximations are valid from 0 - 30kHz (nyquist) or so. nuclear@0: nuclear@0: all f in Hz, z in Bark */ nuclear@0: nuclear@0: #define toBARK(n) (13.1f*atan(.00074f*(n))+2.24f*atan((n)*(n)*1.85e-8f)+1e-4f*(n)) nuclear@0: #define fromBARK(z) (102.f*(z)-2.f*pow(z,2.f)+.4f*pow(z,3.f)+pow(1.46f,z)-1.f) nuclear@0: #define toMEL(n) (log(1.f+(n)*.001f)*1442.695f) nuclear@0: #define fromMEL(m) (1000.f*exp((m)/1442.695f)-1000.f) nuclear@0: nuclear@0: /* Frequency to octave. We arbitrarily declare 63.5 Hz to be octave nuclear@0: 0.0 */ nuclear@0: nuclear@0: #define toOC(n) (log(n)*1.442695f-5.965784f) nuclear@0: #define fromOC(o) (exp(((o)+5.965784f)*.693147f)) nuclear@0: nuclear@0: #endif