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author tomwalters
date Fri, 15 Oct 2010 05:46:53 +0000
parents 47b009f2c936
children 18237d55e346
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/*!
 * \file
 * \brief Frequency scale for generating filter banks and their frequencies
 *
 * \author Willem van Engen <cnbh@willem.engen.nl>
 * \date created 2006/09/28
 * \version \$Id: Scale.cpp 459 2007-11-08 11:50:04Z tom $
 */
/* (c) 2006, University of Cambridge, Medical Research Council
 * http://www.pdn.cam.ac.uk/groups/cnbh/aimmanual
 */
#include "Support/common.h"
#include "Support/util.h"
#include "Modules/Scale/Scale.h"
#include "Modules/Scale/ScaleLinear.h"
#include "Modules/Scale/ScaleERB.h"
#include "Modules/Scale/ScaleLog.h"
#include "Modules/Scale/ScaleLogScaled.h"

Scale *Scale::Create(ScaleType iType, unsigned int min, unsigned int max, float density)
{
  switch(iType) {
  case SCALE_LINEAR:
    return static_cast<Scale*>(new ScaleLinear(min, max, density));
  case SCALE_ERB:
    return static_cast<Scale*>(new ScaleERB(min, max, density));
  case SCALE_LOG:
    return static_cast<Scale*>(new ScaleLog(min, max, density));
  case SCALE_LOGSCALED:
    return static_cast<Scale*>(new ScaleLogScaled(min, max, density));
  default:
    aimASSERT(0);
    break;
  }
  // Unreachable code
  aimASSERT(0);
  return NULL;
}

Scale *Scale::Create(ScaleType iType)
{
  return Create(iType, 0, 0, 0);
}

Scale *Scale::Clone()
{
  Scale *pScale = Create(m_iType, m_iMin, m_iMax, m_fDensity);
  aimASSERT(pScale);
  pScale->m_fScaledCurHalfSum = m_fScaledCurHalfSum;
  pScale->m_fScaledCurDiff = m_fScaledCurDiff;
  return pScale;
}

float Scale::FromLinearScaled(float fVal)
{
  /*! This function returns
   *    ( FromLinear(fVal) - (fMinScaled+fMaxScaled)/2 ) / (fMaxScaled-fMinScaled)
   */
  float fValScaled = FromLinear(fVal);
  return (fValScaled - m_fScaledCurHalfSum) / m_fScaledCurDiff;
}
void Scale::FromLinearScaledExtrema(float fMin, float fMax)
{
  float fMinScaled = FromLinear(fMin);
  float fMaxScaled = FromLinear(fMax);
  m_fScaledCurHalfSum = (fMinScaled+fMaxScaled)/2;
  m_fScaledCurDiff = fMaxScaled-fMinScaled;
  m_fMin = fMin;
  m_fMax = fMax;
}
void Scale::FromLinearScaledExtrema(Scale *pScale)
{
  aimASSERT(pScale);
  FromLinearScaledExtrema(pScale->m_fMin, pScale->m_fMax);
}

SignalBank* Scale::CreateSignalBank(unsigned int iChannels, unsigned int iBufferlength, unsigned int iSamplerate)
{
  SignalBank *pBank;
  double intpart, fracpart;
  fracpart = modf((m_iMax-m_iMin)*m_fDensity, &intpart);
  unsigned int nBankChan = (unsigned int) intpart;
  if (fracpart >= 0.5f)
        nBankChan++;

  pBank = new SignalBank(iChannels, iBufferlength, iSamplerate, nBankChan);
  aimASSERT(pBank);

  float scaleDelta = ( FromLinear(m_iMax) - FromLinear(m_iMin) ) / (nBankChan-1);
  float scaleCur = FromLinear(m_iMin);

  for (unsigned int i=0; i<nBankChan; i++) {
    pBank->setCentreFrequency(i, ToLinear(scaleCur));
    scaleCur+=scaleDelta;
  }

  return pBank;
}



SignalBank* Scale::CreateSignalBank(Signal* pSig) {
  aimASSERT(pSig);
  return CreateSignalBank(pSig->getAudioChannels(), pSig->getBufferlength(), pSig->getSamplerate());
}