File: ML.h

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/*
	SuperCollider real time audio synthesis system
 Copyright (c) 2002 James McCartney. All rights reserved.
	http://www.audiosynth.com

 This program is free software; you can redistribute it and/or modify
 it under the terms of the GNU General Public License as published by
 the Free Software Foundation; either version 2 of the License, or
 (at your option) any later version.

 This program is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 GNU General Public License for more details.

 You should have received a copy of the GNU General Public License
 along with this program; if not, write to the Free Software
 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301  USA
 */

#include "SC_PlugIn.h"

//global data

//helpful constants
//#define PI 3.1415926535898f
//#define TWOPI 6.28318530717952646f

extern InterfaceTable *ft;

//shared data
extern int eqlbandbins[43];
extern int eqlbandsizes[42];
extern float contours[42][11];
extern double phons[11];

//#include "KeyTrack.h"
#include "BeatTrack.h"
//#include "Loudness.h"
#include "Onsets.h"
//#include "MFCC.h"
#include "BeatTrack2.h"

struct Loudness : Unit {

	//FFT data
	int m_numbands;
	float * m_ERBbands;

	//float m_phontotal;
	//final output
	float m_sones;
};



struct KeyTrack : Unit {

	//FFT data
	float * m_FFTBuf;

	//coping with different sampling rates
	float m_srate;		//use as a flag to check sample rate is correct
	float * m_weights;  //will point to the sample rate specific data
	int * m_bins;
	float m_frameperiod;

	//counter
	//uint32 m_frame;

	//experimental transient avoidance
	//float m_prevphase[720]; //60*12
	//float m_leaknote[60];

	float m_chroma[12];
	float m_key[24];

	float m_histogram[24];   //key histogram
							 //float m_keyleak; //fade parameter for histogram
	//int m_triggerid;

	int m_currentKey;
};


struct MFCC : Unit {

	//MFCC
	int m_numcoefficients;
	float * m_mfcc;
	//ERB
	int m_numbands;
	float * m_bands;

	//sampling rate specific data
	float m_srate;
	int * m_startbin;
	int * m_endbin;
	int * m_cumulindex;
	float * m_bandweights;

};

//////////////////////////////////////////////////////////////////////////////////////////////////

struct FFTAnalyser_Unit : Unit
{
	float outval;

	// Not always used: multipliers which convert from bin indices to freq vals, and vice versa.
	// See also the macros for deriving these.
	float m_bintofreq /* , m_freqtobin */;
	float m_halfnyq_over_numbinsp2;
};

struct FFTAnalyser_OutOfPlace : FFTAnalyser_Unit
{
	int m_numbins;
	float *m_tempbuf;
};

struct SpecFlatness : FFTAnalyser_Unit
{
	double m_oneovern;
};

struct SpecPcile : FFTAnalyser_OutOfPlace
{
	bool m_interpolate;
};

struct SpecCentroid : FFTAnalyser_Unit
{
};



extern "C"
{
	//required interface functions
	void Loudness_next(Loudness *unit, int wrongNumSamples);
	void Loudness_Ctor(Loudness *unit);
	void Loudness_Dtor(Loudness *unit);

	void KeyTrack_next(KeyTrack *unit, int wrongNumSamples);
	void KeyTrack_Ctor(KeyTrack *unit);
	void KeyTrack_Dtor(KeyTrack *unit);

	void MFCC_next(MFCC *unit, int wrongNumSamples);
	void MFCC_Ctor(MFCC *unit);
	void MFCC_Dtor(MFCC *unit);

	void SpecFlatness_Ctor(SpecFlatness *unit);
	void SpecFlatness_next(SpecFlatness *unit, int inNumSamples);
	//
	void SpecPcile_Ctor(SpecPcile *unit);
	void SpecPcile_next(SpecPcile *unit, int inNumSamples);
	void SpecPcile_Dtor(SpecPcile *unit);
	//
	void SpecCentroid_Ctor(SpecCentroid *unit);
	void SpecCentroid_next(SpecCentroid *unit, int inNumSamples);
}