maxi_emscr.h 14 KB
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/*
 *  maximilian.h
 *  platform independent synthesis library using portaudio or rtaudio
 *
 *  Created by Mick Grierson on 29/12/2009.
 *  Copyright 2009 Mick Grierson & Strangeloop Limited. All rights reserved.
 *	Thanks to the Goldsmiths Creative Computing Team.
 *	Special thanks to Arturo Castro for the PortAudio implementation.
 * 
 *	Permission is hereby granted, free of charge, to any person
 *	obtaining a copy of this software and associated documentation
 *	files (the "Software"), to deal in the Software without
 *	restriction, including without limitation the rights to use,
 *	copy, modify, merge, publish, distribute, sublicense, and/or sell
 *	copies of the Software, and to permit persons to whom the
 *	Software is furnished to do so, subject to the following
 *	conditions:
 *	
 *	The above copyright notice and this permission notice shall be
 *	included in all copies or substantial portions o/Users/Dan/Downloads/Maximilian-master/stb_vorbis.c
/Users/Dan/Downloads/Maximilian-master/stb_vorbis.h
/Users/Dan/Downloads/Maximilian-master/player.h
/Users/Dan/Downloads/Maximilian-master/player.cpp
/Users/Dan/Downloads/Maximilian-master/maximilian.cpp
/Users/Dan/Downloads/Maximilian-master/maximilian.hf the Software.
 *
 *	THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,	
 *	EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
 *	OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 *	NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
 *	HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
 *	WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
 *	FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
 *	OTHER DEALINGS IN THE SOFTWARE.
 *
 */

#ifndef _max_emscr_h
#define _max_emscr_h

//#define MAXIMILIAN_PORTAUDIO
#define MAXIMILIAN_RT_AUDIO


#include <iostream>
#include <fstream>
#include <string.h>
#include <cstdlib>
#include <vector>
#include "math.h"

using namespace std;
#ifndef PI
#define PI  3.1415926535897932384626433832795
#endif
#define TWOPI 6.283185307179586476925286766559

class maxiSettings {
public:
	static int sampleRate;
	static int channels;
	static int bufferSize;
	static void setup(int initSampleRate, int initChannels, int initBufferSize) {
		maxiSettings::sampleRate = initSampleRate;
		maxiSettings::channels = initChannels;
		maxiSettings::bufferSize = initBufferSize;
	}
};


class maxiOsc {
	
	double frequency;
	double phase;
	double startphase;
	double endphase;
	double output;
	double tri;
	
	
public:
	maxiOsc();
	double sinewave(double frequency);
	double coswave(double frequency);
	double phasor(double frequency);
	double phasor(double frequency, double startphase, double endphase);
	double saw(double frequency);
	double triangle(double frequency);
	double square(double frequency);
	double pulse(double frequency, double duty);
	double noise();
	double sinebuf(double frequency);
	double sinebuf4(double frequency);
    double sawn(double frequency);
    double rect(double frequency, double duty=0.5);
	void phaseReset(double phaseIn);
	
};


class maxiEnvelope {
	
	double period;
	double output;
	double startval;
	double currentval;
	double nextval;
	int isPlaying;

public:
//	maxiEnvelope(){}
	double line(int numberofsegments, std::vector<double>& segments);
//	double line(int numberofsegments , double segments[1000]);

	void trigger(int index,double amp);
	int valindex;
	double amplitude;
	
	double GetAmplitude() const{
		return amplitude;
	}
	
	void SetAmplitude(double ampIn){
		amplitude = ampIn;
	}
	
};

/*
class maxiDelayline {
	double frequency;
	int phase;
	double startphase;
	double endphase;
	double output;
	double memory[88200]; // vector??? will memset cause emscr problems???
	
public:
	maxiDelayline();
	double dl(double input, int size, double feedback);
	double dl(double input, int size, double feedback, int position);
	
	
};
*/

// NEXT
class maxiFilter { 	
	double gain;
	double input;
	double output;
	double inputs[10];
	double outputs[10];
	double cutoff1;
	double x;//speed
	double y;//pos
	double z;//pole
	double c;//filter coefficient
    
public:
	maxiFilter():x(0.0), y(0.0), z(0.0), c(0.0){};
	double cutoff;
	double resonance;
	double lores(double input,double cutoff1, double resonance);
	double hires(double input,double cutoff1, double resonance);
	double bandpass(double input,double cutoff1, double resonance);
	double lopass(double input,double cutoff);
	double hipass(double input,double cutoff);
	
};

/*
class maxiMix  {
	double input;
	double two[2];
	double four[4];
	double eight[8];
public:
	double x;
	double y;
	double z;
	double *stereo(double input,double two[2],double x);
	double *quad(double input,double four[4], double x,double y);
	double *ambisonic(double input,double eight[8],double x,double y, double z);
	
};

//lagging with an exponential moving average
//a lower alpha value gives a slower lag
template <class T> 
class maxiLagExp {
public:
	T alpha, alphaReciprocal;
	T val;
	
	maxiLagExp() {
		init(0.5, 0.0);
	};
	
	maxiLagExp(T initAlpha, T initVal) {
		init(initAlpha, initVal);
	}
	
	void init(T initAlpha, T initVal) {
		alpha = initAlpha;
		alphaReciprocal = 1.0 - alpha;
		val = initVal;
	}
	
	inline void addSample(T newVal) {
		val = (alpha * newVal) + (alphaReciprocal * val);
	}
	
	inline T value() {
		return val;
	}
};

*/




class maxiSample  {
	
private:
	string 	myPath;
	int 	myChunkSize;
	int	mySubChunk1Size;
	int		readChannel;
	short 	myFormat;
	int   	myByteRate;
	short 	myBlockAlign;
	short 	myBitsPerSample;
	double position, recordPosition;
	double speed;
	double output;
//    maxiLagExp<double> loopRecordLag;
	
public:
	int	 myDataSize;
	short 	myChannels;
	int   	mySampleRate;
	long length;
	void getLength();
    void setLength(unsigned long numSamples);  
	
	
	char* 	myData;
    short* temp;
	
	// different vars for use with js
		vector<double> myDataDC;
	// get/set for the Path property
	
	~maxiSample()
	{
		if (myData) free(myData);
        if (temp) free(temp);
        printf("freeing SampleData");

	}
	
	maxiSample():myData(NULL),temp(NULL),position(0), recordPosition(0), myChannels(1), mySampleRate(maxiSettings::sampleRate) {};
	
	bool load(string fileName, int channel=0);
	
//    bool loadOgg(string filename,int channel=0);
//	
	void trigger();
	
	// read a wav file into this class
	bool read();
	

	//read an ogg file into this class using stb_vorbis
//    bool readOgg();
//    
//    void loopRecord(double newSample, const bool recordEnabled, const double recordMix) {
//        loopRecordLag.addSample(recordEnabled);
//        if(recordEnabled) {
//            double currentSample = ((short*)myData)[(unsigned long)recordPosition] / 32767.0;
//            newSample = (recordMix * currentSample) + ((1.0 - recordMix) * newSample);
//            newSample *= loopRecordLag.value();
//            ((short*)myData)[(unsigned long)recordPosition] = newSample * 32767;
//        }
//        ++recordPosition;
//        if (recordPosition == length)
//            recordPosition=0;
//    }
//    
//    void clear();
//    
//    void reset();
	
//	double play();
	


	void setSample(vector<double>& temp);
	
	double play();
	void clear(){myDataDC.clear();}

//	double play(vector<double>& temp, int length); // tester
//	double playOnce();
//	
//	double playOnce(double speed);
//	
	double play(double speed);
//
//	double play(double frequency, double start, double end, double &pos);
//	
//	double play(double frequency, double start, double end);
//	
//	double play4(double frequency, double start, double end);
//	
//	double bufferPlay(unsigned char &bufferin,long length);
//	
//	double bufferPlay(unsigned char &bufferin,double speed,long length);
//	
//	double bufferPlay(unsigned char &bufferin,double frequency, double start, double end);
//	
//	double bufferPlay4(unsigned char &bufferin,double frequency, double start, double end);
//    bool save() {
//        save(myPath);
//    }
	
//	bool save(string filename)
//	{
//		fstream myFile (filename.c_str(), ios::out | ios::binary);
//		
//		// write the wav file per the wav file format
//		myFile.seekp (0, ios::beg); 
//		myFile.write ("RIFF", 4);
//		myFile.write ((char*) &myChunkSize, 4);
//		myFile.write ("WAVE", 4);
//		myFile.write ("fmt ", 4);
//		myFile.write ((char*) &mySubChunk1Size, 4);
//		myFile.write ((char*) &myFormat, 2);
//		myFile.write ((char*) &myChannels, 2);
//		myFile.write ((char*) &mySampleRate, 4);
//		myFile.write ((char*) &myByteRate, 4);
//		myFile.write ((char*) &myBlockAlign, 2);
//		myFile.write ((char*) &myBitsPerSample, 2);
//		myFile.write ("data", 4);
//		myFile.write ((char*) &myDataSize, 4);
//		myFile.write (myData, myDataSize);
//		
//		return true;
//	}
	
	// return a printable summary of the wav file
//	char *getSummary()
//	{
//		char *summary = new char[250];
//		sprintf(summary, " Format: %d\n Channels: %d\n SampleRate: %d\n ByteRate: %d\n BlockAlign: %d\n BitsPerSample: %d\n DataSize: %d\n", myFormat, myChannels, mySampleRate, myByteRate, myBlockAlign, myBitsPerSample, myDataSize);
//		std::cout << myDataSize;
//		return summary;
//	}
	
	string getSummary()
	{
		char summary[100];
		snprintf(summary, 100," Format: %d\n Channels: %d\n SampleRate: %d\n ByteRate: %d\n BlockAlign: %d\n BitsPerSample: %d\n DataSize: %d\n", myFormat, myChannels, mySampleRate, myByteRate, myBlockAlign, myBitsPerSample, myDataSize);
		std::cout << myDataSize;
		return string(summary);
	}
};

/*

class maxiMap {
public:
	static double inline linlin(double val, double inMin, double inMax, double outMin, double outMax) {
		return ((val - inMin) / (inMax - inMin) * (outMax - outMin)) + outMin;
	}
	
	static double inline linexp(double val, double inMin, double inMax, double outMin, double outMax) {
		//clipping
		val = max(min(val, inMax), inMin);
		return pow((outMax / outMin), (val - inMin) / (inMax - inMin)) * outMin;
	}
	
	static double inline explin(double val, double inMin, double inMax, double outMin, double outMax) {
		//clipping
		val = max(min(val, inMax), inMin);
		return (log(val/inMin) / log(inMax/inMin) * (outMax - outMin)) + outMin;
	}
	
	static int inline clamp(int v, const int low, const int high) {
		v = min(high, v);
		v = max(low, v);
		return v;
	}
	
};


class maxiDyn {
	
	
public:
	double gate(double input, double threshold=0.9, long holdtime=1, double attack=1, double release=0.9995);
	double compressor(double input, double ratio, double threshold=0.9, double attack=1, double release=0.9995);
	double input;
	double ratio;
	double currentRatio;
	double threshold;
	double output;
	double attack;
	double release;
	double amplitude;
	long holdtime;
	long holdcount;
	int attackphase,holdphase,releasephase;
};

class maxiEnv {
	
	
public:
	double ar(double input, double attack=1, double release=0.9, long holdtime=1, int trigger=0);
	double adsr(double input, double attack=1, double decay=0.99, double sustain=0.125, double release=0.9, long holdtime=1, int trigger=0);
	double input;
	double output;
	double attack;
	double decay;
	double sustain;
	double release;
	double amplitude;
	int trigger;
	long holdtime;
	long holdcount;
	int attackphase,decayphase,sustainphase,holdphase,releasephase;
};

class convert {
public:
	double mtof(int midinote);
};



class maxiDistortion {
public:
//    atan distortion, see http://www.musicdsp.org/showArchiveComment.php?ArchiveID=104
//    shape from 1 (soft clipping) to infinity (hard clipping)
    double atanDist(const double in, const double shape);
    double fastAtanDist(const double in, const double shape);
    double fastatan( double x );
};

inline double maxiDistortion::fastatan(double x)
{
    return (x / (1.0 + 0.28 * (x * x)));
}

inline double maxiDistortion::atanDist(const double in, const double shape) {
    double out;
    out = (1.0 / atan(shape)) * atan(in * shape);
    return out;
}

inline double maxiDistortion::fastAtanDist(const double in, const double shape) {
    double out;
    out = (1.0 / fastatan(shape)) * fastatan(in * shape);
    return out;
}


class maxiFlanger {
public:
    //delay = delay time - ~800 sounds good
    //feedback = 0 - 1
    //speed = lfo speed in Hz, 0.0001 - 10 sounds good
    //depth = 0 - 1
    double flange(const double input, const unsigned int delay, const double feedback, const double speed, const double depth);
    maxiDelayline dl;
    maxiOsc lfo;

};

inline double maxiFlanger::flange(const double input, const unsigned int delay, const double feedback, const double speed, const double depth)
{
    //todo: needs fixing
    double output;
    double lfoVal = lfo.triangle(speed);
    output = dl.dl(input, delay + (lfoVal * depth * delay) + 1, feedback) ;    
    double normalise = (1 - fabs(output));
    output *= normalise;
    return (output + input) / 2.0;
}

class maxiChorus {
public:
    //delay = delay time - ~800 sounds good
    //feedback = 0 - 1
    //speed = lfo speed in Hz, 0.0001 - 10 sounds good
    //depth = 0 - 1
    double chorus(const double input, const unsigned int delay, const double feedback, const double speed, const double depth);
    maxiDelayline dl, dl2;
    maxiOsc lfo;
    maxiFilter lopass;
    
};

inline double maxiChorus::chorus(const double input, const unsigned int delay, const double feedback, const double speed, const double depth)
{
    //this needs fixing
    double output1, output2;
    double lfoVal = lfo.noise();
    lfoVal = lopass.lores(lfoVal, speed, 1.0) * 2.0;
    output1 = dl.dl(input, delay + (lfoVal * depth * delay) + 1, feedback) ;    
    output2 = dl2.dl(input, (delay + (lfoVal * depth * delay * 1.02) + 1) * 0.98, feedback * 0.99) ;    
    output1 *= (1.0 - fabs(output1));
    output2 *= (1.0 - fabs(output2));
    return (output1 + output2 + input) / 3.0;
}

class maxiEnvelopeFollower {
public:
    maxiEnvelopeFollower() {
        setAttack(100);
        setRelease(100);
        env = 0;
    }
    void setAttack(double attackMS);
    void setRelease(double releaseMS);
    inline double play(double input) {
        input = fabs(input);
        if (input>env)
            env = attack * (env - input) + input;
        else
            env = release * (env - input) + input;        
        return env;
    }
	void reset() {env=0;}
private:
    double attack, release, env;
};


*/
#endif