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/*
  ZynAddSubFX - a software synthesizer
 
  LFO.C - LFO implementation
  Copyright (C) 2002-2005 Nasca Octavian Paul
  Author: Nasca Octavian Paul

  This program is free software; you can redistribute it and/or modify
  it under the terms of version 2 of the GNU General Public License 
  as published by the Free Software Foundation.

  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 (version 2) for more details.

  You should have received a copy of the GNU General Public License (version 2)
  along with this program; if not, write to the Free Software Foundation,
  Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307 USA

*/

#include <stdlib.h>
#include <stdio.h>
#include <math.h>

#include "LFO.h"


LFO::LFO(LFOParams *lfopars,REALTYPE basefreq){
    if (lfopars->Pstretch==0) lfopars->Pstretch=1;
    REALTYPE lfostretch=pow(basefreq/440.0,(lfopars->Pstretch-64.0)/63.0);//max 2x/octave

    REALTYPE lfofreq=(pow(2,lfopars->Pfreq*10.0)-1.0)/12.0*lfostretch;
    incx=fabs(lfofreq)*(REALTYPE)SOUND_BUFFER_SIZE/(REALTYPE)SAMPLE_RATE;

    if (lfopars->Pcontinous==0){
	if (lfopars->Pstartphase==0) x=RND;
	else x=fmod((lfopars->Pstartphase-64.0)/127.0+1.0,1.0);
    } else {
	REALTYPE tmp=fmod(lfopars->time*incx,1.0);
	x=fmod((lfopars->Pstartphase-64.0)/127.0+1.0+tmp,1.0);
    };

    //Limit the Frequency(or else...)
    if (incx>0.49999999) incx=0.499999999;
    

    lfornd=lfopars->Prandomness/127.0;
    if (lfornd<0.0) lfornd=0.0; else if (lfornd>1.0) lfornd=1.0;

//    lfofreqrnd=pow(lfopars->Pfreqrand/127.0,2.0)*2.0*4.0;
    lfofreqrnd=pow(lfopars->Pfreqrand/127.0,2.0)*4.0;

    switch (lfopars->fel){
	case 1:lfointensity=lfopars->Pintensity/127.0;break;
	case 2:lfointensity=lfopars->Pintensity/127.0*4.0;break;//in octave
	default:lfointensity=pow(2,lfopars->Pintensity/127.0*11.0)-1.0;//in centi
		x-=0.25;//chance the starting phase
		break;
    };

    amp1=(1-lfornd)+lfornd*RND;
    amp2=(1-lfornd)+lfornd*RND;
    lfotype=lfopars->PLFOtype;
    lfodelay=lfopars->Pdelay/127.0*4.0;//0..4 sec
    incrnd=nextincrnd=1.0;
    freqrndenabled=(lfopars->Pfreqrand!=0);
    computenextincrnd();
    computenextincrnd();//twice because I want incrnd & nextincrnd to be random
};

LFO::~LFO(){
};

/*
 * LFO out
 */
REALTYPE LFO::lfoout(){
    REALTYPE out;    
    switch (lfotype){
	case 1: //LFO_TRIANGLE
		if ((x>=0.0)&&(x<0.25)) out=4.0*x;
		else if ((x>0.25)&&(x<0.75)) out=2-4*x;
		     else out=4.0*x-4.0;
		break;
	case 2: //LFO_SQUARE
		if (x<0.5) out=-1; 
		    else   out=1;
		break;
	case 3: //LFO_RAMPUP
		out=(x-0.5)*2.0;
		break;
	case 4: //LFO_RAMPDOWN
		out=(0.5-x)*2.0;
		break;
	case 5: //LFO_EXP_DOWN 1
		out=pow(0.05,x)*2.0-1.0;
		break;
	case 6: //LFO_EXP_DOWN 2
		out=pow(0.001,x)*2.0-1.0;
		break;
	default:out=cos(x*2.0*PI);//LFO_SINE
    };


    if ((lfotype==0)||(lfotype==1)) out*=lfointensity*(amp1+x*(amp2-amp1));
        else out*=lfointensity*amp2;
    if (lfodelay<0.00001) {
	    if (freqrndenabled==0) x+=incx;
		else {
		    float tmp=(incrnd*(1.0-x)+nextincrnd*x);
		    if (tmp>1.0) tmp=1.0;
			else if (tmp<0.0) tmp=0.0;
		    x+=incx*tmp;
		};
	    if (x>=1) {
		x=fmod(x,1.0);
		amp1=amp2;
		amp2=(1-lfornd)+lfornd*RND;

		computenextincrnd();
	    };
    } else lfodelay-=(REALTYPE)SOUND_BUFFER_SIZE/(REALTYPE)SAMPLE_RATE;
    return(out);
};

/*
 * LFO out (for amplitude)
 */
REALTYPE LFO::amplfoout(){
    REALTYPE out;
    out=1.0-lfointensity+lfoout();
    if (out<-1.0) out=-1.0;
	else if (out>1.0) out=1.0;
    return(out);
};


void LFO::computenextincrnd(){
	if (freqrndenabled==0) return;
	incrnd=nextincrnd;
	nextincrnd=pow(0.5,lfofreqrnd)+RND*(pow(2.0,lfofreqrnd)-1.0);
};