timedomain_filt_vector.c 3.9 KB
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/*-----------------------------------------------------------------------------------------
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 * Copyright (C) 2016  For the list of authors, see file AUTHORS.
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 *
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 * This file is part of IFOS.
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 * 
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 * IFOS is free software: you can redistribute it and/or modify
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 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, version 2.0 of the License only.
 * 
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 * IFOS is distributed in the hope that it will be useful,
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 * 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
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 * along with IFOS. See file COPYING and/or <http://www.gnu.org/licenses/gpl-2.0.html>.
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-----------------------------------------------------------------------------------------*/

/*------------------------------------------------------------------------
 *   Filter seismograms in time domain with a Butterworth filter
 *   Lowpass or highpass filtering can be applied                                  
 *  ----------------------------------------------------------------------*/
#include "fd.h"
#include "segy.h"
#include "cseife.h"

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void  timedomain_filt_vector(float * data, float fc, int order, int ns, int method){
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	/* 
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	data	: 	1-dimensional array containing seismograms (
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	fc	:	corner frequency in Hz
	order	:	order of filter
	ntr	:	number of traces
	ns	:	number of samples
	method	:	definition of filter
			1: lowpass filter
			2: highpass filter
	*/
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    /* declaration of external variables */
    extern float DT, F_HP;
    extern int ZERO_PHASE, NT,MYID;
    
    /* declaration of local variables */
    int itr, j, ns_reverse;
    double *seismogram, *seismogram_reverse, T0;
    double *seismogram_hp, *seismogram_reverse_hp, T0_hp;
    
    if ((order%2)!=0){
        declare_error("Order of timedomain filter must be an even number!");}
    
    seismogram = dvector(1,ns);
    if (ZERO_PHASE==1) seismogram_reverse = dvector(1,ns);
    
    seismogram_hp = dvector(1,ns);
    if (ZERO_PHASE==1) seismogram_reverse_hp = dvector(1,ns);
    
    T0=1.0/(double)fc;
    if(F_HP)
        T0_hp=1.0/(double)F_HP;
    if(method==2)
        T0_hp=1.0/(double)fc;
        
    if (method==1){    /* lowpass filter */
        for (j=1;j<=ns;j++){
            seismogram[j]=(double)data[j];
        }
        
        seife_lpb(seismogram,ns+1,DT,T0,order); /* ns+1 because vector[0] is also allocated and otherwise seife_lpb do not filter the last sample */
        
        if (ZERO_PHASE==1){
        ns_reverse=ns;
            for (j=1;j<=ns;j++) {
                seismogram_reverse[ns_reverse]=seismogram[j];
                ns_reverse--;}
        seife_lpb(seismogram_reverse,ns+1,DT,T0,order);
        ns_reverse=ns; 
            for (j=1;j<=ns;j++) {
                seismogram[ns_reverse]=seismogram_reverse[j];
                ns_reverse--;}
        }
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        for (j=1;j<=ns;j++){
            data[j]=(float)seismogram[j];
        }
    }

    if ((method==2)||(F_HP)){   /*highpass filter*/
        for (j=1;j<=ns;j++){
            seismogram_hp[j]=(double)data[j];
        }
        
        seife_hpb(seismogram_hp,ns+1,DT,T0_hp,order);
        
        if (ZERO_PHASE==1){
        ns_reverse=ns;
            for (j=1;j<=ns;j++) {
                seismogram_reverse_hp[ns_reverse]=seismogram_hp[j];
                ns_reverse--;}
        seife_hpb(seismogram_reverse_hp,ns+1,DT,T0_hp,order);
        ns_reverse=ns;
            for (j=1;j<=ns;j++) {
                seismogram_hp[ns_reverse]=seismogram_reverse_hp[j];
                ns_reverse--;}
        }
        for (j=1;j<=ns;j++){
            data[j]=(float)seismogram_hp[j];
        }
    }
    
    free_dvector(seismogram,1,ns);
    if (ZERO_PHASE==1) free_dvector(seismogram_reverse,1,ns);

    free_dvector(seismogram_hp,1,ns);
    if (ZERO_PHASE==1) free_dvector(seismogram_reverse_hp,1,ns);

}