time_window.c 7.74 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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-----------------------------------------------------------------------------------------*/

/*------------------------------------------------------------------------
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 *   Apply time damping (after Brossier (2009))                                 
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 *  ----------------------------------------------------------------------*/
#include "fd.h"

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void time_window(float **sectiondata, int iter, int ntr_glob, int **recpos_loc, int ntr, int ns, int ishot){
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    /* declaration of variables */
    extern float DT;
    extern float GAMMA, TWLENGTH_PLUS, TWLENGTH_MINUS;
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    extern int TW_IND, USE_WORKFLOW, WORKFLOW_STAGE;
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    extern char PICKS_FILE[STRING_SIZE];
    char pickfile_char[STRING_SIZE];
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    float time, dumpa, dumpb, dumpc, dumpd;
    float dump1, dump2, dump3, dump4, dump5, dump6;
    float taper, taper1, taper2, taper3;
    float *pick_tmp, **pick_tmp_m, **dummysection=NULL;
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    int i, j, h;
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    float *picked_times=NULL, **picked_times_m=NULL;
    
    FILE *fptime;
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    if(TW_IND==1){
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        picked_times_m = matrix(1,3,1,ntr_glob);
        pick_tmp_m = matrix(1,3,1,ntr_glob);
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    }else if(TW_IND==2){
        picked_times_m = matrix(1,6,1,ntr_glob);
        pick_tmp_m = matrix(1,6,1,ntr_glob);
        dummysection = matrix(1,ntr,1,ns);
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    }else{
        picked_times = vector(1,ntr_glob);
        pick_tmp = vector(1,ntr_glob);
    }
    
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    /* read picked first arrival times */
    if(USE_WORKFLOW){
        sprintf(pickfile_char,"%s_%i_%i.dat",PICKS_FILE,ishot,WORKFLOW_STAGE);
        fptime=fopen(pickfile_char,"r");
        if (fptime == NULL) {
            sprintf(pickfile_char,"%s_%i.dat",PICKS_FILE,ishot);
            fptime=fopen(pickfile_char,"r");
            if (fptime == NULL) {
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                declare_error(" picks_?.dat could not be opened !");
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            }
        }
    }else{
        sprintf(pickfile_char,"%s_%i.dat",PICKS_FILE,ishot);
        fptime=fopen(pickfile_char,"r");
        if (fptime == NULL) {
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            declare_error(" picks_?.dat could not be opened !");
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        }
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    }
    
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    if(TW_IND==1){
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        for(i=1;i<=ntr_glob;i++){
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            fscanf(fptime,"%f%f%f",&dump1,&dump2,&dump3);
            pick_tmp_m[1][i] = dump1;
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            pick_tmp_m[2][i] = dump2;
            pick_tmp_m[3][i] = dump3;
        }
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    }else if(TW_IND==2){
        for(i=1;i<=ntr_glob;i++){
            fscanf(fptime,"%f%f%f%f%f%f",&dump1,&dump2,&dump3,&dump4,&dump5,&dump6);
            pick_tmp_m[1][i] = dump1;
            pick_tmp_m[2][i] = dump2;
            pick_tmp_m[3][i] = dump3;
            pick_tmp_m[4][i] = dump4;
            pick_tmp_m[5][i] = dump5;
            pick_tmp_m[6][i] = dump6;
        }
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    }else{
        for(i=1;i<=ntr_glob;i++){
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            fscanf(fptime,"%f",&dump1);
            pick_tmp[i] = dump1;
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        }
    }
    
    fclose(fptime);
    
    /* distribute picks on CPUs */
    h=1;
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    if(TW_IND==1){
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        for(i=1;i<=ntr;i++){
            picked_times_m[1][h] = pick_tmp_m[1][recpos_loc[3][i]];
            picked_times_m[2][h] = pick_tmp_m[2][recpos_loc[3][i]];
            picked_times_m[3][h] = pick_tmp_m[3][recpos_loc[3][i]];
            
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            h++;
        }
    }else if(TW_IND==2){
        for(i=1;i<=ntr;i++){
            picked_times_m[1][h] = pick_tmp_m[1][recpos_loc[3][i]];
            picked_times_m[2][h] = pick_tmp_m[2][recpos_loc[3][i]];
            picked_times_m[3][h] = pick_tmp_m[3][recpos_loc[3][i]];
            picked_times_m[4][h] = pick_tmp_m[4][recpos_loc[3][i]];
            picked_times_m[5][h] = pick_tmp_m[5][recpos_loc[3][i]];
            picked_times_m[6][h] = pick_tmp_m[6][recpos_loc[3][i]];
            
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            h++;
        }
    }else{
        for(i=1;i<=ntr;i++){
            picked_times[h] = pick_tmp[recpos_loc[3][i]];
            
            h++;
        }
    }
    
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    if(TW_IND==1)
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        free_matrix(pick_tmp_m,1,3,1,ntr_glob);
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    else if(TW_IND==2)
        free_matrix(pick_tmp_m,1,6,1,ntr_glob);
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    else
        free_vector(pick_tmp,1,ntr_glob);
    
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    if(TW_IND==1){
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        for(i=1;i<=ntr;i++){
        for(j=2;j<=ns;j++){
        
            time = (float)(j * DT);
            
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            dumpa = (time-picked_times_m[1][i]-picked_times_m[2][i]);
            taper = exp(-GAMMA*dumpa*dumpa);
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            dumpb = (time-picked_times_m[1][i]+picked_times_m[3][i]); 
            taper1 = exp(-GAMMA*dumpb*dumpb);
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            if(time>=picked_times_m[1][i]+picked_times_m[2][i]){
            sectiondata[i][j] = sectiondata[i][j] * taper;}
            
            if(time<=picked_times_m[1][i]-picked_times_m[3][i]){
            sectiondata[i][j] = sectiondata[i][j] * taper1;}
            
            sectiondata[i][j] = sectiondata[i][j];
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        }
        }
    }else if(TW_IND==2){
        for(i=1;i<=ntr;i++){
        for(j=2;j<=ns;j++){
        
            time = (float)(j * DT);
            
            dumpa = (time-picked_times_m[1][i]-picked_times_m[2][i]);
            taper = exp(-GAMMA*dumpa*dumpa);
            
            dumpb = (time-picked_times_m[1][i]+picked_times_m[3][i]); 
            taper1 = exp(-GAMMA*dumpb*dumpb);
            
            dummysection[i][j] = sectiondata[i][j];
            
            if(time>=picked_times_m[1][i]+picked_times_m[2][i]){
            dummysection[i][j] = sectiondata[i][j] * taper;}
            
            if(time<=picked_times_m[1][i]-picked_times_m[3][i]){
            dummysection[i][j] = sectiondata[i][j] * taper1;}
            
            dumpc = (time-picked_times_m[4][i]-picked_times_m[5][i]);
            taper2 = exp(-GAMMA*dumpc*dumpc);
            
            dumpd = (time-picked_times_m[4][i]+picked_times_m[6][i]); 
            taper3 = exp(-GAMMA*dumpd*dumpd);
            
            if(time>=picked_times_m[4][i]+picked_times_m[5][i]){
            sectiondata[i][j] = sectiondata[i][j] * taper2;}
            
            if(time<=picked_times_m[4][i]-picked_times_m[6][i]){
            sectiondata[i][j] = sectiondata[i][j] * taper3;}
            
            sectiondata[i][j] = sectiondata[i][j] + dummysection[i][j];
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        }
        }
    }else{
        for(i=1;i<=ntr;i++){
        for(j=2;j<=ns;j++){
        
            time = (float)(j * DT);
            
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            dumpa = (time-picked_times[i]-TWLENGTH_PLUS);
            taper = exp(-GAMMA*dumpa*dumpa);
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            dumpb = (time-picked_times[i]+TWLENGTH_MINUS); 
            taper1 = exp(-GAMMA*dumpb*dumpb);
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            if(time>=picked_times[i]+TWLENGTH_PLUS){
            sectiondata[i][j] = sectiondata[i][j] * taper;}
            
            if(time<=picked_times[i]-TWLENGTH_MINUS){
            sectiondata[i][j] = sectiondata[i][j] * taper1;}
            
            sectiondata[i][j] = sectiondata[i][j];
        }     
        }
    }
    
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    if(TW_IND==1){
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        free_matrix(picked_times_m,1,3,1,ntr_glob);
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    }else if(TW_IND==2){
        free_matrix(picked_times_m,1,6,1,ntr_glob);
        free_matrix(dummysection,1,ntr,1,ns);
    }else{
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        free_vector(picked_times,1,ntr_glob);
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    }
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} /* end of function time_window.c */