Exemplo n.º 1
0
int main(int argc, char **argv)
{
    int c;
    int inflag = 0;
    int dbg = 0;
    int sr_ds = 200;
    char * rec_name = "vfdb/427";
    char * db_path = "/opt/physiobank/database";
    size_t win_sec = 8;
    /* r stands for record with folder
     * p for path
     * i for information of record
     * s downsample sr
     * w window length default:8
     * d debug
     */
    while ((c = getopt(argc, argv, "idr:p:s:w:")) != -1)
        switch (c){
            case 'i':
                inflag = 1; 
                break;
            case 'r':
                rec_name = optarg;
                break;
            case 'p':
                db_path = optarg;
                break;
            case 's':
                sr_ds= atoi(optarg);
                break;
            case'w':
                win_sec = atoi(optarg);
                break;
            case'd':
                dbg = 1;
                break;
            default:
                abort();
        }            
    int i, j, nsig;
    WFDB_Sample *v;
    WFDB_Siginfo *s;
    WFDB_Anninfo a;
    setwfdb(db_path);
    
    nsig = isigopen(rec_name, NULL, 0);
    if (nsig < 1){
        printf("nsig:%d\n",nsig);
        exit(1);
    }
    s = (WFDB_Siginfo *)malloc(nsig * sizeof(WFDB_Siginfo));
    if (isigopen(rec_name, s, nsig) != nsig)
        exit(1);
    v = (WFDB_Sample *)malloc(nsig * sizeof(WFDB_Sample));

    int orig_sr = sampfreq(rec_name);
    a.name = "atr"; a.stat = WFDB_READ;
    if (wfdbinit(rec_name, &a, 1, s, nsig) != nsig) exit(3);
    if(1 == inflag ){
        printf("sr:%d\n",orig_sr);
        printf("%d signals\n", nsig);
        for (i = 0; i < nsig; i++) {
            printf("Group %d, Signal %d:\n", s[i].group, i); 
            printf("File: %s\n", s[i].fname);
            printf("Description: %s\n", s[i].desc);
            printf("Gain: ");
            if (s[i].gain == 0.) 
                printf("uncalibrated; assume %g", WFDB_DEFGAIN);
            else printf("%g", s[i].gain);
            printf(" adu/%s\n", s[i].units ? s[i].units : "mV");
            printf(" Initial value: %d\n", s[i].initval);
            printf(" Storage format: %d\n", s[i].fmt);
            printf(" I/O: ");
            if (s[i].bsize == 0) printf("can be unbuffered\n");
            else printf("%d-byte blocks\n", s[i].bsize);
            printf(" ADC resolution: %d bits\n", s[i].adcres);
            printf(" ADC zero: %d\n", s[i].adczero);
            if (s[i].nsamp > 0L) {
                printf(" Length: %s (%ld sample intervals)\n",
                       timstr(s[i].nsamp), s[i].nsamp);
                printf(" Checksum: %d\n", s[i].cksum);
            }
            else printf(" Length undefined\n");
        }
    }

    fifo_t fifo_ecg;
    int fifo_ecg_buf[FIFO_SIZE];
    fifo_init(&fifo_ecg, fifo_ecg_buf, FIFO_SIZE);

    fifo_t fifo_bt;
    int fifo_bt_buf[FIFO_SIZE];
    fifo_init(&fifo_bt, fifo_bt_buf, FIFO_SIZE);

    int tmp = 0;
    int sr = 200;
    WFDB_Time begin_samp = 0;
    WFDB_Time end_samp = orig_sr*win_sec;
    WFDB_Annotation begin_ann;
    WFDB_Annotation end_ann;
    getann(0, &begin_ann);
    while(0 == getann(0, &end_ann))
         if ((end_ann.aux != NULL && *end_ann.aux > 0)
                    ||0 == strcmp(annstr(end_ann.anntyp), "[")
                    ||0 == strcmp(annstr(end_ann.anntyp), "]")
                    ||0 == strcmp(annstr(end_ann.anntyp), "~")
                ){
            break;
        }
    
    int * pBt_len = (int*)calloc(win_sec,sizeof(int));
    ResetBDAC();
    for (; ;) {
        if (getvec(v) < 0)
            break;
//        for (j = 0; j < nsig; j++){
//        }
        tmp = v[nsig-1];
        tmp = v[0];
        int vout1 = 0;
        static int bt_i = 0;
        static unsigned int samplecnt = 0;
        int idx = 0;
        if(down_sample(tmp, &vout1, orig_sr, sr)) {
                samplecnt ++;
                fifo_write(&fifo_ecg, &vout1, 1*sizeof(int));
                int beatType, beatMatch;
                long ltmp = vout1-s[0].adczero;
                ltmp *= 200; ltmp /= s[0].gain;
                int bdac_dly = BeatDetectAndClassify(ltmp, &beatType, &beatMatch);
                idx = bt_i/sr;
                if (0 != bdac_dly ) {
                    pBt_len[idx]++;
                    fifo_write(&fifo_bt, &beatType, sizeof(int));
                }
                bt_i = ++bt_i%(win_sec*sr);
        }

        double cm = 0.0;

        int size = win_sec*sr;
        if(fifo_len(&fifo_ecg)/sizeof(int) >= sr*win_sec){
            int * win_data = (int*)malloc(win_sec*sr*sizeof(int));
            int * ds_data = (int*)malloc(win_sec*sr_ds*sizeof(int));
            
            int len = fifo_len(&fifo_bt)/sizeof(int);
            int * p = (int*)calloc(len, sizeof(int));
           
            if (0 != len){
               //printf("bt_i:%d\n", bt_i);
                fifo_read_steps(&fifo_bt, p, len*sizeof(int), pBt_len[bt_i/sr]*sizeof(int));
                //for (i = 0;i< len;i++) printf("%d ", p[i]);
                //printf("\n");

            }
            pBt_len[bt_i/sr] = 0;
            
            fifo_read_steps(&fifo_ecg, win_data, size*sizeof(int), sr*sizeof(int));
            filtering(win_data, size, sr);
            int i = 0;
            int ds_size = 0;
            int vout;
            for(i = 0;i < size;i++){
               // if(down_sample(win_data[i], &vout, sr, sr_ds)) ds_data[ds_size++] = vout;
            }
            double dven = 0.0;

            if (0 != len){
                int tmp_cnt = 0;
                for(i = 0; i < len ; i++){
                    if(5 == p[i]) dven ++;
                }
                //printf("div:%d %d\n", tmp_cnt, len);
                dven /= len; 
            }
                         
            //cm = ecg_complexity_measure(win_data, size);
            //cm = ecg_complexity_measure(ds_data, ds_size);
            //cm = cpsd(ds_data, ds_size, 0.5*sr_ds);
            //cm = calc_grid(ds_data, ds_size, 0.5*sr_ds);
            cm = calc_grid(win_data, size, 0.5*sr);


        
            if (-1 == cm ) continue;
            //VT print 1;
            //VF print 2;
            
            int hr =  (int)((double)(len*60)/win_sec+0.5);
            int ret = check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "(VT");
            if (1 == ret){
                printf("%d %lf %lf %d\n", 1, cm, dven, hr);
            } else if (0 == ret) {
                ret = check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "(VFL");
                int ret2 = check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "[");
                if (1 == ret || 1 == ret2){
                    printf("%d %lf %lf %d\n", 2, cm, dven, hr);
                } else if (0 == ret){
//                    ret = check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "(N");
//                    int ret3 = check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "N");
//                    if ((1 == ret  || 1 == ret3) && -1 != begin_ann.subtyp) printf ("%d %lf %lf %d\n", 0, cm, dven, hr); 

                    if (1 == check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "(AFIB") 
                        || 1 == check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "(AFL")
                        || 1 == check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "(IVR")
                        || 1 == check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "(SVTA")
                        || 1 == check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "(SBR")
                        || 1 == check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "(BII")
                       ) printf ("%d %lf %lf %d\n", 0, cm, dven, hr); 
                    
                   // int ret = check_ann(begin_samp, end_samp, &begin_ann, &end_ann, "(SVTA");
                   // if (1 == ret)  printf ("%d %lf\n", 0, cm); 
                }
            }
            //iannsettime(begin_samp);
            begin_samp += orig_sr;
            end_samp += orig_sr;
            if(end_ann.time < begin_samp){
                begin_ann = end_ann;
                
                while(1)
                    if (0 != getann(0, &end_ann)){
                        end_ann = begin_ann;
                        /*the last sample of the signal*/
                        end_ann.time = s[nsig-1].nsamp;
                        break;
                    }else if ((end_ann.aux != NULL && *end_ann.aux > 0)
                                ||0 == strcmp(annstr(end_ann.anntyp), "[")
                                ||0 == strcmp(annstr(end_ann.anntyp), "]")
                                ||0 == strcmp(annstr(end_ann.anntyp), "~")
                            ){
                        break;
                    }
                if(dbg){
                    printf("begin tm:%s type:%s ", mstimstr(begin_ann.time), annstr(begin_ann.anntyp));
                    if(begin_ann.aux != NULL)
                        printf("begin aux:%s", begin_ann.aux+1);
                    printf("\n");
                    printf("end tm:%s type:%s ", mstimstr(end_ann.time), annstr(end_ann.anntyp));
                    if (end_ann.aux != NULL)
                        printf("end aux:%s", end_ann.aux+1);
                    printf("\n");

                    printf("begin sample:%s\n", mstimstr(begin_samp));
                    printf("ann diff:%s\n", mstimstr(end_ann.time-begin_ann.time));
                }
            }
            free(p);
            free(ds_data);
            free(win_data);
        }

    }
    free(pBt_len);
    wfdbquit();
    return 0;
}
Exemplo n.º 2
0
MAINTYPE main()
	{
	char record[10], fname[20] ;
	int i, ecg[2], delay, recNum ;
	WFDB_Siginfo s[2] ;
	WFDB_Anninfo a[2] ;
	WFDB_Annotation annot ;

	unsigned char byte ;
	FILE *newAnn0, *newAnn1 ;
	long SampleCount = 0, lTemp, DetectionTime ;
	int beatType, beatMatch ;

	// Set up path to database directory

	setwfdb(ECG_DB_PATH) ;

	// Analyze all 48 MIT/BIH Records.

	for(recNum = 0; recNum < REC_COUNT; ++recNum)
		{
		sprintf(record,"%d",Records[recNum]) ;
		printf("Record %d\n",Records[recNum]) ;

		// Open a 2 channel record

		if(isigopen(record,s,2) < 1)
			{
			printf("Couldn't open %s\n",record) ;
			return ;
			}

		ADCZero = s[0].adczero ;
		ADCUnit = s[0].gain ;
		InputFileSampleFrequency = sampfreq(record) ;

		// Setup for output annotations

		a[0].name = "atest"; a[0].stat = WFDB_WRITE ;

		if(annopen(record, a, 1) < 0)
			return ;

		// Initialize sampling frequency adjustment.

		NextSample(ecg,2,InputFileSampleFrequency,SAMPLE_RATE,1) ;

		// Initialize beat detection and classification.

		ResetBDAC() ;
		SampleCount = 0 ;

		// Read data from MIT/BIH file until there is none left.

		while(NextSample(ecg,2,InputFileSampleFrequency,SAMPLE_RATE,0) >= 0)
			{
			++SampleCount ;

			// Set baseline to 0 and resolution to 5 mV/lsb (200 units/mV)

			lTemp = ecg[0]-ADCZero ;
			lTemp *= 200 ;			lTemp /= ADCUnit ;			ecg[0] = lTemp ;

			// Pass sample to beat detection and classification.

			delay = BeatDetectAndClassify(ecg[0], &beatType, &beatMatch) ;

			// If a beat was detected, annotate the beat location
			// and type.

			if(delay != 0)
				{
				DetectionTime = SampleCount - delay ;

				// Convert sample count to input file sample
				// rate.

				DetectionTime *= InputFileSampleFrequency ;
				DetectionTime /= SAMPLE_RATE ;
				annot.time = DetectionTime ;
				annot.anntyp = beatType ;
				annot.aux = NULL ;
				putann(0,&annot) ;
				}
			}

		// Reset database after record is done.

		wfdbquit() ;

#if 0
		/* This code is obsolete.  The annotation files are always
		   written into "<record>.ate" in the current directory.
                   They do not need to be copied in order to be read by bxbep,
		   if the WFDB path includes both the current current directory
		   and the one containing the .atr reference annotation files.
                 */

		// Copy "atest.<record>" to "<record>.ate" for future ascess.
		// (This is necessary for PC files)

		sprintf(fname,"%s.ate",record) ;
		newAnn0 = fopen(fname,"rb") ;
		sprintf(fname,"%s%s.ate",ECG_DB_PATH,record) ;
		newAnn1 = fopen(fname,"wb") ;

		// Copy byte image of annotation file in this
		// directory to a correctly named file in the
		// database directory.

		while(fread(&byte,sizeof(char),1,newAnn0) == 1)
			fwrite(&byte,sizeof(char),1,newAnn1) ;

		fclose(newAnn0) ;
		fclose(newAnn1) ;
#endif
		}
	}