/* rrlist.c Joe Mietus Apr 1 2011 */ /* rrlist.c Joe Mietus Oct 7 2008 */ /* rrlist : Usage: rrlist annotator tape [options] options are : [-f start] : begin at time 'start' [-t end] : end at time 'end' [-l length] : output for duration 'length' [-n count] : output 'count' intervals [-c] : output time in hh:mm:ss in first column [-h] : output time in hours in first column [-m] : output time in minutes in first column [-s] : output time in seconds in first column [-e] : output elapsed time from start [-a annotation] : list only intervals between consecutive annotations [-r] : output ratio of specified annotation intervals to RR intervals [-H] : high precision intervals (8 significant digits vs 3) [-M] : output intervals in msec */ #include #include #include main(argc, argv) int argc; char *argv[]; { int i, nrr, nann, cnt, annotation; int cflag, hflag, mflag, sflag, eflag, aflag, rflag, hipre, msec; long start, end, length; double sps; struct WFDB_anninfo ai[1]; struct WFDB_ann annot[2]; if (argc < 3) { usage(argv[0]); exit(1); } nrr = nann = cnt = 0; cflag = hflag = mflag = sflag = eflag = aflag = rflag = hipre = msec = 0; start = end = length = 0L; sps = sampfreq(argv[2]); ai[0].name = argv[1]; ai[0].stat = WFDB_READ; if (annopen(argv[2], ai, 1) < 0) exit(2); for (i=2; ++i < argc && *argv[i] == '-'; ) { switch(argv[i][1]) { case 'f': start = strtim(argv[++i]); break; case 't': end = strtim(argv[++i]); break; case 'l': length = strtim(argv[++i]); break; case 'n': cnt = atoi(argv[++i]); break; case 'c': cflag = 1; break; case 'h': hflag = 1; break; case 'm': mflag = 1; break; case 's': sflag = 1; break; case 'e': eflag = 1; break; case 'a': annotation = strann(argv[++i]); aflag = 1; break; case 'r': rflag = 1; break; case 'H': hipre = 1; break; case 'M': msec = 1; break; default: usage(argv[0]); exit(1); } } if (end == 0L && length != 0L) end = start + length; if (iannsettime(start) < 0) exit(2); if (!eflag) start = 0L; while (getann(0, &annot[0]) >= 0) { if (isqrs(annot[0].anntyp)) nrr++; if ((!aflag && isqrs(annot[0].anntyp)) || (aflag && annot[0].anntyp == annotation)) break; } nrr--; if (cnt != 0) { while (getann(0, &annot[1]) >= 0 && (nann < cnt)) { if ((!aflag && isqrs(annot[1].anntyp)) || (aflag && annot[0].anntyp == annotation && annot[1].anntyp == annotation)) { if (cflag) printf("%s ", mstimstr(annot[1].time-start)); else if (hflag) printf("%.8f ", (annot[1].time-start)/(sps*3600)); else if (mflag) printf("%.6f ", (annot[1].time-start)/(sps*60)); else if (sflag) printf("%.3f ", (annot[1].time-start)/sps); if (hipre) { if(msec) printf("%.5f %s\n", 1000*(annot[1].time - annot[0].time)/sps, annstr(annot[1].anntyp)); else printf("%.8f %s\n", (annot[1].time - annot[0].time)/sps, annstr(annot[1].anntyp)); } else { if(msec) printf("%.0f %s\n", 1000*(annot[1].time - annot[0].time)/sps, annstr(annot[1].anntyp)); else printf("%.3f %s\n", (annot[1].time - annot[0].time)/sps, annstr(annot[1].anntyp)); } nann++; } if (isqrs(annot[1].anntyp)) { nrr++; annot[0] = annot[1]; } } if (nann < cnt) fprintf(stderr, "%s: insufficient data points (n = %d)\n", argv[0], nann); } else { while (getann(0, &annot[1]) >= 0 && (annot[1].time <= end || end == 0L)) { if ((!aflag && isqrs(annot[1].anntyp)) || (aflag && annot[0].anntyp == annotation && annot[1].anntyp == annotation)) { if (cflag) printf("%s ", mstimstr(annot[1].time-start)); else if (hflag) printf("%.8f ", (annot[1].time-start)/(sps*3600)); else if (mflag) printf("%.6f ", (annot[1].time-start)/(sps*60)); else if (sflag) printf("%.3f ", (annot[1].time-start)/sps); if (hipre) { if(msec) printf("%.5f %s\n", 1000*(annot[1].time - annot[0].time)/sps, annstr(annot[1].anntyp)); else printf("%.8f %s\n", (annot[1].time - annot[0].time)/sps, annstr(annot[1].anntyp)); } else { if(msec) printf("%.0f %s\n", 1000*(annot[1].time - annot[0].time)/sps, annstr(annot[1].anntyp)); else printf("%.3f %s\n", (annot[1].time - annot[0].time)/sps, annstr(annot[1].anntyp)); } nann++; } if (isqrs(annot[1].anntyp)) { nrr++; annot[0] = annot[1]; } } } if (rflag) { if (nrr == -1) nrr = 0; fprintf(stderr, "%s%s : RR = %d : %d = %.3f\n", annstr(annotation), annstr(annotation), nann, nrr, nrr==0 ? 0 : (float)nann/nrr); } exit(0); } usage(prog) char *prog; { fprintf(stderr, "Usage: %s annotator tape [options]\n", prog); fprintf(stderr, "options are :\n"); fprintf(stderr, " [-f start] : begin at time 'start'\n"); fprintf(stderr, " [-t end] : end at time 'end'\n"); fprintf(stderr, " [-l length] : output for duration 'length'\n"); fprintf(stderr, " [-n count] : output 'count' intervals\n"); fprintf(stderr, " [-c] : output time in hh:mm:ss in first column\n"); fprintf(stderr, " [-h] : output time in hours in first column\n"); fprintf(stderr, " [-m] : output time in minutes in first column\n"); fprintf(stderr, " [-s] : output time in seconds in first column\n"); fprintf(stderr, " [-e] : output elapsed time from start\n"); fprintf(stderr, " [-a annotation] : "); fprintf(stderr, " list only intervals between consecutive annotations\n"); fprintf(stderr, " [-r] : "); fprintf(stderr, "output ratio of specified annotation intervals "); fprintf(stderr, "to RR intervals\n"); fprintf(stderr, " [-H] : high precision intervals "); fprintf(stderr, "(8 significant digits vs 3)\n"); fprintf(stderr, " [-M] : output intervals in msec\n"); }