void UI_BIOSEMI2BDFPLUSwindow::SelectFileButton() { int i, j, k, error, hdl_in, hdl_out, edfsignals, status_signal=0, status_samples_in_datarecord=0, rising_edge, set_duration, status[24], totalSamplesInDatarecord, *buf, buf_offset[EDFLIB_MAXSIGNALS], sf, new_sf, samplerate_divider; char str[2048], triggerlabel[24][64], outputfilename[MAX_PATH_LENGTH]; long long datarecords, status_sample_duration, trigger_cnt, progress_steps; struct edf_hdr_struct hdr; struct annotationblock *annotlist=NULL; struct annotationblock *annotation; for(i=0; i<16; i++) { if(!lineEdit1[i]->text().length()) { sprintf(str, "Trigger Input label %i is empty!", i + 1); QMessageBox messagewindow(QMessageBox::Critical, "Error", str); messagewindow.exec(); return; } } for(i=0; i<16; i++) { for(j=0; j<16; j++) { if(i != j) { if(!strcmp(lineEdit1[i]->text().toLocal8Bit().data(), lineEdit1[j]->text().toLocal8Bit().data())) { sprintf(str, "Trigger Input labels %i and %i are the same!", i + 1, j + 1); QMessageBox messagewindow(QMessageBox::Critical, "Error", str); messagewindow.exec(); return; } } } } str[0] = 0; strcpy(inputpath, QFileDialog::getOpenFileName(0, "Select inputfile", QString::fromLocal8Bit(recent_opendir), "BDF files (*.bdf *.BDF)").toLocal8Bit().data()); if(!strcmp(inputpath, "")) { return; } get_directory_from_path(recent_opendir, inputpath, MAX_PATH_LENGTH); error = edfopen_file_readonly(inputpath, &hdr, EDFLIB_DO_NOT_READ_ANNOTATIONS); if(error < 0) { error = hdr.filetype; switch(error) { case EDFLIB_MALLOC_ERROR : strcpy(str, "EDFlib: malloc error."); break; case EDFLIB_NO_SUCH_FILE_OR_DIRECTORY : strcpy(str, "EDFlib: no such file or directory."); break; case EDFLIB_FILE_CONTAINS_FORMAT_ERRORS : strcpy(str, "EDFlib: file contains format errors.\nOpen the file in EDFbrowser to get more info."); break; case EDFLIB_MAXFILES_REACHED : strcpy(str, "EDFlib: maximum amount of files reached."); break; case EDFLIB_FILE_READ_ERROR : strcpy(str, "EDFlib: a file read error occurred."); break; case EDFLIB_FILE_ALREADY_OPENED : strcpy(str, "EDFlib: file is already opened."); break; case EDFLIB_FILETYPE_ERROR : strcpy(str, "EDFlib: filetype error."); break; case EDFLIB_FILE_WRITE_ERROR : strcpy(str, "EDFlib: file write error."); break; case EDFLIB_NUMBER_OF_SIGNALS_INVALID : strcpy(str, "EDFlib: invalid number of signals."); break; case EDFLIB_FILE_IS_DISCONTINUOUS : strcpy(str, "EDFlib: file is discontinuous."); break; case EDFLIB_INVALID_READ_ANNOTS_VALUE : strcpy(str, "EDFlib: invalid read annotations argument."); break; default : strcpy(str, "EDFlib: unknown error."); } QMessageBox messagewindow(QMessageBox::Critical, "Error", str); messagewindow.exec(); return; } hdl_in = hdr.handle; /////////////////// check file ///////////////////////////////////////////// if(hdr.filetype == EDFLIB_FILETYPE_BDFPLUS) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "Selected file is already a BDF-plus file."); messagewindow.exec(); edfclose_file(hdl_in); return; } if(hdr.filetype != EDFLIB_FILETYPE_BDF) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "Selected file is not a BDF file."); messagewindow.exec(); edfclose_file(hdl_in); return; } if(hdr.datarecord_duration != EDFLIB_TIME_DIMENSION) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "Datarecord duration of inputfile must be 1 second."); messagewindow.exec(); edfclose_file(hdl_in); return; } edfsignals = hdr.edfsignals; if(edfsignals < 1) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "There are no signals in the selected file."); messagewindow.exec(); edfclose_file(hdl_in); return; } sf = hdr.signalparam[0].smp_in_datarecord; for(i=1; i<edfsignals; i++) { if(hdr.signalparam[i].smp_in_datarecord != sf) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "All signals must have the same samplefrequency."); messagewindow.exec(); edfclose_file(hdl_in); return; } } error = 1; switch(sf) { case 16384 : error = 0; break; case 8192 : error = 0; break; case 4096 : error = 0; break; case 2048 : error = 0; break; case 1024 : error = 0; break; case 512 : error = 0; break; case 256 : error = 0; break; case 128 : error = 0; break; case 64 : error = 0; break; case 32 : error = 0; break; } if(error) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "Samplefrequency must be 16384, 8192, 4096, 2048, 1024, 512, 256, 128, 64 or 32 Hz."); messagewindow.exec(); edfclose_file(hdl_in); return; } for(i=0; i<edfsignals; i++) { if(!(strcmp(hdr.signalparam[i].label, "Status "))) { status_signal = i; break; } } if(i == edfsignals) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "There is no Status signal in the selected file."); messagewindow.exec(); edfclose_file(hdl_in); return; } totalSamplesInDatarecord = 0; for(i=0; i<edfsignals; i++) { buf_offset[i] = totalSamplesInDatarecord; if(i == status_signal) { status_samples_in_datarecord = hdr.signalparam[i].smp_in_datarecord; } totalSamplesInDatarecord += hdr.signalparam[i].smp_in_datarecord; } status_sample_duration = EDFLIB_TIME_DIMENSION / (long long)status_samples_in_datarecord; for(i=0; i<16; i++) { strcpy(&triggerlabel[i][0], lineEdit1[i]->text().toUtf8().data()); triggerlabel[i][16] = 0; } strcpy(&triggerlabel[16][0], "new epoch"); if(radioButton1->isChecked() == true) { rising_edge = 1; for(i=0; i<16; i++) { status[i] = 1; } } else { rising_edge = 0; for(i=0; i<16; i++) { status[i] = 0; } } if(checkBox1->isChecked() == true) { set_duration = 1; } else { set_duration = 0; } for(i=16; i<24; i++) { status[i] = 1; } strcpy(outputfilename, inputpath); remove_extension_from_filename(outputfilename); strcat(outputfilename, "_+.bdf"); outputpath[0] = 0; if(recent_savedir[0]!=0) { strcpy(outputpath, recent_savedir); strcat(outputpath, "/"); } strcat(outputpath, outputfilename); strcpy(outputpath, QFileDialog::getSaveFileName(0, "Output file", QString::fromLocal8Bit(outputpath), "BDF files (*.bdf *.BDF)").toLocal8Bit().data()); if(!strcmp(outputpath, "")) { edfclose_file(hdl_in); return; } get_directory_from_path(recent_savedir, outputpath, MAX_PATH_LENGTH); if(mainwindow->file_is_opened(outputpath)) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "Outputfile is already opened in EDFbrowser.\nClose the file and try again."); messagewindow.exec(); edfclose_file(hdl_in); return; } if(!(strcmp(inputpath, outputpath))) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "Inputfile and outputfile are the same."); messagewindow.exec(); edfclose_file(hdl_in); return; } hdl_out = edfopen_file_writeonly(outputpath, EDFLIB_FILETYPE_BDFPLUS, edfsignals); if(hdl_out < 0) { switch(hdl_out) { case EDFLIB_MALLOC_ERROR : strcpy(str, "EDFlib: malloc error."); break; case EDFLIB_NO_SUCH_FILE_OR_DIRECTORY : strcpy(str, "EDFlib: no such file or directory."); break; case EDFLIB_MAXFILES_REACHED : strcpy(str, "EDFlib: maximum amount of files reached."); break; case EDFLIB_FILE_READ_ERROR : strcpy(str, "EDFlib: a file read error occurred."); break; case EDFLIB_FILE_ALREADY_OPENED : strcpy(str, "EDFlib: file is already opened."); break; case EDFLIB_FILETYPE_ERROR : strcpy(str, "EDFlib: filetype error."); break; case EDFLIB_FILE_WRITE_ERROR : strcpy(str, "EDFlib: file write error."); break; case EDFLIB_NUMBER_OF_SIGNALS_INVALID : strcpy(str, "EDFlib: invalid number of signals."); break; default : strcpy(str, "EDFlib: unknown error."); } QMessageBox messagewindow(QMessageBox::Critical, "Error", str); messagewindow.exec(); edfclose_file(hdl_in); return; } /////////////////// copy header ///////////////////////////////////////////// for(i=0; i<edfsignals; i++) { edf_set_samplefrequency(hdl_out, i, hdr.signalparam[i].smp_in_datarecord); edf_set_physical_maximum(hdl_out, i, hdr.signalparam[i].phys_max); edf_set_physical_minimum(hdl_out, i, hdr.signalparam[i].phys_min); edf_set_digital_maximum(hdl_out, i, hdr.signalparam[i].dig_max); edf_set_digital_minimum(hdl_out, i, hdr.signalparam[i].dig_min); edf_set_label(hdl_out, i, hdr.signalparam[i].label); edf_set_prefilter(hdl_out, i, hdr.signalparam[i].prefilter); edf_set_transducer(hdl_out, i, hdr.signalparam[i].transducer); edf_set_physical_dimension(hdl_out, i, hdr.signalparam[i].physdimension); } edf_set_startdatetime(hdl_out, hdr.startdate_year, hdr.startdate_month, hdr.startdate_day, hdr.starttime_hour, hdr.starttime_minute, hdr.starttime_second); edf_set_patientname(hdl_out, hdr.patient); edf_set_recording_additional(hdl_out, hdr.recording); /////////////////// collect triggers ///////////////////////////////////////////// buf = (int *)malloc(sizeof(int) * status_samples_in_datarecord); if(buf == NULL) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "Malloc error (buf)."); messagewindow.exec(); edfclose_file(hdl_in); edfclose_file(hdl_out); return; } QProgressDialog progress("Collecting triggers...", "Abort", 0, (int)hdr.datarecords_in_file); progress.setWindowModality(Qt::WindowModal); progress.setMinimumDuration(200); progress_steps = hdr.datarecords_in_file / 100LL; if(progress_steps < 1LL) { progress_steps = 1LL; } trigger_cnt = 0; for(datarecords = 0LL; datarecords < hdr.datarecords_in_file; datarecords++) { if(trigger_cnt >= ((hdr.datarecords_in_file * 32) - 2)) { break; } if(trigger_cnt >= 100000) { break; } if(!(datarecords % progress_steps)) { progress.setValue((int)datarecords); qApp->processEvents(); if(progress.wasCanceled()) { edfclose_file(hdl_in); edfclose_file(hdl_out); free(buf); edfplus_annotation_delete_list(&annotlist); return; } } if(edfread_digital_samples(hdl_in, status_signal, status_samples_in_datarecord, buf) < 0) { progress.reset(); QMessageBox messagewindow(QMessageBox::Critical, "Error", "A read error occurred during the collection of triggers."); messagewindow.exec(); edfclose_file(hdl_in); edfclose_file(hdl_out); free(buf); edfplus_annotation_delete_list(&annotlist); return; } for(i=0; i<status_samples_in_datarecord; i++) { for(j=0; j<17; j++) { if(((buf[i] & (1 << j)) && !status[j]) || (!(buf[i] & (1 << j)) && status[j])) // rising or falling edge detected { if(status[j]) // falling edge detected { if((!rising_edge) && (j < 16)) { annotation = (struct annotationblock *)calloc(1, sizeof(struct annotationblock)); if(annotation == NULL) { progress.reset(); QMessageBox messagewindow(QMessageBox::Critical, "Error", "Malloc error (annotation)."); messagewindow.exec(); edfclose_file(hdl_in); edfclose_file(hdl_out); free(buf); edfplus_annotation_delete_list(&annotlist); return; } annotation->onset = (datarecords * EDFLIB_TIME_DIMENSION) + ((long long)i * status_sample_duration); annotation->onset += hdr.starttime_subsecond; strcpy(annotation->annotation, triggerlabel[j]); edfplus_annotation_add_item(&annotlist, annotation); trigger_cnt++; } else { if(set_duration) { k = edfplus_annotation_count(&annotlist); for(; k>0; k--) { annotation = edfplus_annotation_item(&annotlist, k - 1); if(annotation == NULL) { break; } if(!strcmp(annotation->annotation, triggerlabel[j])) { sprintf(str, "%.4f", (double)((datarecords * EDFLIB_TIME_DIMENSION) + ((long long)i * status_sample_duration) - annotation->onset) / (double)EDFLIB_TIME_DIMENSION); str[15] = 0; strcpy(annotation->duration, str); break; } } } } status[j] = 0; } else // rising edge detected { if(rising_edge || (j == 16)) { annotation = (struct annotationblock *)calloc(1, sizeof(struct annotationblock)); if(annotation == NULL) { progress.reset(); QMessageBox messagewindow(QMessageBox::Critical, "Error", "Malloc error (annotation)."); messagewindow.exec(); edfclose_file(hdl_in); edfclose_file(hdl_out); free(buf); edfplus_annotation_delete_list(&annotlist); return; } annotation->onset = (datarecords * EDFLIB_TIME_DIMENSION) + ((long long)i * status_sample_duration); annotation->onset += hdr.starttime_subsecond; strcpy(annotation->annotation, triggerlabel[j]); edfplus_annotation_add_item(&annotlist, annotation); trigger_cnt++; } else { if(set_duration) { k = edfplus_annotation_count(&annotlist); for(; k>0; k--) { annotation = edfplus_annotation_item(&annotlist, k - 1); if(annotation == NULL) { break; } if(!strcmp(annotation->annotation, triggerlabel[j])) { sprintf(str, "%.4f", (double)((datarecords * EDFLIB_TIME_DIMENSION) + ((long long)i * status_sample_duration) - annotation->onset) / (double)EDFLIB_TIME_DIMENSION); str[15] = 0; strcpy(annotation->duration, str); break; } } } } status[j] = 1; } } } } } edfwrite_annotation_latin1(hdl_out, 0LL, -1LL, "Recording starts"); j = edfplus_annotation_count(&annotlist); for(i=0; i<j; i++) { annotation = edfplus_annotation_item(&annotlist, i); if(annotation->duration[0] == 0) { edfwrite_annotation_utf8(hdl_out, annotation->onset / 1000LL, -1LL, annotation->annotation); } else { edfwrite_annotation_utf8(hdl_out, annotation->onset / 1000LL, (long long)(atof(annotation->duration) * 10000.0), annotation->annotation); } } free(buf); edfwrite_annotation_latin1(hdl_out, hdr.datarecords_in_file * 10000LL, -1LL, "Recording ends"); /////////////////// choose datarecord duration ///////////////////////////////////////////// samplerate_divider = 1; i = edfplus_annotation_count(&annotlist); edfplus_annotation_delete_list(&annotlist); annotlist = NULL; if(i % 2) { i++; } i += 2; while(i > hdr.datarecords_in_file) { samplerate_divider *= 2; i /= 2; if(samplerate_divider == 32) { break; } } if(samplerate_divider > 1) { for(i=0; i<edfsignals; i++) { edf_set_samplefrequency(hdl_out, i, hdr.signalparam[i].smp_in_datarecord / samplerate_divider); } if(edf_set_datarecord_duration(hdl_out, 100000 / samplerate_divider) == -1) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "edf_set_datarecord_duration() returned an error."); messagewindow.exec(); edfclose_file(hdl_in); edfclose_file(hdl_out); return; } } new_sf = sf / samplerate_divider; /////////////////// start conversion ///////////////////////////////////////////// buf = (int *)malloc(sizeof(int) * totalSamplesInDatarecord); if(buf == NULL) { QMessageBox messagewindow(QMessageBox::Critical, "Error", "Malloc error (buf)."); messagewindow.exec(); edfclose_file(hdl_in); edfclose_file(hdl_out); return; } edfrewind(hdl_in, status_signal); progress.setLabelText("Converting..."); progress.setValue(0); for(datarecords = 0LL; datarecords < hdr.datarecords_in_file; datarecords++) { if(!(datarecords % progress_steps)) { progress.setValue((int)datarecords); qApp->processEvents(); if(progress.wasCanceled()) { edfclose_file(hdl_in); edfclose_file(hdl_out); free(buf); return; } } for(i=0; i<edfsignals; i++) { if(edfread_digital_samples(hdl_in, i, hdr.signalparam[i].smp_in_datarecord, buf + buf_offset[i]) < 0) { progress.reset(); QMessageBox messagewindow(QMessageBox::Critical, "Error", "A read error occurred during the conversion."); messagewindow.exec(); edfclose_file(hdl_in); edfclose_file(hdl_out); free(buf); return; } } for(j=0; j<samplerate_divider; j++) { for(i=0; i<edfsignals; i++) { if(edfwrite_digital_samples(hdl_out, buf + buf_offset[i] + (j * new_sf)) < 0) { progress.reset(); QMessageBox messagewindow(QMessageBox::Critical, "Error", "A write error occurred during the conversion."); messagewindow.exec(); edfclose_file(hdl_in); edfclose_file(hdl_out); free(buf); return; } } } } QApplication::setOverrideCursor(Qt::WaitCursor); edfclose_file(hdl_in); edfclose_file(hdl_out); free(buf); QApplication::restoreOverrideCursor(); progress.reset(); #ifdef Q_WS_WIN snprintf(str, 2048, "Done. Converted %I64d input trigger events to BDF+ annotations.\n" "\nBDF+ file is located at %s", trigger_cnt, outputpath); #else snprintf(str, 2048, "Done. Converted %lli input trigger events to BDF+ annotations.\n" "\nBDF+ file is located at %s", trigger_cnt, outputpath); #endif QMessageBox messagewindow(QMessageBox::Information, "Ready", str); messagewindow.setIconPixmap(QPixmap(":/images/ok.png")); messagewindow.exec(); }
int main(int argc, char *argv[]) { int i, j, hdl, buf2[SMP_FREQ], chns; double buf[SMP_FREQ], q; chns = 2; hdl = edfopen_file_writeonly("sinus.bdf", EDFLIB_FILETYPE_BDFPLUS, chns); if(hdl<0) { printf("error: edfopen_file_writeonly()\n"); return(1); } for(i=0; i<chns; i++) { if(edf_set_samplefrequency(hdl, i, SMP_FREQ)) { printf("error: edf_set_samplefrequency()\n"); return(1); } } for(i=0; i<chns; i++) { if(edf_set_physical_maximum(hdl, i, 3000.0)) { printf("error: edf_set_physical_maximum()\n"); return(1); } } for(i=0; i<chns; i++) { if(edf_set_digital_maximum(hdl, i, 8388607)) { printf("error: edf_set_digital_maximum()\n"); return(1); } } for(i=0; i<chns; i++) { if(edf_set_digital_minimum(hdl, i, -8388608)) { printf("error: edf_set_digital_minimum()\n"); return(1); } } for(i=0; i<chns; i++) { if(edf_set_physical_minimum(hdl, i, -3000.0)) { printf("error: edf_set_physical_minimum()\n"); return(1); } } if(edf_set_label(hdl, 0, "sinus")) { printf("error: edf_set_label()\n"); return(1); } if(edf_set_label(hdl, 1, "ramp")) { printf("error: edf_set_label()\n"); return(1); } for(i=0; i<chns; i++) { if(edf_set_physical_dimension(hdl, i, "mV")) { printf("error: edf_set_physical_dimension()\n"); return(1); } } for(j=0; j<10; j++) { for(i=0; i<SMP_FREQ; i++) { q = M_PI * 2.0; q /= SMP_FREQ; q *= i; q = sin(q); q *= 3000.0; buf[i] = q; } if(edfwrite_physical_samples(hdl, buf)) { printf("error: edfwrite_physical_samples()\n"); return(1); } for(i=0; i<SMP_FREQ; i++) { buf[i] = -3000.0 + (i * 2.9296875); } if(edfwrite_physical_samples(hdl, buf)) { printf("error: edfwrite_physical_samples()\n"); return(1); } } for(j=0; j<10; j++) { for(i=0; i<SMP_FREQ; i++) { q = M_PI * 2.0; q /= SMP_FREQ; q *= i; q = sin(q); q *= 8388607.0; buf2[i] = q; } if(edfwrite_digital_samples(hdl, buf2)) { printf("error: edfwrite_digital_samples()\n"); return(1); } for(i=0; i<SMP_FREQ; i++) { buf2[i] = -8388608 + (i * 8192); } if(edfwrite_digital_samples(hdl, buf2)) { printf("error: edfwrite_digital_samples()\n"); return(1); } } edfwrite_annotation_latin1(hdl, 0LL, -1LL, "Recording starts"); edfwrite_annotation_latin1(hdl, 200000LL, -1LL, "Recording ends"); edfclose_file(hdl); return(0); }