#include "desktop-widgets/divelogimportdialog.h" #include "desktop-widgets/mainwindow.h" #include "core/color.h" #include "ui_divelogimportdialog.h" #include #include #include #include static QString subsurface_mimedata = "subsurface/csvcolumns"; static QString subsurface_index = "subsurface/csvindex"; #define SILENCE_WARNING 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, "" const DiveLogImportDialog::CSVAppConfig DiveLogImportDialog::CSVApps[CSVAPPS] = { // time, depth, temperature, po2, sensor1, sensor2, sensor3, cns, ndl, tts, stopdepth, pressure, setpoint // indices are 0 based, -1 means the column doesn't exist { "Manual import", SILENCE_WARNING }, { "APD Log Viewer - DC1", 0, 1, 15, 6, 3, 4, 5, 17, -1, -1, 18, -1, 2, "Tab" }, { "APD Log Viewer - DC2", 0, 1, 15, 6, 7, 8, 9, 17, -1, -1, 18, -1, 2, "Tab" }, { "DL7", 1, 2, -1, -1, -1, -1, -1, -1, -1, 8, -1, 10, -1, "|" }, { "XP5", 0, 1, 9, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, "Tab" }, { "SensusCSV", 9, 10, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, "," }, { "Seabear CSV", 0, 1, 5, -1, -1, -1, -1, -1, 2, 3, 4, 6, -1, ";" }, { "SubsurfaceCSV", -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, "Tab" }, { NULL, SILENCE_WARNING } }; enum Known { MANUAL, APD, APD2, DL7, XP5, SENSUS, SEABEAR, SUBSURFACE }; ColumnNameProvider::ColumnNameProvider(QObject *parent) : QAbstractListModel(parent) { columnNames << tr("Dive #") << tr("Date") << tr("Time") << tr("Duration") << tr("Location") << tr("GPS") << tr("Weight") << tr("Cyl. size") << tr("Start pressure") << tr("End pressure") << tr("Max. depth") << tr("Avg. depth") << tr("Divemaster") << tr("Buddy") << tr("Suit") << tr("Notes") << tr("Tags") << tr("Air temp.") << tr("Water temp.") << tr("O₂") << tr("He") << tr("Sample time") << tr("Sample depth") << tr("Sample temperature") << tr("Sample pO₂") << tr("Sample CNS") << tr("Sample NDL") << tr("Sample TTS") << tr("Sample stopdepth") << tr("Sample pressure") << tr("Sample sensor1 pO₂") << tr("Sample sensor2 pO₂") << tr("Sample sensor3 pO₂") << tr("Sample setpoint"); } bool ColumnNameProvider::insertRows(int row, int count, const QModelIndex &parent) { Q_UNUSED(count) Q_UNUSED(parent) beginInsertRows(QModelIndex(), row, row); columnNames.append(QString()); endInsertRows(); return true; } bool ColumnNameProvider::removeRows(int row, int count, const QModelIndex &parent) { Q_UNUSED(count) Q_UNUSED(parent) beginRemoveRows(QModelIndex(), row, row); columnNames.removeAt(row); endRemoveRows(); return true; } bool ColumnNameProvider::setData(const QModelIndex &index, const QVariant &value, int role) { if (role == Qt::EditRole) { columnNames[index.row()] = value.toString(); } dataChanged(index, index); return true; } QVariant ColumnNameProvider::data(const QModelIndex &index, int role) const { if (!index.isValid()) return QVariant(); if (role != Qt::DisplayRole) return QVariant(); return QVariant(columnNames[index.row()]); } int ColumnNameProvider::rowCount(const QModelIndex &parent) const { Q_UNUSED(parent) return columnNames.count(); } int ColumnNameProvider::mymatch(QString value) const { QString searchString = value.toLower(); searchString.replace("\"", "").replace(" ", "").replace(".", "").replace("\n",""); for (int i = 0; i < columnNames.count(); i++) { QString name = columnNames.at(i).toLower(); name.replace("\"", "").replace(" ", "").replace(".", "").replace("\n",""); if (searchString == name.toLower()) return i; } return -1; } ColumnNameView::ColumnNameView(QWidget *parent) { Q_UNUSED(parent) setAcceptDrops(true); setDragEnabled(true); } void ColumnNameView::mousePressEvent(QMouseEvent *press) { QModelIndex atClick = indexAt(press->pos()); if (!atClick.isValid()) return; QRect indexRect = visualRect(atClick); QPixmap pix(indexRect.width(), indexRect.height()); pix.fill(QColor(0,0,0,0)); render(&pix, QPoint(0, 0),QRegion(indexRect)); QDrag *drag = new QDrag(this); QMimeData *mimeData = new QMimeData; mimeData->setData(subsurface_mimedata, atClick.data().toByteArray()); model()->removeRow(atClick.row()); drag->setPixmap(pix); drag->setMimeData(mimeData); if (drag->exec() == Qt::IgnoreAction){ model()->insertRow(model()->rowCount()); QModelIndex idx = model()->index(model()->rowCount()-1, 0); model()->setData(idx, mimeData->data(subsurface_mimedata)); } } void ColumnNameView::dragLeaveEvent(QDragLeaveEvent *leave) { Q_UNUSED(leave); } void ColumnNameView::dragEnterEvent(QDragEnterEvent *event) { event->acceptProposedAction(); } void ColumnNameView::dragMoveEvent(QDragMoveEvent *event) { QModelIndex curr = indexAt(event->pos()); if (!curr.isValid() || curr.row() != 0) return; event->acceptProposedAction(); } void ColumnNameView::dropEvent(QDropEvent *event) { const QMimeData *mimeData = event->mimeData(); if (mimeData->data(subsurface_mimedata).count()) { if (event->source() != this) { event->acceptProposedAction(); QVariant value = QString(mimeData->data(subsurface_mimedata)); model()->insertRow(model()->rowCount()); model()->setData(model()->index(model()->rowCount()-1, 0), value); } } } ColumnDropCSVView::ColumnDropCSVView(QWidget *parent) { Q_UNUSED(parent) setAcceptDrops(true); } void ColumnDropCSVView::dragLeaveEvent(QDragLeaveEvent *leave) { Q_UNUSED(leave); } void ColumnDropCSVView::dragEnterEvent(QDragEnterEvent *event) { event->acceptProposedAction(); } void ColumnDropCSVView::dragMoveEvent(QDragMoveEvent *event) { QModelIndex curr = indexAt(event->pos()); if (!curr.isValid() || curr.row() != 0) return; event->acceptProposedAction(); } void ColumnDropCSVView::dropEvent(QDropEvent *event) { QModelIndex curr = indexAt(event->pos()); if (!curr.isValid() || curr.row() != 0) return; const QMimeData *mimeData = event->mimeData(); if (!mimeData->data(subsurface_mimedata).count()) return; if (event->source() == this ) { int value_old = mimeData->data(subsurface_index).toInt(); int value_new = curr.column(); ColumnNameResult *m = qobject_cast(model()); m->swapValues(value_old, value_new); event->acceptProposedAction(); return; } if (curr.data().toString().isEmpty()) { QVariant value = QString(mimeData->data(subsurface_mimedata)); model()->setData(curr, value); event->acceptProposedAction(); } } ColumnNameResult::ColumnNameResult(QObject *parent) : QAbstractTableModel(parent) { } void ColumnNameResult::swapValues(int firstIndex, int secondIndex) { QString one = columnNames[firstIndex]; QString two = columnNames[secondIndex]; setData(index(0, firstIndex), QVariant(two), Qt::EditRole); setData(index(0, secondIndex), QVariant(one), Qt::EditRole); } bool ColumnNameResult::setData(const QModelIndex &index, const QVariant &value, int role) { if (!index.isValid() || index.row() != 0) { return false; } if (role == Qt::EditRole) { columnNames[index.column()] = value.toString(); dataChanged(index, index); } return true; } QVariant ColumnNameResult::data(const QModelIndex &index, int role) const { if (!index.isValid()) return QVariant(); if (role == Qt::BackgroundColorRole) if (index.row() == 0) return QVariant(AIR_BLUE_TRANS); if (role != Qt::DisplayRole) return QVariant(); if (index.row() == 0) { return (columnNames[index.column()]); } // make sure the element exists before returning it - this might get called before the // model is correctly set up again (e.g., when changing separators) if (columnValues.count() > index.row() - 1 && columnValues[index.row() - 1].count() > index.column()) return QVariant(columnValues[index.row() - 1][index.column()]); else return QVariant(); } int ColumnNameResult::rowCount(const QModelIndex &parent) const { Q_UNUSED(parent); return columnValues.count() + 1; // +1 == the header. } int ColumnNameResult::columnCount(const QModelIndex &parent) const { Q_UNUSED(parent); return columnNames.count(); } QStringList ColumnNameResult::result() const { return columnNames; } void ColumnNameResult::setColumnValues(QList columns) { if (rowCount() != 1) { beginRemoveRows(QModelIndex(), 1, rowCount()-1); columnValues.clear(); endRemoveRows(); } if (columnCount() != 0) { beginRemoveColumns(QModelIndex(), 0, columnCount()-1); columnNames.clear(); endRemoveColumns(); } QStringList first = columns.first(); beginInsertColumns(QModelIndex(), 0, first.count()-1); for(int i = 0; i < first.count(); i++) columnNames.append(QString()); endInsertColumns(); beginInsertRows(QModelIndex(), 0, columns.count()-1); columnValues = columns; endInsertRows(); } void ColumnDropCSVView::mousePressEvent(QMouseEvent *press) { QModelIndex atClick = indexAt(press->pos()); if (!atClick.isValid() || atClick.row()) return; QRect indexRect = visualRect(atClick); QPixmap pix(indexRect.width(), indexRect.height()); pix.fill(QColor(0,0,0,0)); render(&pix, QPoint(0, 0),QRegion(indexRect)); QDrag *drag = new QDrag(this); QMimeData *mimeData = new QMimeData; mimeData->setData(subsurface_mimedata, atClick.data().toByteArray()); mimeData->setData(subsurface_index, QString::number(atClick.column()).toLocal8Bit()); drag->setPixmap(pix); drag->setMimeData(mimeData); if (drag->exec() != Qt::IgnoreAction){ QObject *target = drag->target(); if (target->objectName() == "qt_scrollarea_viewport") target = target->parent(); if (target != drag->source()) model()->setData(atClick, QString()); } } DiveLogImportDialog::DiveLogImportDialog(QStringList fn, QWidget *parent) : QDialog(parent), selector(true), ui(new Ui::DiveLogImportDialog) { ui->setupUi(this); fileNames = fn; column = 0; delta = "0"; hw = ""; txtLog = false; /* Add indexes of XSLTs requiring special handling to the list */ specialCSV << SENSUS; specialCSV << SUBSURFACE; specialCSV << DL7; for (int i = 0; !CSVApps[i].name.isNull(); ++i) ui->knownImports->addItem(CSVApps[i].name); ui->CSVSeparator->addItems( QStringList() << tr("Tab") << "," << ";" << "|"); loadFileContents(-1, INITIAL); /* manually import CSV file */ QShortcut *close = new QShortcut(QKeySequence(Qt::CTRL + Qt::Key_W), this); connect(close, SIGNAL(activated()), this, SLOT(close())); QShortcut *quit = new QShortcut(QKeySequence(Qt::CTRL + Qt::Key_Q), this); connect(quit, SIGNAL(activated()), parent, SLOT(close())); connect(ui->CSVSeparator, SIGNAL(currentIndexChanged(int)), this, SLOT(loadFileContentsSeperatorSelected(int))); connect(ui->knownImports, SIGNAL(currentIndexChanged(int)), this, SLOT(loadFileContentsKnownTypesSelected(int))); } DiveLogImportDialog::~DiveLogImportDialog() { delete ui; } void DiveLogImportDialog::loadFileContentsSeperatorSelected(int value) { loadFileContents(value, SEPARATOR); } void DiveLogImportDialog::loadFileContentsKnownTypesSelected(int value) { loadFileContents(value, KNOWNTYPES); } void DiveLogImportDialog::loadFileContents(int value, whatChanged triggeredBy) { QFile f(fileNames.first()); QList fileColumns; QStringList currColumns; QStringList headers; bool matchedSome = false; bool seabear = false; bool xp5 = false; bool apd = false; bool dl7 = false; // reset everything ColumnNameProvider *provider = new ColumnNameProvider(this); ui->avaliableColumns->setModel(provider); ui->avaliableColumns->setItemDelegate(new TagDragDelegate(ui->avaliableColumns)); resultModel = new ColumnNameResult(this); ui->tableView->setModel(resultModel); f.open(QFile::ReadOnly); QString firstLine = f.readLine(); if (firstLine.contains("SEABEAR")) { seabear = true; /* * Parse header - currently only interested in sample * interval and hardware version. If we have old format * the interval value is missing from the header. */ while ((firstLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { if (firstLine.contains("//Hardware Version: ")) { hw = firstLine.replace(QString::fromLatin1("//Hardware Version: "), QString::fromLatin1("\"Seabear ")).trimmed().append("\""); break; } } /* * Note that we scan over the "Log interval" on purpose */ while ((firstLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { if (firstLine.contains("//Log interval: ")) delta = firstLine.remove(QString::fromLatin1("//Log interval: ")).trimmed().remove(QString::fromLatin1(" s")); } /* * Parse CSV fields */ firstLine = f.readLine().trimmed(); currColumns = firstLine.split(';'); Q_FOREACH (QString columnText, currColumns) { if (columnText == "Time") { headers.append("Sample time"); } else if (columnText == "Depth") { headers.append("Sample depth"); } else if (columnText == "Temperature") { headers.append("Sample temperature"); } else if (columnText == "NDT") { headers.append("Sample NDL"); } else if (columnText == "TTS") { headers.append("Sample TTS"); } else if (columnText == "pO2_1") { headers.append("Sample sensor1 pO₂"); } else if (columnText == "pO2_2") { headers.append("Sample sensor2 pO₂"); } else if (columnText == "pO2_3") { headers.append("Sample sensor3 pO₂"); } else if (columnText == "Ceiling") { headers.append("Sample ceiling"); } else if (columnText == "Tank pressure") { headers.append("Sample pressure"); } else { // We do not know about this value qDebug() << "Seabear import found an un-handled field: " << columnText; headers.append(""); } } firstLine = headers.join(";"); blockSignals(true); ui->knownImports->setCurrentText("Seabear CSV"); blockSignals(false); } else if (firstLine.contains("Tauchgangs-Nr.:")) { xp5 = true; //"Abgelaufene Tauchzeit (Std:Min.)\tTiefe\tStickstoff Balkenanzeige\tSauerstoff Balkenanzeige\tAufstiegsgeschwindigkeit\tRestluftzeit\tRestliche Tauchzeit\tDekompressionszeit (Std:Min)\tDekostopp-Tiefe\tTemperatur\tPO2\tPressluftflasche\tLesen des Druckes\tStatus der Verbindung\tTauchstatus"; firstLine = "Sample time\tSample depth\t\t\t\t\t\t\t\tSample temperature\t"; blockSignals(true); ui->knownImports->setCurrentText("XP5"); blockSignals(false); } else if (firstLine.contains("FSH")) { QString units = "Metric"; dl7 = true; while ((firstLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { /* DL7 actually defines individual units (e.g. depth, temp, pressure, etc.) * and there are quite a few other options as well, but let's use metric * unless depth unit is clearly Imperial. */ if (firstLine.contains("ThFt")) { units = "Imperial"; } } firstLine = "|Sample time|Sample depth||||||Sample temperature||Sample pressure"; blockSignals(true); ui->knownImports->setCurrentText("DL7"); ui->CSVUnits->setCurrentText(units); blockSignals(false); } else if (firstLine.contains("Life Time Dive")) { txtLog = true; while ((firstLine = f.readLine().trimmed()).length() >= 0 && !f.atEnd()) { if (firstLine.contains("Dive Profile")) { f.readLine(); break; } } firstLine = f.readLine().trimmed(); } // Special handling for APD Log Viewer if ((triggeredBy == KNOWNTYPES && (value == APD || value == APD2)) || (triggeredBy == INITIAL && fileNames.first().endsWith(".apd", Qt::CaseInsensitive))) { QString apdseparator; int tabs = firstLine.count('\t'); int commas = firstLine.count(','); if (tabs > commas) apdseparator = "\t"; else apdseparator = ","; apd=true; firstLine = "Sample time" + apdseparator + "Sample depth" + apdseparator + "Sample setpoint" + apdseparator + "Sample sensor1 pO₂" + apdseparator + "Sample sensor2 pO₂" + apdseparator + "Sample sensor3 pO₂" + apdseparator + "Sample pO₂" + apdseparator + "" + apdseparator + "" + apdseparator + "" + apdseparator + "" + apdseparator + "" + apdseparator + "" + apdseparator + "" + apdseparator + "" + apdseparator + "Sample temperature" + apdseparator + "" + apdseparator + "Sample CNS" + apdseparator + "Sample stopdepth"; blockSignals(true); ui->CSVSeparator->setCurrentText(apdseparator); if (triggeredBy == INITIAL && fileNames.first().contains(".apd", Qt::CaseInsensitive)) ui->knownImports->setCurrentText("APD Log Viewer - DC1"); blockSignals(false); } QString separator = ui->CSVSeparator->currentText() == tr("Tab") ? "\t" : ui->CSVSeparator->currentText(); currColumns = firstLine.split(separator); if (triggeredBy == INITIAL) { // guess the separator int tabs = firstLine.count('\t'); int commas = firstLine.count(','); int semis = firstLine.count(';'); int pipes = firstLine.count('|'); if (tabs > commas && tabs > semis && tabs > pipes) separator = "\t"; else if (commas > tabs && commas > semis && commas > pipes) separator = ","; else if (pipes > tabs && pipes > commas && pipes > semis) separator = "|"; else if (semis > tabs && semis > commas && semis > pipes) separator = ";"; if (ui->CSVSeparator->currentText() != separator) { blockSignals(true); ui->CSVSeparator->setCurrentText(separator); blockSignals(false); currColumns = firstLine.split(separator); } } if (triggeredBy == INITIAL || (triggeredBy == KNOWNTYPES && value == MANUAL) || triggeredBy == SEPARATOR) { int count = -1; QString line = f.readLine().trimmed(); QStringList columns; if (line.length() > 0) columns = line.split(separator); // now try and guess the columns Q_FOREACH (QString columnText, currColumns) { count++; /* * We have to skip the conversion of 2 to ₂ for APD Log * viewer as that would mess up the sensor numbering. We * also know that the column headers do not need this * conversion. */ if (apd == false) { columnText.replace("\"", ""); columnText.replace("number", "#", Qt::CaseInsensitive); columnText.replace("2", "₂", Qt::CaseInsensitive); columnText.replace("cylinder", "cyl.", Qt::CaseInsensitive); } int idx = provider->mymatch(columnText.trimmed()); if (idx >= 0) { QString foundHeading = provider->data(provider->index(idx, 0), Qt::DisplayRole).toString(); provider->removeRow(idx); headers.append(foundHeading); matchedSome = true; if (foundHeading == QString::fromLatin1("Date") && columns.count() >= count) { QString date = columns.at(count); if (date.contains('-')) { ui->DateFormat->setCurrentText("yyyy-mm-dd"); } else if (date.contains('/')) { ui->DateFormat->setCurrentText("mm/dd/yyyy"); } } else if (foundHeading == QString::fromLatin1("Time") && columns.count() >= count) { QString time = columns.at(count); if (time.contains(':')) { ui->DurationFormat->setCurrentText("Minutes:seconds"); } } } else { headers.append(""); } } if (matchedSome) { ui->dragInstructions->setText(tr("Some column headers were pre-populated; please drag and drop the headers so they match the column they are in.")); if (triggeredBy != KNOWNTYPES && !seabear && !xp5 && !apd && !dl7) { blockSignals(true); ui->knownImports->setCurrentIndex(0); // <- that's "Manual import" blockSignals(false); } } } if (triggeredBy == KNOWNTYPES && value != MANUAL) { // an actual known type if (value == SUBSURFACE || value == APD || value == APD2) { /* * Subsurface CSV file needs separator detection * as we used to default to comma but switched * to tab. */ int tabs = firstLine.count('\t'); int commas = firstLine.count(','); if (tabs > commas) separator = "Tab"; else separator = ","; } else { separator = CSVApps[value].separator; } if (ui->CSVSeparator->currentText() != separator || separator == "Tab") { ui->CSVSeparator->blockSignals(true); ui->CSVSeparator->setCurrentText(separator); ui->CSVSeparator->blockSignals(false); if (separator == "Tab") separator = "\t"; currColumns = firstLine.split(separator); } // now set up time, depth, temperature, po2, cns, ndl, tts, stopdepth, pressure, setpoint for (int i = 0; i < currColumns.count(); i++) headers.append(""); if (CSVApps[value].time > -1 && CSVApps[value].time < currColumns.count()) headers.replace(CSVApps[value].time, tr("Sample time")); if (CSVApps[value].depth > -1 && CSVApps[value].depth < currColumns.count()) headers.replace(CSVApps[value].depth, tr("Sample depth")); if (CSVApps[value].temperature > -1 && CSVApps[value].temperature < currColumns.count()) headers.replace(CSVApps[value].temperature, tr("Sample temperature")); if (CSVApps[value].po2 > -1 && CSVApps[value].po2 < currColumns.count()) headers.replace(CSVApps[value].po2, tr("Sample pO₂")); if (CSVApps[value].sensor1 > -1 && CSVApps[value].sensor1 < currColumns.count()) headers.replace(CSVApps[value].sensor1, tr("Sample sensor1 pO₂")); if (CSVApps[value].sensor2 > -1 && CSVApps[value].sensor2 < currColumns.count()) headers.replace(CSVApps[value].sensor2, tr("Sample sensor2 pO₂")); if (CSVApps[value].sensor3 > -1 && CSVApps[value].sensor3 < currColumns.count()) headers.replace(CSVApps[value].sensor3, tr("Sample sensor3 pO₂")); if (CSVApps[value].cns > -1 && CSVApps[value].cns < currColumns.count()) headers.replace(CSVApps[value].cns, tr("Sample CNS")); if (CSVApps[value].ndl > -1 && CSVApps[value].ndl < currColumns.count()) headers.replace(CSVApps[value].ndl, tr("Sample NDL")); if (CSVApps[value].tts > -1 && CSVApps[value].tts < currColumns.count()) headers.replace(CSVApps[value].tts, tr("Sample TTS")); if (CSVApps[value].stopdepth > -1 && CSVApps[value].stopdepth < currColumns.count()) headers.replace(CSVApps[value].stopdepth, tr("Sample stopdepth")); if (CSVApps[value].pressure > -1 && CSVApps[value].pressure < currColumns.count()) headers.replace(CSVApps[value].pressure, tr("Sample pressure")); if (CSVApps[value].setpoint > -1 && CSVApps[value].setpoint < currColumns.count()) headers.replace(CSVApps[value].setpoint, tr("Sample setpoint")); /* Show the Subsurface CSV column headers */ if (value == SUBSURFACE && currColumns.count() >= 23) { headers.replace(0, tr("Dive #")); headers.replace(1, tr("Date")); headers.replace(2, tr("Time")); headers.replace(3, tr("Duration")); headers.replace(4, tr("Max. depth")); headers.replace(5, tr("Avg. depth")); headers.replace(6, tr("Air temp.")); headers.replace(7, tr("Water temp.")); headers.replace(8, tr("Cyl. size")); headers.replace(9, tr("Start pressure")); headers.replace(10, tr("End pressure")); headers.replace(11, tr("O₂")); headers.replace(12, tr("He")); headers.replace(13, tr("Location")); headers.replace(14, tr("GPS")); headers.replace(15, tr("Divemaster")); headers.replace(16, tr("Buddy")); headers.replace(17, tr("Suit")); headers.replace(18, tr("Rating")); headers.replace(19, tr("Visibility")); headers.replace(20, tr("Notes")); headers.replace(21, tr("Weight")); headers.replace(22, tr("Tags")); blockSignals(true); ui->CSVSeparator->setCurrentText(separator); ui->DateFormat->setCurrentText("yyyy-mm-dd"); ui->DurationFormat->setCurrentText("Minutes:seconds"); blockSignals(false); } } f.reset(); int rows = 0; /* Skipping the header of Seabear and XP5 CSV files. */ if (seabear || xp5) { /* * First set of data on Seabear CSV file is metadata * that is separated by an empty line (windows line * termination might be encountered. */ while (strlen(f.readLine()) > 3 && !f.atEnd()); /* * Next we have description of the fields and two dummy * lines. Separated again with an empty line from the * actual data. */ while (strlen(f.readLine()) > 3 && !f.atEnd()); } else if (dl7) { while ((firstLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { if (firstLine.contains("ZDP")) { firstLine = f.readLine().trimmed(); break; } } } else if (txtLog) { while ((firstLine = f.readLine().trimmed()).length() >= 0 && !f.atEnd()) { if (firstLine.contains("Dive Profile")) { firstLine = f.readLine().trimmed(); break; } } } while (rows < 10 && !f.atEnd()) { QString currLine = f.readLine().trimmed(); currColumns = currLine.split(separator); fileColumns.append(currColumns); rows += 1; } resultModel->setColumnValues(fileColumns); for (int i = 0; i < headers.count(); i++) if (!headers.at(i).isEmpty()) resultModel->setData(resultModel->index(0, i),headers.at(i),Qt::EditRole); } char *intdup(int index) { char tmpbuf[21]; snprintf(tmpbuf, sizeof(tmpbuf) - 2, "%d", index); tmpbuf[20] = 0; return strdup(tmpbuf); } int DiveLogImportDialog::setup_csv_params(QStringList r, char **params, int pnr) { params[pnr++] = strdup("dateField"); params[pnr++] = intdup(r.indexOf(tr("Date"))); params[pnr++] = strdup("datefmt"); params[pnr++] = intdup(ui->DateFormat->currentIndex()); params[pnr++] = strdup("starttimeField"); params[pnr++] = intdup(r.indexOf(tr("Time"))); params[pnr++] = strdup("numberField"); params[pnr++] = intdup(r.indexOf(tr("Dive #"))); params[pnr++] = strdup("timeField"); params[pnr++] = intdup(r.indexOf(tr("Sample time"))); params[pnr++] = strdup("depthField"); params[pnr++] = intdup(r.indexOf(tr("Sample depth"))); params[pnr++] = strdup("tempField"); params[pnr++] = intdup(r.indexOf(tr("Sample temperature"))); params[pnr++] = strdup("po2Field"); params[pnr++] = intdup(r.indexOf(tr("Sample pO₂"))); params[pnr++] = strdup("o2sensor1Field"); params[pnr++] = intdup(r.indexOf(tr("Sample sensor1 pO₂"))); params[pnr++] = strdup("o2sensor2Field"); params[pnr++] = intdup(r.indexOf(tr("Sample sensor2 pO₂"))); params[pnr++] = strdup("o2sensor3Field"); params[pnr++] = intdup(r.indexOf(tr("Sample sensor3 pO₂"))); params[pnr++] = strdup("cnsField"); params[pnr++] = intdup(r.indexOf(tr("Sample CNS"))); params[pnr++] = strdup("ndlField"); params[pnr++] = intdup(r.indexOf(tr("Sample NDL"))); params[pnr++] = strdup("ttsField"); params[pnr++] = intdup(r.indexOf(tr("Sample TTS"))); params[pnr++] = strdup("stopdepthField"); params[pnr++] = intdup(r.indexOf(tr("Sample stopdepth"))); params[pnr++] = strdup("pressureField"); params[pnr++] = intdup(r.indexOf(tr("Sample pressure"))); params[pnr++] = strdup("setpointFiend"); params[pnr++] = intdup(r.indexOf(tr("Sample setpoint"))); params[pnr++] = strdup("separatorIndex"); params[pnr++] = intdup(ui->CSVSeparator->currentIndex()); params[pnr++] = strdup("units"); params[pnr++] = intdup(ui->CSVUnits->currentIndex()); if (hw.length()) { params[pnr++] = strdup("hw"); params[pnr++] = strdup(hw.toUtf8().data()); } else if (ui->knownImports->currentText().length() > 0) { params[pnr++] = strdup("hw"); params[pnr++] = strdup(ui->knownImports->currentText().prepend("\"").append("\"").toUtf8().data()); } params[pnr++] = NULL; return pnr; } int DiveLogImportDialog::parseTxtHeader(QString fileName, char **params, int pnr) { QFile f(fileNames.first()); QString date; QString time; QString line; f.open(QFile::ReadOnly); while ((line = f.readLine().trimmed()).length() >= 0 && !f.atEnd()) { if (line.contains("Dive Profile")) { f.readLine(); break; } else if (line.contains("Dive Date: ")) { date = line.replace(QString::fromLatin1("Dive Date: "), QString::fromLatin1("")); if (date.contains('-')) { QStringList fmtDate = date.split('-'); date = fmtDate[0] + fmtDate[1] + fmtDate[2]; } else if (date.contains('/')) { QStringList fmtDate = date.split('/'); date = fmtDate[2] + fmtDate[0] + fmtDate[1]; } else { QStringList fmtDate = date.split('.'); date = fmtDate[2] + fmtDate[1] + fmtDate[0]; } } else if (line.contains("Elapsed Dive Time: ")) { // Skipping dive duration for now } else if (line.contains("Dive Time: ")) { time = line.replace(QString::fromLatin1("Dive Time: "), QString::fromLatin1("")); if (time.contains(':')) { QStringList fmtTime = time.split(':'); time = fmtTime[0] + fmtTime[1]; } } } f.close(); params[pnr++] = strdup("date"); params[pnr++] = strdup(date.toLatin1()); params[pnr++] = strdup("time"); params[pnr++] = strdup(time.toLatin1()); return pnr; } void DiveLogImportDialog::on_buttonBox_accepted() { QStringList r = resultModel->result(); if (ui->knownImports->currentText() != "Manual import") { for (int i = 0; i < fileNames.size(); ++i) { if (ui->knownImports->currentText() == "Seabear CSV") { char *params[40]; int pnr = 0; params[pnr++] = strdup("timeField"); params[pnr++] = intdup(r.indexOf(tr("Sample time"))); params[pnr++] = strdup("depthField"); params[pnr++] = intdup(r.indexOf(tr("Sample depth"))); params[pnr++] = strdup("tempField"); params[pnr++] = intdup(r.indexOf(tr("Sample temperature"))); params[pnr++] = strdup("po2Field"); params[pnr++] = intdup(r.indexOf(tr("Sample pO₂"))); params[pnr++] = strdup("o2sensor1Field"); params[pnr++] = intdup(r.indexOf(tr("Sample sensor1 pO₂"))); params[pnr++] = strdup("o2sensor2Field"); params[pnr++] = intdup(r.indexOf(tr("Sample sensor2 pO₂"))); params[pnr++] = strdup("o2sensor3Field"); params[pnr++] = intdup(r.indexOf(tr("Sample sensor3 pO₂"))); params[pnr++] = strdup("cnsField"); params[pnr++] = intdup(r.indexOf(tr("Sample CNS"))); params[pnr++] = strdup("ndlField"); params[pnr++] = intdup(r.indexOf(tr("Sample NDL"))); params[pnr++] = strdup("ttsField"); params[pnr++] = intdup(r.indexOf(tr("Sample TTS"))); params[pnr++] = strdup("stopdepthField"); params[pnr++] = intdup(r.indexOf(tr("Sample stopdepth"))); params[pnr++] = strdup("pressureField"); params[pnr++] = intdup(r.indexOf(tr("Sample pressure"))); params[pnr++] = strdup("setpointFiend"); params[pnr++] = intdup(-1); params[pnr++] = strdup("separatorIndex"); params[pnr++] = intdup(ui->CSVSeparator->currentIndex()); params[pnr++] = strdup("units"); params[pnr++] = intdup(ui->CSVUnits->currentIndex()); params[pnr++] = strdup("delta"); params[pnr++] = strdup(delta.toUtf8().data()); if (hw.length()) { params[pnr++] = strdup("hw"); params[pnr++] = strdup(hw.toUtf8().data()); } params[pnr++] = NULL; if (parse_seabear_csv_file(fileNames[i].toUtf8().data(), params, pnr - 1, "csv") < 0) { return; } // Seabear CSV stores NDL and TTS in Minutes, not seconds struct dive *dive = dive_table.dives[dive_table.nr - 1]; for(int s_nr = 0 ; s_nr < dive->dc.samples ; s_nr++) { struct sample *sample = dive->dc.sample + s_nr; sample->ndl.seconds *= 60; sample->tts.seconds *= 60; } } else { char *params[49]; int pnr = 0; QRegExp apdRe("^.*[/\\][0-9a-zA-Z]*_([0-9]{6})_([0-9]{6})\\.apd"); if (txtLog) { pnr = parseTxtHeader(fileNames[i], params, pnr); } else if (apdRe.exactMatch(fileNames[i])) { params[pnr++] = strdup("date"); params[pnr++] = strdup("20" + apdRe.cap(1).toLatin1()); params[pnr++] = strdup("time"); params[pnr++] = strdup("1" + apdRe.cap(2).toLatin1()); } pnr = setup_csv_params(r, params, pnr); parse_csv_file(fileNames[i].toUtf8().data(), params, pnr - 1, specialCSV.contains(ui->knownImports->currentIndex()) ? CSVApps[ui->knownImports->currentIndex()].name.toUtf8().data() : "csv"); } } } else { for (int i = 0; i < fileNames.size(); ++i) { if (r.indexOf(tr("Sample time")) < 0) { char *params[55]; int pnr = 0; params[pnr++] = strdup("numberField"); params[pnr++] = intdup(r.indexOf(tr("Dive #"))); params[pnr++] = strdup("dateField"); params[pnr++] = intdup(r.indexOf(tr("Date"))); params[pnr++] = strdup("timeField"); params[pnr++] = intdup(r.indexOf(tr("Time"))); params[pnr++] = strdup("durationField"); params[pnr++] = intdup(r.indexOf(tr("Duration"))); params[pnr++] = strdup("locationField"); params[pnr++] = intdup(r.indexOf(tr("Location"))); params[pnr++] = strdup("gpsField"); params[pnr++] = intdup(r.indexOf(tr("GPS"))); params[pnr++] = strdup("maxDepthField"); params[pnr++] = intdup(r.indexOf(tr("Max. depth"))); params[pnr++] = strdup("meanDepthField"); params[pnr++] = intdup(r.indexOf(tr("Avg. depth"))); params[pnr++] = strdup("divemasterField"); params[pnr++] = intdup(r.indexOf(tr("Divemaster"))); params[pnr++] = strdup("buddyField"); params[pnr++] = intdup(r.indexOf(tr("Buddy"))); params[pnr++] = strdup("suitField"); params[pnr++] = intdup(r.indexOf(tr("Suit"))); params[pnr++] = strdup("notesField"); params[pnr++] = intdup(r.indexOf(tr("Notes"))); params[pnr++] = strdup("weightField"); params[pnr++] = intdup(r.indexOf(tr("Weight"))); params[pnr++] = strdup("tagsField"); params[pnr++] = intdup(r.indexOf(tr("Tags"))); params[pnr++] = strdup("separatorIndex"); params[pnr++] = intdup(ui->CSVSeparator->currentIndex()); params[pnr++] = strdup("units"); params[pnr++] = intdup(ui->CSVUnits->currentIndex()); params[pnr++] = strdup("datefmt"); params[pnr++] = intdup(ui->DateFormat->currentIndex()); params[pnr++] = strdup("durationfmt"); params[pnr++] = intdup(ui->DurationFormat->currentIndex()); params[pnr++] = strdup("cylindersizeField"); params[pnr++] = intdup(r.indexOf(tr("Cyl. size"))); params[pnr++] = strdup("startpressureField"); params[pnr++] = intdup(r.indexOf(tr("Start pressure"))); params[pnr++] = strdup("endpressureField"); params[pnr++] = intdup(r.indexOf(tr("End pressure"))); params[pnr++] = strdup("o2Field"); params[pnr++] = intdup(r.indexOf(tr("O₂"))); params[pnr++] = strdup("heField"); params[pnr++] = intdup(r.indexOf(tr("He"))); params[pnr++] = strdup("airtempField"); params[pnr++] = intdup(r.indexOf(tr("Air temp."))); params[pnr++] = strdup("watertempField"); params[pnr++] = intdup(r.indexOf(tr("Water temp."))); params[pnr++] = NULL; parse_manual_file(fileNames[i].toUtf8().data(), params, pnr - 1); } else { char *params[49]; int pnr = 0; QRegExp apdRe("^.*[/\\][0-9a-zA-Z]*_([0-9]{6})_([0-9]{6})\\.apd"); if (txtLog) { pnr = parseTxtHeader(fileNames[i], params, pnr); } else if (apdRe.exactMatch(fileNames[i])) { params[pnr++] = strdup("date"); params[pnr++] = strdup("20" + apdRe.cap(1).toLatin1()); params[pnr++] = strdup("time"); params[pnr++] = strdup("1" + apdRe.cap(2).toLatin1()); } pnr = setup_csv_params(r, params, pnr); parse_csv_file(fileNames[i].toUtf8().data(), params, pnr - 1, specialCSV.contains(ui->knownImports->currentIndex()) ? CSVApps[ui->knownImports->currentIndex()].name.toUtf8().data() : "csv"); } } } process_dives(true, false); MainWindow::instance()->refreshDisplay(); } TagDragDelegate::TagDragDelegate(QObject *parent) : QStyledItemDelegate(parent) { } QSize TagDragDelegate::sizeHint(const QStyleOptionViewItem & option, const QModelIndex & index) const { QSize originalSize = QStyledItemDelegate::sizeHint(option, index); return originalSize + QSize(5,5); } void TagDragDelegate::paint(QPainter * painter, const QStyleOptionViewItem & option, const QModelIndex & index) const { painter->save(); painter->setRenderHints(QPainter::Antialiasing); painter->setBrush(QBrush(AIR_BLUE_TRANS)); painter->drawRoundedRect(option.rect.adjusted(2,2,-2,-2), 5, 5); painter->restore(); QStyledItemDelegate::paint(painter, option, index); }