// SPDX-License-Identifier: GPL-2.0 #include #include #include #include #include // Allows string comparisons and substitutions in TeX export #include "desktop-widgets/divelogexportdialog.h" #include "core/divelogexportlogic.h" #include "desktop-widgets/diveshareexportdialog.h" #include "ui_divelogexportdialog.h" #include "desktop-widgets/subsurfacewebservices.h" #include "core/worldmap-save.h" #include "core/save-html.h" #include "core/settings/qPrefDisplay.h" #include "desktop-widgets/mainwindow.h" #include "profile-widget/profilewidget2.h" #include "core/dive.h" // Allows access to helper functions in TeX export. // Retrieves the current unit settings defined in the Subsurface preferences. #define GET_UNIT(name, field, f, t) \ v = settings.value(QString(name)); \ if (v.isValid()) \ field = (v.toInt() == 0) ? (t) : (f); \ else \ field = default_prefs.units.field DiveLogExportDialog::DiveLogExportDialog(QWidget *parent) : QDialog(parent), ui(new Ui::DiveLogExportDialog) { ui->setupUi(this); showExplanation(); QShortcut *quit = new QShortcut(QKeySequence(Qt::CTRL + Qt::Key_Q), this); connect(quit, SIGNAL(activated()), MainWindow::instance(), SLOT(close())); QShortcut *close = new QShortcut(QKeySequence(Qt::CTRL + Qt::Key_W), this); connect(close, SIGNAL(activated()), this, SLOT(close())); /* the names are not the actual values exported to the json files,The font-family property should hold several font names as a "fallback" system, to ensure maximum compatibility between browsers/operating systems */ ui->fontSelection->addItem("Arial", "Arial, Helvetica, sans-serif"); ui->fontSelection->addItem("Impact", "Impact, Charcoal, sans-serif"); ui->fontSelection->addItem("Georgia", "Georgia, serif"); ui->fontSelection->addItem("Courier", "Courier, monospace"); ui->fontSelection->addItem("Verdana", "Verdana, Geneva, sans-serif"); QSettings settings; settings.beginGroup("HTML"); if (settings.contains("fontSelection")) { ui->fontSelection->setCurrentIndex(settings.value("fontSelection").toInt()); } if (settings.contains("fontSizeSelection")) { ui->fontSizeSelection->setCurrentIndex(settings.value("fontSizeSelection").toInt()); } if (settings.contains("themeSelection")) { ui->themeSelection->setCurrentIndex(settings.value("themeSelection").toInt()); } if (settings.contains("subsurfaceNumbers")) { ui->exportSubsurfaceNumber->setChecked(settings.value("subsurfaceNumbers").toBool()); } if (settings.contains("yearlyStatistics")) { ui->exportStatistics->setChecked(settings.value("yearlyStatistics").toBool()); } if (settings.contains("listOnly")) { ui->exportListOnly->setChecked(settings.value("listOnly").toBool()); } if (settings.contains("exportPhotos")) { ui->exportPhotos->setChecked(settings.value("exportPhotos").toBool()); } settings.endGroup(); } DiveLogExportDialog::~DiveLogExportDialog() { delete ui; } void DiveLogExportDialog::showExplanation() { if (ui->exportUDDF->isChecked()) { ui->description->setText(tr("Generic format that is used for data exchange between a variety of diving related programs.")); } else if (ui->exportCSV->isChecked()) { ui->description->setText(tr("Comma separated values describing the dive profile.")); } else if (ui->exportCSVDetails->isChecked()) { ui->description->setText(tr("Comma separated values of the dive information. This includes most of the dive details but no profile information.")); } else if (ui->exportDivelogs->isChecked()) { ui->description->setText(tr("Send the dive data to divelogs.de website.")); } else if (ui->exportDiveshare->isChecked()) { ui->description->setText(tr("Send the dive data to dive-share.appspot.com website.")); } else if (ui->exportWorldMap->isChecked()) { ui->description->setText(tr("HTML export of the dive locations, visualized on a world map.")); } else if (ui->exportSubsurfaceXML->isChecked()) { ui->description->setText(tr("Subsurface native XML format.")); } else if (ui->exportImageDepths->isChecked()) { ui->description->setText(tr("Write depths of images to file.")); } else if (ui->exportTeX->isChecked()) { ui->description->setText(tr("Write dive as TeX macros to file.")); } else if (ui->exportLaTeX->isChecked()) { ui->description->setText(tr("Write dive as LaTeX macros to file.")); } } void DiveLogExportDialog::exportHtmlInit(const QString &filename) { struct htmlExportSetting hes; hes.themeFile = (ui->themeSelection->currentText() == tr("Light")) ? "light.css" : "sand.css"; hes.exportPhotos = ui->exportPhotos->isChecked(); hes.selectedOnly = ui->exportSelectedDives->isChecked(); hes.listOnly = ui->exportListOnly->isChecked(); hes.fontFamily = ui->fontSelection->itemData(ui->fontSelection->currentIndex()).toString(); hes.fontSize = ui->fontSizeSelection->currentText(); hes.themeSelection = ui->themeSelection->currentIndex(); hes.subsurfaceNumbers = ui->exportSubsurfaceNumber->isChecked(); hes.yearlyStatistics = ui->exportStatistics->isChecked(); exportHtmlInitLogic(filename, hes); } void DiveLogExportDialog::on_exportGroup_buttonClicked(QAbstractButton*) { showExplanation(); } void DiveLogExportDialog::on_buttonBox_accepted() { QString filename; QString stylesheet; QString lastDir = QDir::homePath(); if (QDir(qPrefDisplay::lastDir()).exists()) lastDir = qPrefDisplay::lastDir(); switch (ui->tabWidget->currentIndex()) { case 0: if (ui->exportUDDF->isChecked()) { stylesheet = "uddf-export.xslt"; filename = QFileDialog::getSaveFileName(this, tr("Export UDDF file as"), lastDir, tr("UDDF files") + " (*.uddf)"); } else if (ui->exportCSV->isChecked()) { stylesheet = "xml2csv.xslt"; filename = QFileDialog::getSaveFileName(this, tr("Export CSV file as"), lastDir, tr("CSV files") + " (*.csv)"); } else if (ui->exportCSVDetails->isChecked()) { stylesheet = "xml2manualcsv.xslt"; filename = QFileDialog::getSaveFileName(this, tr("Export CSV file as"), lastDir, tr("CSV files") + " (*.csv)"); } else if (ui->exportDivelogs->isChecked()) { DivelogsDeWebServices::instance()->prepareDivesForUpload(ui->exportSelected->isChecked()); } else if (ui->exportDiveshare->isChecked()) { DiveShareExportDialog::instance()->prepareDivesForUpload(ui->exportSelected->isChecked()); } else if (ui->exportWorldMap->isChecked()) { filename = QFileDialog::getSaveFileName(this, tr("Export world map"), lastDir, tr("HTML files") + " (*.html)"); if (!filename.isNull() && !filename.isEmpty()) export_worldmap_HTML(qPrintable(filename), ui->exportSelected->isChecked()); } else if (ui->exportSubsurfaceXML->isChecked()) { filename = QFileDialog::getSaveFileName(this, tr("Export Subsurface XML"), lastDir, tr("Subsurface files") + " (*.ssrf *.xml)"); if (!filename.isNull() && !filename.isEmpty()) { if (!filename.contains('.')) filename.append(".ssrf"); QByteArray bt = QFile::encodeName(filename); save_dives_logic(bt.data(), ui->exportSelected->isChecked(), ui->anonymize->isChecked()); } } else if (ui->exportImageDepths->isChecked()) { filename = QFileDialog::getSaveFileName(this, tr("Save image depths"), lastDir); if (!filename.isNull() && !filename.isEmpty()) export_depths(qPrintable(filename), ui->exportSelected->isChecked()); } else if (ui->exportTeX->isChecked() || ui->exportLaTeX->isChecked()) { filename = QFileDialog::getSaveFileName(this, tr("Export to TeX file"), lastDir, tr("TeX files") + " (*.tex)"); if (!filename.isNull() && !filename.isEmpty()) export_TeX(qPrintable(filename), ui->exportSelected->isChecked(), ui->exportTeX->isChecked()); } break; case 1: filename = QFileDialog::getSaveFileName(this, tr("Export HTML files as"), lastDir, tr("HTML files") + " (*.html)"); if (!filename.isNull() && !filename.isEmpty()) exportHtmlInit(filename); break; } if (!filename.isNull() && !filename.isEmpty()) { // remember the last export path QFileInfo fileInfo(filename); qPrefDisplay::set_lastDir(fileInfo.dir().path()); // the non XSLT exports are called directly above, the XSLT based ons are called here if (!stylesheet.isEmpty()) { future = QtConcurrent::run(export_dives_xslt, filename.toUtf8(), ui->exportSelected->isChecked(), ui->CSVUnits_2->currentIndex(), stylesheet.toUtf8(), ui->anonymize->isChecked()); MainWindow::instance()->getNotificationWidget()->showNotification(tr("Please wait, exporting..."), KMessageWidget::Information); MainWindow::instance()->getNotificationWidget()->setFuture(future); } } } void DiveLogExportDialog::export_depths(const char *filename, const bool selected_only) { FILE *f; struct dive *dive; depth_t depth; int i; const char *unit = NULL; struct membuffer buf = {}; for_each_dive (i, dive) { if (selected_only && !dive->selected) continue; FOR_EACH_PICTURE (dive) { int n = dive->dc.samples; struct sample *s = dive->dc.sample; depth.mm = 0; while (--n >= 0 && (int32_t)s->time.seconds <= picture->offset.seconds) { depth.mm = s->depth.mm; s++; } put_format(&buf, "%s\t%.1f", picture->filename, get_depth_units(depth.mm, NULL, &unit)); put_format(&buf, "%s\n", unit); } } f = subsurface_fopen(filename, "w+"); if (!f) { report_error(qPrintable(tr("Can't open file %s")), filename); } else { flush_buffer(&buf, f); /*check for writing errors? */ fclose(f); } free_buffer(&buf); } void DiveLogExportDialog::export_TeX(const char *filename, const bool selected_only, bool plain) { FILE *f; QDir texdir = QFileInfo(filename).dir(); struct dive *dive; const struct units *units = get_units(); const char *unit; const char *ssrf; int i; bool need_pagebreak = false; struct membuffer buf = {}; if (plain) { ssrf = ""; put_format(&buf, "\\input subsurfacetemplate\n"); put_format(&buf, "%% This is a plain TeX file. Compile with pdftex, not pdflatex!\n"); put_format(&buf, "%% You will also need a subsurfacetemplate.tex in the current directory.\n"); } else { ssrf = "ssrf"; put_format(&buf, "\\input subsurfacelatextemplate\n"); put_format(&buf, "%% This is a plain LaTeX file. Compile with pdflatex, not pdftex!\n"); put_format(&buf, "%% You will also need a subsurfacelatextemplate.tex in the current directory.\n"); } put_format(&buf, "%% You can download an example from http://www.atdotde.de/~robert/subsurfacetemplate\n%%\n"); put_format(&buf, "%%\n"); put_format(&buf, "%% Notes: TeX/LaTex will not render the degree symbol correctly by default. In LaTeX, you may\n"); put_format(&buf, "%% add the following line to the end of the preamble of your template to ensure correct output:\n"); put_format(&buf, "%% \\usepackage[utf8]{inputenc}\n"); put_format(&buf, "%% \\usepackage{gensymb}\n"); put_format(&buf, "%% \\DeclareUnicodeCharacter{00B0}{\\degree}\n"); //replaces ° with \degree put_format(&buf, "%%\n"); /* Define text fields with the units used for export. These values are set in the Subsurface Preferences * and the text fields created here are included in the data fields below. */ put_format(&buf, "\n%% These fields contain the units used in other fields below. They may be\n"); put_format(&buf, "%% referenced as needed in TeX templates.\n"); put_format(&buf, "%% \n"); put_format(&buf, "%% By default, Subsurface exports units of volume as \"ℓ\" and \"cuft\", which do\n"); put_format(&buf, "%% not render well in TeX/LaTeX. The code below substitutes \"L\" and \"ft$^{3}$\",\n"); put_format(&buf, "%% respectively. If you wish to display the original values, you may edit this\n"); put_format(&buf, "%% list and all calls to those units will be updated in your document.\n"); put_format(&buf, "\\def\\%sdepthunit{\\%sunit%s}", ssrf, ssrf, units->length == units::METERS ? "meter" : "ft"); put_format(&buf, "\\def\\%sweightunit{\\%sunit%s}",ssrf, ssrf, units->weight == units::KG ? "kg" : "lb"); put_format(&buf, "\\def\\%spressureunit{\\%sunit%s}", ssrf, ssrf, units->pressure == units::BAR ? "bar" : "psi"); put_format(&buf, "\\def\\%stemperatureunit{\\%sunit%s}", ssrf, ssrf, units->temperature == units::CELSIUS ? "celsius" : "fahrenheit"); put_format(&buf, "\\def\\%svolumeunit{\\%sunit%s}", ssrf, ssrf, units->volume == units::LITER ? "liter" : "cuft"); put_format(&buf, "\\def\\%sverticalspeedunit{\\%sunit%s}", ssrf, ssrf, units->length == units::METERS ? "meterpermin" : "ftpermin"); put_format(&buf, "\n%%%%%%%%%% Begin Dive Data: %%%%%%%%%%\n"); for_each_dive (i, dive) { if (selected_only && !dive->selected) continue; ProfileWidget2 *profile = MainWindow::instance()->graphics; profile->plotDive(dive, true); profile->setToolTipVisibile(false); QPixmap pix = QPixmap::grabWidget(profile); profile->setToolTipVisibile(true); pix.save(texdir.filePath(QString("profile%1.png").arg(dive->number))); struct tm tm; utc_mkdate(dive->when, &tm); dive_site *site = dive->dive_site; QRegExp ct("countrytag: (\\w+)"); QString country; if (ct.indexIn(site->notes) >= 0) country = ct.cap(1); else country = ""; pressure_t delta_p = {.mbar = 0}; QString star = "*"; QString viz = star.repeated(dive->visibility); QString rating = star.repeated(dive->rating); int i; int qty_cyl; int qty_weight; double total_weight; if (need_pagebreak) { if (plain) put_format(&buf, "\\vfill\\eject\n"); else put_format(&buf, "\\newpage\n"); } need_pagebreak = true; put_format(&buf, "\n%% Time, Date, and location:\n"); put_format(&buf, "\\def\\%sdate{%04u-%02u-%02u}\n", ssrf, tm.tm_year, tm.tm_mon+1, tm.tm_mday); put_format(&buf, "\\def\\%snumber{%d}\n", ssrf, dive->number); put_format(&buf, "\\def\\%splace{%s}\n", ssrf, site ? site->name : ""); put_format(&buf, "\\def\\%sspot{}\n", ssrf); put_format(&buf, "\\def\\%ssitename{%s}\n", ssrf, site ? site->name : ""); site ? put_format(&buf, "\\def\\%sgpslat{%f}\n", ssrf, site->location.lat.udeg / 1000000.0) : put_format(&buf, "\\def\\%sgpslat{}\n", ssrf); site ? put_format(&buf, "\\def\\%sgpslon{%f}\n", ssrf, site->location.lon.udeg / 1000000.0) : put_format(&buf, "\\def\\gpslon{}\n"); put_format(&buf, "\\def\\%scomputer{%s}\n", ssrf, dive->dc.model); put_format(&buf, "\\def\\%scountry{%s}\n", ssrf, qPrintable(country)); put_format(&buf, "\\def\\%stime{%u:%02u}\n", ssrf, FRACTION(dive->duration.seconds, 60)); put_format(&buf, "\n%% Dive Profile Details:\n"); dive->maxtemp.mkelvin ? put_format(&buf, "\\def\\%smaxtemp{%.1f\\%stemperatureunit}\n", ssrf, get_temp_units(dive->maxtemp.mkelvin, &unit), ssrf) : put_format(&buf, "\\def\\%smaxtemp{}\n", ssrf); dive->mintemp.mkelvin ? put_format(&buf, "\\def\\%smintemp{%.1f\\%stemperatureunit}\n", ssrf, get_temp_units(dive->mintemp.mkelvin, &unit), ssrf) : put_format(&buf, "\\def\\%ssrfmintemp{}\n", ssrf); dive->watertemp.mkelvin ? put_format(&buf, "\\def\\%swatertemp{%.1f\\%stemperatureunit}\n", ssrf, get_temp_units(dive->watertemp.mkelvin, &unit), ssrf) : put_format(&buf, "\\def\\%swatertemp{}\n", ssrf); dive->airtemp.mkelvin ? put_format(&buf, "\\def\\%sairtemp{%.1f\\%stemperatureunit}\n", ssrf, get_temp_units(dive->airtemp.mkelvin, &unit), ssrf) : put_format(&buf, "\\def\\%sairtemp{}\n", ssrf); dive->maxdepth.mm ? put_format(&buf, "\\def\\%smaximumdepth{%.1f\\%sdepthunit}\n", ssrf, get_depth_units(dive->maxdepth.mm, NULL, &unit), ssrf) : put_format(&buf, "\\def\\%smaximumdepth{}\n", ssrf); dive->meandepth.mm ? put_format(&buf, "\\def\\%smeandepth{%.1f\\%sdepthunit}\n", ssrf, get_depth_units(dive->meandepth.mm, NULL, &unit), ssrf) : put_format(&buf, "\\def\\%smeandepth{}\n", ssrf); put_format(&buf, "\\def\\%stype{%s}\n", ssrf, dive->tag_list ? dive->tag_list->tag->name : ""); put_format(&buf, "\\def\\%sviz{%s}\n", ssrf, qPrintable(viz)); put_format(&buf, "\\def\\%srating{%s}\n", ssrf, qPrintable(rating)); put_format(&buf, "\\def\\%splot{\\includegraphics[width=9cm,height=4cm]{profile%d}}\n", ssrf, dive->number); put_format(&buf, "\\def\\%scomment{%s}\n", ssrf, dive->notes ? dive->notes : ""); put_format(&buf, "\\def\\%sbuddy{%s}\n", ssrf, dive->buddy ? dive->buddy : ""); put_format(&buf, "\\def\\%sdivemaster{%s}\n", ssrf, dive->divemaster ? dive->divemaster : ""); put_format(&buf, "\\def\\%ssuit{%s}\n", ssrf, dive->suit ? dive->suit : ""); // Print cylinder data put_format(&buf, "\n%% Gas use information:\n"); qty_cyl = 0; for (i = 0; i < MAX_CYLINDERS; i++){ if (is_cylinder_used(dive, i) || (prefs.display_unused_tanks && dive->cylinder[i].type.description)){ put_format(&buf, "\\def\\%scyl%cdescription{%s}\n", ssrf, 'a' + i, dive->cylinder[i].type.description); put_format(&buf, "\\def\\%scyl%cgasname{%s}\n", ssrf, 'a' + i, gasname(dive->cylinder[i].gasmix)); put_format(&buf, "\\def\\%scyl%cmixO2{%.1f\\%%}\n", ssrf, 'a' + i, get_o2(dive->cylinder[i].gasmix)/10.0); put_format(&buf, "\\def\\%scyl%cmixHe{%.1f\\%%}\n", ssrf, 'a' + i, get_he(dive->cylinder[i].gasmix)/10.0); put_format(&buf, "\\def\\%scyl%cmixN2{%.1f\\%%}\n", ssrf, 'a' + i, (100.0 - (get_o2(dive->cylinder[i].gasmix)/10.0) - (get_he(dive->cylinder[i].gasmix)/10.0))); delta_p.mbar += dive->cylinder[i].start.mbar - dive->cylinder[i].end.mbar; put_format(&buf, "\\def\\%scyl%cstartpress{%.1f\\%spressureunit}\n", ssrf, 'a' + i, get_pressure_units(dive->cylinder[i].start.mbar, &unit)/1.0, ssrf); put_format(&buf, "\\def\\%scyl%cendpress{%.1f\\%spressureunit}\n", ssrf, 'a' + i, get_pressure_units(dive->cylinder[i].end.mbar, &unit)/1.0, ssrf); qty_cyl += 1; } else { put_format(&buf, "\\def\\%scyl%cdescription{}\n", ssrf, 'a' + i); put_format(&buf, "\\def\\%scyl%cgasname{}\n", ssrf, 'a' + i); put_format(&buf, "\\def\\%scyl%cmixO2{}\n", ssrf, 'a' + i); put_format(&buf, "\\def\\%scyl%cmixHe{}\n", ssrf, 'a' + i); put_format(&buf, "\\def\\%scyl%cmixN2{}\n", ssrf, 'a' + i); delta_p.mbar += dive->cylinder[i].start.mbar - dive->cylinder[i].end.mbar; put_format(&buf, "\\def\\%scyl%cstartpress{}\n", ssrf, 'a' + i); put_format(&buf, "\\def\\%scyl%cendpress{}\n", ssrf, 'a' + i); qty_cyl += 1; } } put_format(&buf, "\\def\\%sqtycyl{%d}\n", ssrf, qty_cyl); put_format(&buf, "\\def\\%sgasuse{%.1f\\%spressureunit}\n", ssrf, get_pressure_units(delta_p.mbar, &unit)/1.0, ssrf); put_format(&buf, "\\def\\%ssac{%.2f\\%svolumeunit/min}\n", ssrf, get_volume_units(dive->sac, NULL, &unit), ssrf); //Code block prints all weights listed in dive. put_format(&buf, "\n%% Weighting information:\n"); qty_weight = 0; total_weight = 0; for (i = 0; i < MAX_WEIGHTSYSTEMS; i++){ if (dive->weightsystem[i].weight.grams){ put_format(&buf, "\\def\\%sweight%ctype{%s}\n", ssrf, 'a' + i, dive->weightsystem[i].description); put_format(&buf, "\\def\\%sweight%camt{%.3f\\%sweightunit}\n", ssrf, 'a' + i, get_weight_units(dive->weightsystem[i].weight.grams, NULL, &unit), ssrf); qty_weight += 1; total_weight += get_weight_units(dive->weightsystem[i].weight.grams, NULL, &unit); } else { put_format(&buf, "\\def\\%sweight%ctype{}\n", ssrf, 'a' + i); put_format(&buf, "\\def\\%sweight%camt{}\n", ssrf, 'a' + i); } } put_format(&buf, "\\def\\%sqtyweights{%d}\n", ssrf, qty_weight); put_format(&buf, "\\def\\%stotalweight{%.2f\\%sweightunit}\n", ssrf, total_weight, ssrf); unit = ""; // Legacy fields put_format(&buf, "\\def\\%sspot{}\n", ssrf); put_format(&buf, "\\def\\%sentrance{}\n", ssrf); put_format(&buf, "\\def\\%splace{%s}\n", ssrf, site ? site->name : ""); dive->maxdepth.mm ? put_format(&buf, "\\def\\%sdepth{%.1f\\%sdepthunit}\n", ssrf, get_depth_units(dive->maxdepth.mm, NULL, &unit), ssrf) : put_format(&buf, "\\def\\%sdepth{}\n", ssrf); put_format(&buf, "\\%spage\n", ssrf); } if (plain) put_format(&buf, "\\bye\n"); else put_format(&buf, "\\end{document}\n"); f = subsurface_fopen(filename, "w+"); if (!f) { report_error(qPrintable(tr("Can't open file %s")), filename); } else { flush_buffer(&buf, f); /*check for writing errors? */ fclose(f); } free_buffer(&buf); }