subsurface/backend-shared/exportfuncs.cpp

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// SPDX-License-Identifier: GPL-2.0
#include "exportfuncs.h"
#include "core/membuffer.h"
#include "core/dive.h"
#include "core/divelog.h"
#include "core/divesite.h"
#include "core/gettextfromc.h"
#include "core/tag.h"
#include "core/subsurface-time.h"
#include "core/file.h"
#include "core/errorhelper.h"
#include "core/divefilter.h"
#include "core/divesite.h"
#include "core/picture.h"
#include "core/pref.h"
#include "core/range.h"
#include "core/sample.h"
#include "core/selection.h"
#include "core/taxonomy.h"
#include "core/sample.h"
#include "profile-widget/profilescene.h"
#include <QDir>
#include <QFileInfo>
#include <QtConcurrent>
#include <memory>
// Default implementation of the export callback: do nothing / never cancel
void ExportCallback::setProgress(int)
{
}
bool ExportCallback::canceled() const
{
return false;
}
#if !defined(SUBSURFACE_MOBILE)
// Let's say that 800x600 is a "reasonable" profile size. Use four times that for printing.
static constexpr int profileScale = 4;
static constexpr int profileWidth = 800 * profileScale;
static constexpr int profileHeight = 600 * profileScale;
static void exportProfile(ProfileScene &profile, const struct dive &dive, const QString &filename)
{
QImage image = QImage(QSize(profileWidth, profileHeight), QImage::Format_RGB32);
QPainter paint;
paint.begin(&image);
profile.draw(&paint, QRect(0, 0, profileWidth, profileHeight), &dive, 0, nullptr, false);
image.save(filename);
}
static std::unique_ptr<ProfileScene> getPrintProfile()
{
return std::make_unique<ProfileScene>((double)profileScale, true, false);
}
void exportProfile(QString filename, bool selected_only, ExportCallback &cb)
{
int count = 0;
if (!filename.endsWith(".png", Qt::CaseInsensitive))
filename = filename.append(".png");
QFileInfo fi(filename);
int todo = selected_only ? amount_selected : static_cast<int>(divelog.dives.size());
int done = 0;
auto profile = getPrintProfile();
for (auto &dive: divelog.dives) {
if (cb.canceled())
return;
if (selected_only && !dive->selected)
continue;
cb.setProgress(done++ * 1000 / todo);
QString fn = count ? fi.path() + QDir::separator() + fi.completeBaseName().append(QString("-%1.").arg(count)) + fi.suffix()
: filename;
exportProfile(*profile, *dive, fn);
++count;
}
}
void export_TeX(const char *filename, bool selected_only, bool plain, ExportCallback &cb)
{
FILE *f;
QDir texdir = QFileInfo(filename).dir();
const struct units *units = get_units();
const char *unit;
const char *ssrf;
bool need_pagebreak = false;
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 \"\" 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 ? "centigrade" : "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");
int todo = selected_only ? amount_selected : static_cast<int>(divelog.dives.size());
int done = 0;
auto profile = getPrintProfile();
for (auto &dive: divelog.dives) {
if (cb.canceled())
return;
if (selected_only && !dive->selected)
continue;
cb.setProgress(done++ * 1000 / todo);
exportProfile(*profile, *dive, texdir.filePath(QString("profile%1.png").arg(dive->number)));
struct tm tm;
utc_mkdate(dive->when, &tm);
std::string country;
dive_site *site = dive->dive_site;
if (site)
country = taxonomy_get_country(site->taxonomy);
pressure_t delta_p;
QString star = "*";
QString viz = star.repeated(dive->visibility);
QString rating = star.repeated(dive->rating);
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\\%shour{%02u}\n", ssrf, tm.tm_hour);
put_format(&buf, "\\def\\%sminute{%02u}\n", ssrf, tm.tm_min);
put_format(&buf, "\\def\\%snumber{%d}\n", ssrf, dive->number);
put_format(&buf, "\\def\\%splace{%s}\n", ssrf, site ? site->name.c_str() : "");
put_format(&buf, "\\def\\%sspot{}\n", ssrf);
put_format(&buf, "\\def\\%ssitename{%s}\n", ssrf, site ? site->name.c_str() : "");
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->dcs[0].model.c_str());
put_format(&buf, "\\def\\%scountry{%s}\n", ssrf, country.c_str());
put_format(&buf, "\\def\\%stime{%u:%02u}\n", ssrf, FRACTION_TUPLE(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);
std::string tags = taglist_get_tagstring(dive->tags);
put_format(&buf, "\\def\\%stype{%s}\n", ssrf, tags.c_str());
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\\%sprofilename{profile%d}\n", ssrf, dive->number);
put_format(&buf, "\\def\\%scomment{%s}\n", ssrf, dive->notes.c_str());
put_format(&buf, "\\def\\%sbuddy{%s}\n", ssrf, dive->buddy.c_str());
put_format(&buf, "\\def\\%sdivemaster{%s}\n", ssrf, dive->diveguide.c_str());
put_format(&buf, "\\def\\%ssuit{%s}\n", ssrf, dive->suit.c_str());
// Print cylinder data
put_format(&buf, "\n%% Gas use information:\n");
int qty_cyl = 0;
for (auto [i, cyl]: enumerated_range(dive->cylinders)) {
if (is_cylinder_used(dive.get(), i) || (prefs.include_unused_tanks && !cyl.type.description.empty())){
put_format(&buf, "\\def\\%scyl%cdescription{%s}\n", ssrf, 'a' + i, cyl.type.description.c_str());
put_format(&buf, "\\def\\%scyl%cgasname{%s}\n", ssrf, 'a' + i, gasname(cyl.gasmix));
put_format(&buf, "\\def\\%scyl%cmixO2{%.1f\\%%}\n", ssrf, 'a' + i, get_o2(cyl.gasmix)/10.0);
put_format(&buf, "\\def\\%scyl%cmixHe{%.1f\\%%}\n", ssrf, 'a' + i, get_he(cyl.gasmix)/10.0);
put_format(&buf, "\\def\\%scyl%cmixN2{%.1f\\%%}\n", ssrf, 'a' + i, (100.0 - (get_o2(cyl.gasmix)/10.0) - (get_he(cyl.gasmix)/10.0)));
delta_p.mbar += cyl.start.mbar - cyl.end.mbar;
put_format(&buf, "\\def\\%scyl%cstartpress{%.1f\\%spressureunit}\n", ssrf, 'a' + i, get_pressure_units(cyl.start.mbar, &unit)/1.0, ssrf);
put_format(&buf, "\\def\\%scyl%cendpress{%.1f\\%spressureunit}\n", ssrf, 'a' + i, get_pressure_units(cyl.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 += cyl.start.mbar - cyl.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");
int qty_weight = 0;
double total_weight = 0;
for (auto [i, w]: enumerated_range(dive->weightsystems)) {
put_format(&buf, "\\def\\%sweight%ctype{%s}\n", ssrf, 'a' + i, w.description.c_str());
put_format(&buf, "\\def\\%sweight%camt{%.3f\\%sweightunit}\n", ssrf, 'a' + i, get_weight_units(w.weight.grams, NULL, &unit), ssrf);
qty_weight += 1;
total_weight += get_weight_units(w.weight.grams, NULL, &unit);
}
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.c_str() : "");
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(gettextFromC::tr("Can't open file %s")), filename);
} else {
flush_buffer(&buf, f); /*check for writing errors? */
fclose(f);
}
cb.setProgress(1000);
}
void export_depths(const char *filename, bool selected_only)
{
FILE *f;
const char *unit = NULL;
membuffer buf;
for (auto &dive: divelog.dives) {
if (selected_only && !dive->selected)
continue;
for (auto &picture: dive->pictures) {
depth_t depth;
for (auto &s: dive->dcs[0].samples) {
if ((int32_t)s.time.seconds > picture.offset.seconds)
break;
depth = s.depth;
}
put_format(&buf, "%s\t%.1f", picture.filename.c_str(), get_depth_units(depth.mm, NULL, &unit));
put_format(&buf, "%s\n", unit);
}
}
f = subsurface_fopen(filename, "w+");
if (!f) {
report_error(qPrintable(gettextFromC::tr("Can't open file %s")), filename);
} else {
flush_buffer(&buf, f); /*check for writing errors? */
fclose(f);
}
}
#endif /* ! SUBSURFACE_MOBILE */
std::vector<const dive_site *> getDiveSitesToExport(bool selectedOnly)
{
std::vector<const dive_site *> res;
#ifndef SUBSURFACE_MOBILE
// Waiting for DiveFilter to be combined for both mobile and desktop
if (selectedOnly && DiveFilter::instance()->diveSiteMode()) {
// Special case in dive site mode: export all selected dive sites,
// not the dive sites of selected dives.
for (auto ds: DiveFilter::instance()->filteredDiveSites())
res.push_back(ds);
return res;
}
res.reserve(divelog.sites->size());
for (const auto &ds: *divelog.sites) {
if (ds->is_empty())
continue;
if (selectedOnly && !ds->is_selected())
continue;
res.push_back(ds.get());
}
#else
/* walk the dive site list */
for (const auto &ds: *divelog.sites)
res.push_back(ds.get());
#endif
return res;
}
QFuture<int> exportUsingStyleSheet(const QString &filename, bool doExport, int units,
const QString &stylesheet, bool anonymize)
{
return QtConcurrent::run(export_dives_xslt, filename.toUtf8(), doExport, units, stylesheet.toUtf8(), anonymize);
}