subsurface/desktop-widgets/tab-widgets/TabDiveInformation.cpp

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// SPDX-License-Identifier: GPL-2.0
#include "TabDiveInformation.h"
#include "ui_TabDiveInformation.h"
#include "../tagwidget.h"
#include <core/qthelper.h>
#include <core/statistics.h>
#include <core/display.h>
TabDiveInformation::TabDiveInformation(QWidget *parent) : TabBase(parent), ui(new Ui::TabDiveInformation())
{
ui->setupUi(this);
}
TabDiveInformation::~TabDiveInformation()
{
delete ui;
}
void TabDiveInformation::clear()
{
ui->sacText->clear();
ui->otuText->clear();
ui->maxcnsText->clear();
ui->oxygenHeliumText->clear();
ui->gasUsedText->clear();
ui->dateText->clear();
ui->diveTimeText->clear();
ui->surfaceIntervalText->clear();
ui->maximumDepthText->clear();
ui->averageDepthText->clear();
ui->waterTemperatureText->clear();
ui->airTemperatureText->clear();
ui->airPressureText->clear();
ui->salinityText->clear();
}
void TabDiveInformation::updateData()
{
clear();
ui->maxcnsText->setText(QString("%1\%").arg(displayed_dive.maxcns));
ui->otuText->setText(QString("%1").arg(displayed_dive.otu));
ui->maximumDepthText->setText(get_depth_string(displayed_dive.maxdepth, true));
ui->averageDepthText->setText(get_depth_string(displayed_dive.meandepth, true));
ui->dateText->setText(get_short_dive_date_string(displayed_dive.when));
ui->waterTemperatureText->setText(get_temperature_string(displayed_dive.watertemp, true));
ui->airTemperatureText->setText(get_temperature_string(displayed_dive.airtemp, true));
volume_t gases[MAX_CYLINDERS] = {};
get_gas_used(&displayed_dive, gases);
QString volumes;
int mean[MAX_CYLINDERS], duration[MAX_CYLINDERS];
per_cylinder_mean_depth(&displayed_dive, select_dc(&displayed_dive), mean, duration);
volume_t sac;
QString gaslist, SACs, separator;
gaslist = ""; SACs = ""; volumes = ""; separator = "";
for (int i = 0; i < MAX_CYLINDERS; i++) {
if (!is_cylinder_used(&displayed_dive, i))
continue;
gaslist.append(separator); volumes.append(separator); SACs.append(separator);
separator = "\n";
gaslist.append(gasname(displayed_dive.cylinder[i].gasmix));
if (!gases[i].mliter)
continue;
volumes.append(get_volume_string(gases[i], true));
if (duration[i]) {
sac.mliter = lrint(gases[i].mliter / (depth_to_atm(mean[i], &displayed_dive) * duration[i] / 60));
SACs.append(get_volume_string(sac, true).append(tr("/min")));
}
}
ui->gasUsedText->setText(volumes);
ui->oxygenHeliumText->setText(gaslist);
ui->diveTimeText->setText(get_dive_duration_string(displayed_dive.duration.seconds, tr("h"), tr("min"), tr("sec"),
" ", displayed_dive.dc.divemode == FREEDIVE));
struct dive *prevd;
process_all_dives(&displayed_dive, &prevd);
if (prevd)
ui->surfaceIntervalText->setText(get_dive_surfint_string(displayed_dive.when - (dive_endtime(prevd)), tr("d"), tr("h"), tr("min")));
else
ui->surfaceIntervalText->clear();
ui->sacText->setText( mean[0] ? SACs : QString());
if (displayed_dive.surface_pressure.mbar) /* this is ALWAYS displayed in mbar */
ui->airPressureText->setText(QString("%1mbar").arg(displayed_dive.surface_pressure.mbar));
else
ui->airPressureText->clear();
if (displayed_dive.salinity)
ui->salinityText->setText(QString("%1g/").arg(displayed_dive.salinity / 10.0));
else
ui->salinityText->clear();
}