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// SPDX-License-Identifier: GPL-2.0
#include "TabDiveStatistics.h"
#include "ui_TabDiveStatistics.h"
#include <core/helpers.h>
#include <core/display.h>
#include <core/statistics.h>
TabDiveStatistics::TabDiveStatistics(QWidget *parent) : TabBase(parent), ui(new Ui::TabDiveStatistics())
{
ui->setupUi(this);
ui->sacLimits->overrideMaxToolTipText(tr("Highest total SAC of a dive"));
ui->sacLimits->overrideMinToolTipText(tr("Lowest total SAC of a dive"));
ui->sacLimits->overrideAvgToolTipText(tr("Average total SAC of all selected dives"));
ui->tempLimits->overrideMaxToolTipText(tr("Highest temperature"));
ui->tempLimits->overrideMinToolTipText(tr("Lowest temperature"));
ui->tempLimits->overrideAvgToolTipText(tr("Average temperature of all selected dives"));
ui->depthLimits->overrideMaxToolTipText(tr("Deepest dive"));
ui->depthLimits->overrideMinToolTipText(tr("Shallowest dive"));
ui->timeLimits->overrideMaxToolTipText(tr("Longest dive"));
ui->timeLimits->overrideMinToolTipText(tr("Shortest dive"));
ui->timeLimits->overrideAvgToolTipText(tr("Average length of all selected dives"));
Q_FOREACH (QObject *obj, children()) {
if (QLabel *label = qobject_cast<QLabel *>(obj))
label->setAlignment(Qt::AlignHCenter);
}
}
TabDiveStatistics::~TabDiveStatistics()
{
delete ui;
}
void TabDiveStatistics::clear()
{
ui->depthLimits->clear();
ui->sacLimits->clear();
ui->divesAllText->clear();
ui->tempLimits->clear();
ui->totalTimeAllText->clear();
ui->timeLimits->clear();
}
void TabDiveStatistics::updateData()
{
clear();
ui->depthLimits->setMaximum(get_depth_string(stats_selection.max_depth, true));
if (amount_selected > 1)
ui->depthLimits->setMinimum(get_depth_string(stats_selection.min_depth, true));
else
ui->depthLimits->setMinimum("");
// the overall average depth is really confusing when listed between the
// deepest and shallowest dive - let's just not set it
// ui->depthLimits->setAverage(get_depth_string(stats_selection.avg_depth, true));
// Also hide the avgIco, so its clear that its not there.
ui->depthLimits->overrideAvgToolTipText("");
ui->depthLimits->setAvgVisibility(false);
if (stats_selection.max_sac.mliter && (stats_selection.max_sac.mliter != stats_selection.avg_sac.mliter))
ui->sacLimits->setMaximum(get_volume_string(stats_selection.max_sac, true).append(tr("/min")));
else
ui->sacLimits->setMaximum("");
if (stats_selection.min_sac.mliter && (stats_selection.min_sac.mliter != stats_selection.avg_sac.mliter))
ui->sacLimits->setMinimum(get_volume_string(stats_selection.min_sac, true).append(tr("/min")));
else
ui->sacLimits->setMinimum("");
if (stats_selection.avg_sac.mliter)
ui->sacLimits->setAverage(get_volume_string(stats_selection.avg_sac, true).append(tr("/min")));
else
ui->sacLimits->setAverage("");
temperature_t temp;
temp.mkelvin = stats_selection.max_temp;
ui->tempLimits->setMaximum(get_temperature_string(temp, true));
temp.mkelvin = stats_selection.min_temp;
ui->tempLimits->setMinimum(get_temperature_string(temp, true));
if (stats_selection.combined_temp && stats_selection.combined_count) {
const char *unit;
get_temp_units(0, &unit);
ui->tempLimits->setAverage(QString("%1%2").arg(stats_selection.combined_temp / stats_selection.combined_count, 0, 'f', 1).arg(unit));
}
ui->divesAllText->setText(QString::number(stats_selection.selection_size));
ui->totalTimeAllText->setText(get_time_string_s(stats_selection.total_time.seconds, 0, (displayed_dive.dc.divemode == FREEDIVE)));
int seconds = stats_selection.total_time.seconds;
if (stats_selection.selection_size)
seconds /= stats_selection.selection_size;
ui->timeLimits->setAverage(get_time_string_s(seconds, 0,(displayed_dive.dc.divemode == FREEDIVE)));
if (amount_selected > 1) {
ui->timeLimits->setMaximum(get_time_string_s(stats_selection.longest_time.seconds, 0, (displayed_dive.dc.divemode == FREEDIVE)));
ui->timeLimits->setMinimum(get_time_string_s(stats_selection.shortest_time.seconds, 0, (displayed_dive.dc.divemode == FREEDIVE)));
} else {
ui->timeLimits->setMaximum("");
ui->timeLimits->setMinimum("");
}
QVector<QPair<QString, int> > gasUsed;
QString gasUsedString;
volume_t vol;
selectedDivesGasUsed(gasUsed);
for (int j = 0; j < 20; j++) {
if (gasUsed.isEmpty())
break;
QPair<QString, int> gasPair = gasUsed.last();
gasUsed.pop_back();
vol.mliter = gasPair.second;
gasUsedString.append(gasPair.first).append(": ").append(get_volume_string(vol, true)).append("\n");
}
if (!gasUsed.isEmpty())
gasUsedString.append("...");
volume_t o2_tot = {}, he_tot = {};
selected_dives_gas_parts(&o2_tot, &he_tot);
/* No need to show the gas mixing information if diving
* with pure air, and only display the he / O2 part when
* it is used.
*/
if (he_tot.mliter || o2_tot.mliter) {
gasUsedString.append(tr("These gases could be\nmixed from Air and using:\n"));
if (he_tot.mliter) {
gasUsedString.append(tr("He"));
gasUsedString.append(QString(": %1").arg(get_volume_string(he_tot, true)));
}
if (he_tot.mliter && o2_tot.mliter)
gasUsedString.append(" ").append(tr("and")).append(" ");
if (o2_tot.mliter) {
gasUsedString.append(tr("O₂"));
gasUsedString.append(QString(": %2\n").arg(get_volume_string(o2_tot, true)));
}
}
ui->gasConsumption->setText(gasUsedString);
}
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