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7c9f46acd2
Instead of using fixed size arrays, use a new cylinder_table structure. The code copies the weightsystem code, but is significantly more complex because cylinders are such an integral part of the core. Two functions to access the cylinders were added: get_cylinder() and get_or_create_cylinder() The former does a simple array access and supposes that the cylinder exists. The latter is used by the parser(s) and if a cylinder with the given id does not exist, cylinders up to that id are generated. One point will make C programmers cringe: the cylinder structure is passed by value. This is due to the way the table-macros work. A refactoring of the table macros is planned. It has to be noted that the size of a cylinder_t is 64 bytes, i.e. 8 long words on a 64-bit architecture, so passing on the stack is probably not even significantly slower than passing as reference. Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
149 lines
5.9 KiB
C++
149 lines
5.9 KiB
C++
// SPDX-License-Identifier: GPL-2.0
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#include "TabDiveStatistics.h"
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#include "ui_TabDiveStatistics.h"
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#include <core/qthelper.h>
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#include <core/display.h>
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#include <core/statistics.h>
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TabDiveStatistics::TabDiveStatistics(QWidget *parent) : TabBase(parent), ui(new Ui::TabDiveStatistics())
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{
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ui->setupUi(this);
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ui->sacLimits->overrideMaxToolTipText(tr("Highest total SAC of a dive"));
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ui->sacLimits->overrideMinToolTipText(tr("Lowest total SAC of a dive"));
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ui->sacLimits->overrideAvgToolTipText(tr("Average total SAC of all selected dives"));
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ui->tempLimits->overrideMaxToolTipText(tr("Highest temperature"));
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ui->tempLimits->overrideMinToolTipText(tr("Lowest temperature"));
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ui->tempLimits->overrideAvgToolTipText(tr("Average temperature of all selected dives"));
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ui->depthLimits->overrideMaxToolTipText(tr("Deepest dive"));
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ui->depthLimits->overrideMinToolTipText(tr("Shallowest dive"));
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ui->timeLimits->overrideMaxToolTipText(tr("Longest dive"));
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ui->timeLimits->overrideMinToolTipText(tr("Shortest dive"));
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ui->timeLimits->overrideAvgToolTipText(tr("Average length of all selected dives"));
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connect(&diveListNotifier, &DiveListNotifier::divesChanged, this, &TabDiveStatistics::divesChanged);
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const auto l = findChildren<QLabel *>(QString(), Qt::FindDirectChildrenOnly);
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for (QLabel *label: l) {
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label->setAlignment(Qt::AlignHCenter);
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}
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}
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TabDiveStatistics::~TabDiveStatistics()
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{
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delete ui;
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}
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void TabDiveStatistics::clear()
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{
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ui->depthLimits->clear();
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ui->sacLimits->clear();
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ui->divesAllText->clear();
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ui->tempLimits->clear();
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ui->totalTimeAllText->clear();
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ui->timeLimits->clear();
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}
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// This function gets called if a field gets updated by an undo command.
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// Refresh the corresponding UI field.
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void TabDiveStatistics::divesChanged(const QVector<dive *> &dives, DiveField field)
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{
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// If none of the changed dives is selected, do nothing
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if (std::none_of(dives.begin(), dives.end(), [] (const dive *d) { return d->selected; }))
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return;
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// TODO: make this more fine grained. Currently, the core can only calculate *all* statistics.
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if (field.duration || field.depth || field.mode || field.air_temp || field.water_temp)
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updateData();
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}
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void TabDiveStatistics::updateData()
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{
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stats_t stats_selection;
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calculate_stats_selected(&stats_selection);
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clear();
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if (amount_selected > 1) {
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ui->depthLimits->setMaximum(get_depth_string(stats_selection.max_depth, true));
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ui->depthLimits->setMinimum(get_depth_string(stats_selection.min_depth, true));
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ui->depthLimits->setAverage(get_depth_string(stats_selection.combined_max_depth.mm / stats_selection.selection_size, true));
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} else {
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ui->depthLimits->setMaximum("");
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ui->depthLimits->setMinimum("");
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ui->depthLimits->setAverage(get_depth_string(stats_selection.max_depth, true));
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}
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if (stats_selection.max_sac.mliter && (stats_selection.max_sac.mliter != stats_selection.avg_sac.mliter))
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ui->sacLimits->setMaximum(get_volume_string(stats_selection.max_sac, true).append(tr("/min")));
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else
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ui->sacLimits->setMaximum("");
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if (stats_selection.min_sac.mliter && (stats_selection.min_sac.mliter != stats_selection.avg_sac.mliter))
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ui->sacLimits->setMinimum(get_volume_string(stats_selection.min_sac, true).append(tr("/min")));
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else
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ui->sacLimits->setMinimum("");
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if (stats_selection.avg_sac.mliter)
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ui->sacLimits->setAverage(get_volume_string(stats_selection.avg_sac, true).append(tr("/min")));
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else
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ui->sacLimits->setAverage("");
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if (stats_selection.combined_count > 1) {
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ui->tempLimits->setMaximum(get_temperature_string(stats_selection.max_temp, true));
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ui->tempLimits->setMinimum(get_temperature_string(stats_selection.min_temp, true));
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}
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if (stats_selection.combined_temp.mkelvin && stats_selection.combined_count) {
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temperature_t avg_temp;
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avg_temp.mkelvin = stats_selection.combined_temp.mkelvin / stats_selection.combined_count;
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ui->tempLimits->setAverage(get_temperature_string(avg_temp, true));
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}
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ui->divesAllText->setText(QString::number(stats_selection.selection_size));
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ui->totalTimeAllText->setText(get_dive_duration_string(stats_selection.total_time.seconds, tr("h"), tr("min"), tr("sec"),
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" ", displayed_dive.dc.divemode == FREEDIVE));
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int seconds = stats_selection.total_time.seconds;
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if (stats_selection.selection_size)
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seconds /= stats_selection.selection_size;
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ui->timeLimits->setAverage(get_dive_duration_string(seconds, tr("h"), tr("min"), tr("sec"),
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" ", displayed_dive.dc.divemode == FREEDIVE));
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if (amount_selected > 1) {
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ui->timeLimits->setMaximum(get_dive_duration_string(stats_selection.longest_time.seconds, tr("h"), tr("min"), tr("sec"),
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" ", displayed_dive.dc.divemode == FREEDIVE));
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ui->timeLimits->setMinimum(get_dive_duration_string(stats_selection.shortest_time.seconds, tr("h"), tr("min"), tr("sec"),
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" ", displayed_dive.dc.divemode == FREEDIVE));
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} else {
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ui->timeLimits->setMaximum("");
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ui->timeLimits->setMinimum("");
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}
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QVector<QPair<QString, int> > gasUsed = selectedDivesGasUsed();
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QString gasUsedString;
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volume_t vol;
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while (!gasUsed.isEmpty()) {
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QPair<QString, int> gasPair = gasUsed.last();
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gasUsed.pop_back();
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vol.mliter = gasPair.second;
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gasUsedString.append(gasPair.first).append(": ").append(get_volume_string(vol, true)).append("\n");
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}
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volume_t o2_tot = {}, he_tot = {};
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selected_dives_gas_parts(&o2_tot, &he_tot);
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/* No need to show the gas mixing information if diving
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* with pure air, and only display the he / O2 part when
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* it is used.
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*/
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if (he_tot.mliter || o2_tot.mliter) {
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gasUsedString.append(tr("These gases could be\nmixed from Air and using:\n"));
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if (he_tot.mliter) {
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gasUsedString.append(tr("He"));
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gasUsedString.append(QString(": %1").arg(get_volume_string(he_tot, true)));
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}
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if (he_tot.mliter && o2_tot.mliter)
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gasUsedString.append(" ").append(tr("and")).append(" ");
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if (o2_tot.mliter) {
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gasUsedString.append(tr("O₂"));
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gasUsedString.append(QString(": %2\n").arg(get_volume_string(o2_tot, true)));
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}
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}
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ui->gasConsumption->setText(gasUsedString);
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}
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