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https://github.com/subsurface/subsurface.git
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3fc9c1e005
This adds a toolbox icon to turn on a tissue plot inspired by the bar graph of the Sherwater Petrel, It shows the inert gas partial pressures for individual compartments. If they are below the ambient pressure (grey line) they are shown in units of the ambient pressure, if they are above, the excess is shown as a percentage of the allowed overpressure for plain Buehlmann. So it has the same units as a gradient factor. Thus also the a gradient factor line (for the current depth) is shown. The different tissues get different colors, greener for the faster ones and bluer for the slower ones. Positioning and on/off icon action still need some tender loving care. Signed-off-by: Robert C. Helling <helling@atdotde.de> Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
193 lines
4.6 KiB
C++
193 lines
4.6 KiB
C++
#include "diveplotdatamodel.h"
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#include "dive.h"
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#include "display.h"
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#include "profile.h"
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#include "graphicsview-common.h"
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#include "divelist.h"
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#include <QDebug>
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DivePlotDataModel::DivePlotDataModel(QObject *parent) : QAbstractTableModel(parent), diveId(0)
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{
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memset(&pInfo, 0, sizeof(pInfo));
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}
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int DivePlotDataModel::columnCount(const QModelIndex &parent) const
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{
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return COLUMNS;
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}
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QVariant DivePlotDataModel::data(const QModelIndex &index, int role) const
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{
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if ((!index.isValid()) || (index.row() >= pInfo.nr))
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return QVariant();
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plot_data item = pInfo.entry[index.row()];
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if (role == Qt::DisplayRole) {
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switch (index.column()) {
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case DEPTH:
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return item.depth;
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case TIME:
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return item.sec;
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case PRESSURE:
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return item.pressure[0];
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case TEMPERATURE:
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return item.temperature;
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case COLOR:
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return item.velocity;
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case USERENTERED:
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return false;
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case CYLINDERINDEX:
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return item.cylinderindex;
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case SENSOR_PRESSURE:
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return item.pressure[0];
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case INTERPOLATED_PRESSURE:
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return item.pressure[1];
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case CEILING:
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return item.ceiling;
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case SAC:
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return item.sac;
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case PN2:
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return item.pressures.n2;
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case PHE:
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return item.pressures.he;
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case PO2:
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return item.pressures.o2;
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case HEARTBEAT:
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return item.heartbeat;
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case AMBPRESSURE:
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return AMB_PERCENTAGE;
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case GFLINE:
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return item.gfline;
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}
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}
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if (role == Qt::DisplayRole && index.column() >= TISSUE_1 && index.column() <= TISSUE_16) {
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return item.ceilings[index.column() - TISSUE_1];
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}
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if (role == Qt::DisplayRole && index.column() >= PERCENTAGE_1 && index.column() <= PERCENTAGE_16) {
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return item.percentages[index.column() - PERCENTAGE_1];
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}
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if (role == Qt::BackgroundRole) {
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switch (index.column()) {
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case COLOR:
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return getColor((color_indice_t)(VELOCITY_COLORS_START_IDX + item.velocity));
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}
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}
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return QVariant();
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}
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const plot_info &DivePlotDataModel::data() const
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{
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return pInfo;
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}
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int DivePlotDataModel::rowCount(const QModelIndex &parent) const
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{
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return pInfo.nr;
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}
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QVariant DivePlotDataModel::headerData(int section, Qt::Orientation orientation, int role) const
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{
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if (orientation != Qt::Horizontal)
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return QVariant();
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if (role != Qt::DisplayRole)
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return QVariant();
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switch (section) {
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case DEPTH:
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return tr("Depth");
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case TIME:
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return tr("Time");
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case PRESSURE:
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return tr("Pressure");
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case TEMPERATURE:
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return tr("Temperature");
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case COLOR:
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return tr("Color");
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case USERENTERED:
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return tr("User entered");
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case CYLINDERINDEX:
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return tr("Cylinder index");
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case SENSOR_PRESSURE:
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return tr("Pressure S");
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case INTERPOLATED_PRESSURE:
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return tr("Pressure I");
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case CEILING:
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return tr("Ceiling");
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case SAC:
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return tr("SAC");
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case PN2:
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return tr("pN₂");
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case PHE:
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return tr("pHe");
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case PO2:
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return tr("pO₂");
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case AMBPRESSURE:
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return tr("Ambient pressure");
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}
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if (role == Qt::DisplayRole && section >= TISSUE_1 && section <= TISSUE_16) {
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return QString("Ceiling: %1").arg(section - TISSUE_1);
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}
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if (role == Qt::DisplayRole && section >= PERCENTAGE_1 && section <= PERCENTAGE_16) {
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return QString("Tissue: %1").arg(section - PERCENTAGE_1);
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}
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return QVariant();
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}
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void DivePlotDataModel::clear()
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{
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if (rowCount() != 0) {
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beginRemoveRows(QModelIndex(), 0, rowCount() - 1);
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pInfo.nr = 0;
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diveId = -1;
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dcNr = -1;
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endRemoveRows();
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}
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}
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void DivePlotDataModel::setDive(dive *d, const plot_info &info)
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{
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clear();
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Q_ASSERT(d != NULL);
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diveId = d->id;
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dcNr = dc_number;
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pInfo = info;
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beginInsertRows(QModelIndex(), 0, pInfo.nr - 1);
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endInsertRows();
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}
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unsigned int DivePlotDataModel::dcShown() const
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{
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return dcNr;
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}
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#define MAX_PPGAS_FUNC(GAS, GASFUNC) \
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double DivePlotDataModel::GASFUNC() \
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{ \
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double ret = -1; \
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for (int i = 0, count = rowCount(); i < count; i++) { \
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if (pInfo.entry[i].pressures.GAS > ret) \
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ret = pInfo.entry[i].pressures.GAS; \
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} \
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return ret; \
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}
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MAX_PPGAS_FUNC(he, pheMax);
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MAX_PPGAS_FUNC(n2, pn2Max);
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MAX_PPGAS_FUNC(o2, po2Max);
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void DivePlotDataModel::emitDataChanged()
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{
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emit dataChanged(QModelIndex(), QModelIndex());
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}
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void DivePlotDataModel::calculateDecompression()
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{
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struct divecomputer *dc = select_dc(&displayed_dive);
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init_decompression(&displayed_dive);
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calculate_deco_information(&displayed_dive, dc, &pInfo, false);
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dataChanged(index(0, CEILING), index(pInfo.nr - 1, TISSUE_16));
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}
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