subsurface/qt-models/cylindermodel.cpp

600 lines
17 KiB
C++
Raw Normal View History

#include "cylindermodel.h"
#include "tankinfomodel.h"
#include "models.h"
#include "core/helpers.h"
#include "core/dive.h"
#include "core/color.h"
#include "qt-models/diveplannermodel.h"
#include "core/gettextfromc.h"
CylindersModel::CylindersModel(QObject *parent) :
CleanerTableModel(parent),
changed(false),
rows(0)
{
// enum {REMOVE, TYPE, SIZE, WORKINGPRESS, START, END, O2, HE, DEPTH, MOD, MND, USE};
setHeaderDataStrings(QStringList() << "" << tr("Type") << tr("Size") << tr("Work press.") << tr("Start press.") << tr("End press.") << tr("O₂%") << tr("He%")
<< tr("Deco switch at") <<tr("Bot. MOD") <<tr("MND") << tr("Use"));
}
CylindersModel *CylindersModel::instance()
{
static QScopedPointer<CylindersModel> self(new CylindersModel());
return self.data();
}
static QString get_cylinder_string(cylinder_t *cyl)
{
QString unit;
int decimals;
unsigned int ml = cyl->type.size.mliter;
pressure_t wp = cyl->type.workingpressure;
double value;
// We cannot use "get_volume_units()", because even when
// using imperial units we may need to show the size in
// liters: if we don't have a working pressure, we cannot
// convert the cylinder size to cuft.
if (wp.mbar && prefs.units.volume == units::CUFT) {
value = ml_to_cuft(ml) * bar_to_atm(wp.mbar / 1000.0);
decimals = (value > 20.0) ? 0 : (value > 2.0) ? 1 : 2;
unit = CylindersModel::tr("cuft");
} else {
value = ml / 1000.0;
decimals = 1;
unit = CylindersModel::tr("");
}
return QString("%1").arg(value, 0, 'f', decimals) + unit;
}
static QString gas_volume_string(int ml, const char *tail)
{
double vol;
const char *unit;
int decimals;
vol = get_volume_units(ml, NULL, &unit);
decimals = (vol > 20.0) ? 0 : (vol > 2.0) ? 1 : 2;
return QString("%1 %2 %3").arg(vol, 0, 'f', decimals).arg(unit).arg(tail);
}
Tweak cylinder equipment tooltips While playing around with the current subsurface, I realized that while we give the gas volume and Z factor for the beginning/end pressures in the newly added tooltips, there is no way to actually see that same information for the working pressure. So if you have filled in cylinder type information, but don't have any actual gas usage information, there will be no cylinder tooltips at all. But you might still want to know what the actual volume for a particular cylinder is, and what the Z value for that working pressure is. So this tweaks the tool-tips a bit. When mousing over the pressure fields (ie "working pressure", "start" and "end"), it now always gives the cylinder gas volume and Z factor for that pressure, so for example on an AL72 that has a working pressure of 3000 psi and that contains air the tooltip will say: 69 cuft, Z=1.040 when you mouse over the working pressure field (that's obviously with imperial units, in metric you'll see liters of gas). When mousing over the type/size field, it gives the used gas amounts, ie something like this: 37 cuft (82 cuft -> 45 cuft) but if the cylinder doesn't have starting/ending pressures (and thus no used gas information), this patch will make subsurface show the working pressure data instead, so that you at least get something. This all seems more useful than what my first version gave. NOTE! This makes commit adaeb506b7a1 ("Show both the nominal and "real" size for an imperial cylinder") kind of pointless. You now see the real size in the tooltip when you mouse over the size, and now it actually works both for imperial and metric people, so the tooltip is in many ways the better model. Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org> Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2017-01-16 00:07:35 +00:00
static QVariant gas_wp_tooltip(cylinder_t *cyl);
static QVariant gas_usage_tooltip(cylinder_t *cyl)
{
pressure_t startp = cyl->start.mbar ? cyl->start : cyl->sample_start;
pressure_t endp = cyl->end.mbar ? cyl->end : cyl->sample_end;
int start, end, used;
start = gas_volume(cyl, startp);
end = gas_volume(cyl, endp);
used = (end && start > end) ? start - end : 0;
if (!used)
Tweak cylinder equipment tooltips While playing around with the current subsurface, I realized that while we give the gas volume and Z factor for the beginning/end pressures in the newly added tooltips, there is no way to actually see that same information for the working pressure. So if you have filled in cylinder type information, but don't have any actual gas usage information, there will be no cylinder tooltips at all. But you might still want to know what the actual volume for a particular cylinder is, and what the Z value for that working pressure is. So this tweaks the tool-tips a bit. When mousing over the pressure fields (ie "working pressure", "start" and "end"), it now always gives the cylinder gas volume and Z factor for that pressure, so for example on an AL72 that has a working pressure of 3000 psi and that contains air the tooltip will say: 69 cuft, Z=1.040 when you mouse over the working pressure field (that's obviously with imperial units, in metric you'll see liters of gas). When mousing over the type/size field, it gives the used gas amounts, ie something like this: 37 cuft (82 cuft -> 45 cuft) but if the cylinder doesn't have starting/ending pressures (and thus no used gas information), this patch will make subsurface show the working pressure data instead, so that you at least get something. This all seems more useful than what my first version gave. NOTE! This makes commit adaeb506b7a1 ("Show both the nominal and "real" size for an imperial cylinder") kind of pointless. You now see the real size in the tooltip when you mouse over the size, and now it actually works both for imperial and metric people, so the tooltip is in many ways the better model. Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org> Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2017-01-16 00:07:35 +00:00
return gas_wp_tooltip(cyl);
return gas_volume_string(used, "(") +
gas_volume_string(start, " -> ") +
gas_volume_string(end, ")");
}
static QVariant gas_volume_tooltip(cylinder_t *cyl, pressure_t p)
{
int vol = gas_volume(cyl, p);
double Z;
if (!vol)
return QVariant();
Z = gas_compressibility_factor(&cyl->gasmix, p.mbar / 1000.0);
return gas_volume_string(vol, "(Z=") + QString("%1)").arg(Z, 0, 'f', 3);
}
Tweak cylinder equipment tooltips While playing around with the current subsurface, I realized that while we give the gas volume and Z factor for the beginning/end pressures in the newly added tooltips, there is no way to actually see that same information for the working pressure. So if you have filled in cylinder type information, but don't have any actual gas usage information, there will be no cylinder tooltips at all. But you might still want to know what the actual volume for a particular cylinder is, and what the Z value for that working pressure is. So this tweaks the tool-tips a bit. When mousing over the pressure fields (ie "working pressure", "start" and "end"), it now always gives the cylinder gas volume and Z factor for that pressure, so for example on an AL72 that has a working pressure of 3000 psi and that contains air the tooltip will say: 69 cuft, Z=1.040 when you mouse over the working pressure field (that's obviously with imperial units, in metric you'll see liters of gas). When mousing over the type/size field, it gives the used gas amounts, ie something like this: 37 cuft (82 cuft -> 45 cuft) but if the cylinder doesn't have starting/ending pressures (and thus no used gas information), this patch will make subsurface show the working pressure data instead, so that you at least get something. This all seems more useful than what my first version gave. NOTE! This makes commit adaeb506b7a1 ("Show both the nominal and "real" size for an imperial cylinder") kind of pointless. You now see the real size in the tooltip when you mouse over the size, and now it actually works both for imperial and metric people, so the tooltip is in many ways the better model. Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org> Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2017-01-16 00:07:35 +00:00
static QVariant gas_wp_tooltip(cylinder_t *cyl)
{
return gas_volume_tooltip(cyl, cyl->type.workingpressure);
}
static QVariant gas_start_tooltip(cylinder_t *cyl)
{
return gas_volume_tooltip(cyl, cyl->start.mbar ? cyl->start : cyl->sample_start);
}
static QVariant gas_end_tooltip(cylinder_t *cyl)
{
return gas_volume_tooltip(cyl, cyl->end.mbar ? cyl->end : cyl->sample_end);
}
static QVariant percent_string(fraction_t fraction)
{
int permille = fraction.permille;
if (!permille)
return QVariant();
return QString("%1%").arg(permille / 10.0, 0, 'f', 1);
}
QVariant CylindersModel::data(const QModelIndex &index, int role) const
{
QVariant ret;
if (!index.isValid() || index.row() >= MAX_CYLINDERS)
return ret;
cylinder_t *cyl = &displayed_dive.cylinder[index.row()];
switch (role) {
case Qt::BackgroundRole: {
switch (index.column()) {
// mark the cylinder start / end pressure in red if the values
// seem implausible
case START:
case END:
if ((cyl->start.mbar && !cyl->end.mbar) ||
(cyl->end.mbar && cyl->start.mbar <= cyl->end.mbar))
ret = REDORANGE1_HIGH_TRANS;
break;
}
break;
}
case Qt::FontRole: {
QFont font = defaultModelFont();
switch (index.column()) {
case START:
font.setItalic(!cyl->start.mbar);
break;
case END:
font.setItalic(!cyl->end.mbar);
break;
}
ret = font;
break;
}
case Qt::TextAlignmentRole:
ret = Qt::AlignCenter;
break;
case Qt::DisplayRole:
case Qt::EditRole:
switch (index.column()) {
case TYPE:
ret = QString(cyl->type.description);
break;
case SIZE:
if (cyl->type.size.mliter)
ret = get_cylinder_string(cyl);
break;
case WORKINGPRESS:
if (cyl->type.workingpressure.mbar)
ret = get_pressure_string(cyl->type.workingpressure, true);
break;
case START:
if (cyl->start.mbar)
ret = get_pressure_string(cyl->start, true);
else if (cyl->sample_start.mbar)
ret = get_pressure_string(cyl->sample_start, true);
break;
case END:
if (cyl->end.mbar)
ret = get_pressure_string(cyl->end, true);
else if (cyl->sample_end.mbar)
ret = get_pressure_string(cyl->sample_end, true);
break;
case O2:
ret = percent_string(cyl->gasmix.o2);
break;
case HE:
ret = percent_string(cyl->gasmix.he);
break;
case DEPTH:
ret = get_depth_string(cyl->depth, true);
break;
case MOD:
if (cyl->bestmix_o2) {
ret = QString("*");
} else {
pressure_t modpO2;
modpO2.mbar = prefs.bottompo2;
ret = get_depth_string(gas_mod(&cyl->gasmix, modpO2, &displayed_dive, M_OR_FT(1,1)));
}
break;
case MND:
if (cyl->bestmix_he)
ret = QString("*");
else
ret = get_depth_string(gas_mnd(&cyl->gasmix, prefs.bestmixend, &displayed_dive, M_OR_FT(1,1)));
break;
case USE:
ret = gettextFromC::instance()->trGettext(cylinderuse_text[cyl->cylinder_use]);
break;
}
break;
case Qt::DecorationRole:
if (index.column() == REMOVE) {
if (rowCount() > 1)
ret = trashIcon();
else
ret = trashForbiddenIcon();
}
break;
case Qt::SizeHintRole:
if (index.column() == REMOVE) {
if (rowCount() > 1)
ret = trashIcon();
else
ret = trashForbiddenIcon();
}
break;
case Qt::ToolTipRole:
switch (index.column()) {
case REMOVE:
ret = tr("Clicking here will remove this cylinder.");
break;
Tweak cylinder equipment tooltips While playing around with the current subsurface, I realized that while we give the gas volume and Z factor for the beginning/end pressures in the newly added tooltips, there is no way to actually see that same information for the working pressure. So if you have filled in cylinder type information, but don't have any actual gas usage information, there will be no cylinder tooltips at all. But you might still want to know what the actual volume for a particular cylinder is, and what the Z value for that working pressure is. So this tweaks the tool-tips a bit. When mousing over the pressure fields (ie "working pressure", "start" and "end"), it now always gives the cylinder gas volume and Z factor for that pressure, so for example on an AL72 that has a working pressure of 3000 psi and that contains air the tooltip will say: 69 cuft, Z=1.040 when you mouse over the working pressure field (that's obviously with imperial units, in metric you'll see liters of gas). When mousing over the type/size field, it gives the used gas amounts, ie something like this: 37 cuft (82 cuft -> 45 cuft) but if the cylinder doesn't have starting/ending pressures (and thus no used gas information), this patch will make subsurface show the working pressure data instead, so that you at least get something. This all seems more useful than what my first version gave. NOTE! This makes commit adaeb506b7a1 ("Show both the nominal and "real" size for an imperial cylinder") kind of pointless. You now see the real size in the tooltip when you mouse over the size, and now it actually works both for imperial and metric people, so the tooltip is in many ways the better model. Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org> Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2017-01-16 00:07:35 +00:00
case TYPE:
case SIZE:
return gas_usage_tooltip(cyl);
Tweak cylinder equipment tooltips While playing around with the current subsurface, I realized that while we give the gas volume and Z factor for the beginning/end pressures in the newly added tooltips, there is no way to actually see that same information for the working pressure. So if you have filled in cylinder type information, but don't have any actual gas usage information, there will be no cylinder tooltips at all. But you might still want to know what the actual volume for a particular cylinder is, and what the Z value for that working pressure is. So this tweaks the tool-tips a bit. When mousing over the pressure fields (ie "working pressure", "start" and "end"), it now always gives the cylinder gas volume and Z factor for that pressure, so for example on an AL72 that has a working pressure of 3000 psi and that contains air the tooltip will say: 69 cuft, Z=1.040 when you mouse over the working pressure field (that's obviously with imperial units, in metric you'll see liters of gas). When mousing over the type/size field, it gives the used gas amounts, ie something like this: 37 cuft (82 cuft -> 45 cuft) but if the cylinder doesn't have starting/ending pressures (and thus no used gas information), this patch will make subsurface show the working pressure data instead, so that you at least get something. This all seems more useful than what my first version gave. NOTE! This makes commit adaeb506b7a1 ("Show both the nominal and "real" size for an imperial cylinder") kind of pointless. You now see the real size in the tooltip when you mouse over the size, and now it actually works both for imperial and metric people, so the tooltip is in many ways the better model. Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org> Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2017-01-16 00:07:35 +00:00
case WORKINGPRESS:
return gas_wp_tooltip(cyl);
case START:
return gas_start_tooltip(cyl);
case END:
return gas_end_tooltip(cyl);
case DEPTH:
ret = tr("Switch depth for deco gas. Calculated using Deco pO₂ preference, unless set manually.");
break;
case MOD:
ret = tr("Calculated using Bottom pO₂ preference. Setting MOD adjusts O₂%, set to '*' for best O₂% for max depth.");
break;
case MND:
ret = tr("Calculated using Best Mix END preference. Setting MND adjusts He%, set to '*' for best He% for max depth.");
break;
}
break;
}
return ret;
}
cylinder_t *CylindersModel::cylinderAt(const QModelIndex &index)
{
return &displayed_dive.cylinder[index.row()];
}
// this is our magic 'pass data in' function that allows the delegate to get
// the data here without silly unit conversions;
// so we only implement the two columns we care about
void CylindersModel::passInData(const QModelIndex &index, const QVariant &value)
{
cylinder_t *cyl = cylinderAt(index);
switch (index.column()) {
case SIZE:
if (cyl->type.size.mliter != value.toInt()) {
cyl->type.size.mliter = value.toInt();
dataChanged(index, index);
}
break;
case WORKINGPRESS:
if (cyl->type.workingpressure.mbar != value.toInt()) {
cyl->type.workingpressure.mbar = value.toInt();
dataChanged(index, index);
}
break;
}
}
bool CylindersModel::setData(const QModelIndex &index, const QVariant &value, int role)
{
QString vString;
cylinder_t *cyl = cylinderAt(index);
switch (index.column()) {
case TYPE:
if (!value.isNull()) {
QByteArray ba = value.toByteArray();
const char *text = ba.constData();
if (!cyl->type.description || strcmp(cyl->type.description, text)) {
cyl->type.description = strdup(text);
changed = true;
}
}
break;
case SIZE:
if (CHANGED()) {
TankInfoModel *tanks = TankInfoModel::instance();
QModelIndexList matches = tanks->match(tanks->index(0, 0), Qt::DisplayRole, cyl->type.description);
cyl->type.size = string_to_volume(vString.toUtf8().data(), cyl->type.workingpressure);
mark_divelist_changed(true);
if (!matches.isEmpty())
tanks->setData(tanks->index(matches.first().row(), TankInfoModel::ML), cyl->type.size.mliter);
changed = true;
}
break;
case WORKINGPRESS:
if (CHANGED()) {
TankInfoModel *tanks = TankInfoModel::instance();
QModelIndexList matches = tanks->match(tanks->index(0, 0), Qt::DisplayRole, cyl->type.description);
cyl->type.workingpressure = string_to_pressure(vString.toUtf8().data());
if (!matches.isEmpty())
tanks->setData(tanks->index(matches.first().row(), TankInfoModel::BAR), cyl->type.workingpressure.mbar / 1000.0);
changed = true;
}
break;
case START:
if (CHANGED()) {
cyl->start = string_to_pressure(vString.toUtf8().data());
changed = true;
}
break;
case END:
if (CHANGED()) {
//&& (!cyl->start.mbar || string_to_pressure(vString.toUtf8().data()).mbar <= cyl->start.mbar)) {
cyl->end = string_to_pressure(vString.toUtf8().data());
changed = true;
}
break;
case O2:
if (CHANGED()) {
cyl->gasmix.o2 = string_to_fraction(vString.toUtf8().data());
// fO2 + fHe must not be greater than 1
if (get_o2(&cyl->gasmix) + get_he(&cyl->gasmix) > 1000)
cyl->gasmix.he.permille = 1000 - get_o2(&cyl->gasmix);
pressure_t modpO2;
if (displayed_dive.dc.divemode == PSCR)
modpO2.mbar = prefs.decopo2 + (1000 - get_o2(&cyl->gasmix)) * SURFACE_PRESSURE *
prefs.o2consumption / prefs.decosac / prefs.pscr_ratio;
else
modpO2.mbar = prefs.decopo2;
cyl->depth = gas_mod(&cyl->gasmix, modpO2, &displayed_dive, M_OR_FT(3, 10));
cyl->bestmix_o2 = false;
changed = true;
}
break;
case HE:
if (CHANGED()) {
cyl->gasmix.he = string_to_fraction(vString.toUtf8().data());
// fO2 + fHe must not be greater than 1
if (get_o2(&cyl->gasmix) + get_he(&cyl->gasmix) > 1000)
cyl->gasmix.o2.permille = 1000 - get_he(&cyl->gasmix);
cyl->bestmix_he = false;
changed = true;
}
break;
case DEPTH:
if (CHANGED()) {
cyl->depth = string_to_depth(vString.toUtf8().data());
changed = true;
}
break;
case MOD:
if (CHANGED()) {
if (QString::compare(vString.toUtf8().data(), "*") == 0) {
cyl->bestmix_o2 = true;
// Calculate fO2 for max depth
cyl->gasmix.o2 = best_o2(displayed_dive.maxdepth, &displayed_dive);
} else {
cyl->bestmix_o2 = false;
// Calculate fO2 for input depth
cyl->gasmix.o2 = best_o2(string_to_depth(vString.toUtf8().data()), &displayed_dive);
}
pressure_t modpO2;
modpO2.mbar = prefs.decopo2;
cyl->depth = gas_mod(&cyl->gasmix, modpO2, &displayed_dive, M_OR_FT(3, 10));
changed = true;
}
break;
case MND:
if (CHANGED()) {
if (QString::compare(vString.toUtf8().data(), "*") == 0) {
cyl->bestmix_he = true;
// Calculate fO2 for max depth
cyl->gasmix.he = best_he(displayed_dive.maxdepth, &displayed_dive);
} else {
cyl->bestmix_he = false;
// Calculate fHe for input depth
cyl->gasmix.he = best_he(string_to_depth(vString.toUtf8().data()), &displayed_dive);
}
changed = true;
}
break;
case USE:
if (CHANGED()) {
int use = vString.toInt();
if (use > NUM_GAS_USE - 1 || use < 0)
use = 0;
cyl->cylinder_use = (enum cylinderuse)use;
changed = true;
}
break;
}
dataChanged(index, index);
return true;
}
int CylindersModel::rowCount(const QModelIndex &parent) const
{
Q_UNUSED(parent);
return rows;
}
void CylindersModel::add()
{
if (rows >= MAX_CYLINDERS) {
return;
}
int row = rows;
fill_default_cylinder(&displayed_dive.cylinder[row]);
displayed_dive.cylinder[row].manually_added = true;
beginInsertRows(QModelIndex(), row, row);
rows++;
changed = true;
endInsertRows();
}
void CylindersModel::clear()
{
if (rows > 0) {
beginRemoveRows(QModelIndex(), 0, rows - 1);
endRemoveRows();
}
}
void CylindersModel::updateDive()
{
clear();
rows = 0;
for (int i = 0; i < MAX_CYLINDERS; i++) {
if (!cylinder_none(&displayed_dive.cylinder[i]) &&
(prefs.display_unused_tanks ||
is_cylinder_used(&displayed_dive, i) ||
displayed_dive.cylinder[i].manually_added))
rows = i + 1;
}
if (rows > 0) {
beginInsertRows(QModelIndex(), 0, rows - 1);
endInsertRows();
}
}
void CylindersModel::copyFromDive(dive *d)
{
if (!d)
return;
rows = 0;
for (int i = 0; i < MAX_CYLINDERS; i++) {
if (!cylinder_none(&d->cylinder[i]) &&
(is_cylinder_used(d, i) || prefs.display_unused_tanks)) {
rows = i + 1;
}
}
if (rows > 0) {
beginInsertRows(QModelIndex(), 0, rows - 1);
endInsertRows();
}
}
Qt::ItemFlags CylindersModel::flags(const QModelIndex &index) const
{
if (index.column() == REMOVE || index.column() == USE)
return Qt::ItemIsEnabled;
return QAbstractItemModel::flags(index) | Qt::ItemIsEditable;
}
void CylindersModel::remove(const QModelIndex &index)
{
int mapping[MAX_CYLINDERS];
if (index.column() == USE) {
cylinder_t *cyl = cylinderAt(index);
if (cyl->cylinder_use == OC_GAS)
cyl->cylinder_use = NOT_USED;
else if (cyl->cylinder_use == NOT_USED)
cyl->cylinder_use = OC_GAS;
changed = true;
dataChanged(index, index);
return;
}
if (index.column() != REMOVE) {
return;
}
int same_gas = -1;
cylinder_t *cyl = &displayed_dive.cylinder[index.row()];
struct gasmix *mygas = &cyl->gasmix;
for (int i = 0; i < MAX_CYLINDERS; i++) {
mapping[i] = i;
if (i == index.row() || cylinder_none(&displayed_dive.cylinder[i]))
continue;
struct gasmix *gas2 = &displayed_dive.cylinder[i].gasmix;
if (gasmix_distance(mygas, gas2) == 0)
same_gas = i;
}
if (same_gas == -1 &&
((DivePlannerPointsModel::instance()->currentMode() != DivePlannerPointsModel::NOTHING &&
DivePlannerPointsModel::instance()->tankInUse(index.row())) ||
(DivePlannerPointsModel::instance()->currentMode() == DivePlannerPointsModel::NOTHING &&
is_cylinder_used(&displayed_dive, index.row())))) {
emit warningMessage(TITLE_OR_TEXT(
tr("Cylinder cannot be removed"),
tr("This gas is in use. Only cylinders that are not used in the dive can be removed.")));
return;
}
beginRemoveRows(QModelIndex(), index.row(), index.row()); // yah, know, ugly.
rows--;
// if we didn't find an identical gas, point same_gas at the index.row()
if (same_gas == -1)
same_gas = index.row();
if (index.row() == 0) {
// first gas - we need to make sure that the same gas ends up
// as first gas
memmove(cyl, &displayed_dive.cylinder[same_gas], sizeof(*cyl));
remove_cylinder(&displayed_dive, same_gas);
mapping[same_gas] = 0;
for (int i = same_gas + 1; i < MAX_CYLINDERS; i++)
mapping[i] = i - 1;
} else {
remove_cylinder(&displayed_dive, index.row());
if (same_gas > index.row())
same_gas--;
mapping[index.row()] = same_gas;
for (int i = index.row() + 1; i < MAX_CYLINDERS; i++)
mapping[i] = i - 1;
}
changed = true;
endRemoveRows();
struct divecomputer *dc = &displayed_dive.dc;
while (dc) {
dc_cylinder_renumber(&displayed_dive, dc, mapping);
dc = dc->next;
}
}
void CylindersModel::updateDecoDepths(pressure_t olddecopo2)
{
pressure_t decopo2;
decopo2.mbar = prefs.decopo2;
for (int i = 0; i < MAX_CYLINDERS; i++) {
cylinder_t *cyl = &displayed_dive.cylinder[i];
/* If the gas's deco MOD matches the old pO2, it will have been automatically calculated and should be updated.
* If they don't match, we should leave the user entered depth as it is */
if (cyl->depth.mm == gas_mod(&cyl->gasmix, olddecopo2, &displayed_dive, M_OR_FT(3, 10)).mm) {
cyl->depth = gas_mod(&cyl->gasmix, decopo2, &displayed_dive, M_OR_FT(3, 10));
}
}
emit dataChanged(createIndex(0, 0), createIndex(MAX_CYLINDERS - 1, COLUMNS - 1));
}
bool CylindersModel::updateBestMixes()
{
// Check if any of the cylinders are best mixes, update if needed
bool gasUpdated = false;
for (int i = 0; i < MAX_CYLINDERS; i++) {
cylinder_t *cyl = &displayed_dive.cylinder[i];
if (cyl->bestmix_o2) {
cyl->gasmix.o2 = best_o2(displayed_dive.maxdepth, &displayed_dive);
// fO2 + fHe must not be greater than 1
if (get_o2(&cyl->gasmix) + get_he(&cyl->gasmix) > 1000)
cyl->gasmix.he.permille = 1000 - get_o2(&cyl->gasmix);
pressure_t modpO2;
modpO2.mbar = prefs.decopo2;
cyl->depth = gas_mod(&cyl->gasmix, modpO2, &displayed_dive, M_OR_FT(3, 10));
gasUpdated = true;
}
if (cyl->bestmix_he) {
cyl->gasmix.he = best_he(displayed_dive.maxdepth, &displayed_dive);
// fO2 + fHe must not be greater than 1
if (get_o2(&cyl->gasmix) + get_he(&cyl->gasmix) > 1000)
cyl->gasmix.o2.permille = 1000 - get_he(&cyl->gasmix);
gasUpdated = true;
}
}
/* This slot is called when the bottom pO2 and END preferences are updated, we want to
* emit dataChanged so MOD and MND are refreshed, even if the gas mix hasn't been changed */
emit dataChanged(createIndex(0, 0), createIndex(MAX_CYLINDERS - 1, COLUMNS - 1));
return gasUpdated;
}