subsurface/qt-models/diveplannermodel.cpp
Berthold Stoeger f123972dbf planner: update variations in planner not mainwindow
When calculating variations, they were sent to the mainwindow,
which updated displayed_dive accordingly. Do this directly
in the planner-model.

The idea is to detangle interdependencies and to make the
code reusable (planner on mobile?).

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2020-05-04 10:42:07 +02:00

1259 lines
36 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include "diveplannermodel.h"
#include "core/divelist.h"
#include "core/subsurface-string.h"
#include "qt-models/cylindermodel.h"
#include "core/planner.h"
#include "qt-models/models.h"
#include "core/device.h"
#include "core/qthelper.h"
#include "core/settings/qPrefDivePlanner.h"
#include "core/settings/qPrefUnit.h"
#if not defined(SUBSURFACE_MOBILE) && not defined(SUBSURFACE_TESTING)
#include "commands/command.h"
#endif // SUBSURFACE_MOBILE SUBSURFACE_TESTING
#include "core/gettextfromc.h"
#include "core/deco.h"
#include <QApplication>
#include <QTextDocument>
#include <QtConcurrent>
#define VARIATIONS_IN_BACKGROUND 1
#define UNIT_FACTOR ((prefs.units.length == units::METERS) ? 1000.0 / 60.0 : feet_to_mm(1.0) / 60.0)
CylindersModel *DivePlannerPointsModel::cylindersModel()
{
return &cylinders;
}
/* TODO: Port this to CleanerTableModel to remove a bit of boilerplate. */
void DivePlannerPointsModel::removeSelectedPoints(const QVector<int> &rows)
{
if (!rows.count())
return;
int firstRow = rowCount() - rows.count();
QVector<int> v2 = rows;
std::sort(v2.begin(), v2.end());
beginRemoveRows(QModelIndex(), firstRow, rowCount() - 1);
for (int i = v2.count() - 1; i >= 0; i--) {
divepoints.remove(v2[i]);
}
endRemoveRows();
cylinders.updateTrashIcon();
}
void DivePlannerPointsModel::createSimpleDive()
{
// initialize the start time in the plan
diveplan.when = displayed_dive.when;
// Use gas from the first cylinder
int cylinderid = 0;
// If we're in drop_stone_mode, don't add a first point.
// It will be added implicit.
if (!prefs.drop_stone_mode)
addStop(M_OR_FT(15, 45), 1 * 60, cylinderid, 0, true, UNDEF_COMP_TYPE);
addStop(M_OR_FT(15, 45), 20 * 60, 0, 0, true, UNDEF_COMP_TYPE);
if (!isPlanner()) {
addStop(M_OR_FT(5, 15), 42 * 60, 0, cylinderid, true, UNDEF_COMP_TYPE);
addStop(M_OR_FT(5, 15), 45 * 60, 0, cylinderid, true, UNDEF_COMP_TYPE);
}
updateMaxDepth();
GasSelectionModel::instance()->repopulate();
DiveTypeSelectionModel::instance()->repopulate();
}
void DivePlannerPointsModel::setupStartTime()
{
// if the latest dive is in the future, then start an hour after it ends
// otherwise start an hour from now
startTime = QDateTime::currentDateTimeUtc().addSecs(3600 + gettimezoneoffset());
if (dive_table.nr) {
struct dive *d = get_dive(dive_table.nr - 1);
time_t ends = dive_endtime(d);
time_t diff = ends - startTime.toTime_t();
if (diff > 0) {
startTime = startTime.addSecs(diff + 3600);
}
}
emit startTimeChanged(startTime);
}
void DivePlannerPointsModel::loadFromDive(dive *d)
{
int depthsum = 0;
int samplecount = 0;
o2pressure_t last_sp;
bool oldRec = recalc;
struct divecomputer *dc = &(d->dc);
const struct event *evd = NULL;
enum divemode_t current_divemode = UNDEF_COMP_TYPE;
recalc = false;
cylinders.updateDive(&displayed_dive);
duration_t lasttime = { 0 };
duration_t lastrecordedtime = {};
duration_t newtime = {};
free_dps(&diveplan);
if (mode != PLAN)
clear();
diveplan.when = d->when;
// is this a "new" dive where we marked manually entered samples?
// if yes then the first sample should be marked
// if it is we only add the manually entered samples as waypoints to the diveplan
// otherwise we have to add all of them
bool hasMarkedSamples = false;
if (dc->samples)
hasMarkedSamples = dc->sample[0].manually_entered;
else
fake_dc(dc);
// if this dive has more than 100 samples (so it is probably a logged dive),
// average samples so we end up with a total of 100 samples.
int plansamples = dc->samples <= 100 ? dc->samples : 100;
int j = 0;
int cylinderid = 0;
last_sp.mbar = 0;
for (int i = 0; i < plansamples - 1; i++) {
if (dc->last_manual_time.seconds && dc->last_manual_time.seconds > 120 && lasttime.seconds >= dc->last_manual_time.seconds)
break;
while (j * plansamples <= i * dc->samples) {
const sample &s = dc->sample[j];
const sample &prev = dc->sample[j-1];
if (s.time.seconds != 0 && (!hasMarkedSamples || s.manually_entered)) {
depthsum += s.depth.mm;
last_sp = prev.setpoint;
++samplecount;
newtime = s.time;
}
j++;
}
if (samplecount) {
cylinderid = get_cylinderid_at_time(d, dc, lasttime);
if (newtime.seconds - lastrecordedtime.seconds > 10) {
current_divemode = get_current_divemode(dc, newtime.seconds - 1, &evd, &current_divemode);
addStop(depthsum / samplecount, newtime.seconds, cylinderid, last_sp.mbar, true, current_divemode);
lastrecordedtime = newtime;
}
lasttime = newtime;
depthsum = 0;
samplecount = 0;
}
}
// make sure we get the last point right so the duration is correct
current_divemode = get_current_divemode(dc, d->dc.duration.seconds, &evd, &current_divemode);
if (!hasMarkedSamples && !dc->last_manual_time.seconds)
addStop(0, d->dc.duration.seconds,cylinderid, last_sp.mbar, true, current_divemode);
recalc = oldRec;
DiveTypeSelectionModel::instance()->repopulate();
preserved_until = d->duration;
emitDataChanged();
}
// copy the tanks from the current dive, or the default cylinder
// or an unknown cylinder
// setup the cylinder widget accordingly
void DivePlannerPointsModel::setupCylinders()
{
clear_cylinder_table(&displayed_dive.cylinders);
if (mode == PLAN && current_dive) {
// take the displayed cylinders from the selected dive as starting point
copy_used_cylinders(current_dive, &displayed_dive, !prefs.display_unused_tanks);
reset_cylinders(&displayed_dive, true);
if (displayed_dive.cylinders.nr > 0) {
cylinders.updateDive(&displayed_dive);
return; // We have at least one cylinder
}
}
if (!empty_string(prefs.default_cylinder)) {
cylinder_t cyl = empty_cylinder;
fill_default_cylinder(&displayed_dive, &cyl);
cyl.start = cyl.type.workingpressure;
add_cylinder(&displayed_dive.cylinders, 0, cyl);
} else {
cylinder_t cyl = empty_cylinder;
// roughly an AL80
cyl.type.description = copy_qstring(tr("unknown"));
cyl.type.size.mliter = 11100;
cyl.type.workingpressure.mbar = 207000;
add_cylinder(&displayed_dive.cylinders, 0, cyl);
}
reset_cylinders(&displayed_dive, false);
cylinders.updateDive(&displayed_dive);
}
// Update the dive's maximum depth. Returns true if max. depth changed
bool DivePlannerPointsModel::updateMaxDepth()
{
int prevMaxDepth = displayed_dive.maxdepth.mm;
displayed_dive.maxdepth.mm = 0;
for (int i = 0; i < rowCount(); i++) {
divedatapoint p = at(i);
if (p.depth.mm > displayed_dive.maxdepth.mm)
displayed_dive.maxdepth.mm = p.depth.mm;
}
return displayed_dive.maxdepth.mm != prevMaxDepth;
}
void DivePlannerPointsModel::removeDeco()
{
bool oldrec = setRecalc(false);
QVector<int> computedPoints;
for (int i = 0; i < rowCount(); i++)
if (!at(i).entered)
computedPoints.push_back(i);
removeSelectedPoints(computedPoints);
setRecalc(oldrec);
}
void DivePlannerPointsModel::addCylinder_clicked()
{
cylinders.add();
}
void DivePlannerPointsModel::setPlanMode(Mode m)
{
mode = m;
// the planner may reset our GF settings that are used to show deco
// reset them to what's in the preferences
if (m != PLAN) {
set_gf(prefs.gflow, prefs.gfhigh);
set_vpmb_conservatism(prefs.vpmb_conservatism);
}
}
bool DivePlannerPointsModel::isPlanner()
{
return mode == PLAN;
}
/* When the planner adds deco stops to the model, adding those should not trigger a new deco calculation.
* We thus start the planner only when recalc is true. */
bool DivePlannerPointsModel::setRecalc(bool rec)
{
bool old = recalc;
recalc = rec;
return old;
}
bool DivePlannerPointsModel::recalcQ()
{
return recalc;
}
int DivePlannerPointsModel::columnCount(const QModelIndex&) const
{
return COLUMNS; // to disable CCSETPOINT subtract one
}
QVariant DivePlannerPointsModel::data(const QModelIndex &index, int role) const
{
divedatapoint p = divepoints.at(index.row());
if (role == Qt::DisplayRole || role == Qt::EditRole) {
switch (index.column()) {
case CCSETPOINT:
return (double)p.setpoint / 1000;
case DEPTH:
return (int) lrint(get_depth_units(p.depth.mm, NULL, NULL));
case RUNTIME:
return p.time / 60;
case DURATION:
if (index.row())
return (p.time - divepoints.at(index.row() - 1).time) / 60;
else
return p.time / 60;
case DIVEMODE:
return gettextFromC::tr(divemode_text_ui[p.divemode]);
case GAS:
/* Check if we have the same gasmix two or more times
* If yes return more verbose string */
int same_gas = same_gasmix_cylinder(get_cylinder(&displayed_dive, p.cylinderid), p.cylinderid, &displayed_dive, true);
if (same_gas == -1)
return get_gas_string(get_cylinder(&displayed_dive, p.cylinderid)->gasmix);
else
return get_gas_string(get_cylinder(&displayed_dive, p.cylinderid)->gasmix) +
QString(" (%1 %2 ").arg(tr("cyl.")).arg(p.cylinderid + 1) +
get_cylinder(&displayed_dive, p.cylinderid)->type.description + ")";
}
} else if (role == Qt::DecorationRole) {
switch (index.column()) {
case REMOVE:
if (rowCount() > 1)
return p.entered ? trashIcon() : QVariant();
else
return trashForbiddenIcon();
}
} else if (role == Qt::SizeHintRole) {
switch (index.column()) {
case REMOVE:
if (rowCount() > 1)
return p.entered ? trashIcon().size() : QVariant();
else
return trashForbiddenIcon().size();
}
} else if (role == Qt::FontRole) {
if (divepoints.at(index.row()).entered) {
return defaultModelFont();
} else {
QFont font = defaultModelFont();
font.setBold(true);
return font;
}
}
return QVariant();
}
bool DivePlannerPointsModel::setData(const QModelIndex &index, const QVariant &value, int role)
{
int i, shift;
if (role == Qt::EditRole) {
divedatapoint &p = divepoints[index.row()];
switch (index.column()) {
case DEPTH:
if (value.toInt() >= 0) {
p.depth = units_to_depth(value.toInt());
if (updateMaxDepth())
cylinders.updateBestMixes();
}
break;
case RUNTIME:
p.time = value.toInt() * 60;
break;
case DURATION:
i = index.row();
if (i)
shift = divepoints[i].time - divepoints[i - 1].time - value.toInt() * 60;
else
shift = divepoints[i].time - value.toInt() * 60;
while (i < divepoints.size())
divepoints[i++].time -= shift;
break;
case CCSETPOINT: {
int po2 = 0;
QByteArray gasv = value.toByteArray();
if (validate_po2(gasv.data(), &po2))
p.setpoint = po2;
} break;
case GAS:
if (value.toInt() >= 0)
p.cylinderid = value.toInt();
/* Did we change the start (dp 0) cylinder to another cylinderid than 0? */
if (value.toInt() != 0 && index.row() == 0)
cylinders.moveAtFirst(value.toInt());
cylinders.updateTrashIcon();
break;
case DIVEMODE:
if (value.toInt() < FREEDIVE) {
p.divemode = (enum divemode_t) value.toInt();
p.setpoint = p.divemode == CCR ? prefs.defaultsetpoint : 0;
}
if (index.row() == 0)
displayed_dive.dc.divemode = (enum divemode_t) value.toInt();
break;
}
editStop(index.row(), p);
}
return QAbstractItemModel::setData(index, value, role);
}
void DivePlannerPointsModel::gasChange(const QModelIndex &index, int newcylinderid)
{
int i = index.row(), oldcylinderid = divepoints[i].cylinderid;
while (i < rowCount() && oldcylinderid == divepoints[i].cylinderid)
divepoints[i++].cylinderid = newcylinderid;
emitDataChanged();
}
void DivePlannerPointsModel::cylinderRenumber(int mapping[])
{
for (int i = 0; i < rowCount(); i++) {
if (mapping[divepoints[i].cylinderid] >= 0)
divepoints[i].cylinderid = mapping[divepoints[i].cylinderid];
}
emitDataChanged();
}
QVariant DivePlannerPointsModel::headerData(int section, Qt::Orientation orientation, int role) const
{
if (role == Qt::DisplayRole && orientation == Qt::Horizontal) {
switch (section) {
case DEPTH:
return tr("Final depth");
case RUNTIME:
return tr("Run time");
case DURATION:
return tr("Duration");
case GAS:
return tr("Used gas");
case CCSETPOINT:
return tr("CC setpoint");
case DIVEMODE:
return tr("Dive mode");
}
} else if (role == Qt::FontRole) {
return defaultModelFont();
}
return QVariant();
}
Qt::ItemFlags DivePlannerPointsModel::flags(const QModelIndex &index) const
{
if (index.column() != REMOVE)
return QAbstractItemModel::flags(index) | Qt::ItemIsEditable;
else
return QAbstractItemModel::flags(index);
}
int DivePlannerPointsModel::rowCount(const QModelIndex&) const
{
return divepoints.count();
}
DivePlannerPointsModel::DivePlannerPointsModel(QObject *parent) : QAbstractTableModel(parent),
cylinders(true),
mode(NOTHING),
recalc(false)
{
memset(&diveplan, 0, sizeof(diveplan));
startTime.setTimeSpec(Qt::UTC);
// use a Qt-connection to send the variations text across thread boundary (in case we
// are calculating the variations in a background thread).
connect(this, &DivePlannerPointsModel::variationsComputed, this, &DivePlannerPointsModel::computeVariationsDone);
}
DivePlannerPointsModel *DivePlannerPointsModel::instance()
{
static DivePlannerPointsModel self;
return &self;
}
void DivePlannerPointsModel::emitDataChanged()
{
emit dataChanged(createIndex(0, 0), createIndex(rowCount() - 1, COLUMNS - 1));
}
void DivePlannerPointsModel::setBottomSac(double sac)
{
// mobile delivers the same value as desktop when using
// units:METERS
// however when using units:CUFT mobile deliver 0-300 which
// are really 0.00 - 3.00 so start be correcting that
#ifdef SUBSURFACE_MOBILE
if (qPrefUnits::volume() == units::CUFT)
sac /= 100; // cuft without decimals (0 - 300)
#endif
diveplan.bottomsac = units_to_sac(sac);
qPrefDivePlanner::set_bottomsac(diveplan.bottomsac);
emitDataChanged();
}
void DivePlannerPointsModel::setDecoSac(double sac)
{
// mobile delivers the same value as desktop when using
// units:METERS
// however when using units:CUFT mobile deliver 0-300 which
// are really 0.00 - 3.00 so start be correcting that
#ifdef SUBSURFACE_MOBILE
if (qPrefUnits::volume() == units::CUFT)
sac /= 100; // cuft without decimals (0 - 300)
#endif
diveplan.decosac = units_to_sac(sac);
qPrefDivePlanner::set_decosac(diveplan.decosac);
emitDataChanged();
}
void DivePlannerPointsModel::setSacFactor(double factor)
{
// sacfactor is normal x.y (one decimal), however mobile
// delivers 0 - 100 so adjust that to 0.0 - 10.0, to have
// the same value as desktop
#ifdef SUBSURFACE_MOBILE
factor /= 10.0;
#endif
qPrefDivePlanner::set_sacfactor((int) round(factor * 100));
emitDataChanged();
}
void DivePlannerPointsModel::setProblemSolvingTime(int minutes)
{
qPrefDivePlanner::set_problemsolvingtime(minutes);
emitDataChanged();
}
void DivePlannerPointsModel::setGFHigh(const int gfhigh)
{
if (diveplan.gfhigh != gfhigh) {
diveplan.gfhigh = gfhigh;
emitDataChanged();
}
}
void DivePlannerPointsModel::setGFLow(const int gflow)
{
if (diveplan.gflow != gflow) {
diveplan.gflow = gflow;
emitDataChanged();
}
}
void DivePlannerPointsModel::setRebreatherMode(int mode)
{
int i;
displayed_dive.dc.divemode = (divemode_t) mode;
for (i=0; i < rowCount(); i++) {
divepoints[i].setpoint = mode == CCR ? prefs.defaultsetpoint : 0;
divepoints[i].divemode = (enum divemode_t) mode;
}
emitDataChanged();
}
void DivePlannerPointsModel::setVpmbConservatism(int level)
{
if (diveplan.vpmb_conservatism != level) {
diveplan.vpmb_conservatism = level;
emitDataChanged();
}
}
void DivePlannerPointsModel::setSurfacePressure(int pressure)
{
diveplan.surface_pressure = pressure;
emitDataChanged();
}
void DivePlannerPointsModel::setSalinity(int salinity)
{
diveplan.salinity = salinity;
emitDataChanged();
}
int DivePlannerPointsModel::getSurfacePressure()
{
return diveplan.surface_pressure;
}
void DivePlannerPointsModel::setLastStop6m(bool value)
{
qPrefDivePlanner::set_last_stop(value);
emitDataChanged();
}
void DivePlannerPointsModel::setAscrate75Display(int rate)
{
qPrefDivePlanner::set_ascrate75(lrint(rate * UNIT_FACTOR));
emitDataChanged();
}
int DivePlannerPointsModel::ascrate75Display()
{
return lrint((float)prefs.ascrate75 / UNIT_FACTOR);
}
void DivePlannerPointsModel::setAscrate50Display(int rate)
{
qPrefDivePlanner::set_ascrate50(lrint(rate * UNIT_FACTOR));
emitDataChanged();
}
int DivePlannerPointsModel::ascrate50Display()
{
return lrint((float)prefs.ascrate50 / UNIT_FACTOR);
}
void DivePlannerPointsModel::setAscratestopsDisplay(int rate)
{
qPrefDivePlanner::set_ascratestops(lrint(rate * UNIT_FACTOR));
emitDataChanged();
}
int DivePlannerPointsModel::ascratestopsDisplay()
{
return lrint((float)prefs.ascratestops / UNIT_FACTOR);
}
void DivePlannerPointsModel::setAscratelast6mDisplay(int rate)
{
qPrefDivePlanner::set_ascratelast6m(lrint(rate * UNIT_FACTOR));
emitDataChanged();
}
int DivePlannerPointsModel::ascratelast6mDisplay()
{
return lrint((float)prefs.ascratelast6m / UNIT_FACTOR);
}
void DivePlannerPointsModel::setDescrateDisplay(int rate)
{
qPrefDivePlanner::set_descrate(lrint(rate * UNIT_FACTOR));
emitDataChanged();
}
int DivePlannerPointsModel::descrateDisplay()
{
return lrint((float)prefs.descrate / UNIT_FACTOR);
}
void DivePlannerPointsModel::setVerbatim(bool value)
{
qPrefDivePlanner::set_verbatim_plan(value);
emitDataChanged();
}
void DivePlannerPointsModel::setDisplayRuntime(bool value)
{
qPrefDivePlanner::set_display_runtime(value);
emitDataChanged();
}
void DivePlannerPointsModel::setDisplayDuration(bool value)
{
qPrefDivePlanner::set_display_duration(value);
emitDataChanged();
}
void DivePlannerPointsModel::setDisplayTransitions(bool value)
{
qPrefDivePlanner::set_display_transitions(value);
emitDataChanged();
}
void DivePlannerPointsModel::setDisplayVariations(bool value)
{
qPrefDivePlanner::set_display_variations(value);
emitDataChanged();
}
void DivePlannerPointsModel::setDecoMode(int mode)
{
qPrefDivePlanner::set_planner_deco_mode(deco_mode(mode));
emit recreationChanged(mode == int(prefs.planner_deco_mode));
emitDataChanged();
}
void DivePlannerPointsModel::setSafetyStop(bool value)
{
qPrefDivePlanner::set_safetystop(value);
emitDataChanged();
}
void DivePlannerPointsModel::setReserveGas(int reserve)
{
if (prefs.units.pressure == units::BAR)
qPrefDivePlanner::set_reserve_gas(reserve * 1000);
else
qPrefDivePlanner::set_reserve_gas(psi_to_mbar(reserve));
emitDataChanged();
}
void DivePlannerPointsModel::setDropStoneMode(bool value)
{
qPrefDivePlanner::set_drop_stone_mode(value);
if (prefs.drop_stone_mode) {
/* Remove the first entry if we enable drop_stone_mode */
if (rowCount() >= 2) {
beginRemoveRows(QModelIndex(), 0, 0);
divepoints.remove(0);
endRemoveRows();
}
} else {
/* Add a first entry if we disable drop_stone_mode */
beginInsertRows(QModelIndex(), 0, 0);
/* Copy the first current point */
divedatapoint p = divepoints.at(0);
p.time = p.depth.mm / prefs.descrate;
divepoints.push_front(p);
endInsertRows();
}
emitDataChanged();
}
void DivePlannerPointsModel::setSwitchAtReqStop(bool value)
{
qPrefDivePlanner::set_switch_at_req_stop(value);
emitDataChanged();
}
void DivePlannerPointsModel::setMinSwitchDuration(int duration)
{
qPrefDivePlanner::set_min_switch_duration(duration * 60);
emitDataChanged();
}
void DivePlannerPointsModel::setSurfaceSegment(int duration)
{
qPrefDivePlanner::set_surface_segment(duration * 60);
emitDataChanged();
}
void DivePlannerPointsModel::setStartDate(const QDate &date)
{
startTime.setDate(date);
diveplan.when = startTime.toTime_t();
displayed_dive.when = diveplan.when;
emitDataChanged();
}
void DivePlannerPointsModel::setStartTime(const QTime &t)
{
startTime.setTime(t);
diveplan.when = startTime.toTime_t();
displayed_dive.when = diveplan.when;
emitDataChanged();
}
bool divePointsLessThan(const divedatapoint &p1, const divedatapoint &p2)
{
return p1.time < p2.time;
}
int DivePlannerPointsModel::lastEnteredPoint()
{
for (int i = divepoints.count() - 1; i >= 0; i--)
if (divepoints.at(i).entered)
return i;
return -1;
}
// cylinderid_in == -1 means same gas as before.
// divemode == UNDEF_COMP_TYPE means determine from previous point.
int DivePlannerPointsModel::addStop(int milimeters, int seconds, int cylinderid_in, int ccpoint, bool entered, enum divemode_t divemode)
{
int cylinderid = 0;
bool usePrevious = false;
if (cylinderid_in >= 0)
cylinderid = cylinderid_in;
else
usePrevious = true;
if (recalcQ())
removeDeco();
int row = divepoints.count();
if (seconds == 0 && milimeters == 0 && row != 0) {
/* this is only possible if the user clicked on the 'plus' sign on the DivePoints Table */
const divedatapoint t = divepoints.at(lastEnteredPoint());
milimeters = t.depth.mm;
seconds = t.time + 600; // 10 minutes.
cylinderid = t.cylinderid;
ccpoint = t.setpoint;
} else if (seconds == 0 && milimeters == 0 && row == 0) {
milimeters = M_OR_FT(5, 15); // 5m / 15ft
seconds = 600; // 10 min
// Default to the first cylinder
cylinderid = 0;
}
// check if there's already a new stop before this one:
for (int i = 0; i < row; i++) {
const divedatapoint &dp = divepoints.at(i);
if (dp.time == seconds) {
row = i;
beginRemoveRows(QModelIndex(), row, row);
divepoints.remove(row);
endRemoveRows();
break;
}
if (dp.time > seconds) {
row = i;
break;
}
}
// Previous, actually means next as we are typically subdiving a segment and the gas for
// the segment is determined by the waypoint at the end.
if (usePrevious) {
if (row < divepoints.count()) {
cylinderid = divepoints.at(row).cylinderid;
if (divemode == UNDEF_COMP_TYPE)
divemode = divepoints.at(row).divemode;
ccpoint = divepoints.at(row).setpoint;
} else if (row > 0) {
cylinderid = divepoints.at(row - 1).cylinderid;
if (divemode == UNDEF_COMP_TYPE)
divemode = divepoints.at(row - 1).divemode;
ccpoint = divepoints.at(row -1).setpoint;
}
}
if (divemode == UNDEF_COMP_TYPE)
divemode = displayed_dive.dc.divemode;
// add the new stop
beginInsertRows(QModelIndex(), row, row);
divedatapoint point;
point.depth.mm = milimeters;
point.time = seconds;
point.cylinderid = cylinderid;
point.setpoint = ccpoint;
point.entered = entered;
point.divemode = divemode;
point.next = NULL;
divepoints.append(point);
std::sort(divepoints.begin(), divepoints.end(), divePointsLessThan);
endInsertRows();
return row;
}
void DivePlannerPointsModel::editStop(int row, divedatapoint newData)
{
/*
* When moving divepoints rigorously, we might end up with index
* out of range, thus returning the last one instead.
*/
int old_first_cylid = divepoints[0].cylinderid;
if (row >= divepoints.count())
return;
divepoints[row] = newData;
std::sort(divepoints.begin(), divepoints.end(), divePointsLessThan);
if (updateMaxDepth())
cylinders.updateBestMixes();
if (divepoints[0].cylinderid != old_first_cylid)
cylinders.moveAtFirst(divepoints[0].cylinderid);
emitDataChanged();
}
int DivePlannerPointsModel::size()
{
return divepoints.size();
}
divedatapoint DivePlannerPointsModel::at(int row)
{
/*
* When moving divepoints rigorously, we might end up with index
* out of range, thus returning the last one instead.
*/
if (row >= divepoints.count())
return divepoints.at(divepoints.count() - 1);
return divepoints.at(row);
}
void DivePlannerPointsModel::remove(const QModelIndex &index)
{
if (index.column() != REMOVE || rowCount() == 1)
return;
divedatapoint dp = at(index.row());
if (!dp.entered)
return;
int old_first_cylid = divepoints[0].cylinderid;
/* TODO: this seems so wrong.
* We can't do this here if we plan to use QML on mobile
* as mobile has no ControlModifier.
* The correct thing to do is to create a new method
* remove method that will pass the first and last index of the
* removed rows, and remove those in a go.
*/
int i;
int rows = rowCount();
if (QApplication::keyboardModifiers() & Qt::ControlModifier) {
preserved_until.seconds = divepoints.at(index.row()).time;
beginRemoveRows(QModelIndex(), index.row(), rows - 1);
for (i = rows - 1; i >= index.row(); i--)
divepoints.remove(i);
} else {
if (index.row() == rows -1)
preserved_until.seconds = divepoints.at(rows - 1).time;
beginRemoveRows(QModelIndex(), index.row(), index.row());
divepoints.remove(index.row());
}
endRemoveRows();
cylinders.updateTrashIcon();
if (divepoints[0].cylinderid != old_first_cylid)
cylinders.moveAtFirst(divepoints[0].cylinderid);
}
struct diveplan &DivePlannerPointsModel::getDiveplan()
{
return diveplan;
}
void DivePlannerPointsModel::cancelPlan()
{
/* TODO:
* This check shouldn't be here - this is the interface responsability.
* as soon as the interface thinks that it could cancel the plan, this should be
* called.
*/
/*
if (mode == PLAN && rowCount()) {
if (QMessageBox::warning(MainWindow::instance(), TITLE_OR_TEXT(tr("Discard the plan?"),
tr("You are about to discard your plan.")),
QMessageBox::Discard | QMessageBox::Cancel, QMessageBox::Discard) != QMessageBox::Discard) {
return;
}
}
*/
setPlanMode(NOTHING);
free_dps(&diveplan);
emit planCanceled();
}
DivePlannerPointsModel::Mode DivePlannerPointsModel::currentMode() const
{
return mode;
}
bool DivePlannerPointsModel::tankInUse(int cylinderid)
{
for (int j = 0; j < rowCount(); j++) {
divedatapoint &p = divepoints[j];
if (p.time == 0) // special entries that hold the available gases
continue;
if (!p.entered) // removing deco gases is ok
continue;
if (p.cylinderid == cylinderid) // tank is in use
return true;
}
return false;
}
void DivePlannerPointsModel::clear()
{
bool oldRecalc = setRecalc(false);
cylinders.updateDive(&displayed_dive);
if (rowCount() > 0) {
beginRemoveRows(QModelIndex(), 0, rowCount() - 1);
divepoints.clear();
endRemoveRows();
}
cylinders.clear();
preserved_until.seconds = 0;
setRecalc(oldRecalc);
}
void DivePlannerPointsModel::createTemporaryPlan()
{
// Get the user-input and calculate the dive info
free_dps(&diveplan);
int lastIndex = -1;
for (int i = 0; i < rowCount(); i++) {
divedatapoint p = at(i);
int deltaT = lastIndex != -1 ? p.time - at(lastIndex).time : p.time;
lastIndex = i;
if (i == 0 && mode == PLAN && prefs.drop_stone_mode) {
/* Okay, we add a first segment where we go down to depth */
plan_add_segment(&diveplan, p.depth.mm / prefs.descrate, p.depth.mm, p.cylinderid, p.setpoint, true, p.divemode);
deltaT -= p.depth.mm / prefs.descrate;
}
if (p.entered)
plan_add_segment(&diveplan, deltaT, p.depth.mm, p.cylinderid, p.setpoint, true, p.divemode);
}
// what does the cache do???
struct deco_state *cache = NULL;
struct divedatapoint *dp = NULL;
for (int i = 0; i < displayed_dive.cylinders.nr; i++) {
cylinder_t *cyl = get_cylinder(&displayed_dive, i);
if (cyl->depth.mm && cyl->cylinder_use != NOT_USED) {
dp = create_dp(0, cyl->depth.mm, i, 0);
if (diveplan.dp) {
dp->next = diveplan.dp;
diveplan.dp = dp;
} else {
dp->next = NULL;
diveplan.dp = dp;
}
}
}
#if DEBUG_PLAN
dump_plan(&diveplan);
#endif
if (recalcQ() && !diveplan_empty(&diveplan)) {
struct decostop stoptable[60];
struct deco_state plan_deco_state;
struct diveplan *plan_copy;
memset(&plan_deco_state, 0, sizeof(struct deco_state));
plan(&plan_deco_state, &diveplan, &displayed_dive, DECOTIMESTEP, stoptable, &cache, isPlanner(), false);
plan_copy = (struct diveplan *)malloc(sizeof(struct diveplan));
lock_planner();
cloneDiveplan(&diveplan, plan_copy);
unlock_planner();
#ifdef VARIATIONS_IN_BACKGROUND
// Since we're calling computeVariations asynchronously and plan_deco_state is allocated
// on the stack, it must be copied and freed by the worker-thread.
struct deco_state *plan_deco_state_copy = new deco_state(plan_deco_state);
QtConcurrent::run(this, &DivePlannerPointsModel::computeVariationsFreeDeco, plan_copy, plan_deco_state_copy);
#else
computeVariations(plan_copy, &plan_deco_state);
#endif
final_deco_state = plan_deco_state;
emit calculatedPlanNotes();
}
// throw away the cache
free(cache);
#if DEBUG_PLAN
save_dive(stderr, &displayed_dive);
dump_plan(&diveplan);
#endif
}
void DivePlannerPointsModel::deleteTemporaryPlan()
{
free_dps(&diveplan);
}
void DivePlannerPointsModel::savePlan()
{
createPlan(false);
}
void DivePlannerPointsModel::saveDuplicatePlan()
{
createPlan(true);
}
struct divedatapoint * DivePlannerPointsModel::cloneDiveplan(struct diveplan *plan_src, struct diveplan *plan_copy)
{
divedatapoint *src, *last_segment;
divedatapoint **dp;
src = plan_src->dp;
*plan_copy = *plan_src;
dp = &plan_copy->dp;
while (src && (!src->time || src->entered)) {
*dp = (struct divedatapoint *)malloc(sizeof(struct divedatapoint));
**dp = *src;
dp = &(*dp)->next;
src = src->next;
}
(*dp) = NULL;
last_segment = plan_copy->dp;
while (last_segment && last_segment->next && last_segment->next->next)
last_segment = last_segment->next;
return last_segment;
}
int DivePlannerPointsModel::analyzeVariations(struct decostop *min, struct decostop *mid, struct decostop *max, const char *unit)
{
int minsum = 0;
int midsum = 0;
int maxsum = 0;
int leftsum = 0;
int rightsum = 0;
while (min->depth) {
minsum += min->time;
++min;
}
while (mid->depth) {
midsum += mid->time;
++mid;
}
while (max->depth) {
maxsum += max->time;
++max;
}
leftsum = midsum - minsum;
rightsum = maxsum - midsum;
#ifdef DEBUG_STOPVAR
printf("Total + %d:%02d/%s +- %d s/%s\n\n", FRACTION((leftsum + rightsum) / 2, 60), unit,
(rightsum - leftsum) / 2, unit);
#else
Q_UNUSED(unit)
#endif
return (leftsum + rightsum) / 2;
}
void DivePlannerPointsModel::computeVariationsFreeDeco(struct diveplan *original_plan, struct deco_state *previous_ds)
{
computeVariations(original_plan, previous_ds);
delete previous_ds;
}
void DivePlannerPointsModel::computeVariations(struct diveplan *original_plan, const struct deco_state *previous_ds)
{
// nothing to do unless there's an original plan
if (!original_plan)
return;
struct dive *dive = alloc_dive();
copy_dive(&displayed_dive, dive);
struct decostop original[60], deeper[60], shallower[60], shorter[60], longer[60];
struct deco_state *cache = NULL, *save = NULL;
struct diveplan plan_copy;
struct divedatapoint *last_segment;
struct deco_state ds = *previous_ds;
if (in_planner() && prefs.display_variations && decoMode() != RECREATIONAL) {
int my_instance = ++instanceCounter;
cache_deco_state(&ds, &save);
duration_t delta_time = { .seconds = 60 };
QString time_units = tr("min");
depth_t delta_depth;
QString depth_units;
if (prefs.units.length == units::METERS) {
delta_depth.mm = 1000; // 1m
depth_units = tr("m");
} else {
delta_depth.mm = feet_to_mm(1.0); // 1ft
depth_units = tr("ft");
}
last_segment = cloneDiveplan(original_plan, &plan_copy);
if (!last_segment)
goto finish;
if (my_instance != instanceCounter)
goto finish;
plan(&ds, &plan_copy, dive, 1, original, &cache, true, false);
free_dps(&plan_copy);
restore_deco_state(save, &ds, false);
last_segment = cloneDiveplan(original_plan, &plan_copy);
last_segment->depth.mm += delta_depth.mm;
last_segment->next->depth.mm += delta_depth.mm;
if (my_instance != instanceCounter)
goto finish;
plan(&ds, &plan_copy, dive, 1, deeper, &cache, true, false);
free_dps(&plan_copy);
restore_deco_state(save, &ds, false);
last_segment = cloneDiveplan(original_plan, &plan_copy);
last_segment->depth.mm -= delta_depth.mm;
last_segment->next->depth.mm -= delta_depth.mm;
if (my_instance != instanceCounter)
goto finish;
plan(&ds, &plan_copy, dive, 1, shallower, &cache, true, false);
free_dps(&plan_copy);
restore_deco_state(save, &ds, false);
last_segment = cloneDiveplan(original_plan, &plan_copy);
last_segment->next->time += delta_time.seconds;
if (my_instance != instanceCounter)
goto finish;
plan(&ds, &plan_copy, dive, 1, longer, &cache, true, false);
free_dps(&plan_copy);
restore_deco_state(save, &ds, false);
last_segment = cloneDiveplan(original_plan, &plan_copy);
last_segment->next->time -= delta_time.seconds;
if (my_instance != instanceCounter)
goto finish;
plan(&ds, &plan_copy, dive, 1, shorter, &cache, true, false);
free_dps(&plan_copy);
restore_deco_state(save, &ds, false);
char buf[200];
sprintf(buf, ", %s: + %d:%02d /%s + %d:%02d /min", qPrintable(tr("Stop times")),
FRACTION(analyzeVariations(shallower, original, deeper, qPrintable(depth_units)), 60), qPrintable(depth_units),
FRACTION(analyzeVariations(shorter, original, longer, qPrintable(time_units)), 60));
// By using a signal, we can transport the variations to the main thread.
emit variationsComputed(QString(buf));
#ifdef DEBUG_STOPVAR
printf("\n\n");
#endif
}
finish:
free_dps(original_plan);
free(original_plan);
free(save);
free(cache);
free(dive);
// setRecalc(oldRecalc);
}
void DivePlannerPointsModel::computeVariationsDone(QString variations)
{
QString notes = QString(displayed_dive.notes);
free(displayed_dive.notes);
displayed_dive.notes = copy_qstring(notes.replace("VARIATIONS", variations));
emit calculatedPlanNotes();
}
void DivePlannerPointsModel::createPlan(bool replanCopy)
{
// Ok, so, here the diveplan creates a dive
struct deco_state *cache = NULL;
bool oldRecalc = setRecalc(false);
removeDeco();
createTemporaryPlan();
setRecalc(oldRecalc);
//TODO: C-based function here?
struct decostop stoptable[60];
plan(&ds_after_previous_dives, &diveplan, &displayed_dive, DECOTIMESTEP, stoptable, &cache, isPlanner(), true);
struct diveplan *plan_copy;
plan_copy = (struct diveplan *)malloc(sizeof(struct diveplan));
lock_planner();
cloneDiveplan(&diveplan, plan_copy);
unlock_planner();
computeVariations(plan_copy, &ds_after_previous_dives);
free(cache);
// Fixup planner notes.
if (current_dive && displayed_dive.id == current_dive->id) {
// Try to identify old planner output and remove only this part
// Treat user provided text as plain text.
QTextDocument notesDocument;
notesDocument.setHtml(current_dive->notes);
QString oldnotes(notesDocument.toPlainText());
QString disclaimer = get_planner_disclaimer();
int disclaimerMid = disclaimer.indexOf("%s");
QString disclaimerBegin, disclaimerEnd;
if (disclaimerMid >= 0) {
disclaimerBegin = disclaimer.left(disclaimerMid);
disclaimerEnd = disclaimer.mid(disclaimerMid + 2);
} else {
disclaimerBegin = disclaimer;
}
int disclaimerPositionStart = oldnotes.indexOf(disclaimerBegin);
if (disclaimerPositionStart >= 0) {
if (oldnotes.indexOf(disclaimerEnd, disclaimerPositionStart) >= 0) {
// We found a disclaimer according to the current locale.
// Remove the disclaimer and anything after the disclaimer, because
// that's supposedly the old planner notes.
oldnotes = oldnotes.left(disclaimerPositionStart);
}
}
// Deal with line breaks
oldnotes.replace("\n", "<br>");
oldnotes.append(displayed_dive.notes);
displayed_dive.notes = copy_qstring(oldnotes);
// If we save as new create a copy of the dive here
}
setPlanMode(NOTHING);
planCreated(); // This signal will exit the profile from planner state. This must be *before* adding the dive,
// so that the Undo-commands update the display accordingly (see condition in updateDiveInfo().
// Now, add or modify the dive.
if (!current_dive || displayed_dive.id != current_dive->id) {
// we were planning a new dive, not re-planning an existing one
displayed_dive.divetrip = nullptr; // Should not be necessary, just in case!
#if not defined(SUBSURFACE_MOBILE) && not defined(SUBSURFACE_TESTING)
Command::addDive(&displayed_dive, autogroup, true);
#endif // SUBSURFACE_MOBILE SUBSURFACE_TESTING
} else {
copy_events_until(current_dive, &displayed_dive, preserved_until.seconds);
if (replanCopy) {
// we were planning an old dive and save as a new dive
displayed_dive.id = dive_getUniqID(); // Things will break horribly if we create dives with the same id.
#if not defined(SUBSURFACE_MOBILE) && not defined(SUBSURFACE_TESTING)
Command::addDive(&displayed_dive, false, false);
#endif // SUBSURFACE_MOBILE SUBSURFACE_TESTING
} else {
// we were planning an old dive and rewrite the plan
#if not defined(SUBSURFACE_MOBILE) && not defined(SUBSURFACE_TESTING)
Command::replanDive(&displayed_dive);
#endif // SUBSURFACE_MOBILE SUBSURFACE_TESTING
}
}
// Remove and clean the diveplan, so we don't delete
// the dive by mistake.
free_dps(&diveplan);
}