subsurface/profile-widget/profilescene.cpp

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// SPDX-License-Identifier: GPL-2.0
#include "profilescene.h"
#include "diveeventitem.h"
#include "divecartesianaxis.h"
#include "diveprofileitem.h"
#include "divetextitem.h"
#include "tankitem.h"
#include "core/device.h"
#include "core/event.h"
#include "core/pref.h"
#include "core/profile.h"
#include "core/qthelper.h" // for decoMode()
#include "core/subsurface-string.h"
#include "core/settings/qPrefDisplay.h"
#include "qt-models/diveplotdatamodel.h"
#include "qt-models/diveplannermodel.h"
const static struct ProfileItemPos {
struct Pos {
QPointF on;
QPointF off;
};
struct Axis : public Pos {
QLineF shrinked;
QLineF expanded;
QLineF intermediate;
};
Pos dcLabel;
Pos tankBar;
Axis depth;
Axis partialPressure;
Axis partialPressureTissue;
Axis partialPressureWithTankBar;
Axis percentage;
Axis percentageWithTankBar;
Axis time;
Axis cylinder;
Axis temperature;
Axis temperatureAll;
Axis heartBeat;
Axis heartBeatWithTankBar;
ProfileItemPos();
} itemPos;
template<typename T, class... Args>
T *ProfileScene::createItem(const DiveCartesianAxis &vAxis, int vColumn, int z, Args&&... args)
{
T *res = new T(*dataModel, *timeAxis, DivePlotDataModel::TIME, vAxis, vColumn,
std::forward<Args>(args)...);
res->setZValue(static_cast<double>(z));
profileItems.push_back(res);
return res;
}
PartialPressureGasItem *ProfileScene::createPPGas(int column, color_index_t color, color_index_t colorAlert,
const double *thresholdSettingsMin, const double *thresholdSettingsMax)
{
PartialPressureGasItem *item = createItem<PartialPressureGasItem>(*gasYAxis, column, 99, fontPrintScale);
item->setThresholdSettingsKey(thresholdSettingsMin, thresholdSettingsMax);
item->setColors(getColor(color, isGrayscale), getColor(colorAlert, isGrayscale));
return item;
}
ProfileScene::ProfileScene(double fontPrintScale, bool printMode, bool isGrayscale) :
d(nullptr),
dc(-1),
fontPrintScale(fontPrintScale),
printMode(printMode),
isGrayscale(isGrayscale),
maxtime(-1),
maxdepth(-1),
dataModel(new DivePlotDataModel(this)),
profileYAxis(new DepthAxis(fontPrintScale, printMode, *this)),
gasYAxis(new PartialGasPressureAxis(*dataModel, fontPrintScale, printMode, *this)),
temperatureAxis(new TemperatureAxis(fontPrintScale, printMode, *this)),
timeAxis(new TimeAxis(fontPrintScale, printMode, *this)),
cylinderPressureAxis(new DiveCartesianAxis(fontPrintScale, printMode, *this)),
heartBeatAxis(new DiveCartesianAxis(fontPrintScale, printMode, *this)),
percentageAxis(new DiveCartesianAxis(fontPrintScale, printMode, *this)),
diveProfileItem(createItem<DiveProfileItem>(*profileYAxis, DivePlotDataModel::DEPTH, 0, fontPrintScale)),
temperatureItem(createItem<DiveTemperatureItem>(*temperatureAxis, DivePlotDataModel::TEMPERATURE, 1, fontPrintScale)),
meanDepthItem(createItem<DiveMeanDepthItem>(*profileYAxis, DivePlotDataModel::INSTANT_MEANDEPTH, 1, fontPrintScale)),
gasPressureItem(createItem<DiveGasPressureItem>(*cylinderPressureAxis, DivePlotDataModel::TEMPERATURE, 1, fontPrintScale)),
diveComputerText(new DiveTextItem(fontPrintScale)),
reportedCeiling(createItem<DiveReportedCeiling>(*profileYAxis, DivePlotDataModel::CEILING, 1, fontPrintScale)),
pn2GasItem(createPPGas(DivePlotDataModel::PN2, PN2, PN2_ALERT, NULL, &prefs.pp_graphs.pn2_threshold)),
pheGasItem(createPPGas(DivePlotDataModel::PHE, PHE, PHE_ALERT, NULL, &prefs.pp_graphs.phe_threshold)),
po2GasItem(createPPGas(DivePlotDataModel::PO2, PO2, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
o2SetpointGasItem(createPPGas(DivePlotDataModel::O2SETPOINT, O2SETPOINT, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
ccrsensor1GasItem(createPPGas(DivePlotDataModel::CCRSENSOR1, CCRSENSOR1, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
ccrsensor2GasItem(createPPGas(DivePlotDataModel::CCRSENSOR2, CCRSENSOR2, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
ccrsensor3GasItem(createPPGas(DivePlotDataModel::CCRSENSOR3, CCRSENSOR3, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
ocpo2GasItem(createPPGas(DivePlotDataModel::SCR_OC_PO2, SCR_OCPO2, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
diveCeiling(createItem<DiveCalculatedCeiling>(*profileYAxis, DivePlotDataModel::CEILING, 1, fontPrintScale)),
decoModelParameters(new DiveTextItem(fontPrintScale)),
heartBeatItem(createItem<DiveHeartrateItem>(*heartBeatAxis, DivePlotDataModel::HEARTBEAT, 1, fontPrintScale)),
tankItem(new TankItem(*timeAxis, fontPrintScale))
{
init_plot_info(&plotInfo);
setSceneRect(0, 0, 100, 100);
setItemIndexMethod(QGraphicsScene::NoIndex);
// Initialize axes. Perhaps part of this should be moved down to the axes code?
profileYAxis->setOrientation(DiveCartesianAxis::TopToBottom);
profileYAxis->setMinimum(0);
profileYAxis->setTickInterval(M_OR_FT(10, 30));
profileYAxis->setTickSize(0.5);
profileYAxis->setLineSize(96);
timeAxis->setLineSize(92);
timeAxis->setTickSize(-0.5);
gasYAxis->setOrientation(DiveCartesianAxis::BottomToTop);
gasYAxis->setTickInterval(1);
gasYAxis->setTickSize(1);
gasYAxis->setMinimum(0);
gasYAxis->setFontLabelScale(0.7);
gasYAxis->setLineSize(96);
#ifndef SUBSURFACE_MOBILE
heartBeatAxis->setOrientation(DiveCartesianAxis::BottomToTop);
heartBeatAxis->setTickSize(0.2);
heartBeatAxis->setTickInterval(10);
heartBeatAxis->setFontLabelScale(0.7);
heartBeatAxis->setLineSize(96);
percentageAxis->setOrientation(DiveCartesianAxis::BottomToTop);
percentageAxis->setTickSize(0.2);
percentageAxis->setTickInterval(10);
percentageAxis->setFontLabelScale(0.7);
percentageAxis->setLineSize(96);
#endif
temperatureAxis->setOrientation(DiveCartesianAxis::BottomToTop);
temperatureAxis->setTickSize(2);
temperatureAxis->setTickInterval(300);
cylinderPressureAxis->setOrientation(DiveCartesianAxis::BottomToTop);
cylinderPressureAxis->setTickSize(2);
cylinderPressureAxis->setTickInterval(30000);
heartBeatAxis->setTextVisible(true);
heartBeatAxis->setLinesVisible(true);
percentageAxis->setTextVisible(true);
percentageAxis->setLinesVisible(true);
temperatureAxis->setTextVisible(false);
temperatureAxis->setLinesVisible(false);
cylinderPressureAxis->setTextVisible(false);
cylinderPressureAxis->setLinesVisible(false);
timeAxis->setLinesVisible(true);
profileYAxis->setLinesVisible(true);
gasYAxis->setZValue(timeAxis->zValue() + 1);
tankItem->setZValue(100);
// show the deco model parameters at the top in the center
decoModelParameters->setY(0);
decoModelParameters->setX(50);
decoModelParameters->setBrush(getColor(PRESSURE_TEXT));
decoModelParameters->setAlignment(Qt::AlignHCenter | Qt::AlignBottom);
diveComputerText->setAlignment(Qt::AlignRight | Qt::AlignTop);
diveComputerText->setBrush(getColor(TIME_TEXT, isGrayscale));
diveComputerText->setPos(itemPos.dcLabel.on);
tankItem->setPos(itemPos.tankBar.on);
for (int i = 0; i < 16; i++) {
DiveCalculatedTissue *tissueItem = createItem<DiveCalculatedTissue>(*profileYAxis, DivePlotDataModel::TISSUE_1 + i, i + 1, fontPrintScale);
allTissues.append(tissueItem);
DivePercentageItem *percentageItem = createItem<DivePercentageItem>(*percentageAxis, DivePlotDataModel::PERCENTAGE_1 + i, i + 1, i, fontPrintScale);
allPercentages.append(percentageItem);
}
// Add items to scene
addItem(diveComputerText);
addItem(tankItem);
addItem(decoModelParameters);
addItem(profileYAxis);
addItem(gasYAxis);
addItem(temperatureAxis);
addItem(timeAxis);
addItem(cylinderPressureAxis);
addItem(percentageAxis);
addItem(heartBeatAxis);
for (AbstractProfilePolygonItem *item: profileItems)
addItem(item);
updateAxes(true);
}
ProfileScene::~ProfileScene()
{
free_plot_info_data(&plotInfo);
}
void ProfileScene::clear()
{
dataModel->clear();
for (AbstractProfilePolygonItem *item: profileItems)
item->clear();
// the events will have connected slots which can fire after
// the dive and its data have been deleted - so explictly delete
// the DiveEventItems
qDeleteAll(eventItems);
eventItems.clear();
}
static bool ppGraphsEnabled()
{
return prefs.pp_graphs.po2 || prefs.pp_graphs.pn2 || prefs.pp_graphs.phe;
}
// Update visibility of non-interactive chart features according to preferences
void ProfileScene::updateVisibility()
{
#ifndef SUBSURFACE_MOBILE
pn2GasItem->setVisible(prefs.pp_graphs.pn2);
po2GasItem->setVisible(prefs.pp_graphs.po2);
pheGasItem->setVisible(prefs.pp_graphs.phe);
const struct divecomputer *currentdc = d ? get_dive_dc_const(d, dc) : nullptr;
bool setpointflag = currentdc && currentdc->divemode == CCR && prefs.pp_graphs.po2;
bool sensorflag = setpointflag && prefs.show_ccr_sensors;
o2SetpointGasItem->setVisible(setpointflag && prefs.show_ccr_setpoint);
ccrsensor1GasItem->setVisible(sensorflag);
ccrsensor2GasItem->setVisible(currentdc && sensorflag && currentdc->no_o2sensors > 1);
ccrsensor3GasItem->setVisible(currentdc && sensorflag && currentdc->no_o2sensors > 2);
ocpo2GasItem->setVisible(currentdc && currentdc->divemode == PSCR && prefs.show_scr_ocpo2);
heartBeatItem->setVisible(prefs.hrgraph);
#endif
diveCeiling->setVisible(prefs.calcceiling);
decoModelParameters->setVisible(prefs.calcceiling);
#ifndef SUBSURFACE_MOBILE
for (DiveCalculatedTissue *tissue: allTissues)
tissue->setVisible(prefs.calcalltissues && prefs.calcceiling);
for (DivePercentageItem *percentage: allPercentages)
percentage->setVisible(prefs.percentagegraph);
#endif
meanDepthItem->setVisible(prefs.show_average_depth);
reportedCeiling->setVisible(prefs.dcceiling);
tankItem->setVisible(prefs.tankbar);
}
void ProfileScene::updateAxes(bool instant)
{
int animSpeed = instant || printMode ? 0 : qPrefDisplay::animation_speed();
profileYAxis->setPos(itemPos.depth.on);
#ifndef SUBSURFACE_MOBILE
gasYAxis->update(animSpeed); // Initialize ticks of partial pressure graph
if ((prefs.percentagegraph||prefs.hrgraph) && ppGraphsEnabled()) {
profileYAxis->animateChangeLine(itemPos.depth.shrinked, animSpeed);
temperatureAxis->setPos(itemPos.temperatureAll.on);
temperatureAxis->animateChangeLine(itemPos.temperature.shrinked, animSpeed);
cylinderPressureAxis->animateChangeLine(itemPos.cylinder.shrinked, animSpeed);
if (prefs.tankbar) {
percentageAxis->setPos(itemPos.percentageWithTankBar.on);
percentageAxis->animateChangeLine(itemPos.percentageWithTankBar.expanded, animSpeed);
heartBeatAxis->setPos(itemPos.heartBeatWithTankBar.on);
heartBeatAxis->animateChangeLine(itemPos.heartBeatWithTankBar.expanded, animSpeed);
} else {
percentageAxis->setPos(itemPos.percentage.on);
percentageAxis->animateChangeLine(itemPos.percentage.expanded, animSpeed);
heartBeatAxis->setPos(itemPos.heartBeat.on);
heartBeatAxis->animateChangeLine(itemPos.heartBeat.expanded, animSpeed);
}
gasYAxis->setPos(itemPos.partialPressureTissue.on);
gasYAxis->animateChangeLine(itemPos.partialPressureTissue.expanded, animSpeed);
} else if (ppGraphsEnabled() || prefs.hrgraph || prefs.percentagegraph) {
profileYAxis->animateChangeLine(itemPos.depth.intermediate, animSpeed);
temperatureAxis->setPos(itemPos.temperature.on);
temperatureAxis->animateChangeLine(itemPos.temperature.intermediate, animSpeed);
cylinderPressureAxis->animateChangeLine(itemPos.cylinder.intermediate, animSpeed);
if (prefs.tankbar) {
percentageAxis->setPos(itemPos.percentageWithTankBar.on);
percentageAxis->animateChangeLine(itemPos.percentageWithTankBar.expanded, animSpeed);
gasYAxis->setPos(itemPos.partialPressureWithTankBar.on);
gasYAxis->animateChangeLine(itemPos.partialPressureWithTankBar.expanded, animSpeed);
heartBeatAxis->setPos(itemPos.heartBeatWithTankBar.on);
heartBeatAxis->animateChangeLine(itemPos.heartBeatWithTankBar.expanded, animSpeed);
} else {
gasYAxis->setPos(itemPos.partialPressure.on);
gasYAxis->animateChangeLine(itemPos.partialPressure.expanded, animSpeed);
percentageAxis->setPos(itemPos.percentage.on);
percentageAxis->animateChangeLine(itemPos.percentage.expanded, animSpeed);
heartBeatAxis->setPos(itemPos.heartBeat.on);
heartBeatAxis->animateChangeLine(itemPos.heartBeat.expanded, animSpeed);
}
} else {
#else
{
#endif
profileYAxis->animateChangeLine(itemPos.depth.expanded, animSpeed);
if (prefs.tankbar) {
temperatureAxis->setPos(itemPos.temperatureAll.on);
} else {
temperatureAxis->setPos(itemPos.temperature.on);
}
temperatureAxis->animateChangeLine(itemPos.temperature.expanded, animSpeed);
cylinderPressureAxis->animateChangeLine(itemPos.cylinder.expanded, animSpeed);
}
timeAxis->setPos(itemPos.time.on);
timeAxis->setLine(itemPos.time.expanded);
cylinderPressureAxis->setPos(itemPos.cylinder.on);
}
bool ProfileScene::isPointOutOfBoundaries(const QPointF &point) const
{
double xpos = timeAxis->valueAt(point);
double ypos = profileYAxis->valueAt(point);
return xpos > timeAxis->maximum() ||
xpos < timeAxis->minimum() ||
ypos > profileYAxis->maximum() ||
ypos < profileYAxis->minimum();
}
ProfileItemPos::ProfileItemPos()
{
// Scene is *always* (double) 100 / 100.
// TODO: The relative scaling doesn't work well with large or small
// profiles and needs to be fixed.
dcLabel.on.setX(3);
dcLabel.on.setY(100);
dcLabel.off.setX(-10);
dcLabel.off.setY(100);
tankBar.on.setX(0);
#ifndef SUBSURFACE_MOBILE
tankBar.on.setY(91.95);
#else
tankBar.on.setY(86.4);
#endif
//Depth Axis Config
depth.on.setX(3);
depth.on.setY(3);
depth.off.setX(-2);
depth.off.setY(3);
depth.expanded.setP1(QPointF(0, 0));
#ifndef SUBSURFACE_MOBILE
depth.expanded.setP2(QPointF(0, 85));
#else
depth.expanded.setP2(QPointF(0, 65));
#endif
depth.shrinked.setP1(QPointF(0, 0));
depth.shrinked.setP2(QPointF(0, 55));
depth.intermediate.setP1(QPointF(0, 0));
depth.intermediate.setP2(QPointF(0, 65));
// Time Axis Config
time.on.setX(3);
#ifndef SUBSURFACE_MOBILE
time.on.setY(95);
#else
time.on.setY(89.5);
#endif
time.off.setX(3);
time.off.setY(110);
time.expanded.setP1(QPointF(0, 0));
time.expanded.setP2(QPointF(94, 0));
// Partial Gas Axis Config
partialPressure.on.setX(97);
#ifndef SUBSURFACE_MOBILE
partialPressure.on.setY(75);
#else
partialPressure.on.setY(70);
#endif
partialPressure.off.setX(110);
partialPressure.off.setY(63);
partialPressure.expanded.setP1(QPointF(0, 0));
#ifndef SUBSURFACE_MOBILE
partialPressure.expanded.setP2(QPointF(0, 19));
#else
partialPressure.expanded.setP2(QPointF(0, 20));
#endif
partialPressureWithTankBar = partialPressure;
partialPressureWithTankBar.expanded.setP2(QPointF(0, 17));
partialPressureTissue = partialPressure;
partialPressureTissue.on.setX(97);
partialPressureTissue.on.setY(65);
partialPressureTissue.expanded.setP2(QPointF(0, 16));
// cylinder axis config
cylinder.on.setX(3);
cylinder.on.setY(20);
cylinder.off.setX(-10);
cylinder.off.setY(20);
cylinder.expanded.setP1(QPointF(0, 15));
cylinder.expanded.setP2(QPointF(0, 50));
cylinder.shrinked.setP1(QPointF(0, 0));
cylinder.shrinked.setP2(QPointF(0, 20));
cylinder.intermediate.setP1(QPointF(0, 0));
cylinder.intermediate.setP2(QPointF(0, 20));
// Temperature axis config
temperature.on.setX(3);
temperature.off.setX(-10);
temperature.off.setY(40);
temperature.expanded.setP1(QPointF(0, 20));
temperature.expanded.setP2(QPointF(0, 33));
temperature.shrinked.setP1(QPointF(0, 2));
temperature.shrinked.setP2(QPointF(0, 12));
#ifndef SUBSURFACE_MOBILE
temperature.on.setY(60);
temperatureAll.on.setY(51);
temperature.intermediate.setP1(QPointF(0, 2));
temperature.intermediate.setP2(QPointF(0, 12));
#else
temperature.on.setY(51);
temperatureAll.on.setY(47);
temperature.intermediate.setP1(QPointF(0, 2));
temperature.intermediate.setP2(QPointF(0, 12));
#endif
// Heart rate axis config
heartBeat.on.setX(3);
heartBeat.on.setY(82);
heartBeat.expanded.setP1(QPointF(0, 0));
heartBeat.expanded.setP2(QPointF(0, 10));
heartBeatWithTankBar = heartBeat;
heartBeatWithTankBar.expanded.setP2(QPointF(0, 7));
// Percentage axis config
percentage.on.setX(3);
percentage.on.setY(80);
percentage.expanded.setP1(QPointF(0, 0));
percentage.expanded.setP2(QPointF(0, 15));
percentageWithTankBar = percentage;
percentageWithTankBar.expanded.setP2(QPointF(0, 11.9));
}
void ProfileScene::plotDive(const struct dive *dIn, int dcIn, DivePlannerPointsModel *plannerModel, bool inPlanner, bool instant, bool calcMax)
{
d = dIn;
dc = dcIn;
if (!d) {
clear();
return;
}
if (!plannerModel) {
if (decoMode(false) == VPMB)
decoModelParameters->setText(QString("VPM-B +%1").arg(prefs.vpmb_conservatism));
else
decoModelParameters->setText(QString("GF %1/%2").arg(prefs.gflow).arg(prefs.gfhigh));
} else {
struct diveplan &diveplan = plannerModel->getDiveplan();
if (decoMode(inPlanner) == VPMB)
decoModelParameters->setText(QString("VPM-B +%1").arg(diveplan.vpmb_conservatism));
else
decoModelParameters->setText(QString("GF %1/%2").arg(diveplan.gflow).arg(diveplan.gfhigh));
}
const struct divecomputer *currentdc = get_dive_dc_const(d, dc);
if (!currentdc || !currentdc->samples)
return;
int animSpeed = instant || printMode ? 0 : qPrefDisplay::animation_speed();
bool setpointflag = (currentdc->divemode == CCR) && prefs.pp_graphs.po2;
bool sensorflag = setpointflag && prefs.show_ccr_sensors;
o2SetpointGasItem->setVisible(setpointflag && prefs.show_ccr_setpoint);
ccrsensor1GasItem->setVisible(sensorflag);
ccrsensor2GasItem->setVisible(sensorflag && (currentdc->no_o2sensors > 1));
ccrsensor3GasItem->setVisible(sensorflag && (currentdc->no_o2sensors > 2));
ocpo2GasItem->setVisible((currentdc->divemode == PSCR) && prefs.show_scr_ocpo2);
updateVisibility();
// A non-null planner_ds signals to create_plot_info_new that the dive is currently planned.
struct deco_state *planner_ds = inPlanner && plannerModel ? &plannerModel->final_deco_state : nullptr;
/* This struct holds all the data that's about to be plotted.
* I'm not sure this is the best approach ( but since we are
* interpolating some points of the Dive, maybe it is... )
* The Calculation of the points should be done per graph,
* so I'll *not* calculate everything if something is not being
* shown.
* create_plot_info_new() automatically frees old plot data.
*/
create_plot_info_new(d, get_dive_dc_const(d, dc), &plotInfo, !calcMax, planner_ds);
int newMaxtime = get_maxtime(&plotInfo);
if (calcMax || newMaxtime > maxtime)
maxtime = newMaxtime;
/* Only update the max. depth if it's bigger than the current ones
* when we are dragging the handler to plan / add dive.
* otherwhise, update normally.
*/
int newMaxDepth = get_maxdepth(&plotInfo);
if (!calcMax) {
if (maxdepth < newMaxDepth) {
maxdepth = newMaxDepth;
}
} else {
maxdepth = newMaxDepth;
}
dataModel->setDive(plotInfo);
// It seems that I'll have a lot of boilerplate setting the model / axis for
// each item, I'll mostly like to fix this in the future, but I'll keep at this for now.
profileYAxis->setMaximum(maxdepth);
profileYAxis->updateTicks(animSpeed);
temperatureAxis->setMinimum(plotInfo.mintemp);
temperatureAxis->setMaximum(plotInfo.maxtemp - plotInfo.mintemp > 2000 ? plotInfo.maxtemp : plotInfo.mintemp + 2000);
if (plotInfo.maxhr) {
int heartBeatAxisMin = lrint(plotInfo.minhr / 5.0 - 0.5) * 5;
int heartBeatAxisMax, heartBeatAxisTick;
if (plotInfo.maxhr - plotInfo.minhr < 40)
heartBeatAxisTick = 10;
else if (plotInfo.maxhr - plotInfo.minhr < 80)
heartBeatAxisTick = 20;
else if (plotInfo.maxhr - plotInfo.minhr < 100)
heartBeatAxisTick = 25;
else
heartBeatAxisTick = 50;
for (heartBeatAxisMax = heartBeatAxisMin; heartBeatAxisMax < plotInfo.maxhr; heartBeatAxisMax += heartBeatAxisTick);
heartBeatAxis->setMinimum(heartBeatAxisMin);
heartBeatAxis->setMaximum(heartBeatAxisMax + 1);
heartBeatAxis->setTickInterval(heartBeatAxisTick);
heartBeatAxis->updateTicks(HR_AXIS); // this shows the ticks
}
heartBeatAxis->setVisible(prefs.hrgraph && plotInfo.maxhr);
percentageAxis->setMinimum(0);
percentageAxis->setMaximum(100);
percentageAxis->setVisible(false);
percentageAxis->updateTicks(HR_AXIS);
if (calcMax)
timeAxis->setMaximum(maxtime);
int i, incr;
static int increments[8] = { 10, 20, 30, 60, 5 * 60, 10 * 60, 15 * 60, 30 * 60 };
/* Time markers: at most every 10 seconds, but no more than 12 markers.
* We start out with 10 seconds and increment up to 30 minutes,
* depending on the dive time.
* This allows for 6h dives - enough (I hope) for even the craziest
* divers - but just in case, for those 8h depth-record-breaking dives,
* we double the interval if this still doesn't get us to 12 or fewer
* time markers */
i = 0;
while (i < 7 && maxtime / increments[i] > 12)
i++;
incr = increments[i];
while (maxtime / incr > 12)
incr *= 2;
timeAxis->setTickInterval(incr);
timeAxis->updateTicks(animSpeed);
cylinderPressureAxis->setMinimum(plotInfo.minpressure);
cylinderPressureAxis->setMaximum(plotInfo.maxpressure);
#ifdef SUBSURFACE_MOBILE
if (currentdc->divemode == CCR) {
gasYAxis->setPos(itemPos.partialPressure.on);
gasYAxis->setLine(itemPos.partialPressure.expanded);
tankItem->setVisible(false);
pn2GasItem->setVisible(false);
po2GasItem->setVisible(prefs.pp_graphs.po2);
pheGasItem->setVisible(false);
o2SetpointGasItem->setVisible(prefs.show_ccr_setpoint);
ccrsensor1GasItem->setVisible(prefs.show_ccr_sensors);
ccrsensor2GasItem->setVisible(prefs.show_ccr_sensors && (currentdc->no_o2sensors > 1));
ccrsensor3GasItem->setVisible(prefs.show_ccr_sensors && (currentdc->no_o2sensors > 1));
ocpo2GasItem->setVisible((currentdc->divemode == PSCR) && prefs.show_scr_ocpo2);
//when no gas graph, we can show temperature
if (!po2GasItem->isVisible() &&
!o2SetpointGasItem->isVisible() &&
!ccrsensor1GasItem->isVisible() &&
!ccrsensor2GasItem->isVisible() &&
!ccrsensor3GasItem->isVisible() &&
!ocpo2GasItem->isVisible())
temperatureItem->setVisible(true);
else
temperatureItem->setVisible(false);
} else {
tankItem->setVisible(prefs.tankbar);
gasYAxis->setPos(itemPos.partialPressure.off);
pn2GasItem->setVisible(false);
po2GasItem->setVisible(false);
pheGasItem->setVisible(false);
o2SetpointGasItem->setVisible(false);
ccrsensor1GasItem->setVisible(false);
ccrsensor2GasItem->setVisible(false);
ccrsensor3GasItem->setVisible(false);
ocpo2GasItem->setVisible(false);
}
#endif
tankItem->setData(&plotInfo, d);
gasYAxis->update(animSpeed);
// Replot dive items
for (AbstractProfilePolygonItem *item: profileItems)
item->replot(d, inPlanner);
// The event items are a bit special since we don't know how many events are going to
// exist on a dive, so I cant create cache items for that. that's why they are here
// while all other items are up there on the constructor.
qDeleteAll(eventItems);
eventItems.clear();
struct event *event = currentdc->events;
struct gasmix lastgasmix = get_gasmix_at_time(d, get_dive_dc_const(d, dc), duration_t{1});
while (event) {
#ifndef SUBSURFACE_MOBILE
// if print mode is selected only draw headings, SP change, gas events or bookmark event
if (printMode) {
if (empty_string(event->name) ||
!(strcmp(event->name, "heading") == 0 ||
(same_string(event->name, "SP change") && event->time.seconds == 0) ||
event_is_gaschange(event) ||
event->type == SAMPLE_EVENT_BOOKMARK)) {
event = event->next;
continue;
}
}
#else
// printMode is always selected for SUBSURFACE_MOBILE due to font problems
// BUT events are wanted.
#endif
DiveEventItem *item = new DiveEventItem(d, event, lastgasmix, dataModel,
timeAxis, profileYAxis, animSpeed,
fontPrintScale);
item->setZValue(2);
addItem(item);
eventItems.push_back(item);
if (event_is_gaschange(event))
lastgasmix = get_gasmix_from_event(d, event);
event = event->next;
}
// Only set visible the events that should be visible
Q_FOREACH (DiveEventItem *event, eventItems) {
event->setVisible(!event->shouldBeHidden());
}
QString dcText = get_dc_nickname(currentdc);
if (dcText == "planned dive")
dcText = tr("Planned dive");
else if (dcText == "manually added dive")
dcText = tr("Manually added dive");
else if (dcText.isEmpty())
dcText = tr("Unknown dive computer");
#ifndef SUBSURFACE_MOBILE
int nr;
if ((nr = number_of_computers(d)) > 1)
dcText += tr(" (#%1 of %2)").arg(dc + 1).arg(nr);
#endif
diveComputerText->setText(dcText);
}
QImage ProfileScene::toImage(QSize size)
{
// The size of chart with respect to the scene is fixed - by convention - to 100.0.
// We add 2% to the height so that the dive computer name is not cut off.
QRectF sceneRect(0.0, 0.0, 100.0, 102.0);
QImage image(size, QImage::Format_ARGB32);
image.fill(getColor(::BACKGROUND, isGrayscale));
QPainter imgPainter(&image);
imgPainter.setRenderHint(QPainter::Antialiasing);
imgPainter.setRenderHint(QPainter::SmoothPixmapTransform);
render(&imgPainter, QRect(QPoint(), size), sceneRect, Qt::IgnoreAspectRatio);
imgPainter.end();
if (isGrayscale) {
// convert QImage to grayscale before rendering
for (int i = 0; i < image.height(); i++) {
QRgb *pixel = reinterpret_cast<QRgb *>(image.scanLine(i));
QRgb *end = pixel + image.width();
for (; pixel != end; pixel++) {
int gray_val = qGray(*pixel);
*pixel = QColor(gray_val, gray_val, gray_val).rgb();
}
}
}
return image;
}
void ProfileScene::draw(QPainter *painter, const QRect &pos)
{
QImage img = toImage(pos.size());
painter->drawImage(pos, img);
}