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9bca38afcf
When the profile was to small, it would switch into empty state and clear the plot info. On resize events, the plot info is not recalculated. This means that when making the profile extremely small and then bigger, nothing is shown. This may also happen on startup. The profile is rendered into a 0x0 widget and then gets a resize event. Therefore, remember when the profile is empty and force a recalculation of the plot info. Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
648 lines
24 KiB
C++
648 lines
24 KiB
C++
// SPDX-License-Identifier: GPL-2.0
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#include "profilescene.h"
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#include "diveeventitem.h"
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#include "divecartesianaxis.h"
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#include "divepercentageitem.h"
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#include "divepixmapcache.h"
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#include "diveprofileitem.h"
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#include "divetextitem.h"
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#include "tankitem.h"
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#include "core/device.h"
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#include "core/event.h"
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#include "core/pref.h"
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#include "core/profile.h"
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#include "core/qthelper.h" // for decoMode()
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#include "core/subsurface-float.h"
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#include "core/subsurface-string.h"
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#include "core/settings/qPrefDisplay.h"
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#include "qt-models/diveplannermodel.h"
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#include <QAbstractAnimation>
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static const double diveComputerTextBorder = 1.0;
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// Class for animations (if any). Might want to do our own.
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class ProfileAnimation : public QAbstractAnimation {
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ProfileScene &scene;
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// For historical reasons, speed is actually the duration
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// (i.e. the reciprocal of speed). Ouch, that hurts.
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int speed;
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int duration() const override
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{
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return speed;
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}
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void updateCurrentTime(int time) override
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{
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// Note: we explicitly pass 1.0 at the end, so that
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// the callee can do a simple float comparison for "end".
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scene.anim(time == speed ? 1.0
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: static_cast<double>(time) / speed);
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}
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public:
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ProfileAnimation(ProfileScene &scene, int animSpeed) :
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scene(scene),
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speed(animSpeed)
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{
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start();
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}
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};
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template<typename T, class... Args>
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T *ProfileScene::createItem(const DiveCartesianAxis &vAxis, DataAccessor accessor, int z, Args&&... args)
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{
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T *res = new T(plotInfo, *timeAxis, vAxis, accessor, std::forward<Args>(args)...);
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res->setZValue(static_cast<double>(z));
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profileItems.push_back(res);
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return res;
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}
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PartialPressureGasItem *ProfileScene::createPPGas(DataAccessor accessor, color_index_t color, color_index_t colorAlert,
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const double *thresholdSettingsMin, const double *thresholdSettingsMax)
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{
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PartialPressureGasItem *item = createItem<PartialPressureGasItem>(*gasYAxis, accessor, 99, dpr);
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item->setThresholdSettingsKey(thresholdSettingsMin, thresholdSettingsMax);
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item->setColors(getColor(color, isGrayscale), getColor(colorAlert, isGrayscale));
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return item;
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}
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template <int IDX>
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double accessTissue(const plot_data &item)
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{
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return item.ceilings[IDX];
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}
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// For now, the accessor functions for the profile data do not possess a payload.
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// To generate the 16 tissue (ceiling) accessor functions, use iterative templates.
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// Thanks to C++17's constexpr if, this is actually easy to read and follow.
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template <int ACT, int MAX>
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void ProfileScene::addTissueItems(double dpr)
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{
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if constexpr (ACT < MAX) {
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DiveCalculatedTissue *tissueItem = createItem<DiveCalculatedTissue>(*profileYAxis, &accessTissue<ACT>, ACT + 1, dpr);
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allTissues.push_back(tissueItem);
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addTissueItems<ACT + 1, MAX>(dpr);
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}
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}
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ProfileScene::ProfileScene(double dpr, bool printMode, bool isGrayscale) :
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d(nullptr),
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dc(-1),
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dpr(dpr),
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printMode(printMode),
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isGrayscale(isGrayscale),
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empty(true),
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maxtime(-1),
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maxdepth(-1),
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profileYAxis(new DiveCartesianAxis(DiveCartesianAxis::Position::Left, true, 3, 0, TIME_GRID, Qt::red, true, true,
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dpr, 1.0, printMode, isGrayscale, *this)),
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gasYAxis(new DiveCartesianAxis(DiveCartesianAxis::Position::Right, false, 1, 2, TIME_GRID, Qt::black, true, true,
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dpr, 0.7, printMode, isGrayscale, *this)),
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temperatureAxis(new DiveCartesianAxis(DiveCartesianAxis::Position::Right, false, 3, 0, TIME_GRID, Qt::black, false, false,
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dpr, 1.0, printMode, isGrayscale, *this)),
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timeAxis(new DiveCartesianAxis(DiveCartesianAxis::Position::Bottom, false, 2, 2, TIME_GRID, Qt::blue, true, true,
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dpr, 1.0, printMode, isGrayscale, *this)),
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cylinderPressureAxis(new DiveCartesianAxis(DiveCartesianAxis::Position::Right, false, 4, 0, TIME_GRID, Qt::black, false, false,
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dpr, 1.0, printMode, isGrayscale, *this)),
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heartBeatAxis(new DiveCartesianAxis(DiveCartesianAxis::Position::Left, false, 3, 0, HR_AXIS, Qt::black, true, true,
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dpr, 0.7, printMode, isGrayscale, *this)),
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percentageAxis(new DiveCartesianAxis(DiveCartesianAxis::Position::Right, false, 2, 0, TIME_GRID, Qt::black, false, false,
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dpr, 0.7, printMode, isGrayscale, *this)),
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diveProfileItem(createItem<DiveProfileItem>(*profileYAxis,
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[](const plot_data &item) { return (double)item.depth; },
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0, dpr)),
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temperatureItem(createItem<DiveTemperatureItem>(*temperatureAxis,
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[](const plot_data &item) { return (double)item.temperature; },
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1, dpr)),
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meanDepthItem(createItem<DiveMeanDepthItem>(*profileYAxis,
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[](const plot_data &item) { return (double)item.running_sum; },
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1, dpr)),
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gasPressureItem(createItem<DiveGasPressureItem>(*cylinderPressureAxis,
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[](const plot_data &item) { return 0.0; }, // unused
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1, dpr)),
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diveComputerText(new DiveTextItem(dpr, 1.0, Qt::AlignRight | Qt::AlignTop, nullptr)),
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reportedCeiling(createItem<DiveReportedCeiling>(*profileYAxis,
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[](const plot_data &item) { return (double)item.ceiling; },
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1, dpr)),
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pn2GasItem(createPPGas([](const plot_data &item) { return (double)item.pressures.n2; },
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PN2, PN2_ALERT, NULL, &prefs.pp_graphs.pn2_threshold)),
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pheGasItem(createPPGas([](const plot_data &item) { return (double)item.pressures.he; },
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PHE, PHE_ALERT, NULL, &prefs.pp_graphs.phe_threshold)),
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po2GasItem(createPPGas([](const plot_data &item) { return (double)item.pressures.o2; },
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PO2, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
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o2SetpointGasItem(createPPGas([](const plot_data &item) { return item.o2setpoint.mbar / 1000.0; },
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O2SETPOINT, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
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ccrsensor1GasItem(createPPGas([](const plot_data &item) { return item.o2sensor[0].mbar / 1000.0; },
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CCRSENSOR1, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
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ccrsensor2GasItem(createPPGas([](const plot_data &item) { return item.o2sensor[1].mbar / 1000.0; },
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CCRSENSOR2, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
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ccrsensor3GasItem(createPPGas([](const plot_data &item) { return item.o2sensor[2].mbar / 1000.0; },
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CCRSENSOR3, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
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ocpo2GasItem(createPPGas([](const plot_data &item) { return item.scr_OC_pO2.mbar / 1000.0; },
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SCR_OCPO2, PO2_ALERT, &prefs.pp_graphs.po2_threshold_min, &prefs.pp_graphs.po2_threshold_max)),
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diveCeiling(createItem<DiveCalculatedCeiling>(*profileYAxis,
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[](const plot_data &item) { return (double)item.ceiling; },
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1, dpr)),
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decoModelParameters(new DiveTextItem(dpr, 1.0, Qt::AlignHCenter | Qt::AlignTop, nullptr)),
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heartBeatItem(createItem<DiveHeartrateItem>(*heartBeatAxis,
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[](const plot_data &item) { return (double)item.heartbeat; },
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1, dpr)),
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percentageItem(new DivePercentageItem(*timeAxis, *percentageAxis)),
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tankItem(new TankItem(*timeAxis, dpr)),
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pixmaps(getDivePixmaps(dpr))
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{
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init_plot_info(&plotInfo);
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setSceneRect(0, 0, 100, 100);
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setItemIndexMethod(QGraphicsScene::NoIndex);
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gasYAxis->setZValue(timeAxis->zValue() + 1);
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tankItem->setZValue(100);
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// These axes are not locale-dependent. Set their scale factor once here.
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timeAxis->setTransform(1.0/60.0);
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heartBeatAxis->setTransform(1.0);
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gasYAxis->setTransform(1.0); // Non-metric countries likewise use bar (disguised as "percentage") for partial pressure.
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addTissueItems<0,16>(dpr);
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percentageItem->setZValue(1.0);
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profileYAxis->setGridIsMultipleOfThree( qPrefDisplay::three_m_based_grid() );
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// Add items to scene
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addItem(diveComputerText);
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addItem(tankItem);
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addItem(decoModelParameters);
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addItem(profileYAxis);
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addItem(gasYAxis);
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addItem(temperatureAxis);
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addItem(timeAxis);
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addItem(cylinderPressureAxis);
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addItem(percentageAxis);
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addItem(heartBeatAxis);
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addItem(percentageItem);
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for (AbstractProfilePolygonItem *item: profileItems)
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addItem(item);
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}
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ProfileScene::~ProfileScene()
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{
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free_plot_info_data(&plotInfo);
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}
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void ProfileScene::clear()
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{
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for (AbstractProfilePolygonItem *item: profileItems)
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item->clear();
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// the events will have connected slots which can fire after
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// the dive and its data have been deleted - so explictly delete
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// the DiveEventItems
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qDeleteAll(eventItems);
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eventItems.clear();
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free_plot_info_data(&plotInfo);
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empty = true;
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}
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static bool ppGraphsEnabled(const struct divecomputer *dc, bool simplified)
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{
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return simplified ? (dc->divemode == CCR && prefs.pp_graphs.po2)
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: (prefs.pp_graphs.po2 || prefs.pp_graphs.pn2 || prefs.pp_graphs.phe);
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}
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// Update visibility of non-interactive chart features according to preferences
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void ProfileScene::updateVisibility(bool diveHasHeartBeat, bool simplified)
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{
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const struct divecomputer *currentdc = get_dive_dc_const(d, dc);
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if (!currentdc)
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return;
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bool ppGraphs = ppGraphsEnabled(currentdc, simplified);
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if (simplified) {
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pn2GasItem->setVisible(false);
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po2GasItem->setVisible(ppGraphs);
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pheGasItem->setVisible(false);
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temperatureItem->setVisible(!ppGraphs);
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tankItem->setVisible(!ppGraphs && prefs.tankbar);
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o2SetpointGasItem->setVisible(ppGraphs && prefs.show_ccr_setpoint);
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ccrsensor1GasItem->setVisible(ppGraphs && prefs.show_ccr_sensors);
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ccrsensor2GasItem->setVisible(ppGraphs && prefs.show_ccr_sensors && (currentdc->no_o2sensors > 1));
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ccrsensor3GasItem->setVisible(ppGraphs && prefs.show_ccr_sensors && (currentdc->no_o2sensors > 1));
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ocpo2GasItem->setVisible((currentdc->divemode == PSCR) && prefs.show_scr_ocpo2);
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} else {
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pn2GasItem->setVisible(prefs.pp_graphs.pn2);
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po2GasItem->setVisible(prefs.pp_graphs.po2);
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pheGasItem->setVisible(prefs.pp_graphs.phe);
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bool setpointflag = currentdc->divemode == CCR && prefs.pp_graphs.po2;
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bool sensorflag = setpointflag && prefs.show_ccr_sensors;
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o2SetpointGasItem->setVisible(setpointflag && prefs.show_ccr_setpoint);
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ccrsensor1GasItem->setVisible(sensorflag);
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ccrsensor2GasItem->setVisible(sensorflag && currentdc->no_o2sensors > 1);
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ccrsensor3GasItem->setVisible(sensorflag && currentdc->no_o2sensors > 2);
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ocpo2GasItem->setVisible(currentdc->divemode == PSCR && prefs.show_scr_ocpo2);
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heartBeatItem->setVisible(prefs.hrgraph && diveHasHeartBeat);
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diveCeiling->setVisible(prefs.calcceiling);
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decoModelParameters->setVisible(prefs.decoinfo);
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for (DiveCalculatedTissue *tissue: allTissues)
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tissue->setVisible(prefs.calcalltissues && prefs.calcceiling);
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percentageItem->setVisible(prefs.percentagegraph);
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meanDepthItem->setVisible(prefs.show_average_depth);
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reportedCeiling->setVisible(prefs.dcceiling);
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tankItem->setVisible(prefs.tankbar);
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temperatureItem->setVisible(true);
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}
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}
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void ProfileScene::resize(QSizeF size)
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{
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setSceneRect(QRectF(QPointF(), size));
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}
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// Helper templates to determine slope and intersect of a linear function.
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// The function arguments are supposed to be integral types.
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template<typename Func>
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static auto intercept(Func f)
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{
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return f(0);
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}
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template<typename Func>
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static auto slope(Func f)
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{
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return f(1) - f(0);
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}
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// Helper structure for laying out secondary plots.
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struct VerticalAxisLayout {
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DiveCartesianAxis *axis;
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double height; // in pixels (times dpr) or a weight if not enough space
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double bottom_border; // in pixels (times dpr)
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bool visible;
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};
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void ProfileScene::updateAxes(bool diveHasHeartBeat, bool simplified)
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{
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const struct divecomputer *currentdc = get_dive_dc_const(d, dc);
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if (!currentdc)
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return;
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// Calculate left and right border needed for the axes and other chart items.
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double leftBorder = profileYAxis->width();
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if (prefs.hrgraph)
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leftBorder = std::max(leftBorder, heartBeatAxis->width());
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double rightWidth = timeAxis->horizontalOverhang();
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if (prefs.show_average_depth)
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rightWidth = std::max(rightWidth, meanDepthItem->labelWidth);
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if (ppGraphsEnabled(currentdc, simplified))
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rightWidth = std::max(rightWidth, gasYAxis->width());
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double rightBorder = sceneRect().width() - rightWidth;
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double width = rightBorder - leftBorder;
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if (width <= 10.0 * dpr)
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return clear();
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profileYAxis->setGridIsMultipleOfThree( qPrefDisplay::three_m_based_grid() );
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// Place the fixed dive computer text at the bottom
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double bottomBorder = sceneRect().height() - diveComputerText->height() - 2.0 * dpr * diveComputerTextBorder;
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diveComputerText->setPos(0.0, bottomBorder + dpr * diveComputerTextBorder);
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double topBorder = 0.0;
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// show the deco model parameters at the top in the center
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if (prefs.decoinfo) {
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decoModelParameters->setPos(leftBorder + width / 2.0, topBorder);
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topBorder += decoModelParameters->height();
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}
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bottomBorder -= timeAxis->height();
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profileRegion = QRectF(leftBorder, topBorder, width, bottomBorder - topBorder);
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timeAxis->setPosition(profileRegion);
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if (prefs.tankbar) {
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bottomBorder -= tankItem->height();
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// Note: we set x to 0.0, because the tank item uses the timeAxis to set the x-coordinate.
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tankItem->setPos(0.0, bottomBorder);
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}
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double height = bottomBorder - topBorder;
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if (height <= 50.0 * dpr)
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return clear();
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// The rest is laid out dynamically. Give at least 50% to the actual profile.
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// The max heights are given for DPR=1, i.e. a ca. 800x600 pixels profile.
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const double minProfileFraction = 0.5;
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VerticalAxisLayout secondaryAxes[] = {
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// Note: axes are listed from bottom to top, since they are added that way.
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{ heartBeatAxis, 75.0, 0.0, prefs.hrgraph && diveHasHeartBeat },
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{ percentageAxis, 50.0, 0.0, prefs.percentagegraph },
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{ gasYAxis, 75.0, 0.0, ppGraphsEnabled(currentdc, simplified) },
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{ temperatureAxis, 50.0, 2.0, true },
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};
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// A loop is probably easier to read than std::accumulate.
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double totalSecondaryHeight = 0.0;
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for (const VerticalAxisLayout &l: secondaryAxes) {
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if (l.visible)
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totalSecondaryHeight += l.height * dpr;
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}
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if (totalSecondaryHeight > height * minProfileFraction) {
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// Use 50% for the profile and the rest for the remaining graphs, scaled by their maximum height.
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double remainingSpace = height * minProfileFraction;
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for (VerticalAxisLayout &l: secondaryAxes)
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l.height *= remainingSpace / totalSecondaryHeight;
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}
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for (const VerticalAxisLayout &l: secondaryAxes) {
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l.axis->setVisible(l.visible);
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if (!l.visible)
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continue;
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bottomBorder -= l.height * dpr;
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l.axis->setPosition(QRectF(leftBorder, bottomBorder, width, (l.height - l.bottom_border) * dpr));
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}
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height = bottomBorder - topBorder;
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profileYAxis->setPosition(QRectF(leftBorder, topBorder, width, height));
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// The cylinders are displayed in the 24-80% region of the profile
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cylinderPressureAxis->setPosition(QRectF(leftBorder, topBorder + 0.24 * height, width, 0.56 * height));
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// Set scale factors depending on locale.
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// The conversion calls, such as mm_to_feet(), will be optimized away.
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profileYAxis->setTransform(prefs.units.length == units::METERS ? 0.001 : slope(mm_to_feet));
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cylinderPressureAxis->setTransform(prefs.units.pressure == units::BAR ? 0.001 : slope(mbar_to_PSI));
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// Temperature is special: this is not a linear transformation, but requires a shift of origin.
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if (prefs.units.temperature == units::CELSIUS)
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temperatureAxis->setTransform(slope(mkelvin_to_C), intercept(mkelvin_to_C));
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else
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temperatureAxis->setTransform(slope(mkelvin_to_F), intercept(mkelvin_to_F));
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}
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bool ProfileScene::pointOnProfile(const QPointF &point) const
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{
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return timeAxis->pointInRange(point.x()) && profileYAxis->pointInRange(point.y());
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}
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static double max_gas(const plot_info &pi, double gas_pressures::*gas)
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{
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double ret = -1;
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for (int i = 0; i < pi.nr; ++i) {
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if (pi.entry[i].pressures.*gas > ret)
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ret = pi.entry[i].pressures.*gas;
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}
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return ret;
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}
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void ProfileScene::plotDive(const struct dive *dIn, int dcIn, DivePlannerPointsModel *plannerModel,
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bool inPlanner, bool instant, bool keepPlotInfo, bool calcMax, double zoom, double zoomedPosition)
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{
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d = dIn;
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dc = dcIn;
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animatedAxes.clear();
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if (!d) {
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clear();
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return;
|
|
}
|
|
|
|
if (!plannerModel) {
|
|
if (decoMode(false) == VPMB)
|
|
decoModelParameters->set(QString("VPM-B +%1").arg(prefs.vpmb_conservatism), getColor(PRESSURE_TEXT));
|
|
else
|
|
decoModelParameters->set(QString("GF %1/%2").arg(prefs.gflow).arg(prefs.gfhigh), getColor(PRESSURE_TEXT));
|
|
} else {
|
|
struct diveplan &diveplan = plannerModel->getDiveplan();
|
|
if (decoMode(inPlanner) == VPMB)
|
|
decoModelParameters->set(QString("VPM-B +%1").arg(diveplan.vpmb_conservatism), getColor(PRESSURE_TEXT));
|
|
else
|
|
decoModelParameters->set(QString("GF %1/%2").arg(diveplan.gflow).arg(diveplan.gfhigh), getColor(PRESSURE_TEXT));
|
|
}
|
|
|
|
const struct divecomputer *currentdc = get_dive_dc_const(d, dc);
|
|
if (!currentdc || !currentdc->samples) {
|
|
clear();
|
|
return;
|
|
}
|
|
|
|
// If we come from the empty state, the plot info has to be recalculated.
|
|
if (empty)
|
|
keepPlotInfo = false;
|
|
empty = false;
|
|
|
|
int animSpeed = instant || printMode ? 0 : qPrefDisplay::animation_speed();
|
|
|
|
// 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.
|
|
*/
|
|
if (!keepPlotInfo)
|
|
create_plot_info_new(d, currentdc, &plotInfo, planner_ds);
|
|
|
|
bool hasHeartBeat = plotInfo.maxhr;
|
|
// For mobile we might want to turn of some features that are normally shown.
|
|
#ifdef SUBSURFACE_MOBILE
|
|
bool simplified = true;
|
|
#else
|
|
bool simplified = false;
|
|
#endif
|
|
updateVisibility(hasHeartBeat, simplified);
|
|
updateAxes(hasHeartBeat, simplified);
|
|
|
|
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;
|
|
}
|
|
|
|
// 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->setBounds(0.0, maxdepth);
|
|
profileYAxis->updateTicks(animSpeed);
|
|
animatedAxes.push_back(profileYAxis);
|
|
|
|
temperatureAxis->setBounds(plotInfo.mintemp,
|
|
plotInfo.maxtemp - plotInfo.mintemp > 2000 ? plotInfo.maxtemp : plotInfo.mintemp + 2000);
|
|
|
|
if (hasHeartBeat) {
|
|
heartBeatAxis->setBounds(plotInfo.minhr, plotInfo.maxhr);
|
|
heartBeatAxis->updateTicks(animSpeed);
|
|
animatedAxes.push_back(heartBeatAxis);
|
|
}
|
|
|
|
percentageAxis->setBounds(0, 100);
|
|
percentageAxis->setVisible(false);
|
|
percentageAxis->updateTicks(animSpeed);
|
|
animatedAxes.push_back(percentageAxis);
|
|
|
|
double relStart = (1.0 - 1.0/zoom) * zoomedPosition;
|
|
double relEnd = relStart + 1.0/zoom;
|
|
timeAxis->setBounds(round(relStart * maxtime), round(relEnd * maxtime));
|
|
|
|
// Find first and last plotInfo entry
|
|
int firstSecond = lrint(timeAxis->minimum());
|
|
int lastSecond = lrint(timeAxis->maximum());
|
|
auto it1 = std::lower_bound(plotInfo.entry, plotInfo.entry + plotInfo.nr, firstSecond,
|
|
[](const plot_data &d, int s)
|
|
{ return d.sec < s; });
|
|
auto it2 = std::lower_bound(it1, plotInfo.entry + plotInfo.nr, lastSecond,
|
|
[](const plot_data &d, int s)
|
|
{ return d.sec < s; });
|
|
if (it1 > plotInfo.entry && it1->sec > firstSecond)
|
|
--it1;
|
|
if (it2 < plotInfo.entry + plotInfo.nr)
|
|
++it2;
|
|
int from = it1 - plotInfo.entry;
|
|
int to = it2 - plotInfo.entry;
|
|
|
|
timeAxis->updateTicks(animSpeed);
|
|
animatedAxes.push_back(timeAxis);
|
|
cylinderPressureAxis->setBounds(plotInfo.minpressure, plotInfo.maxpressure);
|
|
|
|
tankItem->setData(d, currentdc, firstSecond, lastSecond);
|
|
|
|
if (ppGraphsEnabled(currentdc, simplified)) {
|
|
double max = prefs.pp_graphs.phe ? max_gas(plotInfo, &gas_pressures::he) : -1;
|
|
if (prefs.pp_graphs.pn2)
|
|
max = std::max(max_gas(plotInfo, &gas_pressures::n2), max);
|
|
if (prefs.pp_graphs.po2)
|
|
max = std::max(max_gas(plotInfo, &gas_pressures::o2), max);
|
|
|
|
gasYAxis->setBounds(0.0, max);
|
|
gasYAxis->updateTicks(animSpeed);
|
|
animatedAxes.push_back(gasYAxis);
|
|
}
|
|
|
|
// Replot dive items
|
|
for (AbstractProfilePolygonItem *item: profileItems)
|
|
item->replot(d, from, to, inPlanner);
|
|
|
|
if (prefs.percentagegraph)
|
|
percentageItem->replot(d, currentdc, plotInfo);
|
|
|
|
// 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, currentdc, duration_t{1});
|
|
|
|
while (event) {
|
|
// 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;
|
|
}
|
|
}
|
|
if (DiveEventItem::isInteresting(d, currentdc, event, plotInfo, firstSecond, lastSecond)) {
|
|
auto item = new DiveEventItem(d, event, lastgasmix, plotInfo,
|
|
timeAxis, profileYAxis, animSpeed, *pixmaps);
|
|
item->setZValue(2);
|
|
addItem(item);
|
|
eventItems.push_back(item);
|
|
}
|
|
if (event_is_gaschange(event))
|
|
lastgasmix = get_gasmix_from_event(d, event);
|
|
event = event->next;
|
|
}
|
|
|
|
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");
|
|
int nr = number_of_computers(d);
|
|
if (nr > 1)
|
|
dcText += tr(" (#%1 of %2)").arg(dc + 1).arg(nr);
|
|
diveComputerText->set(dcText, getColor(TIME_TEXT, isGrayscale));
|
|
|
|
// Reset animation.
|
|
if (animSpeed <= 0)
|
|
animation.reset();
|
|
else
|
|
animation = std::make_unique<ProfileAnimation>(*this, animSpeed);
|
|
}
|
|
|
|
void ProfileScene::anim(double fraction)
|
|
{
|
|
for (DiveCartesianAxis *axis: animatedAxes)
|
|
axis->anim(fraction);
|
|
}
|
|
|
|
void ProfileScene::draw(QPainter *painter, const QRect &pos,
|
|
const struct dive *d, int dc,
|
|
DivePlannerPointsModel *plannerModel, bool inPlanner)
|
|
{
|
|
QSize size = pos.size();
|
|
resize(QSizeF(size));
|
|
plotDive(d, dc, plannerModel, inPlanner, true, false, true);
|
|
|
|
QImage image(pos.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();
|
|
}
|
|
}
|
|
}
|
|
painter->drawImage(pos, image);
|
|
}
|
|
|
|
// Calculate the new zoom position when the mouse is dragged by delta.
|
|
// This is annoyingly complex, because the zoom position is given as
|
|
// a real between 0 and 1.
|
|
double ProfileScene::calcZoomPosition(double zoom, double originalPos, double delta)
|
|
{
|
|
double factor = 1.0 - 1.0/zoom;
|
|
if (nearly_0(factor))
|
|
return 0.0;
|
|
double relStart = factor * originalPos;
|
|
double start = relStart * maxtime;
|
|
double newStart = start + timeAxis->deltaToValue(delta);
|
|
double newRelStart = newStart / maxtime;
|
|
double newPos = newRelStart / factor;
|
|
return std::clamp(newPos, 0.0, 1.0);
|
|
}
|