subsurface/profile-widget/diveprofileitem.cpp
Berthold Stoeger 118700fd18 profile: pass [from,to] range to polygon plotting functions
Only plot the zoomed range. Currently this passes the sample
before and after the range, so it generally "overshoots" by
one sample in each direction. The plan is to do clipping
on the first and last polygon segment later on.

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2021-12-17 11:54:23 -08:00

711 lines
22 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include "profile-widget/diveprofileitem.h"
#include "qt-models/diveplotdatamodel.h"
#include "profile-widget/divecartesianaxis.h"
#include "profile-widget/divetextitem.h"
#include "profile-widget/animationfunctions.h"
#include "core/profile.h"
#include "qt-models/diveplannermodel.h"
#include "core/qthelper.h"
#include "core/settings/qPrefTechnicalDetails.h"
#include "core/settings/qPrefLog.h"
#include "libdivecomputer/parser.h"
#include "profile-widget/profilewidget2.h"
AbstractProfilePolygonItem::AbstractProfilePolygonItem(const DivePlotDataModel &model, const DiveCartesianAxis &horizontal, int hColumn,
const DiveCartesianAxis &vertical, int vColumn, double dpr) :
hAxis(horizontal), vAxis(vertical), dataModel(model), hDataColumn(hColumn), vDataColumn(vColumn), dpr(dpr), from(0), to(0)
{
setCacheMode(DeviceCoordinateCache);
}
void AbstractProfilePolygonItem::clear()
{
setPolygon(QPolygonF());
qDeleteAll(texts);
texts.clear();
}
void AbstractProfilePolygonItem::makePolygon(int fromIn, int toIn)
{
from = fromIn;
to = toIn;
// Calculate the polygon. This is the polygon that will be painted on screen
// on the ::paint method. Here we calculate the correct position of the points
// regarting our cartesian plane ( made by the hAxis and vAxis ), the QPolygonF
// is an array of QPointF's, so we basically get the point from the model, convert
// to our coordinates, store. no painting is done here.
QPolygonF poly;
for (int i = from; i < to; i++) {
double horizontalValue = dataModel.index(i, hDataColumn).data().toReal();
double verticalValue = dataModel.index(i, vDataColumn).data().toReal();
if (i == from) {
QPointF point(hAxis.posAtValue(horizontalValue), vAxis.posAtValue(0.0));
poly.append(point);
}
QPointF point(hAxis.posAtValue(horizontalValue), vAxis.posAtValue(verticalValue));
poly.append(point);
if (i == to - 1) {
QPointF point(hAxis.posAtValue(horizontalValue), vAxis.posAtValue(0.0));
poly.append(point);
}
}
setPolygon(poly);
qDeleteAll(texts);
texts.clear();
}
DiveProfileItem::DiveProfileItem(const DivePlotDataModel &model, const DiveCartesianAxis &hAxis, int hColumn,
const DiveCartesianAxis &vAxis, int vColumn, double dpr) :
AbstractProfilePolygonItem(model, hAxis, hColumn, vAxis, vColumn, dpr),
show_reported_ceiling(0), reported_ceiling_in_red(0)
{
}
void DiveProfileItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget)
{
if (polygon().isEmpty())
return;
painter->save();
// This paints the Polygon + Background. I'm setting the pen to QPen() so we don't get a black line here,
// after all we need to plot the correct velocities colors later.
setPen(Qt::NoPen);
QGraphicsPolygonItem::paint(painter, option, widget);
// Here we actually paint the boundaries of the Polygon using the colors that the model provides.
// Those are the speed colors of the dives.
QPen pen;
pen.setCosmetic(true);
pen.setWidth(2);
QPolygonF poly = polygon();
// This paints the colors of the velocities.
for (int i = from + 1; i < to; i++) {
QModelIndex colorIndex = dataModel.index(i, DivePlotDataModel::COLOR);
pen.setBrush(QBrush(colorIndex.data(Qt::BackgroundRole).value<QColor>()));
painter->setPen(pen);
if (i - from < poly.count() - 1)
painter->drawLine(poly[i - from], poly[i - from + 1]);
}
painter->restore();
}
void DiveProfileItem::replot(const dive *d, int from, int to, bool in_planner)
{
makePolygon(from, to);
if (polygon().isEmpty())
return;
show_reported_ceiling = prefs.dcceiling;
reported_ceiling_in_red = prefs.redceiling;
profileColor = dataModel.data().waypoint_above_ceiling ? QColor(Qt::red)
: getColor(DEPTH_BOTTOM);
/* Show any ceiling we may have encountered */
if (prefs.dcceiling && !prefs.redceiling) {
QPolygonF p = polygon();
plot_data *entry = dataModel.data().entry + to - 1;
for (int i = to - 1; i >= from; i--, entry--) {
if (!entry->in_deco) {
/* not in deco implies this is a safety stop, no ceiling */
p.append(QPointF(hAxis.posAtValue(entry->sec), vAxis.posAtValue(0)));
} else {
p.append(QPointF(hAxis.posAtValue(entry->sec), vAxis.posAtValue(qMin(entry->stopdepth, entry->depth))));
}
}
setPolygon(p);
}
// This is the blueish gradient that the Depth Profile should have.
// It's a simple QLinearGradient with 2 stops, starting from top to bottom.
QLinearGradient pat(0, polygon().boundingRect().top(), 0, polygon().boundingRect().bottom());
pat.setColorAt(1, profileColor);
pat.setColorAt(0, getColor(DEPTH_TOP));
setBrush(QBrush(pat));
int last = -1;
for (int i = from; i < to; i++) {
struct plot_data *pd = dataModel.data().entry;
struct plot_data *entry = pd + i;
// "min/max" are the 9-minute window min/max indices
struct plot_data *min_entry = pd + entry->min;
struct plot_data *max_entry = pd + entry->max;
if (entry->depth < 2000)
continue;
if ((entry == max_entry) && entry->depth / 100 != last) {
plot_depth_sample(entry, Qt::AlignHCenter | Qt::AlignBottom, getColor(SAMPLE_DEEP));
last = entry->depth / 100;
}
if ((entry == min_entry) && entry->depth / 100 != last) {
plot_depth_sample(entry, Qt::AlignHCenter | Qt::AlignTop, getColor(SAMPLE_SHALLOW));
last = entry->depth / 100;
}
if (entry->depth != last)
last = -1;
}
}
void DiveProfileItem::plot_depth_sample(struct plot_data *entry, QFlags<Qt::AlignmentFlag> flags, const QColor &color)
{
DiveTextItem *item = new DiveTextItem(dpr, 1.0, flags, this);
item->set(get_depth_string(entry->depth, true), color);
item->setPos(hAxis.posAtValue(entry->sec), vAxis.posAtValue(entry->depth));
texts.append(item);
}
DiveHeartrateItem::DiveHeartrateItem(const DivePlotDataModel &model, const DiveCartesianAxis &hAxis, int hColumn,
const DiveCartesianAxis &vAxis, int vColumn, double dpr) :
AbstractProfilePolygonItem(model, hAxis, hColumn, vAxis, vColumn, dpr)
{
QPen pen;
pen.setBrush(QBrush(getColor(::HR_PLOT)));
pen.setCosmetic(true);
pen.setWidth(1);
setPen(pen);
}
void DiveHeartrateItem::replot(const dive *, int fromIn, int toIn, bool)
{
from = fromIn;
to = toIn;
int last = -300, last_printed_hr = 0, sec = 0;
struct sec_hr {
int sec;
int hr;
} hist[3] = {};
std::vector<sec_hr> textItems;
qDeleteAll(texts);
texts.clear();
// Ignore empty values. a heart rate of 0 would be a bad sign.
QPolygonF poly;
for (int i = from; i < to; i++) {
int hr = dataModel.index(i, vDataColumn).data().toInt();
if (!hr)
continue;
sec = dataModel.index(i, hDataColumn).data().toInt();
QPointF point(hAxis.posAtValue(sec), vAxis.posAtValue(hr));
poly.append(point);
if (hr == hist[2].hr)
// same as last one, no point in looking at printing
continue;
hist[0] = hist[1];
hist[1] = hist[2];
hist[2].sec = sec;
hist[2].hr = hr;
// don't print a HR
// if it's not a local min / max
// if it's been less than 5min and less than a 20 beats change OR
// if it's been less than 2min OR if the change from the
// last print is less than 10 beats
// to test min / max requires three points, so we now look at the
// previous one
sec = hist[1].sec;
hr = hist[1].hr;
if ((hist[0].hr < hr && hr < hist[2].hr) ||
(hist[0].hr > hr && hr > hist[2].hr) ||
((sec < last + 300) && (abs(hr - last_printed_hr) < 20)) ||
(sec < last + 120) ||
(abs(hr - last_printed_hr) < 10))
continue;
last = sec;
textItems.push_back({ sec, hr });
last_printed_hr = hr;
}
setPolygon(poly);
for (size_t i = 0; i < textItems.size(); ++i) {
auto [sec, hr] = textItems[i];
createTextItem(sec, hr, i == textItems.size() - 1);
}
}
void DiveHeartrateItem::createTextItem(int sec, int hr, bool last)
{
int flags = last ? Qt::AlignLeft | Qt::AlignBottom :
Qt::AlignRight | Qt::AlignBottom;
DiveTextItem *text = new DiveTextItem(dpr, 0.7, flags, this);
text->set(QString("%1").arg(hr), getColor(HR_TEXT));
text->setPos(QPointF(hAxis.posAtValue(sec), vAxis.posAtValue(hr)));
texts.append(text);
}
void DiveHeartrateItem::paint(QPainter *painter, const QStyleOptionGraphicsItem*, QWidget*)
{
if (polygon().isEmpty())
return;
painter->save();
painter->setPen(pen());
painter->drawPolyline(polygon());
painter->restore();
}
DiveTemperatureItem::DiveTemperatureItem(const DivePlotDataModel &model, const DiveCartesianAxis &hAxis, int hColumn,
const DiveCartesianAxis &vAxis, int vColumn, double dpr) :
AbstractProfilePolygonItem(model, hAxis, hColumn, vAxis, vColumn, dpr)
{
QPen pen;
pen.setBrush(QBrush(getColor(::TEMP_PLOT)));
pen.setCosmetic(true);
pen.setWidth(2);
setPen(pen);
}
void DiveTemperatureItem::replot(const dive *, int fromIn, int toIn, bool)
{
from = fromIn;
to = toIn;
int last = -300, last_printed_temp = 0, sec = 0, last_valid_temp = 0;
std::vector<std::pair<int, int>> textItems;
qDeleteAll(texts);
texts.clear();
// Ignore empty values. things do not look good with '0' as temperature in kelvin...
QPolygonF poly;
for (int i = from; i < to; i++) {
int mkelvin = dataModel.index(i, vDataColumn).data().toInt();
if (!mkelvin)
continue;
last_valid_temp = mkelvin;
sec = dataModel.index(i, hDataColumn).data().toInt();
QPointF point(hAxis.posAtValue(sec), vAxis.posAtValue(mkelvin));
poly.append(point);
/* don't print a temperature
* if it's been less than 5min and less than a 2K change OR
* if it's been less than 2min OR if the change from the
* last print is less than .4K (and therefore less than 1F) */
if (((sec < last + 300) && (abs(mkelvin - last_printed_temp) < 2000)) ||
(sec < last + 120) ||
(abs(mkelvin - last_printed_temp) < 400))
continue;
last = sec;
if (mkelvin > 200000)
textItems.push_back({ sec, mkelvin });
last_printed_temp = mkelvin;
}
setPolygon(poly);
/* it would be nice to print the end temperature, if it's
* different or if the last temperature print has been more
* than a quarter of the dive back */
if (last_valid_temp > 200000 &&
((abs(last_valid_temp - last_printed_temp) > 500) || ((double)last / (double)sec < 0.75))) {
textItems.push_back({ sec, last_valid_temp });
}
for (size_t i = 0; i < textItems.size(); ++i) {
auto [sec, mkelvin] = textItems[i];
createTextItem(sec, mkelvin, i == textItems.size() - 1);
}
}
void DiveTemperatureItem::createTextItem(int sec, int mkelvin, bool last)
{
temperature_t temp;
temp.mkelvin = mkelvin;
int flags = last ? Qt::AlignLeft | Qt::AlignBottom :
Qt::AlignRight | Qt::AlignBottom;
DiveTextItem *text = new DiveTextItem(dpr, 0.8, flags, this);
text->set(get_temperature_string(temp, true), getColor(TEMP_TEXT));
text->setPos(QPointF(hAxis.posAtValue(sec), vAxis.posAtValue(mkelvin)));
texts.append(text);
}
void DiveTemperatureItem::paint(QPainter *painter, const QStyleOptionGraphicsItem*, QWidget*)
{
if (polygon().isEmpty())
return;
painter->save();
painter->setPen(pen());
painter->drawPolyline(polygon());
painter->restore();
}
DiveMeanDepthItem::DiveMeanDepthItem(const DivePlotDataModel &model, const DiveCartesianAxis &hAxis, int hColumn,
const DiveCartesianAxis &vAxis, int vColumn, double dpr) :
AbstractProfilePolygonItem(model, hAxis, hColumn, vAxis, vColumn, dpr)
{
QPen pen;
pen.setBrush(QBrush(getColor(::HR_AXIS)));
pen.setCosmetic(true);
pen.setWidth(2);
setPen(pen);
lastRunningSum = 0.0;
}
void DiveMeanDepthItem::replot(const dive *, int fromIn, int toIn, bool)
{
from = fromIn;
to = toIn;
double meandepthvalue = 0.0;
QPolygonF poly;
plot_data *entry = dataModel.data().entry + from;
for (int i = from; i < to; i++, entry++) {
// Ignore empty values
if (entry->running_sum == 0 || entry->sec == 0)
continue;
meandepthvalue = entry->running_sum / entry->sec;
QPointF point(hAxis.posAtValue(entry->sec), vAxis.posAtValue(meandepthvalue));
poly.append(point);
}
lastRunningSum = meandepthvalue;
setPolygon(poly);
createTextItem();
}
void DiveMeanDepthItem::paint(QPainter *painter, const QStyleOptionGraphicsItem*, QWidget*)
{
if (polygon().isEmpty())
return;
painter->save();
painter->setPen(pen());
painter->drawPolyline(polygon());
painter->restore();
}
void DiveMeanDepthItem::createTextItem()
{
plot_data *entry = dataModel.data().entry;
int sec = to > 0 ? entry[to-1].sec : 0;
qDeleteAll(texts);
texts.clear();
DiveTextItem *text = new DiveTextItem(dpr, 0.8, Qt::AlignRight | Qt::AlignTop, this);
text->set(get_depth_string(lrint(lastRunningSum), true), getColor(TEMP_TEXT));
text->setPos(QPointF(hAxis.posAtValue(sec) + 1, vAxis.posAtValue(lastRunningSum)));
texts.append(text);
}
void DiveGasPressureItem::replot(const dive *d, int fromIn, int toIn, bool in_planner)
{
from = fromIn;
to = toIn;
const struct plot_info *pInfo = &dataModel.data();
std::vector<int> plotted_cyl(pInfo->nr_cylinders, false);
std::vector<int> last_plotted(pInfo->nr_cylinders, 0);
std::vector<std::vector<Entry>> poly(pInfo->nr_cylinders);
QPolygonF boundingPoly;
polygons.clear();
for (int i = from; i < to; i++) {
const struct plot_data *entry = pInfo->entry + i;
for (int cyl = 0; cyl < pInfo->nr_cylinders; cyl++) {
int mbar = get_plot_pressure(pInfo, i, cyl);
int time = entry->sec;
if (!mbar)
continue;
QPointF point(hAxis.posAtValue(time), vAxis.posAtValue(mbar));
boundingPoly.push_back(point);
QColor color;
if (!in_planner) {
if (entry->sac)
color = getSacColor(entry->sac, d->sac);
else
color = MED_GRAY_HIGH_TRANS;
} else {
if (mbar < 0)
color = MAGENTA;
else
color = getPressureColor(entry->density);
}
if (plotted_cyl[cyl]) {
/* Have we used this cylinder in the last two minutes? Continue */
if (time - last_plotted[cyl] <= 2*60) {
poly[cyl].push_back({ point, color });
last_plotted[cyl] = time;
continue;
}
/* Finish the previous one, start a new one */
polygons.push_back(std::move(poly[cyl]));
poly[cyl].clear();
}
plotted_cyl[cyl] = true;
last_plotted[cyl] = time;
poly[cyl].push_back({ point, color });
}
}
for (int cyl = 0; cyl < pInfo->nr_cylinders; cyl++) {
if (!plotted_cyl[cyl])
continue;
polygons.push_back(poly[cyl]);
}
setPolygon(boundingPoly);
qDeleteAll(texts);
texts.clear();
std::vector<int> seen_cyl(pInfo->nr_cylinders, false);
std::vector<int> last_pressure(pInfo->nr_cylinders, 0);
std::vector<int> last_time(pInfo->nr_cylinders, 0);
// These are offset values used to print the gas lables and pressures on a
// dive profile at appropriate Y-coordinates. We alternate aligning the
// label and the gas pressure above and under the pressure line.
// The values are historical, and we could try to pick the over/under
// depending on whether this pressure is higher or lower than the average.
// Right now it's just strictly alternating when you have multiple gas
// pressures.
QFlags<Qt::AlignmentFlag> alignVar = Qt::AlignTop;
std::vector<QFlags<Qt::AlignmentFlag>> align(pInfo->nr_cylinders);
double axisRange = (vAxis.maximum() - vAxis.minimum())/1000; // Convert axis pressure range to bar
double axisLog = log10(log10(axisRange));
for (int i = from; i < to; i++) {
const struct plot_data *entry = pInfo->entry + i;
for (int cyl = 0; cyl < pInfo->nr_cylinders; cyl++) {
int mbar = get_plot_pressure(pInfo, i, cyl);
if (!mbar)
continue;
if (!seen_cyl[cyl]) {
double value_y_offset, label_y_offset;
// Magic Y offset depending on whether we're aliging
// the top of the text or the bottom of the text to
// the pressure line.
value_y_offset = -0.5;
if (alignVar & Qt::AlignTop) {
label_y_offset = 5 * axisLog;
} else {
label_y_offset = -7 * axisLog;
}
plotPressureValue(mbar, entry->sec, alignVar, value_y_offset);
plotGasValue(mbar, entry->sec, get_cylinder(d, cyl)->gasmix, alignVar, label_y_offset);
seen_cyl[cyl] = true;
/* Alternate alignment as we see cylinder use.. */
align[cyl] = alignVar;
alignVar ^= Qt::AlignTop | Qt::AlignBottom;
}
last_pressure[cyl] = mbar;
last_time[cyl] = entry->sec;
}
}
// For each cylinder, on right hand side of profile, write cylinder pressure
for (int cyl = 0; cyl < pInfo->nr_cylinders; cyl++) {
if (last_time[cyl]) {
double value_y_offset = -0.5;
plotPressureValue(last_pressure[cyl], last_time[cyl], align[cyl] | Qt::AlignLeft, value_y_offset);
}
}
}
void DiveGasPressureItem::plotPressureValue(int mbar, int sec, QFlags<Qt::AlignmentFlag> align, double pressure_offset)
{
const char *unit;
int pressure = get_pressure_units(mbar, &unit);
DiveTextItem *text = new DiveTextItem(dpr, 1.0, align, this);
text->set(QString("%1%2").arg(pressure).arg(unit), getColor(PRESSURE_TEXT));
text->setPos(hAxis.posAtValue(sec), vAxis.posAtValue(mbar) + pressure_offset );
texts.push_back(text);
}
void DiveGasPressureItem::plotGasValue(int mbar, int sec, struct gasmix gasmix, QFlags<Qt::AlignmentFlag> align, double gasname_offset)
{
QString gas = get_gas_string(gasmix);
DiveTextItem *text = new DiveTextItem(dpr, 1.0, align, this);
text->set(gas, getColor(PRESSURE_TEXT));
text->setPos(hAxis.posAtValue(sec), vAxis.posAtValue(mbar) + gasname_offset );
texts.push_back(text);
}
void DiveGasPressureItem::paint(QPainter *painter, const QStyleOptionGraphicsItem*, QWidget*)
{
if (polygon().isEmpty())
return;
QPen pen;
pen.setCosmetic(true);
pen.setWidth(2);
painter->save();
for (const std::vector<Entry> &poly: polygons) {
for (size_t i = 1; i < poly.size(); i++) {
pen.setBrush(poly[i].col);
painter->setPen(pen);
painter->drawLine(poly[i - 1].pos, poly[i].pos);
}
}
painter->restore();
}
DiveCalculatedCeiling::DiveCalculatedCeiling(const DivePlotDataModel &model, const DiveCartesianAxis &hAxis, int hColumn,
const DiveCartesianAxis &vAxis, int vColumn, double dpr) :
AbstractProfilePolygonItem(model, hAxis, hColumn, vAxis, vColumn, dpr)
{
}
void DiveCalculatedCeiling::replot(const dive *d, int from, int to, bool in_planner)
{
makePolygon(from, to);
QLinearGradient pat(0, polygon().boundingRect().top(), 0, polygon().boundingRect().bottom());
pat.setColorAt(0, getColor(CALC_CEILING_SHALLOW));
pat.setColorAt(1, getColor(CALC_CEILING_DEEP));
setPen(QPen(QBrush(Qt::NoBrush), 0));
setBrush(pat);
}
void DiveCalculatedCeiling::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget)
{
if (polygon().isEmpty())
return;
QGraphicsPolygonItem::paint(painter, option, widget);
}
DiveCalculatedTissue::DiveCalculatedTissue(const DivePlotDataModel &model, const DiveCartesianAxis &hAxis, int hColumn,
const DiveCartesianAxis &vAxis, int vColumn, double dpr) :
DiveCalculatedCeiling(model, hAxis, hColumn, vAxis, vColumn, dpr)
{
}
DiveReportedCeiling::DiveReportedCeiling(const DivePlotDataModel &model, const DiveCartesianAxis &hAxis, int hColumn,
const DiveCartesianAxis &vAxis, int vColumn, double dpr) :
AbstractProfilePolygonItem(model, hAxis, hColumn, vAxis, vColumn, dpr)
{
}
void DiveReportedCeiling::replot(const dive *, int fromIn, int toIn, bool)
{
from = fromIn;
to = toIn;
QPolygonF p;
for (int i = from; i < to; i++) {
const plot_data &entry = dataModel.data().entry[i];
if (i == from)
p.append(QPointF(hAxis.posAtValue(entry.sec), vAxis.posAtValue(0)));
if (entry.in_deco && entry.stopdepth) {
p.append(QPointF(hAxis.posAtValue(entry.sec), vAxis.posAtValue(std::min(entry.stopdepth, entry.depth))));
} else {
p.append(QPointF(hAxis.posAtValue(entry.sec), vAxis.posAtValue(0)));
}
}
setPolygon(p);
QLinearGradient pat(0, p.boundingRect().top(), 0, p.boundingRect().bottom());
// does the user want the ceiling in "surface color" or in red?
if (prefs.redceiling) {
pat.setColorAt(0, getColor(CEILING_SHALLOW));
pat.setColorAt(1, getColor(CEILING_DEEP));
} else {
pat.setColorAt(0, getColor(BACKGROUND_TRANS));
pat.setColorAt(1, getColor(BACKGROUND_TRANS));
}
setPen(QPen(QBrush(Qt::NoBrush), 0));
setBrush(pat);
}
void DiveReportedCeiling::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget)
{
if (polygon().isEmpty())
return;
QGraphicsPolygonItem::paint(painter, option, widget);
}
void PartialPressureGasItem::replot(const dive *, int fromIn, int toIn, bool)
{
from = fromIn;
to = toIn;
plot_data *entry = dataModel.data().entry + from;
QPolygonF poly;
QPolygonF alertpoly;
alertPolygons.clear();
double threshold_min = 100.0; // yes, a ridiculous high partial pressure
double threshold_max = 0.0;
if (thresholdPtrMax)
threshold_max = *thresholdPtrMax;
if (thresholdPtrMin)
threshold_min = *thresholdPtrMin;
bool inAlertFragment = false;
for (int i = from; i < to; i++, entry++) {
double value = dataModel.index(i, vDataColumn).data().toDouble();
int time = dataModel.index(i, hDataColumn).data().toInt();
QPointF point(hAxis.posAtValue(time), vAxis.posAtValue(value));
poly.push_back(point);
if (thresholdPtrMax && value >= threshold_max) {
if (inAlertFragment) {
alertPolygons.back().push_back(point);
} else {
alertpoly.clear();
alertpoly.push_back(point);
alertPolygons.append(alertpoly);
inAlertFragment = true;
}
} else if (thresholdPtrMin && value <= threshold_min) {
if (inAlertFragment) {
alertPolygons.back().push_back(point);
} else {
alertpoly.clear();
alertpoly.push_back(point);
alertPolygons.append(alertpoly);
inAlertFragment = true;
}
} else {
inAlertFragment = false;
}
}
setPolygon(poly);
/*
createPPLegend(trUtf8("pN₂"), getColor(PN2), legendPos);
*/
}
void PartialPressureGasItem::paint(QPainter *painter, const QStyleOptionGraphicsItem*, QWidget*)
{
const qreal pWidth = 0.0;
painter->save();
painter->setPen(QPen(normalColor, pWidth));
painter->drawPolyline(polygon());
QPolygonF poly;
painter->setPen(QPen(alertColor, pWidth));
Q_FOREACH (const QPolygonF &poly, alertPolygons)
painter->drawPolyline(poly);
painter->restore();
}
void PartialPressureGasItem::setThresholdSettingsKey(const double *prefPointerMin, const double *prefPointerMax)
{
thresholdPtrMin = prefPointerMin;
thresholdPtrMax = prefPointerMax;
}
PartialPressureGasItem::PartialPressureGasItem(const DivePlotDataModel &model, const DiveCartesianAxis &hAxis, int hColumn,
const DiveCartesianAxis &vAxis, int vColumn, double dpr) :
AbstractProfilePolygonItem(model, hAxis, hColumn, vAxis, vColumn, dpr),
thresholdPtrMin(NULL),
thresholdPtrMax(NULL)
{
}
void PartialPressureGasItem::setColors(const QColor &normal, const QColor &alert)
{
normalColor = normal;
alertColor = alert;
}