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GoldenCheetah/src/RideFile.cpp
Mark Liversedge e407237ac0 MainWindow Refactor Part 1 of 5 
Breaking the MainWindow 'god object' into
separate classes for Athlete and Context.

Further updates will need to;
- break MainWindow Gui elements into Toolbar and Views

- migrate from RideItem and Ridelist to ActivityCollection
  and Activity classes that are not tied into gui elements.

- introduce Application Context and AthleteCollection

Once these are done we will be in a position to decouple
most classes from mainwindow and also introduce tabbed
athletes.
2013-07-07 15:50:28 +01:00

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/*
* Copyright (c) 2007 Sean C. Rhea (srhea@srhea.net)
* 2009 Justin F. Knotzke (jknotzke@shampoo.ca)
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the Free
* Software Foundation; either version 2 of the License, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc., 51
* Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "RideFile.h"
#include "DataProcessor.h"
#include "RideEditor.h"
#include "RideMetadata.h"
#include "MetricAggregator.h"
#include "SummaryMetrics.h"
#include "Settings.h"
#include "Units.h"
#include <QtXml/QtXml>
#include <algorithm> // for std::lower_bound
#include <assert.h>
#define mark() \
{ \
addInterval(start, previous->secs + recIntSecs_, \
QString("%1").arg(interval)); \
interval = point->interval; \
start = point->secs; \
}
RideFile::RideFile(const QDateTime &startTime, double recIntSecs) :
startTime_(startTime), recIntSecs_(recIntSecs),
deviceType_("unknown"), data(NULL), weight_(0),
totalCount(0)
{
command = new RideFileCommand(this);
minPoint = new RideFilePoint();
maxPoint = new RideFilePoint();
avgPoint = new RideFilePoint();
totalPoint = new RideFilePoint();
}
RideFile::RideFile() : recIntSecs_(0.0), deviceType_("unknown"), data(NULL), weight_(0), totalCount(0)
{
command = new RideFileCommand(this);
minPoint = new RideFilePoint();
maxPoint = new RideFilePoint();
avgPoint = new RideFilePoint();
totalPoint = new RideFilePoint();
}
RideFile::~RideFile()
{
emit deleted();
foreach(RideFilePoint *point, dataPoints_)
delete point;
delete command;
//!!! if (data) delete data; // need a mechanism to notify the editor
}
QString
RideFile::seriesName(SeriesType series)
{
switch (series) {
case RideFile::secs: return QString(tr("Time"));
case RideFile::cad: return QString(tr("Cadence"));
case RideFile::hr: return QString(tr("Heartrate"));
case RideFile::km: return QString(tr("Distance"));
case RideFile::kph: return QString(tr("Speed"));
case RideFile::nm: return QString(tr("Torque"));
case RideFile::watts: return QString(tr("Power"));
case RideFile::xPower: return QString(tr("xPower"));
case RideFile::NP: return QString(tr("Normalized Power"));
case RideFile::alt: return QString(tr("Altitude"));
case RideFile::lon: return QString(tr("Longitude"));
case RideFile::lat: return QString(tr("Latitude"));
case RideFile::headwind: return QString(tr("Headwind"));
case RideFile::slope: return QString(tr("Slope"));
case RideFile::temp: return QString(tr("Temperature"));
case RideFile::lrbalance: return QString(tr("Left/Right Balance"));
case RideFile::interval: return QString(tr("Interval"));
case RideFile::vam: return QString(tr("VAM"));
case RideFile::wattsKg: return QString(tr("Watts per Kilogram"));
default: return QString(tr("Unknown"));
}
}
QString
RideFile::unitName(SeriesType series, MainWindow *main)
{
bool useMetricUnits = main->athlete->useMetricUnits;
switch (series) {
case RideFile::secs: return QString(tr("seconds"));
case RideFile::cad: return QString(tr("rpm"));
case RideFile::hr: return QString(tr("bpm"));
case RideFile::km: return QString(useMetricUnits ? tr("km") : tr("miles"));
case RideFile::kph: return QString(useMetricUnits ? tr("kph") : tr("mph"));
case RideFile::nm: return QString(tr("N"));
case RideFile::watts: return QString(tr("watts"));
case RideFile::xPower: return QString(tr("watts"));
case RideFile::NP: return QString(tr("watts"));
case RideFile::alt: return QString(useMetricUnits ? tr("metres") : tr("feet"));
case RideFile::lon: return QString(tr("lon"));
case RideFile::lat: return QString(tr("lat"));
case RideFile::headwind: return QString(tr("kph"));
case RideFile::slope: return QString(tr("%"));
case RideFile::temp: return QString(tr("°C"));
case RideFile::lrbalance: return QString(tr("%"));
case RideFile::interval: return QString(tr("Interval"));
case RideFile::vam: return QString(tr("meters per hour"));
case RideFile::wattsKg: return QString(useMetricUnits ? tr("watts/kg") : tr("watts/lb"));
default: return QString(tr("Unknown"));
}
}
void
RideFile::clearIntervals()
{
intervals_.clear();
}
void
RideFile::fillInIntervals()
{
if (dataPoints_.empty())
return;
intervals_.clear();
double start = 0.0;
int interval = dataPoints().first()->interval;
const RideFilePoint *point=NULL, *previous=NULL;
foreach (point, dataPoints()) {
if (point->interval != interval)
mark();
previous = point;
}
if (interval > 0)
mark();
}
struct ComparePointKm {
bool operator()(const RideFilePoint *p1, const RideFilePoint *p2) {
return p1->km < p2->km;
}
};
struct ComparePointSecs {
bool operator()(const RideFilePoint *p1, const RideFilePoint *p2) {
return p1->secs < p2->secs;
}
};
int
RideFile::intervalBegin(const RideFileInterval &interval) const
{
RideFilePoint p;
p.secs = interval.start;
QVector<RideFilePoint*>::const_iterator i = std::lower_bound(
dataPoints_.begin(), dataPoints_.end(), &p, ComparePointSecs());
if (i == dataPoints_.end())
return dataPoints_.size()-1;
int offset = i - dataPoints_.begin();
if (offset > dataPoints_.size()) return dataPoints_.size()-1;
else if (offset <0) return 0;
else return offset;
}
double
RideFile::timeToDistance(double secs) const
{
RideFilePoint p;
p.secs = secs;
// Check we have some data and the secs is in bounds
if (dataPoints_.isEmpty()) return 0;
if (secs < dataPoints_.first()->secs) return dataPoints_.first()->km;
if (secs > dataPoints_.last()->secs) return dataPoints_.last()->km;
QVector<RideFilePoint*>::const_iterator i = std::lower_bound(dataPoints_.begin(), dataPoints_.end(), &p, ComparePointSecs());
return (*i)->km;
}
int
RideFile::timeIndex(double secs) const
{
// return index offset for specified time
RideFilePoint p;
p.secs = secs;
QVector<RideFilePoint*>::const_iterator i = std::lower_bound(
dataPoints_.begin(), dataPoints_.end(), &p, ComparePointSecs());
if (i == dataPoints_.end())
return dataPoints_.size()-1;
return i - dataPoints_.begin();
}
int
RideFile::distanceIndex(double km) const
{
// return index offset for specified distance in km
RideFilePoint p;
p.km = km;
QVector<RideFilePoint*>::const_iterator i = std::lower_bound(
dataPoints_.begin(), dataPoints_.end(), &p, ComparePointKm());
if (i == dataPoints_.end())
return dataPoints_.size()-1;
return i - dataPoints_.begin();
}
RideFileFactory *RideFileFactory::instance_;
RideFileFactory &RideFileFactory::instance()
{
if (!instance_)
instance_ = new RideFileFactory();
return *instance_;
}
int RideFileFactory::registerReader(const QString &suffix,
const QString &description,
RideFileReader *reader)
{
assert(!readFuncs_.contains(suffix));
readFuncs_.insert(suffix, reader);
descriptions_.insert(suffix, description);
return 1;
}
QStringList RideFileFactory::suffixes() const
{
return readFuncs_.keys();
}
QStringList RideFileFactory::writeSuffixes() const
{
QStringList returning;
QMapIterator<QString,RideFileReader*> i(readFuncs_);
while (i.hasNext()) {
i.next();
if (i.value()->hasWrite()) returning << i.key();
}
return returning;
}
QRegExp
RideFileFactory::rideFileRegExp() const
{
QStringList suffixList = RideFileFactory::instance().suffixes();
QString s("^(\\d\\d\\d\\d)_(\\d\\d)_(\\d\\d)_(\\d\\d)_(\\d\\d)_(\\d\\d)\\.(%1)$");
return QRegExp(s.arg(suffixList.join("|")), Qt::CaseInsensitive);
}
bool
RideFileFactory::writeRideFile(MainWindow *main, const RideFile *ride, QFile &file, QString format) const
{
// get the ride file writer for this format
RideFileReader *reader = readFuncs_.value(format.toLower());
// write away
if (!reader) return false;
else return reader->writeRideFile(main, ride, file);
}
RideFile *RideFileFactory::openRideFile(MainWindow *main, QFile &file,
QStringList &errors, QList<RideFile*> *rideList) const
{
QString suffix = file.fileName();
int dot = suffix.lastIndexOf(".");
assert(dot >= 0);
suffix.remove(0, dot + 1);
RideFileReader *reader = readFuncs_.value(suffix.toLower());
assert(reader);
//qDebug()<<"open"<<file.fileName()<<"start:"<<QDateTime::currentDateTime().toString("hh:mm:ss.zzz");
RideFile *result = reader->openRideFile(file, errors, rideList);
//qDebug()<<"open"<<file.fileName()<<"end:"<<QDateTime::currentDateTime().toString("hh:mm:ss.zzz");
// NULL returned to indicate openRide failed
if (result) {
result->mainwindow = main;
if (result->intervals().empty()) result->fillInIntervals();
// override the file ride time with that set from the filename
// but only if it matches the GC format
QFileInfo fileInfo(file.fileName());
QRegExp rx ("^((\\d\\d\\d\\d)_(\\d\\d)_(\\d\\d)_(\\d\\d)_(\\d\\d)_(\\d\\d))\\.(.+)$");
if (rx.exactMatch(fileInfo.fileName())) {
QDate date(rx.cap(2).toInt(), rx.cap(3).toInt(),rx.cap(4).toInt());
QTime time(rx.cap(5).toInt(), rx.cap(6).toInt(),rx.cap(7).toInt());
QDateTime datetime(date, time);
result->setStartTime(datetime);
}
// legacy support for .notes file
QString notesFileName = fileInfo.absolutePath() + '/' + fileInfo.baseName() + ".notes";
QFile notesFile(notesFileName);
// read it in if it exists and "Notes" is not already set
if (result->getTag("Notes", "") == "" && notesFile.exists() &&
notesFile.open(QFile::ReadOnly | QFile::Text)) {
QTextStream in(&notesFile);
result->setTag("Notes", in.readAll());
notesFile.close();
}
// Construct the summary text used on the calendar
QString calendarText;
foreach (FieldDefinition field, main->athlete->rideMetadata()->getFields()) {
if (field.diary == true && result->getTag(field.name, "") != "") {
calendarText += QString("%1\n")
.arg(result->getTag(field.name, ""));
}
}
result->setTag("Calendar Text", calendarText);
// set other "special" fields
result->setTag("Filename", QFileInfo(file.fileName()).fileName());
result->setTag("Device", result->deviceType());
result->setTag("File Format", result->fileFormat());
result->setTag("Athlete", QFileInfo(file).dir().dirName());
result->setTag("Year", result->startTime().toString("yyyy"));
result->setTag("Month", result->startTime().toString("MMMM"));
result->setTag("Weekday", result->startTime().toString("ddd"));
DataProcessorFactory::instance().autoProcess(result);
// what data is present - after processor in case 'derived' or adjusted
QString flags;
if (result->areDataPresent()->secs) flags += 'T'; // time
else flags += '-';
if (result->areDataPresent()->km) flags += 'D'; // distance
else flags += '-';
if (result->areDataPresent()->kph) flags += 'S'; // speed
else flags += '-';
if (result->areDataPresent()->watts) flags += 'P'; // Power
else flags += '-';
if (result->areDataPresent()->hr) flags += 'H'; // Heartrate
else flags += '-';
if (result->areDataPresent()->cad) flags += 'C'; // cadence
else flags += '-';
if (result->areDataPresent()->nm) flags += 'N'; // Torque
else flags += '-';
if (result->areDataPresent()->alt) flags += 'A'; // Altitude
else flags += '-';
if (result->areDataPresent()->lat ||
result->areDataPresent()->lon ) flags += 'G'; // GPS
else flags += '-';
if (result->areDataPresent()->headwind) flags += 'W'; // Windspeed
else flags += '-';
if (result->areDataPresent()->temp) flags += 'E'; // Temperature
else flags += '-';
if (result->areDataPresent()->lrbalance) flags += 'B'; // Left/Right Balance, TODO Walibu, unsure about this flag? 'B' ok?
else flags += '-';
result->setTag("Data", flags);
}
return result;
}
QStringList RideFileFactory::listRideFiles(const QDir &dir) const
{
QStringList filters;
QMapIterator<QString,RideFileReader*> i(readFuncs_);
while (i.hasNext()) {
i.next();
filters << ("*." + i.key());
}
// This will read the user preferences and change the file list order as necessary:
QFlags<QDir::Filter> spec = QDir::Files;
#ifdef Q_OS_WIN32
spec |= QDir::Hidden;
#endif
return dir.entryList(filters, spec, QDir::Name);
}
void RideFile::updateMin(RideFilePoint* point)
{
// MIN
if (point->secs<minPoint->secs)
minPoint->secs = point->secs;
if (minPoint->cad == 0 || point->cad<minPoint->cad)
minPoint->cad = point->cad;
if (minPoint->hr == 0 || point->hr<minPoint->hr)
minPoint->hr = point->hr;
if (minPoint->km == 0 || point->km<minPoint->km)
minPoint->km = point->km;
if (minPoint->kph == 0 || point->kph<minPoint->kph)
minPoint->kph = point->kph;
if (minPoint->nm == 0 || point->nm<minPoint->nm)
minPoint->nm = point->nm;
if (minPoint->watts == 0 || point->watts<minPoint->watts)
minPoint->watts = point->watts;
if (point->alt<minPoint->alt)
minPoint->alt = point->alt;
if (point->lon<minPoint->lon)
minPoint->lon = point->lon;
if (point->lat<minPoint->lat)
minPoint->lat = point->lat;
if (point->headwind<minPoint->headwind)
minPoint->headwind = point->headwind;
if (point->slope<minPoint->slope)
minPoint->slope = point->slope;
if (point->temp<minPoint->temp)
minPoint->temp = point->temp;
if (minPoint->lrbalance == 0 || point->lrbalance<minPoint->lrbalance)
minPoint->lrbalance = point->lrbalance;
}
void RideFile::updateMax(RideFilePoint* point)
{
// MAX
if (point->secs>maxPoint->secs)
maxPoint->secs = point->secs;
if (point->cad>maxPoint->cad)
maxPoint->cad = point->cad;
if (point->hr>maxPoint->hr)
maxPoint->hr = point->hr;
if (point->km>maxPoint->km)
maxPoint->km = point->km;
if (point->kph>maxPoint->kph)
maxPoint->kph = point->kph;
if (point->nm>maxPoint->nm)
maxPoint->nm = point->nm;
if (point->watts>maxPoint->watts)
maxPoint->watts = point->watts;
if (point->alt>maxPoint->alt)
maxPoint->alt = point->alt;
if (point->lon>maxPoint->lon)
maxPoint->lon = point->lon;
if (point->lat>maxPoint->lat)
maxPoint->lat = point->lat;
if (point->headwind>maxPoint->headwind)
maxPoint->headwind = point->headwind;
if (point->slope>maxPoint->slope)
maxPoint->slope = point->slope;
if (point->temp>maxPoint->temp)
maxPoint->temp = point->temp;
if (point->lrbalance>maxPoint->lrbalance)
maxPoint->lrbalance = point->lrbalance;
}
void RideFile::updateAvg(RideFilePoint* point)
{
// AVG
totalPoint->secs += point->secs;
totalPoint->cad += point->cad;
totalPoint->hr += point->hr;
totalPoint->km += point->km;
totalPoint->kph += point->kph;
totalPoint->nm += point->nm;
totalPoint->watts += point->watts;
totalPoint->alt += point->alt;
totalPoint->lon += point->lon;
totalPoint->lat += point->lat;
totalPoint->headwind += point->headwind;
totalPoint->slope += point->slope;
totalPoint->temp += point->temp;
totalPoint->lrbalance += point->lrbalance;
++totalCount;
// todo : division only for last after last point
avgPoint->secs = totalPoint->secs/totalCount;
avgPoint->cad = totalPoint->cad/totalCount;
avgPoint->hr = totalPoint->hr/totalCount;
avgPoint->km = totalPoint->km/totalCount;
avgPoint->kph = totalPoint->kph/totalCount;
avgPoint->nm = totalPoint->nm/totalCount;
avgPoint->watts = totalPoint->watts/totalCount;
avgPoint->alt = totalPoint->alt/totalCount;
avgPoint->lon = totalPoint->lon/totalCount;
avgPoint->lat = totalPoint->lat/totalCount;
avgPoint->headwind = totalPoint->headwind/totalCount;
avgPoint->slope = totalPoint->slope/totalCount;
avgPoint->temp = totalPoint->temp/totalCount;
avgPoint->lrbalance = totalPoint->lrbalance/totalCount;
}
void RideFile::appendPoint(double secs, double cad, double hr, double km,
double kph, double nm, double watts, double alt,
double lon, double lat, double headwind,
double slope, double temp, double lrbalance, int interval)
{
// negative values are not good, make them zero
// although alt, lat, lon, headwind, slope and temperature can be negative of course!
if (!isfinite(secs) || secs<0) secs=0;
if (!isfinite(cad) || cad<0) cad=0;
if (!isfinite(hr) || hr<0) hr=0;
if (!isfinite(km) || km<0) km=0;
if (!isfinite(kph) || kph<0) kph=0;
if (!isfinite(nm) || nm<0) nm=0;
if (!isfinite(watts) || watts<0) watts=0;
if (!isfinite(interval) || interval<0) interval=0;
RideFilePoint* point = new RideFilePoint(secs, cad, hr, km, kph,
nm, watts, alt, lon, lat, headwind, slope, temp, lrbalance, interval);
dataPoints_.append(point);
dataPresent.secs |= (secs != 0);
dataPresent.cad |= (cad != 0);
dataPresent.hr |= (hr != 0);
dataPresent.km |= (km != 0);
dataPresent.kph |= (kph != 0);
dataPresent.nm |= (nm != 0);
dataPresent.watts |= (watts != 0);
dataPresent.alt |= (alt != 0);
dataPresent.lon |= (lon != 0);
dataPresent.lat |= (lat != 0);
dataPresent.headwind |= (headwind != 0);
dataPresent.slope |= (slope != 0);
dataPresent.temp |= (temp != noTemp);
dataPresent.lrbalance|= (lrbalance != 0);
dataPresent.interval |= (interval != 0);
updateMin(point);
updateMax(point);
updateAvg(point);
}
void RideFile::appendPoint(const RideFilePoint &point)
{
dataPoints_.append(new RideFilePoint(point.secs,point.cad,point.hr,point.km,point.kph,point.nm,point.watts,point.alt,point.lon,point.lat,
point.headwind, point.slope, point.temp, point.lrbalance, point.interval));
}
void
RideFile::setDataPresent(SeriesType series, bool value)
{
switch (series) {
case secs : dataPresent.secs = value; break;
case cad : dataPresent.cad = value; break;
case hr : dataPresent.hr = value; break;
case km : dataPresent.km = value; break;
case kph : dataPresent.kph = value; break;
case nm : dataPresent.nm = value; break;
case watts : dataPresent.watts = value; break;
case alt : dataPresent.alt = value; break;
case lon : dataPresent.lon = value; break;
case lat : dataPresent.lat = value; break;
case headwind : dataPresent.headwind = value; break;
case slope : dataPresent.slope = value; break;
case temp : dataPresent.temp = value; break;
case lrbalance : dataPresent.lrbalance = value; break;
case interval : dataPresent.interval = value; break;
default:
case none : break;
}
}
bool
RideFile::isDataPresent(SeriesType series)
{
switch (series) {
case secs : return dataPresent.secs; break;
case cad : return dataPresent.cad; break;
case hr : return dataPresent.hr; break;
case km : return dataPresent.km; break;
case kph : return dataPresent.kph; break;
case nm : return dataPresent.nm; break;
case watts : return dataPresent.watts; break;
case alt : return dataPresent.alt; break;
case lon : return dataPresent.lon; break;
case lat : return dataPresent.lat; break;
case headwind : return dataPresent.headwind; break;
case slope : return dataPresent.slope; break;
case temp : return dataPresent.temp; break;
case lrbalance : return dataPresent.lrbalance; break;
case interval : return dataPresent.interval; break;
default:
case none : return false; break;
}
return false;
}
void
RideFile::setPointValue(int index, SeriesType series, double value)
{
switch (series) {
case secs : dataPoints_[index]->secs = value; break;
case cad : dataPoints_[index]->cad = value; break;
case hr : dataPoints_[index]->hr = value; break;
case km : dataPoints_[index]->km = value; break;
case kph : dataPoints_[index]->kph = value; break;
case nm : dataPoints_[index]->nm = value; break;
case watts : dataPoints_[index]->watts = value; break;
case alt : dataPoints_[index]->alt = value; break;
case lon : dataPoints_[index]->lon = value; break;
case lat : dataPoints_[index]->lat = value; break;
case headwind : dataPoints_[index]->headwind = value; break;
case slope : dataPoints_[index]->slope = value; break;
case temp : dataPoints_[index]->temp = value; break;
case lrbalance : dataPoints_[index]->lrbalance = value; break;
case interval : dataPoints_[index]->interval = value; break;
default:
case none : break;
}
}
double
RideFilePoint::value(RideFile::SeriesType series) const
{
switch (series) {
case RideFile::secs : return secs; break;
case RideFile::cad : return cad; break;
case RideFile::hr : return hr; break;
case RideFile::km : return km; break;
case RideFile::kph : return kph; break;
case RideFile::nm : return nm; break;
case RideFile::watts : return watts; break;
case RideFile::alt : return alt; break;
case RideFile::lon : return lon; break;
case RideFile::lat : return lat; break;
case RideFile::headwind : return headwind; break;
case RideFile::slope : return slope; break;
case RideFile::temp : return temp; break;
case RideFile::lrbalance : return lrbalance; break;
case RideFile::interval : return interval; break;
default:
case RideFile::none : break;
}
return 0.0;
}
double
RideFile::getPointValue(int index, SeriesType series) const
{
return dataPoints_[index]->value(series);
}
QVariant
RideFile::getPointFromValue(double value, SeriesType series) const
{
if (series==RideFile::temp && value == RideFile::noTemp)
return "";
else if (series==RideFile::wattsKg)
return "";
return value;
}
QVariant
RideFile::getPoint(int index, SeriesType series) const
{
return getPointFromValue(getPointValue(index, series), series);
}
QVariant
RideFile::getMinPoint(SeriesType series) const
{
return getPointFromValue(minPoint->value(series), series);
}
QVariant
RideFile::getAvgPoint(SeriesType series) const
{
return getPointFromValue(avgPoint->value(series), series);
}
QVariant
RideFile::getMaxPoint(SeriesType series) const
{
return getPointFromValue(maxPoint->value(series), series);
}
int
RideFile::decimalsFor(SeriesType series)
{
switch (series) {
case secs : return 3; break;
case cad : return 0; break;
case hr : return 0; break;
case km : return 6; break;
case kph : return 4; break;
case nm : return 2; break;
case watts : return 0; break;
case xPower : return 0; break;
case NP : return 0; break;
case alt : return 3; break;
case lon : return 6; break;
case lat : return 6; break;
case headwind : return 4; break;
case slope : return 1; break;
case temp : return 1; break;
case interval : return 0; break;
case vam : return 0; break;
case wattsKg : return 2; break;
case lrbalance : return 1; break;
case none : break;
}
return 2; // default
}
double
RideFile::maximumFor(SeriesType series)
{
switch (series) {
case secs : return 999999; break;
case cad : return 255; break;
case hr : return 255; break;
case km : return 999999; break;
case kph : return 150; break;
case nm : return 100; break;
case watts : return 2500; break;
case NP : return 2500; break;
case xPower : return 2500; break;
case alt : return 8850; break; // mt everest is highest point above sea level
case lon : return 180; break;
case lat : return 90; break;
case headwind : return 999; break;
case slope : return 100; break;
case temp : return 100; break;
case interval : return 999; break;
case vam : return 9999; break;
case wattsKg : return 50; break;
case lrbalance : return 100; break;
case none : break;
}
return 9999; // default
}
double
RideFile::minimumFor(SeriesType series)
{
switch (series) {
case secs : return 0; break;
case cad : return 0; break;
case hr : return 0; break;
case km : return 0; break;
case kph : return 0; break;
case nm : return 0; break;
case watts : return 0; break;
case xPower : return 0; break;
case NP : return 0; break;
case alt : return -413; break; // the Red Sea is lowest land point on earth
case lon : return -180; break;
case lat : return -90; break;
case headwind : return -999; break;
case slope : return -100; break;
case temp : return -100; break;
case interval : return 0; break;
case vam : return 0; break;
case wattsKg : return 0; break;
case lrbalance : return 0; break;
case none : break;
}
return 0; // default
}
void
RideFile::deletePoint(int index)
{
delete dataPoints_[index];
dataPoints_.remove(index);
}
void
RideFile::deletePoints(int index, int count)
{
for(int i=index; i<(index+count); i++) delete dataPoints_[i];
dataPoints_.remove(index, count);
}
void
RideFile::insertPoint(int index, RideFilePoint *point)
{
dataPoints_.insert(index, point);
}
void
RideFile::appendPoints(QVector <struct RideFilePoint *> newRows)
{
dataPoints_ += newRows;
}
void
RideFile::emitSaved()
{
weight_ = 0;
emit saved();
}
void
RideFile::emitReverted()
{
weight_ = 0;
emit reverted();
}
void
RideFile::emitModified()
{
weight_ = 0;
emit modified();
}
double
RideFile::getWeight()
{
if (weight_) return weight_; // cached value
// ride
if ((weight_ = getTag("Weight", "0.0").toDouble()) > 0) {
return weight_;
}
// withings?
QList<SummaryMetrics> measures = mainwindow->athlete->metricDB->getAllMeasuresFor(QDateTime::fromString("Jan 1 00:00:00 1900"), startTime());
int i = measures.count()-1;
if (i) {
while (i>=0) {
if ((weight_ = measures[i].getText("Weight", "0.0").toDouble()) > 0) {
return weight_;
}
i--;
}
}
// global options
weight_ = appsettings->cvalue(mainwindow->athlete->cyclist, GC_WEIGHT, "75.0").toString().toDouble(); // default to 75kg
// if set to zero in global options then override it.
// it must not be zero!!!
if (weight_ <= 0.00) weight_ = 75.00;
return weight_;
}
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