mirror of
https://github.com/GoldenCheetah/GoldenCheetah.git
synced 2026-02-14 00:28:42 +00:00
684 lines
22 KiB
C++
684 lines
22 KiB
C++
/*
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* Copyright (c) 2010 Mark Liversedge (liversedge@gmail.com)
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* 2015 Alejandro Martinez (amtriathlon@gmail.com)
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms of the GNU General Public License as published by the Free
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* Software Foundation; either version 2 of the License, or (at your option)
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* any later version.
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*
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* This program is distributed in the hope that it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc., 51
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* Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#include "RideMetric.h"
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#include "BestIntervalDialog.h"
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#include "RideItem.h"
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#include "Settings.h"
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#include "Units.h"
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#include <cmath>
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#include <QApplication>
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class PeakPace : public RideMetric {
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Q_DECLARE_TR_FUNCTIONS(PeakPace)
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double pace;
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double secs;
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public:
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PeakPace() : pace(0.0), secs(0.0)
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{
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setType(RideMetric::Low);
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}
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// Pace ordering is reversed
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bool isLowerBetter() const { return true; }
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// Overrides to use Pace units setting
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QString units(bool) const {
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bool metricRunPace = appsettings->value(NULL, GC_PACE, true).toBool();
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return RideMetric::units(metricRunPace);
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}
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double value(bool) const {
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bool metricRunPace = appsettings->value(NULL, GC_PACE, true).toBool();
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return RideMetric::value(metricRunPace);
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}
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QString toString(bool metric) const {
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return time_to_string(value(metric)*60);
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}
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void setSecs(double secs) { this->secs=secs; }
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void compute(const RideFile *ride, const Zones *, int,
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const HrZones *, int,
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const QHash<QString,RideMetric*> &,
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const Context *) {
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if (ride->isRun() && !ride->dataPoints().isEmpty()) {
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QList<BestIntervalDialog::BestInterval> results;
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BestIntervalDialog::findBestsKPH(ride, secs, 1, results);
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if (results.count() > 0 && results.first().avg > 0 && results.first().avg < 36) pace = 60.0 / results.first().avg;
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else pace = 0.0;
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} else {
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pace = 0.0;
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}
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setValue(pace);
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}
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bool isRelevantForRide(const RideItem *ride) const { return ride->isRun; }
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RideMetric *clone() const { return new PeakPace(*this); }
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};
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class PeakPace10s : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace10s)
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public:
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PeakPace10s()
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{
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setSecs(10);
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setSymbol("10s_critical_pace");
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setInternalName("10 sec Peak Pace");
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}
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void initialize () {
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setName(tr("10 sec Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace10s(*this); }
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};
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class PeakPace15s : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace15s)
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public:
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PeakPace15s()
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{
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setSecs(15);
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setSymbol("15s_critical_pace");
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setInternalName("15 sec Peak Pace");
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}
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void initialize () {
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setName(tr("15 sec Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace15s(*this); }
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};
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class PeakPace20s : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace20s)
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public:
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PeakPace20s()
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{
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setSecs(20);
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setSymbol("20s_critical_pace");
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setInternalName("20 sec Peak Pace");
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}
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void initialize () {
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setName(tr("20 sec Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace20s(*this); }
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};
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class PeakPace30s : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace30s)
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public:
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PeakPace30s()
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{
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setSecs(30);
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setSymbol("30s_critical_pace");
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setInternalName("30 sec Peak Pace");
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}
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void initialize () {
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setName(tr("30 sec Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace30s(*this); }
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};
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class PeakPace1m : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace1m)
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public:
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PeakPace1m()
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{
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setSecs(60);
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setSymbol("1m_critical_pace");
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setInternalName("1 min Peak Pace");
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}
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void initialize () {
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setName(tr("1 min Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace1m(*this); }
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};
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class PeakPace2m : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace2m)
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public:
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PeakPace2m()
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{
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setSecs(120);
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setSymbol("2m_critical_pace");
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setInternalName("2 min Peak Pace");
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}
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void initialize () {
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setName(tr("2 min Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace2m(*this); }
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};
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class PeakPace3m : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace3m)
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public:
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PeakPace3m()
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{
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setSecs(180);
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setSymbol("3m_critical_pace");
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setInternalName("3 min Peak Pace");
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}
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void initialize () {
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setName(tr("3 min Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace3m(*this); }
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};
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class PeakPace5m : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace5m)
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public:
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PeakPace5m()
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{
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setSecs(300);
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setSymbol("5m_critical_pace");
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setInternalName("5 min Peak Pace");
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}
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void initialize () {
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setName(tr("5 min Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace5m(*this); }
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};
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class PeakPace8m : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace8m)
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public:
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PeakPace8m()
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{
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setSecs(8*60);
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setSymbol("8m_critical_pace");
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setInternalName("8 min Peak Pace");
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}
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void initialize () {
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setName(tr("8 min Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace8m(*this); }
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};
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class PeakPace10m : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace10m)
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public:
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PeakPace10m()
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{
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setSecs(600);
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setSymbol("10m_critical_pace");
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setInternalName("10 min Peak Pace");
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}
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void initialize () {
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setName(tr("10 min Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace10m(*this); }
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};
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class PeakPace20m : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace20m)
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public:
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PeakPace20m()
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{
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setSecs(1200);
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setSymbol("20m_critical_pace");
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setInternalName("20 min Peak Pace");
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}
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void initialize () {
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setName(tr("20 min Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace20m(*this); }
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};
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class PeakPace30m : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace30m)
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public:
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PeakPace30m()
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{
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setSecs(1800);
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setSymbol("30m_critical_pace");
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setInternalName("30 min Peak Pace");
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}
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void initialize () {
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setName(tr("30 min Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace30m(*this); }
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};
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class PeakPace60m : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace60m)
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public:
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PeakPace60m()
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{
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setSecs(3600);
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setSymbol("60m_critical_pace");
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setInternalName("60 min Peak Pace");
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}
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void initialize () {
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setName(tr("60 min Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace60m(*this); }
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};
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class PeakPace90m : public PeakPace {
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Q_DECLARE_TR_FUNCTIONS(PeakPace90m)
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public:
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PeakPace90m()
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{
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setSecs(90*60);
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setSymbol("90m_critical_pace");
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setInternalName("90 min Peak Pace");
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}
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void initialize () {
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setName(tr("90 min Peak Pace"));
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setMetricUnits(tr("min/km"));
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setImperialUnits(tr("min/mile"));
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setPrecision(1);
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setConversion(KM_PER_MILE);
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}
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RideMetric *clone() const { return new PeakPace90m(*this); }
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};
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class PeakPaceSwim : public RideMetric {
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Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim)
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double pace;
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double secs;
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public:
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PeakPaceSwim() : pace(0.0), secs(0.0)
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{
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setType(RideMetric::Low);
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}
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// Swim Pace ordering is reversed
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bool isLowerBetter() const { return true; }
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// Overrides to use Swim Pace units setting
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QString units(bool) const {
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bool metricSwimPace = appsettings->value(NULL, GC_SWIMPACE, true).toBool();
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return RideMetric::units(metricSwimPace);
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}
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double value(bool) const {
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bool metricSwimPace = appsettings->value(NULL, GC_SWIMPACE, true).toBool();
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return RideMetric::value(metricSwimPace);
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}
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QString toString(bool metric) const {
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return time_to_string(value(metric)*60);
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}
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void setSecs(double secs) { this->secs=secs; }
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void compute(const RideFile *ride, const Zones *, int,
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const HrZones *, int,
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const QHash<QString,RideMetric*> &,
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const Context *) {
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if (ride->isSwim() && !ride->dataPoints().isEmpty()) {
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QList<BestIntervalDialog::BestInterval> results;
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BestIntervalDialog::findBestsKPH(ride, secs, 1, results);
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if (results.count() > 0 && results.first().avg > 0 && results.first().avg < 9) pace = 6.0 / results.first().avg;
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else pace = 0.0;
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} else {
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pace = 0.0;
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}
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setValue(pace);
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}
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bool isRelevantForRide(const RideItem *ride) const { return ride->isSwim; }
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RideMetric *clone() const { return new PeakPaceSwim(*this); }
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};
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class PeakPaceSwim10s : public PeakPaceSwim {
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Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim10s)
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public:
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PeakPaceSwim10s()
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{
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setSecs(10);
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setSymbol("10s_critical_pace_swim");
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setInternalName("10 sec Peak Pace Swim");
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}
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void initialize () {
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setName(tr("10 sec Peak Pace Swim"));
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setMetricUnits(tr("min/100m"));
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setImperialUnits(tr("min/100yd"));
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setPrecision(1);
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setConversion(METERS_PER_YARD);
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}
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RideMetric *clone() const { return new PeakPaceSwim10s(*this); }
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};
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class PeakPaceSwim15s : public PeakPaceSwim {
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Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim15s)
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public:
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PeakPaceSwim15s()
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{
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setSecs(15);
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setSymbol("15s_critical_pace_swim");
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setInternalName("15 sec Peak Pace Swim");
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}
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void initialize () {
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setName(tr("15 sec Peak Pace Swim"));
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setMetricUnits(tr("min/100m"));
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setImperialUnits(tr("min/100yd"));
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setPrecision(1);
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setConversion(METERS_PER_YARD);
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}
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RideMetric *clone() const { return new PeakPaceSwim15s(*this); }
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};
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class PeakPaceSwim20s : public PeakPaceSwim {
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Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim20s)
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public:
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PeakPaceSwim20s()
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{
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setSecs(20);
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setSymbol("20s_critical_pace_swim");
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setInternalName("20 sec Peak Pace Swim");
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}
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void initialize () {
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setName(tr("20 sec Peak Pace Swim"));
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setMetricUnits(tr("min/100m"));
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setImperialUnits(tr("min/100yd"));
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setPrecision(1);
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setConversion(METERS_PER_YARD);
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}
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RideMetric *clone() const { return new PeakPaceSwim20s(*this); }
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};
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class PeakPaceSwim30s : public PeakPaceSwim {
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Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim30s)
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public:
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PeakPaceSwim30s()
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{
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setSecs(30);
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setSymbol("30s_critical_pace_swim");
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setInternalName("30 sec Peak Pace Swim");
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}
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void initialize () {
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setName(tr("30 sec Peak Pace Swim"));
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setMetricUnits(tr("min/100m"));
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setImperialUnits(tr("min/100yd"));
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setPrecision(1);
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setConversion(METERS_PER_YARD);
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}
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RideMetric *clone() const { return new PeakPaceSwim30s(*this); }
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};
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class PeakPaceSwim1m : public PeakPaceSwim {
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Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim1m)
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public:
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PeakPaceSwim1m()
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{
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setSecs(60);
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setSymbol("1m_critical_pace_swim");
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setInternalName("1 min Peak Pace Swim");
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}
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void initialize () {
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setName(tr("1 min Peak Pace Swim"));
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setMetricUnits(tr("min/100m"));
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setImperialUnits(tr("min/100yd"));
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setPrecision(1);
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setConversion(METERS_PER_YARD);
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}
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RideMetric *clone() const { return new PeakPaceSwim1m(*this); }
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};
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class PeakPaceSwim2m : public PeakPaceSwim {
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Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim2m)
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public:
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PeakPaceSwim2m()
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{
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setSecs(120);
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setSymbol("2m_critical_pace_swim");
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setInternalName("2 min Peak Pace Swim");
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}
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void initialize () {
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setName(tr("2 min Peak Pace Swim"));
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setMetricUnits(tr("min/100m"));
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setImperialUnits(tr("min/100yd"));
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setPrecision(1);
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setConversion(METERS_PER_YARD);
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}
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RideMetric *clone() const { return new PeakPaceSwim2m(*this); }
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};
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class PeakPaceSwim3m : public PeakPaceSwim {
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Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim3m)
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public:
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PeakPaceSwim3m()
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{
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setSecs(180);
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setSymbol("3m_critical_pace_swim");
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setInternalName("3 min Peak Pace Swim");
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}
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void initialize () {
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setName(tr("3 min Peak Pace Swim"));
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setMetricUnits(tr("min/100m"));
|
|
setImperialUnits(tr("min/100yd"));
|
|
setPrecision(1);
|
|
setConversion(METERS_PER_YARD);
|
|
}
|
|
RideMetric *clone() const { return new PeakPaceSwim3m(*this); }
|
|
};
|
|
|
|
class PeakPaceSwim5m : public PeakPaceSwim {
|
|
Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim5m)
|
|
public:
|
|
PeakPaceSwim5m()
|
|
{
|
|
setSecs(300);
|
|
setSymbol("5m_critical_pace_swim");
|
|
setInternalName("5 min Peak Pace Swim");
|
|
}
|
|
void initialize () {
|
|
setName(tr("5 min Peak Pace Swim"));
|
|
setMetricUnits(tr("min/100m"));
|
|
setImperialUnits(tr("min/100yd"));
|
|
setPrecision(1);
|
|
setConversion(METERS_PER_YARD);
|
|
}
|
|
RideMetric *clone() const { return new PeakPaceSwim5m(*this); }
|
|
};
|
|
|
|
class PeakPaceSwim8m : public PeakPaceSwim {
|
|
Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim8m)
|
|
public:
|
|
PeakPaceSwim8m()
|
|
{
|
|
setSecs(8*60);
|
|
setSymbol("8m_critical_pace_swim");
|
|
setInternalName("8 min Peak Pace Swim");
|
|
}
|
|
void initialize () {
|
|
setName(tr("8 min Peak Pace Swim"));
|
|
setMetricUnits(tr("min/100m"));
|
|
setImperialUnits(tr("min/100yd"));
|
|
setPrecision(1);
|
|
setConversion(METERS_PER_YARD);
|
|
}
|
|
RideMetric *clone() const { return new PeakPaceSwim8m(*this); }
|
|
};
|
|
|
|
class PeakPaceSwim10m : public PeakPaceSwim {
|
|
Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim10m)
|
|
public:
|
|
PeakPaceSwim10m()
|
|
{
|
|
setSecs(600);
|
|
setSymbol("10m_critical_pace_swim");
|
|
setInternalName("10 min Peak Pace Swim");
|
|
}
|
|
void initialize () {
|
|
setName(tr("10 min Peak Pace Swim"));
|
|
setMetricUnits(tr("min/100m"));
|
|
setImperialUnits(tr("min/100yd"));
|
|
setPrecision(1);
|
|
setConversion(METERS_PER_YARD);
|
|
}
|
|
RideMetric *clone() const { return new PeakPaceSwim10m(*this); }
|
|
};
|
|
|
|
class PeakPaceSwim20m : public PeakPaceSwim {
|
|
Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim20m)
|
|
public:
|
|
PeakPaceSwim20m()
|
|
{
|
|
setSecs(1200);
|
|
setSymbol("20m_critical_pace_swim");
|
|
setInternalName("20 min Peak Pace Swim");
|
|
}
|
|
void initialize () {
|
|
setName(tr("20 min Peak Pace Swim"));
|
|
setMetricUnits(tr("min/100m"));
|
|
setImperialUnits(tr("min/100yd"));
|
|
setPrecision(1);
|
|
setConversion(METERS_PER_YARD);
|
|
}
|
|
RideMetric *clone() const { return new PeakPaceSwim20m(*this); }
|
|
};
|
|
|
|
class PeakPaceSwim30m : public PeakPaceSwim {
|
|
Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim30m)
|
|
public:
|
|
PeakPaceSwim30m()
|
|
{
|
|
setSecs(1800);
|
|
setSymbol("30m_critical_pace_swim");
|
|
setInternalName("30 min Peak Pace Swim");
|
|
}
|
|
void initialize () {
|
|
setName(tr("30 min Peak Pace Swim"));
|
|
setMetricUnits(tr("min/100m"));
|
|
setImperialUnits(tr("min/100yd"));
|
|
setPrecision(1);
|
|
setConversion(METERS_PER_YARD);
|
|
}
|
|
RideMetric *clone() const { return new PeakPaceSwim30m(*this); }
|
|
};
|
|
|
|
class PeakPaceSwim60m : public PeakPaceSwim {
|
|
Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim60m)
|
|
public:
|
|
PeakPaceSwim60m()
|
|
{
|
|
setSecs(3600);
|
|
setSymbol("60m_critical_pace_swim");
|
|
setInternalName("60 min Peak Pace Swim");
|
|
}
|
|
void initialize () {
|
|
setName(tr("60 min Peak Pace Swim"));
|
|
setMetricUnits(tr("min/100m"));
|
|
setImperialUnits(tr("min/100yd"));
|
|
setPrecision(1);
|
|
setConversion(METERS_PER_YARD);
|
|
}
|
|
RideMetric *clone() const { return new PeakPaceSwim60m(*this); }
|
|
};
|
|
|
|
class PeakPaceSwim90m : public PeakPaceSwim {
|
|
Q_DECLARE_TR_FUNCTIONS(PeakPaceSwim90m)
|
|
public:
|
|
PeakPaceSwim90m()
|
|
{
|
|
setSecs(90*60);
|
|
setSymbol("90m_critical_pace_swim");
|
|
setInternalName("90 min Peak Pace Swim");
|
|
}
|
|
void initialize () {
|
|
setName(tr("90 min Peak Pace Swim"));
|
|
setMetricUnits(tr("min/100m"));
|
|
setImperialUnits(tr("min/100yd"));
|
|
setPrecision(1);
|
|
setConversion(METERS_PER_YARD);
|
|
}
|
|
RideMetric *clone() const { return new PeakPaceSwim90m(*this); }
|
|
};
|
|
|
|
static bool addAllPacePeaks() {
|
|
RideMetricFactory::instance().addMetric(PeakPace10s());
|
|
RideMetricFactory::instance().addMetric(PeakPace15s());
|
|
RideMetricFactory::instance().addMetric(PeakPace20s());
|
|
RideMetricFactory::instance().addMetric(PeakPace30s());
|
|
RideMetricFactory::instance().addMetric(PeakPace1m());
|
|
RideMetricFactory::instance().addMetric(PeakPace2m());
|
|
RideMetricFactory::instance().addMetric(PeakPace3m());
|
|
RideMetricFactory::instance().addMetric(PeakPace5m());
|
|
RideMetricFactory::instance().addMetric(PeakPace8m());
|
|
RideMetricFactory::instance().addMetric(PeakPace10m());
|
|
RideMetricFactory::instance().addMetric(PeakPace20m());
|
|
RideMetricFactory::instance().addMetric(PeakPace30m());
|
|
RideMetricFactory::instance().addMetric(PeakPace60m());
|
|
RideMetricFactory::instance().addMetric(PeakPace90m());
|
|
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim10s());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim15s());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim20s());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim30s());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim1m());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim2m());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim3m());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim5m());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim8m());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim10m());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim20m());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim30m());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim60m());
|
|
RideMetricFactory::instance().addMetric(PeakPaceSwim90m());
|
|
return true;
|
|
}
|
|
|
|
static bool allPacePeaksAdded = addAllPacePeaks();
|