mirror of
https://github.com/GoldenCheetah/GoldenCheetah.git
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aa8605e8d5
Porting the codebase to QT 5 (5.2) to get the latest bug fixes, performance and improved platform support. This first part is to fixup the codebase to compile on Qt 5, but some aspects have been broken (video). The second part is to migrate from Qwt 6.0.1 to the latest Qwt for multiaxis support. The third part will be to fixup any platform specific issues or issues identified at runtime.
191 lines
4.7 KiB
C++
191 lines
4.7 KiB
C++
/*
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* Copyright (c) 2009 Mark Liversedge (liversedge@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 "ComputrainerController.h"
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#include "Computrainer.h"
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#include "RealtimeData.h"
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#include <QMessageBox>
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ComputrainerController::ComputrainerController(TrainSidebar *parent, DeviceConfiguration *dc) : RealtimeController(parent, dc)
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{
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myComputrainer = new Computrainer (parent, dc ? dc->portSpec : ""); // we may get NULL passed when configuring
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}
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int
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ComputrainerController::start()
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{
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return myComputrainer->start();
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}
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int
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ComputrainerController::restart()
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{
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return myComputrainer->restart();
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}
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int
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ComputrainerController::pause()
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{
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return myComputrainer->pause();
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}
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int
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ComputrainerController::stop()
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{
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return myComputrainer->stop();
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}
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bool
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ComputrainerController::discover(QString name)
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{
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return myComputrainer->discover(name); // go probe it...
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}
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bool ComputrainerController::doesPush() { return false; }
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bool ComputrainerController::doesPull() { return true; }
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bool ComputrainerController::doesLoad() { return true; }
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/*
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* gets called from the GUI to get updated telemetry.
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* so whilst we are at it we check button status too and
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* act accordingly.
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*
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*/
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void
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ComputrainerController::getRealtimeData(RealtimeData &rtData)
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{
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int Buttons, Status;
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bool calibration;
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double Power, HeartRate, Cadence, Speed, RRC, Load, Gradient;
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uint8_t ss[24];
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if(!myComputrainer->isRunning())
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{
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QMessageBox msgBox;
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msgBox.setText("Cannot Connect to Computrainer");
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msgBox.setIcon(QMessageBox::Critical);
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msgBox.exec();
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parent->Stop(1);
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return;
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}
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// get latest telemetry
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myComputrainer->getTelemetry(Power, HeartRate, Cadence, Speed,
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RRC, calibration, Buttons, ss, Status);
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// Check CT if F3 has been pressed for Calibration mode FIRST befoire we do anything else
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if (Buttons&CT_F3) {
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parent->Calibrate();
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}
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// ignore other buttons and anything else if calibrating
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if (parent->calibrating) return;
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//
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// PASS BACK TELEMETRY
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//
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rtData.setWatts(Power);
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rtData.setHr(HeartRate);
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rtData.setCadence(Cadence);
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rtData.setSpeed(Speed);
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memcpy(rtData.spinScan, ss, 24);
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// post processing, probably not used
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// since its used to compute power for
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// non-power devices, but we may add other
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// calculations later that might apply
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// means we could calculate power based
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// upon speed even for CT!
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processRealtimeData(rtData);
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//
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// BUTTONS
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//
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// ADJUST LOAD & GRADIENT
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Load = myComputrainer->getLoad();
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Gradient = myComputrainer->getGradient();
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// the calls to the parent will determine which mode we are on (ERG/SPIN) and adjust load/slop appropiately
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if ((Buttons&CT_PLUS) && !(Buttons&CT_F3)) {
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parent->Higher();
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}
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if ((Buttons&CT_MINUS) && !(Buttons&CT_F3)) {
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parent->Lower();
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}
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rtData.setLoad(Load);
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rtData.setSlope(Gradient);
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#if 0 // F3 now toggles calibration
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// FFWD/REWIND
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if ((Buttons&CT_PLUS) && (Buttons&CT_F3)) {
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parent->FFwd();
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}
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if ((Buttons&CT_MINUS) && (Buttons&CT_F3)) {
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parent->Rewind();
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}
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#endif
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// LAP/INTERVAL
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if (Buttons&CT_F1 && !(Buttons&CT_F3)) {
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parent->newLap();
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}
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if ((Buttons&CT_F1) && (Buttons&CT_F3)) {
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parent->FFwdLap();
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}
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// if Buttons == 0 we just pressed stop!
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if (Buttons&CT_RESET) {
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parent->Stop(0);
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}
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// displaymode
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if (Buttons&CT_F2) {
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parent->nextDisplayMode();
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}
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}
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void ComputrainerController::pushRealtimeData(RealtimeData &) { } // update realtime data with current values
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void
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ComputrainerController::setLoad(double load)
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{
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myComputrainer->setLoad(load);
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}
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void
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ComputrainerController::setGradient(double grade)
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{
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myComputrainer->setGradient(grade);
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}
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void
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ComputrainerController::setMode(int mode)
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{
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if (mode == RT_MODE_ERGO) mode = CT_ERGOMODE;
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if (mode == RT_MODE_SPIN) mode = CT_SSMODE;
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if (mode == RT_MODE_CALIBRATE) mode = CT_CALIBRATE;
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myComputrainer->setMode(mode);
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}
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