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Qt Quick Ultralite 摩托车仪表盘演示
/****************************************************************************** ** ** Copyright (C) 2020 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the Qt Quick Ultralite module. ** ** $QT_BEGIN_LICENSE:COMM$ ** ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see http://www.qt.io/terms-conditions. For further ** information use the contact form at http://www.qt.io/contact-us. ** ** $QT_END_LICENSE$ ** ******************************************************************************/#include "simulation/drivetrain.h" #include <assert.h> #include <algorithm> #include <cmath> #include "mathutils.h" namespace { const uint32_t ShiftUpDelay = 800; const uint16_t AccChangeRandomizePeriod = 600; const float AccMax = 6.5f; const float RandomAccMax = 4.f; const int ProportionalAccDivider = 2; const float SpeedFinishStepPrecision = 2.f; const float FuelMinDiff = 0.2f; const float SpeedToDistanceCoef = 1000000.f; const float cmPerMinuteToKmhRatio = 0.0006; const int NeutralGearNumber = 0; float getRandomizeAccChange() { return randomize(-RandomAccMax, RandomAccMax); } uint32_t slowDownRpmBeforeGearShift(const uint32_t rpm, const uint32_t gearShiftRpmLvl) { return (rpm * 3 + gearShiftRpmLvl * 2) / 5; } } // namespace namespace Simulation { Drivetrain::Drivetrain(const Config &config) : _config(config) { assert(_config.gearNum <= Config::MAX_GEARS); reset(); } void Drivetrain::forceNeutraulGear(const bool setNeutral) { _data.gear = setNeutral ? NeutralGearNumber : 1; } void Drivetrain::setSpeedTarget(const int targetSpeed, const bool withRandomAccChanges) { _data.targetSpeed = targetSpeed; _enableRandomAccChanges = withRandomAccChanges; } void Drivetrain::setFuelTarget(const float targetFuel, const float fuelSpeed) { _data.targetFuel = targetFuel; _data.fuelSpeed = fuelSpeed; } void Drivetrain::setDistanceToTarget(const float distance) { _data.distanceToTarget = distance; } void Drivetrain::update(const uint32_t tick) { _timeFromLastRandomAccChange += tick; const float delta = _data.targetSpeed - _data.speed; float acceleration = clamp(delta, -AccMax, AccMax) / ProportionalAccDivider; if (_enableRandomAccChanges && _timeFromLastRandomAccChange >= AccChangeRandomizePeriod) { _timeFromLastRandomAccChange = 0; acceleration += getRandomizeAccChange(); } calculateSpeedData(tick, acceleration); } void Drivetrain::calculateSpeedData(const uint32_t tick, const float acceleration) { if (_data.gear > NeutralGearNumber) { updateRpm(tick, acceleration); updateGearShift(tick); updateSpeed(); updateOdometers(tick); } updateFuelLevel(); } void Drivetrain::updateRpm(const uint32_t tick, const float acceleration) { const float currentRatio = (_config.gearRatios[_data.gear]); _data.acceleration = (acceleration * 3 + _data.acceleration) / 4; _data.rpm += tick * _data.acceleration * currentRatio; if (_data.gear != _config.gearNum - 1 && _data.rpm > _config.shiftUpAtRpm) { _data.rpm = slowDownRpmBeforeGearShift(_data.rpm, _config.shiftUpAtRpm); } _data.rpm = clamp(_data.rpm, _config.minRpm, _config.maxRpm); } void Drivetrain::updateGearShift(const uint32_t tick) { if (_data.rpm >= _config.shiftUpAtRpm && _data.gear < (_config.gearNum - 1)) { if (_timeCounterForShiftUp >= ShiftUpDelay) { _timeCounterForShiftUp = 0; shiftGear(1); } else { _timeCounterForShiftUp += tick; } } else if (_data.rpm <= _config.shiftDownAtRpm && _data.gear > NeutralGearNumber + 1) { shiftGear(-1); } else { _timeCounterForShiftUp = 0; } } void Drivetrain::shiftGear(const int delta) { _data.gear += delta; assert(_data.gear > NeutralGearNumber && _data.gear < _config.gearNum); _data.rpm = calculateRpm(_data.speed, _data.gear); } int Drivetrain::calculateRpm(const int speed, const int gear) const { if (gear < 1 || gear >= _config.gearNum) { assert(!"Wrong gear!"); return 0; } return int((speed * _config.gearRatios[gear] * _config.diffRatio) / (_config.tireCircumference * cmPerMinuteToKmhRatio)); } void Drivetrain::updateSpeed() { _data.speed = calculateSpeed(_data.rpm, _data.gear); } int Drivetrain::calculateSpeed(const int rpm, const int gear) const { if (gear < 1 || gear >= _config.gearNum) { assert(!"Wrong gear!"); return 0; } return int((_config.tireCircumference * rpm) / (_config.gearRatios[gear] * _config.diffRatio) * cmPerMinuteToKmhRatio); } void Drivetrain::updateFuelLevel() { float ¤tFuel = _data.fuelLevel; float &targetFuel = _data.targetFuel; if (fabs(targetFuel - currentFuel) <= FuelMinDiff) { currentFuel = targetFuel; } else { currentFuel += ((targetFuel - currentFuel) > 0 ? 1 : -1 * _data.speed / 100.f) * _data.fuelSpeed; } } void Drivetrain::updateOdometers(const uint32_t tick) { const float newDistance = _data.speed * tick / SpeedToDistanceCoef; _data.odometer += newDistance; _data.tripDistance += newDistance; _data.distanceToTarget -= newDistance; _data.distanceToTarget = _data.distanceToTarget > 0 ? _data.distanceToTarget : 0; } void Drivetrain::reset() { _data.speed = 0; _data.rpm = 0; _data.gear = NeutralGearNumber + 1; _data.fuelLevel = 30; _data.odometer = 5891; _data.tripDistance = 247.4; _data.distanceToTarget = 9.1; _data.acceleration = 0.f; _data.targetSpeed = 0.f; } const Drivetrain::DriveData &Drivetrain::getDriveData() const { return _data; } bool Drivetrain::isTargetSpeedReached() const { return abs(_data.targetSpeed - _data.speed) < SpeedFinishStepPrecision; } } // namespace Simulation