// Copyright (C) 2017 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only #include "winrtgyroscope.h" #include "winrtcommon.h" #include #include #include #include using namespace Microsoft::WRL; using namespace Microsoft::WRL::Wrappers; using namespace ABI::Windows::Foundation; using namespace ABI::Windows::Devices::Sensors; typedef ITypedEventHandler GyrometerReadingHandler; QT_USE_NAMESPACE class WinRtGyroscopePrivate { public: WinRtGyroscopePrivate(WinRtGyroscope *p) : minimumReportInterval(0), q(p) { token.value = 0; } QGyroscopeReading reading; ComPtr sensor; EventRegistrationToken token; quint32 minimumReportInterval; HRESULT readingChanged(IGyrometer *, IGyrometerReadingChangedEventArgs *args) { ComPtr value; HRESULT hr = args->get_Reading(&value); if (FAILED(hr)) { qCWarning(lcWinRtSensors) << "Failed to get gyroscope reading" << qt_error_string(hr); return hr; } DOUBLE x; hr = value->get_AngularVelocityX(&x); if (FAILED(hr)) qCWarning(lcWinRtSensors) << "Failed to get gyroscope X" << qt_error_string(hr); DOUBLE y; hr = value->get_AngularVelocityY(&y); if (FAILED(hr)) qCWarning(lcWinRtSensors) << "Failed to get gyroscope Y" << qt_error_string(hr); DOUBLE z; hr = value->get_AngularVelocityZ(&z); if (FAILED(hr)) qCWarning(lcWinRtSensors) << "Failed to get gyroscope Z" << qt_error_string(hr); DateTime dateTime; hr = value->get_Timestamp(&dateTime); if (FAILED(hr)) qCWarning(lcWinRtSensors) << "Failed to get gyroscope timestamp" << qt_error_string(hr); reading.setX(x); reading.setY(y); reading.setZ(z); reading.setTimestamp(dateTimeToMsSinceEpoch(dateTime)); q->newReadingAvailable(); return S_OK; } private: WinRtGyroscope *q; }; WinRtGyroscope::WinRtGyroscope(QSensor *sensor) : QSensorBackend(sensor), d_ptr(new WinRtGyroscopePrivate(this)) { Q_D(WinRtGyroscope); HStringReference classId(RuntimeClass_Windows_Devices_Sensors_Gyrometer); ComPtr factory; HRESULT hr = RoGetActivationFactory(classId.Get(), IID_PPV_ARGS(&factory)); if (FAILED(hr)) { qCWarning(lcWinRtSensors) << "Unable to initialize gyroscope sensor factory." << qt_error_string(hr); sensorError(hr); return; } hr = factory->GetDefault(&d->sensor); if (FAILED(hr)) { qCWarning(lcWinRtSensors) << "Unable to get default gyroscope sensor." << qt_error_string(hr); sensorError(hr); return; } if (!d->sensor) { qCWarning(lcWinRtSensors) << "Default gyroscope was not found on the system."; return; } hr = d->sensor->get_MinimumReportInterval(&d->minimumReportInterval); if (FAILED(hr)) { qCWarning(lcWinRtSensors) << "Unable to get the minimum report interval." << qt_error_string(hr); sensorError(hr); return; } addDataRate(1, 1000 / d->minimumReportInterval); // dataRate in Hz sensor->setDataRate(1); setReading(&d->reading); } WinRtGyroscope::~WinRtGyroscope() { } void WinRtGyroscope::start() { Q_D(WinRtGyroscope); if (!d->sensor) return; if (d->token.value) return; ComPtr callback = Callback(d, &WinRtGyroscopePrivate::readingChanged); HRESULT hr = d->sensor->add_ReadingChanged(callback.Get(), &d->token); if (FAILED(hr)) { qCWarning(lcWinRtSensors) << "Unable to attach to reading changed event." << qt_error_string(hr); sensorError(hr); return; } int dataRate = sensor()->dataRate(); if (!dataRate) return; quint32 reportInterval = qMax(d->minimumReportInterval, quint32(1000/dataRate)); hr = d->sensor->put_ReportInterval(reportInterval); if (FAILED(hr)) { qCWarning(lcWinRtSensors) << "Unable to attach to set report interval." << qt_error_string(hr); sensorError(hr); } } void WinRtGyroscope::stop() { Q_D(WinRtGyroscope); if (!d->sensor) return; if (!d->token.value) return; HRESULT hr = d->sensor->remove_ReadingChanged(d->token); if (FAILED(hr)) { qCWarning(lcWinRtSensors) << "Unable to detach from reading changed event." << qt_error_string(hr); sensorError(hr); return; } hr = d->sensor->put_ReportInterval(0); if (FAILED(hr)) { qCWarning(lcWinRtSensors) << "Unable to reset report interval." << qt_error_string(hr); sensorError(hr); return; } d->token.value = 0; }