mirror of
https://github.com/hyperion-project/hyperion.ng.git
synced 2023-10-10 13:36:59 +02:00
472 lines
10 KiB
C++
472 lines
10 KiB
C++
#include <leddevice/LedDevice.h>
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//QT include
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#include <QResource>
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#include <QStringList>
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#include <QDir>
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#include <QDateTime>
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#include <QEventLoop>
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#include <QTimer>
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#include <QDateTime>
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#include "hyperion/Hyperion.h"
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#include <utils/JsonUtils.h>
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//std includes
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#include <sstream>
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#include <iomanip>
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LedDevice::LedDevice(const QJsonObject& deviceConfig, QObject* parent)
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: QObject(parent)
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, _devConfig(deviceConfig)
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, _log(Logger::getInstance("LEDDEVICE"))
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, _ledBuffer(0)
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, _refreshTimer(nullptr)
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, _refreshTimerInterval_ms(0)
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, _latchTime_ms(0)
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, _ledCount(0)
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, _isRestoreOrigState(false)
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, _isEnabled(false)
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, _isDeviceInitialised(false)
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, _isDeviceReady(false)
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, _isOn(false)
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, _isDeviceInError(false)
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, _isInSwitchOff (false)
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, _lastWriteTime(QDateTime::currentDateTime())
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, _isRefreshEnabled (false)
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{
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_activeDeviceType = deviceConfig["type"].toString("UNSPECIFIED").toLower();
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}
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LedDevice::~LedDevice()
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{
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delete _refreshTimer;
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}
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void LedDevice::start()
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{
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Info(_log, "Start LedDevice '%s'.", QSTRING_CSTR(_activeDeviceType));
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// setup refreshTimer
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if ( _refreshTimer == nullptr )
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{
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_refreshTimer = new QTimer(this);
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_refreshTimer->setTimerType(Qt::PreciseTimer);
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_refreshTimer->setInterval( _refreshTimerInterval_ms );
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connect(_refreshTimer, &QTimer::timeout, this, &LedDevice::rewriteLEDs );
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}
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close();
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_isDeviceInitialised = false;
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// General initialisation and configuration of LedDevice
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if ( init(_devConfig) )
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{
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// Everything is OK -> enable device
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_isDeviceInitialised = true;
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this->enable();
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}
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}
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void LedDevice::stop()
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{
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this->disable();
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this->stopRefreshTimer();
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Info(_log, " Stopped LedDevice '%s'", QSTRING_CSTR(_activeDeviceType) );
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}
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int LedDevice::open()
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{
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_isDeviceReady = true;
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int retval = 0;
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return retval;
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}
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int LedDevice::close()
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{
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_isDeviceReady = false;
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int retval = 0;
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return retval;
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}
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void LedDevice::setInError(const QString& errorMsg)
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{
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_isDeviceInError = true;
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_isDeviceReady = false;
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_isEnabled = false;
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this->stopRefreshTimer();
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Error(_log, "Device disabled, device '%s' signals error: '%s'", QSTRING_CSTR(_activeDeviceType), QSTRING_CSTR(errorMsg));
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emit enableStateChanged(_isEnabled);
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}
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void LedDevice::enable()
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{
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if ( !_isEnabled )
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{
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_isDeviceInError = false;
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if ( ! _isDeviceReady )
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{
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open();
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}
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if ( _isDeviceReady )
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{
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_isEnabled = true;
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if ( switchOn() )
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{
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emit enableStateChanged(_isEnabled);
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}
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}
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}
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}
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void LedDevice::disable()
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{
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if ( _isEnabled )
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{
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_isEnabled = false;
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this->stopRefreshTimer();
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switchOff();
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close();
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emit enableStateChanged(_isEnabled);
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}
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}
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void LedDevice::setActiveDeviceType(const QString& deviceType)
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{
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_activeDeviceType = deviceType;
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}
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bool LedDevice::init(const QJsonObject &deviceConfig)
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{
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Debug(_log, "deviceConfig: [%s]", QString(QJsonDocument(_devConfig).toJson(QJsonDocument::Compact)).toUtf8().constData() );
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_colorOrder = deviceConfig["colorOrder"].toString("RGB");
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setLedCount( static_cast<unsigned int>( deviceConfig["currentLedCount"].toInt(1) ) ); // property injected to reflect real led count
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setLatchTime( deviceConfig["latchTime"].toInt( _latchTime_ms ) );
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setRewriteTime ( deviceConfig["rewriteTime"].toInt( _refreshTimerInterval_ms) );
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return true;
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}
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void LedDevice::startRefreshTimer()
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{
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if ( _isDeviceReady && _isEnabled )
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{
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_refreshTimer->start();
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}
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}
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void LedDevice::stopRefreshTimer()
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{
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if ( _refreshTimer != nullptr )
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{
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_refreshTimer->stop();
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}
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}
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int LedDevice::updateLeds(const std::vector<ColorRgb>& ledValues)
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{
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int retval = 0;
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if ( !_isEnabled || !_isOn || !_isDeviceReady || _isDeviceInError )
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{
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//std::cout << "LedDevice::updateLeds(), LedDevice NOT ready! ";
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return -1;
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}
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else
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{
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qint64 elapsedTimeMs = _lastWriteTime.msecsTo(QDateTime::currentDateTime());
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if (_latchTime_ms == 0 || elapsedTimeMs >= _latchTime_ms)
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{
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//std::cout << "LedDevice::updateLeds(), Elapsed time since last write (" << elapsedTimeMs << ") ms > _latchTime_ms (" << _latchTime_ms << ") ms" << std::endl;
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retval = write(ledValues);
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_lastWriteTime = QDateTime::currentDateTime();
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// if device requires refreshing, save Led-Values and restart the timer
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if ( _isRefreshEnabled && _isEnabled )
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{
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this->startRefreshTimer();
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_lastLedValues = ledValues;
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}
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}
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else
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{
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//std::cout << "LedDevice::updateLeds(), Skip write. elapsedTime (" << elapsedTimeMs << ") ms < _latchTime_ms (" << _latchTime_ms << ") ms" << std::endl;
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if ( _isRefreshEnabled )
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{
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//Stop timer to allow for next non-refresh update
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this->stopRefreshTimer();
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}
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}
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}
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return retval;
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}
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int LedDevice::rewriteLEDs()
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{
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int retval = -1;
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if ( _isDeviceReady && _isEnabled )
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{
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// qint64 elapsedTimeMs = _lastWriteTime.msecsTo(QDateTime::currentDateTime());
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// std::cout << "LedDevice::rewriteLEDs(): Rewrite LEDs now, elapsedTime [" << elapsedTimeMs << "] ms" << std::endl;
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// //:TESTING: Inject "white" output records to differentiate from normal writes
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// _lastLedValues.clear();
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// _lastLedValues.resize(static_cast<unsigned long>(_ledCount), ColorRgb::WHITE);
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// printLedValues(_lastLedValues);
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// //:TESTING:
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retval = write(_lastLedValues);
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_lastWriteTime = QDateTime::currentDateTime();
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}
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else
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{
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// If Device is not ready stop timer
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this->stopRefreshTimer();
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}
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return retval;
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}
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int LedDevice::writeBlack(int numberOfBlack)
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{
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int rc = -1;
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for (int i = 0; i < numberOfBlack; i++)
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{
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if ( _latchTime_ms > 0 )
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{
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// Wait latch time before writing black
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QEventLoop loop;
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QTimer::singleShot(_latchTime_ms, &loop, &QEventLoop::quit);
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loop.exec();
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}
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_lastLedValues = std::vector<ColorRgb>(static_cast<unsigned long>(_ledCount), ColorRgb::BLACK );
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rc = write(_lastLedValues);
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}
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return rc;
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}
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bool LedDevice::switchOn()
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{
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bool rc = false;
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if ( _isOn )
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{
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rc = true;
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}
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else
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{
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if ( _isEnabled &&_isDeviceInitialised )
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{
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storeState();
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if ( powerOn() )
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{
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_isOn = true;
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rc = true;
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}
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}
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}
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return rc;
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}
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bool LedDevice::switchOff()
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{
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bool rc = false;
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if ( !_isOn )
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{
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rc = true;
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}
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else
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{
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if ( _isDeviceInitialised )
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{
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// Disable device to ensure no standard Led updates are written/processed
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_isOn = false;
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_isInSwitchOff = true;
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rc = true;
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if ( _isDeviceReady )
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{
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if ( _isRestoreOrigState )
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{
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//Restore devices state
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restoreState();
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}
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else
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{
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powerOff();
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}
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}
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}
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}
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return rc;
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}
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bool LedDevice::powerOff()
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{
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bool rc = false;
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// Simulate power-off by writing a final "Black" to have a defined outcome
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if ( writeBlack() >= 0 )
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{
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rc = true;
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}
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return rc;
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}
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bool LedDevice::powerOn()
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{
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bool rc = true;
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return rc;
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}
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bool LedDevice::storeState()
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{
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bool rc = true;
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if ( _isRestoreOrigState )
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{
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// Save device's original state
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// _originalStateValues = get device's state;
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// store original power on/off state, if available
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}
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return rc;
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}
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bool LedDevice::restoreState()
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{
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bool rc = true;
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if ( _isRestoreOrigState )
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{
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// Restore device's original state
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// update device using _originalStateValues
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// update original power on/off state, if supported
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}
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return rc;
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}
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QJsonObject LedDevice::discover()
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{
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QJsonObject devicesDiscovered;
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devicesDiscovered.insert("ledDeviceType", _activeDeviceType);
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QJsonArray deviceList;
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devicesDiscovered.insert("devices", deviceList);
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Debug(_log, "devicesDiscovered: [%s]", QString(QJsonDocument(devicesDiscovered).toJson(QJsonDocument::Compact)).toUtf8().constData() );
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return devicesDiscovered;
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}
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QString LedDevice::discoverFirst()
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{
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QString deviceDiscovered;
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Debug(_log, "deviceDiscovered: [%s]", QSTRING_CSTR(deviceDiscovered) );
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return deviceDiscovered;
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}
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QJsonObject LedDevice::getProperties(const QJsonObject& params)
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{
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Debug(_log, "params: [%s]", QString(QJsonDocument(params).toJson(QJsonDocument::Compact)).toUtf8().constData() );
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QJsonObject properties;
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QJsonObject deviceProperties;
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properties.insert("properties", deviceProperties);
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Debug(_log, "properties: [%s]", QString(QJsonDocument(properties).toJson(QJsonDocument::Compact)).toUtf8().constData() );
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return properties;
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}
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void LedDevice::setLedCount(unsigned int ledCount)
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{
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_ledCount = ledCount;
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_ledRGBCount = _ledCount * sizeof(ColorRgb);
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_ledRGBWCount = _ledCount * sizeof(ColorRgbw);
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}
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void LedDevice::setLatchTime( int latchTime_ms )
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{
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_latchTime_ms = latchTime_ms;
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Debug(_log, "LatchTime updated to %dms", _latchTime_ms);
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}
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void LedDevice::setRewriteTime( int rewriteTime_ms )
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{
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_refreshTimerInterval_ms = rewriteTime_ms;
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if ( _refreshTimerInterval_ms > 0 )
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{
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_isRefreshEnabled = true;
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if (_refreshTimerInterval_ms <= _latchTime_ms )
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{
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int new_refresh_timer_interval = _latchTime_ms + 10;
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Warning(_log, "latchTime(%d) is bigger/equal rewriteTime(%d), set rewriteTime to %dms", _latchTime_ms, _refreshTimerInterval_ms, new_refresh_timer_interval);
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_refreshTimerInterval_ms = new_refresh_timer_interval;
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_refreshTimer->setInterval( _refreshTimerInterval_ms );
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}
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Debug(_log, "Refresh interval = %dms",_refreshTimerInterval_ms );
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_refreshTimer->setInterval( _refreshTimerInterval_ms );
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_lastWriteTime = QDateTime::currentDateTime();
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}
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Debug(_log, "RewriteTime updated to %dms", _refreshTimerInterval_ms);
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}
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void LedDevice::printLedValues(const std::vector<ColorRgb>& ledValues)
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{
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std::cout << "LedValues [" << ledValues.size() <<"] [";
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for (const ColorRgb& color : ledValues)
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{
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std::cout << color;
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}
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std::cout << "]" << std::endl;
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}
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QString LedDevice::uint8_t_to_hex_string(const uint8_t * data, const qint64 size, qint64 number) const
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{
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if ( number <= 0 || number > size)
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{
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number = size;
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}
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QByteArray bytes (reinterpret_cast<const char*>(data), number);
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#if (QT_VERSION >= QT_VERSION_CHECK(5, 9, 0))
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return bytes.toHex(':');
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#else
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return bytes.toHex();
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#endif
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}
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QString LedDevice::toHex(const QByteArray& data, int number) const
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{
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if ( number <= 0 || number > data.size())
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{
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number = data.size();
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}
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#if (QT_VERSION >= QT_VERSION_CHECK(5, 9, 0))
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return data.left(number).toHex(':');
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#else
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return data.left(number).toHex();
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#endif
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}
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