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// STL includes
# include <cassert>
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# include <exception>
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# include <sstream>
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// QT includes
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# include <QDateTime>
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# include <QThread>
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# include <QRegExp>
# include <QString>
# include <QStringList>
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# include <QCryptographicHash>
# include <QFile>
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# include <QFileInfo>
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// hyperion include
# include <hyperion/Hyperion.h>
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# include <hyperion/ImageProcessorFactory.h>
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# include <hyperion/ImageProcessor.h>
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# include <hyperion/ColorAdjustment.h>
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// Leddevice includes
# include <leddevice/LedDevice.h>
# include <leddevice/LedDeviceFactory.h>
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# include "MultiColorAdjustment.h"
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# include "LinearColorSmoothing.h"
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// effect engine includes
# include <effectengine/EffectEngine.h>
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# define CORE_LOGGER Logger::getInstance("Core")
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Hyperion * Hyperion : : _hyperion = nullptr ;
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Hyperion * Hyperion : : initInstance ( const QJsonObject & qjsonConfig , const QString configFile ) // REMOVE jsonConfig variable when the conversion from jsonCPP to QtJSON is finished
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{
if ( Hyperion : : _hyperion ! = nullptr )
throw std : : runtime_error ( " Hyperion::initInstance can be called only one time " ) ;
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Hyperion : : _hyperion = new Hyperion ( qjsonConfig , configFile ) ;
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return Hyperion : : _hyperion ;
}
Hyperion * Hyperion : : getInstance ( )
{
if ( Hyperion : : _hyperion = = nullptr )
throw std : : runtime_error ( " Hyperion::getInstance used without call of Hyperion::initInstance before " ) ;
return Hyperion : : _hyperion ;
}
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ColorOrder Hyperion : : createColorOrder ( const QJsonObject & deviceConfig )
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{
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return stringToColorOrder ( deviceConfig [ " colorOrder " ] . toString ( " rgb " ) ) ;
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}
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ColorAdjustment * Hyperion : : createColorAdjustment ( const QJsonObject & adjustmentConfig )
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{
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const std : : string id = adjustmentConfig [ " id " ] . toString ( " default " ) . toStdString ( ) ;
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RgbChannelAdjustment * blackAdjustment = createRgbChannelAdjustment ( adjustmentConfig , " black " , 0 , 0 , 0 ) ;
RgbChannelAdjustment * whiteAdjustment = createRgbChannelAdjustment ( adjustmentConfig , " white " , 255 , 255 , 255 ) ;
RgbChannelAdjustment * redAdjustment = createRgbChannelAdjustment ( adjustmentConfig , " red " , 255 , 0 , 0 ) ;
RgbChannelAdjustment * greenAdjustment = createRgbChannelAdjustment ( adjustmentConfig , " green " , 0 , 255 , 0 ) ;
RgbChannelAdjustment * blueAdjustment = createRgbChannelAdjustment ( adjustmentConfig , " blue " , 0 , 0 , 255 ) ;
RgbChannelAdjustment * cyanAdjustment = createRgbChannelAdjustment ( adjustmentConfig , " cyan " , 0 , 255 , 255 ) ;
RgbChannelAdjustment * magentaAdjustment = createRgbChannelAdjustment ( adjustmentConfig , " magenta " , 255 , 0 , 255 ) ;
RgbChannelAdjustment * yellowAdjustment = createRgbChannelAdjustment ( adjustmentConfig , " yellow " , 255 , 255 , 0 ) ;
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RgbTransform * rgbTransform = createRgbTransform ( adjustmentConfig ) ;
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ColorAdjustment * adjustment = new ColorAdjustment ( ) ;
adjustment - > _id = id ;
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adjustment - > _rgbBlackAdjustment = * blackAdjustment ;
adjustment - > _rgbWhiteAdjustment = * whiteAdjustment ;
adjustment - > _rgbRedAdjustment = * redAdjustment ;
adjustment - > _rgbGreenAdjustment = * greenAdjustment ;
adjustment - > _rgbBlueAdjustment = * blueAdjustment ;
adjustment - > _rgbCyanAdjustment = * cyanAdjustment ;
adjustment - > _rgbMagentaAdjustment = * magentaAdjustment ;
adjustment - > _rgbYellowAdjustment = * yellowAdjustment ;
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adjustment - > _rgbTransform = * rgbTransform ;
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// Cleanup the allocated individual adjustments
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delete blackAdjustment ;
delete whiteAdjustment ;
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delete redAdjustment ;
delete greenAdjustment ;
delete blueAdjustment ;
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delete cyanAdjustment ;
delete magentaAdjustment ;
delete yellowAdjustment ;
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delete rgbTransform ;
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return adjustment ;
}
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MultiColorAdjustment * Hyperion : : createLedColorsAdjustment ( const unsigned ledCnt , const QJsonObject & colorConfig )
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{
// Create the result, the transforms are added to this
MultiColorAdjustment * adjustment = new MultiColorAdjustment ( ledCnt ) ;
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const QJsonValue adjustmentConfig = colorConfig [ " channelAdjustment " ] ;
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const QRegExp overallExp ( " ([0-9]+( \\ -[0-9]+) ? ) ( , [ ] * ( [ 0 - 9 ] + ( \ \ - [ 0 - 9 ] + ) ? ) ) * " ) ;
const QJsonArray & adjustmentConfigArray = adjustmentConfig . toArray ( ) ;
for ( signed i = 0 ; i < adjustmentConfigArray . size ( ) ; + + i )
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{
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const QJsonObject & config = adjustmentConfigArray . at ( i ) . toObject ( ) ;
ColorAdjustment * colorAdjustment = createColorAdjustment ( config ) ;
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adjustment - > addAdjustment ( colorAdjustment ) ;
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const QString ledIndicesStr = config [ " leds " ] . toString ( " " ) . trimmed ( ) ;
if ( ledIndicesStr . compare ( " * " ) = = 0 )
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{
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// Special case for indices '*' => all leds
adjustment - > setAdjustmentForLed ( colorAdjustment - > _id , 0 , ledCnt - 1 ) ;
Info ( CORE_LOGGER , " ColorAdjustment '%s' => [0; %d] " , colorAdjustment - > _id . c_str ( ) , ledCnt - 1 ) ;
continue ;
}
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if ( ! overallExp . exactMatch ( ledIndicesStr ) )
{
Error ( CORE_LOGGER , " Given led indices %d not correct format: %s " , i , ledIndicesStr . toStdString ( ) . c_str ( ) ) ;
continue ;
}
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std : : stringstream ss ;
const QStringList ledIndexList = ledIndicesStr . split ( " , " ) ;
for ( int i = 0 ; i < ledIndexList . size ( ) ; + + i ) {
if ( i > 0 )
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{
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ss < < " , " ;
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}
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if ( ledIndexList [ i ] . contains ( " - " ) )
{
QStringList ledIndices = ledIndexList [ i ] . split ( " - " ) ;
int startInd = ledIndices [ 0 ] . toInt ( ) ;
int endInd = ledIndices [ 1 ] . toInt ( ) ;
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adjustment - > setAdjustmentForLed ( colorAdjustment - > _id , startInd , endInd ) ;
ss < < startInd < < " - " < < endInd ;
}
else
{
int index = ledIndexList [ i ] . toInt ( ) ;
adjustment - > setAdjustmentForLed ( colorAdjustment - > _id , index , index ) ;
ss < < index ;
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}
}
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Info ( CORE_LOGGER , " ColorAdjustment '%s' => [%s] " , colorAdjustment - > _id . c_str ( ) , ss . str ( ) . c_str ( ) ) ;
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}
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return adjustment ;
}
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RgbTransform * Hyperion : : createRgbTransform ( const QJsonObject & colorConfig )
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{
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const double backlightThreshold = colorConfig [ " backlightThreshold " ] . toDouble ( 0.0 ) ;
const bool backlightColored = colorConfig [ " backlightColored " ] . toBool ( false ) ;
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const double brightness = colorConfig [ " brightness " ] . toDouble ( 0.5 ) ;
const double gammaR = colorConfig [ " gammaRed " ] . toDouble ( 1.0 ) ;
const double gammaG = colorConfig [ " gammaGreen " ] . toDouble ( 1.0 ) ;
const double gammaB = colorConfig [ " gammaBlue " ] . toDouble ( 1.0 ) ;
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RgbTransform * transform = new RgbTransform ( gammaR , gammaG , gammaB , backlightThreshold , backlightColored , brightness ) ;
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return transform ;
}
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RgbChannelAdjustment * Hyperion : : createRgbChannelAdjustment ( const QJsonObject & colorConfig , const QString channelName , const int defaultR , const int defaultG , const int defaultB )
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{
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const QJsonArray & channelConfig = colorConfig [ channelName ] . toArray ( ) ;
RgbChannelAdjustment * adjustment = new RgbChannelAdjustment (
channelConfig [ 0 ] . toInt ( defaultR ) ,
channelConfig [ 1 ] . toInt ( defaultG ) ,
channelConfig [ 2 ] . toInt ( defaultB ) ,
" ChannelAdjust_ " + channelName . toUpper ( ) ) ;
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return adjustment ;
}
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LedString Hyperion : : createLedString ( const QJsonValue & ledsConfig , const ColorOrder deviceOrder )
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{
LedString ledString ;
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const QString deviceOrderStr = colorOrderToString ( deviceOrder ) ;
const QJsonArray & ledConfigArray = ledsConfig . toArray ( ) ;
int maxLedId = ledConfigArray . size ( ) ;
for ( signed i = 0 ; i < ledConfigArray . size ( ) ; + + i )
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{
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const QJsonObject & index = ledConfigArray [ i ] . toObject ( ) ;
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Led led ;
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led . index = index [ " index " ] . toInt ( ) ;
led . clone = index [ " clone " ] . toInt ( - 1 ) ;
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if ( led . clone < - 1 | | led . clone > = maxLedId )
{
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Warning ( CORE_LOGGER , " LED %d: clone index of %d is out of range, clone ignored " , led . index , led . clone ) ;
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led . clone = - 1 ;
}
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if ( led . clone < 0 )
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{
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const QJsonObject & hscanConfig = ledConfigArray [ i ] . toObject ( ) [ " hscan " ] . toObject ( ) ;
const QJsonObject & vscanConfig = ledConfigArray [ i ] . toObject ( ) [ " vscan " ] . toObject ( ) ;
led . minX_frac = std : : max ( 0.0 , std : : min ( 1.0 , hscanConfig [ " minimum " ] . toDouble ( ) ) ) ;
led . maxX_frac = std : : max ( 0.0 , std : : min ( 1.0 , hscanConfig [ " maximum " ] . toDouble ( ) ) ) ;
led . minY_frac = std : : max ( 0.0 , std : : min ( 1.0 , vscanConfig [ " minimum " ] . toDouble ( ) ) ) ;
led . maxY_frac = std : : max ( 0.0 , std : : min ( 1.0 , vscanConfig [ " maximum " ] . toDouble ( ) ) ) ;
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// Fix if the user swapped min and max
if ( led . minX_frac > led . maxX_frac )
{
std : : swap ( led . minX_frac , led . maxX_frac ) ;
}
if ( led . minY_frac > led . maxY_frac )
{
std : : swap ( led . minY_frac , led . maxY_frac ) ;
}
// Get the order of the rgb channels for this led (default is device order)
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led . colorOrder = stringToColorOrder ( index [ " colorOrder " ] . toString ( deviceOrderStr ) ) ;
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ledString . leds ( ) . push_back ( led ) ;
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}
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}
// Make sure the leds are sorted (on their indices)
std : : sort ( ledString . leds ( ) . begin ( ) , ledString . leds ( ) . end ( ) , [ ] ( const Led & lhs , const Led & rhs ) { return lhs . index < rhs . index ; } ) ;
return ledString ;
}
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LedString Hyperion : : createLedStringClone ( const QJsonValue & ledsConfig , const ColorOrder deviceOrder )
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{
LedString ledString ;
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const QString deviceOrderStr = colorOrderToString ( deviceOrder ) ;
const QJsonArray & ledConfigArray = ledsConfig . toArray ( ) ;
int maxLedId = ledConfigArray . size ( ) ;
for ( signed i = 0 ; i < ledConfigArray . size ( ) ; + + i )
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{
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const QJsonObject & index = ledConfigArray [ i ] . toObject ( ) ;
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Led led ;
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led . index = index [ " index " ] . toInt ( ) ;
led . clone = index [ " clone " ] . toInt ( - 1 ) ;
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if ( led . clone < - 1 | | led . clone > = maxLedId )
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{
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Warning ( CORE_LOGGER , " LED %d: clone index of %d is out of range, clone ignored " , led . index , led . clone ) ;
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led . clone = - 1 ;
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}
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if ( led . clone > = 0 )
{
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Debug ( CORE_LOGGER , " LED %d: clone from led %d " , led . index , led . clone ) ;
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led . minX_frac = 0 ;
led . maxX_frac = 0 ;
led . minY_frac = 0 ;
led . maxY_frac = 0 ;
// Get the order of the rgb channels for this led (default is device order)
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led . colorOrder = stringToColorOrder ( index [ " colorOrder " ] . toString ( deviceOrderStr ) ) ;
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ledString . leds ( ) . push_back ( led ) ;
}
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}
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// Make sure the leds are sorted (on their indices)
std : : sort ( ledString . leds ( ) . begin ( ) , ledString . leds ( ) . end ( ) , [ ] ( const Led & lhs , const Led & rhs ) { return lhs . index < rhs . index ; } ) ;
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return ledString ;
}
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QSize Hyperion : : getLedLayoutGridSize ( const QJsonValue & ledsConfig )
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{
std : : vector < int > midPointsX ;
std : : vector < int > midPointsY ;
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const QJsonArray & ledConfigArray = ledsConfig . toArray ( ) ;
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for ( signed i = 0 ; i < ledConfigArray . size ( ) ; + + i )
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{
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const QJsonObject & index = ledConfigArray [ i ] . toObject ( ) ;
if ( index [ " clone " ] . toInt ( - 1 ) < 0 )
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{
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const QJsonObject & hscanConfig = ledConfigArray [ i ] . toObject ( ) [ " hscan " ] . toObject ( ) ;
const QJsonObject & vscanConfig = ledConfigArray [ i ] . toObject ( ) [ " vscan " ] . toObject ( ) ;
double minX_frac = std : : max ( 0.0 , std : : min ( 1.0 , hscanConfig [ " minimum " ] . toDouble ( ) ) ) ;
double maxX_frac = std : : max ( 0.0 , std : : min ( 1.0 , hscanConfig [ " maximum " ] . toDouble ( ) ) ) ;
double minY_frac = std : : max ( 0.0 , std : : min ( 1.0 , vscanConfig [ " minimum " ] . toDouble ( ) ) ) ;
double maxY_frac = std : : max ( 0.0 , std : : min ( 1.0 , vscanConfig [ " maximum " ] . toDouble ( ) ) ) ;
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// Fix if the user swapped min and max
if ( minX_frac > maxX_frac )
{
std : : swap ( minX_frac , maxX_frac ) ;
}
if ( minY_frac > maxY_frac )
{
std : : swap ( minY_frac , maxY_frac ) ;
}
// calculate mid point and make grid calculation
midPointsX . push_back ( int ( 1000.0 * ( minX_frac + maxX_frac ) / 2.0 ) ) ;
midPointsY . push_back ( int ( 1000.0 * ( minY_frac + maxY_frac ) / 2.0 ) ) ;
}
}
// remove duplicates
std : : sort ( midPointsX . begin ( ) , midPointsX . end ( ) ) ;
midPointsX . erase ( std : : unique ( midPointsX . begin ( ) , midPointsX . end ( ) ) , midPointsX . end ( ) ) ;
std : : sort ( midPointsY . begin ( ) , midPointsY . end ( ) ) ;
midPointsY . erase ( std : : unique ( midPointsY . begin ( ) , midPointsY . end ( ) ) , midPointsY . end ( ) ) ;
QSize gridSize ( midPointsX . size ( ) , midPointsY . size ( ) ) ;
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Debug ( CORE_LOGGER , " led layout grid: %dx%d " , gridSize . width ( ) , gridSize . height ( ) ) ;
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return gridSize ;
}
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LinearColorSmoothing * Hyperion : : createColorSmoothing ( const QJsonObject & smoothingConfig , LedDevice * leddevice )
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{
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std : : string type = smoothingConfig [ " type " ] . toString ( " linear " ) . toStdString ( ) ;
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std : : transform ( type . begin ( ) , type . end ( ) , type . begin ( ) , : : tolower ) ;
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LinearColorSmoothing * device = nullptr ;
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type = " linear " ; // TODO currently hardcoded type, delete it if we have more types
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if ( type = = " linear " )
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{
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Info ( CORE_LOGGER , " Creating linear smoothing " ) ;
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device = new LinearColorSmoothing (
leddevice ,
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smoothingConfig [ " updateFrequency " ] . toDouble ( 25.0 ) ,
smoothingConfig [ " time_ms " ] . toInt ( 200 ) ,
smoothingConfig [ " updateDelay " ] . toInt ( 0 ) ,
smoothingConfig [ " continuousOutput " ] . toBool ( true )
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) ;
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}
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else
{
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Error ( CORE_LOGGER , " Smoothing disabled, because of unknown type '%s'. " , type . c_str ( ) ) ;
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}
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device - > setEnable ( smoothingConfig [ " enable " ] . toBool ( true ) ) ;
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InfoIf ( ! device - > enabled ( ) , CORE_LOGGER , " Smoothing disabled " ) ;
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assert ( device ! = nullptr ) ;
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return device ;
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}
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MessageForwarder * Hyperion : : createMessageForwarder ( const QJsonObject & forwarderConfig )
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{
MessageForwarder * forwarder = new MessageForwarder ( ) ;
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if ( ! forwarderConfig . isEmpty ( ) & & forwarderConfig [ " enable " ] . toBool ( true ) )
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{
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if ( ! forwarderConfig [ " json " ] . isNull ( ) & & forwarderConfig [ " json " ] . isArray ( ) )
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{
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const QJsonArray & addr = forwarderConfig [ " json " ] . toArray ( ) ;
for ( signed i = 0 ; i < addr . size ( ) ; + + i )
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{
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Info ( CORE_LOGGER , " Json forward to %s " , addr . at ( i ) . toString ( ) . toStdString ( ) . c_str ( ) ) ;
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forwarder - > addJsonSlave ( addr [ i ] . toString ( ) . toStdString ( ) ) ;
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}
}
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if ( ! forwarderConfig [ " proto " ] . isNull ( ) & & forwarderConfig [ " proto " ] . isArray ( ) )
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{
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const QJsonArray & addr = forwarderConfig [ " proto " ] . toArray ( ) ;
for ( signed i = 0 ; i < addr . size ( ) ; + + i )
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{
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Info ( CORE_LOGGER , " Proto forward to %s " , addr . at ( i ) . toString ( ) . toStdString ( ) . c_str ( ) ) ;
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forwarder - > addProtoSlave ( addr [ i ] . toString ( ) . toStdString ( ) ) ;
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}
}
}
return forwarder ;
}
MessageForwarder * Hyperion : : getForwarder ( )
{
return _messageForwarder ;
}
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Hyperion : : Hyperion ( const QJsonObject & qjsonConfig , const QString configFile )
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: _ledString ( createLedString ( qjsonConfig [ " leds " ] , createColorOrder ( qjsonConfig [ " device " ] . toObject ( ) ) ) )
, _ledStringClone ( createLedStringClone ( qjsonConfig [ " leds " ] , createColorOrder ( qjsonConfig [ " device " ] . toObject ( ) ) ) )
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, _muxer ( _ledString . leds ( ) . size ( ) )
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, _raw2ledAdjustment ( createLedColorsAdjustment ( _ledString . leds ( ) . size ( ) , qjsonConfig [ " color " ] . toObject ( ) ) )
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, _effectEngine ( nullptr )
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, _messageForwarder ( createMessageForwarder ( qjsonConfig [ " forwarder " ] . toObject ( ) ) )
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, _qjsonConfig ( qjsonConfig )
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, _configFile ( configFile )
, _timer ( )
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, _log ( CORE_LOGGER )
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, _hwLedCount ( _ledString . leds ( ) . size ( ) )
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, _sourceAutoSelectEnabled ( true )
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, _configHash ( )
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, _ledGridSize ( getLedLayoutGridSize ( qjsonConfig [ " leds " ] ) )
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, _prevCompId ( hyperion : : COMP_INVALID )
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{
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registerPriority ( " Off " , PriorityMuxer : : LOWEST_PRIORITY ) ;
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if ( ! _raw2ledAdjustment - > verifyAdjustments ( ) )
{
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throw std : : runtime_error ( " Color adjustment incorrectly set " ) ;
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}
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// set color correction activity state
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const QJsonObject & color = qjsonConfig [ " color " ] . toObject ( ) ;
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// initialize the image processor factory
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_ledMAppingType = ImageProcessor : : mappingTypeToInt ( color [ " imageToLedMappingType " ] . toString ( ) ) ;
ImageProcessorFactory : : getInstance ( ) . init ( _ledString , qjsonConfig [ " blackborderdetector " ] . toObject ( ) , _ledMAppingType ) ;
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getComponentRegister ( ) . componentStateChanged ( hyperion : : COMP_FORWARDER , _messageForwarder - > forwardingEnabled ( ) ) ;
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// initialize leddevices
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_device = LedDeviceFactory : : construct ( qjsonConfig [ " device " ] . toObject ( ) , _hwLedCount ) ;
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_deviceSmooth = createColorSmoothing ( qjsonConfig [ " smoothing " ] . toObject ( ) , _device ) ;
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getComponentRegister ( ) . componentStateChanged ( hyperion : : COMP_SMOOTHING , _deviceSmooth - > componentState ( ) ) ;
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// setup the timer
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_timer . setSingleShot ( true ) ;
QObject : : connect ( & _timer , SIGNAL ( timeout ( ) ) , this , SLOT ( update ( ) ) ) ;
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// create the effect engine
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_effectEngine = new EffectEngine ( this , qjsonConfig [ " effects " ] . toObject ( ) ) ;
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const QJsonObject & device = qjsonConfig [ " device " ] . toObject ( ) ;
unsigned int hwLedCount = device [ " ledCount " ] . toInt ( getLedCount ( ) ) ;
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_hwLedCount = std : : max ( hwLedCount , getLedCount ( ) ) ;
Debug ( _log , " configured leds: %d hw leds: %d " , getLedCount ( ) , _hwLedCount ) ;
WarningIf ( hwLedCount < getLedCount ( ) , _log , " more leds configured than available. check 'ledCount' in 'device' section " ) ;
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WarningIf ( ! configWriteable ( ) , _log , " Your config is not writeable - you won't be able to use the web ui for configuration. " ) ;
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// initialize hash of current config
configModified ( ) ;
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const QJsonObject & generalConfig = qjsonConfig [ " general " ] . toObject ( ) ;
_configVersionId = generalConfig [ " configVersion " ] . toInt ( - 1 ) ;
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// initialize the leds
update ( ) ;
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}
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void Hyperion : : freeObjects ( bool emitCloseSignal )
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{
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if ( emitCloseSignal )
{
emit closing ( ) ;
}
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// switch off all leds
clearall ( ) ;
_device - > switchOff ( ) ;
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// delete components on exit of hyperion core
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delete _effectEngine ;
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delete _device ;
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delete _raw2ledAdjustment ;
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delete _messageForwarder ;
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}
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Hyperion : : ~ Hyperion ( )
{
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freeObjects ( false ) ;
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}
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unsigned Hyperion : : getLedCount ( ) const
{
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return _ledString . leds ( ) . size ( ) ;
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}
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bool Hyperion : : configModified ( )
{
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bool isModified = false ;
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QFile f ( _configFile ) ;
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if ( f . open ( QFile : : ReadOnly ) )
{
QCryptographicHash hash ( QCryptographicHash : : Sha1 ) ;
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if ( hash . addData ( & f ) )
{
if ( _configHash . size ( ) = = 0 )
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{
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_configHash = hash . result ( ) ;
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}
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else
{
isModified = _configHash ! = hash . result ( ) ;
}
}
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}
f . close ( ) ;
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return isModified ;
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}
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bool Hyperion : : configWriteable ( )
{
QFile file ( _configFile ) ;
QFileInfo fileInfo ( file ) ;
return fileInfo . isWritable ( ) & & fileInfo . isReadable ( ) ;
}
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void Hyperion : : registerPriority ( const std : : string name , const int priority , const QString origin )
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{
Info ( _log , " Register new input source named '%s' for priority channel '%d' " , name . c_str ( ) , priority ) ;
for ( auto const & entry : _priorityRegister )
{
WarningIf ( ( entry . first ! = name & & entry . second = = priority ) , _log ,
" Input source '%s' uses same priority channel (%d) as '%s'. " , name . c_str ( ) , priority , entry . first . c_str ( ) ) ;
}
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_priorityRegister . emplace ( name , priority , origin ) ;
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}
void Hyperion : : unRegisterPriority ( const std : : string name )
{
Info ( _log , " Unregister input source named '%s' from priority register " , name . c_str ( ) ) ;
_priorityRegister . erase ( name ) ;
}
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void Hyperion : : setSourceAutoSelectEnabled ( bool enabled )
{
_sourceAutoSelectEnabled = enabled ;
if ( ! _sourceAutoSelectEnabled )
{
setCurrentSourcePriority ( _muxer . getCurrentPriority ( ) ) ;
}
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update ( ) ;
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DebugIf ( ! _sourceAutoSelectEnabled , _log , " source auto select is disabled " ) ;
InfoIf ( _sourceAutoSelectEnabled , _log , " set current input source to auto select " ) ;
}
bool Hyperion : : setCurrentSourcePriority ( int priority )
{
bool priorityValid = _muxer . hasPriority ( priority ) ;
if ( priorityValid )
{
DebugIf ( _sourceAutoSelectEnabled , _log , " source auto select is disabled " ) ;
_sourceAutoSelectEnabled = false ;
_currentSourcePriority = priority ;
Info ( _log , " set current input source to priority channel %d " , _currentSourcePriority ) ;
}
return priorityValid ;
}
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void Hyperion : : setComponentState ( const hyperion : : Components component , const bool state )
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{
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if ( component = = hyperion : : COMP_SMOOTHING )
{
_deviceSmooth - > setEnable ( state ) ;
getComponentRegister ( ) . componentStateChanged ( hyperion : : COMP_SMOOTHING , _deviceSmooth - > componentState ( ) ) ;
}
else
{
emit componentStateChanged ( component , state ) ;
}
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}
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void Hyperion : : setColor ( int priority , const ColorRgb & color , const int timeout_ms , bool clearEffects )
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{
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// create led output
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std : : vector < ColorRgb > ledColors ( _ledString . leds ( ) . size ( ) , color ) ;
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// set colors
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setColors ( priority , ledColors , timeout_ms , clearEffects , hyperion : : COMP_COLOR ) ;
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}
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void Hyperion : : setColors ( int priority , const std : : vector < ColorRgb > & ledColors , const int timeout_ms , bool clearEffects , hyperion : : Components component , const QString origin )
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{
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// clear effects if this call does not come from an effect
if ( clearEffects )
{
_effectEngine - > channelCleared ( priority ) ;
}
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if ( timeout_ms > 0 )
{
const uint64_t timeoutTime = QDateTime : : currentMSecsSinceEpoch ( ) + timeout_ms ;
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_muxer . setInput ( priority , ledColors , timeoutTime , component , origin ) ;
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}
else
{
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_muxer . setInput ( priority , ledColors , - 1 , component , origin ) ;
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}
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if ( ! _sourceAutoSelectEnabled | | priority = = _muxer . getCurrentPriority ( ) )
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{
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update ( ) ;
}
}
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void Hyperion : : setImage ( int priority , const Image < ColorRgb > & image , int duration_ms )
{
if ( priority = = getCurrentPriority ( ) )
{
emit emitImage ( priority , image , duration_ms ) ;
}
}
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const std : : vector < std : : string > & Hyperion : : getAdjustmentIds ( ) const
{
return _raw2ledAdjustment - > getAdjustmentIds ( ) ;
}
ColorAdjustment * Hyperion : : getAdjustment ( const std : : string & id )
{
return _raw2ledAdjustment - > getAdjustment ( id ) ;
}
void Hyperion : : adjustmentsUpdated ( )
{
update ( ) ;
}
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void Hyperion : : clear ( int priority )
{
if ( _muxer . hasPriority ( priority ) )
{
_muxer . clearInput ( priority ) ;
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if ( ! _sourceAutoSelectEnabled & & _currentSourcePriority = = priority )
{
setSourceAutoSelectEnabled ( true ) ;
}
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// update leds if necessary
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if ( priority < _muxer . getCurrentPriority ( ) )
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{
update ( ) ;
}
}
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// send clear signal to the effect engine
// (outside the check so the effect gets cleared even when the effect is not sending colors)
_effectEngine - > channelCleared ( priority ) ;
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}
void Hyperion : : clearall ( )
{
_muxer . clearAll ( ) ;
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setSourceAutoSelectEnabled ( true ) ;
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// update leds
update ( ) ;
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// send clearall signal to the effect engine
_effectEngine - > allChannelsCleared ( ) ;
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}
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int Hyperion : : getCurrentPriority ( ) const
{
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return _sourceAutoSelectEnabled | | ! _muxer . hasPriority ( _currentSourcePriority ) ? _muxer . getCurrentPriority ( ) : _currentSourcePriority ;
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}
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QList < int > Hyperion : : getActivePriorities ( ) const
{
return _muxer . getPriorities ( ) ;
}
const Hyperion : : InputInfo & Hyperion : : getPriorityInfo ( const int priority ) const
{
return _muxer . getInputInfo ( priority ) ;
}
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void Hyperion : : reloadEffects ( )
{
_effectEngine - > readEffects ( ) ;
}
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const std : : list < EffectDefinition > & Hyperion : : getEffects ( ) const
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{
return _effectEngine - > getEffects ( ) ;
}
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const std : : list < ActiveEffectDefinition > & Hyperion : : getActiveEffects ( )
{
return _effectEngine - > getActiveEffects ( ) ;
}
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const std : : list < EffectSchema > & Hyperion : : getEffectSchemas ( )
{
return _effectEngine - > getEffectSchemas ( ) ;
}
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int Hyperion : : setEffect ( const QString & effectName , int priority , int timeout , const QString origin )
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{
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return _effectEngine - > runEffect ( effectName , priority , timeout , origin ) ;
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}
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int Hyperion : : setEffect ( const QString & effectName , const QJsonObject & args , int priority , int timeout , QString pythonScript , const QString origin )
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{
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return _effectEngine - > runEffect ( effectName , args , priority , timeout , pythonScript , origin ) ;
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}
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void Hyperion : : setLedMappingType ( int mappingType )
{
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_ledMAppingType = mappingType ;
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emit imageToLedsMappingChanged ( mappingType ) ;
}
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void Hyperion : : update ( )
{
// Update the muxer, cleaning obsolete priorities
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_muxer . setCurrentTime ( QDateTime : : currentMSecsSinceEpoch ( ) ) ;
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// Obtain the current priority channel
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int priority = _sourceAutoSelectEnabled | | ! _muxer . hasPriority ( _currentSourcePriority ) ? _muxer . getCurrentPriority ( ) : _currentSourcePriority ;
const PriorityMuxer : : InputInfo & priorityInfo = _muxer . getInputInfo ( priority ) ;
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// copy ledcolors to local buffer
_ledBuffer . reserve ( _hwLedCount ) ;
_ledBuffer = priorityInfo . ledColors ;
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if ( priority < PriorityMuxer : : LOWEST_PRIORITY )
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{
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if ( priorityInfo . componentId ! = _prevCompId )
{
bool backlightEnabled = ( priorityInfo . componentId ! = hyperion : : COMP_COLOR & & priorityInfo . componentId ! = hyperion : : COMP_EFFECT ) ;
_raw2ledAdjustment - > setBacklightEnabled ( backlightEnabled ) ;
_prevCompId = priorityInfo . componentId ;
}
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_raw2ledAdjustment - > applyAdjustment ( _ledBuffer ) ;
}
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// init colororder vector, if empty
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if ( _ledStringColorOrder . empty ( ) )
{
for ( Led & led : _ledString . leds ( ) )
{
_ledStringColorOrder . push_back ( led . colorOrder ) ;
}
for ( Led & led : _ledStringClone . leds ( ) )
{
_ledStringColorOrder . insert ( _ledStringColorOrder . begin ( ) + led . index , led . colorOrder ) ;
}
}
// insert cloned leds into buffer
for ( Led & led : _ledStringClone . leds ( ) )
{
_ledBuffer . insert ( _ledBuffer . begin ( ) + led . index , _ledBuffer . at ( led . clone ) ) ;
}
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int i = 0 ;
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for ( ColorRgb & color : _ledBuffer )
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{
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//const ColorOrder ledColorOrder = leds.at(i).colorOrder;
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// correct the color byte order
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switch ( _ledStringColorOrder . at ( i ) )
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{
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case ORDER_RGB :
// leave as it is
break ;
case ORDER_BGR :
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std : : swap ( color . red , color . blue ) ;
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break ;
case ORDER_RBG :
std : : swap ( color . green , color . blue ) ;
break ;
case ORDER_GRB :
std : : swap ( color . red , color . green ) ;
break ;
case ORDER_GBR :
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std : : swap ( color . red , color . green ) ;
std : : swap ( color . green , color . blue ) ;
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break ;
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case ORDER_BRG :
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std : : swap ( color . red , color . blue ) ;
std : : swap ( color . green , color . blue ) ;
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break ;
}
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i + + ;
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}
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if ( _hwLedCount > _ledBuffer . size ( ) )
{
_ledBuffer . resize ( _hwLedCount , ColorRgb : : BLACK ) ;
}
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// Write the data to the device
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if ( _deviceSmooth - > enabled ( ) )
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_deviceSmooth - > setLedValues ( _ledBuffer ) ;
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else
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_device - > setLedValues ( _ledBuffer ) ;
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// Start the timeout-timer
if ( priorityInfo . timeoutTime_ms = = - 1 )
{
_timer . stop ( ) ;
}
else
{
int timeout_ms = std : : max ( 0 , int ( priorityInfo . timeoutTime_ms - QDateTime : : currentMSecsSinceEpoch ( ) ) ) ;
_timer . start ( timeout_ms ) ;
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}
}