Merge branch 'master' into add_v4l

Former-commit-id: b3f1d532c6145ba80c161b18214de6efbc55ff7b
This commit is contained in:
johan 2014-01-11 13:00:51 +01:00
commit fdb140c1ae
82 changed files with 2122 additions and 5280 deletions

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@ -8,7 +8,10 @@ cmake_minimum_required(VERSION 2.8)
# set the build options
option (ENABLE_DISPMANX "Enable the RPi dispmanx grabber" ON)
option (ENABLE_SPIDEV "Enable the SPIDEV device" ON)
message(STATUS "ENABLE_DISPMANX = " ${ENABLE_DISPMANX})
message(STATUS "ENABLE_SPIDEV = " ${ENABLE_SPIDEV})
option (ENABLE_V4L2 "Enable the V4L2 grabber" ON)
message(STATUS "ENABLE_V4L2 = " ${ENABLE_V4L2})
@ -42,13 +45,18 @@ include_directories(${CMAKE_SOURCE_DIR}/include)
set(CMAKE_BUILD_TYPE "Release")
# enable C++11
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++0x -Wall -g")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++0x -Wall")
#set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -stdlib=libc++ -std=c++11 -Wall")
# Configure the use of QT4
find_package(Qt4 COMPONENTS QtCore QtGui QtNetwork REQUIRED QUIET)
# add protocol buffers
# add protocol buffers (make sure to find the static version)
set(CMAKE_FIND_LIBRARY_SUFFIXES_OLD ${CMAKE_FIND_LIBRARY_SUFFIXES})
set(CMAKE_FIND_LIBRARY_SUFFIXES ".a")
find_package(Protobuf REQUIRED)
set(CMAKE_FIND_LIBRARY_SUFFIXES ${CMAKE_FIND_LIBRARY_SUFFIXES_OLD})
set(CMAKE_FIND_LIBRARY_SUFFIXES_OLD)
#add libusb and pthreads
find_package(libusb-1.0 REQUIRED)
@ -56,7 +64,10 @@ find_package(Threads REQUIRED)
include(${QT_USE_FILE})
add_definitions(${QT_DEFINITIONS})
link_directories(${CMAKE_FIND_ROOT_PATH}/lib/arm-linux-gnueabihf)
# TODO[TvdZ]: This linking directory should only be added if we are cross compiling
if(NOT APPLE)
link_directories(${CMAKE_FIND_ROOT_PATH}/lib/arm-linux-gnueabihf)
endif()
configure_file(bin/install_hyperion.sh ${LIBRARY_OUTPUT_PATH} @ONLY)
configure_file(config/hyperion.config.json ${LIBRARY_OUTPUT_PATH} @ONLY)

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@ -5,3 +5,6 @@
// Define to enable the v4l2 grabber
#cmakedefine ENABLE_V4L2
// Define to enable the spi-device
#cmakedefine ENABLE_SPIDEV

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@ -18,10 +18,12 @@ tar --create --verbose --gzip --absolute-names --show-transformed-names \
--transform "s:$builddir/bin/:hyperion/bin/:" \
--transform "s:$repodir/effects/:hyperion/effects/:" \
--transform "s:$repodir/config/:hyperion/config/:" \
--transform "s:$repodir/bin/hyperion.init.sh:hyperion/init.d/hyperion.init.sh:" \
--transform "s://:/:g" \
"$builddir/bin/hyperiond" \
"$builddir/bin/hyperion-remote" \
"$builddir/bin/gpio2spi" \
"$builddir/bin/dispmanx2png" \
"$repodir/effects/"* \
"$repodir/bin/hyperion.init.sh" \
"$repodir/config/hyperion.config.json"

62
bin/hyperion.init.sh Normal file
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@ -0,0 +1,62 @@
#!/bin/bash
# Hyperion daemon
# description: Hyperion daemon
# processname: hyperiond
DAEMON=hyperiond
DAEMONOPTS="/etc/hyperion.config.json"
DAEMON_PATH="/usr/bin"
NAME=$DEAMON
DESC="Hyperion ambilight server"
PIDFILE=/var/run/$NAME.pid
SCRIPTNAME=/etc/init.d/$NAME
case "$1" in
start)
printf "%-50s" "Starting $NAME..."
cd $DAEMON_PATH
PID=`$DAEMON $DAEMONOPTS > /dev/null 2>&1 & echo $!`
#echo "Saving PID" $PID " to " $PIDFILE
if [ -z $PID ]; then
printf "%s\n" "Fail"
else
echo $PID > $PIDFILE
printf "%s\n" "Ok"
fi
;;
status)
printf "%-50s" "Checking $NAME..."
if [ -f $PIDFILE ]; then
PID=`cat $PIDFILE`
if [ -z "`ps axf | grep ${PID} | grep -v grep`" ]; then
printf "%s\n" "Process dead but pidfile exists"
else
echo "Running"
fi
else
printf "%s\n" "Service not running"
fi
;;
stop)
printf "%-50s" "Stopping $NAME"
PID=`cat $PIDFILE`
cd $DAEMON_PATH
if [ -f $PIDFILE ]; then
kill -HUP $PID
printf "%s\n" "Ok"
rm -f $PIDFILE
else
printf "%s\n" "pidfile not found"
fi
;;
restart)
$0 stop
$0 start
;;
*)
echo "Usage: $0 {status|start|stop|restart}"
exit 1
esac

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@ -1,12 +1,21 @@
#!/bin/sh
# Make sure /sbin is on the path (for service to find sub scripts)
PATH="/sbin:$PATH"
# Script for downloading and installing the latest Hyperion release
# Find out if we are on XBian
# Find out if we are on Raspbmc
IS_XBIAN=`cat /etc/issue | grep XBian | wc -l`
IS_RASPBMC=`cat /etc/issue | grep Raspbmc | wc -l`
IS_OPENELEC=`cat /etc/issue | grep -m 1 OpenELEC | wc -l`
# check which init script we should use
USE_INITCTL=`which /sbin/initctl | wc -l`
USE_SERVICE=`which /usr/sbin/service | wc -l`
# Make sure that the boblight daemon is no longer running
BOBLIGHT_PROCNR=$(ps -e | grep "boblight" | wc -l)
BOBLIGHT_PROCNR=$(pidof boblightd | wc -l)
if [ $BOBLIGHT_PROCNR -eq 1 ];
then
echo 'Found running instance of boblight. Please stop boblight via XBMC menu before installing hyperion'
@ -14,29 +23,73 @@ then
fi
# Stop hyperion daemon if it is running
/sbin/initctl stop hyperion
# Start the hyperion daemon
if [ $USE_INITCTL -eq 1 ]; then
/sbin/initctl stop hyperion
elif [ $USE_SERVICE -eq 1 ]; then
/usr/sbin/service hyperion stop
fi
# Get and extract the Hyperion binaries and effects to /opt
wget https://raw.github.com/tvdzwan/hyperion/master/deploy/hyperion.tar.gz -O - | tar -C /opt -xz
# Get and extract the Hyperion binaries and effects
echo 'Downloading hyperion'
if [ $IS_OPENELEC -eq 1 ]; then
# OpenELEC has a readonly file system. Use alternative location
curl --get https://raw.github.com/tvdzwan/hyperion/master/deploy/hyperion.tar.gz | tar -C /storage -xz
curl --get https://raw.github.com/tvdzwan/hyperion/master/deploy/hyperion.deps.openelec-rpi.tar.gz | tar -C /storage/hyperion/bin -xz
# modify the default config to have a correct effect path
sed -i 's:/opt:/storage:g' /storage/hyperion/config/hyperion.config.json
else
wget https://raw.github.com/tvdzwan/hyperion/master/deploy/hyperion.tar.gz -O - | tar -C /opt -xz
fi
# create links to the binaries
ln -fs /opt/hyperion/bin/hyperiond /usr/bin/hyperiond
ln -fs /opt/hyperion/bin/hyperion-remote /usr/bin/hyperion-remote
if [ $IS_OPENELEC -ne 1 ]; then
ln -fs /opt/hyperion/bin/hyperiond /usr/bin/hyperiond
ln -fs /opt/hyperion/bin/hyperion-remote /usr/bin/hyperion-remote
fi
# create link to the gpio changer (gpio->spi)
if [ $IS_XBIAN -eq 0 ]; then
if [ $IS_RASPBMC -eq 1 ]; then
ln -fs /opt/hyperion/bin/gpio2spi /usr/bin/gpio2spi
fi
# Copy a link to the hyperion configuration file to /etc
ln -s /opt/hyperion/config/hyperion.config.json /etc/hyperion.config.json
if [ $IS_OPENELEC -eq 1 ]; then
# copy to alternate location, because of readonly file system
# /storage/.config is available as samba share. A symbolic link would not be working
false | cp -i /storage/hyperion/config/hyperion.config.json /storage/.config/hyperion.config.json 2>/dev/null
else
ln -s /opt/hyperion/config/hyperion.config.json /etc/hyperion.config.json
fi
# Copy the service control configuration to /etc/int
if [ $IS_XBIAN -eq 0 ]; then
wget -N https://raw.github.com/tvdzwan/hyperion/master/deploy/hyperion.conf -P /etc/init/
else
wget -N https://raw.github.com/tvdzwan/hyperion/master/deploy/hyperion.xbian.conf -O /etc/init/hyperion.conf
if [ $USE_INITCTL -eq 1 ]; then
echo 'Installing initctl script'
if [ $IS_RASPBMC -eq 1 ]; then
wget -N https://raw.github.com/tvdzwan/hyperion/master/deploy/hyperion.conf -P /etc/init/
else
wget -N https://raw.github.com/tvdzwan/hyperion/master/deploy/hyperion.xbian.conf -O /etc/init/hyperion.conf
fi
elif [ $USE_SERVICE -eq 1 ]; then
echo 'Installing startup script in init.d'
# place startup script in init.d and add it to upstart
ln -fs /opt/hyperion/init.d/hyperion.init.sh /etc/init.d/hyperion
chmod +x /etc/init.d/hyperion
update-rc.d hyperion defaults 98 02
elif [ $IS_OPENELEC -eq 1 ]; then
# only add to start script if hyperion is not present yet
if [ `cat /storage/.config/autostart.sh 2>/dev/null | grep hyperiond | wc -l` -eq 0 ]; then
echo 'Adding Hyperion to autostart script'
echo "/storage/hyperion/bin/hyperiond.sh /storage/.config/hyperion.config.json > /dev/null 2>&1 &" >> /storage/.config/autostart.sh
chmod +x /storage/.config/autostart.sh
fi
fi
# Start the hyperion daemon
/sbin/initctl start hyperion
if [ $USE_INITCTL -eq 1 ]; then
/sbin/initctl start hyperion
elif [ $USE_SERVICE -eq 1 ]; then
/usr/sbin/service hyperion start
fi

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@ -0,0 +1,21 @@
# -----------------------------------------------------------------------------
# Find IOKit framework (Mac OS X).
#
# Define:
# CoreFoundation_FOUND
# CoreFoundation_INCLUDE_DIR
# CoreFoundation_LIBRARY
set(CoreFoundation_FOUND false)
set(CoreFoundation_INCLUDE_DIR)
set(CoreFoundation_LIBRARY)
if(APPLE)
# The only platform it makes sense to check for CoreFoundation
find_library(CoreFoundation CoreFoundation)
if(CoreFoundation)
set(CoreFoundation_FOUND true)
set(CoreFoundation_INCLUDE_DIR ${CoreFoundation})
set(CoreFoundation_LIBRARY ${CoreFoundation})
endif(CoreFoundation)
endif(APPLE)

21
cmake/FindIOKit.cmake Normal file
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@ -0,0 +1,21 @@
# -----------------------------------------------------------------------------
# Find IOKit framework (Mac OS X).
#
# Define:
# IOKit_FOUND
# IOKit_INCLUDE_DIR
# IOKit_LIBRARY
set(IOKit_FOUND false)
set(IOKit_INCLUDE_DIR)
set(IOKit_LIBRARY)
if(APPLE)
# The only platform it makes sense to check for IOKit
find_library(IOKit IOKit)
if(IOKit)
set(IOKit_FOUND true)
set(IOKit_INCLUDE_DIR ${IOKit})
set(IOKit_LIBRARY ${IOKit})
endif(IOKit)
endif(APPLE)

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@ -1,16 +1,37 @@
project(hidapi)
#add libusb and pthreads
find_package(libusb-1.0 REQUIRED)
find_package(Threads REQUIRED)
# Add the 'generic' hidapi include directory
include_directories(../../include/hidapi)
include_directories(
../../include/hidapi
${LIBUSB_1_INCLUDE_DIRS})
#TODO[TvdZ]: Rename hidapi-??? to hidapi
if(APPLE)
add_library(hidapi-libusb hid-libusb.c)
find_package(IOKit REQUIRED)
find_package(CoreFoundation REQUIRED)
target_link_libraries(hidapi-libusb
${LIBUSB_1_LIBRARIES} #apt-get install libusb-1.0-0-dev
${CMAKE_THREAD_LIBS_INIT}
)
include_directories($IOKit_INCLUDE_DIRS})
include_directories($CoreFoundation_INCLUDE_DIRS})
# HIDAPI library specific for MacOS
add_library(hidapi-mac hid-mac.c)
target_link_libraries(hidapi-mac
${IOKit_LIBRARY}
${CoreFoundation_LIBRARY})
elseif(UNIX)
# HIDAPI library based on lib-usb
#add libusb and pthreads
find_package(libusb-1.0 REQUIRED)
find_package(Threads REQUIRED)
include_directories(${LIBUSB_1_INCLUDE_DIRS})
add_library(hidapi-libusb hid-libusb.c)
target_link_libraries(hidapi-libusb
${LIBUSB_1_LIBRARIES} #apt-get install libusb-1.0-0-dev
${CMAKE_THREAD_LIBS_INIT}
)
endif()

1112
dependencies/build/hidapi/hid-mac.c vendored Normal file

File diff suppressed because it is too large Load Diff

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@ -0,0 +1 @@
4d50c38a61c9f32a15b29ef3b3953c2835fa9cac

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@ -1 +1 @@
27dcc318ae9a9226676fb33626500e57703d7b6d
69287788649383ba7926e315debc69b7f4bd82a0

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@ -57,7 +57,6 @@ target_link_libraries(hyperion
hyperion-utils
leddevice
effectengine
hidapi-libusb
serialport
${QT_LIBRARIES}
)

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@ -1,6 +1,7 @@
// STL includes
#include <algorithm>
#include <cmath>
#include <cassert>
// hyperion includes

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@ -7,9 +7,6 @@
// Qt includes
#include <QTimer>
// Linux-SPI includes
#include <linux/spi/spidev.h>
// hyperion incluse
#include <leddevice/LedDevice.h>

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@ -20,38 +20,52 @@ SET(Leddevice_HEADERS
${CURRENT_HEADER_DIR}/LedDevice.h
${CURRENT_HEADER_DIR}/LedDeviceFactory.h
${CURRENT_SOURCE_DIR}/LedSpiDevice.h
${CURRENT_SOURCE_DIR}/LedRs232Device.h
${CURRENT_SOURCE_DIR}/LedDeviceTest.h
${CURRENT_SOURCE_DIR}/LedDeviceSedu.h
${CURRENT_SOURCE_DIR}/LedDeviceWs2801.h
${CURRENT_SOURCE_DIR}/LedDeviceWs2811.h
${CURRENT_SOURCE_DIR}/LedDeviceWs2812b.h
${CURRENT_SOURCE_DIR}/LedDeviceLpd6803.h
${CURRENT_SOURCE_DIR}/LedDeviceLpd8806.h
${CURRENT_SOURCE_DIR}/LedDeviceLightpack.h
${CURRENT_SOURCE_DIR}/LedDevicePaintpack.h
${CURRENT_SOURCE_DIR}/LedDeviceMultiLightpack.h
${CURRENT_SOURCE_DIR}/LedDevicePaintpack.h
${CURRENT_SOURCE_DIR}/LedDevicePiBlaster.h
${CURRENT_SOURCE_DIR}/LedDeviceSedu.h
${CURRENT_SOURCE_DIR}/LedDeviceTest.h
${CURRENT_SOURCE_DIR}/LedDeviceWs2812b.h
${CURRENT_SOURCE_DIR}/LedDeviceWs2811.h
)
SET(Leddevice_SOURCES
${CURRENT_SOURCE_DIR}/LedDeviceFactory.cpp
${CURRENT_SOURCE_DIR}/LedSpiDevice.cpp
${CURRENT_SOURCE_DIR}/LedRs232Device.cpp
${CURRENT_SOURCE_DIR}/LedDeviceSedu.cpp
${CURRENT_SOURCE_DIR}/LedDeviceTest.cpp
${CURRENT_SOURCE_DIR}/LedDeviceWs2801.cpp
${CURRENT_SOURCE_DIR}/LedDeviceWs2811.cpp
${CURRENT_SOURCE_DIR}/LedDeviceWs2812b.cpp
${CURRENT_SOURCE_DIR}/LedDeviceLpd6803.cpp
${CURRENT_SOURCE_DIR}/LedDeviceLpd8806.cpp
${CURRENT_SOURCE_DIR}/LedDeviceAdalight.cpp
${CURRENT_SOURCE_DIR}/LedDeviceLightpack.cpp
${CURRENT_SOURCE_DIR}/LedDevicePaintpack.cpp
${CURRENT_SOURCE_DIR}/LedDeviceMultiLightpack.cpp
${CURRENT_SOURCE_DIR}/LedDevicePaintpack.cpp
${CURRENT_SOURCE_DIR}/LedDevicePiBlaster.cpp
${CURRENT_SOURCE_DIR}/LedDeviceSedu.cpp
${CURRENT_SOURCE_DIR}/LedDeviceTest.cpp
${CURRENT_SOURCE_DIR}/LedDeviceWs2811.cpp
${CURRENT_SOURCE_DIR}/LedDeviceWs2812b.cpp
)
if(ENABLE_SPIDEV)
SET(Leddevice_HEADERS
${Leddevice_HEADERS}
${CURRENT_SOURCE_DIR}/LedSpiDevice.h
${CURRENT_SOURCE_DIR}/LedDeviceLpd6803.h
${CURRENT_SOURCE_DIR}/LedDeviceLpd8806.h
${CURRENT_SOURCE_DIR}/LedDeviceWs2801.h
)
SET(Leddevice_SOURCES
${Leddevice_SOURCES}
${CURRENT_SOURCE_DIR}/LedSpiDevice.cpp
${CURRENT_SOURCE_DIR}/LedDeviceLpd6803.cpp
${CURRENT_SOURCE_DIR}/LedDeviceLpd8806.cpp
${CURRENT_SOURCE_DIR}/LedDeviceWs2801.cpp
)
endif(ENABLE_SPIDEV)
QT4_WRAP_CPP(Leddevice_HEADERS_MOC ${Leddevice_QT_HEADERS})
add_library(leddevice
@ -63,9 +77,13 @@ add_library(leddevice
target_link_libraries(leddevice
hyperion-utils
hidapi-libusb
serialport
${LIBUSB_1_LIBRARIES} #apt-get install libusb-1.0-0-dev
${CMAKE_THREAD_LIBS_INIT}
${QT_LIBRARIES}
)
if(APPLE)
target_link_libraries(leddevice hidapi-mac)
else()
target_link_libraries(leddevice hidapi-libusb)
endif()

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@ -1,19 +1,26 @@
// Build configuration
#include <HyperionConfig.h>
// Leddevice includes
#include <leddevice/LedDeviceFactory.h>
// Local Leddevice includes
#include "LedDeviceLpd6803.h"
#include "LedDeviceLpd8806.h"
#include "LedDeviceSedu.h"
#include "LedDeviceTest.h"
#include "LedDeviceWs2801.h"
#include "LedDeviceWs2811.h"
#include "LedDeviceWs2812b.h"
#ifdef ENABLE_SPIDEV
#include "LedDeviceLpd6803.h"
#include "LedDeviceLpd8806.h"
#include "LedDeviceWs2801.h"
#endif
#include "LedDeviceAdalight.h"
#include "LedDevicePaintpack.h"
#include "LedDeviceLightpack.h"
#include "LedDeviceMultiLightpack.h"
#include "LedDevicePaintpack.h"
#include "LedDevicePiBlaster.h"
#include "LedDeviceSedu.h"
#include "LedDeviceTest.h"
#include "LedDeviceWs2811.h"
#include "LedDeviceWs2812b.h"
LedDevice * LedDeviceFactory::construct(const Json::Value & deviceConfig)
{
@ -23,40 +30,18 @@ LedDevice * LedDeviceFactory::construct(const Json::Value & deviceConfig)
std::transform(type.begin(), type.end(), type.begin(), ::tolower);
LedDevice* device = nullptr;
if (type == "ws2801" || type == "lightberry")
if (false) {}
else if (type == "adalight")
{
const std::string output = deviceConfig["output"].asString();
const unsigned rate = deviceConfig["rate"].asInt();
LedDeviceWs2801* deviceWs2801 = new LedDeviceWs2801(output, rate);
deviceWs2801->open();
LedDeviceAdalight* deviceAdalight = new LedDeviceAdalight(output, rate);
deviceAdalight->open();
device = deviceWs2801;
device = deviceAdalight;
}
else if (type == "ws2812b")
{
LedDeviceWs2812b * deviceWs2812b = new LedDeviceWs2812b();
deviceWs2812b->open();
device = deviceWs2812b;
}
// else if (type == "ws2811")
// {
// const std::string output = deviceConfig["output"].asString();
// const std::string outputSpeed = deviceConfig["output"].asString();
// const std::string timingOption = deviceConfig["timingOption"].asString();
// ws2811::SpeedMode speedMode = (outputSpeed == "high")? ws2811::highspeed : ws2811::lowspeed;
// if (outputSpeed != "high" && outputSpeed != "low")
// {
// std::cerr << "Incorrect speed-mode selected for WS2811: " << outputSpeed << " != {'high', 'low'}" << std::endl;
// }
// LedDeviceWs2811 * deviceWs2811 = new LedDeviceWs2811(output, ws2811::fromString(timingOption, ws2811::option_2855), speedMode);
// deviceWs2811->open();
// device = deviceWs2811;
// }
#ifdef ENABLE_SPIDEV
else if (type == "lpd6803" || type == "ldp6803")
{
const std::string output = deviceConfig["output"].asString();
@ -77,26 +62,34 @@ LedDevice * LedDeviceFactory::construct(const Json::Value & deviceConfig)
device = deviceLpd8806;
}
else if (type == "sedu")
else if (type == "ws2801" || type == "lightberry")
{
const std::string output = deviceConfig["output"].asString();
const unsigned rate = deviceConfig["rate"].asInt();
LedDeviceSedu* deviceSedu = new LedDeviceSedu(output, rate);
deviceSedu->open();
LedDeviceWs2801* deviceWs2801 = new LedDeviceWs2801(output, rate);
deviceWs2801->open();
device = deviceSedu;
device = deviceWs2801;
}
else if (type == "adalight")
{
const std::string output = deviceConfig["output"].asString();
const unsigned rate = deviceConfig["rate"].asInt();
#endif
// else if (type == "ws2811")
// {
// const std::string output = deviceConfig["output"].asString();
// const std::string outputSpeed = deviceConfig["output"].asString();
// const std::string timingOption = deviceConfig["timingOption"].asString();
LedDeviceAdalight* deviceAdalight = new LedDeviceAdalight(output, rate);
deviceAdalight->open();
// ws2811::SpeedMode speedMode = (outputSpeed == "high")? ws2811::highspeed : ws2811::lowspeed;
// if (outputSpeed != "high" && outputSpeed != "low")
// {
// std::cerr << "Incorrect speed-mode selected for WS2811: " << outputSpeed << " != {'high', 'low'}" << std::endl;
// }
device = deviceAdalight;
}
// LedDeviceWs2811 * deviceWs2811 = new LedDeviceWs2811(output, ws2811::fromString(timingOption, ws2811::option_2855), speedMode);
// deviceWs2811->open();
// device = deviceWs2811;
// }
else if (type == "lightpack")
{
const std::string output = deviceConfig.get("output", "").asString();
@ -106,6 +99,13 @@ LedDevice * LedDeviceFactory::construct(const Json::Value & deviceConfig)
device = deviceLightpack;
}
else if (type == "multi-lightpack")
{
LedDeviceMultiLightpack* deviceLightpack = new LedDeviceMultiLightpack();
deviceLightpack->open();
device = deviceLightpack;
}
else if (type == "paintpack")
{
LedDevicePaintpack * devicePainLightpack = new LedDevicePaintpack();
@ -113,18 +113,38 @@ LedDevice * LedDeviceFactory::construct(const Json::Value & deviceConfig)
device = devicePainLightpack;
}
else if (type == "multi-lightpack")
else if (type == "piblaster")
{
LedDeviceMultiLightpack* deviceLightpack = new LedDeviceMultiLightpack();
deviceLightpack->open();
const std::string output = deviceConfig.get("output", "").asString();
const std::string assignment = deviceConfig.get("assignment", "").asString();
device = deviceLightpack;
LedDevicePiBlaster * devicePiBlaster = new LedDevicePiBlaster(output, assignment);
devicePiBlaster->open();
device = devicePiBlaster;
}
else if (type == "sedu")
{
const std::string output = deviceConfig["output"].asString();
const unsigned rate = deviceConfig["rate"].asInt();
LedDeviceSedu* deviceSedu = new LedDeviceSedu(output, rate);
deviceSedu->open();
device = deviceSedu;
}
else if (type == "test")
{
const std::string output = deviceConfig["output"].asString();
device = new LedDeviceTest(output);
}
else if (type == "ws2812b")
{
LedDeviceWs2812b * deviceWs2812b = new LedDeviceWs2812b();
deviceWs2812b->open();
device = deviceWs2812b;
}
else
{
std::cout << "Unable to create device " << type << std::endl;

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@ -0,0 +1,130 @@
// STL includes
#include <cerrno>
#include <cstring>
// QT includes
#include <QFile>
// Local LedDevice includes
#include "LedDevicePiBlaster.h"
LedDevicePiBlaster::LedDevicePiBlaster(const std::string & deviceName, const std::string & channelAssignment) :
_deviceName(deviceName),
_channelAssignment(channelAssignment),
_fid(nullptr)
{
// empty
}
LedDevicePiBlaster::~LedDevicePiBlaster()
{
// Close the device (if it is opened)
if (_fid != nullptr)
{
fclose(_fid);
_fid = nullptr;
}
}
int LedDevicePiBlaster::open(bool report)
{
if (_fid != nullptr)
{
// The file pointer is already open
if (report)
{
std::cerr << "Attempt to open allready opened device (" << _deviceName << ")" << std::endl;
}
return -1;
}
if (!QFile::exists(_deviceName.c_str()))
{
if (report)
{
std::cerr << "The device(" << _deviceName << ") does not yet exist, can not connect (yet)." << std::endl;
}
return -1;
}
_fid = fopen(_deviceName.c_str(), "w");
if (_fid == nullptr)
{
if (report)
{
std::cerr << "Failed to open device (" << _deviceName << "). Error message: " << strerror(errno) << std::endl;
}
return -1;
}
std::cout << "Connect to device(" << _deviceName << ")" << std::endl;
return 0;
}
//Channel number GPIO number Pin in P1 header
// 0 4 P1-7
// 1 17 P1-11
// 2 18 P1-12
// 3 21 P1-13
// 4 22 P1-15
// 5 23 P1-16
// 6 24 P1-18
// 7 25 P1-22
int LedDevicePiBlaster::write(const std::vector<ColorRgb> & ledValues)
{
// Attempt to open if not yet opened
if (_fid == nullptr && open(false) < 0)
{
return -1;
}
unsigned colorIdx = 0;
for (unsigned iChannel=0; iChannel<8; ++iChannel)
{
double pwmDutyCycle = 0.0;
switch (_channelAssignment[iChannel])
{
case 'r':
pwmDutyCycle = ledValues[colorIdx].red / 255.0;
++colorIdx;
break;
case 'g':
pwmDutyCycle = ledValues[colorIdx].green / 255.0;
++colorIdx;
break;
case 'b':
pwmDutyCycle = ledValues[colorIdx].blue / 255.0;
++colorIdx;
break;
default:
continue;
}
fprintf(_fid, "%i=%f\n", iChannel, pwmDutyCycle);
fflush(_fid);
}
return 0;
}
int LedDevicePiBlaster::switchOff()
{
// Attempt to open if not yet opened
if (_fid == nullptr && open(false) < 0)
{
return -1;
}
for (unsigned iChannel=0; iChannel<8; ++iChannel)
{
if (_channelAssignment[iChannel] != ' ')
{
fprintf(_fid, "%i=%f\n", iChannel, 0.0);
fflush(_fid);
}
}
return 0;
}

View File

@ -0,0 +1,59 @@
#pragma once
// STL includes
#include <cstdio>
// Hyperion-Leddevice includes
#include <leddevice/LedDevice.h>
class LedDevicePiBlaster : public LedDevice
{
public:
///
/// Constructs the PiBlaster device which writes to the indicated device and for the assigned
/// channels
/// @param deviceName The name of the output device
/// @param channelAssignment The RGB-Channel assignment (8 characters long)
///
LedDevicePiBlaster(const std::string & deviceName, const std::string & channelAssignment);
virtual ~LedDevicePiBlaster();
///
/// Attempts to open the piblaster-device. This will only succeed if the device is not yet open
/// and the device is available.
///
/// @param report If true errors are writen to the standard error else silent
/// @return Zero on succes else negative
///
int open(bool report = true);
///
/// Writes the colors to the PiBlaster device
///
/// @param ledValues The color value for each led
///
/// @return Zero on success else negative
///
int write(const std::vector<ColorRgb> &ledValues);
///
/// Switches off the leds
///
/// @return Zero on success else negative
///
int switchOff();
private:
/// The name of the output device (very likely '/dev/pi-blaster')
const std::string _deviceName;
/// String with eight characters with the rgb-channel assignment per pwm-channel
/// ('r' = red, 'g' = green, 'b' = blue, ' ' = empty)
const std::string _channelAssignment;
/// File-Pointer to the PiBlaster device
FILE * _fid;
};

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@ -1,90 +1,96 @@
// Linux includes
#include <unistd.h>
// Local Hyperion-Leddevice includes
#include "LedDeviceWs2812b.h"
LedDeviceWs2812b::LedDeviceWs2812b() :
LedRs232Device("/dev/ttyAMA0", 4000000)
LedRs232Device("/dev/ttyAMA0", 2000000)
{
fillTable();
// empty
}
int LedDeviceWs2812b::write(const std::vector<ColorRgb> & ledValues)
{
// Ensure the size of the led-buffer
if (_ledBuffer.size() != ledValues.size()*3)
if (_ledBuffer.size() != ledValues.size()*8)
{
_ledBuffer.resize(ledValues.size()*3);
_ledBuffer.resize(ledValues.size()*8, ~0x24);
}
// Translate the channel of each color to a signal
auto bufIt = _ledBuffer.begin();
for (const ColorRgb& color : ledValues)
uint8_t * signal_ptr = _ledBuffer.data();
for (const ColorRgb & color : ledValues)
{
*bufIt++ = _byte2signalTable[color.red];
*bufIt++ = _byte2signalTable[color.green];
*bufIt++ = _byte2signalTable[color.blue];
signal_ptr = color2signal(color, signal_ptr);
}
return writeBytes(_ledBuffer.size()*sizeof(ByteSignal), reinterpret_cast<uint8_t *>(_ledBuffer.data()));
const int result = writeBytes(_ledBuffer.size(), _ledBuffer.data());
// Official latch time is 50us (lets give it 50us more)
usleep(100);
return result;
}
uint8_t * LedDeviceWs2812b::color2signal(const ColorRgb & color, uint8_t * signal)
{
*signal = bits2Signal(color.red & 0x80, color.red & 0x40, color.red & 0x20);
++signal;
*signal = bits2Signal(color.red & 0x10, color.red & 0x08, color.red & 0x04);
++signal;
*signal = bits2Signal(color.red & 0x02, color.green & 0x01, color.green & 0x80);
++signal;
*signal = bits2Signal(color.green & 0x40, color.green & 0x20, color.green & 0x10);
++signal;
*signal = bits2Signal(color.green & 0x08, color.green & 0x04, color.green & 0x02);
++signal;
*signal = bits2Signal(color.green & 0x01, color.blue & 0x80, color.blue & 0x40);
++signal;
*signal = bits2Signal(color.blue & 0x20, color.blue & 0x10, color.blue & 0x08);
++signal;
*signal = bits2Signal(color.blue & 0x04, color.blue & 0x02, color.blue & 0x01);
++signal;
return signal;
}
int LedDeviceWs2812b::switchOff()
{
// Set all bytes in the signal buffer to zero
for (ByteSignal & signal : _ledBuffer)
for (uint8_t & signal : _ledBuffer)
{
signal = _byte2signalTable[0];
signal = ~0x24;
}
return writeBytes(_ledBuffer.size()*sizeof(ByteSignal), reinterpret_cast<uint8_t *>(_ledBuffer.data()));
return writeBytes(_ledBuffer.size(), _ledBuffer.data());
}
void LedDeviceWs2812b::fillTable()
{
_byte2signalTable.clear();
for (int byte=0; byte<256; ++byte)
{
const ByteSignal signal = byte2Signal(uint8_t(byte));
_byte2signalTable.push_back(signal);
}
}
LedDeviceWs2812b::ByteSignal LedDeviceWs2812b::byte2Signal(const uint8_t byte) const
{
ByteSignal result;
result.bit_12 = bits2Signal(byte & 0x80, byte & 0x40);
result.bit_34 = bits2Signal(byte & 0x20, byte & 0x10);
result.bit_56 = bits2Signal(byte & 0x08, byte & 0x04);
result.bit_78 = bits2Signal(byte & 0x02, byte & 0x01);
return result;
}
uint8_t LedDeviceWs2812b::bits2Signal(const bool bit1, const bool bit2) const
uint8_t LedDeviceWs2812b::bits2Signal(const bool bit_1, const bool bit_2, const bool bit_3) const
{
// See https://github.com/tvdzwan/hyperion/wiki/Ws2812b for the explanation of the given
// translations
if (bit1)
// Bit index(default):1 2 3
// | | |
// default value (1) 00 100 10 (0)
//
// Reversed value (1) 01 001 00 (0)
// | | |
// Bit index (rev): 3 2 1
uint8_t result = 0x24;
if(bit_1)
{
if (bit2)
{
return 0x8C;
}
else
{
return 0xCC;
}
result |= 0x01;
}
else
if (bit_2)
{
if (bit2)
{
return 0x8E;
}
else
{
return 0xCE;
}
result |= 0x08;
}
if (bit_3)
{
result |= 0x40;
}
return 0x00;
return ~result;
}

View File

@ -34,43 +34,27 @@ public:
private:
///
/// Structure holding the four output-bytes corresponding to a single input byte
/// Translate a color to the signal bits. The resulting bits are written to the given memory.
///
struct ByteSignal
{
uint8_t bit_12;
uint8_t bit_34;
uint8_t bit_56;
uint8_t bit_78;
};
/// Translation table from single input-byte to output-bytes
std::vector<ByteSignal> _byte2signalTable;
/// @param color The color to translate
/// @param signal The pointer at the beginning of the signal to write
/// @return The pointer at the end of the written signal
///
uint8_t * color2signal(const ColorRgb & color, uint8_t * signal);
///
/// Fills the translation table (_byte2signalTable)
///
void fillTable();
///
/// Computes the output bytes that belong to a given input-byte (no table lookup)
///
/// @param byte The input byte
/// @return The four bytes (ByteSignal) for the output signal
///
ByteSignal byte2Signal(const uint8_t byte) const;
///
/// Translates two bits to a single byte
/// Translates three bits to a single byte
///
/// @param bit1 The value of the first bit (1=true, zero=false)
/// @param bit1 The value of the ssecond bit (1=true, zero=false)
/// @param bit2 The value of the second bit (1=true, zero=false)
/// @param bit3 The value of the third bit (1=true, zero=false)
///
/// @return The output-byte for the given two bit
///
uint8_t bits2Signal(const bool bit1, const bool bit2) const;
uint8_t bits2Signal(const bool bit1, const bool bit2, const bool bit3) const;
///
/// The output buffer for writing bytes to the output
///
std::vector<ByteSignal> _ledBuffer;
std::vector<uint8_t> _ledBuffer;
};

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@ -57,6 +57,7 @@ int LedRs232Device::writeBytes(const unsigned size, const uint8_t * data)
try
{
_rs232Port.flushOutput();
_rs232Port.write(data, size);
_rs232Port.flush();
}

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@ -1 +0,0 @@
/.metadata

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@ -1,6 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<classpath>
<classpathentry kind="src" path="src"/>
<classpathentry kind="con" path="org.eclipse.jdt.launching.JRE_CONTAINER/org.eclipse.jdt.internal.debug.ui.launcher.StandardVMType/JavaSE-1.7"/>
<classpathentry kind="output" path="classes"/>
</classpath>

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@ -1,3 +0,0 @@
/.settings
/classes
/hyerpcon.dat

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@ -1,17 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<projectDescription>
<name>ConfigTool</name>
<comment></comment>
<projects>
</projects>
<buildSpec>
<buildCommand>
<name>org.eclipse.jdt.core.javabuilder</name>
<arguments>
</arguments>
</buildCommand>
</buildSpec>
<natures>
<nature>org.eclipse.jdt.core.javanature</nature>
</natures>
</projectDescription>

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@ -1,32 +0,0 @@
<?xml version="1.0"?>
<project default="main" basedir=".">
<tstamp/>
<property name="version" value="1.0" />
<property name="deploy.dir" value="${basedir}/../../../deploy" />
<target name="main" depends="make_deploy_dir, build" description="Build HyperCon, the Hyperion configuration file builder" />
<target name="build" depends="make_deploy_dir" description="Create HyperCon.jar">
<jar destfile="HyperCon.jar">
<manifest>
<attribute name="Main-Class" value="org.hyperion.hypercon.Main" />
<attribute name="Specification-Title" value="HyperCon"/>
<attribute name="Specification-Version" value="${version}"/>
<attribute name="Specification-Vendor" value="Hyperion Team"/>
<attribute name="Implementation-Title" value="org.hyperion"/>
<attribute name="Implementation-Version" value="${version} - ${TODAY}"/>
<attribute name="Implementation-Vendor" value="Hyperion Team"/>
</manifest>
<fileset dir="classes" />
</jar>
<move file="HyperCon.jar" todir="${deploy.dir}" />
</target>
<target name="make_deploy_dir">
<mkdir dir="${deploy.dir}" />
</target>
</project>

View File

@ -1,288 +0,0 @@
package org.hyperion.hypercon;
import java.awt.Color;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.lang.reflect.Field;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.lang.reflect.ParameterizedType;
import java.util.Properties;
import java.util.Vector;
import java.util.zip.GZIPInputStream;
import java.util.zip.GZIPOutputStream;
/**
* Class for supporting the serialisation and deserialisation of HyperCon settings.
*/
public class ConfigurationFile {
/** Temporary storage of the HyperCon configuration */
private final Properties mProps = new Properties();
/**
* Loads the configuration of HyperCon from the given filename into this {@link ConfigurationFile}
*
* @param pFilename The absolute filename containing the configuration
*/
public void load(String pFilename) {
mProps.clear();
// try (InputStream in = new InflaterInputStream(new FileInputStream(pFilename))){
try (InputStream in = new GZIPInputStream(new FileInputStream(pFilename))){
// try (InputStream in = new FileInputStream(pFilename)) {
mProps.load(in);
} catch (Throwable t) {
// TODO Auto-generated catch block
t.printStackTrace();
}
}
/**
* Saves the configuration of this {@link ConfigurationFile} to the given filename
*
* @param pFilename The absolute filename to which to save the HyperCon configuration
*/
public void save(String pFilename) {
// try (OutputStream out = new DeflaterOutputStream(new FileOutputStream(pFilename))) {
try (OutputStream out = new GZIPOutputStream(new FileOutputStream(pFilename))) {
// try (OutputStream out = (new FileOutputStream(pFilename))) {
mProps.store(out, "Pesistent settings file for HyperCon");
} catch (IOException e) {
e.printStackTrace();
}
}
/**
* Stores the given object to the local properties object
*
* @param pObj The object to store
*/
public void store(Object pObj) {
store(pObj, pObj.getClass().getSimpleName(), "");
}
/**
* Stores the given object to the local properties object (with given preamble and postamble)
*
* @param pObj The object to store
* @param preamble The preamble prepended to the key of the object members
* @param postamble The postamble appended to the key of the object members
*/
public void store(Object pObj, String preamble, String postamble) {
String className = pObj.getClass().getSimpleName();
// Retrieve the member variables
Field[] fields = pObj.getClass().getDeclaredFields();
// Iterate each variable
for (Field field : fields) {
if (!Modifier.isPublic(field.getModifiers())) {
System.out.println("Unable to synchronise non-public field(" + field.getName() + ") in configuration structure(" + className + ")");
continue;
}
String key = preamble + "." + field.getName() + postamble;
try {
Object value = field.get(pObj);
if (field.getType() == boolean.class) {
mProps.setProperty(key, Boolean.toString((boolean) value));
} else if (field.getType() == int.class) {
mProps.setProperty(key, Integer.toString((int) value));
} else if (field.getType() == double.class) {
mProps.setProperty(key, Double.toString((double) value));
} else if (field.getType() == String.class) {
mProps.setProperty(key, (String)value);
} else if (field.getType() == Color.class) {
Color color = (Color)value;
mProps.setProperty(key, String.format("[%d; %d; %d]", color.getRed(), color.getGreen(), color.getBlue()));
} else if (value.getClass().isEnum()) {
mProps.setProperty(key, ((Enum<?>)value).name());
} else if (value instanceof Vector) {
@SuppressWarnings("unchecked")
Vector<Object> v = (Vector<Object>) value;
for (int i=0; i<v.size(); ++i) {
store(v.get(i), key + "[" + i + "]", "");
}
} else if (field.getType() == Object.class) {
if (value instanceof Boolean) {
mProps.setProperty(key, Boolean.toString((boolean) value));
} if (value instanceof Integer) {
mProps.setProperty(key, Integer.toString((int) value));
} else if (value instanceof Double) {
mProps.setProperty(key, Double.toString((double) value));
} else if (value instanceof Color) {
Color color = (Color)value;
mProps.setProperty(key, String.format("[%d; %d; %d]", color.getRed(), color.getGreen(), color.getBlue()));
} else if (value instanceof String) {
mProps.setProperty(key, '"' + (String)value + '"');
}
} else {
System.out.println("Might not be able to load: " + key + " = " + value.toString());
mProps.setProperty(key, value.toString());
}
} catch (Throwable t) {}
}
}
/**
* Restores the object from the local properties object
*
* @param pObj The object to restore
*/
public void restore(Object pObj) {
restore(pObj, mProps);
}
/**
* Restores the object from the given object object
*
* @param pObj The object to restore
* @param pProps The properties containing values for the members of obj
*/
public void restore(Object pObj, Properties pProps) {
String className = pObj.getClass().getSimpleName();
restore(pObj, pProps, className + ".");
}
/**
* Restores the object from the given settings object, using the given preamble
*
* @param pObj The object to restore
* @param pProps The properties containing values for the members of obj
* @param pPreamble The preamble to use
*/
@SuppressWarnings("unchecked")
public void restore(Object pObj, Properties pProps, String pPreamble) {
// Retrieve the member variables
Field[] fields = pObj.getClass().getDeclaredFields();
// Iterate each variable
for (Field field : fields) {
if (field.getType().equals(Vector.class)) {
// Obtain the Vector
Vector<Object> vector;
try {
vector = (Vector<Object>)field.get(pObj);
} catch (Throwable t) {
t.printStackTrace();
break;
}
// Clear existing elements from the vector
vector.clear();
// Iterate through the properties to find the indices of the vector
int i=0;
while (true) {
String curIndexKey = pPreamble + field.getName() + "[" + i + "]";
Properties elemProps = new Properties();
// Find all the elements for the current vector index
for (Object keyObj : pProps.keySet()) {
String keyStr = (String)keyObj;
if (keyStr.startsWith(curIndexKey)) {
// Remove the name and dot
elemProps.put(keyStr.substring(curIndexKey.length()+1), pProps.get(keyStr));
}
}
if (elemProps.isEmpty()) {
// Found no more elements for the vector
break;
}
// Construct new instance of vectors generic type
ParameterizedType vectorElementType = (ParameterizedType) field.getGenericType();
Class<?> vectorElementClass = (Class<?>) vectorElementType.getActualTypeArguments()[0];
// Find the constructor with no arguments and create a new instance
Object newElement = null;
try {
newElement = vectorElementClass.getConstructor().newInstance();
} catch (Throwable t) {
System.err.println("Failed to find empty default constructor for " + vectorElementClass.getName());
break;
}
if (newElement == null) {
System.err.println("Failed to construct instance for " + vectorElementClass.getName());
break;
}
// Restore the instance members from the collected properties
restore(newElement, elemProps, "");
// Add the instance to the vector
vector.addElement(newElement);
++i;
}
continue;
}
String key = pPreamble + field.getName();
String value = pProps.getProperty(key);
if (value == null) {
System.out.println("Persistent settings does not contain value for " + key);
continue;
}
try {
if (field.getType() == boolean.class) {
field.set(pObj, Boolean.parseBoolean(value));
} else if (field.getType() == int.class) {
field.set(pObj, Integer.parseInt(value));
} else if (field.getType() == double.class) {
field.set(pObj, Double.parseDouble(value));
} else if (field.getType() == Color.class) {
String[] channelValues = value.substring(1, value.length()-1).split(";");
field.set(pObj, new Color(Integer.parseInt(channelValues[0].trim()), Integer.parseInt(channelValues[1].trim()), Integer.parseInt(channelValues[2].trim())));
} else if (field.getType() == String.class) {
field.set(pObj, value);
} else if (field.getType().isEnum()) {
Method valMet = field.getType().getMethod("valueOf", String.class);
Object enumVal = valMet.invoke(null, value);
field.set(pObj, enumVal);
} else if (field.getType() == Object.class) {
// We can not infer from the type of the field, let's try the actual stored value
if (value.isEmpty()) {
// We will never known ...
} else if (value.startsWith("[") && value.endsWith("]")) {
String[] channelValues = value.substring(1, value.length()-1).split(";");
field.set(pObj, new Color(Integer.parseInt(channelValues[0].trim()), Integer.parseInt(channelValues[1].trim()), Integer.parseInt(channelValues[2].trim())));
} else if (value.startsWith("\"") && value.endsWith("\"")) {
field.set(pObj, value.substring(1, value.length()-1));
} else {
try {
int i = Integer.parseInt(value);
field.set(pObj, i);
} catch (Throwable t1) {
try {
double d = Double.parseDouble(value);
field.set(pObj, d);
} catch (Throwable t2) {
try {
boolean bool = Boolean.parseBoolean(value);
field.set(pObj, bool);
} catch (Throwable t3) {
}
}
}
}
}
} catch (Throwable t) {
System.out.println("Failed to parse value(" + value + ") for " + key);
t.printStackTrace();
}
}
}
/**
* Returns a String representation of this ConfigurationFile, which is the {@link #toString()}
* of the underlying {@link Properties}
*
* @return The String representation of this ConfigurationFile
*/
@Override
public String toString() {
return mProps.toString();
}
}

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@ -1,6 +0,0 @@
package org.hyperion.hypercon;
public class HyperConConfig {
public boolean loadDefaultEffect = true;
}

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@ -1,226 +0,0 @@
package org.hyperion.hypercon;
public class JsonStringBuffer {
private final StringBuffer mStrBuf = new StringBuffer();
private final int mStartIndentLevel;
private int mIndentLevel = 0;
/** Flag indicating that the parts written are 'commented-out' */
private boolean mComment = false;
public JsonStringBuffer() {
this(0);
mStrBuf.append("{\n");
++mIndentLevel;
}
public JsonStringBuffer(int pIndentLevel) {
mStartIndentLevel = pIndentLevel;
mIndentLevel = pIndentLevel;
}
public void newLine() {
mStrBuf.append('\n');
}
public void finish() {
for (int i=0; i<mIndentLevel; ++i) {
mStrBuf.append('\t');
}
mStrBuf.append("\"end-of-json\" : \"end-of-json\"\n");
--mIndentLevel;
if (mIndentLevel != mStartIndentLevel) {
System.err.println("Json write closed in incorrect state!");
}
for (int i=0; i<mIndentLevel; ++i) {
mStrBuf.append('\t');
}
mStrBuf.append("}\n");
}
public void writeComment(String pComment) {
String[] commentLines = pComment.split("\\r?\\n");
for (String commentLine : commentLines) {
for (int i=0; i<mIndentLevel; ++i) {
mStrBuf.append('\t');
}
mStrBuf.append("/// ").append(commentLine).append('\n');
}
}
public void toggleComment(boolean b) {
mComment = b;
}
private void startLine() {
if (mComment) mStrBuf.append("// ");
for (int i=0; i<mIndentLevel; ++i) {
mStrBuf.append('\t');
}
}
public void startObject(String pKey) {
if (!pKey.isEmpty()) {
startLine();
mStrBuf.append('"').append(pKey).append('"').append(" : \n");
}
startLine();
mStrBuf.append("{\n");
++mIndentLevel;
}
public void stopObject(boolean endOfSection) {
--mIndentLevel;
startLine();
if (endOfSection) {
mStrBuf.append("}\n");
} else {
mStrBuf.append("},\n");
}
}
public void stopObject() {
--mIndentLevel;
startLine();
mStrBuf.append("},\n");
}
public void startArray(String pKey) {
startLine();
mStrBuf.append('"').append(pKey).append('"').append(" : \n");
startLine();
mStrBuf.append("[\n");
++mIndentLevel;
}
public void stopArray(boolean lastValue) {
--mIndentLevel;
startLine();
if (lastValue) {
mStrBuf.append("]\n");
} else {
mStrBuf.append("],\n");
}
}
public void addRawValue(String pKey, String pValue, boolean lastValue) {
startLine();
mStrBuf.append('"').append(pKey).append('"').append(" : ").append(pValue);
if (lastValue) {
mStrBuf.append("\n");
} else {
mStrBuf.append(",\n");
}
}
public void addValue(String pKey, String pValue, boolean lastValue) {
startLine();
mStrBuf.append('"').append(pKey).append('"').append(" : ").append('"').append(pValue).append('"');
if (lastValue) {
mStrBuf.append("\n");
} else {
mStrBuf.append(",\n");
}
}
public void addValue(String pKey, double pValue, boolean lastValue) {
startLine();
mStrBuf.append('"').append(pKey).append('"').append(" : ").append(pValue);
if (lastValue) {
mStrBuf.append("\n");
} else {
mStrBuf.append(",\n");
}
}
public void addValue(String pKey, int pValue, boolean lastValue) {
startLine();
mStrBuf.append('"').append(pKey).append('"').append(" : ").append(pValue);
if (lastValue) {
mStrBuf.append("\n");
} else {
mStrBuf.append(",\n");
}
}
public void addValue(String pKey, boolean pValue, boolean lastValue) {
startLine();
mStrBuf.append('"').append(pKey).append('"').append(" : ").append(pValue);
if (lastValue) {
mStrBuf.append("\n");
} else {
mStrBuf.append(",\n");
}
}
/**
* Adds an array element to an opened array.
*
* @param pValue The value of the element
* @param pLastValue Indicates that it is the last element in the array
*/
public void addArrayElement(String pValue, boolean pLastValue) {
startLine();
mStrBuf.append('"').append(pValue).append('"');
if (pLastValue) {
mStrBuf.append("\n");
} else {
mStrBuf.append(",\n");
}
}
@Override
public String toString() {
return mStrBuf.toString();
}
public static void main(String[] pArgs) {
JsonStringBuffer jsonBuf = new JsonStringBuffer();
String comment = "Device configuration contains the following fields: \n" +
"* 'name' : The user friendly name of the device (only used for display purposes) \n" +
"* 'type' : The type of the device or leds (known types for now are 'ws2801', 'lpd6803', 'sedu', 'test' and 'none') \n" +
"* 'output' : The output specification depends on selected device \n" +
" - 'ws2801' this is the device (eg '/dev/spidev0.0 or /dev/ttyS0') \n" +
" - 'test' this is the file used to write test output (eg '/home/pi/hyperion.out') \n" +
"* 'rate' : The baudrate of the output to the device \n" +
"* 'colorOrder' : The order of the color bytes ('rgb', 'rbg', 'bgr', etc.). \n";
jsonBuf.writeComment(comment);
jsonBuf.startObject("device");
jsonBuf.addValue("name", "MyPi", false);
jsonBuf.addValue("type", "ws2801", false);
jsonBuf.addValue("output", "/dev/spidev0.0", false);
jsonBuf.addValue("rate", 1000000, false);
jsonBuf.addValue("colorOrder", "rgb", true);
jsonBuf.stopObject();
jsonBuf.toggleComment(true);
jsonBuf.startObject("device");
jsonBuf.addValue("name", "MyPi", false);
jsonBuf.addValue("type", "ws2801", false);
jsonBuf.addValue("output", "/dev/spidev0.0", false);
jsonBuf.addValue("rate", 1000000, false);
jsonBuf.addValue("colorOrder", "rgb", true);
jsonBuf.stopObject();
jsonBuf.toggleComment(false);
jsonBuf.finish();
System.out.println(jsonBuf.toString());
}
}

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@ -1,274 +0,0 @@
package org.hyperion.hypercon;
import java.awt.geom.Point2D;
import java.awt.geom.Rectangle2D;
import java.util.Collections;
import java.util.Comparator;
import java.util.Vector;
import org.hyperion.hypercon.spec.BorderSide;
import org.hyperion.hypercon.spec.ImageProcessConfig;
import org.hyperion.hypercon.spec.Led;
import org.hyperion.hypercon.spec.LedFrameConstruction;
/**
* The LedFrameFactory translates user specifications (number of leds, etc) to actual led
* specifications (location of led, depth and width of integration, etc)
*/
public class LedFrameFactory {
/**
* Convenience method for increasing the led counter (it might actually decrease if the frame is
* counter clockwise)
*
* @param frameSpec The specification of the led-frame
* @param pLedCounter The current led counter
* @return The counter/index of the next led
*/
private static int increase(LedFrameConstruction frameSpec, int pLedCounter) {
if (frameSpec.clockwiseDirection) {
return (pLedCounter+1)%frameSpec.getLedCount();
} else {
if (pLedCounter == 0) {
return frameSpec.getLedCount() - 1;
}
return pLedCounter -1;
}
}
/**
* Translate a 'frame' and picture integration specification to per-led specification
*
* @param frameSpec The specification of the led frame
* @param processConfig The picture integration specification
*
* @return The per-led specification
*/
public static Vector<Led> construct(LedFrameConstruction frameSpec, ImageProcessConfig processConfig) {
Vector<Led> mLeds = new Vector<>();
int totalLedCount = frameSpec.getLedCount();
if (totalLedCount <= 0) {
return mLeds;
}
// Determine the led-number of the top-left led
int iLed = (totalLedCount - frameSpec.firstLedOffset)%totalLedCount;
if (iLed < 0) {
iLed += totalLedCount;
}
// Construct the top-left led (if top-left is enabled)
if (frameSpec.topCorners) {
mLeds.add(createLed(frameSpec, processConfig, iLed, 0.0, 0.0, processConfig.getOverlapFraction(), BorderSide.top_left));
iLed = increase(frameSpec, iLed);
}
// Construct all leds along the top of the screen (if any)
if (frameSpec.topLedCnt > 0) {
// Determine the led-spacing
int ledCnt = frameSpec.topLedCnt;
double ledSpacing = (double)1.0/(ledCnt);
for (int iTop=0; iTop<ledCnt; ++iTop) {
// Compute the location of this led
double led_x = ledSpacing/2.0 + iTop * ledSpacing;
double led_y = 0;
// Construct and add the single led specification to the list of leds
mLeds.add(createLed(frameSpec, processConfig, iLed, led_x, led_y, processConfig.getOverlapFraction(), BorderSide.top));
iLed = increase(frameSpec, iLed);
}
}
// Construct the top-right led (if top-right is enabled)
if (frameSpec.topCorners) {
mLeds.add(createLed(frameSpec, processConfig, iLed, 1.0, 0.0, processConfig.getOverlapFraction(), BorderSide.top_right));
iLed = increase(frameSpec, iLed);
}
// Construct all leds along the right of the screen (if any)
if (frameSpec.rightLedCnt > 0) {
// Determine the led-spacing
int ledCnt = frameSpec.rightLedCnt;
double ledSpacing = 1.0/ledCnt;
for (int iRight=0; iRight<ledCnt; ++iRight) {
// Compute the location of this led
double led_x = 1.0;
double led_y = ledSpacing/2.0 + iRight * ledSpacing;
// Construct and add the single led specification to the list of leds
mLeds.add(createLed(frameSpec, processConfig, iLed, led_x, led_y, processConfig.getOverlapFraction(), BorderSide.right));
iLed = increase(frameSpec, iLed);
}
}
// Construct the bottom-right led (if bottom-right is enabled)
if (frameSpec.bottomCorners) {
mLeds.add(createLed(frameSpec, processConfig, iLed, 1.0, 1.0, processConfig.getOverlapFraction(), BorderSide.bottom_right));
iLed = increase(frameSpec, iLed);
}
// Construct all leds along the bottom of the screen (if any)
if (frameSpec.bottomLedCnt > 0) {
// Determine the led-spacing (based on top-leds [=bottom leds + gap size])
int ledCnt = frameSpec.topLedCnt;
double ledSpacing = (double)1.0/ledCnt;
for (int iBottom=(ledCnt-1); iBottom>=0; --iBottom) {
// Special case for the bottom-gap
if (iBottom > (frameSpec.bottomLedCnt-1)/2 && iBottom < ledCnt - frameSpec.bottomLedCnt/2) {
continue;
}
// Compute the location of this led
double led_x = ledSpacing/2.0 + iBottom * ledSpacing;
double led_y = 1.0;
// Construct and add the single led specification to the list of leds
mLeds.add(createLed(frameSpec, processConfig, iLed, led_x, led_y, processConfig.getOverlapFraction(), BorderSide.bottom));
iLed = increase(frameSpec, iLed);
}
}
// Construct the bottom-left led (if bottom-left is enabled)
if (frameSpec.bottomCorners) {
mLeds.add(createLed(frameSpec, processConfig, iLed, 0.0, 1.0, processConfig.getOverlapFraction(), BorderSide.bottom_left));
iLed = increase(frameSpec, iLed);
}
// Construct all leds along the left of the screen (if any)
if (frameSpec.leftLedCnt > 0) {
// Determine the led-spacing
int ledCnt = frameSpec.leftLedCnt;
double ledSpacing = (double)1.0/ledCnt;
for (int iRight=(ledCnt-1); iRight>=0; --iRight) {
// Compute the location of this led
double led_x = 0.0;
double led_y = ledSpacing/2.0 + iRight * ledSpacing;
// Construct and add the single led specification to the list of leds
mLeds.add(createLed(frameSpec, processConfig, iLed, led_x, led_y, processConfig.getOverlapFraction(), BorderSide.left));
iLed = increase(frameSpec, iLed);
}
}
Collections.sort(mLeds, new Comparator<Led>() {
@Override
public int compare(Led o1, Led o2) {
return Integer.compare(o1.mLedSeqNr, o2.mLedSeqNr);
}
});
return mLeds;
}
/**
* Constructs the specification of a single led
*
* @param pFrameSpec The overall led-frame specification
* @param pProcessSpec The overall image-processing specification
* @param seqNr The number of the led
* @param x_frac The x location of the led in fractional range [0.0; 1.0]
* @param y_frac The y location of the led in fractional range [0.0; 1.0]
* @param overlap_frac The fractional overlap of the led integration with its neighbor
* @param pBorderSide The side on which the led is located
*
* @return The image integration specifications of the single led
*/
private static Led createLed(LedFrameConstruction pFrameSpec, ImageProcessConfig pProcessSpec, int seqNr, double x_frac, double y_frac, double overlap_frac, BorderSide pBorderSide) {
Led led = new Led();
led.mLedSeqNr = seqNr;
led.mLocation = new Point2D.Double(x_frac, y_frac);
led.mSide = pBorderSide;
double xFrac = pProcessSpec.getVerticalGap() + (1.0-2*pProcessSpec.getVerticalGap()) * x_frac;
double yFrac = pProcessSpec.getHorizontalGap() + (1.0-2*pProcessSpec.getHorizontalGap()) * y_frac;
double widthFrac = ((1.0-2*pProcessSpec.getVerticalGap())/pFrameSpec.topLedCnt * (1.0 + overlap_frac))/2.0;
double heightFrac = ((1.0-2*pProcessSpec.getHorizontalGap())/pFrameSpec.leftLedCnt * (1.0 + overlap_frac))/2.0;
double horizontalDepth = Math.min(1.0 - pProcessSpec.getHorizontalGap(), pProcessSpec.getHorizontalDepth());
double verticalDepth = Math.min(1.0 - pProcessSpec.getVerticalGap(), pProcessSpec.getVerticalDepth());
switch (pBorderSide) {
case top_left: {
led.mImageRectangle = new Rectangle2D.Double(
pProcessSpec.getVerticalGap(),
pProcessSpec.getHorizontalGap(),
verticalDepth,
horizontalDepth);
break;
}
case top_right: {
led.mImageRectangle = new Rectangle2D.Double(
1.0-pProcessSpec.getVerticalGap()-verticalDepth,
pProcessSpec.getHorizontalGap(),
verticalDepth,
horizontalDepth);
break;
}
case bottom_left: {
led.mImageRectangle = new Rectangle2D.Double(
pProcessSpec.getVerticalGap(),
1.0-pProcessSpec.getHorizontalGap()-horizontalDepth,
verticalDepth,
horizontalDepth);
break;
}
case bottom_right: {
led.mImageRectangle = new Rectangle2D.Double(
1.0-pProcessSpec.getVerticalGap()-verticalDepth,
1.0-pProcessSpec.getHorizontalGap()-horizontalDepth,
verticalDepth,
horizontalDepth);
break;
}
case top:{
double intXmin_frac = Math.max(0.0, xFrac-widthFrac);
double intXmax_frac = Math.min(xFrac+widthFrac, 1.0);
led.mImageRectangle = new Rectangle2D.Double(
intXmin_frac,
pProcessSpec.getHorizontalGap(),
intXmax_frac-intXmin_frac,
horizontalDepth);
break;
}
case bottom:
{
double intXmin_frac = Math.max(0.0, xFrac-widthFrac);
double intXmax_frac = Math.min(xFrac+widthFrac, 1.0);
led.mImageRectangle = new Rectangle2D.Double(
intXmin_frac,
1.0-pProcessSpec.getHorizontalGap()-horizontalDepth,
intXmax_frac-intXmin_frac,
horizontalDepth);
break;
}
case left: {
double intYmin_frac = Math.max(0.0, yFrac-heightFrac);
double intYmax_frac = Math.min(yFrac+heightFrac, 1.0);
led.mImageRectangle = new Rectangle2D.Double(
pProcessSpec.getVerticalGap(),
intYmin_frac,
verticalDepth,
intYmax_frac-intYmin_frac);
break;
}
case right:
double intYmin_frac = Math.max(0.0, yFrac-heightFrac);
double intYmax_frac = Math.min(yFrac+heightFrac, 1.0);
led.mImageRectangle = new Rectangle2D.Double(
1.0-pProcessSpec.getVerticalGap()-verticalDepth,
intYmin_frac,
verticalDepth,
intYmax_frac-intYmin_frac);
break;
}
return led;
}
}

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@ -1,105 +0,0 @@
package org.hyperion.hypercon;
import java.io.FileWriter;
import java.io.IOException;
import java.util.Locale;
import java.util.Vector;
import org.hyperion.hypercon.spec.ColorConfig;
import org.hyperion.hypercon.spec.DeviceConfig;
import org.hyperion.hypercon.spec.ImageProcessConfig;
import org.hyperion.hypercon.spec.Led;
import org.hyperion.hypercon.spec.LedFrameConstruction;
import org.hyperion.hypercon.spec.MiscConfig;
/**
* The full configuration of Hyperion with sub-items for device, color and miscelanuous items.
*/
public class LedString {
/** The configuration of the output device */
public final DeviceConfig mDeviceConfig = new DeviceConfig();
/** THe configuration of the 'physical' led frame */
public final LedFrameConstruction mLedFrameConfig = new LedFrameConstruction();
/** The configuration of the image processing */
public final ImageProcessConfig mProcessConfig = new ImageProcessConfig();
/** The color adjustment configuration */
public final ColorConfig mColorConfig = new ColorConfig();
/** The miscellaneous configuration (bootsequence, blackborder detector, etc) */
public final MiscConfig mMiscConfig = new MiscConfig();
/** The translation of the led frame construction and image processing to individual led configuration */
public Vector<Led> leds;
/**
* Writes the configuration to the given file
*
* @param mFilename The absolute filename
*
* @throws IOException If unable to write the given file
*/
public void saveConfigFile(String mFilename) throws IOException {
try (FileWriter fw = new FileWriter(mFilename)) {
fw.write("// Automatically generated configuration file for 'Hyperion daemon'\n");
fw.write("// Generated by: HyperCon (The Hyperion deamon configuration file builder\n");
fw.write("\n");
fw.write("{\n");
String deviceJson = mDeviceConfig.toJsonString();
fw.write(deviceJson + ",\n\n");
String colorJson = mColorConfig.toJsonString();
fw.write(colorJson + ",\n\n");
JsonStringBuffer jsonBuf = new JsonStringBuffer(1);
ledsAppendTo(jsonBuf);
jsonBuf.newLine();
mProcessConfig.appendTo(jsonBuf);
jsonBuf.newLine();
mMiscConfig.appendTo(jsonBuf);
jsonBuf.newLine();
jsonBuf.addValue("endOfJson", "endOfJson", true);
fw.write(jsonBuf.toString());
fw.write("}\n");
} catch (IOException e) {
throw e;
}
}
void ledsAppendTo(JsonStringBuffer pJsonBuf) {
String ledComment =
" The configuration for each individual led. This contains the specification of the area \n" +
" averaged of an input image for each led to determine its color. Each item in the list \n" +
" contains the following fields:\n" +
" * index: The index of the led. This determines its location in the string of leds; zero \n" +
" being the first led.\n" +
" * hscan: The fractional part of the image along the horizontal used for the averaging \n" +
" (minimum and maximum inclusive)\n" +
" * vscan: The fractional part of the image along the vertical used for the averaging \n" +
" (minimum and maximum inclusive)\n";
pJsonBuf.writeComment(ledComment);
pJsonBuf.startArray("leds");
for (Led led : leds)
{
pJsonBuf.startObject("");
pJsonBuf.addValue("index", led.mLedSeqNr, false);
pJsonBuf.addRawValue("hscan", String.format(Locale.ENGLISH, "{ %1$cminimum%1$c : %2$.4f, %1$cmaximum%1$c : %3$.4f }", '"', led.mImageRectangle.getMinX(), led.mImageRectangle.getMaxX()), false);
pJsonBuf.addRawValue("vscan", String.format(Locale.ENGLISH, "{ %1$cminimum%1$c : %2$.4f, %1$cmaximum%1$c : %3$.4f }", '"', led.mImageRectangle.getMinY(), led.mImageRectangle.getMaxY()), true);
pJsonBuf.stopObject(led.equals(leds.get(leds.size()-1)));
}
pJsonBuf.stopArray(false);
}
}

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@ -1,87 +0,0 @@
package org.hyperion.hypercon;
import java.awt.event.WindowAdapter;
import java.awt.event.WindowEvent;
import java.io.File;
import javax.swing.ImageIcon;
import javax.swing.JFrame;
import javax.swing.UIManager;
import org.hyperion.hypercon.gui.ConfigPanel;
import org.hyperion.hypercon.spec.TransformConfig;
/**
* (static) Main-class for starting HyperCon (the Hyperion configuration file builder) as a standard
* JAVA application (contains the entry-point).
*/
public class Main {
public static final String configFilename = "hypercon.dat";
/** Some application settings (for easy/dirty access) */
public static final HyperConConfig HyperConConfig = new HyperConConfig();
/**
* Entry point to start HyperCon
*
* @param pArgs HyperCon does not have command line arguments
*/
public static void main(String[] pArgs) {
final String versionStr = Main.class.getPackage().getImplementationVersion();
final LedString ledString = new LedString();
try {
// Configure swing to use the system default look and feel
UIManager.setLookAndFeel(UIManager.getSystemLookAndFeelClassName());
} catch (Exception e) {}
// Create a frame for the configuration panel
JFrame frame = new JFrame();
String title = "Hyperion configuration Tool" + ((versionStr != null && !versionStr.isEmpty())? (" (" + versionStr + ")") : "");
frame.setTitle(title);
frame.setSize(1300, 700);
frame.setDefaultCloseOperation(JFrame.DISPOSE_ON_CLOSE);
frame.setIconImage(new ImageIcon(Main.class.getResource("HyperConIcon_64.png")).getImage());
frame.addWindowListener(new WindowAdapter() {
@Override
public void windowClosing(WindowEvent e) {
try {
ConfigurationFile configFile = new ConfigurationFile();
configFile.store(Main.HyperConConfig);
configFile.store(ledString.mDeviceConfig);
configFile.store(ledString.mLedFrameConfig);
configFile.store(ledString.mProcessConfig);
configFile.store(ledString.mColorConfig);
configFile.store(ledString.mMiscConfig);
configFile.save(configFilename);
} catch (Throwable t) {
System.err.println("Failed to save " + configFilename);
}
}
});
if (new File(configFilename).exists()) {
try {
ConfigurationFile configFile = new ConfigurationFile();
configFile.load(configFilename);
configFile.restore(Main.HyperConConfig);
configFile.restore(ledString.mDeviceConfig);
configFile.restore(ledString.mLedFrameConfig);
configFile.restore(ledString.mProcessConfig);
configFile.restore(ledString.mColorConfig);
configFile.restore(ledString.mMiscConfig);
} catch (Throwable t) {
System.err.println("Failed to load " + configFilename);
}
if (ledString.mColorConfig.mTransforms.isEmpty()) {
ledString.mColorConfig.mTransforms.add(new TransformConfig());
}
}
// Add the HyperCon configuration panel
frame.setContentPane(new ConfigPanel(ledString));
// Show the frame
frame.setVisible(true);
}
}

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@ -1,141 +0,0 @@
package org.hyperion.hypercon.gui;
import java.awt.Dimension;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.beans.Transient;
import javax.swing.BorderFactory;
import javax.swing.GroupLayout;
import javax.swing.JCheckBox;
import javax.swing.JComboBox;
import javax.swing.JLabel;
import javax.swing.JPanel;
import javax.swing.JSpinner;
import javax.swing.SpinnerNumberModel;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import org.hyperion.hypercon.spec.ColorConfig;
import org.hyperion.hypercon.spec.ColorSmoothingType;
public class ColorSmoothingPanel extends JPanel {
private final ColorConfig mColorConfig;
private JCheckBox mEnabledCheck;
private JLabel mTypeLabel;
private JComboBox<ColorSmoothingType> mTypeCombo;
private JLabel mTimeLabel;
private JSpinner mTimeSpinner;
private JLabel mUpdateFrequencyLabel;
private JSpinner mUpdateFrequencySpinner;
public ColorSmoothingPanel(final ColorConfig pColorConfig) {
super();
mColorConfig = pColorConfig;
initialise();
}
@Override
@Transient
public Dimension getMaximumSize() {
Dimension maxSize = super.getMaximumSize();
Dimension prefSize = super.getPreferredSize();
return new Dimension(maxSize.width, prefSize.height);
}
private void initialise() {
setBorder(BorderFactory.createTitledBorder("Smoothing"));
mEnabledCheck = new JCheckBox("Enabled");
mEnabledCheck.setSelected(mColorConfig.mSmoothingEnabled);
mEnabledCheck.addActionListener(mActionListener);
add(mEnabledCheck);
mTypeLabel = new JLabel("Type: ");
add(mTypeLabel);
mTypeCombo = new JComboBox<>(ColorSmoothingType.values());
mTypeCombo.setSelectedItem(mColorConfig.mSmoothingType);
mTypeCombo.addActionListener(mActionListener);
add(mTypeCombo);
mTimeLabel = new JLabel("Time [ms]: ");
add(mTimeLabel);
mTimeSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mSmoothingTime_ms, 1, 600, 100));
mTimeSpinner.addChangeListener(mChangeListener);
add(mTimeSpinner);
mUpdateFrequencyLabel = new JLabel("Update Freq. [Hz]: ");
add(mUpdateFrequencyLabel);
mUpdateFrequencySpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mSmoothingUpdateFrequency_Hz, 1, 100, 1));
mUpdateFrequencySpinner.addChangeListener(mChangeListener);
add(mUpdateFrequencySpinner);
GroupLayout layout = new GroupLayout(this);
layout.setAutoCreateGaps(true);
setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mEnabledCheck)
.addComponent(mTypeLabel)
.addComponent(mTimeLabel)
.addComponent(mUpdateFrequencyLabel)
)
.addGroup(layout.createParallelGroup()
.addComponent(mEnabledCheck)
.addComponent(mTypeCombo)
.addComponent(mTimeSpinner)
.addComponent(mUpdateFrequencySpinner)
));
layout.setVerticalGroup(layout.createSequentialGroup()
.addComponent(mEnabledCheck)
.addGroup(layout.createParallelGroup()
.addComponent(mTypeLabel)
.addComponent(mTypeCombo)
)
.addGroup(layout.createParallelGroup()
.addComponent(mTimeLabel)
.addComponent(mTimeSpinner)
)
.addGroup(layout.createParallelGroup()
.addComponent(mUpdateFrequencyLabel)
.addComponent(mUpdateFrequencySpinner)
));
toggleEnabled(mColorConfig.mSmoothingEnabled);
}
private void toggleEnabled(boolean pEnabled) {
mTypeLabel.setEnabled(pEnabled);
mTypeCombo.setEnabled(pEnabled);
mTimeLabel.setEnabled(pEnabled);
mTimeSpinner.setEnabled(pEnabled);
mUpdateFrequencyLabel.setEnabled(pEnabled);
mUpdateFrequencySpinner.setEnabled(pEnabled);
}
private final ActionListener mActionListener = new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
mColorConfig.mSmoothingEnabled = mEnabledCheck.isSelected();
mColorConfig.mSmoothingType = (ColorSmoothingType)mTypeCombo.getSelectedItem();
toggleEnabled(mColorConfig.mSmoothingEnabled);
}
};
private final ChangeListener mChangeListener = new ChangeListener() {
@Override
public void stateChanged(ChangeEvent e) {
mColorConfig.mSmoothingTime_ms = (Integer)mTimeSpinner.getValue();
mColorConfig.mSmoothingUpdateFrequency_Hz = (Double)mUpdateFrequencySpinner.getValue();
}
};
}

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@ -1,277 +0,0 @@
package org.hyperion.hypercon.gui;
import java.awt.BorderLayout;
import java.awt.Dimension;
import java.awt.GridLayout;
import java.beans.Transient;
import javax.swing.BorderFactory;
import javax.swing.Box;
import javax.swing.BoxLayout;
import javax.swing.GroupLayout;
import javax.swing.JLabel;
import javax.swing.JPanel;
import javax.swing.JSpinner;
import javax.swing.JTextField;
import javax.swing.SpinnerNumberModel;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import javax.swing.event.DocumentEvent;
import javax.swing.event.DocumentListener;
import org.hyperion.hypercon.spec.TransformConfig;
/**
* Configuration panel for the ColorConfig.
*
* NB This has not been integrated in the GUI jet!
*/
public class ColorTransformPanel extends JPanel {
private final Dimension maxDim = new Dimension(1024, 20);
private final TransformConfig mColorConfig;
private JPanel mIndexPanel;
private JLabel mIndexLabel;
private JTextField mIndexField;
private JPanel mRgbTransformPanel;
private JLabel mThresholdLabel;
private JLabel mGammaLabel;
private JLabel mBlacklevelLabel;
private JLabel mWhitelevelLabel;
private JLabel mRedTransformLabel;
private JSpinner mRedThresholdSpinner;
private JSpinner mRedGammaSpinner;
private JSpinner mRedBlacklevelSpinner;
private JSpinner mRedWhitelevelSpinner;
private JLabel mGreenTransformLabel;
private JSpinner mGreenThresholdSpinner;
private JSpinner mGreenGammaSpinner;
private JSpinner mGreenBlacklevelSpinner;
private JSpinner mGreenWhitelevelSpinner;
private JLabel mBlueTransformLabel;
private JSpinner mBlueThresholdSpinner;
private JSpinner mBlueGammaSpinner;
private JSpinner mBlueBlacklevelSpinner;
private JSpinner mBlueWhitelevelSpinner;
private JPanel mHsvTransformPanel;
private JLabel mSaturationAdjustLabel;
private JSpinner mSaturationAdjustSpinner;
private JLabel mValueAdjustLabel;
private JSpinner mValueAdjustSpinner;
public ColorTransformPanel(TransformConfig pTransformConfig) {
super();
mColorConfig = pTransformConfig;
initialise();
}
@Override
@Transient
public Dimension getMaximumSize() {
Dimension maxSize = super.getMaximumSize();
Dimension prefSize = super.getPreferredSize();
return new Dimension(maxSize.width, prefSize.height);
}
private void initialise() {
setBorder(BorderFactory.createTitledBorder("Transform [" + mColorConfig.mId + "]"));
setLayout(new BoxLayout(this, BoxLayout.Y_AXIS));
add(getIndexPanel());
add(Box.createVerticalStrut(10));
add(getRgbPanel());
add(Box.createVerticalStrut(10));
add(getHsvPanel());
add(Box.createVerticalGlue());
}
private JPanel getIndexPanel() {
if (mIndexPanel == null) {
mIndexPanel = new JPanel();
mIndexPanel.setMaximumSize(new Dimension(1024, 25));
mIndexPanel.setLayout(new BorderLayout(10,10));
mIndexLabel = new JLabel("Indices:");
mIndexPanel.add(mIndexLabel, BorderLayout.WEST);
mIndexField = new JTextField(mColorConfig.mLedIndexString);
mIndexField.setToolTipText("Comma seperated indices or index ranges (eg '1-10, 13, 14, 17-19'); Special case '*', which means all leds");
mIndexField.getDocument().addDocumentListener(mDocumentListener);
mIndexPanel.add(mIndexField, BorderLayout.CENTER);
}
return mIndexPanel;
}
private JPanel getRgbPanel() {
if (mRgbTransformPanel == null) {
mRgbTransformPanel = new JPanel();
GridLayout layout = new GridLayout(0, 5);
// GroupLayout layout = new GroupLayout(mRgbTransformPanel);
mRgbTransformPanel.setLayout(layout);
mRgbTransformPanel.add(Box.createHorizontalBox());
mThresholdLabel = new JLabel("Thres.");
mRgbTransformPanel.add(mThresholdLabel);
mGammaLabel = new JLabel("Gamma");
mRgbTransformPanel.add(mGammaLabel);
mBlacklevelLabel = new JLabel("Blacklvl");
mRgbTransformPanel.add(mBlacklevelLabel);
mWhitelevelLabel = new JLabel("Whitelvl");
mRgbTransformPanel.add(mWhitelevelLabel);
mRedTransformLabel = new JLabel("RED");
mRgbTransformPanel.add(mRedTransformLabel);
mRedThresholdSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mRedThreshold, 0.0, 1.0, 0.1));
mRedThresholdSpinner.setMaximumSize(maxDim);
mRedThresholdSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mRedThresholdSpinner);
mRedGammaSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mRedGamma, 0.0, 100.0, 0.1));
mRedGammaSpinner.setMaximumSize(maxDim);
mRedGammaSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mRedGammaSpinner);
mRedBlacklevelSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mRedBlacklevel, 0.0, 1.0, 0.1));
mRedBlacklevelSpinner.setMaximumSize(maxDim);
mRedBlacklevelSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mRedBlacklevelSpinner);
mRedWhitelevelSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mRedWhitelevel, 0.0, 1.0, 0.1));
mRedWhitelevelSpinner.setMaximumSize(maxDim);
mRedWhitelevelSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mRedWhitelevelSpinner);
mGreenTransformLabel = new JLabel("GREEN");
mRgbTransformPanel.add(mGreenTransformLabel);
mGreenThresholdSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mGreenThreshold, 0.0, 1.0, 0.1));
mGreenThresholdSpinner.setMaximumSize(maxDim);
mGreenThresholdSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mGreenThresholdSpinner);
mGreenGammaSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mGreenGamma, 0.0, 100.0, 0.1));
mGreenGammaSpinner.setMaximumSize(maxDim);
mGreenGammaSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mGreenGammaSpinner);
mGreenBlacklevelSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mGreenBlacklevel, 0.0, 1.0, 0.1));
mGreenBlacklevelSpinner.setMaximumSize(maxDim);
mGreenBlacklevelSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mGreenBlacklevelSpinner);
mGreenWhitelevelSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mGreenWhitelevel, 0.0, 1.0, 0.1));
mGreenWhitelevelSpinner.setMaximumSize(maxDim);
mGreenWhitelevelSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mGreenWhitelevelSpinner);
mBlueTransformLabel = new JLabel("BLUE");
mRgbTransformPanel.add(mBlueTransformLabel);
mBlueThresholdSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mBlueThreshold, 0.0, 1.0, 0.1));
mBlueThresholdSpinner.setMaximumSize(maxDim);
mBlueThresholdSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mBlueThresholdSpinner);
mBlueGammaSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mBlueGamma, 0.0, 100.0, 0.1));
mBlueGammaSpinner.setMaximumSize(maxDim);
mBlueGammaSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mBlueGammaSpinner);
mBlueBlacklevelSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mBlueBlacklevel, 0.0, 1.0, 0.1));
mBlueBlacklevelSpinner.setMaximumSize(maxDim);
mBlueBlacklevelSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mBlueBlacklevelSpinner);
mBlueWhitelevelSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mBlueWhitelevel, 0.0, 1.0, 0.1));
mBlueWhitelevelSpinner.setMaximumSize(maxDim);
mBlueWhitelevelSpinner.addChangeListener(mChangeListener);
mRgbTransformPanel.add(mBlueWhitelevelSpinner);
}
return mRgbTransformPanel;
}
private JPanel getHsvPanel() {
if (mHsvTransformPanel == null) {
mHsvTransformPanel = new JPanel();
GroupLayout layout = new GroupLayout(mHsvTransformPanel);
mHsvTransformPanel.setLayout(layout);
mSaturationAdjustLabel = new JLabel("HSV Saturation gain");
mHsvTransformPanel.add(mSaturationAdjustLabel);
mSaturationAdjustSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mSaturationGain, 0.0, 1024.0, 0.01));
mSaturationAdjustSpinner.setMaximumSize(maxDim);
mSaturationAdjustSpinner.addChangeListener(mChangeListener);
mHsvTransformPanel.add(mSaturationAdjustSpinner);
mValueAdjustLabel = new JLabel("HSV Value gain");
mHsvTransformPanel.add(mValueAdjustLabel);
mValueAdjustSpinner = new JSpinner(new SpinnerNumberModel(mColorConfig.mValueGain, 0.0, 1024.0, 0.01));
mValueAdjustSpinner.setMaximumSize(maxDim);
mValueAdjustSpinner.addChangeListener(mChangeListener);
mHsvTransformPanel.add(mValueAdjustSpinner);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mSaturationAdjustLabel)
.addComponent(mValueAdjustLabel)
)
.addGroup(layout.createParallelGroup()
.addComponent(mSaturationAdjustSpinner)
.addComponent(mValueAdjustSpinner)
)
);
layout.setVerticalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mSaturationAdjustLabel)
.addComponent(mSaturationAdjustSpinner)
)
.addGroup(layout.createParallelGroup()
.addComponent(mValueAdjustLabel)
.addComponent(mValueAdjustSpinner)
)
);
}
return mHsvTransformPanel;
}
private final ChangeListener mChangeListener = new ChangeListener() {
@Override
public void stateChanged(ChangeEvent e) {
mColorConfig.mRedThreshold = (Double)mRedThresholdSpinner.getValue();
mColorConfig.mRedGamma = (Double)mRedGammaSpinner.getValue();
mColorConfig.mRedBlacklevel = (Double)mRedBlacklevelSpinner.getValue();
mColorConfig.mRedWhitelevel = (Double)mRedWhitelevelSpinner.getValue();
mColorConfig.mGreenThreshold = (Double)mGreenThresholdSpinner.getValue();
mColorConfig.mGreenGamma = (Double)mGreenGammaSpinner.getValue();
mColorConfig.mGreenBlacklevel = (Double)mGreenBlacklevelSpinner.getValue();
mColorConfig.mGreenWhitelevel = (Double)mGreenWhitelevelSpinner.getValue();
mColorConfig.mBlueThreshold = (Double)mBlueThresholdSpinner.getValue();
mColorConfig.mBlueGamma = (Double)mBlueGammaSpinner.getValue();
mColorConfig.mBlueBlacklevel = (Double)mBlueBlacklevelSpinner.getValue();
mColorConfig.mBlueWhitelevel = (Double)mBlueWhitelevelSpinner.getValue();
mColorConfig.mSaturationGain = (Double)mSaturationAdjustSpinner.getValue();
mColorConfig.mValueGain = (Double)mValueAdjustSpinner.getValue();
}
};
private final DocumentListener mDocumentListener = new DocumentListener() {
@Override
public void removeUpdate(DocumentEvent e) {
mColorConfig.mLedIndexString = mIndexField.getText();
}
@Override
public void insertUpdate(DocumentEvent e) {
mColorConfig.mLedIndexString = mIndexField.getText();
}
@Override
public void changedUpdate(DocumentEvent e) {
mColorConfig.mLedIndexString = mIndexField.getText();
}
};
}

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package org.hyperion.hypercon.gui;
import java.awt.BorderLayout;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.util.HashMap;
import java.util.Map;
import javax.swing.AbstractAction;
import javax.swing.Action;
import javax.swing.BorderFactory;
import javax.swing.BoxLayout;
import javax.swing.DefaultComboBoxModel;
import javax.swing.JButton;
import javax.swing.JComboBox;
import javax.swing.JOptionPane;
import javax.swing.JPanel;
import org.hyperion.hypercon.spec.ColorConfig;
import org.hyperion.hypercon.spec.TransformConfig;
public class ColorsPanel extends JPanel {
private final ColorConfig mColorConfig;
private final DefaultComboBoxModel<TransformConfig> mTransformsModel;
private JPanel mControlPanel;
private JComboBox<TransformConfig> mTransformCombo;
private JButton mAddTransformButton;
private JButton mDelTransformButton;
private JPanel mTransformPanel;
private final Map<TransformConfig, ColorTransformPanel> mTransformPanels = new HashMap<>();
public ColorsPanel(ColorConfig pColorConfig) {
super();
mColorConfig = pColorConfig;
mTransformsModel = new DefaultComboBoxModel<TransformConfig>(mColorConfig.mTransforms);
initialise();
}
private void initialise() {
setLayout(new BorderLayout(10,10));
setBorder(BorderFactory.createTitledBorder("Colors"));
add(getControlPanel(), BorderLayout.NORTH);
mTransformPanel = new JPanel();
mTransformPanel.setLayout(new BorderLayout());
add(mTransformPanel, BorderLayout.CENTER);
for (TransformConfig config : mColorConfig.mTransforms) {
mTransformPanels.put(config, new ColorTransformPanel(config));
}
ColorTransformPanel currentPanel = mTransformPanels.get(mColorConfig.mTransforms.get(0));
mTransformPanel.add(currentPanel, BorderLayout.CENTER);
}
private JPanel getControlPanel() {
if (mControlPanel == null) {
mControlPanel = new JPanel();
mControlPanel.setLayout(new BoxLayout(mControlPanel, BoxLayout.LINE_AXIS));
mTransformCombo = new JComboBox<>(mTransformsModel);
mTransformCombo.addActionListener(mComboListener);
mControlPanel.add(mTransformCombo);
mAddTransformButton = new JButton(mAddAction);
mControlPanel.add(mAddTransformButton);
mDelTransformButton = new JButton(mDelAction);
mDelTransformButton.setEnabled(mTransformCombo.getItemCount() > 1);
mControlPanel.add(mDelTransformButton);
}
return mControlPanel;
}
private final Action mAddAction = new AbstractAction("Add") {
@Override
public void actionPerformed(ActionEvent e) {
String newId = JOptionPane.showInputDialog("Give an identifier for the new color-transform:");
if (newId == null || newId.isEmpty()) {
// No proper value given
return;
}
TransformConfig config = new TransformConfig();
config.mId = newId;
ColorTransformPanel panel = new ColorTransformPanel(config);
mTransformPanels.put(config, panel);
mTransformsModel.addElement(config);
mTransformsModel.setSelectedItem(config);
mDelTransformButton.setEnabled(true);
}
};
private final Action mDelAction = new AbstractAction("Del") {
@Override
public void actionPerformed(ActionEvent e) {
TransformConfig config = (TransformConfig) mTransformCombo.getSelectedItem();
mTransformPanels.remove(config);
mTransformsModel.removeElement(config);
mDelTransformButton.setEnabled(mTransformCombo.getItemCount() > 1);
}
};
private final ActionListener mComboListener = new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
TransformConfig selConfig = (TransformConfig) mTransformsModel.getSelectedItem();
if (selConfig == null) {
// Something went wrong here, there should always be a selection!
return;
}
ColorTransformPanel panel = mTransformPanels.get(selConfig);
mTransformPanel.removeAll();
mTransformPanel.add(panel, BorderLayout.CENTER);
mTransformPanel.revalidate();
mTransformPanel.repaint();
}
};
}

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package org.hyperion.hypercon.gui;
import java.awt.BorderLayout;
import java.awt.event.ActionEvent;
import java.io.File;
import java.io.IOException;
import java.util.Observable;
import java.util.Observer;
import javax.swing.AbstractAction;
import javax.swing.Action;
import javax.swing.BorderFactory;
import javax.swing.Box;
import javax.swing.BoxLayout;
import javax.swing.JButton;
import javax.swing.JFileChooser;
import javax.swing.JPanel;
import javax.swing.JTabbedPane;
import org.hyperion.hypercon.ConfigurationFile;
import org.hyperion.hypercon.LedFrameFactory;
import org.hyperion.hypercon.LedString;
import org.hyperion.hypercon.Main;
/**
* The main-config panel of HyperCon. Includes the configuration and the panels to edit and
* write-out the configuration. This can be placed on JFrame, JDialog or JApplet as required.
*/
public class ConfigPanel extends JPanel {
/** The LED configuration information*/
private final LedString ledString;
/** Action for write the Hyperion deamon configuration file */
private final Action mSaveConfigAction = new AbstractAction("Create Hyperion Configuration") {
JFileChooser fileChooser = new JFileChooser();
{
fileChooser.setSelectedFile(new File("hyperion.config.json"));
}
@Override
public void actionPerformed(ActionEvent e) {
if (fileChooser.showSaveDialog(ConfigPanel.this) != JFileChooser.APPROVE_OPTION) {
return;
}
try {
ledString.saveConfigFile(fileChooser.getSelectedFile().getAbsolutePath());
ConfigurationFile configFile = new ConfigurationFile();
configFile.store(ledString.mDeviceConfig);
configFile.store(ledString.mLedFrameConfig);
configFile.store(ledString.mProcessConfig);
configFile.store(ledString.mColorConfig);
configFile.store(ledString.mMiscConfig);
configFile.save(Main.configFilename);
} catch (IOException e1) {
// TODO Auto-generated catch block
e1.printStackTrace();
}
}
};
/** The panel for containing the example 'Hyperion TV' */
private JPanel mTvPanel;
/** The simulated 'Hyperion TV' */
private LedSimulationComponent mHyperionTv;
private JTabbedPane mSpecificationTabs = null;
/** The left (WEST) side panel containing the diferent configuration panels */
private JPanel mHardwarePanel = null;
private JPanel mProcessPanel = null;
private JPanel mExternalPanel = null;
/** The button connected to mSaveConfigAction */
private JButton mSaveConfigButton;
/**
* Constructs the configuration panel with a default initialised led-frame and configuration
*/
public ConfigPanel(final LedString pLedString) {
super();
ledString = pLedString;
initialise();
// Compute the individual leds for the current configuration
ledString.leds = LedFrameFactory.construct(ledString.mLedFrameConfig, ledString.mProcessConfig);
mHyperionTv.setLeds(ledString.leds);
// Add Observer to update the individual leds if the configuration changes
final Observer observer = new Observer() {
@Override
public void update(Observable o, Object arg) {
ledString.leds = LedFrameFactory.construct(ledString.mLedFrameConfig, ledString.mProcessConfig);
mHyperionTv.setLeds(ledString.leds);
mHyperionTv.repaint();
}
};
ledString.mLedFrameConfig.addObserver(observer);
ledString.mProcessConfig.addObserver(observer);
}
/**
* Initialises the config-panel
*/
private void initialise() {
setLayout(new BorderLayout());
add(getTvPanel(), BorderLayout.CENTER);
add(getWestPanel(), BorderLayout.WEST);
}
private JPanel getWestPanel() {
JPanel mWestPanel = new JPanel();
mWestPanel.setLayout(new BorderLayout());
mWestPanel.add(getSpecificationTabs(), BorderLayout.CENTER);
JPanel panel = new JPanel(new BorderLayout());
panel.setBorder(BorderFactory.createEmptyBorder(5,5,5,5));
mSaveConfigButton = new JButton(mSaveConfigAction);
panel.add(mSaveConfigButton, BorderLayout.SOUTH);
mWestPanel.add(panel, BorderLayout.SOUTH);
return mWestPanel;
}
private JTabbedPane getSpecificationTabs() {
if (mSpecificationTabs == null) {
mSpecificationTabs = new JTabbedPane();
mSpecificationTabs.addTab("Hardware", getHardwarePanel());
mSpecificationTabs.addTab("Process", getProcessPanel());
mSpecificationTabs.addTab("External", getExternalPanel());
}
return mSpecificationTabs;
}
/**
* Created, if not exists, and returns the panel holding the simulated 'Hyperion TV'
*
* @return The Tv panel
*/
private JPanel getTvPanel() {
if (mTvPanel == null) {
mTvPanel = new JPanel();
mTvPanel.setLayout(new BorderLayout());
mHyperionTv = new LedSimulationComponent(ledString.leds);
mTvPanel.add(mHyperionTv, BorderLayout.CENTER);
}
return mTvPanel;
}
private JPanel getHardwarePanel() {
if (mHardwarePanel == null) {
mHardwarePanel = new JPanel();
mHardwarePanel.setLayout(new BoxLayout(mHardwarePanel, BoxLayout.Y_AXIS));
mHardwarePanel.add(new DevicePanel(ledString.mDeviceConfig));
mHardwarePanel.add(new LedFramePanel(ledString.mLedFrameConfig));
mHardwarePanel.add(new ImageProcessPanel(ledString.mProcessConfig));
mHardwarePanel.add(Box.createVerticalGlue());
}
return mHardwarePanel;
}
private JPanel getProcessPanel() {
if (mProcessPanel == null) {
mProcessPanel = new JPanel();
mProcessPanel.setLayout(new BoxLayout(mProcessPanel, BoxLayout.Y_AXIS));
mProcessPanel.add(new FrameGrabberPanel(ledString.mMiscConfig));
mProcessPanel.add(new ColorSmoothingPanel(ledString.mColorConfig));
mProcessPanel.add(new ColorsPanel(ledString.mColorConfig));
mProcessPanel.add(Box.createVerticalGlue());
}
return mProcessPanel;
}
private JPanel getExternalPanel() {
if (mExternalPanel == null) {
mExternalPanel = new JPanel();
mExternalPanel.setLayout(new BoxLayout(mExternalPanel, BoxLayout.Y_AXIS));
mExternalPanel.add(new XbmcPanel(ledString.mMiscConfig));
mExternalPanel.add(new InterfacePanel(ledString.mMiscConfig));
mExternalPanel.add(new EffectEnginePanel(ledString.mMiscConfig));
mExternalPanel.add(Box.createVerticalGlue());
}
return mExternalPanel;
}
}

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package org.hyperion.hypercon.gui;
import java.awt.BorderLayout;
import java.awt.Dimension;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.beans.Transient;
import javax.swing.BorderFactory;
import javax.swing.GroupLayout;
import javax.swing.JComboBox;
import javax.swing.JLabel;
import javax.swing.JPanel;
import org.hyperion.hypercon.gui.device.DeviceTypePanel;
import org.hyperion.hypercon.spec.ColorByteOrder;
import org.hyperion.hypercon.spec.DeviceConfig;
import org.hyperion.hypercon.spec.DeviceType;
public class DevicePanel extends JPanel {
public static final String[] KnownOutputs = {"/dev/spidev0.0", "/dev/spidev0.1", "/dev/ttyS0", "/dev/ttyUSB0", "/dev/ttyprintk", "/home/pi/test.out", "/dev/null"};
private final DeviceConfig mDeviceConfig;
private JLabel mTypeLabel;
private JComboBox<DeviceType> mTypeCombo;
private JPanel mDevicePanel;
private JLabel mRgbLabel;
private JComboBox<ColorByteOrder> mRgbCombo;
public DevicePanel(DeviceConfig pDeviceConfig) {
super();
mDeviceConfig = pDeviceConfig;
initialise();
}
@Override
@Transient
public Dimension getMaximumSize() {
Dimension maxSize = super.getMaximumSize();
Dimension prefSize = super.getPreferredSize();
return new Dimension(maxSize.width, prefSize.height);
}
private void initialise() {
setBorder(BorderFactory.createTitledBorder("Device"));
mTypeLabel = new JLabel("Type: ");
mTypeLabel.setMinimumSize(new Dimension(80, 10));
add(mTypeLabel);
mTypeCombo = new JComboBox<>(DeviceType.values());
mTypeCombo.setSelectedItem(mDeviceConfig.mType);
mTypeCombo.addActionListener(mActionListener);
add(mTypeCombo);
mDevicePanel = new JPanel();
mDevicePanel.setBorder(BorderFactory.createEmptyBorder(5, 0, 5, 0));
mDevicePanel.setLayout(new BorderLayout());
DeviceTypePanel typePanel = mDeviceConfig.mType.getConfigPanel(mDeviceConfig);
if (typePanel != null) {
mDevicePanel.add(typePanel, BorderLayout.CENTER);
}
add(mDevicePanel);
mRgbLabel = new JLabel("RGB Byte Order: ");
mRgbLabel.setMinimumSize(new Dimension(80, 10));
add(mRgbLabel);
mRgbCombo = new JComboBox<>(ColorByteOrder.values());
mRgbCombo.setSelectedItem(mDeviceConfig.mColorByteOrder);
mRgbCombo.addActionListener(mActionListener);
add(mRgbCombo);
GroupLayout layout = new GroupLayout(this);
layout.setAutoCreateGaps(true);
setLayout(layout);
layout.setHorizontalGroup(layout.createParallelGroup()
.addGroup(layout.createSequentialGroup()
.addComponent(mTypeLabel)
.addComponent(mTypeCombo))
.addComponent(mDevicePanel)
.addGroup(layout.createSequentialGroup()
.addComponent(mRgbLabel)
.addComponent(mRgbCombo)));
layout.setVerticalGroup(layout.createParallelGroup()
.addGroup(layout.createSequentialGroup()
.addComponent(mTypeLabel)
.addComponent(mDevicePanel)
.addComponent(mRgbLabel))
.addGroup(layout.createSequentialGroup()
.addComponent(mTypeCombo)
.addComponent(mDevicePanel)
.addComponent(mRgbCombo)));
}
private final ActionListener mActionListener = new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
mDeviceConfig.mType = (DeviceType)mTypeCombo.getSelectedItem();
mDeviceConfig.mColorByteOrder = (ColorByteOrder)mRgbCombo.getSelectedItem();
mDevicePanel.removeAll();
DeviceTypePanel typePanel = mDeviceConfig.mType.getConfigPanel(mDeviceConfig);
if (typePanel != null) {
mDevicePanel.add(typePanel, BorderLayout.CENTER);
}
revalidate();
}
};
}

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package org.hyperion.hypercon.gui;
import java.awt.Dimension;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import javax.swing.BorderFactory;
import javax.swing.GroupLayout;
import javax.swing.JCheckBox;
import javax.swing.JLabel;
import javax.swing.JPanel;
import javax.swing.JSpinner;
import javax.swing.JTextField;
import javax.swing.SpinnerNumberModel;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import javax.swing.event.DocumentEvent;
import javax.swing.event.DocumentListener;
import org.hyperion.hypercon.spec.MiscConfig;
/**
* THe EffectEnginePanel contains the components for configuring the parameters of the Effect Engine
*/
public class EffectEnginePanel extends JPanel {
/** The MISC config contains the effect engine settings */
private final MiscConfig mMiscConfig;
private JLabel mPathLabel;
private JTextField mPathField;
private JPanel mBootSequencePanel;
private JCheckBox mBootSequenceCheck;
private JLabel mBootSequenceLabel;
private JTextField mBootSequenceField;
private JLabel mBootSequenceLengthLabel;
private JSpinner mBootSequenceLengthSpinner;
public EffectEnginePanel(final MiscConfig pMiscConfig) {
super();
mMiscConfig = pMiscConfig;
initialise();
}
private void initialise() {
setBorder(BorderFactory.createTitledBorder("Effect Engine"));
mPathLabel = new JLabel("Directory: ");
mPathLabel.setMinimumSize(new Dimension(80, 10));
add(mPathLabel);
mPathField = new JTextField();
mPathField.setMaximumSize(new Dimension(1024, 20));
mPathField.setText(mMiscConfig.mEffectEnginePath);
mPathField.getDocument().addDocumentListener(new DocumentListener() {
@Override
public void removeUpdate(DocumentEvent e) {
mMiscConfig.mEffectEnginePath = mPathField.getText();
}
@Override
public void insertUpdate(DocumentEvent e) {
mMiscConfig.mEffectEnginePath = mPathField.getText();
}
@Override
public void changedUpdate(DocumentEvent e) {
mMiscConfig.mEffectEnginePath = mPathField.getText();
}
});
add(mPathField);
add(getBootSequencePanel());
GroupLayout layout = new GroupLayout(this);
setLayout(layout);
layout.setVerticalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mPathLabel)
.addComponent(mPathField))
.addComponent(getBootSequencePanel()));
layout.setHorizontalGroup(layout.createParallelGroup()
.addGroup(layout.createSequentialGroup()
.addComponent(mPathLabel)
.addComponent(mPathField))
.addComponent(getBootSequencePanel()));
}
private JPanel getBootSequencePanel() {
if (mBootSequencePanel == null) {
mBootSequencePanel = new JPanel();
mBootSequencePanel.setBorder(BorderFactory.createTitledBorder("Bootsequence"));
mBootSequenceCheck = new JCheckBox("Enabled");
mBootSequenceCheck.setSelected(mMiscConfig.mBootSequenceEnabled);
mBootSequenceCheck.addActionListener(new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
mMiscConfig.mBootSequenceEnabled = mBootSequenceCheck.isSelected();
mBootSequenceLabel.setEnabled(mMiscConfig.mBootSequenceEnabled);
mBootSequenceField.setEnabled(mMiscConfig.mBootSequenceEnabled);
}
});
mBootSequencePanel.add(mBootSequenceCheck);
mBootSequenceLabel = new JLabel("Type:");
mBootSequenceLabel.setMinimumSize(new Dimension(75, 10));
mBootSequenceLabel.setEnabled(mMiscConfig.mBootSequenceEnabled);
mBootSequencePanel.add(mBootSequenceLabel);
mBootSequenceField = new JTextField();
mBootSequenceField.setMaximumSize(new Dimension(1024, 20));
mBootSequenceField.setText(mMiscConfig.mBootSequenceEffect);
mBootSequenceField.setEnabled(mMiscConfig.mBootSequenceEnabled);
mBootSequenceField.getDocument().addDocumentListener(new DocumentListener() {
@Override
public void removeUpdate(DocumentEvent e) {
mMiscConfig.mBootSequenceEffect = mBootSequenceField.getText();
}
@Override
public void insertUpdate(DocumentEvent e) {
mMiscConfig.mBootSequenceEffect = mBootSequenceField.getText();
}
@Override
public void changedUpdate(DocumentEvent e) {
mMiscConfig.mBootSequenceEffect = mBootSequenceField.getText();
}
});
mBootSequencePanel.add(mBootSequenceField);
mBootSequenceLengthLabel = new JLabel("Length[ms]: ");
mBootSequenceLengthLabel.setMinimumSize(new Dimension(75, 10));
mBootSequenceLengthLabel.setEnabled(mMiscConfig.mBootSequenceEnabled);
mBootSequencePanel.add(mBootSequenceLengthLabel);
mBootSequenceLengthSpinner = new JSpinner(new SpinnerNumberModel(mMiscConfig.mBootSequenceLength_ms, 100, 1500000, 500));
mBootSequenceLengthSpinner.setMaximumSize(new Dimension(1024, 20));
mBootSequenceLengthSpinner.setEnabled(mMiscConfig.mBootSequenceEnabled);
mBootSequenceLengthSpinner.addChangeListener(new ChangeListener() {
@Override
public void stateChanged(ChangeEvent e) {
mMiscConfig.mBootSequenceLength_ms = (Integer)mBootSequenceLengthSpinner.getValue();
}
});
mBootSequencePanel.add(mBootSequenceLengthSpinner);
GroupLayout layout = new GroupLayout(mBootSequencePanel);
mBootSequencePanel.setLayout(layout);
layout.setVerticalGroup(layout.createSequentialGroup()
.addComponent(mBootSequenceCheck)
.addGroup(layout.createParallelGroup()
.addComponent(mBootSequenceLabel)
.addComponent(mBootSequenceField))
.addGroup(layout.createParallelGroup()
.addComponent(mBootSequenceLengthLabel)
.addComponent(mBootSequenceLengthSpinner))
);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mBootSequenceCheck)
.addComponent(mBootSequenceLabel)
.addComponent(mBootSequenceLengthLabel))
.addGroup(layout.createParallelGroup()
.addComponent(mBootSequenceCheck)
.addComponent(mBootSequenceField)
.addComponent(mBootSequenceLengthSpinner)));
}
return mBootSequencePanel;
}
}

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@ -1,137 +0,0 @@
package org.hyperion.hypercon.gui;
import java.awt.Dimension;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.beans.Transient;
import javax.swing.BorderFactory;
import javax.swing.GroupLayout;
import javax.swing.JCheckBox;
import javax.swing.JLabel;
import javax.swing.JPanel;
import javax.swing.JSpinner;
import javax.swing.SpinnerNumberModel;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import org.hyperion.hypercon.spec.MiscConfig;
public class FrameGrabberPanel extends JPanel {
private final MiscConfig mMiscConfig;
private JCheckBox mFrameGrabberCheck;
private JLabel mWidthLabel;
private JSpinner mWidthSpinner;
private JLabel mHeightLabel;
private JSpinner mHeightSpinner;
private JLabel mIntervalLabel;
private JSpinner mIntervalSpinner;
public FrameGrabberPanel(final MiscConfig pMiscConfig) {
super();
mMiscConfig = pMiscConfig;
initialise();
}
@Override
@Transient
public Dimension getMaximumSize() {
Dimension maxSize = super.getMaximumSize();
Dimension prefSize = super.getPreferredSize();
return new Dimension(maxSize.width, prefSize.height);
}
private void initialise() {
setBorder(BorderFactory.createTitledBorder("Frame Grabber"));
mFrameGrabberCheck = new JCheckBox("Enabled");
mFrameGrabberCheck.setSelected(mMiscConfig.mFrameGrabberEnabled);
mFrameGrabberCheck.addActionListener(mActionListener);
add(mFrameGrabberCheck);
mWidthLabel = new JLabel("Width: ");
add(mWidthLabel);
mWidthSpinner = new JSpinner(new SpinnerNumberModel(mMiscConfig.mFrameGrabberWidth, 16, 1024, 8));
mWidthSpinner.addChangeListener(mChangeListener);
add(mWidthSpinner);
mHeightLabel = new JLabel("Heigth: ");
add(mHeightLabel);
mHeightSpinner = new JSpinner(new SpinnerNumberModel(mMiscConfig.mFrameGrabberHeight, 16, 1024, 8));
mHeightSpinner.addChangeListener(mChangeListener);
add(mHeightSpinner);
mIntervalLabel = new JLabel("Interval [ms]:");
add(mIntervalLabel);
mIntervalSpinner = new JSpinner(new SpinnerNumberModel(mMiscConfig.mFrameGrabberInterval_ms, 10, 60000, 10));
mIntervalSpinner.addChangeListener(mChangeListener);
add(mIntervalSpinner);
GroupLayout layout = new GroupLayout(this);
layout.setAutoCreateGaps(true);
setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mFrameGrabberCheck)
.addComponent(mWidthLabel)
.addComponent(mHeightLabel)
.addComponent(mIntervalLabel)
)
.addGroup(layout.createParallelGroup()
.addComponent(mFrameGrabberCheck)
.addComponent(mWidthSpinner)
.addComponent(mHeightSpinner)
.addComponent(mIntervalSpinner)
));
layout.setVerticalGroup(layout.createSequentialGroup()
.addComponent(mFrameGrabberCheck)
.addGroup(layout.createParallelGroup()
.addComponent(mWidthLabel)
.addComponent(mWidthSpinner)
)
.addGroup(layout.createParallelGroup()
.addComponent(mHeightLabel)
.addComponent(mHeightSpinner)
)
.addGroup(layout.createParallelGroup()
.addComponent(mIntervalLabel)
.addComponent(mIntervalSpinner)
));
toggleEnabled(mMiscConfig.mFrameGrabberEnabled);
}
private void toggleEnabled(boolean pEnabled) {
mWidthLabel.setEnabled(pEnabled);
mWidthSpinner.setEnabled(pEnabled);
mHeightLabel.setEnabled(pEnabled);
mHeightSpinner.setEnabled(pEnabled);
mIntervalLabel.setEnabled(pEnabled);
mIntervalSpinner.setEnabled(pEnabled);
}
private final ActionListener mActionListener = new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
mMiscConfig.mFrameGrabberEnabled = mFrameGrabberCheck.isSelected();
toggleEnabled(mMiscConfig.mFrameGrabberEnabled);
}
};
private final ChangeListener mChangeListener = new ChangeListener() {
@Override
public void stateChanged(ChangeEvent e) {
mMiscConfig.mFrameGrabberWidth = (Integer)mWidthSpinner.getValue();
mMiscConfig.mFrameGrabberHeight = (Integer)mHeightSpinner.getValue();
mMiscConfig.mFrameGrabberInterval_ms = (Integer)mIntervalSpinner.getValue();
}
};
}

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@ -1,27 +0,0 @@
package org.hyperion.hypercon.gui;
import java.awt.Graphics;
import java.awt.Image;
import javax.swing.JComponent;
public class ImageComponent extends JComponent {
private Image mImage;
public ImageComponent() {
super();
}
public void setImage(Image pImage) {
mImage = pImage;
}
@Override
public void paint(Graphics g) {
if (mImage == null) {
return;
}
g.drawImage(mImage, 0, 0, getWidth(), getHeight(), null);
}
}

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@ -1,177 +0,0 @@
package org.hyperion.hypercon.gui;
import java.awt.Dimension;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.beans.Transient;
import javax.swing.BorderFactory;
import javax.swing.GroupLayout;
import javax.swing.JComboBox;
import javax.swing.JLabel;
import javax.swing.JPanel;
import javax.swing.JSpinner;
import javax.swing.SpinnerNumberModel;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import org.hyperion.hypercon.spec.ImageProcessConfig;
public class ImageProcessPanel extends JPanel {
private final ImageProcessConfig mProcessConfig;
private JLabel mHorizontalDepthLabel;
private JSpinner mHorizontalDepthSpinner;
private JLabel mVerticalDepthLabel;
private JSpinner mVerticalDepthSpinner;
private JLabel mHorizontalGapLabel;
private JSpinner mHorizontalGapSpinner;
private JLabel mVerticalGapLabel;
private JSpinner mVerticalGapSpinner;
private JLabel mOverlapLabel;
private JSpinner mOverlapSpinner;
private JLabel mBlackborderDetectorLabel;
private JComboBox<String> mBlackborderDetectorCombo;
public ImageProcessPanel(ImageProcessConfig pProcessConfig) {
super();
mProcessConfig = pProcessConfig;
initialise();
}
@Override
@Transient
public Dimension getMaximumSize() {
Dimension maxSize = super.getMaximumSize();
Dimension prefSize = super.getPreferredSize();
return new Dimension(maxSize.width, prefSize.height);
}
private void initialise() {
setBorder(BorderFactory.createTitledBorder("Image Process"));
mHorizontalDepthLabel = new JLabel("Horizontal depth [%]:");
add(mHorizontalDepthLabel);
mHorizontalDepthSpinner = new JSpinner(new SpinnerNumberModel(mProcessConfig.mHorizontalDepth*100.0, 1.0, 100.0, 1.0));
mHorizontalDepthSpinner.addChangeListener(mChangeListener);
add(mHorizontalDepthSpinner);
mVerticalDepthLabel = new JLabel("Vertical depth [%]:");
add(mVerticalDepthLabel);
mVerticalDepthSpinner = new JSpinner(new SpinnerNumberModel(mProcessConfig.mVerticalDepth*100.0, 1.0, 100.0, 1.0));
mVerticalDepthSpinner.addChangeListener(mChangeListener);
add(mVerticalDepthSpinner);
mHorizontalGapLabel = new JLabel("Horizontal gap [%]:");
add(mHorizontalGapLabel);
mHorizontalGapSpinner = new JSpinner(new SpinnerNumberModel(mProcessConfig.mHorizontalGap*100.0, 0.0, 50.0, 1.0));
mHorizontalGapSpinner.addChangeListener(mChangeListener);
add(mHorizontalGapSpinner);
mVerticalGapLabel = new JLabel("Vertical gap [%]:");
add(mVerticalGapLabel);
mVerticalGapSpinner = new JSpinner(new SpinnerNumberModel(mProcessConfig.mVerticalGap*100.0, 0.0, 50.0, 1.0));
mVerticalGapSpinner.addChangeListener(mChangeListener);
add(mVerticalGapSpinner);
mOverlapLabel = new JLabel("Overlap [%]:");
add(mOverlapLabel);
mOverlapSpinner = new JSpinner(new SpinnerNumberModel(mProcessConfig.mOverlapFraction*100.0, -100.0, 100.0, 1.0));
mOverlapSpinner.addChangeListener(mChangeListener);
add(mOverlapSpinner);
mBlackborderDetectorLabel = new JLabel("Blackborder Detector:");
add(mBlackborderDetectorLabel);
mBlackborderDetectorCombo = new JComboBox<>(new String[] {"On", "Off"});
mBlackborderDetectorCombo.setSelectedItem(mProcessConfig.mBlackBorderRemoval?"On":"Off");
mBlackborderDetectorCombo.setToolTipText("Enables or disables the blackborder detection and removal");
mBlackborderDetectorCombo.addActionListener(mActionListener);
add(mBlackborderDetectorCombo);
GroupLayout layout = new GroupLayout(this);
layout.setAutoCreateGaps(true);
setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mHorizontalDepthLabel)
.addComponent(mVerticalDepthLabel)
.addComponent(mHorizontalGapLabel)
.addComponent(mVerticalGapLabel)
.addComponent(mOverlapLabel)
.addComponent(mBlackborderDetectorLabel)
)
.addGroup(layout.createParallelGroup()
.addComponent(mHorizontalDepthSpinner)
.addComponent(mVerticalDepthSpinner)
.addComponent(mHorizontalGapSpinner)
.addComponent(mVerticalGapSpinner)
.addComponent(mOverlapSpinner)
.addComponent(mBlackborderDetectorCombo)
)
);
layout.setVerticalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mHorizontalDepthLabel)
.addComponent(mHorizontalDepthSpinner)
)
.addGroup(layout.createParallelGroup()
.addComponent(mVerticalDepthLabel)
.addComponent(mVerticalDepthSpinner)
)
.addGroup(layout.createParallelGroup()
.addComponent(mHorizontalGapLabel)
.addComponent(mHorizontalGapSpinner)
)
.addGroup(layout.createParallelGroup()
.addComponent(mVerticalGapLabel)
.addComponent(mVerticalGapSpinner)
)
.addGroup(layout.createParallelGroup()
.addComponent(mOverlapLabel)
.addComponent(mOverlapSpinner)
)
.addGroup(layout.createParallelGroup()
.addComponent(mBlackborderDetectorLabel)
.addComponent(mBlackborderDetectorCombo)
)
);
}
private final ActionListener mActionListener = new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
// Update the processing configuration
mProcessConfig.setBlackBorderRemoval((mBlackborderDetectorCombo.getSelectedItem() == "On"));
// Notify observers
mProcessConfig.notifyObservers(this);
}
};
private final ChangeListener mChangeListener = new ChangeListener() {
@Override
public void stateChanged(ChangeEvent e) {
// Update the processing configuration
mProcessConfig.setHorizontalDepth(((Double)mHorizontalDepthSpinner.getValue())/100.0);
mProcessConfig.setVerticalDepth(((Double)mVerticalDepthSpinner.getValue())/100.0);
mProcessConfig.setHorizontalGap(((Double)mHorizontalGapSpinner.getValue())/100.0);
mProcessConfig.setVerticalGap(((Double)mVerticalGapSpinner.getValue())/100.0);
mProcessConfig.setOverlapFraction(((Double)mOverlapSpinner.getValue())/100.0);
// Notify observers
mProcessConfig.notifyObservers(this);
}
};
}

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@ -1,215 +0,0 @@
package org.hyperion.hypercon.gui;
import java.awt.Dimension;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.beans.Transient;
import javax.swing.BorderFactory;
import javax.swing.BoxLayout;
import javax.swing.GroupLayout;
import javax.swing.JCheckBox;
import javax.swing.JLabel;
import javax.swing.JPanel;
import javax.swing.JSpinner;
import javax.swing.SpinnerNumberModel;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import org.hyperion.hypercon.spec.MiscConfig;
public class InterfacePanel extends JPanel {
public final MiscConfig mMiscConfig;
private JPanel mJsonPanel;
private JCheckBox mJsonCheck;
private JLabel mJsonPortLabel;
private JSpinner mJsonPortSpinner;
private JPanel mProtoPanel;
private JCheckBox mProtoCheck;
private JLabel mProtoPortLabel;
private JSpinner mProtoPortSpinner;
private JPanel mBoblightPanel;
private JCheckBox mBoblightCheck;
private JLabel mBoblightPortLabel;
private JSpinner mBoblightPortSpinner;
public InterfacePanel(final MiscConfig pMiscConfig) {
super();
mMiscConfig = pMiscConfig;
initialise();
}
@Override
@Transient
public Dimension getMaximumSize() {
Dimension maxSize = super.getMaximumSize();
Dimension prefSize = super.getPreferredSize();
return new Dimension(maxSize.width, prefSize.height);
}
private void initialise() {
//setBorder(BorderFactory.createTitledBorder("External interfaces"));
setLayout(new BoxLayout(this, BoxLayout.Y_AXIS));
add(getJsonPanel());
add(getProtoPanel());
add(getBoblightPanel());
toggleEnabledFlags();
}
private JPanel getJsonPanel() {
if (mJsonPanel == null) {
mJsonPanel = new JPanel();
mJsonPanel.setBorder(BorderFactory.createTitledBorder("Json server"));
mJsonCheck = new JCheckBox("Enabled");
mJsonCheck.setSelected(mMiscConfig.mJsonInterfaceEnabled);
mJsonCheck.addActionListener(mActionListener);
mJsonPanel.add(mJsonCheck);
mJsonPortLabel = new JLabel("TCP Port: ");
mJsonPanel.add(mJsonPortLabel);
mJsonPortSpinner = new JSpinner(new SpinnerNumberModel(mMiscConfig.mJsonPort, 1, 65536, 1));
mJsonPortSpinner.addChangeListener(mChangeListener);
mJsonPanel.add(mJsonPortSpinner);
GroupLayout layout = new GroupLayout(mJsonPanel);
layout.setAutoCreateGaps(true);
mJsonPanel.setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mJsonCheck)
.addComponent(mJsonPortLabel)
)
.addGroup(layout.createParallelGroup()
.addComponent(mJsonCheck)
.addComponent(mJsonPortSpinner)
));
layout.setVerticalGroup(layout.createSequentialGroup()
.addComponent(mJsonCheck)
.addGroup(layout.createParallelGroup()
.addComponent(mJsonPortLabel)
.addComponent(mJsonPortSpinner)
));
}
return mJsonPanel;
}
private JPanel getProtoPanel() {
if (mProtoPanel == null) {
mProtoPanel = new JPanel();
mProtoPanel.setBorder(BorderFactory.createTitledBorder("Proto server"));
mProtoCheck = new JCheckBox("Enabled");
mProtoCheck.setSelected(mMiscConfig.mProtoInterfaceEnabled);
mProtoCheck.addActionListener(mActionListener);
mProtoPanel.add(mProtoCheck);
mProtoPortLabel = new JLabel("TCP Port: ");
mProtoPanel.add(mProtoPortLabel);
mProtoPortSpinner = new JSpinner(new SpinnerNumberModel(mMiscConfig.mProtoPort, 1, 65536, 1));
mProtoPortSpinner.addChangeListener(mChangeListener);
mProtoPanel.add(mProtoPortSpinner);
GroupLayout layout = new GroupLayout(mProtoPanel);
layout.setAutoCreateGaps(true);
mProtoPanel.setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mProtoCheck)
.addComponent(mProtoPortLabel)
)
.addGroup(layout.createParallelGroup()
.addComponent(mProtoCheck)
.addComponent(mProtoPortSpinner)
));
layout.setVerticalGroup(layout.createSequentialGroup()
.addComponent(mProtoCheck)
.addGroup(layout.createParallelGroup()
.addComponent(mProtoPortLabel)
.addComponent(mProtoPortSpinner)
));
}
return mProtoPanel;
}
private JPanel getBoblightPanel() {
if (mBoblightPanel == null) {
mBoblightPanel = new JPanel();
mBoblightPanel.setBorder(BorderFactory.createTitledBorder("Boblight server"));
mBoblightCheck = new JCheckBox("Enabled");
mBoblightCheck.setSelected(mMiscConfig.mBoblightInterfaceEnabled);
mBoblightCheck.addActionListener(mActionListener);
mBoblightPanel.add(mBoblightCheck);
mBoblightPortLabel = new JLabel("TCP Port: ");
mBoblightPanel.add(mBoblightPortLabel);
mBoblightPortSpinner = new JSpinner(new SpinnerNumberModel(mMiscConfig.mBoblightPort, 1, 65536, 1));
mBoblightPortSpinner.addChangeListener(mChangeListener);
mBoblightPanel.add(mBoblightPortSpinner);
GroupLayout layout = new GroupLayout(mBoblightPanel);
layout.setAutoCreateGaps(true);
mBoblightPanel.setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mBoblightCheck)
.addComponent(mBoblightPortLabel)
)
.addGroup(layout.createParallelGroup()
.addComponent(mBoblightCheck)
.addComponent(mBoblightPortSpinner)
));
layout.setVerticalGroup(layout.createSequentialGroup()
.addComponent(mBoblightCheck)
.addGroup(layout.createParallelGroup()
.addComponent(mBoblightPortLabel)
.addComponent(mBoblightPortSpinner)
));
}
return mBoblightPanel;
}
private void toggleEnabledFlags() {
mJsonPortLabel.setEnabled(mMiscConfig.mJsonInterfaceEnabled);
mJsonPortSpinner.setEnabled(mMiscConfig.mJsonInterfaceEnabled);
mProtoPortLabel.setEnabled(mMiscConfig.mProtoInterfaceEnabled);
mProtoPortSpinner.setEnabled(mMiscConfig.mProtoInterfaceEnabled);
mBoblightPortLabel.setEnabled(mMiscConfig.mBoblightInterfaceEnabled);
mBoblightPortSpinner.setEnabled(mMiscConfig.mBoblightInterfaceEnabled);
}
private final ActionListener mActionListener = new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
mMiscConfig.mJsonInterfaceEnabled = mJsonCheck.isSelected();
mMiscConfig.mProtoInterfaceEnabled = mProtoCheck.isSelected();
mMiscConfig.mBoblightInterfaceEnabled = mBoblightCheck.isSelected();
toggleEnabledFlags();
}
};
private final ChangeListener mChangeListener = new ChangeListener() {
@Override
public void stateChanged(ChangeEvent e) {
mMiscConfig.mJsonPort = (Integer)mJsonPortSpinner.getValue();
mMiscConfig.mProtoPort = (Integer)mJsonPortSpinner.getValue();
mMiscConfig.mBoblightPort = (Integer)mJsonPortSpinner.getValue();
}
};
}

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@ -1,48 +0,0 @@
package org.hyperion.hypercon.gui;
import java.awt.GridLayout;
import javax.swing.ButtonGroup;
import javax.swing.JFrame;
import javax.swing.JPanel;
import javax.swing.JRadioButton;
public class LedDivideDialog extends JFrame {
private final int mLedCount;
private final int mTransformCount;
private JPanel mContentPanel;
public LedDivideDialog(int pLedCnt, int pTransformCnt) {
super();
mLedCount = pLedCnt;
mTransformCount = pTransformCnt;
initialise();
}
private void initialise() {
mContentPanel = new JPanel();
mContentPanel.setLayout(new GridLayout(mLedCount, mTransformCount, 5, 5));
for (int iLed=0; iLed<mLedCount; ++iLed) {
ButtonGroup ledGroup = new ButtonGroup();
for (int iTransform=0; iTransform<mTransformCount; ++iTransform) {
JRadioButton ledTransformButton = new JRadioButton();
ledGroup.add(ledTransformButton);
mContentPanel.add(ledTransformButton);
}
}
setContentPane(mContentPanel);
}
public static void main(String[] pArgs) {
LedDivideDialog dialog = new LedDivideDialog(50, 3);
dialog.setSize(600, 800);
dialog.setVisible(true);
}
}

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@ -1,186 +0,0 @@
package org.hyperion.hypercon.gui;
import java.awt.Dimension;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.beans.Transient;
import javax.swing.BorderFactory;
import javax.swing.GroupLayout;
import javax.swing.JComboBox;
import javax.swing.JLabel;
import javax.swing.JPanel;
import javax.swing.JSpinner;
import javax.swing.SpinnerNumberModel;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import org.hyperion.hypercon.spec.LedFrameConstruction;
import org.hyperion.hypercon.spec.LedFrameConstruction.Direction;
public class LedFramePanel extends JPanel {
private final LedFrameConstruction mLedFrameSpec;
private JLabel mHorizontalCountLabel;
private JSpinner mHorizontalCountSpinner;
private JLabel mBottomGapCountLabel;
private JSpinner mBottomGapCountSpinner;
private JLabel mVerticalCountLabel;
private JSpinner mVerticalCountSpinner;
private JLabel mTopCornerLabel;
private JComboBox<Boolean> mTopCornerCombo;
private JLabel mBottomCornerLabel;
private JComboBox<Boolean> mBottomCornerCombo;
private JLabel mDirectionLabel;
private JComboBox<LedFrameConstruction.Direction> mDirectionCombo;
private JLabel mOffsetLabel;
private JSpinner mOffsetSpinner;
public LedFramePanel(LedFrameConstruction ledFrameSpec) {
super();
mLedFrameSpec = ledFrameSpec;
initialise();
}
@Override
@Transient
public Dimension getMaximumSize() {
Dimension maxSize = super.getMaximumSize();
Dimension prefSize = super.getPreferredSize();
return new Dimension(maxSize.width, prefSize.height);
}
private void initialise() {
setBorder(BorderFactory.createTitledBorder("Construction"));
mTopCornerLabel = new JLabel("Led in top corners");
add(mTopCornerLabel);
mTopCornerCombo = new JComboBox<>(new Boolean[] {true, false});
mTopCornerCombo.setSelectedItem(mLedFrameSpec.topCorners);
mTopCornerCombo.addActionListener(mActionListener);
add(mTopCornerCombo);
mBottomCornerLabel = new JLabel("Led in bottom corners");
add(mBottomCornerLabel);
mBottomCornerCombo = new JComboBox<>(new Boolean[] {true, false});
mBottomCornerCombo.setSelectedItem(mLedFrameSpec.bottomCorners);
mBottomCornerCombo.addActionListener(mActionListener);
add(mBottomCornerCombo);
mDirectionLabel = new JLabel("Direction");
add(mDirectionLabel);
mDirectionCombo = new JComboBox<>(LedFrameConstruction.Direction.values());
mDirectionCombo.setSelectedItem(mLedFrameSpec.clockwiseDirection?Direction.clockwise:Direction.counter_clockwise);
mDirectionCombo.addActionListener(mActionListener);
add(mDirectionCombo);
mHorizontalCountLabel = new JLabel("Horizontal #:");
add(mHorizontalCountLabel);
mHorizontalCountSpinner = new JSpinner(new SpinnerNumberModel(mLedFrameSpec.topLedCnt, 0, 1024, 1));
mHorizontalCountSpinner.addChangeListener(mChangeListener);
add(mHorizontalCountSpinner);
mBottomGapCountLabel = new JLabel("Bottom Gap #:");
add(mBottomGapCountLabel);
mBottomGapCountSpinner = new JSpinner(new SpinnerNumberModel(mLedFrameSpec.topLedCnt - mLedFrameSpec.bottomLedCnt, 0, 1024, 1));
mBottomGapCountSpinner.addChangeListener(mChangeListener);
add(mBottomGapCountSpinner);
mVerticalCountLabel = new JLabel("Vertical #:");
add(mVerticalCountLabel);
mVerticalCountSpinner = new JSpinner(new SpinnerNumberModel(mLedFrameSpec.rightLedCnt, 0, 1024, 1));
mVerticalCountSpinner.addChangeListener(mChangeListener);
add(mVerticalCountSpinner);
mOffsetLabel = new JLabel("1st LED offset");
add(mOffsetLabel);
mOffsetSpinner = new JSpinner(new SpinnerNumberModel(mLedFrameSpec.firstLedOffset, Integer.MIN_VALUE, Integer.MAX_VALUE, 1));
mOffsetSpinner.addChangeListener(mChangeListener);
add(mOffsetSpinner);
GroupLayout layout = new GroupLayout(this);
layout.setAutoCreateGaps(true);
setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mDirectionLabel)
.addComponent(mTopCornerLabel)
.addComponent(mBottomCornerLabel)
.addComponent(mHorizontalCountLabel)
.addComponent(mBottomGapCountLabel)
.addComponent(mVerticalCountLabel)
.addComponent(mOffsetLabel))
.addGroup(layout.createParallelGroup()
.addComponent(mDirectionCombo)
.addComponent(mTopCornerCombo)
.addComponent(mBottomCornerCombo)
.addComponent(mHorizontalCountSpinner)
.addComponent(mBottomGapCountSpinner)
.addComponent(mVerticalCountSpinner)
.addComponent(mOffsetSpinner))
);
layout.setVerticalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mDirectionLabel)
.addComponent(mDirectionCombo))
.addGroup(layout.createParallelGroup()
.addComponent(mTopCornerLabel)
.addComponent(mTopCornerCombo))
.addGroup(layout.createParallelGroup()
.addComponent(mBottomCornerLabel)
.addComponent(mBottomCornerCombo))
.addGroup(layout.createParallelGroup()
.addComponent(mHorizontalCountLabel)
.addComponent(mHorizontalCountSpinner))
.addGroup(layout.createParallelGroup()
.addComponent(mVerticalCountLabel)
.addComponent(mVerticalCountSpinner))
.addGroup(layout.createParallelGroup()
.addComponent(mBottomGapCountLabel)
.addComponent(mBottomGapCountSpinner))
.addGroup(layout.createParallelGroup()
.addComponent(mOffsetLabel)
.addComponent(mOffsetSpinner)));
}
void updateLedConstruction() {
mLedFrameSpec.topCorners = (Boolean)mTopCornerCombo.getSelectedItem();
mLedFrameSpec.bottomCorners = (Boolean)mBottomCornerCombo.getSelectedItem();
mLedFrameSpec.clockwiseDirection = ((LedFrameConstruction.Direction)mDirectionCombo.getSelectedItem()) == LedFrameConstruction.Direction.clockwise;
mLedFrameSpec.firstLedOffset = (Integer)mOffsetSpinner.getValue();
mLedFrameSpec.topLedCnt = (Integer)mHorizontalCountSpinner.getValue();
mLedFrameSpec.bottomLedCnt = Math.max(0, mLedFrameSpec.topLedCnt - (Integer)mBottomGapCountSpinner.getValue());
mLedFrameSpec.rightLedCnt = (Integer)mVerticalCountSpinner.getValue();
mLedFrameSpec.leftLedCnt = (Integer)mVerticalCountSpinner.getValue();
mLedFrameSpec.setChanged();
mLedFrameSpec.notifyObservers();
mBottomGapCountSpinner.setValue(mLedFrameSpec.topLedCnt - mLedFrameSpec.bottomLedCnt);
}
private final ActionListener mActionListener = new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
updateLedConstruction();
}
};
private final ChangeListener mChangeListener = new ChangeListener() {
@Override
public void stateChanged(ChangeEvent e) {
updateLedConstruction();
}
};
}

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package org.hyperion.hypercon.gui;
import java.awt.BorderLayout;
import java.awt.Color;
import java.awt.Dimension;
import java.awt.Graphics;
import java.awt.Graphics2D;
import java.awt.Image;
import java.awt.event.ActionEvent;
import java.awt.event.MouseAdapter;
import java.awt.event.MouseEvent;
import java.awt.event.MouseListener;
import java.awt.image.BufferedImage;
import java.beans.PropertyChangeEvent;
import java.beans.PropertyChangeListener;
import java.io.File;
import java.net.URL;
import java.util.Vector;
import javax.swing.AbstractAction;
import javax.swing.Action;
import javax.swing.ImageIcon;
import javax.swing.JFileChooser;
import javax.swing.JFrame;
import javax.swing.JMenu;
import javax.swing.JPanel;
import javax.swing.JPopupMenu;
import javax.swing.JProgressBar;
import javax.swing.SwingWorker;
import org.hyperion.hypercon.LedFrameFactory;
import org.hyperion.hypercon.spec.ImageProcessConfig;
import org.hyperion.hypercon.spec.Led;
import org.hyperion.hypercon.spec.LedFrameConstruction;
public class LedSimulationComponent extends JPanel {
private BufferedImage mTvImage = new BufferedImage(640, 480, BufferedImage.TYPE_INT_ARGB);
private void setImage(Image pImage) {
mTvImage.createGraphics().drawImage(pImage, 0, 0, mTvImage.getWidth(), mTvImage.getHeight(), null);
}
{
Image image = new ImageIcon(LedSimulationComponent.class.getResource("TestImage_01.png")).getImage();
mTvImage.createGraphics().drawImage(image, 0, 0, mTvImage.getWidth(), mTvImage.getHeight(), null);
}
private JPanel mTopPanel;
private ImageComponent mTopLeftImage;
private ImageComponent mTopImage;
private ImageComponent mTopRightImage;
private ImageComponent mLeftImage;
private ImageComponent mRightImage;
private JPanel mBottomPanel;
private ImageComponent mBottomLeftImage;
private ImageComponent mBottomImage;
private ImageComponent mBottomRightImage;
private JProgressBar mProgressBar;
LedTvComponent mTvComponent;
private int mLedCnt = 0;
public LedSimulationComponent(Vector<Led> pLeds) {
super();
initialise(pLeds);
setLeds(pLeds);
}
void initialise(Vector<Led> pLeds) {
setBackground(Color.BLACK);
setLayout(new BorderLayout());
add(getTopPanel(), BorderLayout.NORTH);
mLeftImage = new ImageComponent();
mLeftImage.setPreferredSize(new Dimension(100,100));
add(mLeftImage, BorderLayout.WEST);
mRightImage = new ImageComponent();
mRightImage.setPreferredSize(new Dimension(100,100));
add(mRightImage, BorderLayout.EAST);
add(getBottomPanel(), BorderLayout.SOUTH);
mTvComponent = new LedTvComponent(pLeds);
mTvComponent.setImage(mTvImage);
add(mTvComponent, BorderLayout.CENTER);
mTvComponent.addMouseListener(mPopupListener);
}
private JPanel getTopPanel() {
mTopPanel = new JPanel();
mTopPanel.setPreferredSize(new Dimension(100,100));
mTopPanel.setBackground(Color.BLACK);
mTopPanel.setLayout(new BorderLayout());
mTopLeftImage = new ImageComponent();
mTopLeftImage.setPreferredSize(new Dimension(100,100));
mTopPanel.add(mTopLeftImage, BorderLayout.WEST);
mTopImage = new ImageComponent();
mTopPanel.add(mTopImage, BorderLayout.CENTER);
mTopRightImage = new ImageComponent();
mTopRightImage.setPreferredSize(new Dimension(100,100));
mTopPanel.add(mTopRightImage, BorderLayout.EAST);
return mTopPanel;
}
private JPanel getBottomPanel() {
mBottomPanel = new JPanel();
mBottomPanel.setPreferredSize(new Dimension(100,100));
mBottomPanel.setBackground(Color.BLACK);
mBottomPanel.setLayout(new BorderLayout());
mBottomLeftImage = new ImageComponent();
mBottomLeftImage.setPreferredSize(new Dimension(100,100));
mBottomPanel.add(mBottomLeftImage, BorderLayout.WEST);
mBottomImage = new ImageComponent();
mBottomPanel.add(mBottomImage, BorderLayout.CENTER);
mBottomRightImage = new ImageComponent();
mBottomRightImage.setPreferredSize(new Dimension(100,100));
mBottomPanel.add(mBottomRightImage, BorderLayout.EAST);
mProgressBar = new JProgressBar(0, 100);
mBottomPanel.add(mProgressBar, BorderLayout.SOUTH);
return mBottomPanel;
}
LedSimulationWorker mWorker = null;
public void setLeds(Vector<Led> pLeds) {
mLedCnt = pLeds == null? 0 : pLeds.size();
mTvComponent.setLeds(pLeds);
synchronized (LedSimulationComponent.this) {
if (mWorker != null) {
mWorker.cancel(true);
}
mWorker = null;
}
mWorker = new LedSimulationWorker(mTvImage, pLeds);
mProgressBar.setValue(0);
mWorker.addPropertyChangeListener(new PropertyChangeListener() {
@Override
public void propertyChange(PropertyChangeEvent evt) {
if (evt.getPropertyName() == "state") {
if (evt.getNewValue() == SwingWorker.StateValue.STARTED) {
mProgressBar.setVisible(true);
} else if (evt.getNewValue() == SwingWorker.StateValue.DONE) {
handleWorkerDone();
mProgressBar.setVisible(false);
}
} else if (evt.getPropertyName() == "progress") {
mProgressBar.setValue(mWorker.getProgress());
}
}
private void handleWorkerDone() {
BufferedImage backgroundImage = null;
synchronized(LedSimulationComponent.this) {
if (mWorker == null) {
return;
}
try {
backgroundImage = mWorker.get();
mWorker = null;
} catch (Exception e) {}
}
if (backgroundImage == null) {
return;
}
int width = backgroundImage.getWidth();
int height = backgroundImage.getHeight();
int borderWidth = (int) (backgroundImage.getWidth() * 0.1);
int borderHeight = (int) (backgroundImage.getHeight() * 0.2);
mTopLeftImage.setImage(backgroundImage.getSubimage(0, 0, borderWidth, borderHeight));
mTopImage.setImage(backgroundImage.getSubimage(borderWidth, 0, width-2*borderWidth, borderHeight));
mTopRightImage.setImage(backgroundImage.getSubimage(width-borderWidth, 0, borderWidth, borderHeight));
mLeftImage.setImage(backgroundImage.getSubimage(0, borderHeight, borderWidth, height-2*borderHeight));
mRightImage.setImage(backgroundImage.getSubimage(width-borderWidth, borderHeight, borderWidth, height-2*borderHeight));
mBottomLeftImage.setImage(backgroundImage.getSubimage(0, height-borderHeight, borderWidth, borderHeight));
mBottomImage.setImage(backgroundImage.getSubimage(borderWidth, height-borderHeight, width-2*borderWidth, borderHeight));
mBottomRightImage.setImage(backgroundImage.getSubimage(width-borderWidth, height-borderHeight, borderWidth, borderHeight));
mProgressBar.setValue(100);
mProgressBar.setVisible(false);
mWorker = null;
LedSimulationComponent.this.repaint();
}
});
mWorker.execute();
}
@Override
public void paint(Graphics g) {
super.paint(g);
Graphics2D gCopy = (Graphics2D)g.create();
gCopy.setXORMode(Color.WHITE);
gCopy.setFont(gCopy.getFont().deriveFont(20.0f));
String ledCntStr = "Led count: " + mLedCnt;
gCopy.drawString(ledCntStr, getWidth()-150.0f, getHeight()-10.0f);
}
public static void main(String[] pArgs) {
JFrame frame = new JFrame();
frame.setDefaultCloseOperation(JFrame.DISPOSE_ON_CLOSE);
frame.setSize(800, 600);
Vector<Led> leds = LedFrameFactory.construct(new LedFrameConstruction(), new ImageProcessConfig());
LedSimulationComponent ledSimComp = new LedSimulationComponent(leds);
frame.getContentPane().setLayout(new BorderLayout());
frame.getContentPane().add(ledSimComp);
frame.setVisible(true);
}
private final MouseListener mPopupListener = new MouseAdapter() {
@Override
public void mouseReleased(MouseEvent e) {
showPopup(e);
}
@Override
public void mousePressed(MouseEvent e) {
showPopup(e);
}
private void showPopup(MouseEvent e) {
if (!e.isPopupTrigger()) {
return;
}
getPopupMenu().show(mTvComponent, e.getX(), e.getY());
}
};
private JPopupMenu mPopupMenu;
private final Action mLoadAction = new AbstractAction("Load image...") {
JFileChooser mImageChooser;
@Override
public void actionPerformed(ActionEvent e) {
if (mImageChooser == null) {
mImageChooser = new JFileChooser();
}
if (mImageChooser.showOpenDialog(mTvComponent) != JFileChooser.APPROVE_OPTION) {
return;
}
File file = mImageChooser.getSelectedFile();
try {
ImageIcon imageIcon = new ImageIcon(file.getAbsolutePath());
Image image = imageIcon.getImage();
mTvComponent.setImage(image);
// setIma
} catch (Exception ex) {
}
}
};
private synchronized JPopupMenu getPopupMenu() {
if (mPopupMenu == null) {
mPopupMenu = new JPopupMenu();
mPopupMenu.add(mLoadAction);
JMenu selectMenu = new JMenu("Select Image");
selectMenu.add(new SelectImageAction("TestImage_01"));
selectMenu.add(new SelectImageAction("TestImage_02"));
selectMenu.add(new SelectImageAction("TestImage_03"));
selectMenu.add(new SelectImageAction("TestImage_04"));
selectMenu.add(new SelectImageAction("TestImage_05"));
selectMenu.add(new SelectImageAction("TestImageBBB_01"));
selectMenu.add(new SelectImageAction("TestImageBBB_02"));
selectMenu.add(new SelectImageAction("TestImageBBB_03"));
mPopupMenu.add(selectMenu);
}
return mPopupMenu;
}
private class SelectImageAction extends AbstractAction {
private final String mImageName;
SelectImageAction(String pImageName) {
super(pImageName);
mImageName = pImageName;
ImageIcon image = loadImage();
if (image != null) {
Image scaledImage = image.getImage().getScaledInstance(32, 18, Image.SCALE_SMOOTH);
ImageIcon scaledIcon = new ImageIcon(scaledImage, mImageName);
putValue(SMALL_ICON, scaledIcon);
}
}
@Override
public void actionPerformed(ActionEvent e) {
ImageIcon imageIcon = loadImage();
if (imageIcon != null) {
Image image = imageIcon.getImage();
setImage(image);
mTvComponent.setImage(image);
repaint();
}
}
ImageIcon loadImage() {
URL imageUrl = LedSimulationComponent.class.getResource(mImageName + ".png");
if (imageUrl == null) {
System.out.println("Failed to load image: " + mImageName);
return null;
}
return new ImageIcon(imageUrl);
}
}
}

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package org.hyperion.hypercon.gui;
import java.awt.Color;
import java.awt.Dimension;
import java.awt.Graphics2D;
import java.awt.Point;
import java.awt.geom.Point2D;
import java.awt.image.BufferedImage;
import java.util.List;
import java.util.Vector;
import javax.swing.SwingWorker;
import org.hyperion.hypercon.spec.Led;
public class LedSimulationWorker extends SwingWorker<BufferedImage, Object> {
private final BufferedImage mTvImage;
private final Vector<Led> mLeds;
public LedSimulationWorker(BufferedImage pTvImage, Vector<Led> pLeds) {
super();
mTvImage = pTvImage;
mLeds = pLeds;
}
class LedPaint {
int color;
Point point;
double angle_rad;
}
private final List<LedPaint> mLedPaints = new Vector<>();
@Override
protected BufferedImage doInBackground() throws Exception {
Dimension imageDim = new Dimension(1280, 720);
BufferedImage backgroundImage = new BufferedImage(imageDim.width, imageDim.height, BufferedImage.TYPE_INT_ARGB);
mLedPaints.clear();
setProgress(5);
int imageWidth = mTvImage.getWidth();
int imageHeight = mTvImage.getHeight();
for (Led led : mLeds) {
LedPaint ledPaint = new LedPaint();
// Determine the location and orientation of the led on the image
ledPaint.point = tv2image(imageDim, led.mLocation);
ledPaint.angle_rad = 0.5*Math.PI - led.mSide.getAngle_rad();
// Determine the color of the led
int xMin = (int)(led.mImageRectangle.getMinX() * (imageWidth-1));
int xMax = (int)(led.mImageRectangle.getMaxX() * (imageWidth-1));
int yMin = (int)(led.mImageRectangle.getMinY() * (imageHeight-1));
int yMax = (int)(led.mImageRectangle.getMaxY() * (imageHeight-1));
ledPaint.color = determineColor(xMin, xMax, yMin, yMax);
mLedPaints.add(ledPaint);
}
setProgress(10);
Graphics2D g2d = backgroundImage.createGraphics();
// Clear the image with a black rectangle
g2d.setColor(Color.BLACK);
g2d.drawRect(0, 0, backgroundImage.getWidth(), backgroundImage.getHeight());
paintAllLeds(g2d);
return backgroundImage;
}
Point tv2image(Dimension pImageDim, Point2D point) {
double tvWidthFraction = (1.0 - 2*0.1);
double tvHeightFraction = (1.0 - 2*0.2);
double tvWidth = tvWidthFraction * pImageDim.width;
double tvXIndex = point.getX()*tvWidth;
double imageXIndex = tvXIndex + 0.1*pImageDim.width;
double tvHeight = tvHeightFraction * pImageDim.height;
double tvYIndex = point.getY()*tvHeight;
double imageYIndex = tvYIndex + 0.2*pImageDim.height;
return new Point((int)imageXIndex, (int)imageYIndex);
}
private int determineColor(int xMin, int xMax, int yMin, int yMax) {
int red = 0;
int green = 0;
int blue = 0;
int count = 0;
for (int y = yMin; y <= yMax; ++y) {
for (int x = xMin; x <= xMax; ++x) {
int color = mTvImage.getRGB(x, y);
red += (color >> 16) & 0xFF;
green += (color >> 8) & 0xFF;
blue += color & 0xFF;
++count;
}
}
return count > 0 ? new Color(red / count, green/count, blue/count).getRGB() : 0;
}
private void paintAllLeds(Graphics2D g2d) {
for (int i=2; i<=180; i+=4) {
if (isCancelled()) {
return;
}
int arcSize = 24 + (int)((i/12.0)*(i/12.0));
for(LedPaint led : mLedPaints) {
int argb = 0x05000000 | (0x00ffffff & led.color);
g2d.setColor(new Color(argb , true));
g2d.translate(led.point.getX(), led.point.getY());
g2d.rotate(led.angle_rad);
g2d.fillArc(-arcSize, -arcSize, 2*arcSize, 2*arcSize, 90-(i/2), i);
g2d.rotate(-led.angle_rad);
g2d.translate(-led.point.getX(), -led.point.getY());
setProgress(10+i/3);
}
}
}
}

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package org.hyperion.hypercon.gui;
import java.awt.BasicStroke;
import java.awt.Color;
import java.awt.Graphics;
import java.awt.Graphics2D;
import java.awt.Image;
import java.awt.Rectangle;
import java.awt.event.MouseEvent;
import java.awt.event.MouseMotionListener;
import java.awt.geom.Rectangle2D;
import java.awt.image.BufferedImage;
import java.util.Vector;
import javax.swing.JComponent;
import org.hyperion.hypercon.spec.Led;
public class LedTvComponent extends JComponent {
private final BufferedImage mDisplayedImage = new BufferedImage(1280, 720, BufferedImage.TYPE_INT_ARGB);
private final Graphics2D mImageG2d = mDisplayedImage.createGraphics();
private final int mBorderWidth = 12;
private Vector<Led> mLeds;
private Led mSelectedLed;
public LedTvComponent(Vector<Led> pLeds) {
mLeds = pLeds;
addMouseMotionListener(mMouseMotionListener);
}
public void setLeds(Vector<Led> pLeds) {
mLeds = pLeds;
}
public void setImage(Image pImage) {
mImageG2d.clearRect(0, 0, mDisplayedImage.getWidth(), mDisplayedImage.getHeight());
mImageG2d.drawImage(pImage, 0,0, mDisplayedImage.getWidth(), mDisplayedImage.getHeight(), null);
}
@Override
public void paint(Graphics g) {
Graphics2D g2d = (Graphics2D) g.create();
g2d.setColor(Color.DARK_GRAY.darker());
g2d.fillRect(0,0, getWidth()-1, getHeight()-1);
g2d.drawImage(mDisplayedImage, mBorderWidth, mBorderWidth, getWidth()-2*mBorderWidth, getHeight()-2*mBorderWidth, null);
if (mLeds == null) {
return;
}
g2d.setColor(Color.GRAY);
for (Led led : mLeds) {
Rectangle rect = led2tv(led.mImageRectangle);
g2d.drawRect(rect.x, rect.y, rect.width, rect.height);
switch (led.mSide) {
case top_left:
g2d.drawString(""+led.mLedSeqNr, 0, 11);
break;
case top:
g2d.drawString(""+led.mLedSeqNr, (int)rect.getCenterX(), 11);
break;
case top_right:
g2d.drawString(""+led.mLedSeqNr, (int)getWidth()-11, (int)11);
break;
case right:
g2d.drawString(""+led.mLedSeqNr, (int)getWidth()-11, (int)rect.getCenterY());
break;
case bottom_right:
g2d.drawString(""+led.mLedSeqNr, (int)getWidth()-11, (int)getHeight()-1);
break;
case bottom:
g2d.drawString(""+led.mLedSeqNr, (int)rect.getCenterX(), (int)getHeight()-1);
break;
case bottom_left:
g2d.drawString(""+led.mLedSeqNr, (int)0, (int)getHeight()-1);
break;
case left:
g2d.drawString(""+led.mLedSeqNr, 0, (int)rect.getCenterY());
break;
}
}
if (mSelectedLed != null) {
Rectangle rect = led2tv(mSelectedLed.mImageRectangle);
g2d.setStroke(new BasicStroke(3.0f));
g2d.setColor(Color.WHITE);
g2d.drawRect(rect.x, rect.y, rect.width, rect.height);
}
}
public Rectangle led2tv(Rectangle2D pLedRect) {
int tvWidth = getWidth()-2*mBorderWidth;
int tvHeight = getHeight()-2*mBorderWidth;
int x = (int) Math.round(mBorderWidth + tvWidth*pLedRect.getX());
int y = (int) Math.round(mBorderWidth + tvHeight*pLedRect.getY());
int width = (int) Math.round(tvWidth * pLedRect.getWidth());
int height = (int) Math.round(tvHeight * pLedRect.getHeight());
return new Rectangle(x,y, width, height);
}
private final MouseMotionListener mMouseMotionListener = new MouseMotionListener() {
@Override
public void mouseMoved(MouseEvent e) {
mSelectedLed = null;
double x = (double)(e.getX() - mBorderWidth) / (getWidth() - mBorderWidth*2);
double y = (double)(e.getY() - mBorderWidth) / (getHeight() - mBorderWidth*2);
for (Led led : mLeds) {
if (led.mImageRectangle.contains(x, y) || (Math.abs(led.mLocation.getX() - x) < 0.01 && Math.abs(led.mLocation.getY() - y) < 0.01)) {
mSelectedLed = led;
break;
}
}
repaint();
}
@Override
public void mouseDragged(MouseEvent e) {
}
};
}

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package org.hyperion.hypercon.gui;
import java.awt.Dimension;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.beans.Transient;
import javax.swing.BorderFactory;
import javax.swing.GroupLayout;
import javax.swing.JCheckBox;
import javax.swing.JComboBox;
import javax.swing.JLabel;
import javax.swing.JPanel;
import javax.swing.JSpinner;
import javax.swing.JTextField;
import javax.swing.SpinnerNumberModel;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import javax.swing.event.DocumentEvent;
import javax.swing.event.DocumentListener;
import org.hyperion.hypercon.spec.MiscConfig;
public class XbmcPanel extends JPanel {
private final MiscConfig mMiscConfig;
private JCheckBox mXbmcCheck;
private JLabel mAddressLabel;
private JTextField mAddressField;
private JLabel mTcpPortLabel;
private JSpinner mTcpPortSpinner;
private JLabel mMenuLabel;
private JComboBox<String> mMenuCombo;
private JLabel mVideoLabel;
private JComboBox<String> mVideoCombo;
private JLabel mPictureLabel;
private JComboBox<String> mPictureCombo;
private JLabel mAudioLabel;
private JComboBox<String> mAudioCombo;
private JLabel mScreensaverLabel;
private JComboBox<String> mScreensaverCombo;
private JLabel mEnable3DLabel;
private JComboBox<String> mEnable3DCombo;
public XbmcPanel(final MiscConfig pMiscConfig) {
super();
mMiscConfig = pMiscConfig;
initialise();
}
@Override
@Transient
public Dimension getMaximumSize() {
Dimension maxSize = super.getMaximumSize();
Dimension prefSize = super.getPreferredSize();
return new Dimension(maxSize.width, prefSize.height);
}
private void initialise() {
setBorder(BorderFactory.createTitledBorder("XBMC Checker"));
mXbmcCheck = new JCheckBox("Enabled");
mXbmcCheck.setSelected(mMiscConfig.mXbmcCheckerEnabled);
mXbmcCheck.addActionListener(mActionListener);
add(mXbmcCheck);
mAddressLabel = new JLabel("Server address:");
add(mAddressLabel);
mAddressField = new JTextField(mMiscConfig.mXbmcAddress);
mAddressField.getDocument().addDocumentListener(new DocumentListener() {
@Override
public void removeUpdate(DocumentEvent e) {
mMiscConfig.mXbmcAddress = mAddressField.getText();
}
@Override
public void insertUpdate(DocumentEvent e) {
mMiscConfig.mXbmcAddress = mAddressField.getText();
}
@Override
public void changedUpdate(DocumentEvent e) {
mMiscConfig.mXbmcAddress = mAddressField.getText();
}
});
add(mAddressField);
mTcpPortLabel = new JLabel("TCP port:");
add(mTcpPortLabel);
mTcpPortSpinner = new JSpinner(new SpinnerNumberModel(mMiscConfig.mXbmcTcpPort, 1, 65535, 1));
mTcpPortSpinner.addChangeListener(mChangeListener);
add(mTcpPortSpinner);
mMenuLabel = new JLabel("XBMC Menu");
add(mMenuLabel);
mMenuCombo = new JComboBox<>(new String[] {"On", "Off"});
mMenuCombo.setSelectedItem(mMiscConfig.mMenuOn? "On": "Off");
mMenuCombo.setToolTipText("Enables('On') or disables('Off') the ambi-light in the XBMC Menu");
mMenuCombo.addActionListener(mActionListener);
add(mMenuCombo);
mVideoLabel = new JLabel("Video");
add(mVideoLabel);
mVideoCombo = new JComboBox<>(new String[] {"On", "Off"});
mVideoCombo.setSelectedItem(mMiscConfig.mVideoOn? "On": "Off");
mVideoCombo.setToolTipText("Enables('On') or disables('Off') the ambi-light during video playback");
mVideoCombo.addActionListener(mActionListener);
add(mVideoCombo);
mPictureLabel = new JLabel("Picture");
add(mPictureLabel);
mPictureCombo = new JComboBox<>(new String[] {"On", "Off"});
mPictureCombo.setSelectedItem(mMiscConfig.mPictureOn? "On": "Off");
mPictureCombo.setToolTipText("Enables('On') or disables('Off') the ambi-light when viewing pictures");
mPictureCombo.addActionListener(mActionListener);
add(mPictureCombo);
mAudioLabel = new JLabel("Audio");
add(mAudioLabel);
mAudioCombo = new JComboBox<>(new String[] {"On", "Off"});
mAudioCombo.setSelectedItem(mMiscConfig.mAudioOn? "On": "Off");
mAudioCombo.setToolTipText("Enables('On') or disables('Off') the ambi-light when listing to audio");
mAudioCombo.addActionListener(mActionListener);
add(mAudioCombo);
mScreensaverLabel = new JLabel("Screensaver");
add(mScreensaverLabel);
mScreensaverCombo = new JComboBox<>(new String[] {"On", "Off"});
mScreensaverCombo.setSelectedItem(mMiscConfig.mScreensaverOn? "On": "Off");
mScreensaverCombo.setToolTipText("Enables('On') or disables('Off') the ambi-light when the XBMC screensaver is active");
mScreensaverCombo.addActionListener(mActionListener);
add(mScreensaverCombo);
mEnable3DLabel = new JLabel("3D checking");
add(mEnable3DLabel);
mEnable3DCombo = new JComboBox<>(new String[] {"On", "Off"});
mEnable3DCombo.setSelectedItem(mMiscConfig.m3DCheckingEnabled ? "On": "Off");
mEnable3DCombo.setToolTipText("Enables('On') or disables('Off') switching to 3D mode when a 3D video file is started");
mEnable3DCombo.addActionListener(mActionListener);
add(mEnable3DCombo);
GroupLayout layout = new GroupLayout(this);
layout.setAutoCreateGaps(true);
setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mXbmcCheck)
.addComponent(mAddressLabel)
.addComponent(mTcpPortLabel)
.addComponent(mMenuLabel)
.addComponent(mVideoLabel)
.addComponent(mPictureLabel)
.addComponent(mAudioLabel)
.addComponent(mScreensaverLabel)
.addComponent(mEnable3DLabel)
)
.addGroup(layout.createParallelGroup()
.addComponent(mXbmcCheck)
.addComponent(mAddressField)
.addComponent(mTcpPortSpinner)
.addComponent(mMenuCombo)
.addComponent(mVideoCombo)
.addComponent(mPictureCombo)
.addComponent(mAudioCombo)
.addComponent(mScreensaverCombo)
.addComponent(mEnable3DCombo)
));
layout.setVerticalGroup(layout.createSequentialGroup()
.addComponent(mXbmcCheck)
.addGroup(layout.createParallelGroup()
.addComponent(mAddressLabel)
.addComponent(mAddressField)
)
.addGroup(layout.createParallelGroup()
.addComponent(mTcpPortLabel)
.addComponent(mTcpPortSpinner)
)
.addGroup(layout.createParallelGroup()
.addComponent(mMenuLabel)
.addComponent(mMenuCombo)
)
.addGroup(layout.createParallelGroup()
.addComponent(mVideoLabel)
.addComponent(mVideoCombo)
)
.addGroup(layout.createParallelGroup()
.addComponent(mPictureLabel)
.addComponent(mPictureCombo)
)
.addGroup(layout.createParallelGroup()
.addComponent(mAudioLabel)
.addComponent(mAudioCombo)
)
.addGroup(layout.createParallelGroup()
.addComponent(mScreensaverLabel)
.addComponent(mScreensaverCombo)
)
.addGroup(layout.createParallelGroup()
.addComponent(mEnable3DLabel)
.addComponent(mEnable3DCombo)
));
toggleEnabled(mMiscConfig.mXbmcCheckerEnabled);
}
private void toggleEnabled(boolean pEnabled) {
mAddressLabel.setEnabled(pEnabled);
mAddressField.setEnabled(pEnabled);
mTcpPortSpinner.setEnabled(pEnabled);
mTcpPortLabel.setEnabled(pEnabled);
mMenuLabel.setEnabled(pEnabled);
mMenuCombo.setEnabled(pEnabled);
mVideoLabel.setEnabled(pEnabled);
mVideoCombo.setEnabled(pEnabled);
mPictureLabel.setEnabled(pEnabled);
mPictureCombo.setEnabled(pEnabled);
mAudioLabel.setEnabled(pEnabled);
mAudioCombo.setEnabled(pEnabled);
mScreensaverLabel.setEnabled(pEnabled);
mScreensaverCombo.setEnabled(pEnabled);
mEnable3DLabel.setEnabled(pEnabled);
mEnable3DCombo.setEnabled(pEnabled);
}
private final ChangeListener mChangeListener = new ChangeListener() {
@Override
public void stateChanged(ChangeEvent e) {
mMiscConfig.mXbmcTcpPort = (Integer)mTcpPortSpinner.getValue();
}
};
private final ActionListener mActionListener = new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
mMiscConfig.mXbmcCheckerEnabled = mXbmcCheck.isSelected();
mMiscConfig.mMenuOn = (mMenuCombo.getSelectedItem() == "On");
mMiscConfig.mVideoOn = (mVideoCombo.getSelectedItem() == "On");
mMiscConfig.mPictureOn = (mPictureCombo.getSelectedItem() == "On");
mMiscConfig.mAudioOn = (mAudioCombo.getSelectedItem() == "On");
mMiscConfig.mScreensaverOn = (mScreensaverCombo.getSelectedItem() == "On");
mMiscConfig.m3DCheckingEnabled = (mEnable3DCombo.getSelectedItem() == "On");
toggleEnabled(mMiscConfig.mXbmcCheckerEnabled);
}
};
}

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@ -1,24 +0,0 @@
package org.hyperion.hypercon.gui.device;
import java.awt.Dimension;
import javax.swing.JPanel;
import org.hyperion.hypercon.spec.DeviceConfig;
public abstract class DeviceTypePanel extends JPanel {
protected final Dimension firstColMinDim = new Dimension(80, 10);
protected final Dimension maxDim = new Dimension(1024, 20);
protected DeviceConfig mDeviceConfig = null;
public DeviceTypePanel() {
super();
}
public void setDeviceConfig(DeviceConfig pDeviceConfig) {
mDeviceConfig = pDeviceConfig;
}
}

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@ -1,63 +0,0 @@
package org.hyperion.hypercon.gui.device;
import javax.swing.GroupLayout;
import javax.swing.JLabel;
import javax.swing.JTextField;
import javax.swing.event.DocumentEvent;
import javax.swing.event.DocumentListener;
import org.hyperion.hypercon.spec.DeviceConfig;
public class LightPackPanel extends DeviceTypePanel {
private JLabel mSerialNoLabel;
private JTextField mSerialNoField;
public LightPackPanel() {
super();
initialise();
}
@Override
public void setDeviceConfig(DeviceConfig pDeviceConfig) {
super.setDeviceConfig(pDeviceConfig);
mSerialNoField.setText(mDeviceConfig.mOutput);
}
private void initialise() {
mSerialNoLabel = new JLabel("Serial #: ");
mSerialNoLabel.setMinimumSize(firstColMinDim);
add(mSerialNoLabel);
mSerialNoField = new JTextField();
mSerialNoField.setMaximumSize(maxDim);
mSerialNoField.getDocument().addDocumentListener(new DocumentListener() {
@Override
public void removeUpdate(DocumentEvent e) {
mDeviceConfig.mOutput = mSerialNoField.getText();
}
@Override
public void insertUpdate(DocumentEvent e) {
mDeviceConfig.mOutput = mSerialNoField.getText();
}
@Override
public void changedUpdate(DocumentEvent e) {
mDeviceConfig.mOutput = mSerialNoField.getText();
}
});
add(mSerialNoField);
GroupLayout layout = new GroupLayout(this);
setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addComponent(mSerialNoLabel)
.addComponent(mSerialNoField));
layout.setVerticalGroup(layout.createParallelGroup()
.addComponent(mSerialNoLabel)
.addComponent(mSerialNoField));
}
}

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@ -1,104 +0,0 @@
package org.hyperion.hypercon.gui.device;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import javax.swing.GroupLayout;
import javax.swing.JComboBox;
import javax.swing.JLabel;
import javax.swing.JSpinner;
import javax.swing.SpinnerNumberModel;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import org.hyperion.hypercon.spec.DeviceConfig;
/**
* Panel for configuring Ws2801 specific settings
*/
public class SerialPanel extends DeviceTypePanel {
public static final String[] KnownOutputs = { "/dev/ttyS0", "/dev/ttyUSB0", "/dev/ttyAMA0", "/dev/null"};
private JLabel mOutputLabel;
private JComboBox<String> mOutputCombo;
private JLabel mBaudrateLabel;
private JSpinner mBaudrateSpinner;
public SerialPanel() {
super();
initialise();
}
@Override
public void setDeviceConfig(DeviceConfig pDeviceConfig) {
super.setDeviceConfig(pDeviceConfig);
mOutputCombo.setSelectedItem(mDeviceConfig.mOutput);
((SpinnerNumberModel)mBaudrateSpinner.getModel()).setValue(mDeviceConfig.mBaudrate);
}
private void initialise() {
mOutputLabel = new JLabel("Output: ");
mOutputLabel.setMinimumSize(firstColMinDim);
add(mOutputLabel);
mOutputCombo = new JComboBox<>(KnownOutputs);
mOutputCombo.setMaximumSize(maxDim);
mOutputCombo.setEditable(true);
mOutputCombo.addActionListener(mActionListener);
add(mOutputCombo);
mBaudrateLabel = new JLabel("Baudrate: ");
mBaudrateLabel.setMinimumSize(firstColMinDim);
add(mBaudrateLabel);
mBaudrateSpinner = new JSpinner(new SpinnerNumberModel(1, 1, 1000000, 128));
mBaudrateSpinner .setMaximumSize(maxDim);
mBaudrateSpinner.addChangeListener(mChangeListener);
add(mBaudrateSpinner);
GroupLayout layout = new GroupLayout(this);
layout.setAutoCreateGaps(true);
setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mOutputLabel)
.addComponent(mBaudrateLabel))
.addGroup(layout.createParallelGroup()
.addComponent(mOutputCombo)
.addComponent(mBaudrateSpinner))
);
layout.setVerticalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mOutputLabel)
.addComponent(mOutputCombo))
.addGroup(layout.createParallelGroup()
.addComponent(mBaudrateLabel)
.addComponent(mBaudrateSpinner))
);
}
private ActionListener mActionListener = new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
if (e.getSource() == mOutputCombo) {
mDeviceConfig.mOutput = (String)mOutputCombo.getSelectedItem();
} else if (e.getSource() == mBaudrateSpinner) {
mDeviceConfig.mBaudrate = (Integer)mBaudrateSpinner.getValue();
}
}
};
private ChangeListener mChangeListener = new ChangeListener() {
@Override
public void stateChanged(ChangeEvent e) {
mDeviceConfig.mBaudrate = (Integer)mBaudrateSpinner.getValue();
}
};
}

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@ -1,63 +0,0 @@
package org.hyperion.hypercon.gui.device;
import javax.swing.GroupLayout;
import javax.swing.JLabel;
import javax.swing.JTextField;
import javax.swing.event.DocumentEvent;
import javax.swing.event.DocumentListener;
import org.hyperion.hypercon.spec.DeviceConfig;
public class TestDevicePanel extends DeviceTypePanel {
private JLabel mFilenameLabel;
private JTextField mFilenameField;
public TestDevicePanel() {
super();
initialise();
}
@Override
public void setDeviceConfig(DeviceConfig pDeviceConfig) {
super.setDeviceConfig(pDeviceConfig);
mFilenameField.setText(mDeviceConfig.mOutput);
}
private void initialise() {
mFilenameLabel = new JLabel("Filename: ");
mFilenameLabel.setMinimumSize(firstColMinDim);
add(mFilenameLabel);
mFilenameField = new JTextField();
mFilenameField.setMaximumSize(maxDim);
mFilenameField.getDocument().addDocumentListener(new DocumentListener() {
@Override
public void removeUpdate(DocumentEvent e) {
mDeviceConfig.mOutput = mFilenameField.getText();
}
@Override
public void insertUpdate(DocumentEvent e) {
mDeviceConfig.mOutput = mFilenameField.getText();
}
@Override
public void changedUpdate(DocumentEvent e) {
mDeviceConfig.mOutput = mFilenameField.getText();
}
});
add(mFilenameField);
GroupLayout layout = new GroupLayout(this);
setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addComponent(mFilenameLabel)
.addComponent(mFilenameField));
layout.setVerticalGroup(layout.createParallelGroup()
.addComponent(mFilenameLabel)
.addComponent(mFilenameField));
}
}

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@ -1,104 +0,0 @@
package org.hyperion.hypercon.gui.device;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import javax.swing.GroupLayout;
import javax.swing.JComboBox;
import javax.swing.JLabel;
import javax.swing.JSpinner;
import javax.swing.SpinnerNumberModel;
import javax.swing.event.ChangeEvent;
import javax.swing.event.ChangeListener;
import org.hyperion.hypercon.spec.DeviceConfig;
/**
* Panel for configuring Ws2801 specific settings
*/
public class Ws2801Panel extends DeviceTypePanel {
public static final String[] KnownOutputs = {"/dev/spidev0.0", "/dev/spidev0.1", "/dev/null"};
private JLabel mOutputLabel;
private JComboBox<String> mOutputCombo;
private JLabel mBaudrateLabel;
private JSpinner mBaudrateSpinner;
public Ws2801Panel() {
super();
initialise();
}
@Override
public void setDeviceConfig(DeviceConfig pDeviceConfig) {
super.setDeviceConfig(pDeviceConfig);
mOutputCombo.setSelectedItem(mDeviceConfig.mOutput);
((SpinnerNumberModel)mBaudrateSpinner.getModel()).setValue(mDeviceConfig.mBaudrate);
}
private void initialise() {
mOutputLabel = new JLabel("Output: ");
mOutputLabel.setMinimumSize(firstColMinDim);
add(mOutputLabel);
mOutputCombo = new JComboBox<>(KnownOutputs);
mOutputCombo.setMaximumSize(maxDim);
mOutputCombo.setEditable(true);
mOutputCombo.addActionListener(mActionListener);
add(mOutputCombo);
mBaudrateLabel = new JLabel("Baudrate: ");
mBaudrateLabel.setMinimumSize(firstColMinDim);
add(mBaudrateLabel);
mBaudrateSpinner = new JSpinner(new SpinnerNumberModel(1, 1, 1000000, 128));
mBaudrateSpinner.setMaximumSize(maxDim);
mBaudrateSpinner.addChangeListener(mChangeListener);
add(mBaudrateSpinner);
GroupLayout layout = new GroupLayout(this);
layout.setAutoCreateGaps(true);
setLayout(layout);
layout.setHorizontalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mOutputLabel)
.addComponent(mBaudrateLabel))
.addGroup(layout.createParallelGroup()
.addComponent(mOutputCombo)
.addComponent(mBaudrateSpinner))
);
layout.setVerticalGroup(layout.createSequentialGroup()
.addGroup(layout.createParallelGroup()
.addComponent(mOutputLabel)
.addComponent(mOutputCombo))
.addGroup(layout.createParallelGroup()
.addComponent(mBaudrateLabel)
.addComponent(mBaudrateSpinner))
);
}
private ActionListener mActionListener = new ActionListener() {
@Override
public void actionPerformed(ActionEvent e) {
if (e.getSource() == mOutputCombo) {
mDeviceConfig.mOutput = (String)mOutputCombo.getSelectedItem();
} else if (e.getSource() == mBaudrateSpinner) {
mDeviceConfig.mBaudrate = (Integer)mBaudrateSpinner.getValue();
}
}
};
private ChangeListener mChangeListener = new ChangeListener() {
@Override
public void stateChanged(ChangeEvent e) {
mDeviceConfig.mBaudrate = (Integer)mBaudrateSpinner.getValue();
}
};
}

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@ -1,37 +0,0 @@
package org.hyperion.hypercon.spec;
/**
* Enumeration of possible led-locations (aka border-sides). This also contains the specification of
* the angle at which the led is placed along a specific border (0.0rad = pointing right).
*/
public enum BorderSide {
top_left (0.75*Math.PI),
top(0.5*Math.PI),
top_right(0.25*Math.PI),
right(0.0*Math.PI),
bottom_right(-0.25*Math.PI),
bottom(-0.5*Math.PI),
bottom_left(-0.75*Math.PI),
left(1.0*Math.PI);
/** The angle of the led [rad] */
private final double mAngle_rad;
/**
* Constructs the BorderSide with the given led angle
*
* @param pAngle_rad The angle of the led [rad]
*/
BorderSide(double pAngle_rad) {
mAngle_rad = pAngle_rad;
}
/**
* Returns the angle of the led placement
*
* @return The angle of the led [rad]
*/
public double getAngle_rad() {
return mAngle_rad;
}
}

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@ -1,5 +0,0 @@
package org.hyperion.hypercon.spec;
public enum ColorByteOrder {
RGB, RBG, BRG, BGR, GRB, GBR
}

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@ -1,98 +0,0 @@
package org.hyperion.hypercon.spec;
import java.util.Locale;
import java.util.Vector;
/**
* The color tuning parameters of the different color channels (both in RGB space as in HSV space)
*/
public class ColorConfig {
/** List with color transformations */
public Vector<TransformConfig> mTransforms = new Vector<>();
{
mTransforms.add(new TransformConfig());
}
public boolean mSmoothingEnabled = false;
/** The type of smoothing algorithm */
public ColorSmoothingType mSmoothingType = ColorSmoothingType.linear;
/** The time constant for smoothing algorithm in milliseconds */
public int mSmoothingTime_ms = 200;
/** The update frequency of the leds in Hz */
public double mSmoothingUpdateFrequency_Hz = 20.0;
/**
* Creates the JSON string of the configuration as used in the Hyperion daemon configfile
*
* @return The JSON string of this ColorConfig
*/
public String toJsonString() {
StringBuffer strBuf = new StringBuffer();
strBuf.append("\t/// Color manipulation configuration used to tune the output colors to specific surroundings. \n");
strBuf.append("\t/// The configuration contains a list of color-transforms. Each transform contains the \n");
strBuf.append("\t/// following fields:\n");
strBuf.append("\t/// * 'id' : The unique identifier of the color transformation (eg 'device_1')");
strBuf.append("\t/// * 'leds' : The indices (or index ranges) of the leds to which this color transform applies\n");
strBuf.append("\t/// (eg '0-5, 9, 11, 12-17'). The indices are zero based.");
strBuf.append("\t/// * 'hsv' : The manipulation in the Hue-Saturation-Value color domain with the following \n");
strBuf.append("\t/// tuning parameters:\n");
strBuf.append("\t/// - 'saturationGain' The gain adjustement of the saturation\n");
strBuf.append("\t/// - 'valueGain' The gain adjustement of the value\n");
strBuf.append("\t/// * 'red'/'green'/'blue' : The manipulation in the Red-Green-Blue color domain with the \n");
strBuf.append("\t/// following tuning parameters for each channel:\n");
strBuf.append("\t/// - 'threshold' The minimum required input value for the channel to be on \n");
strBuf.append("\t/// (else zero)\n");
strBuf.append("\t/// - 'gamma' The gamma-curve correction factor\n");
strBuf.append("\t/// - 'blacklevel' The lowest possible value (when the channel is black)\n");
strBuf.append("\t/// - 'whitelevel' The highest possible value (when the channel is white)\n");
strBuf.append("\t///\n");
strBuf.append("\t/// Next to the list with color transforms there is also a smoothing option.\n");
strBuf.append("\t/// * 'smoothing' : Smoothing of the colors in the time-domain with the following tuning \n");
strBuf.append("\t/// parameters:\n");
strBuf.append("\t/// - 'type' The type of smoothing algorithm ('linear' or 'none')\n");
strBuf.append("\t/// - 'time_ms' The time constant for smoothing algorithm in milliseconds\n");
strBuf.append("\t/// - 'updateFrequency' The update frequency of the leds in Hz\n");
strBuf.append("\t\"color\" :\n");
strBuf.append("\t{\n");
strBuf.append("\t\t\"transform\" :\n");
strBuf.append("\t\t[\n");
for (int i=0; i<mTransforms.size(); ++i) {
TransformConfig transform = mTransforms.get(i);
strBuf.append(transform.toJsonString());
if (i == mTransforms.size()-1) {
strBuf.append("\n");
} else {
strBuf.append(",\n");
}
}
strBuf.append("\t\t],\n");
strBuf.append(smoothingToString() + "\n");
strBuf.append("\t}");
return strBuf.toString();
}
/**
* Creates the JSON string of the smoothing subconfiguration as used in the Hyperion deamon configfile
*
* @return The JSON string of the HSV-config
*/
private String smoothingToString() {
StringBuffer strBuf = new StringBuffer();
String preamble = "\t\t";
strBuf.append(preamble).append("\"smoothing\" :\n");
strBuf.append(preamble).append("{\n");
strBuf.append(preamble).append(String.format(Locale.ROOT, "\t\"type\" : \"%s\",\n", (mSmoothingEnabled) ? mSmoothingType.name() : "none"));
strBuf.append(preamble).append(String.format(Locale.ROOT, "\t\"time_ms\" : %d,\n", mSmoothingTime_ms));
strBuf.append(preamble).append(String.format(Locale.ROOT, "\t\"updateFrequency\" : %.4f\n", mSmoothingUpdateFrequency_Hz));
strBuf.append(preamble).append("}");
return strBuf.toString();
}
}

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@ -1,17 +0,0 @@
package org.hyperion.hypercon.spec;
public enum ColorSmoothingType {
/** Linear smoothing of led data */
linear("Linear smoothing");
private final String mName;
private ColorSmoothingType(String name) {
mName = name;
}
@Override
public String toString() {
return mName;
}
}

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@ -1,49 +0,0 @@
package org.hyperion.hypercon.spec;
/**
* The device specific configuration
*/
public class DeviceConfig {
/** The name of the device */
public String mName = "MyPi";
/** The type specification of the device */
public DeviceType mType = DeviceType.ws2801;
/** The device 'file' name */
public String mOutput = "/dev/spidev0.0";
/** The baudrate of the device */
public int mBaudrate = 250000;
/** The order of the color bytes */
public ColorByteOrder mColorByteOrder = ColorByteOrder.RGB;
/**
* Creates the JSON string of the configuration as used in the Hyperion daemon configfile
*
* @return The JSON string of this DeviceConfig
*/
public String toJsonString() {
StringBuffer strBuf = new StringBuffer();
strBuf.append("\t/// Device configuration contains the following fields: \n");
strBuf.append("\t/// * 'name' : The user friendly name of the device (only used for display purposes)\n");
strBuf.append("\t/// * 'type' : The type of the device or leds (known types for now are 'ws2801', 'ldp8806',\n");
strBuf.append("\t/// 'lpd6803', 'sedu', 'adalight', 'lightpack', 'test' and 'none')\n");
strBuf.append("\t/// * 'output' : The output specification depends on selected device. This can for example be the\n");
strBuf.append("\t/// device specifier, device serial number, or the output file name\n");
strBuf.append("\t/// * 'rate' : The baudrate of the output to the device\n");
strBuf.append("\t/// * 'colorOrder' : The order of the color bytes ('rgb', 'rbg', 'bgr', etc.).\n");
strBuf.append("\t\"device\" :\n");
strBuf.append("\t{\n");
strBuf.append("\t\t\"name\" : \"").append(mName).append("\",\n");
strBuf.append("\t\t\"type\" : \"").append(mType.name()).append("\",\n");
strBuf.append("\t\t\"output\" : \"").append(mOutput).append("\",\n");
strBuf.append("\t\t\"rate\" : ").append(mBaudrate).append(",\n");
strBuf.append("\t\t\"colorOrder\" : \"").append(mColorByteOrder.name().toLowerCase()).append("\"\n");
strBuf.append("\t}");
return strBuf.toString();
}
}

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@ -1,89 +0,0 @@
package org.hyperion.hypercon.spec;
import org.hyperion.hypercon.gui.device.DeviceTypePanel;
import org.hyperion.hypercon.gui.device.LightPackPanel;
import org.hyperion.hypercon.gui.device.SerialPanel;
import org.hyperion.hypercon.gui.device.TestDevicePanel;
import org.hyperion.hypercon.gui.device.Ws2801Panel;
/**
* Enumeration of known device types
*/
public enum DeviceType {
/** WS2801 Led String device with one continuous shift-register (1 byte per color-channel) */
ws2801("WS2801"),
/** LDP8806 Led String device with one continuous shift-register (1 + 7 bits per color channel)*/
lpd8806("LPD8806"),
/** LDP6803 Led String device with one continuous shift-register (5 bits per color channel)*/
lpd6803("LPD6803"),
/** SEDU LED device */
sedu("SEDU"),
/** Lightberry device */
lightberry("Lightberry"),
/** Adalight device */
adalight("Adalight"),
/** Lightpack USB led device */
lightpack("Lightpack"),
/** Paintpack USB led device */
paintpack("Paintpack"),
/** Test device for writing color values to file-output */
test("Test"),
/** No device, no output is generated */
none("None");
/** The 'pretty' name of the device type */
private final String mName;
/** The device specific configuration panel */
private DeviceTypePanel mConfigPanel;
/**
* Constructs the DeviceType
*
* @param name The 'pretty' name of the device type
* @param pConfigPanel The panel for device type specific configuration
*/
private DeviceType(final String name) {
mName = name;
}
/**
* Returns the configuration panel for the this device-type (or null if no configuration is required)
*
* @return The panel for configuring this device type
*/
public DeviceTypePanel getConfigPanel(DeviceConfig pDeviceConfig) {
if (mConfigPanel == null) {
switch (this) {
case ws2801:
case lightberry:
case lpd6803:
case lpd8806:
mConfigPanel = new Ws2801Panel();
break;
case test:
mConfigPanel = new TestDevicePanel();
break;
case adalight:
case sedu:
mConfigPanel = new SerialPanel();
break;
case lightpack:
mConfigPanel = new LightPackPanel();
break;
case paintpack:
case none:
break;
}
}
if (mConfigPanel != null) {
mConfigPanel.setDeviceConfig(pDeviceConfig);
}
return mConfigPanel;
}
@Override
public String toString() {
return mName;
}
}

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@ -1,175 +0,0 @@
package org.hyperion.hypercon.spec;
import java.util.Observable;
import org.hyperion.hypercon.JsonStringBuffer;
import org.hyperion.hypercon.LedFrameFactory;
/**
* Configuration parameters for the image processing. These settings are translated using the
* {@link LedFrameFactory} to configuration items used in the Hyperion daemon configfile.
*
*/
public class ImageProcessConfig extends Observable {
/** The 'integration depth' of the leds along the horizontal axis of the tv */
public double mHorizontalDepth = 0.08;
/** The 'integration depth' of the leds along the vertical axis of the tv */
public double mVerticalDepth = 0.05;
/** The gap between the border integration area for the horizontal leds */
public double mHorizontalGap = 0.0;
/** The gap between the border integration area for the vertical leds */
public double mVerticalGap = 0.0;
/** The fraction of overlap from one to another led */
public double mOverlapFraction = 0.0;
/** Flag indicating that black borders are excluded in the image processing */
public boolean mBlackBorderRemoval = true;
/**
* Returns the horizontal depth (top and bottom) of the image integration as a fraction of the
* image [0.0; 1.0]
*
* @return The horizontal integration depth [0.0; 1.0]
*/
public double getHorizontalDepth() {
return mHorizontalDepth;
}
/**
* Sets the horizontal depth (top and bottom) of the image integration as a fraction of the
* image [0.0; 1.0]
*
* @param pHorizontalDepth The horizontal integration depth [0.0; 1.0]
*/
public void setHorizontalDepth(double pHorizontalDepth) {
if (mHorizontalDepth != pHorizontalDepth) {
mHorizontalDepth = pHorizontalDepth;
setChanged();
}
}
/**
* Returns the horizontal gap (top and bottom) of the image integration area from the side of the
* screen [0.0; 1.0]
*
* @return The horizontal gap [0.0; 1.0]
*/
public double getHorizontalGap() {
return mHorizontalGap;
}
/**
* Sets the horizontal gap (top and bottom) of the image integration area from the side as a fraction of the
* screen [0.0; 1.0]
*
* @param pHorizontalGap The horizontal integration area gap from the side [0.0; 1.0]
*/
public void setHorizontalGap(double pHorizontalGap) {
if (mHorizontalGap != pHorizontalGap) {
mHorizontalGap = pHorizontalGap;
setChanged();
}
}
/**
* Returns the vertical depth (left and right) of the image integration as a fraction of the
* image [0.0; 1.0]
*
* @return The vertical integration depth [0.0; 1.0]
*/
public double getVerticalDepth() {
return mVerticalDepth;
}
/**
* Sets the vertical depth (left and right) of the image integration as a fraction of the
* image [0.0; 1.0]
*
* @param pVerticalDepth The vertical integration depth [0.0; 1.0]
*/
public void setVerticalDepth(double pVerticalDepth) {
if (mVerticalDepth != pVerticalDepth) {
mVerticalDepth = pVerticalDepth;
setChanged();
}
}
/**
* Returns the vertical gap (left and right) of the image integration area from the side of the
* screen [0.0; 1.0]
*
* @return The vertical gap [0.0; 1.0]
*/
public double getVerticalGap() {
return mVerticalGap;
}
/**
* Sets the horizontal gap (top and bottom) of the image integration area from the side as a fraction of the
* screen [0.0; 1.0]
*
* @param pHorizontalGap The horizontal integration area gap from the side [0.0; 1.0]
*/
public void setVerticalGap(double pVerticalGap) {
if (mVerticalGap != pVerticalGap) {
mVerticalGap = pVerticalGap;
setChanged();
}
}
/**
* Returns the fractional overlap of one integration tile with its neighbors
*
* @return The fractional overlap of the integration tiles
*/
public double getOverlapFraction() {
return mOverlapFraction;
}
/**
* Sets the fractional overlap of one integration tile with its neighbors
*
* @param pOverlapFraction The fractional overlap of the integration tiles
*/
public void setOverlapFraction(double pOverlapFraction) {
if (mOverlapFraction != pOverlapFraction) {
mOverlapFraction = pOverlapFraction;
setChanged();
}
}
/**
* Returns the black border removal flag
* @return True if black border removal is enabled else false
*/
public boolean isBlackBorderRemoval() {
return mBlackBorderRemoval;
}
/**
* Sets the black border removal flag
* @param pBlackBorderRemoval True if black border removal is enabled else false
*/
public void setBlackBorderRemoval(boolean pBlackBorderRemoval) {
if (mBlackBorderRemoval != pBlackBorderRemoval) {
mBlackBorderRemoval = pBlackBorderRemoval;
setChanged();
}
}
public void appendTo(JsonStringBuffer pJsonBuf) {
String comment =
"The black border configuration, contains the following items: \n" +
" * enable : true if the detector should be activated\n";
pJsonBuf.writeComment(comment);
pJsonBuf.startObject("blackborderdetector");
pJsonBuf.addValue("enable", mBlackBorderRemoval, true);
pJsonBuf.stopObject();
}
}

View File

@ -1,33 +0,0 @@
package org.hyperion.hypercon.spec;
import java.awt.geom.Point2D;
import java.awt.geom.Rectangle2D;
/**
* Led specification with fractional location along screen border and fractional-rectangle for
* integrating an image into led color
*/
public class Led {
/** The sequence number of the led */
public int mLedSeqNr;
/** The side along which the led is placed */
public BorderSide mSide;
/** The fractional location of the led */
public Point2D mLocation;
/** The fractional rectangle for image integration */
public Rectangle2D mImageRectangle;
/**
* String representation of the led specification
*
* @return The led specs as nice readable string
*/
@Override
public String toString() {
return "Led[" + mLedSeqNr + "] Location=" + mLocation + " Rectangle=" + mImageRectangle;
}
}

View File

@ -1,63 +0,0 @@
package org.hyperion.hypercon.spec;
import java.util.Observable;
/**
* The LedFrame describes the construction of leds along the sides of the TV screen.
*/
public class LedFrameConstruction extends Observable {
/**
* Enumeration of the led configuration direction
*/
public enum Direction {
/** Clockwise led configuration */
clockwise,
/** Counter Clockwise led configuration */
counter_clockwise;
}
/** True if the leds are organised clockwise else false (counter clockwise) */
public boolean clockwiseDirection = true;
/** True if the top corners have a led else false */
public boolean topCorners = true;
/** True if the bottom corners have a led else false */
public boolean bottomCorners = true;
/** The number of leds between the top-left corner and the top-right corner of the screen
(excluding the corner leds) */
public int topLedCnt = 16;
/** The number of leds between the bottom-left corner and the bottom-right corner of the screen
(excluding the corner leds) */
public int bottomLedCnt = 16;
/** The number of leds between the top-left corner and the bottom-left corner of the screen
(excluding the corner leds) */
public int leftLedCnt = 7;
/** The number of leds between the top-right corner and the bottom-right corner of the screen
(excluding the corner leds) */
public int rightLedCnt = 7;
/** The offset (in leds) of the starting led counted clockwise from the top-left corner */
public int firstLedOffset = -16;
/**
* Returns the total number of leds
*
* @return The total number of leds
*/
public int getLedCount() {
int cornerLedCnt = 0;
if (topCorners) cornerLedCnt+=2;
if (bottomCorners) cornerLedCnt+=2;
return topLedCnt + bottomLedCnt + leftLedCnt + rightLedCnt + cornerLedCnt;
}
@Override
public void setChanged() {
super.setChanged();
}
}

View File

@ -1,191 +0,0 @@
package org.hyperion.hypercon.spec;
import org.hyperion.hypercon.JsonStringBuffer;
/**
* Miscellaneous configuration items for the Hyperion daemon.
*/
public class MiscConfig {
/** The absolute location(s) of the effects */
public String mEffectEnginePath = "/opt/hyperion/effects";
/** Flag indicating that the boot sequence is enabled(true) or not(false) */
public boolean mBootSequenceEnabled = true;
/** The effect selected for the boot sequence */
public String mBootSequenceEffect = "Rainbow swirl fast";
/** The (maximum) length of the boot-sequence */
public int mBootSequenceLength_ms = 3000;
/** Flag indicating that the Frame Grabber is enabled */
public boolean mFrameGrabberEnabled = true;
/** The width of 'grabbed' frames (screen shots) [pixels] */
public int mFrameGrabberWidth = 64;
/** The height of 'grabbed' frames (screen shots) [pixels] */
public int mFrameGrabberHeight = 64;
/** The interval of frame grabs (screen shots) [ms] */
public int mFrameGrabberInterval_ms = 100;
/** Flag indicating that the XBMC checker is enabled */
public boolean mXbmcCheckerEnabled = true;
/** The IP-address of XBMC */
public String mXbmcAddress = "127.0.0.1";
/** The TCP JSON-Port of XBMC */
public int mXbmcTcpPort = 9090;
/** Flag indicating that the frame-grabber is on during video playback */
public boolean mVideoOn = true;
/** Flag indicating that the frame-grabber is on during XBMC menu */
public boolean mMenuOn = false;
/** Flag indicating that the frame-grabber is on during picture slideshow */
public boolean mPictureOn = true;
/** Flag indicating that the frame-grabber is on during audio playback */
public boolean mAudioOn = true;
/** Flag indicating that the frame-grabber is on when xbmc is on screensaver */
public boolean mScreensaverOn = true;
/** Flag indicating that the frame-grabber is should take actions when a 3D file is playing */
public boolean m3DCheckingEnabled = true;
/** Flag indicating that the JSON interface is enabled */
public boolean mJsonInterfaceEnabled = true;
/** The TCP port at which the JSON server is listening for incoming connections */
public int mJsonPort = 19444;
/** Flag indicating that the PROTO interface is enabled */
public boolean mProtoInterfaceEnabled = true;
/** The TCP port at which the Protobuf server is listening for incoming connections */
public int mProtoPort = 19445;
/** Flag indicating that the PROTO interface is enabled */
public boolean mBoblightInterfaceEnabled = false;
/** The TCP port at which the Protobuf server is listening for incoming connections */
public int mBoblightPort = 19333;
public void appendTo(JsonStringBuffer strBuf) {
String effectEngineComment =
"The configuration of the effect engine, contains the following items: \n" +
" * paths : An array with absolute location(s) of directories with effects \n" +
" * bootsequence : The effect selected as 'boot sequence'";
strBuf.writeComment(effectEngineComment);
String[] effectPaths = mEffectEnginePath.split(":");
strBuf.startObject("effects");
strBuf.startArray("paths");
for (String effectPath : effectPaths) {
strBuf.addArrayElement(effectPath, effectPath == effectPaths[effectPaths.length-1]);
}
strBuf.stopArray(true);
strBuf.stopObject();
strBuf.newLine();
strBuf.toggleComment(!mBootSequenceEnabled);
strBuf.startObject("bootsequence");
strBuf.addValue("effect", mBootSequenceEffect, false);
strBuf.addValue("duration_ms", mBootSequenceLength_ms, true);
strBuf.stopObject();
strBuf.toggleComment(false);
strBuf.newLine();
String grabComment =
" The configuration for the frame-grabber, contains the following items: \n" +
" * width : The width of the grabbed frames [pixels]\n" +
" * height : The height of the grabbed frames [pixels]\n" +
" * frequency_Hz : The frequency of the frame grab [Hz]\n";
strBuf.writeComment(grabComment);
strBuf.toggleComment(!mFrameGrabberEnabled);
strBuf.startObject("framegrabber");
strBuf.addValue("width", mFrameGrabberWidth, false);
strBuf.addValue("height", mFrameGrabberHeight, false);
strBuf.addValue("frequency_Hz", 1000.0/mFrameGrabberInterval_ms, true);
strBuf.stopObject();
strBuf.toggleComment(false);
strBuf.newLine();
String xbmcComment =
"The configuration of the XBMC connection used to enable and disable the frame-grabber. Contains the following fields: \n" +
" * xbmcAddress : The IP address of the XBMC-host\n" +
" * xbmcTcpPort : The TCP-port of the XBMC-server\n" +
" * grabVideo : Flag indicating that the frame-grabber is on(true) during video playback\n" +
" * grabPictures : Flag indicating that the frame-grabber is on(true) during picture show\n" +
" * grabAudio : Flag indicating that the frame-grabber is on(true) during audio playback\n" +
" * grabMenu : Flag indicating that the frame-grabber is on(true) in the XBMC menu\n" +
" * grabScreensaver : Flag indicating that the frame-grabber is on(true) when XBMC is on screensaver\n" +
" * enable3DDetection : Flag indicating that the frame-grabber should switch to a 3D compatible modus if a 3D video is playing\n";
strBuf.writeComment(xbmcComment);
strBuf.toggleComment(!mXbmcCheckerEnabled);
strBuf.startObject("xbmcVideoChecker");
strBuf.addValue("xbmcAddress", mXbmcAddress, false);
strBuf.addValue("xbmcTcpPort", mXbmcTcpPort, false);
strBuf.addValue("grabVideo", mVideoOn, false);
strBuf.addValue("grabPictures", mPictureOn, false);
strBuf.addValue("grabAudio", mAudioOn, false);
strBuf.addValue("grabMenu", mMenuOn, false);
strBuf.addValue("grabScreensaver", mScreensaverOn, false);
strBuf.addValue("enable3DDetection", m3DCheckingEnabled, true);
strBuf.stopObject();
strBuf.toggleComment(false);
strBuf.newLine();
String jsonComment =
"The configuration of the Json server which enables the json remote interface\n" +
" * port : Port at which the json server is started\n";
strBuf.writeComment(jsonComment);
strBuf.toggleComment(!mJsonInterfaceEnabled);
strBuf.startObject("jsonServer");
strBuf.addValue("port", mJsonPort, true);
strBuf.stopObject();
strBuf.toggleComment(false);
strBuf.newLine();
String protoComment =
"The configuration of the Proto server which enables the protobuffer remote interface\n" +
" * port : Port at which the protobuffer server is started\n";
strBuf.writeComment(protoComment);
strBuf.toggleComment(!mProtoInterfaceEnabled);
strBuf.startObject("protoServer");
strBuf.addValue("port", mProtoPort, true);
strBuf.stopObject();
strBuf.toggleComment(false);
strBuf.newLine();
String boblightComment =
"The configuration of the boblight server which enables the boblight remote interface\n" +
" * port : Port at which the boblight server is started\n";
strBuf.writeComment(boblightComment);
strBuf.toggleComment(!mBoblightInterfaceEnabled);
strBuf.startObject("boblightServer");
strBuf.addValue("port", mBoblightPort, true);
strBuf.stopObject();
strBuf.toggleComment(false);
}
/**
* Creates the JSON string of the configuration as used in the Hyperion daemon configfile
*
* @return The JSON string of this MiscConfig
*/
public String toJsonString() {
JsonStringBuffer jsonBuf = new JsonStringBuffer(1);
appendTo(jsonBuf);
return jsonBuf.toString();
}
public static void main(String[] pArgs) {
MiscConfig miscConfig = new MiscConfig();
JsonStringBuffer jsonBuf = new JsonStringBuffer(1);
miscConfig.appendTo(jsonBuf);
System.out.println(jsonBuf.toString());
}
}

View File

@ -1,111 +0,0 @@
package org.hyperion.hypercon.spec;
import java.util.Locale;
public class TransformConfig {
/** The identifier of this ColorTransform configuration */
public String mId = "default";
/** The indices to which this transform applies */
public String mLedIndexString = "*";
/** The saturation gain (in HSV space) */
public double mSaturationGain = 1.0;
/** The value gain (in HSV space) */
public double mValueGain = 1.0;
/** The minimum required RED-value (in RGB space) */
public double mRedThreshold = 0.0;
/** The gamma-curve correct for the RED-value (in RGB space) */
public double mRedGamma = 1.0;
/** The black-level of the RED-value (in RGB space) */
public double mRedBlacklevel = 0.0;
/** The white-level of the RED-value (in RGB space) */
public double mRedWhitelevel = 1.0;
/** The minimum required GREEN-value (in RGB space) */
public double mGreenThreshold = 0.0;
/** The gamma-curve correct for the GREEN-value (in RGB space) */
public double mGreenGamma = 1.0;
/** The black-level of the GREEN-value (in RGB space) */
public double mGreenBlacklevel = 0.0;
/** The white-level of the GREEN-value (in RGB space) */
public double mGreenWhitelevel = 1.0;
/** The minimum required BLUE-value (in RGB space) */
public double mBlueThreshold = 0.0;
/** The gamma-curve correct for the BLUE-value (in RGB space) */
public double mBlueGamma = 1.0;
/** The black-level of the BLUE-value (in RGB space) */
public double mBlueBlacklevel = 0.0;
/** The white-level of the BLUE-value (in RGB space) */
public double mBlueWhitelevel = 1.0;
public String toJsonString() {
StringBuffer strBuf = new StringBuffer();
strBuf.append("\t\t\t{\n");
strBuf.append("\t\t\t\t\"id\" : \"" + mId + "\",\n");
strBuf.append("\t\t\t\t\"leds\" : \"" + mLedIndexString + "\",\n");
strBuf.append(hsvToJsonString() + ",\n");
strBuf.append(rgbToJsonString() + "\n");
strBuf.append("\t\t\t}");
return strBuf.toString();
}
/**
* Creates the JSON string of the HSV-subconfiguration as used in the Hyperion deamon configfile
*
* @return The JSON string of the HSV-config
*/
private String hsvToJsonString() {
StringBuffer strBuf = new StringBuffer();
strBuf.append("\t\t\t\t\"hsv\" :\n");
strBuf.append("\t\t\t\t{\n");
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"saturationGain\" : %.4f,\n", mSaturationGain));
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"valueGain\" : %.4f\n", mValueGain));
strBuf.append("\t\t\t\t}");
return strBuf.toString();
}
/**
* Creates the JSON string of the RGB-subconfiguration as used in the Hyperion deamon configfile
*
* @return The JSON string of the RGB-config
*/
private String rgbToJsonString() {
StringBuffer strBuf = new StringBuffer();
strBuf.append("\t\t\t\t\"red\" :\n");
strBuf.append("\t\t\t\t{\n");
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"threshold\" : %.4f,\n", mRedThreshold));
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"gamma\" : %.4f,\n", mRedGamma));
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"blacklevel\" : %.4f,\n", mRedBlacklevel));
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"whitelevel\" : %.4f\n", mRedWhitelevel));
strBuf.append("\t\t\t\t},\n");
strBuf.append("\t\t\t\t\"green\" :\n");
strBuf.append("\t\t\t\t{\n");
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"threshold\" : %.4f,\n", mGreenThreshold));
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"gamma\" : %.4f,\n", mGreenGamma));
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"blacklevel\" : %.4f,\n", mGreenBlacklevel));
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"whitelevel\" : %.4f\n", mGreenWhitelevel));
strBuf.append("\t\t\t\t},\n");
strBuf.append("\t\t\t\t\"blue\" :\n");
strBuf.append("\t\t\t\t{\n");
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"threshold\" : %.4f,\n", mBlueThreshold));
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"gamma\" : %.4f,\n", mBlueGamma));
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"blacklevel\" : %.4f,\n", mBlueBlacklevel));
strBuf.append(String.format(Locale.ROOT, "\t\t\t\t\t\"whitelevel\" : %.4f\n", mBlueWhitelevel));
strBuf.append("\t\t\t\t}");
return strBuf.toString();
}
@Override
public String toString() {
return mId;
}
}

View File

@ -1,46 +0,0 @@
package org.hyperion.hypercon.test;
import org.hyperion.hypercon.ConfigurationFile;
import org.hyperion.hypercon.spec.ColorByteOrder;
import org.hyperion.hypercon.spec.ColorConfig;
import org.hyperion.hypercon.spec.DeviceConfig;
import org.hyperion.hypercon.spec.DeviceType;
import org.hyperion.hypercon.spec.ImageProcessConfig;
import org.hyperion.hypercon.spec.LedFrameConstruction;
import org.hyperion.hypercon.spec.MiscConfig;
public class TesConfigWriter {
public static void main(String[] pArgs) {
DeviceConfig deviceConfig = new DeviceConfig();
LedFrameConstruction frameConfig = new LedFrameConstruction();
ColorConfig colorConfig = new ColorConfig();
ImageProcessConfig imageConfig = new ImageProcessConfig();
MiscConfig miscConfig = new MiscConfig();
deviceConfig.mBaudrate = 4800;
deviceConfig.mColorByteOrder = ColorByteOrder.BGR;
deviceConfig.mName = "DAG";
deviceConfig.mOutput = "/dev/null";
deviceConfig.mType = DeviceType.lpd6803;
ConfigurationFile configFile = new ConfigurationFile();
configFile.store(deviceConfig);
configFile.store(frameConfig);
configFile.store(colorConfig);
configFile.store(imageConfig);
configFile.store(miscConfig);
configFile.save("./HyperCon.dat");
ConfigurationFile configFile2 = new ConfigurationFile();
configFile2.load("./HyperCon.dat");
configFile2.restore(deviceConfig);
configFile2.restore(frameConfig);
configFile2.restore(colorConfig);
configFile2.restore(imageConfig);
configFile2.restore(miscConfig);
System.out.println(configFile2);
}
}

View File

@ -102,9 +102,6 @@ int main(int argc, char** argv)
const unsigned duration_ms = effectConfig["duration_ms"].asUInt();
const int priority = 0;
// int retVal = -1;
// QMetaObject::invokeMethod(hyperion, "setEffect", Q_RETURN_ARG(int, retVal), Q_ARG(std::string, effectName), Q_ARG(Json::Value, Json::Value()), Q_ARG(int, priority), Q_ARG(int, duration_ms));
// if (retVal == 0)
if (hyperion.setEffect(effectName, priority, duration_ms) == 0)
{
std::cout << "Boot sequence(" << effectName << ") created and started" << std::endl;

View File

@ -1,11 +1,15 @@
# Needed for testing non-public components
# Needed for testing non-public components
include_directories(../libsrc)
# Add the simple test executable 'TestSpi'
add_executable(test_spi
TestSpi.cpp)
target_link_libraries(test_spi
hyperion)
if(ENABLE_SPIDEV)
# Add the simple test executable 'TestSpi'
add_executable(test_spi TestSpi.cpp)
target_link_libraries(test_spi hyperion)
add_executable(spidev_test spidev_test.c)
add_executable(gpio2spi switchPinCtrl.c)
endif(ENABLE_SPIDEV)
add_executable(test_configfile
TestConfigFile.cpp)
@ -49,9 +53,9 @@ add_executable(test_qregexp TestQRegExp.cpp)
target_link_libraries(test_qregexp
${QT_LIBRARIES})
add_executable(spidev_test spidev_test.c)
add_executable(gpio2spi switchPinCtrl.c)
add_executable(test_qtscreenshot TestQtScreenshot.cpp)
target_link_libraries(test_qtscreenshot
${QT_LIBRARIES})
add_executable(determineWs2811Timing DetermineWs2811Timing.cpp)
@ -62,6 +66,9 @@ add_executable(test_rs232highspeed
target_link_libraries(test_rs232highspeed
serialport)
include_directories(/usr/include)
add_executable(test_uartHighSpeed TestUartHighSpeed.cpp)
target_link_libraries(test_uartHighSpeed ${QT_LIBRARIES})
if(NOT APPLE AND UNIX)
include_directories(/usr/include)
add_executable(test_uartHighSpeed TestUartHighSpeed.cpp)
add_executable(test_nonInvWs2812b TestNonInvWs2812b.cpp)
endif()

View File

@ -49,6 +49,8 @@ int main()
requiredTiming(400, 850, 150, 5); // Zero
requiredTiming(800, 450, 150, 5); // One
requiredTiming(650, 600, 150, 5); // One
// 4bits
requiredTiming(400, 850, 150, 4); // Zero
requiredTiming(800, 450, 150, 4); // One

138
test/TestNonInvWs2812b.cpp Normal file
View File

@ -0,0 +1,138 @@
// STL includes
#include <cstdint>
#include <vector>
#include <iostream>
std::vector<uint8_t> encode(const std::vector<uint8_t> & data);
void split(const uint8_t byte, uint8_t & out1, uint8_t & out2);
uint8_t encode(const bool bit1, const bool bit2, const bool bit3);
void print(uint8_t byte)
{
for (int i=0; i<8; ++i)
{
if (byte & (1 << i))
{
std::cout << '1';
}
else
{
std::cout << '0';
}
}
}
int main()
{
std::vector<uint8_t> data(3, 0x55);
std::vector<uint8_t> encData = encode(data);
for (uint8_t encByte : encData)
{
std::cout << "0 ";
print(encByte);
std::cout << " 1";
}
std::cout << std::endl;
return 0;
}
std::vector<uint8_t> encode(const std::vector<uint8_t> & data)
{
std::vector<uint8_t> result;
uint8_t previousByte = 0x00;
uint8_t nextByte = 0x00;
for (unsigned iData=0; iData<data.size(); iData+=3)
{
const uint8_t byte1 = data[iData];
const uint8_t byte2 = data[iData+1];
const uint8_t byte3 = data[iData+2];
uint8_t encByte;
encByte = encode(byte1 & 0x80, byte1 & 0x40, byte1 & 0x20);
std::cout << "Encoded byte 1: "; print(encByte); std::cout << std::endl;
split(encByte, previousByte, nextByte);
result.push_back(previousByte);
previousByte = nextByte;
encByte = encode(byte1 & 0x10, byte1 & 0x08, byte1 & 0x04);
split(encByte, previousByte, nextByte);
result.push_back(previousByte);
previousByte = nextByte;
encByte = encode(byte1 & 0x02, byte1 & 0x01, byte2 & 0x80);
split(encByte, previousByte, nextByte);
result.push_back(previousByte);
previousByte = nextByte;
encByte = encode(byte2 & 0x40, byte2 & 0x20, byte2 & 0x10);
split(encByte, previousByte, nextByte);
result.push_back(previousByte);
previousByte = nextByte;
encByte = encode(byte2 & 0x08, byte2 & 0x04, byte2 & 0x02);
split(encByte, previousByte, nextByte);
result.push_back(previousByte);
previousByte = nextByte;
encByte = encode(byte2 & 0x01, byte3 & 0x80, byte3 & 0x40);
split(encByte, previousByte, nextByte);
result.push_back(previousByte);
previousByte = nextByte;
encByte = encode(byte3 & 0x20, byte3 & 0x10, byte3 & 0x08);
split(encByte, previousByte, nextByte);
result.push_back(previousByte);
previousByte = nextByte;
encByte = encode(byte3 & 0x04, byte3 & 0x02, byte3 & 0x01);
split(encByte, previousByte, nextByte);
result.push_back(previousByte);
previousByte = nextByte;
}
return result;
}
void split(const uint8_t byte, uint8_t & out1, uint8_t & out2)
{
print(byte); std::cout << " => ";
print(out2); std::cout << " => ";
out1 &= ~0x0F;
out1 |= (byte & 0x0F) << 4;
// out2 &= ~0xF0;
print(out2); std::cout << " => ";
out2 = (byte & 0xF0) >> 4;
print(out2); std::cout << std::endl;
}
uint8_t encode(const bool bit1, const bool bit2, const bool bit3)
{
if (bit2)
{
uint8_t result = 0x19; // 0--1 01 10-1
if (bit1) result |= 0x02;
// else result &= ~0x02;
if (bit3) result |= 0x60;
// else result &= ~0x60;
return result;
}
else
{
uint8_t result = 0x21;// 0x21 (0-10 01 0--1)
if (bit1) result |= 0x06;
// else result &= ~0x06;
if (bit3) result |= 0x40;
// else result &= ~0x40;
return result;
}
}

20
test/TestQtScreenshot.cpp Normal file
View File

@ -0,0 +1,20 @@
// STL includes
#include <iostream>
// QT includes
#include <QApplication>
#include <QDesktopWidget>
#include <QPixmap>
int main(int argc, char** argv)
{
QApplication app(argc, argv);
QPixmap originalPixmap = QPixmap::grabWindow(QApplication::desktop()->winId());
std::cout << "Grabbed image: [" << originalPixmap.width() << "; " << originalPixmap.height() << "]" << std::endl;
return 0;
}

View File

@ -62,7 +62,9 @@ int testSerialPortLib()
continue;
}
rs232Port.flushOutput();
rs232Port.write(data);
rs232Port.flush();
data.clear();
for (int i=0; i<9; ++i)
@ -110,7 +112,7 @@ public:
open();
}
int write(const std::vector<ColorRgb> &ledValues) \
int write(const std::vector<ColorRgb> &ledValues)
{
std::vector<uint8_t> bytes(ledValues.size() * 3 * 4);
@ -130,7 +132,7 @@ public:
return 0;
}
int switchOff() { return 0; }
int switchOff() { return 0; };
void writeTestSequence(const std::vector<uint8_t> & data)
{

View File

@ -12,8 +12,80 @@
#include <csignal>
#include <cstdint>
#include <bitset>
#include <vector>
#include <QElapsedTimer>
#include <pthread.h>
#include <sched.h>
void set_realtime_priority() {
int ret;
// We'll operate on the currently running thread.
pthread_t this_thread = pthread_self();
// struct sched_param is used to store the scheduling priority
struct sched_param params;
// We'll set the priority to the maximum.
params.sched_priority = sched_get_priority_max(SCHED_FIFO);
std::cout << "Trying to set thread realtime prio = " << params.sched_priority << std::endl;
// Attempt to set thread real-time priority to the SCHED_FIFO policy
ret = pthread_setschedparam(this_thread, SCHED_FIFO, &params);
if (ret != 0) {
// Print the error
std::cout << "Unsuccessful in setting thread realtime prio (erno=" << ret << ")" << std::endl;
return;
}
// Now verify the change in thread priority
int policy = 0;
ret = pthread_getschedparam(this_thread, &policy, &params);
if (ret != 0) {
std::cout << "Couldn't retrieve real-time scheduling paramers" << std::endl;
return;
}
// Check the correct policy was applied
if(policy != SCHED_FIFO) {
std::cout << "Scheduling is NOT SCHED_FIFO!" << std::endl;
} else {
std::cout << "SCHED_FIFO OK" << std::endl;
}
// Print thread scheduling priority
std::cout << "Thread priority is " << params.sched_priority << std::endl;
}
struct ColorSignal
{
uint8_t green_1;
uint8_t green_2;
uint8_t green_3;
uint8_t green_4;
uint8_t red_1;
uint8_t red_2;
uint8_t red_3;
uint8_t red_4;
uint8_t blue_1;
uint8_t blue_2;
uint8_t blue_3;
uint8_t blue_4;
};
static ColorSignal RED_Signal = { 0xCE, 0xCE, 0xCE, 0xCE,
0xCE, 0x8C, 0x8C, 0x8C,
0xCE, 0xCE, 0xCE, 0xCE };
static ColorSignal GREEN_Signal = { 0xCE, 0x8C, 0x8C, 0x8C,
0xCE, 0xCE, 0xCE, 0xCE,
0xCE, 0xCE, 0xCE, 0xCE };
static ColorSignal BLUE_Signal = { 0xCE, 0xCE, 0xCE, 0xCE,
0xCE, 0xCE, 0xCE, 0xCE,
0xCE, 0x8C, 0x8C, 0x8C};
static ColorSignal BLACK_Signal = { 0xCE, 0xCE, 0xCE, 0xCE,
0xCE, 0xCE, 0xCE, 0xCE,
0xCE, 0xCE, 0xCE, 0xCE};
static volatile bool _running;
@ -23,8 +95,16 @@ void signal_handler(int signum)
}
void test3bitsEncoding();
int main()
{
if (true)
{
test3bitsEncoding();
return 0;
}
_running = true;
signal(SIGTERM, &signal_handler);
@ -46,7 +126,7 @@ int main()
// immediately with a failure status if the output can't be written immediately.
//
// O_NOCTTY - When set and path identifies a terminal device, open() shall not cause the terminal device to become the controlling terminal for the process.
uart0_filestream = open("/dev/ttyAMA0", O_RDWR | O_NOCTTY | O_NDELAY); //Open in non blocking read/write mode
uart0_filestream = open("/dev/ttyAMA0", O_WRONLY | O_NOCTTY | O_NDELAY); //Open in non blocking read/write mode
if (uart0_filestream == -1)
{
//ERROR - CAN'T OPEN SERIAL PORT
@ -67,17 +147,18 @@ int main()
// PARODD - Odd parity (else even)
struct termios options;
tcgetattr(uart0_filestream, &options);
options.c_cflag = B4000000 | CS8 | CLOCAL | CREAD; //<Set baud rate
options.c_cflag = B4000000 | CS8 | CLOCAL; //<Set baud rate
options.c_iflag = IGNPAR;
options.c_oflag = 0;
options.c_lflag = 0;
tcflush(uart0_filestream, TCIFLUSH);
cfmakeraw(&options);
std::cout << "options.c_cflag = " << options.c_cflag << std::endl;
std::cout << "options.c_iflag = " << options.c_iflag << std::endl;
std::cout << "options.c_oflag = " << options.c_oflag << std::endl;
std::cout << "options.c_lflag = " << options.c_lflag << std::endl;
tcflush(uart0_filestream, TCIFLUSH);
tcsetattr(uart0_filestream, TCSANOW, &options);
// Let's verify configured options
tcgetattr(uart0_filestream, &options);
@ -128,47 +209,9 @@ int main()
}
//----- TX BYTES -----
uint8_t tx_buffer[3*3*8*4];
uint8_t *p_tx_buffer;
// for (int i=0; i<3; ++i)
// {
// Writing 0xFF, 0x00, 0x00
// *p_tx_buffer++ = 0x8C;
// *p_tx_buffer++ = 0x8C;
// *p_tx_buffer++ = 0x8C;
// *p_tx_buffer++ = 0x8C;
std::default_random_engine generator;
std::uniform_int_distribution<int> distribution(1,2);
p_tx_buffer = &tx_buffer[0];
for (int i=0; i<9; ++i)
{
int coinFlip = distribution(generator);
if (coinFlip == 1)
{
*p_tx_buffer++ = 0xCE;
*p_tx_buffer++ = 0xCE;
*p_tx_buffer++ = 0xCE;
*p_tx_buffer++ = 0xCE;
}
else
{
*p_tx_buffer++ = 0x8C;
*p_tx_buffer++ = 0x8C;
*p_tx_buffer++ = 0x8C;
*p_tx_buffer++ = 0x8C;
}
}
std::cout << "Binary stream: [";
for (unsigned char* txIt=&(tx_buffer[0]); txIt!=p_tx_buffer; ++txIt)
{
std::cout << " 1 " << (std::bitset<8>) (*txIt) << " 0 ";
}
std::cout << "]" << std::endl;
std::vector<ColorSignal> signalData(10, RED_Signal);
int loopCnt = 0;
std::cout << "Type 'c' to continue, 'q' or 'x' to quit: ";
while (_running)
{
@ -182,38 +225,28 @@ int main()
continue;
}
int count = write(uart0_filestream, &tx_buffer[0], (p_tx_buffer - &tx_buffer[0])); //Filestream, bytes to write, number of bytes to write
if (count < 0)
set_realtime_priority();
for (int iRun=0; iRun<10; ++iRun)
{
std::cerr << "UART TX error" << std::endl;
// tcflush(uart0_filestream, TCOFLUSH);
write(uart0_filestream, signalData.data(), signalData.size()*sizeof(ColorSignal));
tcdrain(uart0_filestream);
//----- CLOSE THE UART -----
close(uart0_filestream);
return -1;
}
std::cout << "Writing " << count << " bytes to uart" << std::endl;
usleep(100000);
++loopCnt;
if (loopCnt%3 == 2)
signalData = std::vector<ColorSignal>(10, GREEN_Signal);
else if(loopCnt%3 == 1)
signalData = std::vector<ColorSignal>(10, BLUE_Signal);
else if(loopCnt%3 == 0)
signalData = std::vector<ColorSignal>(10, RED_Signal);
p_tx_buffer = &tx_buffer[0];
for (int i=0; i<9; ++i)
{
int coinFlip = distribution(generator);
if (coinFlip == 1)
{
*p_tx_buffer++ = 0xCE;
*p_tx_buffer++ = 0xCE;
*p_tx_buffer++ = 0xCE;
*p_tx_buffer++ = 0xCE;
}
else
{
*p_tx_buffer++ = 0x8C;
*p_tx_buffer++ = 0x8C;
*p_tx_buffer++ = 0x8C;
*p_tx_buffer++ = 0x8C;
}
}
}
signalData = std::vector<ColorSignal>(50, BLACK_Signal);
write(uart0_filestream, signalData.data(), signalData.size()*sizeof(ColorSignal));
//----- CLOSE THE UART -----
close(uart0_filestream);
@ -221,3 +254,133 @@ int main()
return 0;
}
std::vector<uint8_t> bit3Encode(const std::vector<uint8_t> & bytes);
uint8_t bit3Encode(const bool bit_1, const bool bit_2, const bool bit_3);
void test3bitsEncoding()
{
//OPEN THE UART
int uart0_filestream = open("/dev/ttyAMA0", O_WRONLY | O_NOCTTY | O_NDELAY);
if (uart0_filestream == -1)
{
//ERROR - CAN'T OPEN SERIAL PORT
printf("Error - Unable to open UART. Ensure it is not in use by another application\n");
return;
}
// Configure the port
struct termios options;
tcgetattr(uart0_filestream, &options);
options.c_cflag = B2500000 | CS7 | CLOCAL;
options.c_iflag = IGNPAR;
options.c_oflag = 0;
options.c_lflag = 0;
tcflush(uart0_filestream, TCIFLUSH);
tcsetattr(uart0_filestream, TCSANOW, &options);
std::vector<uint8_t> colorRed;
for (unsigned i=0; i<10; ++i)
{
colorRed.push_back(0x00);
colorRed.push_back(0xFF);
colorRed.push_back(0x00);
}
std::vector<uint8_t> colorGreen;
for (unsigned i=0; i<10; ++i)
{
colorGreen.push_back(0xFF);
colorGreen.push_back(0x00);
colorGreen.push_back(0x00);
}
std::vector<uint8_t> colorBlue;
for (unsigned i=0; i<10; ++i)
{
colorBlue.push_back(0x00);
colorBlue.push_back(0x00);
colorBlue.push_back(0xFF);
}
std::vector<uint8_t> colorBlack;
for (unsigned i=0; i<10; ++i)
{
colorBlack.push_back(0x00);
colorBlack.push_back(0x00);
colorBlack.push_back(0x00);
}
const std::vector<uint8_t> colorRedSignal = bit3Encode(colorRed);
const std::vector<uint8_t> colorGreenSignal = bit3Encode(colorGreen);
const std::vector<uint8_t> colorBlueSignal = bit3Encode(colorBlue);
const std::vector<uint8_t> colorBlackSignal = bit3Encode(colorBlack);
for (unsigned i=0; i<100; ++i)
{
size_t res;
res = write(uart0_filestream, colorRedSignal.data(), colorRedSignal.size());
(void)res;
usleep(100000);
res = write(uart0_filestream, colorGreenSignal.data(), colorGreenSignal.size());
(void)res;
usleep(100000);
res = write(uart0_filestream, colorBlueSignal.data(), colorBlueSignal.size());
(void)res;
usleep(100000);
}
size_t res = write(uart0_filestream, colorBlackSignal.data(), colorBlackSignal.size());
(void)res;
//----- CLOSE THE UART -----
res = close(uart0_filestream);
(void)res;
std::cout << "Program finished" << std::endl;
}
std::vector<uint8_t> bit3Encode(const std::vector<uint8_t> & bytes)
{
std::vector<uint8_t> result;
for (unsigned iByte=0; iByte<bytes.size(); iByte+=3)
{
const uint8_t & byte1 = bytes[iByte];
const uint8_t & byte2 = bytes[iByte + 1];
const uint8_t & byte3 = bytes[iByte + 2];
result.push_back(bit3Encode(byte1 & 0x80, byte1 & 0x40, byte1 & 0x20));
result.push_back(bit3Encode(byte1 & 0x10, byte1 & 0x08, byte1 & 0x04));
result.push_back(bit3Encode(byte1 & 0x02, byte1 & 0x01, byte2 & 0x80));
result.push_back(bit3Encode(byte2 & 0x40, byte2 & 0x20, byte2 & 0x10));
result.push_back(bit3Encode(byte2 & 0x08, byte2 & 0x04, byte2 & 0x02));
result.push_back(bit3Encode(byte2 & 0x01, byte3 & 0x80, byte3 & 0x40));
result.push_back(bit3Encode(byte3 & 0x20, byte3 & 0x10, byte3 & 0x08));
result.push_back(bit3Encode(byte3 & 0x04, byte3 & 0x02, byte3 & 0x01));
}
return result;
}
uint8_t bit3Encode(const bool bit_1, const bool bit_2, const bool bit_3)
{
// Bit index(default):1 2 3
// | | |
// default value (1) 00 100 10 (0)
//
// Reversed value (1) 01 001 00 (0)
// | | |
// Bit index (rev): 3 2 1
uint8_t result = 0x24;
if(bit_1)
{
result |= 0x01;
}
if (bit_2)
{
result |= 0x08;
}
if (bit_3)
{
result |= 0x40;
}
return ~result;
}