Fixes - Smoothing, Color-Calibration (#1532)

* Smoothing Remove ouputrate as duplicate to update frequency

* Serial LDEDDevices -Increase writeBlack to overcome issues on high baud rates

* Serial LED-Devices - Support device feedback, show statistics provided by HyperSerial

* Fix - Update Color Calibration on Remote Control when settings saved

* Serial LED-Devices - Support device feedback, show statistics provided by HyperSerial
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LordGrey 2022-11-27 15:47:54 +01:00 committed by GitHub
parent 46f996310d
commit a2db590d2a
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10 changed files with 130 additions and 87 deletions

View File

@ -443,8 +443,6 @@
"edt_conf_smooth_heading_title": "Smoothing",
"edt_conf_smooth_interpolationRate_expl": "Speed of the calculation of smooth intermediate frames.",
"edt_conf_smooth_interpolationRate_title": "Interpolation Rate",
"edt_conf_smooth_outputRate_expl": "The output speed to your LED controller.",
"edt_conf_smooth_outputRate_title": "Output Rate",
"edt_conf_smooth_time_ms_expl": "How long should the smoothing gather pictures?",
"edt_conf_smooth_time_ms_title": "Time",
"edt_conf_smooth_type_expl": "Type of smoothing.",

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@ -19,7 +19,6 @@ $(document).ready(function () {
$('.ssthead').html(createTableRow([$.i18n('remote_input_origin'), $.i18n('remote_input_owner'), $.i18n('remote_input_priority'), $.i18n('remote_input_status')], true, true));
createTable('crthead', 'crtbody', 'adjust_content', true);
//create introduction
if (window.showOptHelp) {
createHint("intro", $.i18n('remote_color_intro', $.i18n('remote_losthint')), "color_intro");
@ -30,7 +29,23 @@ $(document).ready(function () {
createHint("intro", $.i18n('remote_videoMode_intro', $.i18n('remote_losthint')), "videomode_intro");
}
//color adjustment
function sendEffect() {
var efx = $("#effect_select").val();
if (efx != "__none__") {
requestPriorityClear();
$(window.hyperion).one("cmd-clear", function (event) {
setTimeout(function () { requestPlayEffect(efx, duration) }, 100);
});
}
}
function sendColor() {
requestSetColor(rgb.r, rgb.g, rgb.b, duration);
}
function updateChannelAdjustments() {
$('.crtbody').html("");
var sColor = sortProperties(window.serverSchema.properties.color.properties.channelAdjustment.items.properties);
var values = window.serverInfo.adjustment[0];
@ -48,7 +63,7 @@ $(document).ready(function () {
});
}
else if (sColor[key].type == "boolean") {
property = '<div class="checkbox"><input id="cr_' + sColor[key].key + '" type="checkbox" value="' + value + '"/><label></label></div>';
property = '<div class="checkbox"><input id="cr_' + sColor[key].key + '" type="checkbox" ' + (value ? "checked" : "") + '/><label></label></div>';
$('.crtbody').append(createTableRow([title, property], false, true));
$('#cr_' + sColor[key].key).off().on('change', function (e) {
@ -79,19 +94,6 @@ $(document).ready(function () {
}
}
}
function sendEffect() {
var efx = $("#effect_select").val();
if (efx != "__none__") {
requestPriorityClear();
$(window.hyperion).one("cmd-clear", function (event) {
setTimeout(function () { requestPlayEffect(efx, duration) }, 100);
});
}
}
function sendColor() {
requestSetColor(rgb.r, rgb.g, rgb.b, duration);
}
function updateInputSelect() {
@ -389,6 +391,7 @@ $(document).ready(function () {
updateInputSelect();
updateLedMapping();
updateVideoMode();
updateChannelAdjustments();
if (EFFECTENGINE_ENABLED) {
updateEffectlist();
} else {
@ -421,6 +424,16 @@ $(document).ready(function () {
updateEffectlist();
});
$(window.hyperion).on("cmd-settings-update", function (event) {
if (event.response.data.color) {
window.serverInfo.imageToLedMappingType = event.response.data.color.imageToLedMappingType;
updateLedMapping();
window.serverInfo.adjustment = event.response.data.color.channelAdjustment;
updateChannelAdjustments();
}
});
removeOverlay();
});

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@ -60,7 +60,6 @@
"time_ms" : 200,
"updateFrequency" : 25.0000,
"interpolationRate" : 25.0000,
"outputRate" : 25.0000,
"decay" : 1,
"dithering" : false,
"updateDelay" : 0

View File

@ -230,9 +230,6 @@ private:
/// Flag for pausing
bool _pause;
/// The rate at which color frames should be written to LED device.
double _outputRate;
/// The interval time in microseconds for writing of LED Frames.
int64_t _outputIntervalMicros;
@ -268,9 +265,6 @@ private:
/// The type of smoothing to perform
SmoothingType _type;
/// The rate at which color frames should be written to LED device.
double _outputRate;
/// The rate at which interpolation of LED frames should be performed.
double _interpolationRate;
@ -284,7 +278,7 @@ private:
double _decay;
SmoothingCfg();
SmoothingCfg(bool pause, int64_t settlingTime, int updateInterval, SmoothingType type = SmoothingType::Linear, double outputRate = 0, double interpolationRate = 0, unsigned outputDelay = 0, bool dithering = false, double decay = 1);
SmoothingCfg(bool pause, int64_t settlingTime, int updateInterval, SmoothingType type = SmoothingType::Linear, double interpolationRate = 0, unsigned outputDelay = 0, bool dithering = false, double decay = 1);
static QString EnumToString(SmoothingType type);
};

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@ -47,7 +47,6 @@ const char* SETTINGS_KEY_OUTPUT_DELAY = "updateDelay";
const char* SETTINGS_KEY_DECAY = "decay";
const char* SETTINGS_KEY_INTERPOLATION_RATE = "interpolationRate";
const char* SETTINGS_KEY_OUTPUT_RATE = "outputRate";
const char* SETTINGS_KEY_DITHERING = "dithering";
const int64_t DEFAULT_SETTLINGTIME = 200; // in ms
@ -133,7 +132,6 @@ void LinearColorSmoothing::handleSettingsUpdate(settings::type type, const QJson
cfg._pause = false;
cfg._outputDelay = static_cast<unsigned>(obj[SETTINGS_KEY_OUTPUT_DELAY].toInt(DEFAULT_OUTPUTDEPLAY));
cfg._outputRate = obj[SETTINGS_KEY_OUTPUT_RATE].toDouble(DEFAULT_UPDATEFREQUENCY);
cfg._interpolationRate = obj[SETTINGS_KEY_INTERPOLATION_RATE].toDouble(DEFAULT_UPDATEFREQUENCY);
cfg._dithering = obj[SETTINGS_KEY_DITHERING].toBool(false);
cfg._decay = obj[SETTINGS_KEY_DECAY].toDouble(1.0);
@ -584,7 +582,6 @@ unsigned LinearColorSmoothing::addConfig(int settlingTime_ms, double ledUpdateFr
static_cast<int>(MS_PER_MICRO / ledUpdateFrequency_hz),
SmoothingType::Linear,
ledUpdateFrequency_hz,
ledUpdateFrequency_hz,
updateDelay
};
_cfgList.append(cfg);
@ -605,7 +602,6 @@ unsigned LinearColorSmoothing::updateConfig(int cfgID, int settlingTime_ms, doub
static_cast<int>(MS_PER_MICRO / ledUpdateFrequency_hz),
SmoothingType::Linear,
ledUpdateFrequency_hz,
ledUpdateFrequency_hz,
updateDelay
};
_cfgList[updatedCfgID] = cfg;
@ -631,8 +627,7 @@ bool LinearColorSmoothing::selectConfig(int cfgID, bool force)
_settlingTime = _cfgList[cfgID]._settlingTime;
_outputDelay = _cfgList[cfgID]._outputDelay;
_pause = _cfgList[cfgID]._pause;
_outputRate = _cfgList[cfgID]._outputRate;
_outputIntervalMicros = int64_t(1000000.0 / _outputRate); // 1s = 1e6 µs
_outputIntervalMicros = int64_t(1000000.0 / _updateInterval); // 1s = 1e6 µs
_interpolationRate = _cfgList[cfgID]._interpolationRate;
_interpolationIntervalMicros = int64_t(1000000.0 / _interpolationRate);
_dithering = _cfgList[cfgID]._dithering;
@ -711,8 +706,7 @@ QString LinearColorSmoothing::getConfig(int cfgID)
case SmoothingType::Decay:
{
const double thalf = (1.0-std::pow(1.0/2, 1.0/_decay))*_settlingTime;
configText += QString (", outputRate %1Hz, interpolationRate: %2Hz, dithering: %3, decay: %4 -> halftime: %5ms")
.arg(cfg._outputRate,0,'f',2)
configText += QString (", interpolationRate: %1Hz, dithering: %2, decay: %3 -> halftime: %4ms")
.arg(cfg._interpolationRate,0,'f',2)
.arg((cfg._dithering) ? "true" : "false")
.arg(cfg._decay,0,'f',2)
@ -732,12 +726,11 @@ LinearColorSmoothing::SmoothingCfg::SmoothingCfg() :
{
}
LinearColorSmoothing::SmoothingCfg::SmoothingCfg(bool pause, int64_t settlingTime, int updateInterval, SmoothingType type, double outputRate, double interpolationRate, unsigned outputDelay, bool dithering, double decay) :
LinearColorSmoothing::SmoothingCfg::SmoothingCfg(bool pause, int64_t settlingTime, int updateInterval, SmoothingType type, double interpolationRate, unsigned outputDelay, bool dithering, double decay) :
_pause(pause),
_settlingTime(settlingTime),
_updateInterval(updateInterval),
_type(type),
_outputRate(outputRate),
_interpolationRate(interpolationRate),
_outputDelay(outputDelay),
_dithering(dithering),

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@ -50,20 +50,6 @@
}
}
},
"outputRate": {
"type": "number",
"title": "edt_conf_smooth_outputRate_title",
"minimum": 1.0,
"maximum": 1000.0,
"default": 1.0,
"append": "edt_append_hz",
"propertyOrder": 6,
"options": {
"dependencies": {
"type": "decay"
}
}
},
"decay": {
"type": "number",
"title": "edt_conf_smooth_decay_title",

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@ -119,7 +119,7 @@ void LedDeviceAdalight::prepareHeader()
qToBigEndian<quint16>(static_cast<quint16>(totalLedCount), &_ledBuffer[3]);
_ledBuffer[5] = _ledBuffer[3] ^ _ledBuffer[4] ^ 0x55; // Checksum
Debug( _log, "Adalight header for %d leds: %c%c%c 0x%02x 0x%02x 0x%02x", _ledCount,
Debug( _log, "Adalight header for %d leds (size: %d): %c%c%c 0x%02x 0x%02x 0x%02x", _ledCount, _ledBuffer.size(),
_ledBuffer[0], _ledBuffer[1], _ledBuffer[2], _ledBuffer[3], _ledBuffer[4], _ledBuffer[5] );
}
@ -179,6 +179,31 @@ int LedDeviceAdalight::write(const std::vector<ColorRgb> & ledValues)
return rc;
}
void LedDeviceAdalight::readFeedback()
{
if (_streamProtocol == Adalight::AWA)
{
bool continuousLines {true};
while ( _rs232Port.canReadLine() )
{
QByteArray record = _rs232Port.readLine();
if (record.startsWith("FPS:"))
{
if (continuousLines)
{
continuousLines = false;
}
Debug(_log, "Statistics %s", record.trimmed().constData());
}
else
{
std::cout << record.toStdString() << std::flush;
continuousLines = true;
}
}
}
}
void LedDeviceAdalight::whiteChannelExtension(uint8_t*& writer)
{
if (_streamProtocol == Adalight::AWA && _white_channel_calibration)

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@ -37,6 +37,14 @@ public:
/// @return LedDevice constructed
static LedDevice* construct(const QJsonObject &deviceConfig);
private slots:
///
/// @brief Handle feedback provided by the device
/// Allows to show statistics and error for the "Awa" protocol, if configured in the ESP-sketch
///
void readFeedback() override;
private:
///

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@ -18,7 +18,7 @@ namespace {
constexpr std::chrono::milliseconds WRITE_TIMEOUT{ 1000 }; // device write timeout in ms
constexpr std::chrono::milliseconds OPEN_TIMEOUT{ 5000 }; // device open timeout in ms
const int MAX_WRITE_TIMEOUTS = 5; // Maximum number of allowed timeouts
const int NUM_POWEROFF_WRITE_BLACK = 2; // Number of write "BLACK" during powering off
const int NUM_POWEROFF_WRITE_BLACK = 5; // Number of write "BLACK" during powering off
constexpr std::chrono::milliseconds DEFAULT_IDENTIFY_TIME{ 500 };
@ -86,6 +86,8 @@ int ProviderRs232::open()
// open device physically
if ( tryOpen(_delayAfterConnect_ms) )
{
connect(&_rs232Port, &QSerialPort::readyRead, this, &ProviderRs232::readFeedback);
// Everything is OK, device is ready
_isDeviceReady = true;
retval = 0;
@ -106,6 +108,9 @@ int ProviderRs232::close()
{
Debug(_log,"Flush was successful");
}
disconnect(&_rs232Port, &QSerialPort::readyRead, this, &ProviderRs232::readFeedback);
Debug(_log,"Close UART: %s", QSTRING_CSTR(_deviceName) );
_rs232Port.close();
// Everything is OK -> device is closed
@ -261,6 +266,23 @@ int ProviderRs232::writeBytes(const qint64 size, const uint8_t *data)
return rc;
}
void ProviderRs232::readFeedback()
{
QByteArray readData = _rs232Port.readAll();
if (!readData.isEmpty())
{
//Output as received
std::cout << readData.toStdString();
//Output as Hex
//#if (QT_VERSION >= QT_VERSION_CHECK(5, 9, 0))
// std::cout << readData.toHex(':').toStdString();
//#else
// std::cout << readData.toHex().toStdString();
//#endif
}
}
QString ProviderRs232::discoverFirst()
{
// take first available USB serial port - currently no probing!

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@ -123,6 +123,11 @@ protected slots:
///
void setInError( const QString& errorMsg) override;
///
/// @brief Handle any feedback provided by the device
///
virtual void readFeedback();
private:
///