Implemented the multi-color transform including in hyperion-remote

Former-commit-id: ebdb0688b47d51bd6dccf6dafd580d3ce9ed80a7
This commit is contained in:
T. van der Zwan 2013-11-22 10:48:10 +00:00
parent 958feabf5b
commit 826b964bf6
12 changed files with 357 additions and 330 deletions

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@ -2,7 +2,7 @@
// Generated by: HyperCon (The Hyperion deamon configuration file builder
{
/// Device configuration contains the following fields:
/// Device configuration contains the following fields:
/// * 'name' : The user friendly name of the device (only used for display purposes)
/// * 'type' : The type of the device or leds (known types for now are 'ws2801', 'ldp8806',
/// 'lpd6803', 'sedu', 'adalight', 'lightpack', 'test' and 'none')
@ -34,32 +34,38 @@
/// - 'updateFrequency' The update frequency of the leds in Hz
"color" :
{
"hsv" :
{
"saturationGain" : 1.0000,
"valueGain" : 1.5000
},
"red" :
{
"threshold" : 0.1000,
"gamma" : 2.0000,
"blacklevel" : 0.0000,
"whitelevel" : 0.8000
},
"green" :
{
"threshold" : 0.1000,
"gamma" : 2.0000,
"blacklevel" : 0.0000,
"whitelevel" : 1.0000
},
"blue" :
{
"threshold" : 0.1000,
"gamma" : 2.0000,
"blacklevel" : 0.0000,
"whitelevel" : 1.0000
},
"transforms" :
[
{
"id" : "default",
"hsv" :
{
"saturationGain" : 1.0000,
"valueGain" : 1.5000
},
"red" :
{
"threshold" : 0.1000,
"gamma" : 2.0000,
"blacklevel" : 0.0000,
"whitelevel" : 0.8000
},
"green" :
{
"threshold" : 0.1000,
"gamma" : 2.0000,
"blacklevel" : 0.0000,
"whitelevel" : 1.0000
},
"blue" :
{
"threshold" : 0.1000,
"gamma" : 2.0000,
"blacklevel" : 0.0000,
"whitelevel" : 1.0000
},
}
],
"smoothing" :
{
"type" : "none",
@ -68,16 +74,16 @@
}
},
/// The configuration for each individual led. This contains the specification of the area
/// averaged of an input image for each led to determine its color. Each item in the list
/// The configuration for each individual led. This contains the specification of the area
/// averaged of an input image for each led to determine its color. Each item in the list
/// contains the following fields:
/// * index: The index of the led. This determines its location in the string of leds; zero
/// * index: The index of the led. This determines its location in the string of leds; zero
/// being the first led.
/// * hscan: The fractional part of the image along the horizontal used for the averaging
/// * hscan: The fractional part of the image along the horizontal used for the averaging
/// (minimum and maximum inclusive)
/// * vscan: The fractional part of the image along the vertical used for the averaging
/// * vscan: The fractional part of the image along the vertical used for the averaging
/// (minimum and maximum inclusive)
"leds" :
"leds" :
[
{
"index" : 0,
@ -331,15 +337,15 @@
}
],
/// The black border configuration, contains the following items:
/// The black border configuration, contains the following items:
/// * enable : true if the detector should be activated
"blackborderdetector" :
{
"enable" : true
},
/// The boot-sequence configuration, contains the following items:
/// * type : The type of the boot-sequence ('rainbow', 'knight_rider', 'none')
/// The boot-sequence configuration, contains the following items:
/// * type : The type of the boot-sequence ('rainbow', 'knight_rider', 'none')
/// * duration_ms : The length of the boot-sequence [ms]
"bootsequence" :
{
@ -347,7 +353,7 @@
"duration_ms" : 3000
},
/// The configuration for the frame-grabber, contains the following items:
/// The configuration for the frame-grabber, contains the following items:
/// * width : The width of the grabbed frames [pixels]
/// * height : The height of the grabbed frames [pixels]
/// * frequency_Hz : The frequency of the frame grab [Hz]
@ -358,7 +364,7 @@
"frequency_Hz" : 10.0
},
/// The configuration of the XBMC connection used to enable and disable the frame-grabber. Contains the following fields:
/// The configuration of the XBMC connection used to enable and disable the frame-grabber. Contains the following fields:
/// * xbmcAddress : The IP address of the XBMC-host
/// * xbmcTcpPort : The TCP-port of the XBMC-server
/// * grabVideo : Flag indicating that the frame-grabber is on(true) during video playback

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@ -0,0 +1,26 @@
#pragma once
// STL includes
#include <string>
// Utils includes
#include <utils/RgbChannelTransform.h>
#include <utils/HsvTransform.h>
class ColorTransform
{
public:
/// Unique identifier for this color transform
std::string _id;
/// The RED-Channel (RGB) transform
RgbChannelTransform _rgbRedTransform;
/// The GREEN-Channel (RGB) transform
RgbChannelTransform _rgbGreenTransform;
/// The BLUE-Channel (RGB) transform
RgbChannelTransform _rgbBlueTransform;
/// The HSV Transform for applying Saturation and Value transforms
HsvTransform _hsvTransform;
};

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@ -16,6 +16,7 @@
#include <hyperion/PriorityMuxer.h>
// Forward class declaration
class ColorTransform;
class HsvTransform;
class RgbChannelTransform;
class MultiColorTransform;
@ -89,15 +90,16 @@ public:
void setColors(int priority, const std::vector<ColorRgb> &ledColors, const int timeout_ms);
///
/// Sets/Updates a part of the color transformation.
/// Returns the list with unique transform identifiers
/// @return The list with transform identifiers
///
/// @param[in] transform The type of transform to configure
/// @param[in] color The color channel to which the transform applies (only applicable for
/// Transform::THRESHOLD, Transform::GAMMA, Transform::BLACKLEVEL,
/// Transform::WHITELEVEL)
/// @param[in] value The new value for the given transform
const std::vector<std::string> & getTransformIds() const;
///
void setTransform(Transform transform, RgbChannel color, double value);
/// Returns the ColorTransform with the given identifier
/// @return The transform with the given identifier (or nullptr if the identifier does not exist)
///
ColorTransform * getTransform(const std::string& id);
///
/// Clears the given priority channel. This will switch the led-colors to the colors of the next
@ -112,18 +114,6 @@ public:
///
void clearall();
///
/// Returns the value of a specific color transform
///
/// @param[in] transform The type of transform
/// @param[in] color The color channel to which the transform applies (only applicable for
/// Transform::THRESHOLD, Transform::GAMMA, Transform::BLACKLEVEL,
/// Transform::WHITELEVEL)
///
/// @return The value of the specified color transform
///
double getTransform(Transform transform, RgbChannel color) const;
///
/// Returns a list of active priorities
///
@ -147,8 +137,9 @@ public:
static LedString createLedString(const Json::Value & ledsConfig);
static MultiColorTransform * createLedColorsTransform(const unsigned ledCnt, const Json::Value & colorTransformConfig);
static ColorTransform * createColorTransform(const Json::Value & transformConfig);
static HsvTransform * createHsvTransform(const Json::Value & hsvConfig);
static RgbChannelTransform * createColorTransform(const Json::Value& colorConfig);
static RgbChannelTransform * createRgbChannelTransform(const Json::Value& colorConfig);
static LedDevice * createColorSmoothing(const Json::Value & smoothingConfig, LedDevice * ledDevice);

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@ -77,6 +77,7 @@ add_library(hyperion
${Hyperion_SOURCES}
${Hyperion_RESOURCES_RCC}
)
message("{QT_LIBRARIES} = ${QT_LIBRARIES}")
target_link_libraries(hyperion
hyperion-utils

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@ -4,6 +4,9 @@
// QT includes
#include <QDateTime>
#include <QRegExp>
#include <QString>
#include <QStringList>
// JsonSchema include
#include <utils/jsonschema/JsonFactory.h>
@ -153,29 +156,94 @@ Hyperion::ColorOrder Hyperion::createColorOrder(const Json::Value &deviceConfig)
return ORDER_RGB;
}
ColorTransform * Hyperion::createColorTransform(const Json::Value & transformConfig)
{
const std::string id = transformConfig.get("id", "default").asString();
RgbChannelTransform * redTransform = createRgbChannelTransform(transformConfig["red"]);
RgbChannelTransform * greenTransform = createRgbChannelTransform(transformConfig["green"]);
RgbChannelTransform * blueTransform = createRgbChannelTransform(transformConfig["blue"]);
HsvTransform * hsvTransform = createHsvTransform(transformConfig["hsv"]);
ColorTransform * transform = new ColorTransform();
transform->_id = id;
transform->_rgbRedTransform = *redTransform;
transform->_rgbGreenTransform = *greenTransform;
transform->_rgbBlueTransform = *blueTransform;
transform->_hsvTransform = *hsvTransform;
// Cleanup the allocated individual transforms
delete redTransform;
delete greenTransform;
delete blueTransform;
delete hsvTransform;
return transform;
}
MultiColorTransform * Hyperion::createLedColorsTransform(const unsigned ledCnt, const Json::Value & colorConfig)
{
MultiColorTransform * transform = new MultiColorTransform();
if (!colorConfig.isArray())
// Create the result, the transforms are added to this
MultiColorTransform * transform = new MultiColorTransform(ledCnt);
const Json::Value transformConfig = colorConfig.get("transform", Json::nullValue);
if (transformConfig.isNull())
{
// Old style color transformation config (just one for all leds)
const std::string id = "default";
RgbChannelTransform * redTransform = createColorTransform(colorConfig["red"]);
RgbChannelTransform * greenTransform = createColorTransform(colorConfig["green"]);
RgbChannelTransform * blueTransform = createColorTransform(colorConfig["blue"]);
HsvTransform * hsvTransform = createHsvTransform(colorConfig["hsv"]);
transform->addTransform(id, *redTransform, *greenTransform, *blueTransform, *hsvTransform);
transform->setTransformForLed(id, 0, ledCnt-1);
delete redTransform;
delete greenTransform;
delete blueTransform;
ColorTransform * colorTransform = createColorTransform(colorConfig);
transform->addTransform(colorTransform);
transform->setTransformForLed(colorTransform->_id, 0, ledCnt-1);
}
else if (!transformConfig.isArray())
{
ColorTransform * colorTransform = createColorTransform(transformConfig);
transform->addTransform(colorTransform);
transform->setTransformForLed(colorTransform->_id, 0, ledCnt-1);
}
else
{
const QRegExp overallExp("([0-9]+(\\-[0-9]+)?)(,[ ]*([0-9]+(\\-[0-9]+)?))*");
for (Json::UInt i = 0; i < transformConfig.size(); ++i)
{
const Json::Value & config = transformConfig[i];
ColorTransform * colorTransform = createColorTransform(config);
transform->addTransform(colorTransform);
const QString ledIndicesStr = config.get("leds", "").asCString();
if (!overallExp.exactMatch(ledIndicesStr))
{
std::cerr << "Given led indices " << i << " not correct format: " << ledIndicesStr.toStdString() << std::endl;
continue;
}
std::cout << "ColorTransform '" << colorTransform->_id << "' => [";
const QStringList ledIndexList = ledIndicesStr.split(",");
for (int i=0; i<ledIndexList.size(); ++i) {
if (i > 0)
{
std::cout << ", ";
}
if (ledIndexList[i].contains("-"))
{
QStringList ledIndices = ledIndexList[i].split("-");
int startInd = ledIndices[0].toInt();
int endInd = ledIndices[1].toInt();
transform->setTransformForLed(colorTransform->_id, startInd, endInd);
std::cout << startInd << "-" << endInd;
}
else
{
int index = ledIndexList[i].toInt();
transform->setTransformForLed(colorTransform->_id, index, index);
std::cout << index;
}
}
std::cout << "]" << std::endl;
}
}
return transform;
}
@ -188,7 +256,7 @@ HsvTransform * Hyperion::createHsvTransform(const Json::Value & hsvConfig)
return new HsvTransform(saturationGain, valueGain);
}
RgbChannelTransform* Hyperion::createColorTransform(const Json::Value& colorConfig)
RgbChannelTransform* Hyperion::createRgbChannelTransform(const Json::Value& colorConfig)
{
const double threshold = colorConfig.get("threshold", 0.0).asDouble();
const double gamma = colorConfig.get("gamma", 1.0).asDouble();
@ -276,6 +344,10 @@ Hyperion::Hyperion(const Json::Value &jsonConfig) :
_device(createDevice(jsonConfig["device"])),
_timer()
{
if (!_raw2ledTransform->verifyTransforms())
{
throw std::runtime_error("Color transformation incorrectly set");
}
// initialize the image processor factory
ImageProcessorFactory::getInstance().init(_ledString, jsonConfig["blackborderdetector"].get("enable", true).asBool());
@ -336,59 +408,14 @@ void Hyperion::setColors(int priority, const std::vector<ColorRgb>& ledColors, c
}
}
void Hyperion::setTransform(Hyperion::Transform transform, Hyperion::RgbChannel color, double value)
const std::vector<std::string> & Hyperion::getTransformIds() const
{
ColorTransform* colorTransform = _raw2ledTransform->getTransform("default");
assert(colorTransform != nullptr);
return _raw2ledTransform->getTransformIds();
}
// select the transform of the requested color
RgbChannelTransform * t = nullptr;
switch (color)
{
case RED:
t = &(colorTransform->_rgbRedTransform);
break;
case GREEN:
t = &(colorTransform->_rgbGreenTransform);
break;
case BLUE:
t = &(colorTransform->_rgbBlueTransform);
break;
default:
break;
}
// set transform value
switch (transform)
{
case SATURATION_GAIN:
colorTransform->_hsvTransform.setSaturationGain(value);
break;
case VALUE_GAIN:
colorTransform->_hsvTransform.setValueGain(value);
break;
case THRESHOLD:
assert (t != nullptr);
t->setThreshold(value);
break;
case GAMMA:
assert (t != nullptr);
t->setGamma(value);
break;
case BLACKLEVEL:
assert (t != nullptr);
t->setBlacklevel(value);
break;
case WHITELEVEL:
assert (t != nullptr);
t->setWhitelevel(value);
break;
default:
assert(false);
}
// update the led output
update();
ColorTransform * Hyperion::getTransform(const std::string& id)
{
return _raw2ledTransform->getTransform(id);
}
void Hyperion::clear(int priority)
@ -413,54 +440,6 @@ void Hyperion::clearall()
update();
}
double Hyperion::getTransform(Hyperion::Transform transform, Hyperion::RgbChannel color) const
{
ColorTransform * colorTransform = _raw2ledTransform->getTransform("default");
assert(colorTransform != nullptr);
// select the transform of the requested color
RgbChannelTransform * t = nullptr;
switch (color)
{
case RED:
t = &(colorTransform->_rgbRedTransform);
break;
case GREEN:
t = &(colorTransform->_rgbGreenTransform);
break;
case BLUE:
t = &(colorTransform->_rgbBlueTransform);
break;
default:
break;
}
// set transform value
switch (transform)
{
case SATURATION_GAIN:
return colorTransform->_hsvTransform.getSaturationGain();
case VALUE_GAIN:
return colorTransform->_hsvTransform.getValueGain();
case THRESHOLD:
assert (t != nullptr);
return t->getThreshold();
case GAMMA:
assert (t != nullptr);
return t->getGamma();
case BLACKLEVEL:
assert (t != nullptr);
return t->getBlacklevel();
case WHITELEVEL:
assert (t != nullptr);
return t->getWhitelevel();
default:
assert(false);
}
return 999.0;
}
QList<int> Hyperion::getActivePriorities() const
{
return _muxer.getPriorities();

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@ -5,7 +5,8 @@
// Hyperion includes
#include "MultiColorTransform.h"
MultiColorTransform::MultiColorTransform()
MultiColorTransform::MultiColorTransform(const unsigned ledCnt) :
_ledTransforms(ledCnt, nullptr)
{
}
@ -18,33 +19,16 @@ MultiColorTransform::~MultiColorTransform()
}
}
void MultiColorTransform::addTransform(const std::string & id,
const RgbChannelTransform & redTransform,
const RgbChannelTransform & greenTransform,
const RgbChannelTransform & blueTransform,
const HsvTransform & hsvTransform)
void MultiColorTransform::addTransform(ColorTransform * transform)
{
ColorTransform * transform = new ColorTransform();
transform->_id = id;
transform->_rgbRedTransform = redTransform;
transform->_rgbGreenTransform = greenTransform;
transform->_rgbBlueTransform = blueTransform;
transform->_hsvTransform = hsvTransform;
_transformIds.push_back(transform->_id);
_transform.push_back(transform);
}
void MultiColorTransform::setTransformForLed(const std::string& id, const unsigned startLed, const unsigned endLed)
{
assert(startLed <= endLed);
// Make sure that there are at least enough led transforms to match the given indices
if (_ledTransforms.size() < endLed+1)
{
_ledTransforms.resize(endLed+1, nullptr);
}
assert(endLed < _ledTransforms.size());
// Get the identified transform (don't care if is nullptr)
ColorTransform * transform = getTransform(id);
@ -54,15 +38,23 @@ void MultiColorTransform::setTransformForLed(const std::string& id, const unsign
}
}
std::vector<std::string> MultiColorTransform::getTransformIds()
bool MultiColorTransform::verifyTransforms() const
{
// Create the list on the fly
std::vector<std::string> transformIds;
for (ColorTransform* transform : _transform)
bool allLedsSet = true;
for (unsigned iLed=0; iLed<_ledTransforms.size(); ++iLed)
{
transformIds.push_back(transform->_id);
if (_ledTransforms[iLed] == nullptr)
{
std::cerr << "No transform set for " << iLed << std::endl;
allLedsSet = false;
}
}
return transformIds;
return allLedsSet;
}
const std::vector<std::string> & MultiColorTransform::getTransformIds()
{
return _transformIds;
}
ColorTransform* MultiColorTransform::getTransform(const std::string& id)
@ -85,7 +77,7 @@ std::vector<ColorRgb> MultiColorTransform::applyTransform(const std::vector<Colo
// Create a copy, as we will do the rest of the transformation in place
std::vector<ColorRgb> ledColors(rawColors);
const size_t itCnt = std::min(_transform.size(), rawColors.size());
const size_t itCnt = std::min(_ledTransforms.size(), rawColors.size());
for (size_t i=0; i<itCnt; ++i)
{
ColorTransform* transform = _ledTransforms[i];

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@ -6,21 +6,8 @@
// Utils includes
#include <utils/ColorRgb.h>
#include <utils/RgbChannelTransform.h>
#include <utils/HsvTransform.h>
struct ColorTransform
{
std::string _id;
/// The RED-Channel (RGB) transform
RgbChannelTransform _rgbRedTransform;
/// The GREEN-Channel (RGB) transform
RgbChannelTransform _rgbGreenTransform;
/// The BLUE-Channel (RGB) transform
RgbChannelTransform _rgbBlueTransform;
/// The HSV Transform for applying Saturation and Value transforms
HsvTransform _hsvTransform;
};
// Hyperion includes
#include <hyperion/ColorTransform.h>
///
/// The LedColorTransform is responsible for performing color transformation from 'raw' colors
@ -29,22 +16,25 @@ struct ColorTransform
class MultiColorTransform
{
public:
MultiColorTransform();
MultiColorTransform(const unsigned ledCnt);
~MultiColorTransform();
void addTransform(const std::string & id,
const RgbChannelTransform & redTransform,
const RgbChannelTransform & greenTransform,
const RgbChannelTransform & blueTransform,
const HsvTransform & hsvTransform);
/**
* Adds a new ColorTransform to this MultiColorTransform
*
* @param transform The new ColorTransform (ownership is transfered)
*/
void addTransform(ColorTransform * transform);
void setTransformForLed(const std::string& id, const unsigned startLed, const unsigned endLed);
bool verifyTransforms() const;
///
/// Returns the identifier of all the unique ColorTransform
///
/// @return The list with unique id's of the ColorTransforms
std::vector<std::string> getTransformIds();
const std::vector<std::string> & getTransformIds();
///
/// Returns the pointer to the ColorTransform with the given id
@ -65,6 +55,9 @@ public:
std::vector<ColorRgb> applyTransform(const std::vector<ColorRgb>& rawColors);
private:
/// List with transform ids
std::vector<std::string> _transformIds;
/// List with unique ColorTransforms
std::vector<ColorTransform*> _transform;

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@ -12,9 +12,10 @@
#include <QDateTime>
// hyperion util includes
#include "hyperion/ImageProcessorFactory.h"
#include "hyperion/ImageProcessor.h"
#include "utils/ColorRgb.h"
#include <hyperion/ImageProcessorFactory.h>
#include <hyperion/ImageProcessor.h>
#include <hyperion/ColorTransform.h>
#include <utils/ColorRgb.h>
// project includes
#include "JsonClientConnection.h"
@ -173,25 +174,39 @@ void JsonClientConnection::handleServerInfoCommand(const Json::Value &message)
}
// collect transform information
Json::Value & transform = info["transform"];
transform["saturationGain"] = _hyperion->getTransform(Hyperion::SATURATION_GAIN, Hyperion::INVALID);
transform["valueGain"] = _hyperion->getTransform(Hyperion::VALUE_GAIN, Hyperion::INVALID);
Json::Value & threshold = transform["threshold"];
threshold.append(_hyperion->getTransform(Hyperion::THRESHOLD, Hyperion::RED));
threshold.append(_hyperion->getTransform(Hyperion::THRESHOLD, Hyperion::GREEN));
threshold.append(_hyperion->getTransform(Hyperion::THRESHOLD, Hyperion::BLUE));
Json::Value & gamma = transform["gamma"];
gamma.append(_hyperion->getTransform(Hyperion::GAMMA, Hyperion::RED));
gamma.append(_hyperion->getTransform(Hyperion::GAMMA, Hyperion::GREEN));
gamma.append(_hyperion->getTransform(Hyperion::GAMMA, Hyperion::BLUE));
Json::Value & blacklevel = transform["blacklevel"];
blacklevel.append(_hyperion->getTransform(Hyperion::BLACKLEVEL, Hyperion::RED));
blacklevel.append(_hyperion->getTransform(Hyperion::BLACKLEVEL, Hyperion::GREEN));
blacklevel.append(_hyperion->getTransform(Hyperion::BLACKLEVEL, Hyperion::BLUE));
Json::Value & whitelevel = transform["whitelevel"];
whitelevel.append(_hyperion->getTransform(Hyperion::WHITELEVEL, Hyperion::RED));
whitelevel.append(_hyperion->getTransform(Hyperion::WHITELEVEL, Hyperion::GREEN));
whitelevel.append(_hyperion->getTransform(Hyperion::WHITELEVEL, Hyperion::BLUE));
Json::Value & transformArray = info["transform"];
for (const std::string& transformId : _hyperion->getTransformIds())
{
const ColorTransform * colorTransform = _hyperion->getTransform(transformId);
if (colorTransform == nullptr)
{
std::cerr << "Incorrect color transform id: " << transformId << std::endl;
continue;
}
Json::Value & transform = transformArray.append(Json::Value());
transform["id"] = transformId;
transform["saturationGain"] = colorTransform->_hsvTransform.getSaturationGain();
transform["valueGain"] = colorTransform->_hsvTransform.getValueGain();
Json::Value & threshold = transform["threshold"];
threshold.append(colorTransform->_rgbRedTransform.getThreshold());
threshold.append(colorTransform->_rgbGreenTransform.getThreshold());
threshold.append(colorTransform->_rgbBlueTransform.getThreshold());
Json::Value & gamma = transform["gamma"];
gamma.append(colorTransform->_rgbRedTransform.getGamma());
gamma.append(colorTransform->_rgbGreenTransform.getGamma());
gamma.append(colorTransform->_rgbBlueTransform.getGamma());
Json::Value & blacklevel = transform["blacklevel"];
blacklevel.append(colorTransform->_rgbRedTransform.getBlacklevel());
blacklevel.append(colorTransform->_rgbGreenTransform.getBlacklevel());
blacklevel.append(colorTransform->_rgbBlueTransform.getBlacklevel());
Json::Value & whitelevel = transform["whitelevel"];
whitelevel.append(colorTransform->_rgbRedTransform.getWhitelevel());
whitelevel.append(colorTransform->_rgbGreenTransform.getWhitelevel());
whitelevel.append(colorTransform->_rgbBlueTransform.getWhitelevel());
}
// send the result
sendMessage(result);
@ -222,46 +237,54 @@ void JsonClientConnection::handleTransformCommand(const Json::Value &message)
{
const Json::Value & transform = message["transform"];
const std::string transformId = transform.get("id", _hyperion->getTransformIds().front()).asString();
ColorTransform * colorTransform = _hyperion->getTransform(transformId);
if (colorTransform == nullptr)
{
//sendErrorReply(std::string("Incorrect transform identifier: ") + transformId);
return;
}
if (transform.isMember("saturationGain"))
{
_hyperion->setTransform(Hyperion::SATURATION_GAIN, Hyperion::INVALID, transform["saturationGain"].asDouble());
colorTransform->_hsvTransform.setSaturationGain(transform["saturationGain"].asDouble());
}
if (transform.isMember("valueGain"))
{
_hyperion->setTransform(Hyperion::VALUE_GAIN, Hyperion::INVALID, transform["valueGain"].asDouble());
colorTransform->_hsvTransform.setValueGain(transform["valueGain"].asDouble());
}
if (transform.isMember("threshold"))
{
const Json::Value & threshold = transform["threshold"];
_hyperion->setTransform(Hyperion::THRESHOLD, Hyperion::RED, threshold[0u].asDouble());
_hyperion->setTransform(Hyperion::THRESHOLD, Hyperion::GREEN, threshold[1u].asDouble());
_hyperion->setTransform(Hyperion::THRESHOLD, Hyperion::BLUE, threshold[2u].asDouble());
const Json::Value & values = transform["threshold"];
colorTransform->_rgbRedTransform .setThreshold(values[0u].asDouble());
colorTransform->_rgbGreenTransform.setThreshold(values[1u].asDouble());
colorTransform->_rgbBlueTransform .setThreshold(values[2u].asDouble());
}
if (transform.isMember("gamma"))
{
const Json::Value & threshold = transform["gamma"];
_hyperion->setTransform(Hyperion::GAMMA, Hyperion::RED, threshold[0u].asDouble());
_hyperion->setTransform(Hyperion::GAMMA, Hyperion::GREEN, threshold[1u].asDouble());
_hyperion->setTransform(Hyperion::GAMMA, Hyperion::BLUE, threshold[2u].asDouble());
const Json::Value & values = transform["gamma"];
colorTransform->_rgbRedTransform .setGamma(values[0u].asDouble());
colorTransform->_rgbGreenTransform.setGamma(values[1u].asDouble());
colorTransform->_rgbBlueTransform .setGamma(values[2u].asDouble());
}
if (transform.isMember("blacklevel"))
{
const Json::Value & threshold = transform["blacklevel"];
_hyperion->setTransform(Hyperion::BLACKLEVEL, Hyperion::RED, threshold[0u].asDouble());
_hyperion->setTransform(Hyperion::BLACKLEVEL, Hyperion::GREEN, threshold[1u].asDouble());
_hyperion->setTransform(Hyperion::BLACKLEVEL, Hyperion::BLUE, threshold[2u].asDouble());
const Json::Value & values = transform["blacklevel"];
colorTransform->_rgbRedTransform .setBlacklevel(values[0u].asDouble());
colorTransform->_rgbGreenTransform.setBlacklevel(values[1u].asDouble());
colorTransform->_rgbBlueTransform .setBlacklevel(values[2u].asDouble());
}
if (transform.isMember("whitelevel"))
{
const Json::Value & threshold = transform["whitelevel"];
_hyperion->setTransform(Hyperion::WHITELEVEL, Hyperion::RED, threshold[0u].asDouble());
_hyperion->setTransform(Hyperion::WHITELEVEL, Hyperion::GREEN, threshold[1u].asDouble());
_hyperion->setTransform(Hyperion::WHITELEVEL, Hyperion::BLUE, threshold[2u].asDouble());
const Json::Value & values = transform["whitelevel"];
colorTransform->_rgbRedTransform .setWhitelevel(values[0u].asDouble());
colorTransform->_rgbGreenTransform.setWhitelevel(values[1u].asDouble());
colorTransform->_rgbBlueTransform .setWhitelevel(values[2u].asDouble());
}
sendSuccessReply();

View File

@ -1,68 +1,72 @@
{
"type":"object",
"required":true,
"properties":{
"command": {
"type" : "string",
"required" : true,
"enum" : ["transform"]
},
"transform": {
"type": "object",
"required": true,
"properties": {
"saturationGain" : {
"type" : "double",
"required" : false,
"minimum" : 0.0
},
"valueGain" : {
"type" : "double",
"required" : false,
"minimum" : 0.0
},
"threshold": {
"type": "array",
"required": false,
"items" : {
"type": "double",
"minimum": 0.0,
"maximum": 1.0
},
"minItems": 3,
"maxItems": 3
},
"gamma": {
"type": "array",
"required": false,
"items" : {
"type": "double",
"minimum": 0.0
},
"minItems": 3,
"maxItems": 3
},
"blacklevel": {
"type": "array",
"required": false,
"items" : {
"type": "double"
},
"minItems": 3,
"maxItems": 3
},
"whitelevel": {
"type": "array",
"required": false,
"items" : {
"type": "double"
},
"minItems": 3,
"maxItems": 3
}
},
"additionalProperties": false
}
},
"additionalProperties": false
"type":"object",
"required":true,
"properties":{
"command": {
"type" : "string",
"required" : true,
"enum" : ["transform"]
},
"transform": {
"type": "object",
"required": true,
"properties": {
"id" : {
"type" : "string",
"required" : false
},
"saturationGain" : {
"type" : "double",
"required" : false,
"minimum" : 0.0
},
"valueGain" : {
"type" : "double",
"required" : false,
"minimum" : 0.0
},
"threshold": {
"type": "array",
"required": false,
"items" : {
"type": "double",
"minimum": 0.0,
"maximum": 1.0
},
"minItems": 3,
"maxItems": 3
},
"gamma": {
"type": "array",
"required": false,
"items" : {
"type": "double",
"minimum": 0.0
},
"minItems": 3,
"maxItems": 3
},
"blacklevel": {
"type": "array",
"required": false,
"items" : {
"type": "double"
},
"minItems": 3,
"maxItems": 3
},
"whitelevel": {
"type": "array",
"required": false,
"items" : {
"type": "double"
},
"minItems": 3,
"maxItems": 3
}
},
"additionalProperties": false
}
},
"additionalProperties": false
}

View File

@ -160,7 +160,7 @@ void JsonConnection::clearAll()
parseReply(reply);
}
void JsonConnection::setTransform(double * saturation, double * value, ColorTransformValues *threshold, ColorTransformValues *gamma, ColorTransformValues *blacklevel, ColorTransformValues *whitelevel)
void JsonConnection::setTransform(std::string * transformId, double * saturation, double * value, ColorTransformValues *threshold, ColorTransformValues *gamma, ColorTransformValues *blacklevel, ColorTransformValues *whitelevel)
{
std::cout << "Set color transforms" << std::endl;
@ -169,6 +169,11 @@ void JsonConnection::setTransform(double * saturation, double * value, ColorTran
command["command"] = "transform";
Json::Value & transform = command["transform"];
if (transformId != nullptr)
{
transform["id"] = *transformId;
}
if (saturation != nullptr)
{
transform["saturationGain"] = *saturation;

View File

@ -76,6 +76,7 @@ public:
///
/// @note Note that providing a NULL will leave the settings on the server unchanged
///
/// @param transformId The identifier of the transform to set
/// @param saturation The HSV saturation gain
/// @param value The HSV value gain
/// @param threshold The threshold
@ -84,6 +85,7 @@ public:
/// @param whitelevel The whitelevel
///
void setTransform(
std::string * transformId,
double * saturation,
double * value,
ColorTransformValues * threshold,

View File

@ -45,6 +45,7 @@ int main(int argc, char * argv[])
SwitchParameter<> & argServerInfo = parameters.add<SwitchParameter<> >('l', "list" , "List server info");
SwitchParameter<> & argClear = parameters.add<SwitchParameter<> >('x', "clear" , "Clear data for the priority channel provided by the -p option");
SwitchParameter<> & argClearAll = parameters.add<SwitchParameter<> >(0x0, "clearall" , "Clear data for all active priority channels");
StringParameter & argId = parameters.add<StringParameter> ('q', "qualifier" , "Identifier(qualifier) of the transform to set");
DoubleParameter & argSaturation = parameters.add<DoubleParameter> ('s', "saturation", "Set the HSV saturation gain of the leds");
DoubleParameter & argValue = parameters.add<DoubleParameter> ('v', "value" , "Set the HSV value gain of the leds");
TransformParameter & argGamma = parameters.add<TransformParameter>('g', "gamma" , "Set the gamma of the leds (requires 3 space seperated values)");
@ -83,6 +84,7 @@ int main(int argc, char * argv[])
std::cerr << " " << argClear.usageLine() << std::endl;
std::cerr << " " << argClearAll.usageLine() << std::endl;
std::cerr << "or one or more of the available color transformations:" << std::endl;
std::cerr << " " << argId.usageLine() << std::endl;
std::cerr << " " << argSaturation.usageLine() << std::endl;
std::cerr << " " << argValue.usageLine() << std::endl;
std::cerr << " " << argThreshold.usageLine() << std::endl;
@ -119,9 +121,11 @@ int main(int argc, char * argv[])
}
else if (colorTransform)
{
std::string transId;
double saturation, value;
ColorTransformValues threshold, gamma, blacklevel, whitelevel;
if (argId.isSet()) transId = argId.getValue();
if (argSaturation.isSet()) saturation = argSaturation.getValue();
if (argValue.isSet()) value = argValue.getValue();
if (argThreshold.isSet()) threshold = argThreshold.getValue();
@ -130,6 +134,7 @@ int main(int argc, char * argv[])
if (argWhitelevel.isSet()) whitelevel = argWhitelevel.getValue();
connection.setTransform(
argId.isSet() ? &transId : nullptr,
argSaturation.isSet() ? &saturation : nullptr,
argValue.isSet() ? &value : nullptr,
argThreshold.isSet() ? &threshold : nullptr,