Added multi colortransform (not working yet)

Former-commit-id: 691a0a9d83e57e00d305cf18718cab05156c2dce
This commit is contained in:
T. van der Zwan 2013-11-20 08:25:49 +00:00
parent c8ce23e652
commit ba2939f9ec
5 changed files with 241 additions and 52 deletions

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@ -18,6 +18,7 @@
// Forward class declaration
class HsvTransform;
class RgbChannelTransform;
class MultiColorTransform;
///
/// The main class of Hyperion. This gives other 'users' access to the attached LedDevice through
@ -33,7 +34,7 @@ public:
///
/// RGB-Color channel enumeration
///
enum Color
enum RgbChannel
{
RED, GREEN, BLUE, INVALID
};
@ -96,7 +97,7 @@ public:
/// Transform::WHITELEVEL)
/// @param[in] value The new value for the given transform
///
void setTransform(Transform transform, Color color, double value);
void setTransform(Transform transform, RgbChannel color, double value);
///
/// Clears the given priority channel. This will switch the led-colors to the colors of the next
@ -121,7 +122,7 @@ public:
///
/// @return The value of the specified color transform
///
double getTransform(Transform transform, Color color) const;
double getTransform(Transform transform, RgbChannel color) const;
///
/// Returns a list of active priorities
@ -144,8 +145,11 @@ public:
static LedDevice * createDevice(const Json::Value & deviceConfig);
static ColorOrder createColorOrder(const Json::Value & deviceConfig);
static LedString createLedString(const Json::Value & ledsConfig);
static MultiColorTransform * createLedColorsTransform(const unsigned ledCnt, const Json::Value & colorTransformConfig);
static HsvTransform * createHsvTransform(const Json::Value & hsvConfig);
static RgbChannelTransform * createColorTransform(const Json::Value & colorConfig);
static RgbChannelTransform * createColorTransform(const Json::Value& colorConfig);
static LedDevice * createColorSmoothing(const Json::Value & smoothingConfig, LedDevice * ledDevice);
private slots:
@ -156,28 +160,14 @@ private slots:
void update();
private:
///
/// Applies all color transmforms to the given list of colors. The transformation is performed
/// in place.
///
/// @param colors The colors to be transformed
///
void applyTransform(std::vector<ColorRgb>& colors) const;
/// The specifiation of the led frame construction and picture integration
LedString _ledString;
/// The priority muxer
PriorityMuxer _muxer;
/// The HSV Transform for applying Saturation and Value transforms
HsvTransform * _hsvTransform;
/// The RED-Channel (RGB) transform
RgbChannelTransform * _redTransform;
/// The GREEN-Channel (RGB) transform
RgbChannelTransform * _greenTransform;
/// The BLUE-Channel (RGB) transform
RgbChannelTransform * _blueTransform;
/// The transformation from raw colors to led colors
MultiColorTransform * _raw2ledTransform;
/// Value with the desired color byte order
ColorOrder _colorOrder;

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@ -24,6 +24,8 @@ SET(Hyperion_HEADERS
${CURRENT_HEADER_DIR}/BlackBorderDetector.h
${CURRENT_HEADER_DIR}/BlackBorderProcessor.h
${CURRENT_SOURCE_DIR}/MultiColorTransform.h
${CURRENT_SOURCE_DIR}/device/LedSpiDevice.h
${CURRENT_SOURCE_DIR}/device/LedRs232Device.h
${CURRENT_SOURCE_DIR}/device/LedDeviceTest.h
@ -45,6 +47,7 @@ SET(Hyperion_SOURCES
${CURRENT_SOURCE_DIR}/BlackBorderDetector.cpp
${CURRENT_SOURCE_DIR}/BlackBorderProcessor.cpp
${CURRENT_SOURCE_DIR}/ImageToLedsMap.cpp
${CURRENT_SOURCE_DIR}/MultiColorTransform.cpp
${CURRENT_SOURCE_DIR}/LinearColorSmoothing.cpp
${CURRENT_SOURCE_DIR}/device/LedSpiDevice.cpp

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@ -22,11 +22,9 @@
#include "device/LedDeviceLightpack.h"
#include "device/LedDeviceMultiLightpack.h"
#include "MultiColorTransform.h"
#include "LinearColorSmoothing.h"
#include <utils/RgbChannelTransform.h>
#include <utils/HsvTransform.h>
LedDevice* Hyperion::createDevice(const Json::Value& deviceConfig)
{
std::cout << "Device configuration: " << deviceConfig << std::endl;
@ -155,6 +153,33 @@ Hyperion::ColorOrder Hyperion::createColorOrder(const Json::Value &deviceConfig)
return ORDER_RGB;
}
MultiColorTransform * Hyperion::createLedColorsTransform(const unsigned ledCnt, const Json::Value & colorConfig)
{
MultiColorTransform * transform = new MultiColorTransform();
if (!colorConfig.isArray())
{
// 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("hsv");
transform->addTransform(id, *redTransform, *greenTransform, *blueTransform, *hsvTransform);
transform->setTransformForLed(id, 0, ledCnt-1);
delete redTransform;
delete greenTransform;
delete blueTransform;
}
else
{
}
return transform;
}
HsvTransform * Hyperion::createHsvTransform(const Json::Value & hsvConfig)
{
const double saturationGain = hsvConfig.get("saturationGain", 1.0).asDouble();
@ -246,10 +271,7 @@ LedDevice * Hyperion::createColorSmoothing(const Json::Value & smoothingConfig,
Hyperion::Hyperion(const Json::Value &jsonConfig) :
_ledString(createLedString(jsonConfig["leds"])),
_muxer(_ledString.leds().size()),
_hsvTransform(createHsvTransform(jsonConfig["color"]["hsv"])),
_redTransform(createColorTransform(jsonConfig["color"]["red"])),
_greenTransform(createColorTransform(jsonConfig["color"]["green"])),
_blueTransform(createColorTransform(jsonConfig["color"]["blue"])),
_raw2ledTransform(createLedColorsTransform(_ledString.leds().size(), jsonConfig["color"])),
_colorOrder(createColorOrder(jsonConfig["device"])),
_device(createDevice(jsonConfig["device"])),
_timer()
@ -278,13 +300,8 @@ Hyperion::~Hyperion()
// Delete the Led-String
delete _device;
// delete he hsv transform
delete _hsvTransform;
// Delete the color-transform
delete _blueTransform;
delete _greenTransform;
delete _redTransform;
// delete the color transform
delete _raw2ledTransform;
}
unsigned Hyperion::getLedCount() const
@ -319,20 +336,23 @@ void Hyperion::setColors(int priority, const std::vector<ColorRgb>& ledColors, c
}
}
void Hyperion::setTransform(Hyperion::Transform transform, Hyperion::Color color, double value)
void Hyperion::setTransform(Hyperion::Transform transform, Hyperion::RgbChannel color, double value)
{
ColorTransform* colorTransform = _raw2ledTransform->getTransform("default");
assert(colorTransform != nullptr);
// select the transform of the requested color
RgbChannelTransform * t = nullptr;
switch (color)
{
case RED:
t = _redTransform;
t = &(colorTransform->_rgbRedTransform);
break;
case GREEN:
t = _greenTransform;
t = &(colorTransform->_rgbGreenTransform);
break;
case BLUE:
t = _blueTransform;
t = &(colorTransform->_rgbBlueTransform);
break;
default:
break;
@ -342,10 +362,10 @@ void Hyperion::setTransform(Hyperion::Transform transform, Hyperion::Color color
switch (transform)
{
case SATURATION_GAIN:
_hsvTransform->setSaturationGain(value);
colorTransform->_hsvTransform.setSaturationGain(value);
break;
case VALUE_GAIN:
_hsvTransform->setValueGain(value);
colorTransform->_hsvTransform.setValueGain(value);
break;
case THRESHOLD:
assert (t != nullptr);
@ -393,20 +413,23 @@ void Hyperion::clearall()
update();
}
double Hyperion::getTransform(Hyperion::Transform transform, Hyperion::Color color) const
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 = _redTransform;
t = &(colorTransform->_rgbRedTransform);
break;
case GREEN:
t = _greenTransform;
t = &(colorTransform->_rgbGreenTransform);
break;
case BLUE:
t = _blueTransform;
t = &(colorTransform->_rgbBlueTransform);
break;
default:
break;
@ -416,9 +439,9 @@ double Hyperion::getTransform(Hyperion::Transform transform, Hyperion::Color col
switch (transform)
{
case SATURATION_GAIN:
return _hsvTransform->getSaturationGain();
return colorTransform->_hsvTransform.getSaturationGain();
case VALUE_GAIN:
return _hsvTransform->getValueGain();
return colorTransform->_hsvTransform.getValueGain();
case THRESHOLD:
assert (t != nullptr);
return t->getThreshold();
@ -458,14 +481,9 @@ void Hyperion::update()
const PriorityMuxer::InputInfo & priorityInfo = _muxer.getInputInfo(priority);
// Apply the transform to each led and color-channel
std::vector<ColorRgb> ledColors(priorityInfo.ledColors);
std::vector<ColorRgb> ledColors = _raw2ledTransform->applyTransform(priorityInfo.ledColors);
for (ColorRgb& color : ledColors)
{
_hsvTransform->transform(color.red, color.green, color.blue);
color.red = _redTransform->transform(color.red);
color.green = _greenTransform->transform(color.green);
color.blue = _blueTransform->transform(color.blue);
// correct the color byte order
switch (_colorOrder)
{

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@ -0,0 +1,105 @@
// STL includes
#include <cassert>
// Hyperion includes
#include "MultiColorTransform.h"
MultiColorTransform::MultiColorTransform()
{
}
MultiColorTransform::~MultiColorTransform()
{
// Clean up all the transforms
for (ColorTransform * transform : _transform)
{
delete transform;
}
}
void MultiColorTransform::addTransform(const std::string & id,
const RgbChannelTransform & redTransform,
const RgbChannelTransform & greenTransform,
const RgbChannelTransform & blueTransform,
const HsvTransform & hsvTransform)
{
ColorTransform * transform = new ColorTransform();
transform->_id = id;
transform->_rgbRedTransform = redTransform;
transform->_rgbGreenTransform = greenTransform;
transform->_rgbBlueTransform = blueTransform;
transform->_hsvTransform = hsvTransform;
_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);
}
// Get the identified transform (don't care if is nullptr)
ColorTransform * transform = getTransform(id);
for (unsigned iLed=startLed; iLed<=endLed; ++iLed)
{
_ledTransforms[iLed] = transform;
}
}
std::vector<std::string> MultiColorTransform::getTransformIds()
{
// Create the list on the fly
std::vector<std::string> transformIds;
for (ColorTransform* transform : _transform)
{
transformIds.push_back(transform->_id);
}
return transformIds;
}
ColorTransform* MultiColorTransform::getTransform(const std::string& id)
{
// Iterate through the unique transforms until we find the one with the given id
for (ColorTransform* transform : _transform)
{
if (transform->_id == id)
{
return transform;
}
}
// The ColorTransform was not found
return nullptr;
}
std::vector<ColorRgb> MultiColorTransform::applyTransform(const std::vector<ColorRgb>& rawColors)
{
// 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());
for (size_t i=0; i<itCnt; ++i)
{
ColorTransform* transform = _ledTransforms[i];
if (transform == nullptr)
{
// No transform set for this led (do nothing)
continue;
}
ColorRgb& color = ledColors[i];
transform->_hsvTransform.transform(color.red, color.green, color.blue);
color.red = transform->_rgbRedTransform.transform(color.red);
color.green = transform->_rgbGreenTransform.transform(color.green);
color.blue = transform->_rgbBlueTransform.transform(color.blue);
}
return ledColors;
}

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@ -0,0 +1,73 @@
#pragma once
// STL includes
#include <vector>
// 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;
};
///
/// The LedColorTransform is responsible for performing color transformation from 'raw' colors
/// received as input to colors mapped to match the color-properties of the leds.
///
class MultiColorTransform
{
public:
MultiColorTransform();
~MultiColorTransform();
void addTransform(const std::string & id,
const RgbChannelTransform & redTransform,
const RgbChannelTransform & greenTransform,
const RgbChannelTransform & blueTransform,
const HsvTransform & hsvTransform);
void setTransformForLed(const std::string& id, const unsigned startLed, const unsigned endLed);
///
/// Returns the identifier of all the unique ColorTransform
///
/// @return The list with unique id's of the ColorTransforms
std::vector<std::string> getTransformIds();
///
/// Returns the pointer to the ColorTransform with the given id
///
/// @param id The identifier of the ColorTransform
///
/// @return The ColorTransform with the given id (or nullptr if it does not exist)
///
ColorTransform* getTransform(const std::string& id);
///
/// Performs the color transoformation from raw-color to led-color
///
/// @param rawColors The list with raw colors
///
/// @return The list with led-colors
///
std::vector<ColorRgb> applyTransform(const std::vector<ColorRgb>& rawColors);
private:
/// List with unique ColorTransforms
std::vector<ColorTransform*> _transform;
/// List with a pointer to the ColorTransform for each individual led
std::vector<ColorTransform*> _ledTransforms;
};