mirror of
https://github.com/hyperion-project/hyperion.ng.git
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0b08341ef1
Former-commit-id: ffc00087996324f989e56dc5c95ab734c7c86dfa
184 lines
5.1 KiB
C++
184 lines
5.1 KiB
C++
#pragma once
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// stl includes
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#include <list>
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// QT includes
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#include <QObject>
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#include <QTimer>
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// hyperion-utils includes
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#include <utils/RgbImage.h>
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// Hyperion includes
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#include <hyperion/LedString.h>
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#include <hyperion/LedDevice.h>
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#include <hyperion/PriorityMuxer.h>
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// Forward class declaration
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class HsvTransform;
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class ColorTransform;
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///
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/// The main class of Hyperion. This gives other 'users' access to the attached LedDevice through
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/// the priority muxer.
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///
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class Hyperion : public QObject
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{
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Q_OBJECT
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public:
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/// Type definition of the info structure used by the priority muxer
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typedef PriorityMuxer::InputInfo InputInfo;
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///
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/// RGB-Color channel enumeration
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///
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enum Color
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{
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RED, GREEN, BLUE, INVALID
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};
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///
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/// Enumeration of the possible color (color-channel) transforms
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///
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enum Transform
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{
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SATURATION_GAIN, VALUE_GAIN, THRESHOLD, GAMMA, BLACKLEVEL, WHITELEVEL
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};
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///
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/// Constructs the Hyperion instance based on the given Json configuration
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///
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/// @param[in] jsonConfig The Json configuration
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///
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Hyperion(const Json::Value& jsonConfig);
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///
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/// Destructor; cleans up resourcess
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///
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~Hyperion();
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///
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/// Returns the number of attached leds
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///
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unsigned getLedCount() const;
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///
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/// Writes a single color to all the leds for the given time and priority
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///
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/// @param[in] priority The priority of the written color
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/// @param[in] ledColor The color to write to the leds
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/// @param[in] timeout_ms The time the leds are set to the given color [ms]
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///
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void setColor(int priority, const RgbColor &ledColor, const int timeout_ms);
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///
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/// Writes the given colors to all leds for the given time and priority
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///
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/// @param[in] priority The priority of the written colors
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/// @param[in] ledColors The colors to write to the leds
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/// @param[in] timeout_ms The time the leds are set to the given colors [ms]
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///
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void setColors(int priority, const std::vector<RgbColor> &ledColors, const int timeout_ms);
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///
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/// Sets/Updates a part of the color transformation.
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///
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/// @param[in] transform The type of transform to configure
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/// @param[in] color The color channel to which the transform applies (only applicable for
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/// Transform::THRESHOLD, Transform::GAMMA, Transform::BLACKLEVEL,
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/// Transform::WHITELEVEL)
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/// @param[in] value The new value for the given transform
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///
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void setTransform(Transform transform, Color color, double value);
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///
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/// Clears the given priority channel. This will switch the led-colors to the colors of the next
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/// lower priority channel (or off if no more channels are set)
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///
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/// @param[in] priority The priority channel
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///
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void clear(int priority);
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///
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/// Clears all priority channels. This will switch the leds off until a new priority is written.
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///
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void clearall();
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///
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/// Returns the value of a specific color transform
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///
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/// @param[in] transform The type of transform
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/// @param[in] color The color channel to which the transform applies (only applicable for
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/// Transform::THRESHOLD, Transform::GAMMA, Transform::BLACKLEVEL,
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/// Transform::WHITELEVEL)
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///
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/// @return The value of the specified color transform
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///
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double getTransform(Transform transform, Color color) const;
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///
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/// Returns a list of active priorities
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///
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/// @return The list with priorities
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///
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QList<int> getActivePriorities() const;
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///
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/// Returns the information of a specific priorrity channel
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///
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/// @param[in] priority The priority channel
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///
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/// @return The information of the given
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///
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/// @throw std::runtime_error when the priority channel does not exist
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///
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const InputInfo& getPriorityInfo(const int priority) const;
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static LedDevice * createDevice(const Json::Value & deviceConfig);
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static LedString createLedString(const Json::Value & ledsConfig);
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static HsvTransform * createHsvTransform(const Json::Value & hsvConfig);
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static ColorTransform * createColorTransform(const Json::Value & colorConfig);
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static LedDevice * createColorSmoothing(const Json::Value & smoothingConfig, LedDevice * ledDevice);
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private slots:
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///
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/// Updates the priority muxer with the current time and (re)writes the led color with applied
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/// transforms.
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///
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void update();
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private:
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///
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/// Applies all color transmforms to the given list of colors. The transformation is performed
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/// in place.
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///
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/// @param colors The colors to be transformed
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///
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void applyTransform(std::vector<RgbColor>& colors) const;
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/// The specifiation of the led frame construction and picture integration
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LedString _ledString;
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/// The priority muxer
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PriorityMuxer _muxer;
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/// The HSV Transform for applying Saturation and Value transforms
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HsvTransform * _hsvTransform;
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/// The RED-Channel (RGB) transform
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ColorTransform * _redTransform;
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/// The GREEN-Channel (RGB) transform
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ColorTransform * _greenTransform;
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/// The BLUE-Channel (RGB) transform
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ColorTransform * _blueTransform;
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/// Flag indicating if the output should be BGR (red and blue reversed)
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bool _haveBgrOutput;
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/// The actual LedDevice
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LedDevice * _device;
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/// The timer for handling priority channel timeouts
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QTimer _timer;
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};
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