165 lines
5.1 KiB
C++
165 lines
5.1 KiB
C++
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#pragma once
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// Utils includes
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#include <utils/Image.h>
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// Hyperion includes
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#include <hyperion/ImageProcessorFactory.h>
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#include <hyperion/LedString.h>
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#include <hyperion/ImageToLedsMap.h>
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#include <utils/Logger.h>
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// Black border includes
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#include <blackborder/BlackBorderProcessor.h>
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///
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/// The ImageProcessor translates an RGB-image to RGB-values for the leds. The processing is
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/// performed in two steps. First the average color per led-region is computed. Second a
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/// color-tranform is applied based on a gamma-correction.
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///
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class ImageProcessor
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{
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public:
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~ImageProcessor();
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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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/// Specifies the width and height of 'incomming' images. This will resize the buffer-image to
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/// match the given size.
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/// NB All earlier obtained references will be invalid.
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///
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/// @param[in] width The new width of the buffer-image
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/// @param[in] height The new height of the buffer-image
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///
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void setSize(const unsigned width, const unsigned height);
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/// Enable or disable the black border detector
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void enableBlackBorderDetector(bool enable);
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/// Returns starte of black border detector
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bool blackBorderDetectorEnabled();
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///
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/// Processes the image to a list of led colors. This will update the size of the buffer-image
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/// if required and call the image-to-leds mapping to determine the mean color per led.
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///
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/// @param[in] image The image to translate to led values
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///
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/// @return The color value per led
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///
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template <typename Pixel_T>
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std::vector<ColorRgb> process(const Image<Pixel_T>& image)
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{
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// Ensure that the buffer-image is the proper size
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setSize(image.width(), image.height());
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// Check black border detection
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verifyBorder(image);
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// Create a result vector and call the 'in place' functionl
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std::vector<ColorRgb> colors = _imageToLeds->getMeanLedColor(image);
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// return the computed colors
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return colors;
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}
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///
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/// Determines the led colors of the image in the buffer.
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///
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/// @param[in] image The image to translate to led values
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/// @param[out] ledColors The color value per led
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///
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template <typename Pixel_T>
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void process(const Image<Pixel_T>& image, std::vector<ColorRgb>& ledColors)
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{
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// Ensure that the buffer-image is the proper size
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setSize(image.width(), image.height());
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// Check black border detection
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verifyBorder(image);
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// Determine the mean-colors of each led (using the existing mapping)
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_imageToLeds->getMeanLedColor(image, ledColors);
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}
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///
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/// Get the hscan and vscan parameters for a single led
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///
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/// @param[in] led Index of the led
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/// @param[out] hscanBegin begin of the hscan
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/// @param[out] hscanEnd end of the hscan
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/// @param[out] vscanBegin begin of the hscan
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/// @param[out] vscanEnd end of the hscan
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/// @return true if the parameters could be retrieved
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bool getScanParameters(size_t led, double & hscanBegin, double & hscanEnd, double & vscanBegin, double & vscanEnd) const;
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private:
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/// Friend declaration of the factory for creating ImageProcessor's
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friend class ImageProcessorFactory;
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///
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/// Constructs an image-processor for translating an image to led-color values based on the
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/// given led-string specification
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///
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/// @param[in] ledString The led-string specification
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/// @param[in] blackborderThreshold The threshold which the blackborder detector should use
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///
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ImageProcessor(const LedString &ledString, const QJsonObject &blackborderConfig);
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///
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/// Performs black-border detection (if enabled) on the given image
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///
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/// @param[in] image The image to perform black-border detection on
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///
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template <typename Pixel_T>
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void verifyBorder(const Image<Pixel_T> & image)
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{
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if (!_borderProcessor->enabled() && ( _imageToLeds->horizontalBorder()!=0 || _imageToLeds->verticalBorder()!=0 ))
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{
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Debug(Logger::getInstance("BLACKBORDER"), "disabled, reset border");
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_borderProcessor->process(image);
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delete _imageToLeds;
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_imageToLeds = new hyperion::ImageToLedsMap(image.width(), image.height(), 0, 0, _ledString.leds());
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}
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if(_borderProcessor->enabled() && _borderProcessor->process(image))
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{
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Debug(Logger::getInstance("BLACKBORDER"), "BORDER SWITCH REQUIRED!!");
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const hyperion::BlackBorder border = _borderProcessor->getCurrentBorder();
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// Clean up the old mapping
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delete _imageToLeds;
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if (border.unknown)
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{
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// Construct a new buffer and mapping
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_imageToLeds = new hyperion::ImageToLedsMap(image.width(), image.height(), 0, 0, _ledString.leds());
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}
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else
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{
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// Construct a new buffer and mapping
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_imageToLeds = new hyperion::ImageToLedsMap(image.width(), image.height(), border.horizontalSize, border.verticalSize, _ledString.leds());
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}
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Debug(Logger::getInstance("BLACKBORDER"), "CURRENT BORDER TYPE: unknown=%d hor.size=%d vert.size=%d",
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border.unknown, border.horizontalSize, border.verticalSize );
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}
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}
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private:
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/// The Led-string specification
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const LedString _ledString;
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/// The processor for black border detection
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hyperion::BlackBorderProcessor * _borderProcessor;
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/// The mapping of image-pixels to leds
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hyperion::ImageToLedsMap* _imageToLeds;
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};
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