[kaka/cakelight.git] / src / kaka / cakelight / Frame.java

package kaka.cakelight;

import org.opencv.core.CvType;
import org.opencv.core.Mat;
import org.opencv.core.Size;
import org.opencv.imgproc.Imgproc;

import static kaka.cakelight.Main.saveFile;
import static kaka.cakelight.Main.timeIt;

public class Frame {
    private byte[] data;
    private Configuration config;
//    private Mat colImage;
//    private Mat rowImage;
    private Mat converted;
    private Mat[] images;

    private Frame(byte[] data) {
        this.data = data;
    }

    public static Frame of(byte[] data, Configuration config) {
        Frame frame = new Frame(data);
        frame.config = config;
        frame.convert();
        return frame;
    }

    private void convert() {
        /* TODO: how to do this?
        1) Resize to an image with the size of the number of leds and use config to define how many pixels deep into the screen to use.
        2) Resize to 16x9 and use 2 pixels of depth (or maybe 3) and interpolate for each led.
        3) Resize to 2 images where each led uses 2 pixels:
            vertical   - 16 x <#leds>
            horizontal - <#leds> x 9
        4) Resize to cols x rows first, then resize to a vertical and a horizontal like in (3).
         */
        Mat src = new Mat(config.video.height, config.video.width, CvType.CV_8UC2); // 8-bit, unsigned, 2 channels
        src.put(0, 0, data);

//        Mat converted = new Mat();
//        Mat resized = new Mat();
//
//        timeIt("total", () -> {
//            timeIt("yuyv2rgb", () -> Imgproc.cvtColor(src, converted, Imgproc.COLOR_YUV2RGB_YUYV)); // 3.5 - 4.0 ms
//            timeIt("resizing", () -> Imgproc.resize(converted, resized, new Size(config.leds.cols, config.leds.rows), 0, 0, Imgproc.INTER_AREA)); // INTER_AREA is the best for shrinking, but also the slowest (~1.5 ms)
//        });

        Mat cropped = src.submat(
                config.video.crop.top,
                config.video.height - config.video.crop.bottom,
                config.video.crop.left,
                config.video.width - config.video.crop.right
        );
        converted = new Mat();
        Imgproc.cvtColor(cropped, converted, config.video.format);
//        timeIt("model 1", () -> model1(converted, Imgproc.INTER_AREA));
//        timeIt("model 2", () -> model2(converted, Imgproc.INTER_AREA));
//        timeIt("model 3", () -> model3(converted, Imgproc.INTER_AREA));
        timeIt("model 4", () -> model4(converted, Imgproc.INTER_AREA));
//        save(converted, "/home/kaka/test-converted.data");
//        save(resized, "/home/kaka/test-resized.data");
        src.release();
        cropped.release();
    }

    private void model1(Mat src, int interpolation) {
        Mat resized = new Mat();
        Imgproc.resize(src, resized, new Size(config.leds.cols, config.leds.rows), 0, 0, interpolation);
    }

    private void model2(Mat src, int interpolation) {
        Mat resized = new Mat();
        Imgproc.resize(src, resized, new Size(16, 9), 0, 0, interpolation);
    }

    private void model3(Mat src, int interpolation) {
//        colImage = new Mat();
//        rowImage = new Mat();
//        Imgproc.resize(src, colImage, new Size(config.leds.cols, 9), 0, 0, interpolation);
//        Imgproc.resize(src, rowImage, new Size(16, config.leds.rows), 0, 0, interpolation);
    }

    private void model4(Mat src, int interpolation) {
        int width = 3 * src.cols() / 16;
        int height = 3 * src.rows() / 9;
        Mat[] cropped = new Mat[] {
                /* LEFT   */ src.submat(0, src.rows(), 0, width),
                /* RIGHT  */ src.submat(0, src.rows(), src.cols() - width, src.cols()),
                /* TOP    */ src.submat(0, height, 0, src.cols()),
                /* BOTTOM */ src.submat(src.rows() - height, src.rows(), 0, src.cols()),
        };
        images = new Mat[] {new Mat(), new Mat(), new Mat(), new Mat()};
//        Imgproc.resize(cropped[ListPosition.LEFT.ordinal()], images[ListPosition.LEFT.ordinal()], new Size(3, config.leds.rows), 0, 0, interpolation);
        Imgproc.resize(cropped[0], images[0], new Size(3, config.leds.rows), 0, 0, interpolation);
        Imgproc.resize(cropped[1], images[1], new Size(3, config.leds.rows), 0, 0, interpolation);
        Imgproc.resize(cropped[2], images[2], new Size(config.leds.cols, 3), 0, 0, interpolation);
        Imgproc.resize(cropped[3], images[3], new Size(config.leds.cols, 3), 0, 0, interpolation);
//        Imgproc.resize(src, colImage, new Size(config.leds.cols, 9), 0, 0, interpolation);
//        Imgproc.resize(src, rowImage, new Size(16, config.leds.rows), 0, 0, interpolation);
    }

    private Color getLedColor(ListPosition listPosition, int xy) {
        // TODO: maybe use highest value from pixels? 100 % from 1st, 66 % from 2nd, 33 % from 3rd. colors might be strange.
        switch (listPosition) {
            case LEFT:
                return interpolatedRowColor(images[0], xy, 0, 1, 2);
//                return interpolatedRowColor(xy, 0, 1, 2);
            case RIGHT:
                return interpolatedRowColor(images[1], xy, 2, 1, 0);
//                return interpolatedRowColor(xy, 15, 14, 13);
            case TOP:
                return interpolatedColColor(images[2], xy, 0, 1, 2);
//                return interpolatedColColor(xy, 0, 1, 2);
            case BOTTOM:
                return interpolatedColColor(images[3], xy, 2, 1, 0);
//                return interpolatedColColor(xy, 8, 7, 6);
        }
        return null;
    }

    //    private Color interpolatedRowColor(int y, int x1, int x2, int x3) {
    private Color interpolatedRowColor(Mat rowImage, int y, int x1, int x2, int x3) {
        return pixelToColor(rowImage, x3, y).interpolate(pixelToColor(rowImage, x2, y), 0.65).interpolate(pixelToColor(rowImage, x1, y), 0.65);
    }

//    private Color interpolatedColColor(int x, int y1, int y2, int y3) {
    private Color interpolatedColColor(Mat colImage, int x, int y1, int y2, int y3) {
        return pixelToColor(colImage, x, y3).interpolate(pixelToColor(colImage, x, y2), 0.65).interpolate(pixelToColor(colImage, x, y1), 0.65);
    }

    private Color pixelToColor(Mat image, int x, int y) {
        byte[] rgb = new byte[3];
        image.get(y, x, rgb);
        return Color.rgb(rgb[0] & 0xff, rgb[1] & 0xff, rgb[2] & 0xff);
    }

    private void save(Mat mat, String filepath) {
        byte[] data = new byte[mat.cols() * mat.rows() * mat.channels()];
        mat.get(0, 0, data);
        saveFile(data, filepath);
    }

    public byte[] getData() {
        byte[] buff = new byte[(int) (converted.total() * converted.channels())];
        converted.get(0, 0, buff);
        return buff;
    }

//    public Mat getColImage() {
//        return colImage;
//    }

//    public Mat getRowImage() {
//        return rowImage;
//    }

    public Mat getConvertedImage() {
        return converted;
    }

    /**
     * Creates a LED frame going counter-clockwise from the bottom-left corner, sans the corners.
     */
    public LedFrame getLedFrame() {
        LedFrame frame = LedFrame.from(config);
        int led = 0;
        for (int i = 0; i < config.leds.cols; i++)      frame.setLedColor(led++, getLedColor(ListPosition.BOTTOM, i));
        for (int i = config.leds.rows - 1; i >= 0; i--) frame.setLedColor(led++, getLedColor(ListPosition.RIGHT, i));
        for (int i = config.leds.cols - 1; i >= 0; i--) frame.setLedColor(led++, getLedColor(ListPosition.TOP, i));
        for (int i = 0; i < config.leds.rows; i++)      frame.setLedColor(led++, getLedColor(ListPosition.LEFT, i));
        return frame;
    }
}
Commit	Line	Data
e59e98fc TW	1	package kaka.cakelight;
	2
	3	import org.opencv.core.CvType;
	4	import org.opencv.core.Mat;
	5	import org.opencv.core.Size;
	6	import org.opencv.imgproc.Imgproc;
	7
	8	import static kaka.cakelight.Main.saveFile;
	9	import static kaka.cakelight.Main.timeIt;
	10
	11	public class Frame {
	12	private byte[] data;
	13	private Configuration config;
14d53f06 TW	14	// private Mat colImage;
14d53f06 TW	15	// private Mat rowImage;
100b82fe	16	private Mat converted;
14d53f06	17	private Mat[] images;
e59e98fc TW	18
	19	private Frame(byte[] data) {
	20	this.data = data;
	21	}
	22
	23	public static Frame of(byte[] data, Configuration config) {
	24	Frame frame = new Frame(data);
	25	frame.config = config;
	26	frame.convert();
	27	return frame;
	28	}
	29
	30	private void convert() {
4a2d6056 TW	31	/* TODO: how to do this?
	32	1) Resize to an image with the size of the number of leds and use config to define how many pixels deep into the screen to use.
	33	2) Resize to 16x9 and use 2 pixels of depth (or maybe 3) and interpolate for each led.
	34	3) Resize to 2 images where each led uses 2 pixels:
	35	vertical - 16 x <#leds>
	36	horizontal - <#leds> x 9
cc03403a	37	4) Resize to cols x rows first, then resize to a vertical and a horizontal like in (3).
4a2d6056	38	*/
e59e98fc TW	39	Mat src = new Mat(config.video.height, config.video.width, CvType.CV_8UC2); // 8-bit, unsigned, 2 channels
	40	src.put(0, 0, data);
	41
4a2d6056 TW	42	// Mat converted = new Mat();
	43	// Mat resized = new Mat();
	44	//
	45	// timeIt("total", () -> {
	46	// timeIt("yuyv2rgb", () -> Imgproc.cvtColor(src, converted, Imgproc.COLOR_YUV2RGB_YUYV)); // 3.5 - 4.0 ms
	47	// timeIt("resizing", () -> Imgproc.resize(converted, resized, new Size(config.leds.cols, config.leds.rows), 0, 0, Imgproc.INTER_AREA)); // INTER_AREA is the best for shrinking, but also the slowest (~1.5 ms)
	48	// });
e59e98fc	49
100b82fe TW	50	Mat cropped = src.submat(
	51	config.video.crop.top,
	52	config.video.height - config.video.crop.bottom,
	53	config.video.crop.left,
	54	config.video.width - config.video.crop.right
	55	);
	56	converted = new Mat();
cc03403a	57	Imgproc.cvtColor(cropped, converted, config.video.format);
100b82fe TW	58	// timeIt("model 1", () -> model1(converted, Imgproc.INTER_AREA));
100b82fe TW	59	// timeIt("model 2", () -> model2(converted, Imgproc.INTER_AREA));
14d53f06 TW	60	// timeIt("model 3", () -> model3(converted, Imgproc.INTER_AREA));
14d53f06 TW	61	timeIt("model 4", () -> model4(converted, Imgproc.INTER_AREA));
e59e98fc TW	62	// save(converted, "/home/kaka/test-converted.data");
e59e98fc TW	63	// save(resized, "/home/kaka/test-resized.data");
100b82fe TW	64	src.release();
100b82fe TW	65	cropped.release();
4a2d6056 TW	66	}
	67
	68	private void model1(Mat src, int interpolation) {
	69	Mat resized = new Mat();
	70	Imgproc.resize(src, resized, new Size(config.leds.cols, config.leds.rows), 0, 0, interpolation);
	71	}
	72
	73	private void model2(Mat src, int interpolation) {
	74	Mat resized = new Mat();
	75	Imgproc.resize(src, resized, new Size(16, 9), 0, 0, interpolation);
	76	}
	77
	78	private void model3(Mat src, int interpolation) {
14d53f06 TW	79	// colImage = new Mat();
	80	// rowImage = new Mat();
	81	// Imgproc.resize(src, colImage, new Size(config.leds.cols, 9), 0, 0, interpolation);
	82	// Imgproc.resize(src, rowImage, new Size(16, config.leds.rows), 0, 0, interpolation);
	83	}
	84
	85	private void model4(Mat src, int interpolation) {
	86	int width = 3 * src.cols() / 16;
	87	int height = 3 * src.rows() / 9;
	88	Mat[] cropped = new Mat[] {
	89	/* LEFT */ src.submat(0, src.rows(), 0, width),
	90	/* RIGHT */ src.submat(0, src.rows(), src.cols() - width, src.cols()),
	91	/* TOP */ src.submat(0, height, 0, src.cols()),
	92	/* BOTTOM */ src.submat(src.rows() - height, src.rows(), 0, src.cols()),
	93	};
	94	images = new Mat[] {new Mat(), new Mat(), new Mat(), new Mat()};
	95	// Imgproc.resize(cropped[ListPosition.LEFT.ordinal()], images[ListPosition.LEFT.ordinal()], new Size(3, config.leds.rows), 0, 0, interpolation);
	96	Imgproc.resize(cropped[0], images[0], new Size(3, config.leds.rows), 0, 0, interpolation);
	97	Imgproc.resize(cropped[1], images[1], new Size(3, config.leds.rows), 0, 0, interpolation);
	98	Imgproc.resize(cropped[2], images[2], new Size(config.leds.cols, 3), 0, 0, interpolation);
	99	Imgproc.resize(cropped[3], images[3], new Size(config.leds.cols, 3), 0, 0, interpolation);
	100	// Imgproc.resize(src, colImage, new Size(config.leds.cols, 9), 0, 0, interpolation);
	101	// Imgproc.resize(src, rowImage, new Size(16, config.leds.rows), 0, 0, interpolation);
	102	}
	103
	104	private Color getLedColor(ListPosition listPosition, int xy) {
cc03403a	105	// TODO: maybe use highest value from pixels? 100 % from 1st, 66 % from 2nd, 33 % from 3rd. colors might be strange.
4a2d6056 TW	106	switch (listPosition) {
4a2d6056 TW	107	case LEFT:
14d53f06 TW	108	return interpolatedRowColor(images[0], xy, 0, 1, 2);
14d53f06 TW	109	// return interpolatedRowColor(xy, 0, 1, 2);
4a2d6056	110	case RIGHT:
14d53f06 TW	111	return interpolatedRowColor(images[1], xy, 2, 1, 0);
14d53f06 TW	112	// return interpolatedRowColor(xy, 15, 14, 13);
4a2d6056	113	case TOP:
14d53f06 TW	114	return interpolatedColColor(images[2], xy, 0, 1, 2);
14d53f06 TW	115	// return interpolatedColColor(xy, 0, 1, 2);
4a2d6056	116	case BOTTOM:
14d53f06 TW	117	return interpolatedColColor(images[3], xy, 2, 1, 0);
14d53f06 TW	118	// return interpolatedColColor(xy, 8, 7, 6);
4a2d6056 TW	119	}
	120	return null;
	121	}
	122
14d53f06 TW	123	// private Color interpolatedRowColor(int y, int x1, int x2, int x3) {
14d53f06 TW	124	private Color interpolatedRowColor(Mat rowImage, int y, int x1, int x2, int x3) {
100b82fe TW	125	return pixelToColor(rowImage, x3, y).interpolate(pixelToColor(rowImage, x2, y), 0.65).interpolate(pixelToColor(rowImage, x1, y), 0.65);
	126	}
	127
14d53f06 TW	128	// private Color interpolatedColColor(int x, int y1, int y2, int y3) {
14d53f06 TW	129	private Color interpolatedColColor(Mat colImage, int x, int y1, int y2, int y3) {
100b82fe TW	130	return pixelToColor(colImage, x, y3).interpolate(pixelToColor(colImage, x, y2), 0.65).interpolate(pixelToColor(colImage, x, y1), 0.65);
	131	}
	132
4a2d6056 TW	133	private Color pixelToColor(Mat image, int x, int y) {
	134	byte[] rgb = new byte[3];
	135	image.get(y, x, rgb);
100b82fe	136	return Color.rgb(rgb[0] & 0xff, rgb[1] & 0xff, rgb[2] & 0xff);
e59e98fc TW	137	}
	138
	139	private void save(Mat mat, String filepath) {
	140	byte[] data = new byte[mat.cols() * mat.rows() * mat.channels()];
	141	mat.get(0, 0, data);
	142	saveFile(data, filepath);
	143	}
	144
	145	public byte[] getData() {
100b82fe TW	146	byte[] buff = new byte[(int) (converted.total() * converted.channels())];
	147	converted.get(0, 0, buff);
	148	return buff;
	149	}
	150
14d53f06 TW	151	// public Mat getColImage() {
	152	// return colImage;
	153	// }
100b82fe	154
14d53f06 TW	155	// public Mat getRowImage() {
	156	// return rowImage;
	157	// }
100b82fe TW	158
	159	public Mat getConvertedImage() {
	160	return converted;
e59e98fc	161	}
03b67a73 TW	162
03b67a73 TW	163	/**
da7bef43	164	* Creates a LED frame going counter-clockwise from the bottom-left corner, sans the corners.
03b67a73 TW	165	*/
	166	public LedFrame getLedFrame() {
	167	LedFrame frame = LedFrame.from(config);
	168	int led = 0;
da7bef43 TW	169	for (int i = 0; i < config.leds.cols; i++) frame.setLedColor(led++, getLedColor(ListPosition.BOTTOM, i));
	170	for (int i = config.leds.rows - 1; i >= 0; i--) frame.setLedColor(led++, getLedColor(ListPosition.RIGHT, i));
	171	for (int i = config.leds.cols - 1; i >= 0; i--) frame.setLedColor(led++, getLedColor(ListPosition.TOP, i));
	172	for (int i = 0; i < config.leds.rows; i++) frame.setLedColor(led++, getLedColor(ListPosition.LEFT, i));
03b67a73 TW	173	return frame;
03b67a73 TW	174	}
e59e98fc	175	}