import javafx.scene.paint.Color;
import javafx.scene.paint.Paint;
import javafx.stage.Stage;
+import kaka.cakelight.mode.AmbientMode;
import org.opencv.core.Core;
import org.opencv.core.Mat;
Scene scene = new Scene(root);
scene.setOnKeyPressed(keyEvent -> {
- if (keyEvent.getCode() == KeyCode.ESCAPE) {
+ if (keyEvent.getCode() == KeyCode.ESCAPE || keyEvent.getCode() == KeyCode.Q) {
stage.close();
cakelight.cleanup();
}
private void setupCakeLight() {
log("Running with config:\n" + config);
- cakelight = new CakeLight(config, new LedController() {
- @Override
- public void accept(LedFrame ledFrame) {
- if (!paused) drawLEDs(canvas.getGraphicsContext2D(), ledFrame);
- }
- });
+ cakelight = new CakeLight(config);
VideoMode mode = new VideoMode();
cakelight.setMode(mode);
cakelight.startLoop();
mode.onVideoFrame(frame -> drawFrame(canvas.getGraphicsContext2D(), frame));
}
- private void drawFrame(GraphicsContext gc, Frame frame) {
+ private javafx.scene.paint.Color getLedColor(LedFrame frame, int led) {
+ kaka.cakelight.Color c = frame.getLedColor(led);
+ return javafx.scene.paint.Color.rgb(c.r(), c.g(), c.b());
+ }
+
+ private void drawFrame(GraphicsContext gc, VideoFrame frame) {
if (paused) return;
System.out.println("Drawing a frame");
drawCols(gc, frame);
float rowSize = 9f * BLOCK / config.leds.rows;
// DropShadow shadow = new DropShadow(BlurType.ONE_PASS_BOX, Color.RED, colSize * 2, colSize, 0, 0);
for (int x = 0; x < config.leds.cols; x++) {
- gc.setFill(frame.getLedColor(x + config.leds.rows));
+ // Top
+ gc.setFill(getLedColor(frame, config.leds.cols * 2 + config.leds.rows - x - 1));
gc.fillRect(GUTTER + x * colSize, GUTTER - ledLength, colSize, ledLength);
- gc.setFill(frame.getLedColor(config.leds.rows * 2 + config.leds.cols * 2 - 1 - x));
+ // Bottom
+ gc.setFill(getLedColor(frame, x));
gc.fillRect(GUTTER + x * colSize, GUTTER + 9 * BLOCK, colSize, ledLength);
}
for (int y = 0; y < config.leds.rows; y++) {
- gc.setFill(frame.getLedColor(config.leds.rows - 1 - y));
+ // Left
+ gc.setFill(getLedColor(frame, config.leds.cols * 2 + config.leds.rows + y));
gc.fillRect(GUTTER - ledLength, GUTTER + y * rowSize, ledLength, rowSize);
- gc.setFill(frame.getLedColor(y + config.leds.rows + config.leds.cols));
+ // Right
+ gc.setFill(getLedColor(frame, config.leds.rows + config.leds.cols - y - 1));
gc.fillRect(GUTTER + 16 * BLOCK, GUTTER + y * rowSize, ledLength, rowSize);
}
}
- private void drawVideo(GraphicsContext gc, Frame frame) {
+ private void drawVideo(GraphicsContext gc, VideoFrame frame) {
byte[] rgb = new byte[3];
Mat img = frame.getConvertedImage();
float colSize = 16 * BLOCK / (float)img.cols();
}
}
- private void drawCols(GraphicsContext gc, Frame frame) {
+ private void drawCols(GraphicsContext gc, VideoFrame frame) {
byte[] rgb = new byte[3];
for (int x = 0; x < config.leds.cols; x++) {
for (int y = 0; y < 9; y++) {
}
}
- private void drawRows(GraphicsContext gc, Frame frame) {
+ private void drawRows(GraphicsContext gc, VideoFrame frame) {
byte[] rgb = new byte[3];
for (int y = 0; y < config.leds.rows; y++) {
for (int x = 0; x < 16; x++) {