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/*
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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * published by the Free Software Foundation.  Oracle designates this
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 * accompanied this code).
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package javafx.scene.image;

import com.sun.javafx.geom.Rectangle;
import com.sun.javafx.tk.Toolkit;
import javafx.geometry.Rectangle2D;
import javafx.util.Callback;

import java.lang.ref.WeakReference;
import java.nio.Buffer;
import java.nio.ByteBuffer;
import java.nio.IntBuffer;
import java.util.LinkedList;
import java.util.Iterator;
import java.util.List;
import java.util.Objects;

/**
 * The {@code PixelBuffer} class represents pixel data that is constructed from
 * a {@link Buffer java.nio.Buffer} supplied by the application.
 * A {@link WritableImage} can use this {@code PixelBuffer} directly without copying the pixel data.
 * This {@code PixelBuffer} can be shared among multiple {@code WritableImage}s.
 * Pixel data should be stored either in an {@link IntBuffer} using a {@link PixelFormat} of type
 * {@code INT_ARGB_PRE} or in a {@link ByteBuffer} using a {@link PixelFormat} of type {@code BYTE_BGRA_PRE}.
 * When the {@code Buffer} is updated using the {@link #updateBuffer PixelBuffer.updateBuffer} method,
 * all {@code WritableImage}s that were created using this {@code PixelBuffer} are redrawn.
 * 

* Example code that shows how to create a {@code PixelBuffer}: *

{@code  // Creating a PixelBuffer using BYTE_BGRA_PRE pixel format.
 * ByteBuffer byteBuffer = ByteBuffer.allocateDirect(width * height * 4);
 * PixelFormat pixelFormat = PixelFormat.getByteBgraPreInstance();
 * PixelBuffer pixelBuffer = new PixelBuffer<>(width, height, byteBuffer, pixelFormat);
 * Image img = new WritableImage(pixelBuffer);
 *
 * // Creating a PixelBuffer using INT_ARGB_PRE pixel format.
 * IntBuffer intBuffer = IntBuffer.allocate(width * height);
 * PixelFormat pixelFormat = PixelFormat.getIntArgbPreInstance();
 * PixelBuffer pixelBuffer = new PixelBuffer<>(width, height, intBuffer, pixelFormat);
 * Image img = new WritableImage(pixelBuffer);}
* * @param the type of {@code Buffer} that stores the pixel data. * Only {@code ByteBuffer} and {@code IntBuffer} are supported. * @see WritableImage#WritableImage(PixelBuffer) * @since 13 */ public class PixelBuffer { private final T buffer; private final int width; private final int height; private final PixelFormat pixelFormat; private final List> imageRefs; /** * Constructs a {@code PixelBuffer} using the specified {@code Buffer} and {@code PixelFormat}. * The type of the specified {@code PixelFormat} must be either {@code PixelFormat.Type.INT_ARGB_PRE} * or {@code PixelFormat.Type.BYTE_BGRA_PRE}. *

The constructor does not allocate memory to store the pixel data. The application must provide * a buffer with sufficient memory for the combination of dimensions {@code (width, height)} and the type * of {@code PixelFormat}. The {@code PixelFormat.Type.INT_ARGB_PRE} requires an {@code IntBuffer} with * minimum capacity of {@code width * height}, and the {@code PixelFormat.Type.BYTE_BGRA_PRE} requires * a {@code ByteBuffer} with minimum capacity of {@code width * height * 4}. * * @param width width in pixels of this {@code PixelBuffer} * @param height height in pixels of this {@code PixelBuffer} * @param buffer the buffer that stores the pixel data * @param pixelFormat the format of pixels in the {@code buffer} * @throws IllegalArgumentException if either {@code width} or {@code height} * is negative or zero, or if the type of {@code pixelFormat} * is unsupported, or if {@code buffer} does * not have sufficient memory, or if the type of {@code buffer} * and {@code pixelFormat} do not match * @throws NullPointerException if {@code buffer} or {@code pixelFormat} is {@code null} */ public PixelBuffer(int width, int height, T buffer, PixelFormat pixelFormat) { Objects.requireNonNull(buffer, "buffer must not be null."); Objects.requireNonNull(pixelFormat, "pixelFormat must not be null."); if (width <= 0 || height <= 0) { throw new IllegalArgumentException("PixelBuffer dimensions must be positive (w,h > 0)"); } switch (pixelFormat.getType()) { case BYTE_BGRA_PRE: if (buffer.capacity() / width / 4 < height) { throw new IllegalArgumentException("Insufficient memory allocated for ByteBuffer."); } if (!(buffer instanceof ByteBuffer)) { throw new IllegalArgumentException("PixelFormat requires a ByteBuffer."); } break; case INT_ARGB_PRE: if (buffer.capacity() / width < height) { throw new IllegalArgumentException("Insufficient memory allocated for IntBuffer."); } if (!(buffer instanceof IntBuffer)) { throw new IllegalArgumentException("PixelFormat requires an IntBuffer."); } break; default: throw new IllegalArgumentException("Unsupported PixelFormat: " + pixelFormat.getType()); } this.buffer = buffer; this.width = width; this.height = height; this.pixelFormat = pixelFormat; this.imageRefs = new LinkedList<>(); } /** * Returns the {@code buffer} of this {@code PixelBuffer}. * * @return the {@code buffer} of this {@code PixelBuffer} */ public T getBuffer() { return buffer; } /** * Returns the {@code width} of this {@code PixelBuffer}. * * @return the {@code width} of this {@code PixelBuffer} */ public int getWidth() { return width; } /** * Returns the {@code height} of this {@code PixelBuffer}. * * @return the {@code height} of this {@code PixelBuffer} */ public int getHeight() { return height; } /** * Returns the {@code PixelFormat} of this {@code PixelBuffer}. * * @return the {@code PixelFormat} of this {@code PixelBuffer} */ public PixelFormat getPixelFormat() { return pixelFormat; } /** * Invokes the specified {@code Callback} method and updates the dirty region of * all {@code WritableImage}s that were created using this {@code PixelBuffer}. * The {@code Callback} method is expected to update the buffer and * return a {@code Rectangle2D} that encloses the dirty region, or * return {@code null} to indicate that the entire buffer is dirty. *

This method must be called on the JavaFX Application Thread. *

Example code that shows how to use this method: *

{@code  Callback, Rectangle2D> callback = pixelBuffer -> {
     *     ByteBuffer buffer = pixelBuffer.getBuffer();
     *     // Update the buffer.
     *     return new Rectangle2D(x, y, dirtyWidth, dirtyHeight);
     * };
     * pixelBuffer.updateBuffer(callback);}
* * @param callback the {@code Callback} method that updates the buffer * @throws IllegalStateException if this method is called on a thread * other than the JavaFX Application Thread. * @throws NullPointerException if {@code callback} is {@code null} **/ public void updateBuffer(Callback, Rectangle2D> callback) { Toolkit.getToolkit().checkFxUserThread(); Objects.requireNonNull(callback, "callback must not be null."); Rectangle2D rect2D = callback.call(this); if (rect2D != null) { if (rect2D.getWidth() > 0 && rect2D.getHeight() > 0) { int x1 = (int) Math.floor(rect2D.getMinX()); int y1 = (int) Math.floor(rect2D.getMinY()); int x2 = (int) Math.ceil(rect2D.getMaxX()); int y2 = (int) Math.ceil(rect2D.getMaxY()); bufferDirty(new Rectangle(x1, y1, x2 - x1, y2 - y1)); } } else { bufferDirty(null); } } private void bufferDirty(Rectangle rect) { Iterator> iter = imageRefs.iterator(); while (iter.hasNext()) { final WritableImage image = iter.next().get(); if (image != null) { image.bufferDirty(rect); } else { iter.remove(); } } } void addImage(WritableImage image) { imageRefs.add(new WeakReference<>(image)); imageRefs.removeIf(imageRef -> (imageRef.get() == null)); } }




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