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src/java.desktop/share/classes/java/awt/image/RescaleOp.java
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@@ -95,12 +95,12 @@
* and offsets. The length of the scaleFactor and offset arrays
* must meet the restrictions stated in the class comments above.
* The RenderingHints argument may be null.
* @param scaleFactors the specified scale factors
* @param offsets the specified offsets
- * @param hints the specified <code>RenderingHints</code>, or
- * <code>null</code>
+ * @param hints the specified {@code RenderingHints}, or
+ * {@code null}
*/
public RescaleOp (float[] scaleFactors, float[] offsets,
RenderingHints hints) {
length = scaleFactors.length;
if (length > offsets.length) length = offsets.length;
@@ -120,12 +120,12 @@
* all bands in a source Raster and to all color (but not alpha)
* components in a BufferedImage.
* The RenderingHints argument may be null.
* @param scaleFactor the specified scale factor
* @param offset the specified offset
- * @param hints the specified <code>RenderingHints</code>, or
- * <code>null</code>
+ * @param hints the specified {@code RenderingHints}, or
+ * {@code null}
*/
public RescaleOp (float scaleFactor, float offset, RenderingHints hints) {
length = 1;
this.scaleFactors = new float[1];
this.offsets = new float[1];
@@ -137,12 +137,12 @@
/**
* Returns the scale factors in the given array. The array is also
* returned for convenience. If scaleFactors is null, a new array
* will be allocated.
* @param scaleFactors the array to contain the scale factors of
- * this <code>RescaleOp</code>
- * @return the scale factors of this <code>RescaleOp</code>.
+ * this {@code RescaleOp}
+ * @return the scale factors of this {@code RescaleOp}.
*/
public final float[] getScaleFactors (float scaleFactors[]) {
if (scaleFactors == null) {
return this.scaleFactors.clone();
}
@@ -155,12 +155,12 @@
/**
* Returns the offsets in the given array. The array is also returned
* for convenience. If offsets is null, a new array
* will be allocated.
* @param offsets the array to contain the offsets of
- * this <code>RescaleOp</code>
- * @return the offsets of this <code>RescaleOp</code>.
+ * this {@code RescaleOp}
+ * @return the offsets of this {@code RescaleOp}.
*/
public final float[] getOffsets(float offsets[]) {
if (offsets == null) {
return this.offsets.clone();
}
@@ -172,11 +172,11 @@
/**
* Returns the number of scaling factors and offsets used in this
* RescaleOp.
* @return the number of scaling factors and offsets of this
- * <code>RescaleOp</code>.
+ * {@code RescaleOp}.
*/
public final int getNumFactors() {
return length;
}
@@ -311,18 +311,18 @@
* a BufferedImage will be created with the source ColorModel.
* An IllegalArgumentException may be thrown if the number of
* scaling factors/offsets in this object does not meet the
* restrictions stated in the class comments above, or if the
* source image has an IndexColorModel.
- * @param src the <code>BufferedImage</code> to be filtered
+ * @param src the {@code BufferedImage} to be filtered
* @param dst the destination for the filtering operation
- * or <code>null</code>
- * @return the filtered <code>BufferedImage</code>.
- * @throws IllegalArgumentException if the <code>ColorModel</code>
- * of <code>src</code> is an <code>IndexColorModel</code>,
+ * or {@code null}
+ * @return the filtered {@code BufferedImage}.
+ * @throws IllegalArgumentException if the {@code ColorModel}
+ * of {@code src} is an {@code IndexColorModel},
* or if the number of scaling factors and offsets in this
- * <code>RescaleOp</code> do not meet the requirements
+ * {@code RescaleOp} do not meet the requirements
* stated in the class comments.
*/
public final BufferedImage filter (BufferedImage src, BufferedImage dst) {
ColorModel srcCM = src.getColorModel();
ColorModel dstCM;
@@ -484,18 +484,18 @@
* The source and destination must have the same number of bands.
* Otherwise, an IllegalArgumentException is thrown.
* Note that the number of scaling factors/offsets in this object must
* meet the restrictions stated in the class comments above.
* Otherwise, an IllegalArgumentException is thrown.
- * @param src the <code>Raster</code> to be filtered
+ * @param src the {@code Raster} to be filtered
* @param dst the destination for the filtering operation
- * or <code>null</code>
- * @return the filtered <code>WritableRaster</code>.
- * @throws IllegalArgumentException if <code>src</code> and
- * <code>dst</code> do not have the same number of bands,
+ * or {@code null}
+ * @return the filtered {@code WritableRaster}.
+ * @throws IllegalArgumentException if {@code src} and
+ * {@code dst} do not have the same number of bands,
* or if the number of scaling factors and offsets in this
- * <code>RescaleOp</code> do not meet the requirements
+ * {@code RescaleOp} do not meet the requirements
* stated in the class comments.
*/
public final WritableRaster filter (Raster src, WritableRaster dst) {
return filterRasterImpl(src, dst, length);
}
@@ -631,12 +631,12 @@
/**
* Returns the bounding box of the rescaled destination Raster. Since
* this is not a geometric operation, the bounding box does not
* change.
- * @param src the rescaled destination <code>Raster</code>
- * @return the bounds of the specified <code>Raster</code>.
+ * @param src the rescaled destination {@code Raster}
+ * @return the bounds of the specified {@code Raster}.
*/
public final Rectangle2D getBounds2D (Raster src) {
return src.getBounds();
}
@@ -668,14 +668,14 @@
return image;
}
/**
- * Creates a zeroed-destination <code>Raster</code> with the correct
+ * Creates a zeroed-destination {@code Raster} with the correct
* size and number of bands, given this source.
- * @param src the source <code>Raster</code>
- * @return the zeroed-destination <code>Raster</code>.
+ * @param src the source {@code Raster}
+ * @return the zeroed-destination {@code Raster}.
*/
public WritableRaster createCompatibleDestRaster (Raster src) {
return src.createCompatibleWritableRaster(src.getWidth(), src.getHeight());
}
@@ -683,11 +683,11 @@
* Returns the location of the destination point given a
* point in the source. If dstPt is non-null, it will
* be used to hold the return value. Since this is not a geometric
* operation, the srcPt will equal the dstPt.
* @param srcPt a point in the source image
- * @param dstPt the destination point or <code>null</code>
+ * @param dstPt the destination point or {@code null}
* @return the location of the destination point.
*/
public final Point2D getPoint2D (Point2D srcPt, Point2D dstPt) {
if (dstPt == null) {
dstPt = new Point2D.Float();
@@ -696,11 +696,11 @@
return dstPt;
}
/**
* Returns the rendering hints for this op.
- * @return the rendering hints of this <code>RescaleOp</code>.
+ * @return the rendering hints of this {@code RescaleOp}.
*/
public final RenderingHints getRenderingHints() {
return hints;
}
}
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