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/*
* Copyright 1996-2008 Sun Microsystems, Inc. All Rights Reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Sun designates this
* particular file as subject to the "Classpath" exception as provided
* by Sun in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
* CA 95054 USA or visit www.sun.com if you need additional information or
* have any questions.
*
*/
package javax.media.j3d;
/**
* Abstract class that is used to define 2D or 3D ImageComponent
* classes used in a Java 3D scene graph. This is used for texture
* images, background images and raster components of Shape3D nodes.
*
*
* Image data may be passed to this ImageComponent object in
* one of two ways: by copying the image data into this object or by
* accessing the image data by reference.
*
*
*
* -
* By Copying:
* By default, the set and get image methods copy the image
* data into or out of this ImageComponent object. This is
* appropriate for many applications, since the application may reuse
* the RenderedImage object after copying it to the ImageComponent.
*
* - By Reference:
* A new feature in Java 3D version 1.2 allows image data to
* be accessed by reference, directly from the RenderedImage object.
* To use this feature, you need to construct an ImageComponent object
* with the
byReference flag set to true.
* In this mode, a reference to the input data is saved, but the data
* itself is not necessarily copied (although it may be, depending on
* the value of the yUp flag, the format of the
* ImageComponent, and the format of the RenderedImage). Image data
* referenced by an ImageComponent object can only be modified via
* the updateData method.
* Applications must exercise care not to violate this rule. If any
* referenced RenderedImage is modified outside the updateData method
* after it has been passed
* to an ImageComponent object, the results are undefined.
* Another restriction in by-reference mode is that if the specified
* RenderedImage is not an instance of BufferedImage, then
* this ImageComponent cannot be used for readRaster or
* off-screen rendering operations, since these operations modify
* the ImageComponent data.
*
*
*
*
* An image component object also specifies whether the orientation of
* its image data is "y-up" or "y-down" (the default). Y-up mode
* causes images to be interpreted as having their origin at the lower
* left (rather than the default upper left) of a texture or raster
* image with successive scan lines moving up. This is more
* consistent with texture mapping data onto a surface, and maps
* directly into the the way textures are used in OpenGL and other 3D
* APIs. Setting the yUp flag to true in conjunction
* with setting the byReference flag to true makes it
* possible for Java 3D to avoid copying the texture map in some
* cases.
*
*
* Note that all color fields are treated as unsigned values, even though
* Java does not directly support unsigned variables. This means, for
* example, that an ImageComponent using a format of FORMAT_RGB5 can
* represent red, green, and blue values between 0 and 31, while an
* ImageComponent using a format of FORMAT_RGB8 can represent color
* values between 0 and 255. Even when byte values are used to create a
* RenderedImage with 8-bit color components, the resulting colors
* (bytes) are interpreted as if they were unsigned.
* Values greater than 127 can be assigned to a byte variable using a
* type cast. For example:
*
byteVariable = (byte) intValue; // intValue can be > 127
* If intValue is greater than 127, then byteVariable will be negative. The
* correct value will be extracted when it is used (by masking off the upper
* bits).
*/
public abstract class ImageComponent extends NodeComponent {
//
// Pixel format values
//
/**
* Specifies that each pixel contains 3 8-bit channels: one each
* for red, green, blue. Same as FORMAT_RGB8.
*/
public static final int FORMAT_RGB = 1;
/**
* Specifies that each pixel contains 4 8-bit channels: one each
* for red, green, blue, alpha. Same as FORMAT_RGBA8.
*/
public static final int FORMAT_RGBA = 2;
/**
* Specifies that each pixel contains 3 8-bit channels: one each
* for red, green, blue. Same as FORMAT_RGB.
*/
public static final int FORMAT_RGB8 = FORMAT_RGB;
/**
* Specifies that each pixel contains 4 8-bit channels: one each
* for red, green, blue, alpha. Same as FORMAT_RGBA.
*/
public static final int FORMAT_RGBA8 = FORMAT_RGBA;
/**
* Specifies that each pixel contains 3 5-bit channels: one each
* for red, green, blue.
*/
public static final int FORMAT_RGB5 = 3;
/**
* Specifies that each pixel contains 3 5-bit channels: one each
* for red, green, blue and 1 1-bit channel for alpha.
*/
public static final int FORMAT_RGB5_A1 = 4;
/**
* Specifies that each pixel contains 3 4-bit channels: one each
* for red, green, blue.
*/
public static final int FORMAT_RGB4 = 5;
/**
* Specifies that each pixel contains 4 4-bit channels: one each
* for red, green, blue, alpha.
*/
public static final int FORMAT_RGBA4 = 6;
/**
* Specifies that each pixel contains 2 4-bit channels: one each
* for luminance and alpha.
*/
public static final int FORMAT_LUM4_ALPHA4 = 7;
/**
* Specifies that each pixel contains 2 8-bit channels: one each
* for luminance and alpha.
*/
public static final int FORMAT_LUM8_ALPHA8 = 8;
/**
* Specifies that each pixel contains 2 3-bit channels: one each
* for red, green, and 1 2-bit channel for blue.
*/
public static final int FORMAT_R3_G3_B2 = 9;
/**
* Specifies that each pixel contains 1 8-bit channel: it can be
* used for only luminance or only alpha or only intensity.
*/
public static final int FORMAT_CHANNEL8 = 10;
// Internal variable for checking validity of formats
// Change this if any more formats are added or removed
static final int FORMAT_TOTAL = 10;
/**
* Used to specify the class of the image being wrapped.
*
* @since Java 3D 1.5
*/
public enum ImageClass {
/**
* Indicates that this ImageComponent object wraps a BufferedImage
* object. This is the default state. Note that the image class will
* be BUFFERED_IMAGE following a call to set(RenderedImage image)
* if we are in by-copy mode, or if the image is an instance of
* BufferedImage.
*/
BUFFERED_IMAGE,
/**
* Indicates that this ImageComponent object wraps a RenderedImage
* object that is not a BufferedImage. Note that the image class
* of an ImageComponent following a call to set(RenderedImage image)
* will be RENDERED_IMAGE, if and only if the image is not an instance
* of BufferedImage and the ImageComponent is in by-reference mode.
*/
RENDERED_IMAGE,
/**
* Indicates that this ImageComponent object wraps an NioImageBuffer
* object. Note that an ImageComponent in this state must not be used
* as the off-screen buffer of a Canvas3D nor as the target of a
* readRaster operation.
*/
NIO_IMAGE_BUFFER,
}
/**
* Specifies that this ImageComponent object allows reading its
* size component information (width, height, and depth).
*/
public static final int
ALLOW_SIZE_READ = CapabilityBits.IMAGE_COMPONENT_ALLOW_SIZE_READ;
/**
* Specifies that this ImageComponent object allows reading its
* format component information.
*/
public static final int
ALLOW_FORMAT_READ = CapabilityBits.IMAGE_COMPONENT_ALLOW_FORMAT_READ;
/**
* Specifies that this ImageComponent object allows reading its
* image component information.
*/
public static final int
ALLOW_IMAGE_READ = CapabilityBits.IMAGE_COMPONENT_ALLOW_IMAGE_READ;
/**
* Specifies that this ImageComponent object allows writing its
* image component information.
*
* @since Java 3D 1.3
*/
public static final int
ALLOW_IMAGE_WRITE = CapabilityBits.IMAGE_COMPONENT_ALLOW_IMAGE_WRITE;
// Array for setting default read capabilities
private static final int[] readCapabilities = {
ALLOW_SIZE_READ,
ALLOW_IMAGE_READ,
ALLOW_FORMAT_READ
};
/**
* Not a public constructor, for internal use
*/
ImageComponent() {
// set default read capabilities
setDefaultReadCapabilities(readCapabilities);
}
/**
* Constructs an image component object using the specified format, width,
* and height. Default values are used for all other parameters. The
* default values are as follows:
*
* byReference : false
* yUp : false
*
*
* @param format the image component format, one of: FORMAT_RGB,
* FORMAT_RGBA etc.
* @param width the number of columns of pixels in this image component
* object
* @param height the number of rows of pixels in this image component
* object
* @exception IllegalArgumentException if format is invalid, or if
* width or height are not positive.
*/
public ImageComponent(int format, int width, int height) {
// set default read capabilities
setDefaultReadCapabilities(readCapabilities);
((ImageComponentRetained)this.retained).processParams(format, width, height, 1);
}
/**
* Constructs an image component object using the specified format, width,
* height, byReference flag, and yUp flag.
*
* @param format the image component format, one of: FORMAT_RGB,
* FORMAT_RGBA etc.
* @param width the number of columns of pixels in this image component
* object
* @param height the number of rows of pixels in this image component
* object
* @param byReference a flag that indicates whether the data is copied
* into this image component object or is accessed by reference.
* @param yUp a flag that indicates the y-orientation of this image
* component. If yUp is set to true, the origin of the image is
* the lower left; otherwise, the origin of the image is the upper
* left.
* @exception IllegalArgumentException if format is invalid, or if
* width or height are not positive.
*
* @since Java 3D 1.2
*/
public ImageComponent(int format,
int width,
int height,
boolean byReference,
boolean yUp) {
// set default read capabilities
setDefaultReadCapabilities(readCapabilities);
((ImageComponentRetained)this.retained).setYUp(yUp);
((ImageComponentRetained)this.retained).setByReference(byReference);
((ImageComponentRetained)this.retained).processParams(format, width, height, 1);
}
/**
* Retrieves the width of this image component object.
* @return the width of this image component object
* @exception CapabilityNotSetException if appropriate capability is
* not set and this object is part of live or compiled scene graph
*/
public int getWidth() {
if (isLiveOrCompiled())
if(!this.getCapability(ALLOW_SIZE_READ))
throw new CapabilityNotSetException(J3dI18N.getString("ImageComponent0"));
return ((ImageComponentRetained)this.retained).getWidth();
}
/**
* Retrieves the height of this image component object.
* @return the height of this image component object
* @exception CapabilityNotSetException if appropriate capability is
* not set and this object is part of live or compiled scene graph
*/
public int getHeight() {
if (isLiveOrCompiled())
if(!this.getCapability(ALLOW_SIZE_READ))
throw new CapabilityNotSetException(J3dI18N.getString("ImageComponent1"));
return ((ImageComponentRetained)this.retained).getHeight();
}
/**
* Retrieves the format of this image component object.
* @return the format of this image component object
* @exception CapabilityNotSetException if appropriate capability is
* not set and this object is part of live or compiled scene graph
*/
public int getFormat() {
if (isLiveOrCompiled())
if(!this.getCapability(ALLOW_FORMAT_READ))
throw new CapabilityNotSetException(J3dI18N.getString("ImageComponent2"));
return ((ImageComponentRetained)this.retained).getFormat();
}
/**
* Retrieves the data access mode for this ImageComponent object.
*
* @return true if the data access mode for this
* ImageComponent object is by-reference;
* false if the data access mode is by-copying.
*
* @since Java 3D 1.2
*/
public boolean isByReference() {
return ((ImageComponentRetained)this.retained).isByReference();
}
/**
* Sets the y-orientation of this ImageComponent object to
* y-up or y-down.
*
* @param yUp a flag that indicates the y-orientation of this image
* component. If yUp is set to true, the origin of the image is
* the lower left; otherwise, the origin of the image is the upper
* left.
*
* @exception RestrictedAccessException if the method is called
* when this object is part of live or compiled scene graph.
*
* @exception IllegalStateException if the image class of this object
* is ImageClass.NIO_IMAGE_BUFFER.
*
* @deprecated as of Java 3D 1.5, the yUp flag should only be set at object
* construction time.
*
* @since Java 3D 1.2
*/
public void setYUp(boolean yUp) {
checkForLiveOrCompiled();
// check for illegal image class
if (((ImageComponentRetained)this.retained).getImageClass() == ImageClass.NIO_IMAGE_BUFFER) {
throw new IllegalStateException("ImageComponent4");
}
((ImageComponentRetained)this.retained).setYUp(yUp);
}
/**
* Retrieves the y-orientation for this ImageComponent object.
*
* @return true if the y-orientation of this
* ImageComponent object is y-up; false if the
* y-orientation of this ImageComponent object is y-down.
*
* @since Java 3D 1.2
*/
public boolean isYUp() {
return ((ImageComponentRetained)this.retained).isYUp();
}
/**
* Retrieves the image class of this ImageComponent object.
*
* @return the image class of this ImageComponent,
* one of: ImageClass.BUFFERED_IMAGE,
* ImageClass.RENDERED_IMAGE, or ImageClass.NIO_IMAGE_BUFFER.
*
* @since Java 3D 1.5
*/
public ImageClass getImageClass() {
return ((ImageComponentRetained)this.retained).getImageClass();
}
}