File Doc Category Size Date Package
ColorModel.java API Doc Java SE 6 API 90378 Tue Jun 10 00:25:26 BST 2008 java.awt.image

ColorModel

java.lang.Object

public abstract class ColorModel extends Object implements Transparency

The ColorModel abstract class encapsulates the methods for translating a pixel value to color components (for example, red, green, and blue) and an alpha component. In order to render an image to the screen, a printer, or another image, pixel values must be converted to color and alpha components. As arguments to or return values from methods of this class, pixels are represented as 32-bit ints or as arrays of primitive types. The number, order, and interpretation of color components for a ColorModel is specified by its ColorSpace. A ColorModel used with pixel data that does not include alpha information treats all pixels as opaque, which is an alpha value of 1.0.

This ColorModel class supports two representations of pixel values. A pixel value can be a single 32-bit int or an array of primitive types. The Java(tm) Platform 1.0 and 1.1 APIs represented pixels as single byte or single int values. For purposes of the ColorModel class, pixel value arguments were passed as ints. The Java(tm) 2 Platform API introduced additional classes for representing images. With {@link BufferedImage} or {@link RenderedImage} objects, based on {@link Raster} and {@link SampleModel} classes, pixel values might not be conveniently representable as a single int. Consequently, ColorModel now has methods that accept pixel values represented as arrays of primitive types. The primitive type used by a particular ColorModel object is called its transfer type.

ColorModel objects used with images for which pixel values are not conveniently representable as a single int throw an {@link IllegalArgumentException} when methods taking a single int pixel argument are called. Subclasses of ColorModel must specify the conditions under which this occurs. This does not occur with {@link DirectColorModel} or {@link IndexColorModel} objects.

Currently, the transfer types supported by the Java 2D(tm) API are DataBuffer.TYPE_BYTE, DataBuffer.TYPE_USHORT, DataBuffer.TYPE_INT, DataBuffer.TYPE_SHORT, DataBuffer.TYPE_FLOAT, and DataBuffer.TYPE_DOUBLE. Most rendering operations will perform much faster when using ColorModels and images based on the first three of these types. In addition, some image filtering operations are not supported for ColorModels and images based on the latter three types. The transfer type for a particular ColorModel object is specified when the object is created, either explicitly or by default. All subclasses of ColorModel must specify what the possible transfer types are and how the number of elements in the primitive arrays representing pixels is determined.

For BufferedImages, the transfer type of its Raster and of the Raster object's SampleModel (available from the getTransferType methods of these classes) must match that of the ColorModel. The number of elements in an array representing a pixel for the Raster and SampleModel (available from the getNumDataElements methods of these classes) must match that of the ColorModel.

The algorithm used to convert from pixel values to color and alpha components varies by subclass. For example, there is not necessarily a one-to-one correspondence between samples obtained from the SampleModel of a BufferedImage object's Raster and color/alpha components. Even when there is such a correspondence, the number of bits in a sample is not necessarily the same as the number of bits in the corresponding color/alpha component. Each subclass must specify how the translation from pixel values to color/alpha components is done.

Methods in the ColorModel class use two different representations of color and alpha components - a normalized form and an unnormalized form. In the normalized form, each component is a float value between some minimum and maximum values. For the alpha component, the minimum is 0.0 and the maximum is 1.0. For color components the minimum and maximum values for each component can be obtained from the ColorSpace object. These values will often be 0.0 and 1.0 (e.g. normalized component values for the default sRGB color space range from 0.0 to 1.0), but some color spaces have component values with different upper and lower limits. These limits can be obtained using the getMinValue and getMaxValue methods of the ColorSpace class. Normalized color component values are not premultiplied. All ColorModels must support the normalized form.

In the unnormalized form, each component is an unsigned integral value between 0 and 2ⁿ - 1, where n is the number of significant bits for a particular component. If pixel values for a particular ColorModel represent color samples premultiplied by the alpha sample, unnormalized color component values are also premultiplied. The unnormalized form is used only with instances of ColorModel whose ColorSpace has minimum component values of 0.0 for all components and maximum values of 1.0 for all components. The unnormalized form for color and alpha components can be a convenient representation for ColorModels whose normalized component values all lie between 0.0 and 1.0. In such cases the integral value 0 maps to 0.0 and the value 2ⁿ - 1 maps to 1.0. In other cases, such as when the normalized component values can be either negative or positive, the unnormalized form is not convenient. Such ColorModel objects throw an {@link IllegalArgumentException} when methods involving an unnormalized argument are called. Subclasses of ColorModel must specify the conditions under which this occurs.

see: IndexColorModel
see: ComponentColorModel
see: PackedColorModel
see: DirectColorModel
see: java.awt.Image
see: BufferedImage
see: RenderedImage
see: java.awt.color.ColorSpace
see: SampleModel
see: Raster
see: DataBuffer
version: 10 Feb 1997

Fields Summary
private long
pData
protected int
pixel_bits
The total number of bits in the pixel.
int[]
nBits
int
transparency
boolean
supportsAlpha
boolean
isAlphaPremultiplied
int
numComponents
int
numColorComponents
ColorSpace
colorSpace
int
colorSpaceType
int
maxBits
boolean
is_sRGB
protected int
transferType
Data type of the array used to represent pixel values.
private static boolean
loaded
This is copied from java.awt.Toolkit since we need the library loaded in java.awt.image also: WARNING: This is a temporary workaround for a problem in the way the AWT loads native libraries. A number of classes in the AWT package have a native method, initIDs(), which initializes the JNI field and method ids used in the native portion of their implementation. Since the use and storage of these ids is done by the implementation libraries, the implementation of these method is provided by the particular AWT implementations (for example, "Toolkit"s/Peer), such as Motif, Microsoft Windows, or Tiny. The problem is that this means that the native libraries must be loaded by the java.* classes, which do not necessarily know the names of the libraries to load. A better way of doing this would be to provide a separate library which defines java.awt.* initIDs, and exports the relevant symbols out to the implementation libraries. For now, we know it's done by the implementation, and we assume that the name of the library is "awt". -br.
private static ColorModel
RGBdefault
static byte[]
l8Tos8
static byte[]
s8Tol8
static byte[]
l16Tos8
static short[]
s8Tol16
static Map
g8Tos8Map
static Map
lg16Toog8Map
static Map
g16Tos8Map
static Map
lg16Toog16Map
Constructors Summary
public ColorModel(int bits)
Constructs a ColorModel that translates pixels of the specified number of bits to color/alpha components. The color space is the default RGB ColorSpace, which is sRGB. Pixel values are assumed to include alpha information. If color and alpha information are represented in the pixel value as separate spatial bands, the color bands are assumed not to be premultiplied with the alpha value. The transparency type is java.awt.Transparency.TRANSLUCENT. The transfer type will be the smallest of DataBuffer.TYPE_BYTE, DataBuffer.TYPE_USHORT, or DataBuffer.TYPE_INT that can hold a single pixel (or DataBuffer.TYPE_UNDEFINED if bits is greater than 32). Since this constructor has no information about the number of bits per color and alpha component, any subclass calling this constructor should override any method that requires this information.
param
bits the number of bits of a pixel
throws
IllegalArgumentException if the number of bits in bits is less than 1
pixel_bits = bits; if (bits < 1) { throw new IllegalArgumentException("Number of bits must be > 0"); } numComponents = 4; numColorComponents = 3; maxBits = bits; // REMIND: make sure transferType is set correctly transferType = ColorModel.getDefaultTransferType(bits);
protected ColorModel(int pixel_bits, int[] bits, ColorSpace cspace, boolean hasAlpha, boolean isAlphaPremultiplied, int transparency, int transferType)
Constructs a ColorModel that translates pixel values to color/alpha components. Color components will be in the specified ColorSpace. pixel_bits is the number of bits in the pixel values. The bits array specifies the number of significant bits per color and alpha component. Its length should be the number of components in the ColorSpace if there is no alpha information in the pixel values, or one more than this number if there is alpha information. hasAlpha indicates whether or not alpha information is present. The boolean isAlphaPremultiplied specifies how to interpret pixel values in which color and alpha information are represented as separate spatial bands. If the boolean is true, color samples are assumed to have been multiplied by the alpha sample. The transparency specifies what alpha values can be represented by this color model. The transfer type is the type of primitive array used to represent pixel values. Note that the bits array contains the number of significant bits per color/alpha component after the translation from pixel values. For example, for an IndexColorModel with pixel_bits equal to 16, the bits array might have four elements with each element set to 8.
param
pixel_bits the number of bits in the pixel values
param
bits array that specifies the number of significant bits per color and alpha component
param
cspace the specified ColorSpace
param
hasAlpha true if alpha information is present; false otherwise
param
isAlphaPremultiplied true if color samples are assumed to be premultiplied by the alpha samples; false otherwise
param
transparency what alpha values can be represented by this color model
param
transferType the type of the array used to represent pixel values
throws
IllegalArgumentException if the length of the bit array is less than the number of color or alpha components in this ColorModel, or if the transparency is not a valid value.
throws
IllegalArgumentException if the sum of the number of bits in bits is less than 1 or if any of the elements in bits is less than 0.
see
java.awt.Transparency
colorSpace = cspace; colorSpaceType = cspace.getType(); numColorComponents = cspace.getNumComponents(); numComponents = numColorComponents + (hasAlpha ? 1 : 0); supportsAlpha = hasAlpha; if (bits.length < numComponents) { throw new IllegalArgumentException("Number of color/alpha "+ "components should be "+ numComponents+ " but length of bits array is "+ bits.length); } // 4186669 if (transparency < Transparency.OPAQUE || transparency > Transparency.TRANSLUCENT) { throw new IllegalArgumentException("Unknown transparency: "+ transparency); } if (supportsAlpha == false) { this.isAlphaPremultiplied = false; this.transparency = Transparency.OPAQUE; } else { this.isAlphaPremultiplied = isAlphaPremultiplied; this.transparency = transparency; } nBits = (int[]) bits.clone(); this.pixel_bits = pixel_bits; if (pixel_bits <= 0) { throw new IllegalArgumentException("Number of pixel bits must "+ "be > 0"); } // Check for bits < 0 maxBits = 0; for (int i=0; i < bits.length; i++) { // bug 4304697 if (bits[i] < 0) { throw new IllegalArgumentException("Number of bits must be >= 0"); } if (maxBits < bits[i]) { maxBits = bits[i]; } } // Make sure that we don't have all 0-bit components if (maxBits == 0) { throw new IllegalArgumentException("There must be at least "+ "one component with > 0 "+ "pixel bits."); } // Save this since we always need to check if it is the default CS if (cspace != ColorSpace.getInstance(ColorSpace.CS_sRGB)) { is_sRGB = false; } // Save the transfer type this.transferType = transferType;
Methods Summary
public java.awt.image.ColorModel coerceData(java.awt.image.WritableRaster raster, boolean isAlphaPremultiplied)
Forces the raster data to match the state specified in the isAlphaPremultiplied variable, assuming the data is currently correctly described by this ColorModel. It may multiply or divide the color raster data by alpha, or do nothing if the data is in the correct state. If the data needs to be coerced, this method will also return an instance of this ColorModel with the isAlphaPremultiplied flag set appropriately. This method will throw a UnsupportedOperationException if it is not supported by this ColorModel. Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method since the implementation in this abstract class throws an UnsupportedOperationException.
param
raster the WritableRaster data
param
isAlphaPremultiplied true if the alpha is premultiplied; false otherwise
return
a ColorModel object that represents the coerced data.
throw new UnsupportedOperationException ("This method is not supported by this color model");
public java.awt.image.SampleModel createCompatibleSampleModel(int w, int h)
Creates a SampleModel with the specified width and height that has a data layout compatible with this ColorModel. Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method since the implementation in this abstract class throws an UnsupportedOperationException.
param
w the width to apply to the new SampleModel
param
h the height to apply to the new SampleModel
return
a SampleModel object with the specified width and height.
throws
UnsupportedOperationException if this method is not supported by this ColorModel
see
SampleModel
throw new UnsupportedOperationException ("This method is not supported by this color model");
public java.awt.image.WritableRaster createCompatibleWritableRaster(int w, int h)
Creates a WritableRaster with the specified width and height that has a data layout (SampleModel) compatible with this ColorModel. Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method since the implementation in this abstract class throws an UnsupportedOperationException.
param
w the width to apply to the new WritableRaster
param
h the height to apply to the new WritableRaster
return
a WritableRaster object with the specified width and height.
throws
UnsupportedOperationException if this method is not supported by this ColorModel
see
WritableRaster
see
SampleModel
throw new UnsupportedOperationException ("This method is not supported by this color model");
public boolean equals(java.lang.Object obj)
Tests if the specified Object is an instance of ColorModel and if it equals this ColorModel.
param
obj the Object to test for equality
return
true if the specified Object is an instance of ColorModel and equals this ColorModel; false otherwise.
if (!(obj instanceof ColorModel)) { return false; } ColorModel cm = (ColorModel) obj; if (this == cm) { return true; } if (supportsAlpha != cm.hasAlpha() || isAlphaPremultiplied != cm.isAlphaPremultiplied() || pixel_bits != cm.getPixelSize() || transparency != cm.getTransparency() || numComponents != cm.getNumComponents()) { return false; } int[] nb = cm.getComponentSize(); if ((nBits != null) && (nb != null)) { for (int i = 0; i < numComponents; i++) { if (nBits[i] != nb[i]) { return false; } } } else { return ((nBits == null) && (nb == null)); } return true;
public void finalize()
Disposes of system resources associated with this ColorModel once this ColorModel is no longer referenced.

public abstract int getAlpha(int pixel)
Returns the alpha component for the specified pixel, scaled from 0 to 255. The pixel value is specified as an int. An IllegalArgumentException is thrown if pixel values for this ColorModel are not conveniently representable as a single int.
param
pixel the specified pixel
return
the value of alpha component of the specified pixel.
public int getAlpha(java.lang.Object inData)
Returns the alpha component for the specified pixel, scaled from 0 to 255. The pixel value is specified by an array of data elements of type transferType passed in as an object reference. If inData is not a primitive array of type transferType, a ClassCastException is thrown. An ArrayIndexOutOfBoundsException is thrown if inData is not large enough to hold a pixel value for this ColorModel. If this transferType is not supported, a UnsupportedOperationException will be thrown. Since ColorModel is an abstract class, any instance must be an instance of a subclass. Subclasses inherit the implementation of this method and if they don't override it, this method throws an exception if the subclass uses a transferType other than DataBuffer.TYPE_BYTE, DataBuffer.TYPE_USHORT, or DataBuffer.TYPE_INT.
param
inData the specified pixel
return
the alpha component of the specified pixel, scaled from 0 to 255.
throws
ClassCastException if inData is not a primitive array of type transferType
throws
ArrayIndexOutOfBoundsException if inData is not large enough to hold a pixel value for this ColorModel
throws
UnsupportedOperationException if this tranferType is not supported by this ColorModel
int pixel=0,length=0; switch (transferType) { case DataBuffer.TYPE_BYTE: byte bdata[] = (byte[])inData; pixel = bdata[0] & 0xff; length = bdata.length; break; case DataBuffer.TYPE_USHORT: short sdata[] = (short[])inData; pixel = sdata[0] & 0xffff; length = sdata.length; break; case DataBuffer.TYPE_INT: int idata[] = (int[])inData; pixel = idata[0]; length = idata.length; break; default: throw new UnsupportedOperationException("This method has not been "+ "implemented for transferType " + transferType); } if (length == 1) { return getAlpha(pixel); } else { throw new UnsupportedOperationException ("This method is not supported by this color model"); }
public java.awt.image.WritableRaster getAlphaRaster(java.awt.image.WritableRaster raster)
Returns a Raster representing the alpha channel of an image, extracted from the input Raster, provided that pixel values of this ColorModel represent color and alpha information as separate spatial bands (e.g. {@link ComponentColorModel} and DirectColorModel). This method assumes that Raster objects associated with such a ColorModel store the alpha band, if present, as the last band of image data. Returns null if there is no separate spatial alpha channel associated with this ColorModel. If this is an IndexColorModel which has alpha in the lookup table, this method will return null since there is no spatially discrete alpha channel. This method will create a new Raster (but will share the data array). Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method to get any behavior other than returning null because the implementation in this abstract class returns null.
param
raster the specified Raster
return
a Raster representing the alpha channel of an image, obtained from the specified Raster.
return null;
public abstract int getBlue(int pixel)
Returns the blue color component for the specified pixel, scaled from 0 to 255 in the default RGB ColorSpace, sRGB. A color conversion is done if necessary. The pixel value is specified as an int. An IllegalArgumentException is thrown if pixel values for this ColorModel are not conveniently representable as a single int. The returned value is a non pre-multiplied value, for example, if the alpha is premultiplied, this method divides it out before returning the value. If the alpha value is 0, the blue value is 0.
param
pixel the specified pixel
return
the value of the blue component of the specified pixel.
public int getBlue(java.lang.Object inData)
Returns the blue color component for the specified pixel, scaled from 0 to 255 in the default RGB ColorSpace, sRGB. A color conversion is done if necessary. The pixel value is specified by an array of data elements of type transferType passed in as an object reference. The returned value is a non pre-multiplied value. For example, if the alpha is premultiplied, this method divides it out before returning the value. If the alpha value is 0, the blue value will be 0. If inData is not a primitive array of type transferType, a ClassCastException is thrown. An ArrayIndexOutOfBoundsException is thrown if inData is not large enough to hold a pixel value for this ColorModel. If this transferType is not supported, a UnsupportedOperationException will be thrown. Since ColorModel is an abstract class, any instance must be an instance of a subclass. Subclasses inherit the implementation of this method and if they don't override it, this method throws an exception if the subclass uses a transferType other than DataBuffer.TYPE_BYTE, DataBuffer.TYPE_USHORT, or DataBuffer.TYPE_INT.
param
inData an array of pixel values
return
the value of the blue component of the specified pixel.
throws
ClassCastException if inData is not a primitive array of type transferType
throws
ArrayIndexOutOfBoundsException if inData is not large enough to hold a pixel value for this ColorModel
throws
UnsupportedOperationException if this tranferType is not supported by this ColorModel
int pixel=0,length=0; switch (transferType) { case DataBuffer.TYPE_BYTE: byte bdata[] = (byte[])inData; pixel = bdata[0] & 0xff; length = bdata.length; break; case DataBuffer.TYPE_USHORT: short sdata[] = (short[])inData; pixel = sdata[0] & 0xffff; length = sdata.length; break; case DataBuffer.TYPE_INT: int idata[] = (int[])inData; pixel = idata[0]; length = idata.length; break; default: throw new UnsupportedOperationException("This method has not been "+ "implemented for transferType " + transferType); } if (length == 1) { return getBlue(pixel); } else { throw new UnsupportedOperationException ("This method is not supported by this color model"); }
public final java.awt.color.ColorSpace getColorSpace()
Returns the ColorSpace associated with this ColorModel.
return
the ColorSpace of this ColorModel.
return colorSpace;
public int getComponentSize(int componentIdx)
Returns the number of bits for the specified color/alpha component. Color components are indexed in the order specified by the ColorSpace. Typically, this order reflects the name of the color space type. For example, for TYPE_RGB, index 0 corresponds to red, index 1 to green, and index 2 to blue. If this ColorModel supports alpha, the alpha component corresponds to the index following the last color component.
param
componentIdx the index of the color/alpha component
return
the number of bits for the color/alpha component at the specified index.
throws
ArrayIndexOutOfBoundsException if componentIdx is greater than the number of components or less than zero
throws
NullPointerException if the number of bits array is null
// REMIND: if (nBits == null) { throw new NullPointerException("Number of bits array is null."); } return nBits[componentIdx];
public int[] getComponentSize()
Returns an array of the number of bits per color/alpha component. The array contains the color components in the order specified by the ColorSpace, followed by the alpha component, if present.
return
an array of the number of bits per color/alpha component
if (nBits != null) { return (int[]) nBits.clone(); } return null;
public int[] getComponents(int pixel, int[] components, int offset)
Returns an array of unnormalized color/alpha components given a pixel in this ColorModel. The pixel value is specified as an int. An IllegalArgumentException will be thrown if pixel values for this ColorModel are not conveniently representable as a single int or if color component values for this ColorModel are not conveniently representable in the unnormalized form. For example, this method can be used to retrieve the components for a specific pixel value in a DirectColorModel. If the components array is null, a new array will be allocated. The components array will be returned. Color/alpha components are stored in the components array starting at offset (even if the array is allocated by this method). An ArrayIndexOutOfBoundsException is thrown if the components array is not null and is not large enough to hold all the color and alpha components (starting at offset). Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method since the implementation in this abstract class throws an UnsupportedOperationException.
param
pixel the specified pixel
param
components the array to receive the color and alpha components of the specified pixel
param
offset the offset into the components array at which to start storing the color and alpha components
return
an array containing the color and alpha components of the specified pixel starting at the specified offset.
throws
UnsupportedOperationException if this method is not supported by this ColorModel
throw new UnsupportedOperationException ("This method is not supported by this color model.");
public int[] getComponents(java.lang.Object pixel, int[] components, int offset)
Returns an array of unnormalized color/alpha components given a pixel in this ColorModel. The pixel value is specified by an array of data elements of type transferType passed in as an object reference. If pixel is not a primitive array of type transferType, a ClassCastException is thrown. An IllegalArgumentException will be thrown if color component values for this ColorModel are not conveniently representable in the unnormalized form. An ArrayIndexOutOfBoundsException is thrown if pixel is not large enough to hold a pixel value for this ColorModel. This method can be used to retrieve the components for a specific pixel value in any ColorModel. If the components array is null, a new array will be allocated. The components array will be returned. Color/alpha components are stored in the components array starting at offset (even if the array is allocated by this method). An ArrayIndexOutOfBoundsException is thrown if the components array is not null and is not large enough to hold all the color and alpha components (starting at offset). Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method since the implementation in this abstract class throws an UnsupportedOperationException.
param
pixel the specified pixel
param
components an array that receives the color and alpha components of the specified pixel
param
offset the index into the components array at which to begin storing the color and alpha components of the specified pixel
return
an array containing the color and alpha components of the specified pixel starting at the specified offset.
throws
UnsupportedOperationException if this method is not supported by this ColorModel
throw new UnsupportedOperationException ("This method is not supported by this color model.");
public int getDataElement(int[] components, int offset)
Returns a pixel value represented as an int in this ColorModel, given an array of unnormalized color/alpha components. This method will throw an IllegalArgumentException if component values for this ColorModel are not conveniently representable as a single int or if color component values for this ColorModel are not conveniently representable in the unnormalized form. An ArrayIndexOutOfBoundsException is thrown if the components array is not large enough to hold all the color and alpha components (starting at offset). Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method since the implementation in this abstract class throws an UnsupportedOperationException.
param
components an array of unnormalized color and alpha components
param
offset the index into components at which to begin retrieving the color and alpha components
return
an int pixel value in this ColorModel corresponding to the specified components.
throws
IllegalArgumentException if pixel values for this ColorModel are not conveniently representable as a single int
throws
IllegalArgumentException if component values for this ColorModel are not conveniently representable in the unnormalized form
throws
ArrayIndexOutOfBoundsException if the components array is not large enough to hold all of the color and alpha components starting at offset
throws
UnsupportedOperationException if this method is not supported by this ColorModel
throw new UnsupportedOperationException("This method is not supported "+ "by this color model.");
public int getDataElement(float[] normComponents, int normOffset)
Returns a pixel value represented as an int in this ColorModel, given an array of normalized color/alpha components. This method will throw an IllegalArgumentException if pixel values for this ColorModel are not conveniently representable as a single int. An ArrayIndexOutOfBoundsException is thrown if the normComponents array is not large enough to hold all the color and alpha components (starting at normOffset). Since ColorModel is an abstract class, any instance is an instance of a subclass. The default implementation of this method in this abstract class first converts from the normalized form to the unnormalized form and then calls getDataElement(int[], int). Subclasses which may have instances which do not support the unnormalized form must override this method.
param
normComponents an array of normalized color and alpha components
param
normOffset the index into normComponents at which to begin retrieving the color and alpha components
return
an int pixel value in this ColorModel corresponding to the specified components.
throws
IllegalArgumentException if pixel values for this ColorModel are not conveniently representable as a single int
throws
ArrayIndexOutOfBoundsException if the normComponents array is not large enough to hold all of the color and alpha components starting at normOffset
since
1.4
int components[] = getUnnormalizedComponents(normComponents, normOffset, null, 0); return getDataElement(components, 0);
public java.lang.Object getDataElements(int rgb, java.lang.Object pixel)
Returns a data element array representation of a pixel in this ColorModel, given an integer pixel representation in the default RGB color model. This array can then be passed to the {@link WritableRaster#setDataElements} method of a {@link WritableRaster} object. If the pixel variable is null, a new array will be allocated. If pixel is not null, it must be a primitive array of type transferType; otherwise, a ClassCastException is thrown. An ArrayIndexOutOfBoundsException is thrown if pixel is not large enough to hold a pixel value for this ColorModel. The pixel array is returned. If this transferType is not supported, a UnsupportedOperationException will be thrown. Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method since the implementation in this abstract class throws an UnsupportedOperationException.
param
rgb the integer pixel representation in the default RGB color model
param
pixel the specified pixel
return
an array representation of the specified pixel in this ColorModel.
throws
ClassCastException if pixel is not a primitive array of type transferType
throws
ArrayIndexOutOfBoundsException if pixel is not large enough to hold a pixel value for this ColorModel
throws
UnsupportedOperationException if this method is not supported by this ColorModel
see
WritableRaster#setDataElements
see
SampleModel#setDataElements
throw new UnsupportedOperationException ("This method is not supported by this color model.");
public java.lang.Object getDataElements(int[] components, int offset, java.lang.Object obj)
Returns a data element array representation of a pixel in this ColorModel, given an array of unnormalized color/alpha components. This array can then be passed to the setDataElements method of a WritableRaster object. This method will throw an IllegalArgumentException if color component values for this ColorModel are not conveniently representable in the unnormalized form. An ArrayIndexOutOfBoundsException is thrown if the components array is not large enough to hold all the color and alpha components (starting at offset). If the obj variable is null, a new array will be allocated. If obj is not null, it must be a primitive array of type transferType; otherwise, a ClassCastException is thrown. An ArrayIndexOutOfBoundsException is thrown if obj is not large enough to hold a pixel value for this ColorModel. Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method since the implementation in this abstract class throws an UnsupportedOperationException.
param
components an array of unnormalized color and alpha components
param
offset the index into components at which to begin retrieving color and alpha components
param
obj the Object representing an array of color and alpha components
return
an Object representing an array of color and alpha components.
throws
ClassCastException if obj is not a primitive array of type transferType
throws
ArrayIndexOutOfBoundsException if obj is not large enough to hold a pixel value for this ColorModel or the components array is not large enough to hold all of the color and alpha components starting at offset
throws
IllegalArgumentException if component values for this ColorModel are not conveniently representable in the unnormalized form
throws
UnsupportedOperationException if this method is not supported by this ColorModel
see
WritableRaster#setDataElements
see
SampleModel#setDataElements
throw new UnsupportedOperationException("This method has not been implemented "+ "for this color model.");
public java.lang.Object getDataElements(float[] normComponents, int normOffset, java.lang.Object obj)
Returns a data element array representation of a pixel in this ColorModel, given an array of normalized color/alpha components. This array can then be passed to the setDataElements method of a WritableRaster object. An ArrayIndexOutOfBoundsException is thrown if the normComponents array is not large enough to hold all the color and alpha components (starting at normOffset). If the obj variable is null, a new array will be allocated. If obj is not null, it must be a primitive array of type transferType; otherwise, a ClassCastException is thrown. An ArrayIndexOutOfBoundsException is thrown if obj is not large enough to hold a pixel value for this ColorModel. Since ColorModel is an abstract class, any instance is an instance of a subclass. The default implementation of this method in this abstract class first converts from the normalized form to the unnormalized form and then calls getDataElement(int[], int, Object). Subclasses which may have instances which do not support the unnormalized form must override this method.
param
normComponents an array of normalized color and alpha components
param
normOffset the index into normComponents at which to begin retrieving color and alpha components
param
obj a primitive data array to hold the returned pixel
return
an Object which is a primitive data array representation of a pixel
throws
ClassCastException if obj is not a primitive array of type transferType
throws
ArrayIndexOutOfBoundsException if obj is not large enough to hold a pixel value for this ColorModel or the normComponents array is not large enough to hold all of the color and alpha components starting at normOffset
see
WritableRaster#setDataElements
see
SampleModel#setDataElements
since
1.4
int components[] = getUnnormalizedComponents(normComponents, normOffset, null, 0); return getDataElements(components, 0, obj);
static int getDefaultTransferType(int pixel_bits)
if (pixel_bits <= 8) { return DataBuffer.TYPE_BYTE; } else if (pixel_bits <= 16) { return DataBuffer.TYPE_USHORT; } else if (pixel_bits <= 32) { return DataBuffer.TYPE_INT; } else { return DataBuffer.TYPE_UNDEFINED; }
static byte[] getGray16TosRGB8LUT(java.awt.color.ICC_ColorSpace grayCS)
if (isLinearGRAYspace(grayCS)) { return getLinearRGB16TosRGB8LUT(); } if (g16Tos8Map != null) { byte[] g16Tos8LUT = (byte []) g16Tos8Map.get(grayCS); if (g16Tos8LUT != null) { return g16Tos8LUT; } } short[] tmp = new short[65536]; for (int i = 0; i <= 65535; i++) { tmp[i] = (short) i; } ICC_Transform[] transformList = new ICC_Transform[2]; ICC_ColorSpace srgbCS = (ICC_ColorSpace) ColorSpace.getInstance(ColorSpace.CS_sRGB); transformList[0] = new ICC_Transform ( grayCS.getProfile(), ICC_Transform.Any, ICC_Transform.In); transformList[1] = new ICC_Transform ( srgbCS.getProfile(), ICC_Transform.Any, ICC_Transform.Out); ICC_Transform t = new ICC_Transform(transformList); tmp = t.colorConvert(tmp, null); byte[] g16Tos8LUT = new byte[65536]; for (int i = 0, j= 2; i <= 65535; i++, j += 3) { // All three components of tmp should be equal, since // the input color space to colorConvert is a gray scale // space. However, there are slight anomalies in the results. // Copy tmp starting at index 2, since colorConvert seems // to be slightly more accurate for the third component! // scale unsigned short (0 - 65535) to unsigned byte (0 - 255) g16Tos8LUT[i] = (byte) (((float) (tmp[j] & 0xffff)) * (1.0f /257.0f) + 0.5f); } if (g16Tos8Map == null) { g16Tos8Map = Collections.synchronizedMap(new WeakHashMap(2)); } g16Tos8Map.put(grayCS, g16Tos8LUT); return g16Tos8LUT;
static byte[] getGray8TosRGB8LUT(java.awt.color.ICC_ColorSpace grayCS)
if (isLinearGRAYspace(grayCS)) { return getLinearRGB8TosRGB8LUT(); } if (g8Tos8Map != null) { byte[] g8Tos8LUT = (byte []) g8Tos8Map.get(grayCS); if (g8Tos8LUT != null) { return g8Tos8LUT; } } byte[] g8Tos8LUT = new byte[256]; for (int i = 0; i <= 255; i++) { g8Tos8LUT[i] = (byte) i; } ICC_Transform[] transformList = new ICC_Transform[2]; ICC_ColorSpace srgbCS = (ICC_ColorSpace) ColorSpace.getInstance(ColorSpace.CS_sRGB); transformList[0] = new ICC_Transform ( grayCS.getProfile(), ICC_Transform.Any, ICC_Transform.In); transformList[1] = new ICC_Transform ( srgbCS.getProfile(), ICC_Transform.Any, ICC_Transform.Out); ICC_Transform t = new ICC_Transform(transformList); byte[] tmp = t.colorConvert(g8Tos8LUT, null); for (int i = 0, j= 2; i <= 255; i++, j += 3) { // All three components of tmp should be equal, since // the input color space to colorConvert is a gray scale // space. However, there are slight anomalies in the results. // Copy tmp starting at index 2, since colorConvert seems // to be slightly more accurate for the third component! g8Tos8LUT[i] = tmp[j]; } if (g8Tos8Map == null) { g8Tos8Map = Collections.synchronizedMap(new WeakHashMap(2)); } g8Tos8Map.put(grayCS, g8Tos8LUT); return g8Tos8LUT;
public abstract int getGreen(int pixel)
Returns the green color component for the specified pixel, scaled from 0 to 255 in the default RGB ColorSpace, sRGB. A color conversion is done if necessary. The pixel value is specified as an int. An IllegalArgumentException is thrown if pixel values for this ColorModel are not conveniently representable as a single int. The returned value is a non pre-multiplied value. For example, if the alpha is premultiplied, this method divides it out before returning the value. If the alpha value is 0, the green value is 0.
param
pixel the specified pixel
return
the value of the green component of the specified pixel.
public int getGreen(java.lang.Object inData)
Returns the green color component for the specified pixel, scaled from 0 to 255 in the default RGB ColorSpace, sRGB. A color conversion is done if necessary. The pixel value is specified by an array of data elements of type transferType passed in as an object reference. The returned value will be a non pre-multiplied value. For example, if the alpha is premultiplied, this method divides it out before returning the value. If the alpha value is 0, the green value is 0. If inData is not a primitive array of type transferType, a ClassCastException is thrown. An ArrayIndexOutOfBoundsException is thrown if inData is not large enough to hold a pixel value for this ColorModel. If this transferType is not supported, a UnsupportedOperationException will be thrown. Since ColorModel is an abstract class, any instance must be an instance of a subclass. Subclasses inherit the implementation of this method and if they don't override it, this method throws an exception if the subclass uses a transferType other than DataBuffer.TYPE_BYTE, DataBuffer.TYPE_USHORT, or DataBuffer.TYPE_INT.
param
inData an array of pixel values
return
the value of the green component of the specified pixel.
throws
ClassCastException if inData is not a primitive array of type transferType
throws
ArrayIndexOutOfBoundsException if inData is not large enough to hold a pixel value for this ColorModel
throws
UnsupportedOperationException if this tranferType is not supported by this ColorModel
int pixel=0,length=0; switch (transferType) { case DataBuffer.TYPE_BYTE: byte bdata[] = (byte[])inData; pixel = bdata[0] & 0xff; length = bdata.length; break; case DataBuffer.TYPE_USHORT: short sdata[] = (short[])inData; pixel = sdata[0] & 0xffff; length = sdata.length; break; case DataBuffer.TYPE_INT: int idata[] = (int[])inData; pixel = idata[0]; length = idata.length; break; default: throw new UnsupportedOperationException("This method has not been "+ "implemented for transferType " + transferType); } if (length == 1) { return getGreen(pixel); } else { throw new UnsupportedOperationException ("This method is not supported by this color model"); }
static short[] getLinearGray16ToOtherGray16LUT(java.awt.color.ICC_ColorSpace grayCS)
if (lg16Toog16Map != null) { short[] lg16Toog16LUT = (short []) lg16Toog16Map.get(grayCS); if (lg16Toog16LUT != null) { return lg16Toog16LUT; } } short[] tmp = new short[65536]; for (int i = 0; i <= 65535; i++) { tmp[i] = (short) i; } ICC_Transform[] transformList = new ICC_Transform[2]; ICC_ColorSpace lgCS = (ICC_ColorSpace) ColorSpace.getInstance(ColorSpace.CS_GRAY); transformList[0] = new ICC_Transform ( lgCS.getProfile(), ICC_Transform.Any, ICC_Transform.In); transformList[1] = new ICC_Transform ( grayCS.getProfile(), ICC_Transform.Any, ICC_Transform.Out); ICC_Transform t = new ICC_Transform(transformList); short[] lg16Toog16LUT = t.colorConvert(tmp, null); if (lg16Toog16Map == null) { lg16Toog16Map = Collections.synchronizedMap(new WeakHashMap(2)); } lg16Toog16Map.put(grayCS, lg16Toog16LUT); return lg16Toog16LUT;
static byte[] getLinearGray16ToOtherGray8LUT(java.awt.color.ICC_ColorSpace grayCS)
if (lg16Toog8Map != null) { byte[] lg16Toog8LUT = (byte []) lg16Toog8Map.get(grayCS); if (lg16Toog8LUT != null) { return lg16Toog8LUT; } } short[] tmp = new short[65536]; for (int i = 0; i <= 65535; i++) { tmp[i] = (short) i; } ICC_Transform[] transformList = new ICC_Transform[2]; ICC_ColorSpace lgCS = (ICC_ColorSpace) ColorSpace.getInstance(ColorSpace.CS_GRAY); transformList[0] = new ICC_Transform ( lgCS.getProfile(), ICC_Transform.Any, ICC_Transform.In); transformList[1] = new ICC_Transform ( grayCS.getProfile(), ICC_Transform.Any, ICC_Transform.Out); ICC_Transform t = new ICC_Transform(transformList); tmp = t.colorConvert(tmp, null); byte[] lg16Toog8LUT = new byte[65536]; for (int i = 0; i <= 65535; i++) { // scale unsigned short (0 - 65535) to unsigned byte (0 - 255) lg16Toog8LUT[i] = (byte) (((float) (tmp[i] & 0xffff)) * (1.0f /257.0f) + 0.5f); } if (lg16Toog8Map == null) { lg16Toog8Map = Collections.synchronizedMap(new WeakHashMap(2)); } lg16Toog8Map.put(grayCS, lg16Toog8LUT); return lg16Toog8LUT;
static byte[] getLinearRGB16TosRGB8LUT()
if (l16Tos8 == null) { l16Tos8 = new byte[65536]; float input, output; // algorithm from IEC 61966-2-1 International Standard for (int i = 0; i <= 65535; i++) { input = ((float) i) / 65535.0f; if (input <= 0.0031308f) { output = input * 12.92f; } else { output = 1.055f * ((float) Math.pow(input, (1.0 / 2.4))) - 0.055f; } l16Tos8[i] = (byte) Math.round(output * 255.0f); } } return l16Tos8;
static byte[] getLinearRGB8TosRGB8LUT()
if (l8Tos8 == null) { l8Tos8 = new byte[256]; float input, output; // algorithm for linear RGB to nonlinear sRGB conversion // is from the IEC 61966-2-1 International Standard, // Colour Management - Default RGB colour space - sRGB, // First Edition, 1999-10, // avaiable for order at http://www.iec.ch for (int i = 0; i <= 255; i++) { input = ((float) i) / 255.0f; if (input <= 0.0031308f) { output = input * 12.92f; } else { output = 1.055f * ((float) Math.pow(input, (1.0 / 2.4))) - 0.055f; } l8Tos8[i] = (byte) Math.round(output * 255.0f); } } return l8Tos8;
public float[] getNormalizedComponents(int[] components, int offset, float[] normComponents, int normOffset)
Returns an array of all of the color/alpha components in normalized form, given an unnormalized component array. Unnormalized components are unsigned integral values between 0 and 2ⁿ - 1, where n is the number of bits for a particular component. Normalized components are float values between a per component minimum and maximum specified by the ColorSpace object for this ColorModel. An IllegalArgumentException will be thrown if color component values for this ColorModel are not conveniently representable in the unnormalized form. If the normComponents array is null, a new array will be allocated. The normComponents array will be returned. Color/alpha components are stored in the normComponents array starting at normOffset (even if the array is allocated by this method). An ArrayIndexOutOfBoundsException is thrown if the normComponents array is not null and is not large enough to hold all the color and alpha components (starting at normOffset). An IllegalArgumentException is thrown if the components array is not large enough to hold all the color and alpha components starting at offset.
Since ColorModel is an abstract class, any instance is an instance of a subclass. The default implementation of this method in this abstract class assumes that component values for this class are conveniently representable in the unnormalized form. Therefore, subclasses which may have instances which do not support the unnormalized form must override this method.
param
components an array containing unnormalized components
param
offset the offset into the components array at which to start retrieving unnormalized components
param
normComponents an array that receives the normalized components
param
normOffset the index into normComponents at which to begin storing normalized components
return
an array containing normalized color and alpha components.
throws
IllegalArgumentException If the component values for this ColorModel are not conveniently representable in the unnormalized form.
throws
UnsupportedOperationException if the constructor of this ColorModel called the super(bits) constructor, but did not override this method. See the constructor, {@link #ColorModel(int)}.
throws
UnsupportedOperationException if this method is unable to determine the number of bits per component
// Make sure that someone isn't using a custom color model // that called the super(bits) constructor. if (colorSpace == null) { throw new UnsupportedOperationException("This method is not supported by "+ "this color model."); } if (nBits == null) { throw new UnsupportedOperationException ("This method is not supported. "+ "Unable to determine #bits per "+ "component."); } if ((components.length - offset) < numComponents) { throw new IllegalArgumentException( "Incorrect number of components. Expecting "+ numComponents); } if (normComponents == null) { normComponents = new float[numComponents+normOffset]; } if (supportsAlpha && isAlphaPremultiplied) { // Normalized coordinates are non premultiplied float normAlpha = (float)components[offset+numColorComponents]; normAlpha /= (float) ((1<<nBits[numColorComponents]) - 1); if (normAlpha != 0.0f) { for (int i=0; i < numColorComponents; i++) { normComponents[normOffset+i] = ((float) components[offset+i]) / (normAlpha * ((float) ((1<<nBits[i]) - 1))); } } else { for (int i=0; i < numColorComponents; i++) { normComponents[normOffset+i] = 0.0f; } } normComponents[normOffset+numColorComponents] = normAlpha; } else { for (int i=0; i < numComponents; i++) { normComponents[normOffset+i] = ((float) components[offset+i]) / ((float) ((1<<nBits[i]) - 1)); } } return normComponents;
public float[] getNormalizedComponents(java.lang.Object pixel, float[] normComponents, int normOffset)
Returns an array of all of the color/alpha components in normalized form, given a pixel in this ColorModel. The pixel value is specified by an array of data elements of type transferType passed in as an object reference. If pixel is not a primitive array of type transferType, a ClassCastException is thrown. An ArrayIndexOutOfBoundsException is thrown if pixel is not large enough to hold a pixel value for this ColorModel. Normalized components are float values between a per component minimum and maximum specified by the ColorSpace object for this ColorModel. If the normComponents array is null, a new array will be allocated. The normComponents array will be returned. Color/alpha components are stored in the normComponents array starting at normOffset (even if the array is allocated by this method). An ArrayIndexOutOfBoundsException is thrown if the normComponents array is not null and is not large enough to hold all the color and alpha components (starting at normOffset). Since ColorModel is an abstract class, any instance is an instance of a subclass. The default implementation of this method in this abstract class first retrieves color and alpha components in the unnormalized form using getComponents(Object, int[], int) and then calls getNormalizedComponents(int[], int, float[], int). Subclasses which may have instances which do not support the unnormalized form must override this method.
param
pixel the specified pixel
param
normComponents an array to receive the normalized components
param
normOffset the offset into the normComponents array at which to start storing normalized components
return
an array containing normalized color and alpha components.
throws
ClassCastException if pixel is not a primitive array of type transferType
throws
ArrayIndexOutOfBoundsException if normComponents is not large enough to hold all color and alpha components starting at normOffset
throws
ArrayIndexOutOfBoundsException if pixel is not large enough to hold a pixel value for this ColorModel.
throws
UnsupportedOperationException if the constructor of this ColorModel called the super(bits) constructor, but did not override this method. See the constructor, {@link #ColorModel(int)}.
throws
UnsupportedOperationException if this method is unable to determine the number of bits per component
since
1.4
int components[] = getComponents(pixel, null, 0); return getNormalizedComponents(components, 0, normComponents, normOffset);
public int getNumColorComponents()
Returns the number of color components in this ColorModel. This is the number of components returned by {@link ColorSpace#getNumComponents}.
return
the number of color components in this ColorModel.
see
ColorSpace#getNumComponents
return numColorComponents;
public int getNumComponents()
Returns the number of components, including alpha, in this ColorModel. This is equal to the number of color components, optionally plus one, if there is an alpha component.
return
the number of components in this ColorModel
return numComponents;
public int getPixelSize()
Returns the number of bits per pixel described by this ColorModel.
return
the number of bits per pixel.
return pixel_bits;
public int getRGB(int pixel)
Returns the color/alpha components of the pixel in the default RGB color model format. A color conversion is done if necessary. The pixel value is specified as an int. An IllegalArgumentException thrown if pixel values for this ColorModel are not conveniently representable as a single int. The returned value is in a non pre-multiplied format. For example, if the alpha is premultiplied, this method divides it out of the color components. If the alpha value is 0, the color values are 0.
param
pixel the specified pixel
return
the RGB value of the color/alpha components of the specified pixel.
see
ColorModel#getRGBdefault
return (getAlpha(pixel) << 24) | (getRed(pixel) << 16) | (getGreen(pixel) << 8) | (getBlue(pixel) << 0);
public int getRGB(java.lang.Object inData)
Returns the color/alpha components for the specified pixel in the default RGB color model format. A color conversion is done if necessary. The pixel value is specified by an array of data elements of type transferType passed in as an object reference. If inData is not a primitive array of type transferType, a ClassCastException is thrown. An ArrayIndexOutOfBoundsException is thrown if inData is not large enough to hold a pixel value for this ColorModel. The returned value will be in a non pre-multiplied format, i.e. if the alpha is premultiplied, this method will divide it out of the color components (if the alpha value is 0, the color values will be 0).
param
inData the specified pixel
return
the color and alpha components of the specified pixel.
see
ColorModel#getRGBdefault
return (getAlpha(inData) << 24) | (getRed(inData) << 16) | (getGreen(inData) << 8) | (getBlue(inData) << 0);
public static java.awt.image.ColorModel getRGBdefault()
Returns a DirectColorModel that describes the default format for integer RGB values used in many of the methods in the AWT image interfaces for the convenience of the programmer. The color space is the default {@link ColorSpace}, sRGB. The format for the RGB values is an integer with 8 bits each of alpha, red, green, and blue color components ordered correspondingly from the most significant byte to the least significant byte, as in: 0xAARRGGBB. Color components are not premultiplied by the alpha component. This format does not necessarily represent the native or the most efficient ColorModel for a particular device or for all images. It is merely used as a common color model format.
return
a DirectColorModelobject describing default RGB values.
if (RGBdefault == null) { RGBdefault = new DirectColorModel(32, 0x00ff0000, // Red 0x0000ff00, // Green 0x000000ff, // Blue 0xff000000 // Alpha ); } return RGBdefault;
public abstract int getRed(int pixel)
Returns the red color component for the specified pixel, scaled from 0 to 255 in the default RGB ColorSpace, sRGB. A color conversion is done if necessary. The pixel value is specified as an int. An IllegalArgumentException is thrown if pixel values for this ColorModel are not conveniently representable as a single int. The returned value is not a pre-multiplied value. For example, if the alpha is premultiplied, this method divides it out before returning the value. If the alpha value is 0, the red value is 0.
param
pixel a specified pixel
return
the value of the red component of the specified pixel.
public int getRed(java.lang.Object inData)
Returns the red color component for the specified pixel, scaled from 0 to 255 in the default RGB ColorSpace, sRGB. A color conversion is done if necessary. The pixel value is specified by an array of data elements of type transferType passed in as an object reference. The returned value is a non pre-multiplied value. For example, if alpha is premultiplied, this method divides it out before returning the value. If the alpha value is 0, the red value is 0. If inData is not a primitive array of type transferType, a ClassCastException is thrown. An ArrayIndexOutOfBoundsException is thrown if inData is not large enough to hold a pixel value for this ColorModel. If this transferType is not supported, a UnsupportedOperationException will be thrown. Since ColorModel is an abstract class, any instance must be an instance of a subclass. Subclasses inherit the implementation of this method and if they don't override it, this method throws an exception if the subclass uses a transferType other than DataBuffer.TYPE_BYTE, DataBuffer.TYPE_USHORT, or DataBuffer.TYPE_INT.
param
inData an array of pixel values
return
the value of the red component of the specified pixel.
throws
ClassCastException if inData is not a primitive array of type transferType
throws
ArrayIndexOutOfBoundsException if inData is not large enough to hold a pixel value for this ColorModel
throws
UnsupportedOperationException if this tranferType is not supported by this ColorModel
int pixel=0,length=0; switch (transferType) { case DataBuffer.TYPE_BYTE: byte bdata[] = (byte[])inData; pixel = bdata[0] & 0xff; length = bdata.length; break; case DataBuffer.TYPE_USHORT: short sdata[] = (short[])inData; pixel = sdata[0] & 0xffff; length = sdata.length; break; case DataBuffer.TYPE_INT: int idata[] = (int[])inData; pixel = idata[0]; length = idata.length; break; default: throw new UnsupportedOperationException("This method has not been "+ "implemented for transferType " + transferType); } if (length == 1) { return getRed(pixel); } else { throw new UnsupportedOperationException ("This method is not supported by this color model"); }
public final int getTransferType()
Returns the transfer type of this ColorModel. The transfer type is the type of primitive array used to represent pixel values as arrays.
return
the transfer type.
since
1.3
return transferType;
public int getTransparency()
Returns the transparency. Returns either OPAQUE, BITMASK, or TRANSLUCENT.
return
the transparency of this ColorModel.
see
Transparency#OPAQUE
see
Transparency#BITMASK
see
Transparency#TRANSLUCENT
return transparency;
public int[] getUnnormalizedComponents(float[] normComponents, int normOffset, int[] components, int offset)
Returns an array of all of the color/alpha components in unnormalized form, given a normalized component array. Unnormalized components are unsigned integral values between 0 and 2ⁿ - 1, where n is the number of bits for a particular component. Normalized components are float values between a per component minimum and maximum specified by the ColorSpace object for this ColorModel. An IllegalArgumentException will be thrown if color component values for this ColorModel are not conveniently representable in the unnormalized form. If the components array is null, a new array will be allocated. The components array will be returned. Color/alpha components are stored in the components array starting at offset (even if the array is allocated by this method). An ArrayIndexOutOfBoundsException is thrown if the components array is not null and is not large enough to hold all the color and alpha components (starting at offset). An IllegalArgumentException is thrown if the normComponents array is not large enough to hold all the color and alpha components starting at normOffset.
param
normComponents an array containing normalized components
param
normOffset the offset into the normComponents array at which to start retrieving normalized components
param
components an array that receives the components from normComponents
param
offset the index into components at which to begin storing normalized components from normComponents
return
an array containing unnormalized color and alpha components.
throws
IllegalArgumentException If the component values for this ColorModel are not conveniently representable in the unnormalized form.
throws
IllegalArgumentException if the length of normComponents minus normOffset is less than numComponents
throws
UnsupportedOperationException if the constructor of this ColorModel called the super(bits) constructor, but did not override this method. See the constructor, {@link #ColorModel(int)}.
// Make sure that someone isn't using a custom color model // that called the super(bits) constructor. if (colorSpace == null) { throw new UnsupportedOperationException("This method is not supported "+ "by this color model."); } if (nBits == null) { throw new UnsupportedOperationException ("This method is not supported. "+ "Unable to determine #bits per "+ "component."); } if ((normComponents.length - normOffset) < numComponents) { throw new IllegalArgumentException( "Incorrect number of components. Expecting "+ numComponents); } if (components == null) { components = new int[offset+numComponents]; } if (supportsAlpha && isAlphaPremultiplied) { float normAlpha = normComponents[normOffset+numColorComponents]; for (int i=0; i < numColorComponents; i++) { components[offset+i] = (int) (normComponents[normOffset+i] * ((1<<nBits[i]) - 1) * normAlpha + 0.5f); } components[offset+numColorComponents] = (int) (normAlpha * ((1<<nBits[numColorComponents]) - 1) + 0.5f); } else { for (int i=0; i < numComponents; i++) { components[offset+i] = (int) (normComponents[normOffset+i] * ((1<<nBits[i]) - 1) + 0.5f); } } return components;
static short[] getsRGB8ToLinearRGB16LUT()
if (s8Tol16 == null) { s8Tol16 = new short[256]; float input, output; // algorithm from IEC 61966-2-1 International Standard for (int i = 0; i <= 255; i++) { input = ((float) i) / 255.0f; if (input <= 0.04045f) { output = input / 12.92f; } else { output = (float) Math.pow((input + 0.055f) / 1.055f, 2.4); } s8Tol16[i] = (short) Math.round(output * 65535.0f); } } return s8Tol16;
static byte[] getsRGB8ToLinearRGB8LUT()
if (s8Tol8 == null) { s8Tol8 = new byte[256]; float input, output; // algorithm from IEC 61966-2-1 International Standard for (int i = 0; i <= 255; i++) { input = ((float) i) / 255.0f; if (input <= 0.04045f) { output = input / 12.92f; } else { output = (float) Math.pow((input + 0.055f) / 1.055f, 2.4); } s8Tol8[i] = (byte) Math.round(output * 255.0f); } } return s8Tol8;
public final boolean hasAlpha()
Returns whether or not alpha is supported in this ColorModel.
return
true if alpha is supported in this ColorModel; false otherwise.
return supportsAlpha;
public int hashCode()
Returns the hash code for this ColorModel.
return
a hash code for this ColorModel.
int result = 0; result = (supportsAlpha ? 2 : 3) + (isAlphaPremultiplied ? 4 : 5) + pixel_bits * 6 + transparency * 7 + numComponents * 8; if (nBits != null) { for (int i = 0; i < numComponents; i++) { result = result + nBits[i] * (i + 9); } } return result;
private static native void initIDs()
public final boolean isAlphaPremultiplied()
Returns whether or not the alpha has been premultiplied in the pixel values to be translated by this ColorModel. If the boolean is true, this ColorModel is to be used to interpret pixel values in which color and alpha information are represented as separate spatial bands, and color samples are assumed to have been multiplied by the alpha sample.
return
true if the alpha values are premultiplied in the pixel values to be translated by this ColorModel; false otherwise.
return isAlphaPremultiplied;
public boolean isCompatibleRaster(java.awt.image.Raster raster)
Returns true if raster is compatible with this ColorModel and false if it is not. Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method since the implementation in this abstract class throws an UnsupportedOperationException.
param
raster the {@link Raster} object to test for compatibility
return
true if raster is compatible with this ColorModel.
throws
UnsupportedOperationException if this method has not been implemented for this ColorModel
throw new UnsupportedOperationException( "This method has not been implemented for this ColorModel.");
public boolean isCompatibleSampleModel(java.awt.image.SampleModel sm)
Checks if the SampleModel is compatible with this ColorModel. Since ColorModel is an abstract class, any instance is an instance of a subclass. Subclasses must override this method since the implementation in this abstract class throws an UnsupportedOperationException.
param
sm the specified SampleModel
return
true if the specified SampleModel is compatible with this ColorModel; false otherwise.
throws
UnsupportedOperationException if this method is not supported by this ColorModel
see
SampleModel
throw new UnsupportedOperationException ("This method is not supported by this color model");
static boolean isLinearGRAYspace(java.awt.color.ColorSpace cs)
// Note: CMM.GRAYspace will be null if the linear // gray space has not been created yet. return (cs == CMM.GRAYspace);
static boolean isLinearRGBspace(java.awt.color.ColorSpace cs)
// 16-bit linear to 16-bit "other" gray // Note: CMM.LINEAR_RGBspace will be null if the linear // RGB space has not been created yet. return (cs == CMM.LINEAR_RGBspace);
static void loadLibraries()
if (!loaded) { java.security.AccessController.doPrivileged( new sun.security.action.LoadLibraryAction("awt")); loaded = true; }
public java.lang.String toString()
Returns the String representation of the contents of this ColorModelobject.
return
a String representing the contents of this ColorModel object.
return new String("ColorModel: #pixelBits = "+pixel_bits + " numComponents = "+numComponents + " color space = "+colorSpace + " transparency = "+transparency + " has alpha = "+supportsAlpha + " isAlphaPre = "+isAlphaPremultiplied );