public class ComponentColorModel extends ColorModel
ColorModel class that works with pixel values that represent color and alpha information as separate samples and that store each sample in a separate data element. This class can be used with an arbitrary
ColorSpace. The number of color samples in the pixel values must be same as the number of color components in the
ColorSpace. There may be a single alpha sample.
For those methods that use a primitive array pixel representation of type transferType, the array length is the same as the number of color and alpha samples. Color samples are stored first in the array followed by the alpha sample, if present. The order of the color samples is 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.
The translation from pixel sample values to color/alpha components for display or processing purposes is based on a one-to-one correspondence of samples to components. Depending on the transfer type used to create an instance of ComponentColorModel, the pixel sample values represented by that instance may be signed or unsigned and may be of integral type or float or double (see below for details). The translation from sample values to normalized color/alpha components must follow certain rules. For float and double samples, the translation is an identity, i.e. normalized component values are equal to the corresponding sample values. For integral samples, the translation should be only a simple scale and offset, where the scale and offset constants may be different for each component. The result of applying the scale and offset constants is a set of color/alpha component values, which are guaranteed to fall within a certain range. Typically, the range for a color component will be the range defined by the getMinValue and getMaxValue methods of the ColorSpace class. The range for an alpha component should be 0.0 to 1.0.
Instances of ComponentColorModel created with transfer types DataBuffer.TYPE_BYTE, DataBuffer.TYPE_USHORT, and DataBuffer.TYPE_INT have pixel sample values which are treated as unsigned integral values. The number of bits in a color or alpha sample of a pixel value might not be the same as the number of bits for the corresponding color or alpha sample passed to the ComponentColorModel(ColorSpace, int[], boolean, boolean, int, int) constructor. In that case, this class assumes that the least significant n bits of a sample value hold the component value, where n is the number of significant bits for the component passed to the constructor. It also assumes that any higher-order bits in a sample value are zero. Thus, sample values range from 0 to 2n - 1. This class maps these sample values to normalized color component values such that 0 maps to the value obtained from the ColorSpace's getMinValue method for each component and 2n - 1 maps to the value obtained from getMaxValue. To create a ComponentColorModel with a different color sample mapping requires subclassing this class and overriding the getNormalizedComponents(Object, float[], int) method. The mapping for an alpha sample always maps 0 to 0.0 and 2n - 1 to 1.0.
For instances with unsigned sample values, the unnormalized color/alpha component representation is only supported if two conditions hold. First, sample value value 0 must map to normalized component value 0.0 and sample value 2n - 1 to 1.0. Second the min/max range of all color components of the ColorSpace must be 0.0 to 1.0. In this case, the component representation is the n least significant bits of the corresponding sample. Thus 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 these conditions are not met, any method taking an unnormalized component argument will throw an IllegalArgumentException.
Instances of ComponentColorModel created with transfer types DataBuffer.TYPE_SHORT, DataBuffer.TYPE_FLOAT, and DataBuffer.TYPE_DOUBLE have pixel sample values which are treated as signed short, float, or double values. Such instances do not support the unnormalized color/alpha component representation, so any methods taking such a representation as an argument will throw an IllegalArgumentException when called on one of these instances. The normalized component values of instances of this class have a range which depends on the transfer type as follows: for float samples, the full range of the float data type; for double samples, the full range of the float data type (resulting from casting double to float); for short samples, from approximately -maxVal to +maxVal, where maxVal is the per component maximum value for the ColorSpace (-32767 maps to -maxVal, 0 maps to 0.0, and 32767 maps to +maxVal). A subclass may override the scaling for short sample values to normalized component values by overriding the getNormalizedComponents(Object, float[], int) method. For float and double samples, the normalized component values are taken to be equal to the corresponding sample values, and subclasses should not attempt to add any non-identity scaling for these transfer types.
Instances of ComponentColorModel created with transfer types DataBuffer.TYPE_SHORT, DataBuffer.TYPE_FLOAT, and DataBuffer.TYPE_DOUBLE use all the bits of all sample values. Thus all color/alpha components have 16 bits when using DataBuffer.TYPE_SHORT, 32 bits when using DataBuffer.TYPE_FLOAT, and 64 bits when using DataBuffer.TYPE_DOUBLE. When the ComponentColorModel(ColorSpace, int[], boolean, boolean, int, int) form of constructor is used with one of these transfer types, the bits array argument is ignored.
It is possible to have color/alpha sample values which cannot be reasonably interpreted as component values for rendering. This can happen when ComponentColorModel is subclassed to override the mapping of unsigned sample values to normalized color component values or when signed sample values outside a certain range are used. (As an example, specifying an alpha component as a signed short value outside the range 0 to 32767, normalized range 0.0 to 1.0, can lead to unexpected results.) It is the responsibility of applications to appropriately scale pixel data before rendering such that color components fall within the normalized range of the ColorSpace (obtained using the getMinValue and getMaxValue methods of the ColorSpace class) and the alpha component is between 0.0 and 1.0. If color or alpha component values fall outside these ranges, rendering results are indeterminate.
Methods that use a single int pixel representation throw an IllegalArgumentException, unless the number of components for the ComponentColorModel is one and the component value is unsigned -- in other words, a single color component using a transfer type of DataBuffer.TYPE_BYTE, DataBuffer.TYPE_USHORT, or DataBuffer.TYPE_INT and no alpha.
A ComponentColorModel can be used in conjunction with a ComponentSampleModel, a BandedSampleModel, or a PixelInterleavedSampleModel to construct a BufferedImage.
pixel_bits, transferTypeBITMASK, OPAQUE, TRANSLUCENT| Constructor and Description |
|---|
ComponentColorModel(ColorSpace
Constructs a
ComponentColorModel from the specified parameters.
|
ComponentColorModel(ColorSpace
Constructs a
ComponentColorModel from the specified parameters.
|
| Modifier and Type | Method and Description |
|---|---|
ColorModel |
coerceData(WritableRaster
Forces the raster data to match the state specified in the
isAlphaPremultiplied variable, assuming the data is currently correctly described by this
ColorModel.
|
SampleModel |
createCompatibleSampleModel(int w, int h)
Creates a
SampleModel with the specified width and height, that has a data layout compatible with this
ColorModel.
|
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.
|
boolean |
equals(Object
Compares this color model with another for equality.
|
int |
getAlpha(int pixel)
Returns the alpha component for the specified pixel, scaled from 0 to 255.
|
int |
getAlpha(Object
Returns the alpha component for the specified pixel, scaled from 0 to 255.
|
WritableRaster |
getAlphaRaster(WritableRaster
Returns a
Raster representing the alpha channel of an image, extracted from the input
Raster.
|
int |
getBlue(int pixel)
Returns the blue color component for the specified pixel, scaled from 0 to 255 in the default RGB ColorSpace, sRGB.
|
int |
getBlue(Object
Returns the blue color component for the specified pixel, scaled from 0 to 255 in the default RGB
ColorSpace, sRGB.
|
int[] |
getComponents(int pixel, int[] components, int offset)
Returns an array of unnormalized color/alpha components given a pixel in this
ColorModel.
|
int[] |
getComponents(Object
Returns an array of unnormalized color/alpha components given a pixel in this
ColorModel.
|
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.
|
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.
|
Object |
getDataElements(float[] normComponents, int normOffset, Object
Returns a data element array representation of a pixel in this
ColorModel, given an array of normalized color/alpha components.
|
Object |
getDataElements(int[] components, int offset, Object
Returns a data element array representation of a pixel in this
ColorModel, given an array of unnormalized color/alpha components.
|
Object |
getDataElements(int rgb, Object
Returns a data element array representation of a pixel in this
ColorModel, given an integer pixel representation in the default RGB color model.
|
int |
getGreen(int pixel)
Returns the green color component for the specified pixel, scaled from 0 to 255 in the default RGB ColorSpace, sRGB.
|
int |
getGreen(Object
Returns the green color component for the specified pixel, scaled from 0 to 255 in the default RGB
ColorSpace, sRGB.
|
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.
|
float[] |
getNormalizedComponents(Object
Returns an array of all of the color/alpha components in normalized form, given a pixel in this
ColorModel.
|
int |
getRed(int pixel)
Returns the red color component for the specified pixel, scaled from 0 to 255 in the default RGB ColorSpace, sRGB.
|
int |
getRed(Object
Returns the red color component for the specified pixel, scaled from 0 to 255 in the default RGB ColorSpace, sRGB.
|
int |
getRGB(int pixel)
Returns the color/alpha components of the pixel in the default RGB color model format.
|
int |
getRGB(Object
Returns the color/alpha components for the specified pixel in the default RGB color model format.
|
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.
|
boolean |
isCompatibleRaster(Raster
Returns true if
raster is compatible with this
ColorModel; false if it is not.
|
boolean |
isCompatibleSampleModel(SampleModel
Checks whether or not the specified
SampleModel is compatible with this
ColorModel.
|
finalize, getColorSpace, getComponentSize, getComponentSize, getNumColorComponents, getNumComponents, getPixelSize, getRGBdefault, getTransferType, getTransparency, hasAlpha, hashCode, isAlphaPremultiplied, toStringpublic ComponentColorModel(ColorSpacecolorSpace, int[] bits, boolean hasAlpha, boolean isAlphaPremultiplied, int transparency, int transferType)
ComponentColorModel from the specified parameters. Color components will be in the specified
ColorSpace. The supported transfer types are
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, and
DataBuffer.TYPE_DOUBLE. If not null, the
bits array specifies the number of significant bits per color and alpha component and its length should be at least 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. When the
transferType is
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE the
bits array argument is ignored.
hasAlpha indicates whether alpha information is present. If
hasAlpha is true, then the boolean
isAlphaPremultiplied specifies how to interpret color and alpha samples in pixel values. 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 acceptable
transparency values are
OPAQUE,
BITMASK or
TRANSLUCENT. The
transferType is the type of primitive array used to represent pixel values.
colorSpace - The
ColorSpace associated with this color model.
bits - The number of significant bits per component. May be null, in which case all bits of all component samples will be significant. Ignored if transferType is one of
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE, in which case all bits of all component samples will be significant.
hasAlpha - If true, this color model supports alpha.
isAlphaPremultiplied - If true, alpha is premultiplied.
transparency - Specifies what alpha values can be represented by this color model.
transferType - Specifies the type of primitive array used to represent pixel values.
IllegalArgumentException - If the
bits array argument is not null, its length is less than the number of color and alpha components, and transferType is one of
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT, or
DataBuffer.TYPE_INT.
IllegalArgumentException - If transferType is not one of
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE.
ColorSpace,
Transparency
public ComponentColorModel(ColorSpacecolorSpace, boolean hasAlpha, boolean isAlphaPremultiplied, int transparency, int transferType)
ComponentColorModel from the specified parameters. Color components will be in the specified
ColorSpace. The supported transfer types are
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, and
DataBuffer.TYPE_DOUBLE. The number of significant bits per color and alpha component will be 8, 16, 32, 16, 32, or 64, respectively. The number of color components will be the number of components in the
ColorSpace. There will be an alpha component if
hasAlpha is
true. If
hasAlpha is true, then the boolean
isAlphaPremultiplied specifies how to interpret color and alpha samples in pixel values. 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 acceptable
transparency values are
OPAQUE,
BITMASK or
TRANSLUCENT. The
transferType is the type of primitive array used to represent pixel values.
colorSpace - The
ColorSpace associated with this color model.
hasAlpha - If true, this color model supports alpha.
isAlphaPremultiplied - If true, alpha is premultiplied.
transparency - Specifies what alpha values can be represented by this color model.
transferType - Specifies the type of primitive array used to represent pixel values.
IllegalArgumentException - If transferType is not one of
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE.
ColorSpace,
Transparency
public int getRed(int pixel)
getRed in class
ColorModel
pixel - The pixel from which you want to get the red color component.
IllegalArgumentException - If there is more than one component in this
ColorModel.
IllegalArgumentException - If the component value for this
ColorModel is signed
public int getGreen(int pixel)
getGreen in class
ColorModel
pixel - The pixel from which you want to get the green color component.
IllegalArgumentException - If there is more than one component in this
ColorModel.
IllegalArgumentException - If the component value for this
ColorModel is signed
public int getBlue(int pixel)
getBlue in class
ColorModel
pixel - The pixel from which you want to get the blue color component.
IllegalArgumentException - If there is more than one component in this
ColorModel.
IllegalArgumentException - If the component value for this
ColorModel is signed
public int getAlpha(int pixel)
getAlpha in class
ColorModel
pixel - The pixel from which you want to get the alpha component.
IllegalArgumentException - If there is more than one component in this
ColorModel.
IllegalArgumentException - If the component value for this
ColorModel is signed
public int getRGB(int pixel)
getRGB in class
ColorModel
pixel - The pixel from which you want to get the color/alpha components.
IllegalArgumentException - If there is more than one component in this
ColorModel.
IllegalArgumentException - If the component value for this
ColorModel is signed
ColorModel.getRGBdefault()
public int getRed(ObjectinData)
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. If the alpha is premultiplied, this method divides it out before returning the value (if the alpha value is 0, the red value will be 0). Since
ComponentColorModel can be subclassed, subclasses inherit the implementation of this method and if they don't override it then they throw an exception if they use an unsupported
transferType.
getRed in class
ColorModel
inData - The pixel from which you want to get the red color component, specified by an array of data elements of type
transferType.
ClassCastException - If
inData is not a primitive array of type
transferType.
ArrayIndexOutOfBoundsException - if
inData is not large enough to hold a pixel value for this
ColorModel.
UnsupportedOperationException - If the transfer type of this
ComponentColorModel is not one of the supported transfer types:
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE.
public int getGreen(ObjectinData)
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. If the alpha is premultiplied, this method divides it out before returning the value (if the alpha value is 0, the green value will be 0). Since
ComponentColorModel can be subclassed, subclasses inherit the implementation of this method and if they don't override it then they throw an exception if they use an unsupported
transferType.
getGreen in class
ColorModel
inData - The pixel from which you want to get the green color component, specified by an array of data elements of type
transferType.
ClassCastException - If
inData is not a primitive array of type
transferType.
ArrayIndexOutOfBoundsException - if
inData is not large enough to hold a pixel value for this
ColorModel.
UnsupportedOperationException - If the transfer type of this
ComponentColorModel is not one of the supported transfer types:
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE.
public int getBlue(ObjectinData)
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. 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). Since
ComponentColorModel can be subclassed, subclasses inherit the implementation of this method and if they don't override it then they throw an exception if they use an unsupported
transferType.
getBlue in class
ColorModel
inData - The pixel from which you want to get the blue color component, specified by an array of data elements of type
transferType.
ClassCastException - If
inData is not a primitive array of type
transferType.
ArrayIndexOutOfBoundsException - if
inData is not large enough to hold a pixel value for this
ColorModel.
UnsupportedOperationException - If the transfer type of this
ComponentColorModel is not one of the supported transfer types:
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE.
public int getAlpha(ObjectinData)
transferType passed in as an object reference. Since
ComponentColorModel can be subclassed, subclasses inherit the implementation of this method and if they don't override it then they throw an exception if they use an unsupported
transferType.
getAlpha in class
ColorModel
inData - The pixel from which you want to get the alpha component, specified by an array of data elements of type
transferType.
ClassCastException - If
inData is not a primitive array of type
transferType.
ArrayIndexOutOfBoundsException - if
inData is not large enough to hold a pixel value for this
ColorModel.
UnsupportedOperationException - If the transfer type of this
ComponentColorModel is not one of the supported transfer types:
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE.
public int getRGB(ObjectinData)
transferType passed in as an object reference. The returned value is in a non pre-multiplied format. If the alpha is premultiplied, this method divides it out of the color components (if the alpha value is 0, the color values will be 0). Since
ComponentColorModel can be subclassed, subclasses inherit the implementation of this method and if they don't override it then they throw an exception if they use an unsupported
transferType.
getRGB in class
ColorModel
inData - The pixel from which you want to get the color/alpha components, specified by an array of data elements of type
transferType.
ClassCastException - If
inData is not a primitive array of type
transferType.
ArrayIndexOutOfBoundsException - if
inData is not large enough to hold a pixel value for this
ColorModel.
UnsupportedOperationException - If the transfer type of this
ComponentColorModel is not one of the supported transfer types:
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE.
ColorModel.getRGBdefault()
public ObjectgetDataElements(int rgb, Object pixel)
ColorModel, given an integer pixel representation in the default RGB color model. This array can then be passed to the
setDataElements method of a
WritableRaster object. If the
pixel parameter is null, a new array is allocated. Since
ComponentColorModel can be subclassed, subclasses inherit the implementation of this method and if they don't override it then they throw an exception if they use an unsupported
transferType.
getDataElements in class
ColorModel
rgb - the integer representation of the pixel in the RGB color model
pixel - the specified pixel
ColorModel.
ClassCastException - If
pixel is not null and is not a primitive array of type
transferType.
ArrayIndexOutOfBoundsException - If
pixel is not large enough to hold a pixel value for this
ColorModel.
UnsupportedOperationException - If the transfer type of this
ComponentColorModel is not one of the supported transfer types:
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE.
WritableRaster.setDataElements(int, int, java.lang.Object) ,
SampleModel.setDataElements(int, int, java.lang.Object, java.awt.image.DataBuffer)
public int[] getComponents(int pixel,
int[] components,
int offset)
ColorModel. An IllegalArgumentException is thrown if the component value for this
ColorModel is not conveniently representable in the unnormalized form. Color/alpha components are stored in the
components array starting at
offset (even if the array is allocated by this method).
getComponents in class
ColorModel
pixel - The pixel value specified as an integer.
components - An integer array in which to store the unnormalized color/alpha components. If the
components array is null, a new array is allocated.
offset - An offset into the
components array.
IllegalArgumentException - If there is more than one component in this
ColorModel.
IllegalArgumentException - If this
ColorModel does not support the unnormalized form
ArrayIndexOutOfBoundsException - If the
components array is not null and is not large enough to hold all the color and alpha components (starting at offset).
public int[] getComponents(Objectpixel, int[] components, int offset)
ColorModel. The pixel value is specified by an array of data elements of type
transferType passed in as an object reference. An IllegalArgumentException is thrown if the component values for this
ColorModel are not conveniently representable in the unnormalized form. Color/alpha components are stored in the
components array starting at
offset (even if the array is allocated by this method). Since
ComponentColorModel can be subclassed, subclasses inherit the implementation of this method and if they don't override it then this method might throw an exception if they use an unsupported
transferType.
getComponents in class
ColorModel
pixel - A pixel value specified by an array of data elements of type
transferType.
components - An integer array in which to store the unnormalized color/alpha components. If the
components array is null, a new array is allocated.
offset - An offset into the
components array.
components array.
IllegalArgumentException - If this
ComponentColorModel does not support the unnormalized form
UnsupportedOperationException - in some cases iff the transfer type of this
ComponentColorModel is not one of the following transfer types:
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT, or
DataBuffer.TYPE_INT.
ClassCastException - If
pixel is not a primitive array of type
transferType.
IllegalArgumentException - If the
components array is not null and is not large enough to hold all the color and alpha components (starting at offset), or if
pixel is not large enough to hold a pixel value for this ColorModel.
public int[] getUnnormalizedComponents(float[] normComponents,
int normOffset,
int[] components,
int offset)
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.
getUnnormalizedComponents in class
ColorModel
normComponents - an array containing normalized components
normOffset - the offset into the
normComponents array at which to start retrieving normalized components
components - an array that receives the components from
normComponents
offset - the index into
components at which to begin storing normalized components from
normComponents
IllegalArgumentException - If this
ComponentColorModel does not support the unnormalized form
IllegalArgumentException - if the length of
normComponents minus
normOffset is less than
numComponents
public float[] getNormalizedComponents(int[] components,
int offset,
float[] normComponents,
int normOffset)
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.
getNormalizedComponents in class
ColorModel
components - an array containing unnormalized components
offset - the offset into the
components array at which to start retrieving unnormalized components
normComponents - an array that receives the normalized components
normOffset - the index into
normComponents at which to begin storing normalized components
IllegalArgumentException - If this
ComponentColorModel does not support the unnormalized form
public int getDataElement(int[] components,
int offset)
ColorModel, given an array of unnormalized color/alpha components.
getDataElement in class
ColorModel
components - An array of unnormalized color/alpha components.
offset - An offset into the
components array.
IllegalArgumentException - If there is more than one component in this
ColorModel.
IllegalArgumentException - If this
ComponentColorModel does not support the unnormalized form
public ObjectgetDataElements(int[] components, int offset, Object obj)
ColorModel, given an array of unnormalized color/alpha components. This array can then be passed to the
setDataElements method of a
WritableRaster object.
getDataElements in class
ColorModel
components - An array of unnormalized color/alpha components.
offset - The integer offset into the
components array.
obj - The object in which to store the data element array representation of the pixel. If
obj variable is null, a new array is allocated. If
obj is not null, it must be a primitive array of type
transferType. An
ArrayIndexOutOfBoundsException is thrown if
obj is not large enough to hold a pixel value for this
ColorModel. Since
ComponentColorModel can be subclassed, subclasses inherit the implementation of this method and if they don't override it then they throw an exception if they use an unsupported
transferType.
ColorModel.
IllegalArgumentException - If the components array is not large enough to hold all the color and alpha components (starting at offset).
ClassCastException - If
obj is not null and is not a primitive array of type
transferType.
ArrayIndexOutOfBoundsException - If
obj is not large enough to hold a pixel value for this
ColorModel.
IllegalArgumentException - If this
ComponentColorModel does not support the unnormalized form
UnsupportedOperationException - If the transfer type of this
ComponentColorModel is not one of the following transfer types:
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT, or
DataBuffer.TYPE_INT.
WritableRaster.setDataElements(int, int, java.lang.Object) ,
SampleModel.setDataElements(int, int, java.lang.Object, java.awt.image.DataBuffer)
public int getDataElement(float[] normComponents,
int normOffset)
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).
getDataElement in class
ColorModel
normComponents - an array of normalized color and alpha components
normOffset - the index into
normComponents at which to begin retrieving the color and alpha components
int pixel value in this
ColorModel corresponding to the specified components.
IllegalArgumentException - if pixel values for this
ColorModel are not conveniently representable as a single
int
ArrayIndexOutOfBoundsException - if the
normComponents array is not large enough to hold all of the color and alpha components starting at
normOffset
public ObjectgetDataElements(float[] normComponents, int normOffset, Object obj)
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.
getDataElements in class
ColorModel
normComponents - an array of normalized color and alpha components
normOffset - the index into
normComponents at which to begin retrieving color and alpha components
obj - a primitive data array to hold the returned pixel
Object which is a primitive data array representation of a pixel
ClassCastException - if
obj is not a primitive array of type
transferType
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
WritableRaster.setDataElements(int, int, java.lang.Object) ,
SampleModel.setDataElements(int, int, java.lang.Object, java.awt.image.DataBuffer)
public float[] getNormalizedComponents(Objectpixel, float[] normComponents, int normOffset)
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).
This method must be overridden by a subclass if that subclass is designed to translate pixel sample values to color component values in a non-default way. The default translations implemented by this class is described in the class comments. Any subclass implementing a non-default translation must follow the constraints on allowable translations defined there.
getNormalizedComponents in class
ColorModel
pixel - the specified pixel
normComponents - an array to receive the normalized components
normOffset - the offset into the
normComponents array at which to start storing normalized components
ClassCastException - if
pixel is not a primitive array of type transferType
ArrayIndexOutOfBoundsException - if
normComponents is not large enough to hold all color and alpha components starting at
normOffset
ArrayIndexOutOfBoundsException - if
pixel is not large enough to hold a pixel value for this
ColorModel.
public ColorModelcoerceData(WritableRaster raster, boolean isAlphaPremultiplied)
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 also returns an instance of this
ColorModel with the
isAlphaPremultiplied flag set appropriately. Since
ColorModel can be subclassed, subclasses inherit the implementation of this method and if they don't override it then they throw an exception if they use an unsupported
transferType.
coerceData in class
ColorModel
raster - the
WritableRaster data
isAlphaPremultiplied -
true if the alpha is premultiplied;
false otherwise
ColorModel object that represents the coerced data.
NullPointerException - if
raster is
null and data coercion is required.
UnsupportedOperationException - if the transfer type of this
ComponentColorModel is not one of the supported transfer types:
DataBuffer.TYPE_BYTE,
DataBuffer.TYPE_USHORT,
DataBuffer.TYPE_INT,
DataBuffer.TYPE_SHORT,
DataBuffer.TYPE_FLOAT, or
DataBuffer.TYPE_DOUBLE.
public boolean isCompatibleRaster(Rasterraster)
raster is compatible with this
ColorModel; false if it is not.
isCompatibleRaster in class
ColorModel
raster - The
Raster object to test for compatibility.
true if
raster is compatible with this
ColorModel,
false if it is not.
public WritableRastercreateCompatibleWritableRaster(int w, int h)
WritableRaster with the specified width and height, that has a data layout (
SampleModel) compatible with this
ColorModel.
createCompatibleWritableRaster in class
ColorModel
w - The width of the
WritableRaster you want to create.
h - The height of the
WritableRaster you want to create.
WritableRaster that is compatible with this
ColorModel.
WritableRaster,
SampleModel
public SampleModelcreateCompatibleSampleModel(int w, int h)
SampleModel with the specified width and height, that has a data layout compatible with this
ColorModel.
createCompatibleSampleModel in class
ColorModel
w - The width of the
SampleModel you want to create.
h - The height of the
SampleModel you want to create.
SampleModel that is compatible with this
ColorModel.
SampleModel
public boolean isCompatibleSampleModel(SampleModelsm)
SampleModel is compatible with this
ColorModel.
isCompatibleSampleModel in class
ColorModel
sm - The
SampleModel to test for compatibility.
true if the
SampleModel is compatible with this
ColorModel,
false if it is not.
SampleModel
public WritableRastergetAlphaRaster(WritableRaster raster)
Raster representing the alpha channel of an image, extracted from the input
Raster. This method assumes that
Raster objects associated with this
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. This method creates a new
Raster, but will share the data array.
getAlphaRaster in class
ColorModel
raster - The
WritableRaster from which to extract the alpha channel.
WritableRaster containing the image's alpha channel.
public boolean equals(Objectobj)
equals in class
ColorModel
obj - The object to compare with this color model.
true if the color model objects are equal,
false if they are not.
Object.hashCode() ,
HashMap