/*
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
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* under the terms of the GNU General Public License version 2 only, as
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*
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
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*
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*
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/*
**********************************************************************
**********************************************************************
**********************************************************************
*** COPYRIGHT (c) Eastman Kodak Company, 1997 ***
*** As an unpublished work pursuant to Title 17 of the United ***
*** States Code. All rights reserved. ***
**********************************************************************
**********************************************************************
**********************************************************************/
package java.awt.color;
import java.lang.annotation.Native;
import sun.java2d.cmm.PCMM;
import sun.java2d.cmm.CMSManager;
This abstract class is used to serve as a color space tag to identify the
specific color space of a Color object or, via a ColorModel object,
of an Image, a BufferedImage, or a GraphicsDevice. It contains
methods that transform colors in a specific color space to/from sRGB
and to/from a well-defined CIEXYZ color space.
For purposes of the methods in this class, colors are represented as
arrays of color components represented as floats in a normalized range
defined by each ColorSpace. For many ColorSpaces (e.g. sRGB), this
range is 0.0 to 1.0. However, some ColorSpaces have components whose
values have a different range. Methods are provided to inquire per
component minimum and maximum normalized values.
Several variables are defined for purposes of referring to color
space types (e.g. TYPE_RGB, TYPE_XYZ, etc.) and to refer to specific
color spaces (e.g. CS_sRGB and CS_CIEXYZ).
sRGB is a proposed standard RGB color space. For more information,
see
http://www.w3.org/pub/WWW/Graphics/Color/sRGB.html
.
The purpose of the methods to transform to/from the well-defined
CIEXYZ color space is to support conversions between any two color
spaces at a reasonably high degree of accuracy. It is expected that
particular implementations of subclasses of ColorSpace (e.g.
ICC_ColorSpace) will support high performance conversion based on
underlying platform color management systems.
The CS_CIEXYZ space used by the toCIEXYZ/fromCIEXYZ methods can be
described as follows:
CIEXYZ
viewing illuminance: 200 lux
viewing white point: CIE D50
media white point: "that of a perfectly reflecting diffuser" -- D50
media black point: 0 lux or 0 Reflectance
flare: 1 percent
surround: 20percent of the media white point
media description: reflection print (i.e., RLAB, Hunt viewing media)
note: For developers creating an ICC profile for this conversion
space, the following is applicable. Use a simple Von Kries
white point adaptation folded into the 3X3 matrix parameters
and fold the flare and surround effects into the three
one-dimensional lookup tables (assuming one uses the minimal
model for monitors).
See Also: - ICC_ColorSpace
/**
* This abstract class is used to serve as a color space tag to identify the
* specific color space of a Color object or, via a ColorModel object,
* of an Image, a BufferedImage, or a GraphicsDevice. It contains
* methods that transform colors in a specific color space to/from sRGB
* and to/from a well-defined CIEXYZ color space.
* <p>
* For purposes of the methods in this class, colors are represented as
* arrays of color components represented as floats in a normalized range
* defined by each ColorSpace. For many ColorSpaces (e.g. sRGB), this
* range is 0.0 to 1.0. However, some ColorSpaces have components whose
* values have a different range. Methods are provided to inquire per
* component minimum and maximum normalized values.
* <p>
* Several variables are defined for purposes of referring to color
* space types (e.g. TYPE_RGB, TYPE_XYZ, etc.) and to refer to specific
* color spaces (e.g. CS_sRGB and CS_CIEXYZ).
* sRGB is a proposed standard RGB color space. For more information,
* see <A href="http://www.w3.org/pub/WWW/Graphics/Color/sRGB.html">
* http://www.w3.org/pub/WWW/Graphics/Color/sRGB.html
* </A>.
* <p>
* The purpose of the methods to transform to/from the well-defined
* CIEXYZ color space is to support conversions between any two color
* spaces at a reasonably high degree of accuracy. It is expected that
* particular implementations of subclasses of ColorSpace (e.g.
* ICC_ColorSpace) will support high performance conversion based on
* underlying platform color management systems.
* <p>
* The CS_CIEXYZ space used by the toCIEXYZ/fromCIEXYZ methods can be
* described as follows:
<pre>
CIEXYZ
viewing illuminance: 200 lux
viewing white point: CIE D50
media white point: "that of a perfectly reflecting diffuser" -- D50
media black point: 0 lux or 0 Reflectance
flare: 1 percent
surround: 20percent of the media white point
media description: reflection print (i.e., RLAB, Hunt viewing media)
note: For developers creating an ICC profile for this conversion
space, the following is applicable. Use a simple Von Kries
white point adaptation folded into the 3X3 matrix parameters
and fold the flare and surround effects into the three
one-dimensional lookup tables (assuming one uses the minimal
model for monitors).
</pre>
*
* @see ICC_ColorSpace
*/
public abstract class ColorSpace implements java.io.Serializable {
static final long serialVersionUID = -409452704308689724L;
private int type;
private int numComponents;
private transient String [] compName = null;
// Cache of singletons for the predefined color spaces.
private static ColorSpace sRGBspace;
private static ColorSpace XYZspace;
private static ColorSpace PYCCspace;
private static ColorSpace GRAYspace;
private static ColorSpace LINEAR_RGBspace;
Any of the family of XYZ color spaces.
/**
* Any of the family of XYZ color spaces.
*/
@Native public static final int TYPE_XYZ = 0;
Any of the family of Lab color spaces.
/**
* Any of the family of Lab color spaces.
*/
@Native public static final int TYPE_Lab = 1;
Any of the family of Luv color spaces.
/**
* Any of the family of Luv color spaces.
*/
@Native public static final int TYPE_Luv = 2;
Any of the family of YCbCr color spaces.
/**
* Any of the family of YCbCr color spaces.
*/
@Native public static final int TYPE_YCbCr = 3;
Any of the family of Yxy color spaces.
/**
* Any of the family of Yxy color spaces.
*/
@Native public static final int TYPE_Yxy = 4;
Any of the family of RGB color spaces.
/**
* Any of the family of RGB color spaces.
*/
@Native public static final int TYPE_RGB = 5;
Any of the family of GRAY color spaces.
/**
* Any of the family of GRAY color spaces.
*/
@Native public static final int TYPE_GRAY = 6;
Any of the family of HSV color spaces.
/**
* Any of the family of HSV color spaces.
*/
@Native public static final int TYPE_HSV = 7;
Any of the family of HLS color spaces.
/**
* Any of the family of HLS color spaces.
*/
@Native public static final int TYPE_HLS = 8;
Any of the family of CMYK color spaces.
/**
* Any of the family of CMYK color spaces.
*/
@Native public static final int TYPE_CMYK = 9;
Any of the family of CMY color spaces.
/**
* Any of the family of CMY color spaces.
*/
@Native public static final int TYPE_CMY = 11;
Generic 2 component color spaces.
/**
* Generic 2 component color spaces.
*/
@Native public static final int TYPE_2CLR = 12;
Generic 3 component color spaces.
/**
* Generic 3 component color spaces.
*/
@Native public static final int TYPE_3CLR = 13;
Generic 4 component color spaces.
/**
* Generic 4 component color spaces.
*/
@Native public static final int TYPE_4CLR = 14;
Generic 5 component color spaces.
/**
* Generic 5 component color spaces.
*/
@Native public static final int TYPE_5CLR = 15;
Generic 6 component color spaces.
/**
* Generic 6 component color spaces.
*/
@Native public static final int TYPE_6CLR = 16;
Generic 7 component color spaces.
/**
* Generic 7 component color spaces.
*/
@Native public static final int TYPE_7CLR = 17;
Generic 8 component color spaces.
/**
* Generic 8 component color spaces.
*/
@Native public static final int TYPE_8CLR = 18;
Generic 9 component color spaces.
/**
* Generic 9 component color spaces.
*/
@Native public static final int TYPE_9CLR = 19;
Generic 10 component color spaces.
/**
* Generic 10 component color spaces.
*/
@Native public static final int TYPE_ACLR = 20;
Generic 11 component color spaces.
/**
* Generic 11 component color spaces.
*/
@Native public static final int TYPE_BCLR = 21;
Generic 12 component color spaces.
/**
* Generic 12 component color spaces.
*/
@Native public static final int TYPE_CCLR = 22;
Generic 13 component color spaces.
/**
* Generic 13 component color spaces.
*/
@Native public static final int TYPE_DCLR = 23;
Generic 14 component color spaces.
/**
* Generic 14 component color spaces.
*/
@Native public static final int TYPE_ECLR = 24;
Generic 15 component color spaces.
/**
* Generic 15 component color spaces.
*/
@Native public static final int TYPE_FCLR = 25;
The sRGB color space defined at
http://www.w3.org/pub/WWW/Graphics/Color/sRGB.html
.
/**
* The sRGB color space defined at
* <A href="http://www.w3.org/pub/WWW/Graphics/Color/sRGB.html">
* http://www.w3.org/pub/WWW/Graphics/Color/sRGB.html
* </A>.
*/
@Native public static final int CS_sRGB = 1000;
A built-in linear RGB color space. This space is based on the
same RGB primaries as CS_sRGB, but has a linear tone reproduction curve.
/**
* A built-in linear RGB color space. This space is based on the
* same RGB primaries as CS_sRGB, but has a linear tone reproduction curve.
*/
@Native public static final int CS_LINEAR_RGB = 1004;
The CIEXYZ conversion color space defined above.
/**
* The CIEXYZ conversion color space defined above.
*/
@Native public static final int CS_CIEXYZ = 1001;
The Photo YCC conversion color space.
/**
* The Photo YCC conversion color space.
*/
@Native public static final int CS_PYCC = 1002;
The built-in linear gray scale color space.
/**
* The built-in linear gray scale color space.
*/
@Native public static final int CS_GRAY = 1003;
Constructs a ColorSpace object given a color space type
and the number of components.
Params: - type – one of the
ColorSpace
type constants - numcomponents – the number of components in the color space
/**
* Constructs a ColorSpace object given a color space type
* and the number of components.
* @param type one of the <CODE>ColorSpace</CODE> type constants
* @param numcomponents the number of components in the color space
*/
protected ColorSpace (int type, int numcomponents) {
this.type = type;
this.numComponents = numcomponents;
}
Returns a ColorSpace representing one of the specific
predefined color spaces.
Params: - colorspace – a specific color space identified by one of
the predefined class constants (e.g. CS_sRGB, CS_LINEAR_RGB,
CS_CIEXYZ, CS_GRAY, or CS_PYCC)
Returns: the requested ColorSpace
object
/**
* Returns a ColorSpace representing one of the specific
* predefined color spaces.
* @param colorspace a specific color space identified by one of
* the predefined class constants (e.g. CS_sRGB, CS_LINEAR_RGB,
* CS_CIEXYZ, CS_GRAY, or CS_PYCC)
* @return the requested <CODE>ColorSpace</CODE> object
*/
// NOTE: This method may be called by privileged threads.
// DO NOT INVOKE CLIENT CODE ON THIS THREAD!
public static ColorSpace getInstance (int colorspace)
{
ColorSpace theColorSpace;
switch (colorspace) {
case CS_sRGB:
synchronized(ColorSpace.class) {
if (sRGBspace == null) {
ICC_Profile theProfile = ICC_Profile.getInstance (CS_sRGB);
sRGBspace = new ICC_ColorSpace (theProfile);
}
theColorSpace = sRGBspace;
}
break;
case CS_CIEXYZ:
synchronized(ColorSpace.class) {
if (XYZspace == null) {
ICC_Profile theProfile =
ICC_Profile.getInstance (CS_CIEXYZ);
XYZspace = new ICC_ColorSpace (theProfile);
}
theColorSpace = XYZspace;
}
break;
case CS_PYCC:
synchronized(ColorSpace.class) {
if (PYCCspace == null) {
ICC_Profile theProfile = ICC_Profile.getInstance (CS_PYCC);
PYCCspace = new ICC_ColorSpace (theProfile);
}
theColorSpace = PYCCspace;
}
break;
case CS_GRAY:
synchronized(ColorSpace.class) {
if (GRAYspace == null) {
ICC_Profile theProfile = ICC_Profile.getInstance (CS_GRAY);
GRAYspace = new ICC_ColorSpace (theProfile);
/* to allow access from java.awt.ColorModel */
CMSManager.GRAYspace = GRAYspace;
}
theColorSpace = GRAYspace;
}
break;
case CS_LINEAR_RGB:
synchronized(ColorSpace.class) {
if (LINEAR_RGBspace == null) {
ICC_Profile theProfile =
ICC_Profile.getInstance(CS_LINEAR_RGB);
LINEAR_RGBspace = new ICC_ColorSpace (theProfile);
/* to allow access from java.awt.ColorModel */
CMSManager.LINEAR_RGBspace = LINEAR_RGBspace;
}
theColorSpace = LINEAR_RGBspace;
}
break;
default:
throw new IllegalArgumentException ("Unknown color space");
}
return theColorSpace;
}
Returns true if the ColorSpace is CS_sRGB.
Returns: true
if this is a CS_sRGB
color
space, false
if it is not
/**
* Returns true if the ColorSpace is CS_sRGB.
* @return <CODE>true</CODE> if this is a <CODE>CS_sRGB</CODE> color
* space, <code>false</code> if it is not
*/
public boolean isCS_sRGB () {
/* REMIND - make sure we know sRGBspace exists already */
return (this == sRGBspace);
}
Transforms a color value assumed to be in this ColorSpace
into a value in the default CS_sRGB color space.
This method transforms color values using algorithms designed
to produce the best perceptual match between input and output
colors. In order to do colorimetric conversion of color values,
you should use the toCIEXYZ
method of this color space to first convert from the input
color space to the CS_CIEXYZ color space, and then use the
fromCIEXYZ
method of the CS_sRGB color space to convert from CS_CIEXYZ to the output color space. See toCIEXYZ
and fromCIEXYZ
for further information.
Params: - colorvalue – a float array with length of at least the number
of components in this ColorSpace
Throws: - ArrayIndexOutOfBoundsException – if array length is not
at least the number of components in this ColorSpace
Returns: a float array of length 3
/**
* Transforms a color value assumed to be in this ColorSpace
* into a value in the default CS_sRGB color space.
* <p>
* This method transforms color values using algorithms designed
* to produce the best perceptual match between input and output
* colors. In order to do colorimetric conversion of color values,
* you should use the <code>toCIEXYZ</code>
* method of this color space to first convert from the input
* color space to the CS_CIEXYZ color space, and then use the
* <code>fromCIEXYZ</code> method of the CS_sRGB color space to
* convert from CS_CIEXYZ to the output color space.
* See {@link #toCIEXYZ(float[]) toCIEXYZ} and
* {@link #fromCIEXYZ(float[]) fromCIEXYZ} for further information.
* <p>
* @param colorvalue a float array with length of at least the number
* of components in this ColorSpace
* @return a float array of length 3
* @throws ArrayIndexOutOfBoundsException if array length is not
* at least the number of components in this ColorSpace
*/
public abstract float[] toRGB(float[] colorvalue);
Transforms a color value assumed to be in the default CS_sRGB
color space into this ColorSpace.
This method transforms color values using algorithms designed
to produce the best perceptual match between input and output
colors. In order to do colorimetric conversion of color values,
you should use the toCIEXYZ
method of the CS_sRGB color space to first convert from the input
color space to the CS_CIEXYZ color space, and then use the
fromCIEXYZ
method of this color space to convert from CS_CIEXYZ to the output color space. See toCIEXYZ
and fromCIEXYZ
for further information.
Params: - rgbvalue – a float array with length of at least 3
Throws: - ArrayIndexOutOfBoundsException – if array length is not
at least 3
Returns: a float array with length equal to the number of
components in this ColorSpace
/**
* Transforms a color value assumed to be in the default CS_sRGB
* color space into this ColorSpace.
* <p>
* This method transforms color values using algorithms designed
* to produce the best perceptual match between input and output
* colors. In order to do colorimetric conversion of color values,
* you should use the <code>toCIEXYZ</code>
* method of the CS_sRGB color space to first convert from the input
* color space to the CS_CIEXYZ color space, and then use the
* <code>fromCIEXYZ</code> method of this color space to
* convert from CS_CIEXYZ to the output color space.
* See {@link #toCIEXYZ(float[]) toCIEXYZ} and
* {@link #fromCIEXYZ(float[]) fromCIEXYZ} for further information.
* <p>
* @param rgbvalue a float array with length of at least 3
* @return a float array with length equal to the number of
* components in this ColorSpace
* @throws ArrayIndexOutOfBoundsException if array length is not
* at least 3
*/
public abstract float[] fromRGB(float[] rgbvalue);
Transforms a color value assumed to be in this ColorSpace
into the CS_CIEXYZ conversion color space.
This method transforms color values using relative colorimetry, as defined by the International Color Consortium standard. This means that the XYZ values returned by this method are represented relative to the D50 white point of the CS_CIEXYZ color space. This representation is useful in a two-step color conversion process in which colors are transformed from an input color space to CS_CIEXYZ and then to an output color space. This representation is not the same as the XYZ values that would be measured from the given color value by a colorimeter. A further transformation is necessary to compute the XYZ values that would be measured using current CIE recommended practices. See the toCIEXYZ
method of ICC_ColorSpace
for further information.
Params: - colorvalue – a float array with length of at least the number
of components in this ColorSpace
Throws: - ArrayIndexOutOfBoundsException – if array length is not
at least the number of components in this ColorSpace.
Returns: a float array of length 3
/**
* Transforms a color value assumed to be in this ColorSpace
* into the CS_CIEXYZ conversion color space.
* <p>
* This method transforms color values using relative colorimetry,
* as defined by the International Color Consortium standard. This
* means that the XYZ values returned by this method are represented
* relative to the D50 white point of the CS_CIEXYZ color space.
* This representation is useful in a two-step color conversion
* process in which colors are transformed from an input color
* space to CS_CIEXYZ and then to an output color space. This
* representation is not the same as the XYZ values that would
* be measured from the given color value by a colorimeter.
* A further transformation is necessary to compute the XYZ values
* that would be measured using current CIE recommended practices.
* See the {@link ICC_ColorSpace#toCIEXYZ(float[]) toCIEXYZ} method of
* <code>ICC_ColorSpace</code> for further information.
* <p>
* @param colorvalue a float array with length of at least the number
* of components in this ColorSpace
* @return a float array of length 3
* @throws ArrayIndexOutOfBoundsException if array length is not
* at least the number of components in this ColorSpace.
*/
public abstract float[] toCIEXYZ(float[] colorvalue);
Transforms a color value assumed to be in the CS_CIEXYZ conversion
color space into this ColorSpace.
This method transforms color values using relative colorimetry, as defined by the International Color Consortium standard. This means that the XYZ argument values taken by this method are represented relative to the D50 white point of the CS_CIEXYZ color space. This representation is useful in a two-step color conversion process in which colors are transformed from an input color space to CS_CIEXYZ and then to an output color space. The color values returned by this method are not those that would produce the XYZ value passed to the method when measured by a colorimeter. If you have XYZ values corresponding to measurements made using current CIE recommended practices, they must be converted to D50 relative values before being passed to this method. See the fromCIEXYZ
method of ICC_ColorSpace
for further information.
Params: - colorvalue – a float array with length of at least 3
Throws: - ArrayIndexOutOfBoundsException – if array length is not
at least 3
Returns: a float array with length equal to the number of
components in this ColorSpace
/**
* Transforms a color value assumed to be in the CS_CIEXYZ conversion
* color space into this ColorSpace.
* <p>
* This method transforms color values using relative colorimetry,
* as defined by the International Color Consortium standard. This
* means that the XYZ argument values taken by this method are represented
* relative to the D50 white point of the CS_CIEXYZ color space.
* This representation is useful in a two-step color conversion
* process in which colors are transformed from an input color
* space to CS_CIEXYZ and then to an output color space. The color
* values returned by this method are not those that would produce
* the XYZ value passed to the method when measured by a colorimeter.
* If you have XYZ values corresponding to measurements made using
* current CIE recommended practices, they must be converted to D50
* relative values before being passed to this method.
* See the {@link ICC_ColorSpace#fromCIEXYZ(float[]) fromCIEXYZ} method of
* <code>ICC_ColorSpace</code> for further information.
* <p>
* @param colorvalue a float array with length of at least 3
* @return a float array with length equal to the number of
* components in this ColorSpace
* @throws ArrayIndexOutOfBoundsException if array length is not
* at least 3
*/
public abstract float[] fromCIEXYZ(float[] colorvalue);
Returns the color space type of this ColorSpace (for example
TYPE_RGB, TYPE_XYZ, ...). The type defines the
number of components of the color space and the interpretation,
e.g. TYPE_RGB identifies a color space with three components - red,
green, and blue. It does not define the particular color
characteristics of the space, e.g. the chromaticities of the
primaries.
Returns: the type constant that represents the type of this
ColorSpace
/**
* Returns the color space type of this ColorSpace (for example
* TYPE_RGB, TYPE_XYZ, ...). The type defines the
* number of components of the color space and the interpretation,
* e.g. TYPE_RGB identifies a color space with three components - red,
* green, and blue. It does not define the particular color
* characteristics of the space, e.g. the chromaticities of the
* primaries.
*
* @return the type constant that represents the type of this
* <CODE>ColorSpace</CODE>
*/
public int getType() {
return type;
}
Returns the number of components of this ColorSpace.
Returns: The number of components in this ColorSpace
.
/**
* Returns the number of components of this ColorSpace.
* @return The number of components in this <CODE>ColorSpace</CODE>.
*/
public int getNumComponents() {
return numComponents;
}
Returns the name of the component given the component index.
Params: - idx – the component index
Throws: - IllegalArgumentException – if
idx
is
less than 0 or greater than numComponents - 1
Returns: the name of the component at the specified index
/**
* Returns the name of the component given the component index.
*
* @param idx the component index
* @return the name of the component at the specified index
* @throws IllegalArgumentException if <code>idx</code> is
* less than 0 or greater than numComponents - 1
*/
public String getName (int idx) {
/* REMIND - handle common cases here */
if ((idx < 0) || (idx > numComponents - 1)) {
throw new IllegalArgumentException(
"Component index out of range: " + idx);
}
if (compName == null) {
switch (type) {
case ColorSpace.TYPE_XYZ:
compName = new String[] {"X", "Y", "Z"};
break;
case ColorSpace.TYPE_Lab:
compName = new String[] {"L", "a", "b"};
break;
case ColorSpace.TYPE_Luv:
compName = new String[] {"L", "u", "v"};
break;
case ColorSpace.TYPE_YCbCr:
compName = new String[] {"Y", "Cb", "Cr"};
break;
case ColorSpace.TYPE_Yxy:
compName = new String[] {"Y", "x", "y"};
break;
case ColorSpace.TYPE_RGB:
compName = new String[] {"Red", "Green", "Blue"};
break;
case ColorSpace.TYPE_GRAY:
compName = new String[] {"Gray"};
break;
case ColorSpace.TYPE_HSV:
compName = new String[] {"Hue", "Saturation", "Value"};
break;
case ColorSpace.TYPE_HLS:
compName = new String[] {"Hue", "Lightness",
"Saturation"};
break;
case ColorSpace.TYPE_CMYK:
compName = new String[] {"Cyan", "Magenta", "Yellow",
"Black"};
break;
case ColorSpace.TYPE_CMY:
compName = new String[] {"Cyan", "Magenta", "Yellow"};
break;
default:
String [] tmp = new String[numComponents];
for (int i = 0; i < tmp.length; i++) {
tmp[i] = "Unnamed color component(" + i + ")";
}
compName = tmp;
}
}
return compName[idx];
}
Returns the minimum normalized color component value for the
specified component. The default implementation in this abstract
class returns 0.0 for all components. Subclasses should override
this method if necessary.
Params: - component – the component index
Throws: - IllegalArgumentException – if component is less than 0 or
greater than numComponents - 1
Returns: the minimum normalized component value Since: 1.4
/**
* Returns the minimum normalized color component value for the
* specified component. The default implementation in this abstract
* class returns 0.0 for all components. Subclasses should override
* this method if necessary.
*
* @param component the component index
* @return the minimum normalized component value
* @throws IllegalArgumentException if component is less than 0 or
* greater than numComponents - 1
* @since 1.4
*/
public float getMinValue(int component) {
if ((component < 0) || (component > numComponents - 1)) {
throw new IllegalArgumentException(
"Component index out of range: " + component);
}
return 0.0f;
}
Returns the maximum normalized color component value for the
specified component. The default implementation in this abstract
class returns 1.0 for all components. Subclasses should override
this method if necessary.
Params: - component – the component index
Throws: - IllegalArgumentException – if component is less than 0 or
greater than numComponents - 1
Returns: the maximum normalized component value Since: 1.4
/**
* Returns the maximum normalized color component value for the
* specified component. The default implementation in this abstract
* class returns 1.0 for all components. Subclasses should override
* this method if necessary.
*
* @param component the component index
* @return the maximum normalized component value
* @throws IllegalArgumentException if component is less than 0 or
* greater than numComponents - 1
* @since 1.4
*/
public float getMaxValue(int component) {
if ((component < 0) || (component > numComponents - 1)) {
throw new IllegalArgumentException(
"Component index out of range: " + component);
}
return 1.0f;
}
/* Returns true if cspace is the XYZspace.
*/
static boolean isCS_CIEXYZ(ColorSpace cspace) {
return (cspace == XYZspace);
}
}