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JRE 8 rt.jar - java.* Package Source Code
JRE 8 rt.jar is the JAR file for JRE 8 RT (Runtime) libraries. JRE (Java Runtime) 8 is the runtime environment included in JDK 8. JRE 8 rt.jar libraries are divided into 6 packages:
com.* - Internal Oracle and Sun Microsystems libraries java.* - Standard Java API libraries. javax.* - Extended Java API libraries. jdk.* - JDK supporting libraries. org.* - Third party libraries. sun.* - Old libraries developed by Sun Microsystems.
JAR File Information:
Directory of C:\fyicenter\jdk-1.8.0_191\jre\lib 63,596,151 rt.jar
Here is the list of Java classes of the java.* package in JRE 1.8.0_191 rt.jar. Java source codes are also provided.
✍: FYIcenter
⏎ java/awt/Color.java
/* * Copyright (c) 1995, 2013, Oracle and/or its affiliates. All rights reserved. * ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. * * * * * * * * * * * * * * * * * * * * */ package java.awt; import java.beans.ConstructorProperties; import java.awt.image.ColorModel; import java.awt.geom.AffineTransform; import java.awt.geom.Rectangle2D; import java.awt.color.ColorSpace; /** * The <code>Color</code> class is used to encapsulate colors in the default * sRGB color space or colors in arbitrary color spaces identified by a * {@link ColorSpace}. Every color has an implicit alpha value of 1.0 or * an explicit one provided in the constructor. The alpha value * defines the transparency of a color and can be represented by * a float value in the range 0.0 - 1.0 or 0 - 255. * An alpha value of 1.0 or 255 means that the color is completely * opaque and an alpha value of 0 or 0.0 means that the color is * completely transparent. * When constructing a <code>Color</code> with an explicit alpha or * getting the color/alpha components of a <code>Color</code>, the color * components are never premultiplied by the alpha component. * <p> * The default color space for the Java 2D(tm) API is sRGB, a proposed * standard RGB color space. For further information on sRGB, * 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> * @version 10 Feb 1997 * @author Sami Shaio * @author Arthur van Hoff * @see ColorSpace * @see AlphaComposite */ public class Color implements Paint, java.io.Serializable { /** * The color white. In the default sRGB space. */ public final static Color white = new Color(255, 255, 255); /** * The color white. In the default sRGB space. * @since 1.4 */ public final static Color WHITE = white; /** * The color light gray. In the default sRGB space. */ public final static Color lightGray = new Color(192, 192, 192); /** * The color light gray. In the default sRGB space. * @since 1.4 */ public final static Color LIGHT_GRAY = lightGray; /** * The color gray. In the default sRGB space. */ public final static Color gray = new Color(128, 128, 128); /** * The color gray. In the default sRGB space. * @since 1.4 */ public final static Color GRAY = gray; /** * The color dark gray. In the default sRGB space. */ public final static Color darkGray = new Color(64, 64, 64); /** * The color dark gray. In the default sRGB space. * @since 1.4 */ public final static Color DARK_GRAY = darkGray; /** * The color black. In the default sRGB space. */ public final static Color black = new Color(0, 0, 0); /** * The color black. In the default sRGB space. * @since 1.4 */ public final static Color BLACK = black; /** * The color red. In the default sRGB space. */ public final static Color red = new Color(255, 0, 0); /** * The color red. In the default sRGB space. * @since 1.4 */ public final static Color RED = red; /** * The color pink. In the default sRGB space. */ public final static Color pink = new Color(255, 175, 175); /** * The color pink. In the default sRGB space. * @since 1.4 */ public final static Color PINK = pink; /** * The color orange. In the default sRGB space. */ public final static Color orange = new Color(255, 200, 0); /** * The color orange. In the default sRGB space. * @since 1.4 */ public final static Color ORANGE = orange; /** * The color yellow. In the default sRGB space. */ public final static Color yellow = new Color(255, 255, 0); /** * The color yellow. In the default sRGB space. * @since 1.4 */ public final static Color YELLOW = yellow; /** * The color green. In the default sRGB space. */ public final static Color green = new Color(0, 255, 0); /** * The color green. In the default sRGB space. * @since 1.4 */ public final static Color GREEN = green; /** * The color magenta. In the default sRGB space. */ public final static Color magenta = new Color(255, 0, 255); /** * The color magenta. In the default sRGB space. * @since 1.4 */ public final static Color MAGENTA = magenta; /** * The color cyan. In the default sRGB space. */ public final static Color cyan = new Color(0, 255, 255); /** * The color cyan. In the default sRGB space. * @since 1.4 */ public final static Color CYAN = cyan; /** * The color blue. In the default sRGB space. */ public final static Color blue = new Color(0, 0, 255); /** * The color blue. In the default sRGB space. * @since 1.4 */ public final static Color BLUE = blue; /** * The color value. * @serial * @see #getRGB */ int value; /** * The color value in the default sRGB <code>ColorSpace</code> as * <code>float</code> components (no alpha). * If <code>null</code> after object construction, this must be an * sRGB color constructed with 8-bit precision, so compute from the * <code>int</code> color value. * @serial * @see #getRGBColorComponents * @see #getRGBComponents */ private float frgbvalue[] = null; /** * The color value in the native <code>ColorSpace</code> as * <code>float</code> components (no alpha). * If <code>null</code> after object construction, this must be an * sRGB color constructed with 8-bit precision, so compute from the * <code>int</code> color value. * @serial * @see #getRGBColorComponents * @see #getRGBComponents */ private float fvalue[] = null; /** * The alpha value as a <code>float</code> component. * If <code>frgbvalue</code> is <code>null</code>, this is not valid * data, so compute from the <code>int</code> color value. * @serial * @see #getRGBComponents * @see #getComponents */ private float falpha = 0.0f; /** * The <code>ColorSpace</code>. If <code>null</code>, then it's * default is sRGB. * @serial * @see #getColor * @see #getColorSpace * @see #getColorComponents */ private ColorSpace cs = null; /* * JDK 1.1 serialVersionUID */ private static final long serialVersionUID = 118526816881161077L; /** * Initialize JNI field and method IDs */ private static native void initIDs(); static { /** 4112352 - Calling getDefaultToolkit() ** here can cause this class to be accessed before it is fully ** initialized. DON'T DO IT!!! ** ** Toolkit.getDefaultToolkit(); **/ /* ensure that the necessary native libraries are loaded */ Toolkit.loadLibraries(); if (!GraphicsEnvironment.isHeadless()) { initIDs(); } } /** * Checks the color integer components supplied for validity. * Throws an {@link IllegalArgumentException} if the value is out of * range. * @param r the Red component * @param g the Green component * @param b the Blue component **/ private static void testColorValueRange(int r, int g, int b, int a) { boolean rangeError = false; String badComponentString = ""; if ( a < 0 || a > 255) { rangeError = true; badComponentString = badComponentString + " Alpha"; } if ( r < 0 || r > 255) { rangeError = true; badComponentString = badComponentString + " Red"; } if ( g < 0 || g > 255) { rangeError = true; badComponentString = badComponentString + " Green"; } if ( b < 0 || b > 255) { rangeError = true; badComponentString = badComponentString + " Blue"; } if ( rangeError == true ) { throw new IllegalArgumentException("Color parameter outside of expected range:" + badComponentString); } } /** * Checks the color <code>float</code> components supplied for * validity. * Throws an <code>IllegalArgumentException</code> if the value is out * of range. * @param r the Red component * @param g the Green component * @param b the Blue component **/ private static void testColorValueRange(float r, float g, float b, float a) { boolean rangeError = false; String badComponentString = ""; if ( a < 0.0 || a > 1.0) { rangeError = true; badComponentString = badComponentString + " Alpha"; } if ( r < 0.0 || r > 1.0) { rangeError = true; badComponentString = badComponentString + " Red"; } if ( g < 0.0 || g > 1.0) { rangeError = true; badComponentString = badComponentString + " Green"; } if ( b < 0.0 || b > 1.0) { rangeError = true; badComponentString = badComponentString + " Blue"; } if ( rangeError == true ) { throw new IllegalArgumentException("Color parameter outside of expected range:" + badComponentString); } } /** * Creates an opaque sRGB color with the specified red, green, * and blue values in the range (0 - 255). * The actual color used in rendering depends * on finding the best match given the color space * available for a given output device. * Alpha is defaulted to 255. * * @throws IllegalArgumentException if <code>r</code>, <code>g</code> * or <code>b</code> are outside of the range * 0 to 255, inclusive * @param r the red component * @param g the green component * @param b the blue component * @see #getRed * @see #getGreen * @see #getBlue * @see #getRGB */ public Color(int r, int g, int b) { this(r, g, b, 255); } /** * Creates an sRGB color with the specified red, green, blue, and alpha * values in the range (0 - 255). * * @throws IllegalArgumentException if <code>r</code>, <code>g</code>, * <code>b</code> or <code>a</code> are outside of the range * 0 to 255, inclusive * @param r the red component * @param g the green component * @param b the blue component * @param a the alpha component * @see #getRed * @see #getGreen * @see #getBlue * @see #getAlpha * @see #getRGB */ @ConstructorProperties({"red", "green", "blue", "alpha"}) public Color(int r, int g, int b, int a) { value = ((a & 0xFF) << 24) | ((r & 0xFF) << 16) | ((g & 0xFF) << 8) | ((b & 0xFF) << 0); testColorValueRange(r,g,b,a); } /** * Creates an opaque sRGB color with the specified combined RGB value * consisting of the red component in bits 16-23, the green component * in bits 8-15, and the blue component in bits 0-7. The actual color * used in rendering depends on finding the best match given the * color space available for a particular output device. Alpha is * defaulted to 255. * * @param rgb the combined RGB components * @see java.awt.image.ColorModel#getRGBdefault * @see #getRed * @see #getGreen * @see #getBlue * @see #getRGB */ public Color(int rgb) { value = 0xff000000 | rgb; } /** * Creates an sRGB color with the specified combined RGBA value consisting * of the alpha component in bits 24-31, the red component in bits 16-23, * the green component in bits 8-15, and the blue component in bits 0-7. * If the <code>hasalpha</code> argument is <code>false</code>, alpha * is defaulted to 255. * * @param rgba the combined RGBA components * @param hasalpha <code>true</code> if the alpha bits are valid; * <code>false</code> otherwise * @see java.awt.image.ColorModel#getRGBdefault * @see #getRed * @see #getGreen * @see #getBlue * @see #getAlpha * @see #getRGB */ public Color(int rgba, boolean hasalpha) { if (hasalpha) { value = rgba; } else { value = 0xff000000 | rgba; } } /** * Creates an opaque sRGB color with the specified red, green, and blue * values in the range (0.0 - 1.0). Alpha is defaulted to 1.0. The * actual color used in rendering depends on finding the best * match given the color space available for a particular output * device. * * @throws IllegalArgumentException if <code>r</code>, <code>g</code> * or <code>b</code> are outside of the range * 0.0 to 1.0, inclusive * @param r the red component * @param g the green component * @param b the blue component * @see #getRed * @see #getGreen * @see #getBlue * @see #getRGB */ public Color(float r, float g, float b) { this( (int) (r*255+0.5), (int) (g*255+0.5), (int) (b*255+0.5)); testColorValueRange(r,g,b,1.0f); frgbvalue = new float[3]; frgbvalue[0] = r; frgbvalue[1] = g; frgbvalue[2] = b; falpha = 1.0f; fvalue = frgbvalue; } /** * Creates an sRGB color with the specified red, green, blue, and * alpha values in the range (0.0 - 1.0). The actual color * used in rendering depends on finding the best match given the * color space available for a particular output device. * @throws IllegalArgumentException if <code>r</code>, <code>g</code> * <code>b</code> or <code>a</code> are outside of the range * 0.0 to 1.0, inclusive * @param r the red component * @param g the green component * @param b the blue component * @param a the alpha component * @see #getRed * @see #getGreen * @see #getBlue * @see #getAlpha * @see #getRGB */ public Color(float r, float g, float b, float a) { this((int)(r*255+0.5), (int)(g*255+0.5), (int)(b*255+0.5), (int)(a*255+0.5)); frgbvalue = new float[3]; frgbvalue[0] = r; frgbvalue[1] = g; frgbvalue[2] = b; falpha = a; fvalue = frgbvalue; } /** * Creates a color in the specified <code>ColorSpace</code> * with the color components specified in the <code>float</code> * array and the specified alpha. The number of components is * determined by the type of the <code>ColorSpace</code>. For * example, RGB requires 3 components, but CMYK requires 4 * components. * @param cspace the <code>ColorSpace</code> to be used to * interpret the components * @param components an arbitrary number of color components * that is compatible with the <code>ColorSpace</code> * @param alpha alpha value * @throws IllegalArgumentException if any of the values in the * <code>components</code> array or <code>alpha</code> is * outside of the range 0.0 to 1.0 * @see #getComponents * @see #getColorComponents */ public Color(ColorSpace cspace, float components[], float alpha) { boolean rangeError = false; String badComponentString = ""; int n = cspace.getNumComponents(); fvalue = new float[n]; for (int i = 0; i < n; i++) { if (components[i] < 0.0 || components[i] > 1.0) { rangeError = true; badComponentString = badComponentString + "Component " + i + " "; } else { fvalue[i] = components[i]; } } if (alpha < 0.0 || alpha > 1.0) { rangeError = true; badComponentString = badComponentString + "Alpha"; } else { falpha = alpha; } if (rangeError) { throw new IllegalArgumentException( "Color parameter outside of expected range: " + badComponentString); } frgbvalue = cspace.toRGB(fvalue); cs = cspace; value = ((((int)(falpha*255)) & 0xFF) << 24) | ((((int)(frgbvalue[0]*255)) & 0xFF) << 16) | ((((int)(frgbvalue[1]*255)) & 0xFF) << 8) | ((((int)(frgbvalue[2]*255)) & 0xFF) << 0); } /** * Returns the red component in the range 0-255 in the default sRGB * space. * @return the red component. * @see #getRGB */ public int getRed() { return (getRGB() >> 16) & 0xFF; } /** * Returns the green component in the range 0-255 in the default sRGB * space. * @return the green component. * @see #getRGB */ public int getGreen() { return (getRGB() >> 8) & 0xFF; } /** * Returns the blue component in the range 0-255 in the default sRGB * space. * @return the blue component. * @see #getRGB */ public int getBlue() { return (getRGB() >> 0) & 0xFF; } /** * Returns the alpha component in the range 0-255. * @return the alpha component. * @see #getRGB */ public int getAlpha() { return (getRGB() >> 24) & 0xff; } /** * Returns the RGB value representing the color in the default sRGB * {@link ColorModel}. * (Bits 24-31 are alpha, 16-23 are red, 8-15 are green, 0-7 are * blue). * @return the RGB value of the color in the default sRGB * <code>ColorModel</code>. * @see java.awt.image.ColorModel#getRGBdefault * @see #getRed * @see #getGreen * @see #getBlue * @since JDK1.0 */ public int getRGB() { return value; } private static final double FACTOR = 0.7; /** * Creates a new <code>Color</code> that is a brighter version of this * <code>Color</code>. * <p> * This method applies an arbitrary scale factor to each of the three RGB * components of this <code>Color</code> to create a brighter version * of this <code>Color</code>. * The {@code alpha} value is preserved. * Although <code>brighter</code> and * <code>darker</code> are inverse operations, the results of a * series of invocations of these two methods might be inconsistent * because of rounding errors. * @return a new <code>Color</code> object that is * a brighter version of this <code>Color</code> * with the same {@code alpha} value. * @see java.awt.Color#darker * @since JDK1.0 */ public Color brighter() { int r = getRed(); int g = getGreen(); int b = getBlue(); int alpha = getAlpha(); /* From 2D group: * 1. black.brighter() should return grey * 2. applying brighter to blue will always return blue, brighter * 3. non pure color (non zero rgb) will eventually return white */ int i = (int)(1.0/(1.0-FACTOR)); if ( r == 0 && g == 0 && b == 0) { return new Color(i, i, i, alpha); } if ( r > 0 && r < i ) r = i; if ( g > 0 && g < i ) g = i; if ( b > 0 && b < i ) b = i; return new Color(Math.min((int)(r/FACTOR), 255), Math.min((int)(g/FACTOR), 255), Math.min((int)(b/FACTOR), 255), alpha); } /** * Creates a new <code>Color</code> that is a darker version of this * <code>Color</code>. * <p> * This method applies an arbitrary scale factor to each of the three RGB * components of this <code>Color</code> to create a darker version of * this <code>Color</code>. * The {@code alpha} value is preserved. * Although <code>brighter</code> and * <code>darker</code> are inverse operations, the results of a series * of invocations of these two methods might be inconsistent because * of rounding errors. * @return a new <code>Color</code> object that is * a darker version of this <code>Color</code> * with the same {@code alpha} value. * @see java.awt.Color#brighter * @since JDK1.0 */ public Color darker() { return new Color(Math.max((int)(getRed() *FACTOR), 0), Math.max((int)(getGreen()*FACTOR), 0), Math.max((int)(getBlue() *FACTOR), 0), getAlpha()); } /** * Computes the hash code for this <code>Color</code>. * @return a hash code value for this object. * @since JDK1.0 */ public int hashCode() { return value; } /** * Determines whether another object is equal to this * <code>Color</code>. * <p> * The result is <code>true</code> if and only if the argument is not * <code>null</code> and is a <code>Color</code> object that has the same * red, green, blue, and alpha values as this object. * @param obj the object to test for equality with this * <code>Color</code> * @return <code>true</code> if the objects are the same; * <code>false</code> otherwise. * @since JDK1.0 */ public boolean equals(Object obj) { return obj instanceof Color && ((Color)obj).getRGB() == this.getRGB(); } /** * Returns a string representation of this <code>Color</code>. This * method is intended to be used only for debugging purposes. The * content and format of the returned string might vary between * implementations. The returned string might be empty but cannot * be <code>null</code>. * * @return a string representation of this <code>Color</code>. */ public String toString() { return getClass().getName() + "[r=" + getRed() + ",g=" + getGreen() + ",b=" + getBlue() + "]"; } /** * Converts a <code>String</code> to an integer and returns the * specified opaque <code>Color</code>. This method handles string * formats that are used to represent octal and hexadecimal numbers. * @param nm a <code>String</code> that represents * an opaque color as a 24-bit integer * @return the new <code>Color</code> object. * @see java.lang.Integer#decode * @exception NumberFormatException if the specified string cannot * be interpreted as a decimal, * octal, or hexadecimal integer. * @since JDK1.1 */ public static Color decode(String nm) throws NumberFormatException { Integer intval = Integer.decode(nm); int i = intval.intValue(); return new Color((i >> 16) & 0xFF, (i >> 8) & 0xFF, i & 0xFF); } /** * Finds a color in the system properties. * <p> * The argument is treated as the name of a system property to * be obtained. The string value of this property is then interpreted * as an integer which is then converted to a <code>Color</code> * object. * <p> * If the specified property is not found or could not be parsed as * an integer then <code>null</code> is returned. * @param nm the name of the color property * @return the <code>Color</code> converted from the system * property. * @see java.lang.System#getProperty(java.lang.String) * @see java.lang.Integer#getInteger(java.lang.String) * @see java.awt.Color#Color(int) * @since JDK1.0 */ public static Color getColor(String nm) { return getColor(nm, null); } /** * Finds a color in the system properties. * <p> * The first argument is treated as the name of a system property to * be obtained. The string value of this property is then interpreted * as an integer which is then converted to a <code>Color</code> * object. * <p> * If the specified property is not found or cannot be parsed as * an integer then the <code>Color</code> specified by the second * argument is returned instead. * @param nm the name of the color property * @param v the default <code>Color</code> * @return the <code>Color</code> converted from the system * property, or the specified <code>Color</code>. * @see java.lang.System#getProperty(java.lang.String) * @see java.lang.Integer#getInteger(java.lang.String) * @see java.awt.Color#Color(int) * @since JDK1.0 */ public static Color getColor(String nm, Color v) { Integer intval = Integer.getInteger(nm); if (intval == null) { return v; } int i = intval.intValue(); return new Color((i >> 16) & 0xFF, (i >> 8) & 0xFF, i & 0xFF); } /** * Finds a color in the system properties. * <p> * The first argument is treated as the name of a system property to * be obtained. The string value of this property is then interpreted * as an integer which is then converted to a <code>Color</code> * object. * <p> * If the specified property is not found or could not be parsed as * an integer then the integer value <code>v</code> is used instead, * and is converted to a <code>Color</code> object. * @param nm the name of the color property * @param v the default color value, as an integer * @return the <code>Color</code> converted from the system * property or the <code>Color</code> converted from * the specified integer. * @see java.lang.System#getProperty(java.lang.String) * @see java.lang.Integer#getInteger(java.lang.String) * @see java.awt.Color#Color(int) * @since JDK1.0 */ public static Color getColor(String nm, int v) { Integer intval = Integer.getInteger(nm); int i = (intval != null) ? intval.intValue() : v; return new Color((i >> 16) & 0xFF, (i >> 8) & 0xFF, (i >> 0) & 0xFF); } /** * Converts the components of a color, as specified by the HSB * model, to an equivalent set of values for the default RGB model. * <p> * The <code>saturation</code> and <code>brightness</code> components * should be floating-point values between zero and one * (numbers in the range 0.0-1.0). The <code>hue</code> component * can be any floating-point number. The floor of this number is * subtracted from it to create a fraction between 0 and 1. This * fractional number is then multiplied by 360 to produce the hue * angle in the HSB color model. * <p> * The integer that is returned by <code>HSBtoRGB</code> encodes the * value of a color in bits 0-23 of an integer value that is the same * format used by the method {@link #getRGB() getRGB}. * This integer can be supplied as an argument to the * <code>Color</code> constructor that takes a single integer argument. * @param hue the hue component of the color * @param saturation the saturation of the color * @param brightness the brightness of the color * @return the RGB value of the color with the indicated hue, * saturation, and brightness. * @see java.awt.Color#getRGB() * @see java.awt.Color#Color(int) * @see java.awt.image.ColorModel#getRGBdefault() * @since JDK1.0 */ public static int HSBtoRGB(float hue, float saturation, float brightness) { int r = 0, g = 0, b = 0; if (saturation == 0) { r = g = b = (int) (brightness * 255.0f + 0.5f); } else { float h = (hue - (float)Math.floor(hue)) * 6.0f; float f = h - (float)java.lang.Math.floor(h); float p = brightness * (1.0f - saturation); float q = brightness * (1.0f - saturation * f); float t = brightness * (1.0f - (saturation * (1.0f - f))); switch ((int) h) { case 0: r = (int) (brightness * 255.0f + 0.5f); g = (int) (t * 255.0f + 0.5f); b = (int) (p * 255.0f + 0.5f); break; case 1: r = (int) (q * 255.0f + 0.5f); g = (int) (brightness * 255.0f + 0.5f); b = (int) (p * 255.0f + 0.5f); break; case 2: r = (int) (p * 255.0f + 0.5f); g = (int) (brightness * 255.0f + 0.5f); b = (int) (t * 255.0f + 0.5f); break; case 3: r = (int) (p * 255.0f + 0.5f); g = (int) (q * 255.0f + 0.5f); b = (int) (brightness * 255.0f + 0.5f); break; case 4: r = (int) (t * 255.0f + 0.5f); g = (int) (p * 255.0f + 0.5f); b = (int) (brightness * 255.0f + 0.5f); break; case 5: r = (int) (brightness * 255.0f + 0.5f); g = (int) (p * 255.0f + 0.5f); b = (int) (q * 255.0f + 0.5f); break; } } return 0xff000000 | (r << 16) | (g << 8) | (b << 0); } /** * Converts the components of a color, as specified by the default RGB * model, to an equivalent set of values for hue, saturation, and * brightness that are the three components of the HSB model. * <p> * If the <code>hsbvals</code> argument is <code>null</code>, then a * new array is allocated to return the result. Otherwise, the method * returns the array <code>hsbvals</code>, with the values put into * that array. * @param r the red component of the color * @param g the green component of the color * @param b the blue component of the color * @param hsbvals the array used to return the * three HSB values, or <code>null</code> * @return an array of three elements containing the hue, saturation, * and brightness (in that order), of the color with * the indicated red, green, and blue components. * @see java.awt.Color#getRGB() * @see java.awt.Color#Color(int) * @see java.awt.image.ColorModel#getRGBdefault() * @since JDK1.0 */ public static float[] RGBtoHSB(int r, int g, int b, float[] hsbvals) { float hue, saturation, brightness; if (hsbvals == null) { hsbvals = new float[3]; } int cmax = (r > g) ? r : g; if (b > cmax) cmax = b; int cmin = (r < g) ? r : g; if (b < cmin) cmin = b; brightness = ((float) cmax) / 255.0f; if (cmax != 0) saturation = ((float) (cmax - cmin)) / ((float) cmax); else saturation = 0; if (saturation == 0) hue = 0; else { float redc = ((float) (cmax - r)) / ((float) (cmax - cmin)); float greenc = ((float) (cmax - g)) / ((float) (cmax - cmin)); float bluec = ((float) (cmax - b)) / ((float) (cmax - cmin)); if (r == cmax) hue = bluec - greenc; else if (g == cmax) hue = 2.0f + redc - bluec; else hue = 4.0f + greenc - redc; hue = hue / 6.0f; if (hue < 0) hue = hue + 1.0f; } hsbvals[0] = hue; hsbvals[1] = saturation; hsbvals[2] = brightness; return hsbvals; } /** * Creates a <code>Color</code> object based on the specified values * for the HSB color model. * <p> * The <code>s</code> and <code>b</code> components should be * floating-point values between zero and one * (numbers in the range 0.0-1.0). The <code>h</code> component * can be any floating-point number. The floor of this number is * subtracted from it to create a fraction between 0 and 1. This * fractional number is then multiplied by 360 to produce the hue * angle in the HSB color model. * @param h the hue component * @param s the saturation of the color * @param b the brightness of the color * @return a <code>Color</code> object with the specified hue, * saturation, and brightness. * @since JDK1.0 */ public static Color getHSBColor(float h, float s, float b) { return new Color(HSBtoRGB(h, s, b)); } /** * Returns a <code>float</code> array containing the color and alpha * components of the <code>Color</code>, as represented in the default * sRGB color space. * If <code>compArray</code> is <code>null</code>, an array of length * 4 is created for the return value. Otherwise, * <code>compArray</code> must have length 4 or greater, * and it is filled in with the components and returned. * @param compArray an array that this method fills with * color and alpha components and returns * @return the RGBA components in a <code>float</code> array. */ public float[] getRGBComponents(float[] compArray) { float[] f; if (compArray == null) { f = new float[4]; } else { f = compArray; } if (frgbvalue == null) { f[0] = ((float)getRed())/255f; f[1] = ((float)getGreen())/255f; f[2] = ((float)getBlue())/255f; f[3] = ((float)getAlpha())/255f; } else { f[0] = frgbvalue[0]; f[1] = frgbvalue[1]; f[2] = frgbvalue[2]; f[3] = falpha; } return f; } /** * Returns a <code>float</code> array containing only the color * components of the <code>Color</code>, in the default sRGB color * space. If <code>compArray</code> is <code>null</code>, an array of * length 3 is created for the return value. Otherwise, * <code>compArray</code> must have length 3 or greater, and it is * filled in with the components and returned. * @param compArray an array that this method fills with color * components and returns * @return the RGB components in a <code>float</code> array. */ public float[] getRGBColorComponents(float[] compArray) { float[] f; if (compArray == null) { f = new float[3]; } else { f = compArray; } if (frgbvalue == null) { f[0] = ((float)getRed())/255f; f[1] = ((float)getGreen())/255f; f[2] = ((float)getBlue())/255f; } else { f[0] = frgbvalue[0]; f[1] = frgbvalue[1]; f[2] = frgbvalue[2]; } return f; } /** * Returns a <code>float</code> array containing the color and alpha * components of the <code>Color</code>, in the * <code>ColorSpace</code> of the <code>Color</code>. * If <code>compArray</code> is <code>null</code>, an array with * length equal to the number of components in the associated * <code>ColorSpace</code> plus one is created for * the return value. Otherwise, <code>compArray</code> must have at * least this length and it is filled in with the components and * returned. * @param compArray an array that this method fills with the color and * alpha components of this <code>Color</code> in its * <code>ColorSpace</code> and returns * @return the color and alpha components in a <code>float</code> * array. */ public float[] getComponents(float[] compArray) { if (fvalue == null) return getRGBComponents(compArray); float[] f; int n = fvalue.length; if (compArray == null) { f = new float[n + 1]; } else { f = compArray; } for (int i = 0; i < n; i++) { f[i] = fvalue[i]; } f[n] = falpha; return f; } /** * Returns a <code>float</code> array containing only the color * components of the <code>Color</code>, in the * <code>ColorSpace</code> of the <code>Color</code>. * If <code>compArray</code> is <code>null</code>, an array with * length equal to the number of components in the associated * <code>ColorSpace</code> is created for * the return value. Otherwise, <code>compArray</code> must have at * least this length and it is filled in with the components and * returned. * @param compArray an array that this method fills with the color * components of this <code>Color</code> in its * <code>ColorSpace</code> and returns * @return the color components in a <code>float</code> array. */ public float[] getColorComponents(float[] compArray) { if (fvalue == null) return getRGBColorComponents(compArray); float[] f; int n = fvalue.length; if (compArray == null) { f = new float[n]; } else { f = compArray; } for (int i = 0; i < n; i++) { f[i] = fvalue[i]; } return f; } /** * Returns a <code>float</code> array containing the color and alpha * components of the <code>Color</code>, in the * <code>ColorSpace</code> specified by the <code>cspace</code> * parameter. If <code>compArray</code> is <code>null</code>, an * array with length equal to the number of components in * <code>cspace</code> plus one is created for the return value. * Otherwise, <code>compArray</code> must have at least this * length, and it is filled in with the components and returned. * @param cspace a specified <code>ColorSpace</code> * @param compArray an array that this method fills with the * color and alpha components of this <code>Color</code> in * the specified <code>ColorSpace</code> and returns * @return the color and alpha components in a <code>float</code> * array. */ public float[] getComponents(ColorSpace cspace, float[] compArray) { if (cs == null) { cs = ColorSpace.getInstance(ColorSpace.CS_sRGB); } float f[]; if (fvalue == null) { f = new float[3]; f[0] = ((float)getRed())/255f; f[1] = ((float)getGreen())/255f; f[2] = ((float)getBlue())/255f; } else { f = fvalue; } float tmp[] = cs.toCIEXYZ(f); float tmpout[] = cspace.fromCIEXYZ(tmp); if (compArray == null) { compArray = new float[tmpout.length + 1]; } for (int i = 0 ; i < tmpout.length ; i++) { compArray[i] = tmpout[i]; } if (fvalue == null) { compArray[tmpout.length] = ((float)getAlpha())/255f; } else { compArray[tmpout.length] = falpha; } return compArray; } /** * Returns a <code>float</code> array containing only the color * components of the <code>Color</code> in the * <code>ColorSpace</code> specified by the <code>cspace</code> * parameter. If <code>compArray</code> is <code>null</code>, an array * with length equal to the number of components in * <code>cspace</code> is created for the return value. Otherwise, * <code>compArray</code> must have at least this length, and it is * filled in with the components and returned. * @param cspace a specified <code>ColorSpace</code> * @param compArray an array that this method fills with the color * components of this <code>Color</code> in the specified * <code>ColorSpace</code> * @return the color components in a <code>float</code> array. */ public float[] getColorComponents(ColorSpace cspace, float[] compArray) { if (cs == null) { cs = ColorSpace.getInstance(ColorSpace.CS_sRGB); } float f[]; if (fvalue == null) { f = new float[3]; f[0] = ((float)getRed())/255f; f[1] = ((float)getGreen())/255f; f[2] = ((float)getBlue())/255f; } else { f = fvalue; } float tmp[] = cs.toCIEXYZ(f); float tmpout[] = cspace.fromCIEXYZ(tmp); if (compArray == null) { return tmpout; } for (int i = 0 ; i < tmpout.length ; i++) { compArray[i] = tmpout[i]; } return compArray; } /** * Returns the <code>ColorSpace</code> of this <code>Color</code>. * @return this <code>Color</code> object's <code>ColorSpace</code>. */ public ColorSpace getColorSpace() { if (cs == null) { cs = ColorSpace.getInstance(ColorSpace.CS_sRGB); } return cs; } /** * Creates and returns a {@link PaintContext} used to * generate a solid color field pattern. * See the {@link Paint#createContext specification} of the * method in the {@link Paint} interface for information * on null parameter handling. * * @param cm the preferred {@link ColorModel} which represents the most convenient * format for the caller to receive the pixel data, or {@code null} * if there is no preference. * @param r the device space bounding box * of the graphics primitive being rendered. * @param r2d the user space bounding box * of the graphics primitive being rendered. * @param xform the {@link AffineTransform} from user * space into device space. * @param hints the set of hints that the context object can use to * choose between rendering alternatives. * @return the {@code PaintContext} for * generating color patterns. * @see Paint * @see PaintContext * @see ColorModel * @see Rectangle * @see Rectangle2D * @see AffineTransform * @see RenderingHints */ public synchronized PaintContext createContext(ColorModel cm, Rectangle r, Rectangle2D r2d, AffineTransform xform, RenderingHints hints) { return new ColorPaintContext(getRGB(), cm); } /** * Returns the transparency mode for this <code>Color</code>. This is * required to implement the <code>Paint</code> interface. * @return this <code>Color</code> object's transparency mode. * @see Paint * @see Transparency * @see #createContext */ public int getTransparency() { int alpha = getAlpha(); if (alpha == 0xff) { return Transparency.OPAQUE; } else if (alpha == 0) { return Transparency.BITMASK; } else { return Transparency.TRANSLUCENT; } } }
⏎ java/awt/Color.java
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