Examples with PCMM sun.java2d.cmm.PCMM used on opensource projects

Example 6 with PCMM

use of sun.java2d.cmm.PCMM in project jdk8u_jdk by JetBrains.

the class ICC_ColorSpace method toRGB.

/**
     * 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 float[] toRGB(float[] colorvalue) {
    if (this2srgb == null) {
        ColorTransform[] transformList = new ColorTransform[2];
        ICC_ColorSpace srgbCS = (ICC_ColorSpace) ColorSpace.getInstance(CS_sRGB);
        PCMM mdl = CMSManager.getModule();
        transformList[0] = mdl.createTransform(thisProfile, ColorTransform.Any, ColorTransform.In);
        transformList[1] = mdl.createTransform(srgbCS.getProfile(), ColorTransform.Any, ColorTransform.Out);
        this2srgb = mdl.createTransform(transformList);
        if (needScaleInit) {
            setComponentScaling();
        }
    }
    int nc = this.getNumComponents();
    short[] tmp = new short[nc];
    for (int i = 0; i < nc; i++) {
        tmp[i] = (short) ((colorvalue[i] - minVal[i]) * invDiffMinMax[i] + 0.5f);
    }
    tmp = this2srgb.colorConvert(tmp, null);
    float[] result = new float[3];
    for (int i = 0; i < 3; i++) {
        result[i] = ((float) (tmp[i] & 0xffff)) / 65535.0f;
    }
    return result;
}

Example 7 with PCMM

use of sun.java2d.cmm.PCMM in project jdk8u_jdk by JetBrains.

the class ICC_ColorSpace method fromRGB.

/**
     * 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 float[] fromRGB(float[] rgbvalue) {
    if (srgb2this == null) {
        ColorTransform[] transformList = new ColorTransform[2];
        ICC_ColorSpace srgbCS = (ICC_ColorSpace) ColorSpace.getInstance(CS_sRGB);
        PCMM mdl = CMSManager.getModule();
        transformList[0] = mdl.createTransform(srgbCS.getProfile(), ColorTransform.Any, ColorTransform.In);
        transformList[1] = mdl.createTransform(thisProfile, ColorTransform.Any, ColorTransform.Out);
        srgb2this = mdl.createTransform(transformList);
        if (needScaleInit) {
            setComponentScaling();
        }
    }
    short[] tmp = new short[3];
    for (int i = 0; i < 3; i++) {
        tmp[i] = (short) ((rgbvalue[i] * 65535.0f) + 0.5f);
    }
    tmp = srgb2this.colorConvert(tmp, null);
    int nc = this.getNumComponents();
    float[] result = new float[nc];
    for (int i = 0; i < nc; i++) {
        result[i] = (((float) (tmp[i] & 0xffff)) / 65535.0f) * diffMinMax[i] + minVal[i];
    }
    return result;
}

Example 8 with PCMM

use of sun.java2d.cmm.PCMM in project jdk8u_jdk by JetBrains.

the class ICC_Profile method getData.

static byte[] getData(Profile p, int tagSignature) {
    int tagSize;
    byte[] tagData;
    try {
        PCMM mdl = CMSManager.getModule();
        /* get the number of bytes needed for this tag */
        tagSize = mdl.getTagSize(p, tagSignature);
        tagData = new byte[tagSize];
        /* get an array for the tag */
        /* get the tag's data */
        mdl.getTagData(p, tagSignature, tagData);
    } catch (CMMException c) {
        tagData = null;
    }
    return tagData;
}

Example 9 with PCMM

use of sun.java2d.cmm.PCMM in project jdk8u_jdk by JetBrains.

the class ICC_Profile method getData.

/**
     * Returns a byte array corresponding to the data of this ICC_Profile.
     * @return A byte array that contains the profile data.
     * @see #setData(int, byte[])
     */
public byte[] getData() {
    int profileSize;
    byte[] profileData;
    if (ProfileDeferralMgr.deferring) {
        ProfileDeferralMgr.activateProfiles();
    }
    PCMM mdl = CMSManager.getModule();
    /* get the number of bytes needed for this profile */
    profileSize = mdl.getProfileSize(cmmProfile);
    profileData = new byte[profileSize];
    /* get the data for the profile */
    mdl.getProfileData(cmmProfile, profileData);
    return profileData;
}

Example 10 with PCMM

use of sun.java2d.cmm.PCMM in project jdk8u_jdk by JetBrains.

the class ICC_ColorSpace method fromCIEXYZ.

/**
     * 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 ICC Specification.  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.
     * The paragraphs below explain this in more detail.
     * <p>
     * The ICC standard uses a device independent color space (DICS) as the
     * mechanism for converting color from one device to another device.  In
     * this architecture, colors are converted from the source device's color
     * space to the ICC DICS and then from the ICC DICS to the destination
     * device's color space.  The ICC standard defines device profiles which
     * contain transforms which will convert between a device's color space
     * and the ICC DICS.  The overall conversion of colors from a source
     * device to colors of a destination device is done by connecting the
     * device-to-DICS transform of the profile for the source device to the
     * DICS-to-device transform of the profile for the destination device.
     * For this reason, the ICC DICS is commonly referred to as the profile
     * connection space (PCS).  The color space used in the methods
     * toCIEXYZ and fromCIEXYZ is the CIEXYZ PCS defined by the ICC
     * Specification.  This is also the color space represented by
     * ColorSpace.CS_CIEXYZ.
     * <p>
     * The XYZ values of a color are often represented as relative to some
     * white point, so the actual meaning of the XYZ values cannot be known
     * without knowing the white point of those values.  This is known as
     * relative colorimetry.  The PCS uses a white point of D50, so the XYZ
     * values of the PCS are relative to D50.  For example, white in the PCS
     * will have the XYZ values of D50, which is defined to be X=.9642,
     * Y=1.000, and Z=0.8249.  This white point is commonly used for graphic
     * arts applications, but others are often used in other applications.
     * <p>
     * To quantify the color characteristics of a device such as a printer
     * or monitor, measurements of XYZ values for particular device colors
     * are typically made.  For purposes of this discussion, the term
     * device XYZ values is used to mean the XYZ values that would be
     * measured from device colors using current CIE recommended practices.
     * <p>
     * Converting between device XYZ values and the PCS XYZ values taken as
     * arguments by this method corresponds to converting between the device's
     * color space, as represented by CIE colorimetric values, and the PCS.
     * There are many factors involved in this process, some of which are quite
     * subtle.  The most important, however, is the adjustment made to account
     * for differences between the device's white point and the white point of
     * the PCS.  There are many techniques for doing this and it is the
     * subject of much current research and controversy.  Some commonly used
     * methods are XYZ scaling, the von Kries transform, and the Bradford
     * transform.  The proper method to use depends upon each particular
     * application.
     * <p>
     * The simplest method is XYZ scaling.  In this method each device XYZ
     * value is  converted to a PCS XYZ value by multiplying it by the ratio
     * of the PCS white point (D50) to the device white point.
     * <pre>
     *
     * Xd, Yd, Zd are the device XYZ values
     * Xdw, Ydw, Zdw are the device XYZ white point values
     * Xp, Yp, Zp are the PCS XYZ values
     * Xd50, Yd50, Zd50 are the PCS XYZ white point values
     *
     * Xp = Xd * (Xd50 / Xdw)
     * Yp = Yd * (Yd50 / Ydw)
     * Zp = Zd * (Zd50 / Zdw)
     *
     * </pre>
     * <p>
     * Conversion from the PCS to the device would be done by inverting these
     * equations:
     * <pre>
     *
     * Xd = Xp * (Xdw / Xd50)
     * Yd = Yp * (Ydw / Yd50)
     * Zd = Zp * (Zdw / Zd50)
     *
     * </pre>
     * <p>
     * Note that the media white point tag in an ICC profile is not the same
     * as the device white point.  The media white point tag is expressed in
     * PCS values and is used to represent the difference between the XYZ of
     * device illuminant and the XYZ of the device media when measured under
     * that illuminant.  The device white point is expressed as the device
     * XYZ values corresponding to white displayed on the device.  For
     * example, displaying the RGB color (1.0, 1.0, 1.0) on an sRGB device
     * will result in a measured device XYZ value of D65.  This will not
     * be the same as the media white point tag XYZ value in the ICC
     * profile for an sRGB device.
     * <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 float[] fromCIEXYZ(float[] colorvalue) {
    if (xyz2this == null) {
        ColorTransform[] transformList = new ColorTransform[2];
        ICC_ColorSpace xyzCS = (ICC_ColorSpace) ColorSpace.getInstance(CS_CIEXYZ);
        PCMM mdl = CMSManager.getModule();
        transformList[0] = mdl.createTransform(xyzCS.getProfile(), ColorTransform.Any, ColorTransform.In);
        try {
            transformList[1] = mdl.createTransform(thisProfile, ICC_Profile.icRelativeColorimetric, ColorTransform.Out);
        } catch (CMMException e) {
            transformList[1] = CMSManager.getModule().createTransform(thisProfile, ColorTransform.Any, ColorTransform.Out);
        }
        xyz2this = mdl.createTransform(transformList);
        if (needScaleInit) {
            setComponentScaling();
        }
    }
    short[] tmp = new short[3];
    float ALMOST_TWO = 1.0f + (32767.0f / 32768.0f);
    float factor = 65535.0f / ALMOST_TWO;
    // For CIEXYZ, min = 0.0, max = ALMOST_TWO for all components
    for (int i = 0; i < 3; i++) {
        tmp[i] = (short) ((colorvalue[i] * factor) + 0.5f);
    }
    tmp = xyz2this.colorConvert(tmp, null);
    int nc = this.getNumComponents();
    float[] result = new float[nc];
    for (int i = 0; i < nc; i++) {
        result[i] = (((float) (tmp[i] & 0xffff)) / 65535.0f) * diffMinMax[i] + minVal[i];
    }
    return result;
}