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Java example source code file (cmscam02.c)

This example Java source code file (cmscam02.c) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

Learn more about this Java project at its project page.

Java - Java tags/keywords

cam02color, chromaticadaptation, cmsexport, contextid, null, xyztocat02

The cmscam02.c Java example source code

/*
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * 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
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */

// This file is available under and governed by the GNU General Public
// License version 2 only, as published by the Free Software Foundation.
// However, the following notice accompanied the original version of this
// file:
//
//---------------------------------------------------------------------------------
//
//  Little Color Management System
//  Copyright (c) 1998-2012 Marti Maria Saguer
//
// Permission is hereby granted, free of charge, to any person obtaining
// a copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the Software
// is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO
// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
//
//---------------------------------------------------------------------------------
//

#include "lcms2_internal.h"

// CIECAM 02 appearance model. Many thanks to Jordi Vilar for the debugging.

// ---------- Implementation --------------------------------------------

typedef struct  {

    cmsFloat64Number XYZ[3];
    cmsFloat64Number RGB[3];
    cmsFloat64Number RGBc[3];
    cmsFloat64Number RGBp[3];
    cmsFloat64Number RGBpa[3];
    cmsFloat64Number a, b, h, e, H, A, J, Q, s, t, C, M;
    cmsFloat64Number abC[2];
    cmsFloat64Number abs[2];
    cmsFloat64Number abM[2];

} CAM02COLOR;

typedef struct  {

    CAM02COLOR adoptedWhite;
    cmsFloat64Number LA, Yb;
    cmsFloat64Number F, c, Nc;
    cmsUInt32Number surround;
    cmsFloat64Number n, Nbb, Ncb, z, FL, D;

       cmsContext ContextID;

} cmsCIECAM02;


static
cmsFloat64Number compute_n(cmsCIECAM02* pMod)
{
    return (pMod -> Yb / pMod -> adoptedWhite.XYZ[1]);
}

static
cmsFloat64Number compute_z(cmsCIECAM02* pMod)
{
    return (1.48 + pow(pMod -> n, 0.5));
}

static
cmsFloat64Number computeNbb(cmsCIECAM02* pMod)
{
    return (0.725 * pow((1.0 / pMod -> n), 0.2));
}

static
cmsFloat64Number computeFL(cmsCIECAM02* pMod)
{
    cmsFloat64Number k, FL;

    k = 1.0 / ((5.0 * pMod->LA) + 1.0);
    FL = 0.2 * pow(k, 4.0) * (5.0 * pMod->LA) + 0.1 *
        (pow((1.0 - pow(k, 4.0)), 2.0)) *
        (pow((5.0 * pMod->LA), (1.0 / 3.0)));

    return FL;
}

static
cmsFloat64Number computeD(cmsCIECAM02* pMod)
{
    cmsFloat64Number D;

    D = pMod->F - (1.0/3.6)*(exp(((-pMod ->LA-42) / 92.0)));

    return D;
}


static
CAM02COLOR XYZtoCAT02(CAM02COLOR clr)
{
    clr.RGB[0] = (clr.XYZ[0] *  0.7328) + (clr.XYZ[1] *  0.4296) + (clr.XYZ[2] * -0.1624);
    clr.RGB[1] = (clr.XYZ[0] * -0.7036) + (clr.XYZ[1] *  1.6975) + (clr.XYZ[2] *  0.0061);
    clr.RGB[2] = (clr.XYZ[0] *  0.0030) + (clr.XYZ[1] *  0.0136) + (clr.XYZ[2] *  0.9834);

    return clr;
}

static
CAM02COLOR ChromaticAdaptation(CAM02COLOR clr, cmsCIECAM02* pMod)
{
    cmsUInt32Number i;

    for (i = 0; i < 3; i++) {
        clr.RGBc[i] = ((pMod -> adoptedWhite.XYZ[1] *
            (pMod->D / pMod -> adoptedWhite.RGB[i])) +
            (1.0 - pMod->D)) * clr.RGB[i];
    }

    return clr;
}


static
CAM02COLOR CAT02toHPE(CAM02COLOR clr)
{
    cmsFloat64Number M[9];

    M[0] =(( 0.38971 *  1.096124) + (0.68898 * 0.454369) + (-0.07868 * -0.009628));
    M[1] =(( 0.38971 * -0.278869) + (0.68898 * 0.473533) + (-0.07868 * -0.005698));
    M[2] =(( 0.38971 *  0.182745) + (0.68898 * 0.072098) + (-0.07868 *  1.015326));
    M[3] =((-0.22981 *  1.096124) + (1.18340 * 0.454369) + ( 0.04641 * -0.009628));
    M[4] =((-0.22981 * -0.278869) + (1.18340 * 0.473533) + ( 0.04641 * -0.005698));
    M[5] =((-0.22981 *  0.182745) + (1.18340 * 0.072098) + ( 0.04641 *  1.015326));
    M[6] =(-0.009628);
    M[7] =(-0.005698);
    M[8] =( 1.015326);

    clr.RGBp[0] = (clr.RGBc[0] * M[0]) +  (clr.RGBc[1] * M[1]) + (clr.RGBc[2] * M[2]);
    clr.RGBp[1] = (clr.RGBc[0] * M[3]) +  (clr.RGBc[1] * M[4]) + (clr.RGBc[2] * M[5]);
    clr.RGBp[2] = (clr.RGBc[0] * M[6]) +  (clr.RGBc[1] * M[7]) + (clr.RGBc[2] * M[8]);

    return  clr;
}

static
CAM02COLOR NonlinearCompression(CAM02COLOR clr, cmsCIECAM02* pMod)
{
    cmsUInt32Number i;
    cmsFloat64Number temp;

    for (i = 0; i < 3; i++) {
        if (clr.RGBp[i] < 0) {

            temp = pow((-1.0 * pMod->FL * clr.RGBp[i] / 100.0), 0.42);
            clr.RGBpa[i] = (-1.0 * 400.0 * temp) / (temp + 27.13) + 0.1;
        }
        else {
            temp = pow((pMod->FL * clr.RGBp[i] / 100.0), 0.42);
            clr.RGBpa[i] = (400.0 * temp) / (temp + 27.13) + 0.1;
        }
    }

    clr.A = (((2.0 * clr.RGBpa[0]) + clr.RGBpa[1] +
        (clr.RGBpa[2] / 20.0)) - 0.305) * pMod->Nbb;

    return clr;
}

static
CAM02COLOR ComputeCorrelates(CAM02COLOR clr, cmsCIECAM02* pMod)
{
    cmsFloat64Number a, b, temp, e, t, r2d, d2r;

    a = clr.RGBpa[0] - (12.0 * clr.RGBpa[1] / 11.0) + (clr.RGBpa[2] / 11.0);
    b = (clr.RGBpa[0] + clr.RGBpa[1] - (2.0 * clr.RGBpa[2])) / 9.0;

    r2d = (180.0 / 3.141592654);
    if (a == 0) {
        if (b == 0)     clr.h = 0;
        else if (b > 0) clr.h = 90;
        else            clr.h = 270;
    }
    else if (a > 0) {
        temp = b / a;
        if (b > 0)       clr.h = (r2d * atan(temp));
        else if (b == 0) clr.h = 0;
        else             clr.h = (r2d * atan(temp)) + 360;
    }
    else {
        temp = b / a;
        clr.h = (r2d * atan(temp)) + 180;
    }

    d2r = (3.141592654 / 180.0);
    e = ((12500.0 / 13.0) * pMod->Nc * pMod->Ncb) *
        (cos((clr.h * d2r + 2.0)) + 3.8);

    if (clr.h < 20.14) {
        temp = ((clr.h + 122.47)/1.2) + ((20.14 - clr.h)/0.8);
        clr.H = 300 + (100*((clr.h + 122.47)/1.2)) / temp;
    }
    else if (clr.h < 90.0) {
        temp = ((clr.h - 20.14)/0.8) + ((90.00 - clr.h)/0.7);
        clr.H = (100*((clr.h - 20.14)/0.8)) / temp;
    }
    else if (clr.h < 164.25) {
        temp = ((clr.h - 90.00)/0.7) + ((164.25 - clr.h)/1.0);
        clr.H = 100 + ((100*((clr.h - 90.00)/0.7)) / temp);
    }
    else if (clr.h < 237.53) {
        temp = ((clr.h - 164.25)/1.0) + ((237.53 - clr.h)/1.2);
        clr.H = 200 + ((100*((clr.h - 164.25)/1.0)) / temp);
    }
    else {
        temp = ((clr.h - 237.53)/1.2) + ((360 - clr.h + 20.14)/0.8);
        clr.H = 300 + ((100*((clr.h - 237.53)/1.2)) / temp);
    }

    clr.J = 100.0 * pow((clr.A / pMod->adoptedWhite.A),
        (pMod->c * pMod->z));

    clr.Q = (4.0 / pMod->c) * pow((clr.J / 100.0), 0.5) *
        (pMod->adoptedWhite.A + 4.0) * pow(pMod->FL, 0.25);

    t = (e * pow(((a * a) + (b * b)), 0.5)) /
        (clr.RGBpa[0] + clr.RGBpa[1] +
        ((21.0 / 20.0) * clr.RGBpa[2]));

    clr.C = pow(t, 0.9) * pow((clr.J / 100.0), 0.5) *
        pow((1.64 - pow(0.29, pMod->n)), 0.73);

    clr.M = clr.C * pow(pMod->FL, 0.25);
    clr.s = 100.0 * pow((clr.M / clr.Q), 0.5);

    return clr;
}


static
CAM02COLOR InverseCorrelates(CAM02COLOR clr, cmsCIECAM02* pMod)
{

    cmsFloat64Number t, e, p1, p2, p3, p4, p5, hr, d2r;
    d2r = 3.141592654 / 180.0;

    t = pow( (clr.C / (pow((clr.J / 100.0), 0.5) *
        (pow((1.64 - pow(0.29, pMod->n)), 0.73)))),
        (1.0 / 0.9) );
    e = ((12500.0 / 13.0) * pMod->Nc * pMod->Ncb) *
        (cos((clr.h * d2r + 2.0)) + 3.8);

    clr.A = pMod->adoptedWhite.A * pow(
           (clr.J / 100.0),
           (1.0 / (pMod->c * pMod->z)));

    p1 = e / t;
    p2 = (clr.A / pMod->Nbb) + 0.305;
    p3 = 21.0 / 20.0;

    hr = clr.h * d2r;

    if (fabs(sin(hr)) >= fabs(cos(hr))) {
        p4 = p1 / sin(hr);
        clr.b = (p2 * (2.0 + p3) * (460.0 / 1403.0)) /
            (p4 + (2.0 + p3) * (220.0 / 1403.0) *
            (cos(hr) / sin(hr)) - (27.0 / 1403.0) +
            p3 * (6300.0 / 1403.0));
        clr.a = clr.b * (cos(hr) / sin(hr));
    }
    else {
        p5 = p1 / cos(hr);
        clr.a = (p2 * (2.0 + p3) * (460.0 / 1403.0)) /
            (p5 + (2.0 + p3) * (220.0 / 1403.0) -
            ((27.0 / 1403.0) - p3 * (6300.0 / 1403.0)) *
            (sin(hr) / cos(hr)));
        clr.b = clr.a * (sin(hr) / cos(hr));
    }

    clr.RGBpa[0] = ((460.0 / 1403.0) * p2) +
              ((451.0 / 1403.0) * clr.a) +
              ((288.0 / 1403.0) * clr.b);
    clr.RGBpa[1] = ((460.0 / 1403.0) * p2) -
              ((891.0 / 1403.0) * clr.a) -
              ((261.0 / 1403.0) * clr.b);
    clr.RGBpa[2] = ((460.0 / 1403.0) * p2) -
              ((220.0 / 1403.0) * clr.a) -
              ((6300.0 / 1403.0) * clr.b);

    return clr;
}

static
CAM02COLOR InverseNonlinearity(CAM02COLOR clr, cmsCIECAM02* pMod)
{
    cmsUInt32Number i;
    cmsFloat64Number c1;

    for (i = 0; i < 3; i++) {
        if ((clr.RGBpa[i] - 0.1) < 0) c1 = -1;
        else                               c1 = 1;
        clr.RGBp[i] = c1 * (100.0 / pMod->FL) *
            pow(((27.13 * fabs(clr.RGBpa[i] - 0.1)) /
            (400.0 - fabs(clr.RGBpa[i] - 0.1))),
            (1.0 / 0.42));
    }

    return clr;
}

static
CAM02COLOR HPEtoCAT02(CAM02COLOR clr)
{
    cmsFloat64Number M[9];

    M[0] = (( 0.7328 *  1.910197) + (0.4296 * 0.370950));
    M[1] = (( 0.7328 * -1.112124) + (0.4296 * 0.629054));
    M[2] = (( 0.7328 *  0.201908) + (0.4296 * 0.000008) - 0.1624);
    M[3] = ((-0.7036 *  1.910197) + (1.6975 * 0.370950));
    M[4] = ((-0.7036 * -1.112124) + (1.6975 * 0.629054));
    M[5] = ((-0.7036 *  0.201908) + (1.6975 * 0.000008) + 0.0061);
    M[6] = (( 0.0030 *  1.910197) + (0.0136 * 0.370950));
    M[7] = (( 0.0030 * -1.112124) + (0.0136 * 0.629054));
    M[8] = (( 0.0030 *  0.201908) + (0.0136 * 0.000008) + 0.9834);;

    clr.RGBc[0] = (clr.RGBp[0] * M[0]) + (clr.RGBp[1] * M[1]) + (clr.RGBp[2] * M[2]);
    clr.RGBc[1] = (clr.RGBp[0] * M[3]) + (clr.RGBp[1] * M[4]) + (clr.RGBp[2] * M[5]);
    clr.RGBc[2] = (clr.RGBp[0] * M[6]) + (clr.RGBp[1] * M[7]) + (clr.RGBp[2] * M[8]);
    return clr;
}


static
CAM02COLOR InverseChromaticAdaptation(CAM02COLOR clr,  cmsCIECAM02* pMod)
{
    cmsUInt32Number i;
    for (i = 0; i < 3; i++) {
        clr.RGB[i] = clr.RGBc[i] /
            ((pMod->adoptedWhite.XYZ[1] * pMod->D / pMod->adoptedWhite.RGB[i]) + 1.0 - pMod->D);
    }
    return clr;
}


static
CAM02COLOR CAT02toXYZ(CAM02COLOR clr)
{
    clr.XYZ[0] = (clr.RGB[0] *  1.096124) + (clr.RGB[1] * -0.278869) + (clr.RGB[2] *  0.182745);
    clr.XYZ[1] = (clr.RGB[0] *  0.454369) + (clr.RGB[1] *  0.473533) + (clr.RGB[2] *  0.072098);
    clr.XYZ[2] = (clr.RGB[0] * -0.009628) + (clr.RGB[1] * -0.005698) + (clr.RGB[2] *  1.015326);

    return clr;
}


cmsHANDLE  CMSEXPORT cmsCIECAM02Init(cmsContext ContextID, const cmsViewingConditions* pVC)
{
    cmsCIECAM02* lpMod;

    _cmsAssert(pVC != NULL);

    if((lpMod = (cmsCIECAM02*) _cmsMallocZero(ContextID, sizeof(cmsCIECAM02))) == NULL) {
        return NULL;
    }

    lpMod ->ContextID = ContextID;

    lpMod ->adoptedWhite.XYZ[0] = pVC ->whitePoint.X;
    lpMod ->adoptedWhite.XYZ[1] = pVC ->whitePoint.Y;
    lpMod ->adoptedWhite.XYZ[2] = pVC ->whitePoint.Z;

    lpMod -> LA       = pVC ->La;
    lpMod -> Yb       = pVC ->Yb;
    lpMod -> D        = pVC ->D_value;
    lpMod -> surround = pVC ->surround;

    switch (lpMod -> surround) {


    case CUTSHEET_SURROUND:
        lpMod->F = 0.8;
        lpMod->c = 0.41;
        lpMod->Nc = 0.8;
        break;

    case DARK_SURROUND:
        lpMod -> F  = 0.8;
        lpMod -> c  = 0.525;
        lpMod -> Nc = 0.8;
        break;

    case DIM_SURROUND:
        lpMod -> F  = 0.9;
        lpMod -> c  = 0.59;
        lpMod -> Nc = 0.95;
        break;

    default:
        // Average surround
        lpMod -> F  = 1.0;
        lpMod -> c  = 0.69;
        lpMod -> Nc = 1.0;
    }

    lpMod -> n   = compute_n(lpMod);
    lpMod -> z   = compute_z(lpMod);
    lpMod -> Nbb = computeNbb(lpMod);
    lpMod -> FL  = computeFL(lpMod);

    if (lpMod -> D == D_CALCULATE) {
        lpMod -> D   = computeD(lpMod);
    }

    lpMod -> Ncb = lpMod -> Nbb;

    lpMod -> adoptedWhite = XYZtoCAT02(lpMod -> adoptedWhite);
    lpMod -> adoptedWhite = ChromaticAdaptation(lpMod -> adoptedWhite, lpMod);
    lpMod -> adoptedWhite = CAT02toHPE(lpMod -> adoptedWhite);
    lpMod -> adoptedWhite = NonlinearCompression(lpMod -> adoptedWhite, lpMod);

    return (cmsHANDLE) lpMod;

}

void CMSEXPORT cmsCIECAM02Done(cmsHANDLE hModel)
{
    cmsCIECAM02* lpMod = (cmsCIECAM02*) hModel;

    if (lpMod) _cmsFree(lpMod ->ContextID, lpMod);
}


void CMSEXPORT cmsCIECAM02Forward(cmsHANDLE hModel, const cmsCIEXYZ* pIn, cmsJCh* pOut)
{
    CAM02COLOR clr;
    cmsCIECAM02* lpMod = (cmsCIECAM02*) hModel;

    _cmsAssert(lpMod != NULL);
    _cmsAssert(pIn != NULL);
    _cmsAssert(pOut != NULL);

    clr.XYZ[0] = pIn ->X;
    clr.XYZ[1] = pIn ->Y;
    clr.XYZ[2] = pIn ->Z;

    clr = XYZtoCAT02(clr);
    clr = ChromaticAdaptation(clr, lpMod);
    clr = CAT02toHPE(clr);
    clr = NonlinearCompression(clr, lpMod);
    clr = ComputeCorrelates(clr, lpMod);

    pOut ->J = clr.J;
    pOut ->C = clr.C;
    pOut ->h = clr.h;
}

void CMSEXPORT cmsCIECAM02Reverse(cmsHANDLE hModel, const cmsJCh* pIn, cmsCIEXYZ* pOut)
{
    CAM02COLOR clr;
    cmsCIECAM02* lpMod = (cmsCIECAM02*) hModel;

    _cmsAssert(lpMod != NULL);
    _cmsAssert(pIn != NULL);
    _cmsAssert(pOut != NULL);

    clr.J = pIn -> J;
    clr.C = pIn -> C;
    clr.h = pIn -> h;

    clr = InverseCorrelates(clr, lpMod);
    clr = InverseNonlinearity(clr, lpMod);
    clr = HPEtoCAT02(clr);
    clr = InverseChromaticAdaptation(clr, lpMod);
    clr = CAT02toXYZ(clr);

    pOut ->X = clr.XYZ[0];
    pOut ->Y = clr.XYZ[1];
    pOut ->Z = clr.XYZ[2];
}

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