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/* Copyright (c) 1990 Regents of the University of California */ |
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|
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#ifndef lint |
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static char SCCSid[] = "$SunId$ LBL"; |
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static const char RCSid[] = "$Id$"; |
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#endif |
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|
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/* |
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* Convert colors and spectral ranges. |
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* Added von Kries white-balance calculations 10/01 (GW). |
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* |
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* Externals declared in color.h |
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*/ |
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|
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/* ==================================================================== |
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* The Radiance Software License, Version 1.0 |
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* |
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* Copyright (c) 1990 - 2002 The Regents of the University of California, |
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* through Lawrence Berkeley National Laboratory. All rights reserved. |
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* |
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* Redistribution and use in source and binary forms, with or without |
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* modification, are permitted provided that the following conditions |
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* are met: |
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* |
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* 1. Redistributions of source code must retain the above copyright |
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* notice, this list of conditions and the following disclaimer. |
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* |
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* 2. Redistributions in binary form must reproduce the above copyright |
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* notice, this list of conditions and the following disclaimer in |
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* the documentation and/or other materials provided with the |
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* distribution. |
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* |
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* 3. The end-user documentation included with the redistribution, |
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* if any, must include the following acknowledgment: |
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* "This product includes Radiance software |
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* (http://radsite.lbl.gov/) |
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* developed by the Lawrence Berkeley National Laboratory |
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* (http://www.lbl.gov/)." |
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* Alternately, this acknowledgment may appear in the software itself, |
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* if and wherever such third-party acknowledgments normally appear. |
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* |
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* 4. The names "Radiance," "Lawrence Berkeley National Laboratory" |
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* and "The Regents of the University of California" must |
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* not be used to endorse or promote products derived from this |
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* software without prior written permission. For written |
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* permission, please contact [email protected]. |
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* |
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* 5. Products derived from this software may not be called "Radiance", |
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* nor may "Radiance" appear in their name, without prior written |
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* permission of Lawrence Berkeley National Laboratory. |
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* |
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* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED |
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* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
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* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE |
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* DISCLAIMED. IN NO EVENT SHALL Lawrence Berkeley National Laboratory OR |
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* ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF |
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* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND |
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* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, |
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* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT |
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* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF |
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* SUCH DAMAGE. |
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* ==================================================================== |
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* |
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* This software consists of voluntary contributions made by many |
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* individuals on behalf of Lawrence Berkeley National Laboratory. For more |
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* information on Lawrence Berkeley National Laboratory, please see |
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* <http://www.lbl.gov/>. |
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*/ |
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|
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#include "color.h" |
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#include <string.h> |
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|
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#define CEPS 1e-4 /* color epsilon */ |
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|
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#define CEQ(v1,v2) ((v1) <= (v2)+CEPS && (v2) <= (v1)+CEPS) |
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|
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#define XYEQ(c1,c2) (CEQ((c1)[CIEX],(c2)[CIEX]) && CEQ((c1)[CIEY],(c2)[CIEY])) |
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|
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|
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RGBPRIMS stdprims = STDPRIMS; /* standard primary chromaticities */ |
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|
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COLOR cblack = BLKCOLOR; /* global black color */ |
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COLOR cwhite = WHTCOLOR; /* global white color */ |
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|
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float xyneu[2] = {1./3., 1./3.}; /* neutral xy chromaticities */ |
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|
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/* |
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* The following table contains the CIE tristimulus integrals |
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* for X, Y, and Z. The table is cumulative, so that |
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} |
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}; |
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|
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#ifdef NTSC |
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static float xyz2rgbmat[3][3] = { /* XYZ to RGB (NTSC) */ |
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1.73, -.48, -.26, |
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-.81, 1.65, -.02, |
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.08, -.17, 1.28, |
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COLORMAT xyz2rgbmat = { /* XYZ to RGB (no white balance) */ |
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{(CIE_y_g - CIE_y_b - CIE_x_b*CIE_y_g + CIE_y_b*CIE_x_g)/CIE_C_rD, |
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(CIE_x_b - CIE_x_g - CIE_x_b*CIE_y_g + CIE_x_g*CIE_y_b)/CIE_C_rD, |
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(CIE_x_g*CIE_y_b - CIE_x_b*CIE_y_g)/CIE_C_rD}, |
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{(CIE_y_b - CIE_y_r - CIE_y_b*CIE_x_r + CIE_y_r*CIE_x_b)/CIE_C_gD, |
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(CIE_x_r - CIE_x_b - CIE_x_r*CIE_y_b + CIE_x_b*CIE_y_r)/CIE_C_gD, |
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(CIE_x_b*CIE_y_r - CIE_x_r*CIE_y_b)/CIE_C_gD}, |
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{(CIE_y_r - CIE_y_g - CIE_y_r*CIE_x_g + CIE_y_g*CIE_x_r)/CIE_C_bD, |
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(CIE_x_g - CIE_x_r - CIE_x_g*CIE_y_r + CIE_x_r*CIE_y_g)/CIE_C_bD, |
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(CIE_x_r*CIE_y_g - CIE_x_g*CIE_y_r)/CIE_C_bD} |
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}; |
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#else |
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static float xyz2rgbmat[3][3] = { /* XYZ to RGB (color monitor) */ |
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2.739, -1.145, -.424, |
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-1.119, 2.029, .033, |
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.138, -.333, 1.105, |
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|
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COLORMAT rgb2xyzmat = { /* RGB to XYZ (no white balance) */ |
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{CIE_x_r*CIE_C_rD/CIE_D,CIE_x_g*CIE_C_gD/CIE_D,CIE_x_b*CIE_C_bD/CIE_D}, |
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{CIE_y_r*CIE_C_rD/CIE_D,CIE_y_g*CIE_C_gD/CIE_D,CIE_y_b*CIE_C_bD/CIE_D}, |
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{(1.-CIE_x_r-CIE_y_r)*CIE_C_rD/CIE_D, |
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(1.-CIE_x_g-CIE_y_g)*CIE_C_gD/CIE_D, |
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(1.-CIE_x_b-CIE_y_b)*CIE_C_bD/CIE_D} |
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}; |
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#endif |
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|
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COLORMAT vkmat = { /* Sharp primary matrix */ |
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{ 1.2694, -0.0988, -0.1706}, |
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{-0.8364, 1.8006, 0.0357}, |
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{ 0.0297, -0.0315, 1.0018} |
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}; |
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|
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COLORMAT ivkmat = { /* inverse Sharp primary matrix */ |
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{ 0.8156, 0.0472, 0.1372}, |
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{ 0.3791, 0.5769, 0.0440}, |
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{-0.0123, 0.0167, 0.9955} |
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}; |
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|
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|
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void |
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spec_rgb(col, s, e) /* compute RGB color from spectral range */ |
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COLOR col; |
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int s, e; |
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} |
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|
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|
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void |
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spec_cie(col, s, e) /* compute a color from a spectral range */ |
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COLOR col; /* returned color */ |
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int s, e; /* starting and ending wavelengths */ |
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|
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e -= STARTWL; |
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if (e <= s) { |
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col[RED] = col[GRN] = col[BLU] = 0.0; |
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col[CIEX] = col[CIEY] = col[CIEZ] = 0.0; |
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return; |
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} |
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if (e >= INCWL*(NINC - 1)) |
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for (i = 0; i < 3; i++) |
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col[i] -= chroma[i][d]*(INCWL - r) - chroma[i][d + 1]*r; |
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|
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col[RED] = (col[RED] + 0.5) / (256*INCWL); |
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col[GRN] = (col[GRN] + 0.5) / (256*INCWL); |
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col[BLU] = (col[BLU] + 0.5) / (256*INCWL); |
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col[CIEX] = (col[CIEX] + 0.5) * (1./(256*INCWL)); |
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col[CIEY] = (col[CIEY] + 0.5) * (1./(256*INCWL)); |
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col[CIEZ] = (col[CIEZ] + 0.5) * (1./(256*INCWL)); |
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} |
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|
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cie_rgb(rgbcolor, ciecolor) /* convert CIE to RGB */ |
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register COLOR rgbcolor, ciecolor; |
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void |
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cie_rgb(rgb, xyz) /* convert CIE color to standard RGB */ |
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COLOR rgb; |
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COLOR xyz; |
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{ |
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colortrans(rgb, xyz2rgbmat, xyz); |
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clipgamut(rgb, xyz[CIEY], CGAMUT_LOWER, cblack, cwhite); |
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} |
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|
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|
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int |
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clipgamut(col, brt, gamut, lower, upper) /* clip to gamut cube */ |
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COLOR col; |
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double brt; |
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int gamut; |
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COLOR lower, upper; |
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{ |
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int rflags = 0; |
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double brtmin, brtmax, v, vv; |
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COLOR cgry; |
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register int i; |
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/* check for no check */ |
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if (gamut == 0) return(0); |
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/* check brightness limits */ |
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brtmin = 1./3.*(lower[0]+lower[1]+lower[2]); |
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if (gamut & CGAMUT_LOWER && brt < brtmin) { |
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copycolor(col, lower); |
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return(CGAMUT_LOWER); |
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} |
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brtmax = 1./3.*(upper[0]+upper[1]+upper[2]); |
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if (gamut & CGAMUT_UPPER && brt > brtmax) { |
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copycolor(col, upper); |
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return(CGAMUT_UPPER); |
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} |
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/* compute equivalent grey */ |
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v = (brt - brtmin)/(brtmax - brtmin); |
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for (i = 0; i < 3; i++) |
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cgry[i] = v*upper[i] + (1.-v)*lower[i]; |
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vv = 1.; /* check each limit */ |
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for (i = 0; i < 3; i++) |
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if (gamut & CGAMUT_LOWER && col[i] < lower[i]) { |
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v = (lower[i]+CEPS - cgry[i])/(col[i] - cgry[i]); |
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if (v < vv) vv = v; |
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rflags |= CGAMUT_LOWER; |
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} else if (gamut & CGAMUT_UPPER && col[i] > upper[i]) { |
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v = (upper[i]-CEPS - cgry[i])/(col[i] - cgry[i]); |
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if (v < vv) vv = v; |
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rflags |= CGAMUT_UPPER; |
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} |
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if (rflags) /* desaturate to cube face */ |
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for (i = 0; i < 3; i++) |
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col[i] = vv*col[i] + (1.-vv)*cgry[i]; |
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return(rflags); |
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} |
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|
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< |
for (i = 0; i < 3; i++) { |
250 |
< |
rgbcolor[i] = xyz2rgbmat[i][0]*ciecolor[0] + |
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< |
xyz2rgbmat[i][1]*ciecolor[1] + |
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< |
xyz2rgbmat[i][2]*ciecolor[2] ; |
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if (rgbcolor[i] < 0.0) |
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rgbcolor[i] = 0.0; |
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|
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void |
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colortrans(c2, mat, c1) /* convert c1 by mat and put into c2 */ |
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register COLOR c2; |
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register COLORMAT mat; |
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register COLOR c1; |
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{ |
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COLOR cout; |
257 |
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|
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cout[0] = mat[0][0]*c1[0] + mat[0][1]*c1[1] + mat[0][2]*c1[2]; |
259 |
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cout[1] = mat[1][0]*c1[0] + mat[1][1]*c1[1] + mat[1][2]*c1[2]; |
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cout[2] = mat[2][0]*c1[0] + mat[2][1]*c1[1] + mat[2][2]*c1[2]; |
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|
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copycolor(c2, cout); |
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} |
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|
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|
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void |
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multcolormat(m3, m2, m1) /* multiply m1 by m2 and put into m3 */ |
268 |
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COLORMAT m3; /* m3 can be either m1 or m2 w/o harm */ |
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COLORMAT m2, m1; |
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{ |
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COLORMAT mt; |
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> |
register int i, j; |
273 |
> |
|
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for (i = 0; i < 3; i++) |
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for (j = 0; j < 3; j++) |
276 |
> |
mt[i][j] = m1[i][0]*m2[0][j] + |
277 |
> |
m1[i][1]*m2[1][j] + |
278 |
> |
m1[i][2]*m2[2][j] ; |
279 |
> |
cpcolormat(m3, mt); |
280 |
> |
} |
281 |
> |
|
282 |
> |
|
283 |
> |
void |
284 |
> |
compxyz2rgbmat(mat, pr) /* compute conversion from CIE to RGB space */ |
285 |
> |
COLORMAT mat; |
286 |
> |
register RGBPRIMS pr; |
287 |
> |
{ |
288 |
> |
double C_rD, C_gD, C_bD; |
289 |
> |
|
290 |
> |
if (pr == stdprims) { /* can use xyz2rgbmat */ |
291 |
> |
cpcolormat(mat, xyz2rgbmat); |
292 |
> |
return; |
293 |
|
} |
294 |
+ |
C_rD = (1./pr[WHT][CIEY]) * |
295 |
+ |
( pr[WHT][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) - |
296 |
+ |
pr[WHT][CIEY]*(pr[GRN][CIEX] - pr[BLU][CIEX]) + |
297 |
+ |
pr[GRN][CIEX]*pr[BLU][CIEY] - pr[BLU][CIEX]*pr[GRN][CIEY] ) ; |
298 |
+ |
C_gD = (1./pr[WHT][CIEY]) * |
299 |
+ |
( pr[WHT][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) - |
300 |
+ |
pr[WHT][CIEY]*(pr[BLU][CIEX] - pr[RED][CIEX]) - |
301 |
+ |
pr[RED][CIEX]*pr[BLU][CIEY] + pr[BLU][CIEX]*pr[RED][CIEY] ) ; |
302 |
+ |
C_bD = (1./pr[WHT][CIEY]) * |
303 |
+ |
( pr[WHT][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) - |
304 |
+ |
pr[WHT][CIEY]*(pr[RED][CIEX] - pr[GRN][CIEX]) + |
305 |
+ |
pr[RED][CIEX]*pr[GRN][CIEY] - pr[GRN][CIEX]*pr[RED][CIEY] ) ; |
306 |
+ |
|
307 |
+ |
mat[0][0] = (pr[GRN][CIEY] - pr[BLU][CIEY] - |
308 |
+ |
pr[BLU][CIEX]*pr[GRN][CIEY] + |
309 |
+ |
pr[BLU][CIEY]*pr[GRN][CIEX])/C_rD ; |
310 |
+ |
mat[0][1] = (pr[BLU][CIEX] - pr[GRN][CIEX] - |
311 |
+ |
pr[BLU][CIEX]*pr[GRN][CIEY] + |
312 |
+ |
pr[GRN][CIEX]*pr[BLU][CIEY])/C_rD ; |
313 |
+ |
mat[0][2] = (pr[GRN][CIEX]*pr[BLU][CIEY] - |
314 |
+ |
pr[BLU][CIEX]*pr[GRN][CIEY])/C_rD ; |
315 |
+ |
mat[1][0] = (pr[BLU][CIEY] - pr[RED][CIEY] - |
316 |
+ |
pr[BLU][CIEY]*pr[RED][CIEX] + |
317 |
+ |
pr[RED][CIEY]*pr[BLU][CIEX])/C_gD ; |
318 |
+ |
mat[1][1] = (pr[RED][CIEX] - pr[BLU][CIEX] - |
319 |
+ |
pr[RED][CIEX]*pr[BLU][CIEY] + |
320 |
+ |
pr[BLU][CIEX]*pr[RED][CIEY])/C_gD ; |
321 |
+ |
mat[1][2] = (pr[BLU][CIEX]*pr[RED][CIEY] - |
322 |
+ |
pr[RED][CIEX]*pr[BLU][CIEY])/C_gD ; |
323 |
+ |
mat[2][0] = (pr[RED][CIEY] - pr[GRN][CIEY] - |
324 |
+ |
pr[RED][CIEY]*pr[GRN][CIEX] + |
325 |
+ |
pr[GRN][CIEY]*pr[RED][CIEX])/C_bD ; |
326 |
+ |
mat[2][1] = (pr[GRN][CIEX] - pr[RED][CIEX] - |
327 |
+ |
pr[GRN][CIEX]*pr[RED][CIEY] + |
328 |
+ |
pr[RED][CIEX]*pr[GRN][CIEY])/C_bD ; |
329 |
+ |
mat[2][2] = (pr[RED][CIEX]*pr[GRN][CIEY] - |
330 |
+ |
pr[GRN][CIEX]*pr[RED][CIEY])/C_bD ; |
331 |
+ |
} |
332 |
+ |
|
333 |
+ |
|
334 |
+ |
void |
335 |
+ |
comprgb2xyzmat(mat, pr) /* compute conversion from RGB to CIE space */ |
336 |
+ |
COLORMAT mat; |
337 |
+ |
register RGBPRIMS pr; |
338 |
+ |
{ |
339 |
+ |
double C_rD, C_gD, C_bD, D; |
340 |
+ |
|
341 |
+ |
if (pr == stdprims) { /* can use rgb2xyzmat */ |
342 |
+ |
cpcolormat(mat, rgb2xyzmat); |
343 |
+ |
return; |
344 |
+ |
} |
345 |
+ |
C_rD = (1./pr[WHT][CIEY]) * |
346 |
+ |
( pr[WHT][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) - |
347 |
+ |
pr[WHT][CIEY]*(pr[GRN][CIEX] - pr[BLU][CIEX]) + |
348 |
+ |
pr[GRN][CIEX]*pr[BLU][CIEY] - pr[BLU][CIEX]*pr[GRN][CIEY] ) ; |
349 |
+ |
C_gD = (1./pr[WHT][CIEY]) * |
350 |
+ |
( pr[WHT][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) - |
351 |
+ |
pr[WHT][CIEY]*(pr[BLU][CIEX] - pr[RED][CIEX]) - |
352 |
+ |
pr[RED][CIEX]*pr[BLU][CIEY] + pr[BLU][CIEX]*pr[RED][CIEY] ) ; |
353 |
+ |
C_bD = (1./pr[WHT][CIEY]) * |
354 |
+ |
( pr[WHT][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) - |
355 |
+ |
pr[WHT][CIEY]*(pr[RED][CIEX] - pr[GRN][CIEX]) + |
356 |
+ |
pr[RED][CIEX]*pr[GRN][CIEY] - pr[GRN][CIEX]*pr[RED][CIEY] ) ; |
357 |
+ |
D = pr[RED][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) + |
358 |
+ |
pr[GRN][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) + |
359 |
+ |
pr[BLU][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) ; |
360 |
+ |
mat[0][0] = pr[RED][CIEX]*C_rD/D; |
361 |
+ |
mat[0][1] = pr[GRN][CIEX]*C_gD/D; |
362 |
+ |
mat[0][2] = pr[BLU][CIEX]*C_bD/D; |
363 |
+ |
mat[1][0] = pr[RED][CIEY]*C_rD/D; |
364 |
+ |
mat[1][1] = pr[GRN][CIEY]*C_gD/D; |
365 |
+ |
mat[1][2] = pr[BLU][CIEY]*C_bD/D; |
366 |
+ |
mat[2][0] = (1.-pr[RED][CIEX]-pr[RED][CIEY])*C_rD/D; |
367 |
+ |
mat[2][1] = (1.-pr[GRN][CIEX]-pr[GRN][CIEY])*C_gD/D; |
368 |
+ |
mat[2][2] = (1.-pr[BLU][CIEX]-pr[BLU][CIEY])*C_bD/D; |
369 |
+ |
} |
370 |
+ |
|
371 |
+ |
|
372 |
+ |
void |
373 |
+ |
comprgb2rgbmat(mat, pr1, pr2) /* compute conversion from RGB1 to RGB2 */ |
374 |
+ |
COLORMAT mat; |
375 |
+ |
RGBPRIMS pr1, pr2; |
376 |
+ |
{ |
377 |
+ |
COLORMAT pr1toxyz, xyztopr2; |
378 |
+ |
|
379 |
+ |
if (pr1 == pr2) { |
380 |
+ |
mat[0][0] = mat[1][1] = mat[2][2] = 1.0; |
381 |
+ |
mat[0][1] = mat[0][2] = mat[1][0] = |
382 |
+ |
mat[1][2] = mat[2][0] = mat[2][1] = 0.0; |
383 |
+ |
return; |
384 |
+ |
} |
385 |
+ |
comprgb2xyzmat(pr1toxyz, pr1); |
386 |
+ |
compxyz2rgbmat(xyztopr2, pr2); |
387 |
+ |
/* combine transforms */ |
388 |
+ |
multcolormat(mat, pr1toxyz, xyztopr2); |
389 |
+ |
} |
390 |
+ |
|
391 |
+ |
|
392 |
+ |
void |
393 |
+ |
compxyzWBmat(mat, wht1, wht2) /* CIE von Kries transform from wht1 to wht2 */ |
394 |
+ |
COLORMAT mat; |
395 |
+ |
float wht1[2], wht2[2]; |
396 |
+ |
{ |
397 |
+ |
COLOR cw1, cw2; |
398 |
+ |
if (XYEQ(wht1,wht2)) { |
399 |
+ |
mat[0][0] = mat[1][1] = mat[2][2] = 1.0; |
400 |
+ |
mat[0][1] = mat[0][2] = mat[1][0] = |
401 |
+ |
mat[1][2] = mat[2][0] = mat[2][1] = 0.0; |
402 |
+ |
return; |
403 |
+ |
} |
404 |
+ |
cw1[RED] = wht1[CIEX]/wht1[CIEY]; |
405 |
+ |
cw1[GRN] = 1.; |
406 |
+ |
cw1[BLU] = (1. - wht1[CIEX] - wht1[CIEY])/wht1[CIEY]; |
407 |
+ |
colortrans(cw1, vkmat, cw1); |
408 |
+ |
cw2[RED] = wht2[CIEX]/wht2[CIEY]; |
409 |
+ |
cw2[GRN] = 1.; |
410 |
+ |
cw2[BLU] = (1. - wht2[CIEX] - wht2[CIEY])/wht2[CIEY]; |
411 |
+ |
colortrans(cw2, vkmat, cw2); |
412 |
+ |
mat[0][0] = cw2[RED]/cw1[RED]; |
413 |
+ |
mat[1][1] = cw2[GRN]/cw1[GRN]; |
414 |
+ |
mat[2][2] = cw2[BLU]/cw1[BLU]; |
415 |
+ |
mat[0][1] = mat[0][2] = mat[1][0] = |
416 |
+ |
mat[1][2] = mat[2][0] = mat[2][1] = 0.0; |
417 |
+ |
multcolormat(mat, vkmat, mat); |
418 |
+ |
multcolormat(mat, mat, ivkmat); |
419 |
+ |
} |
420 |
+ |
|
421 |
+ |
|
422 |
+ |
void |
423 |
+ |
compxyz2rgbWBmat(mat, pr) /* von Kries conversion from CIE to RGB space */ |
424 |
+ |
COLORMAT mat; |
425 |
+ |
RGBPRIMS pr; |
426 |
+ |
{ |
427 |
+ |
COLORMAT wbmat; |
428 |
+ |
|
429 |
+ |
compxyz2rgbmat(mat, pr); |
430 |
+ |
if (XYEQ(pr[WHT],xyneu)) |
431 |
+ |
return; |
432 |
+ |
compxyzWBmat(wbmat, xyneu, pr[WHT]); |
433 |
+ |
multcolormat(mat, wbmat, mat); |
434 |
+ |
} |
435 |
+ |
|
436 |
+ |
void |
437 |
+ |
comprgb2xyzWBmat(mat, pr) /* von Kries conversion from RGB to CIE space */ |
438 |
+ |
COLORMAT mat; |
439 |
+ |
RGBPRIMS pr; |
440 |
+ |
{ |
441 |
+ |
COLORMAT wbmat; |
442 |
+ |
|
443 |
+ |
comprgb2xyzmat(mat, pr); |
444 |
+ |
if (XYEQ(pr[WHT],xyneu)) |
445 |
+ |
return; |
446 |
+ |
compxyzWBmat(wbmat, pr[WHT], xyneu); |
447 |
+ |
multcolormat(mat, mat, wbmat); |
448 |
+ |
} |
449 |
+ |
|
450 |
+ |
void |
451 |
+ |
comprgb2rgbWBmat(mat, pr1, pr2) /* von Kries conversion from RGB1 to RGB2 */ |
452 |
+ |
COLORMAT mat; |
453 |
+ |
RGBPRIMS pr1, pr2; |
454 |
+ |
{ |
455 |
+ |
COLORMAT pr1toxyz, xyztopr2, wbmat; |
456 |
+ |
|
457 |
+ |
if (pr1 == pr2) { |
458 |
+ |
mat[0][0] = mat[1][1] = mat[2][2] = 1.0; |
459 |
+ |
mat[0][1] = mat[0][2] = mat[1][0] = |
460 |
+ |
mat[1][2] = mat[2][0] = mat[2][1] = 0.0; |
461 |
+ |
return; |
462 |
+ |
} |
463 |
+ |
comprgb2xyzmat(pr1toxyz, pr1); |
464 |
+ |
compxyzWBmat(wbmat, pr1[WHT], pr2[WHT]); |
465 |
+ |
compxyz2rgbmat(xyztopr2, pr2); |
466 |
+ |
/* combine transforms */ |
467 |
+ |
multcolormat(mat, pr1toxyz, wbmat); |
468 |
+ |
multcolormat(mat, mat, xyztopr2); |
469 |
|
} |