/*************************************************************************
*
* Apache OpenOffice - a multi-platform office productivity suite
*
Derived by beppec56@openoffice.org from various examples
in SampleICC library, the original copyright retained.
Copyright: © see below
*/
/*
* The ICC Software License, Version 0.1
*
*
* Copyright (c) 2003-2006 The International Color Consortium. All rights
* reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
*
* 3. The end-user documentation included with the redistribution,
* if any, must include the following acknowledgment:
* "This product includes software developed by the
* The International Color Consortium (www.color.org)"
* Alternately, this acknowledgment may appear in the software itself,
* if and wherever such third-party acknowledgments normally appear.
*
* 4. The names "ICC" and "The International Color Consortium" must
* not be used to imply that the ICC organization endorses or
* promotes products derived from this software without prior
* written permission. For written permission, please see
* .
*
*
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE INTERNATIONAL COLOR CONSORTIUM OR
* ITS CONTRIBUTING MEMBERS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
* ====================================================================
*
* This software consists of voluntary contributions made by many
* individuals on behalf of the The International Color Consortium.
*
*
* Membership in the ICC is encouraged when this software is used for
* commercial purposes.
*
*
* For more information on The International Color Consortium, please
* see .
*
*
*/
#include
#include
#include
using namespace std;
#include "IccUtil.h"
#include "IccProfile.h"
#include "Vetters.h"
#include "CAT.h"
#include "CLUT.h"
const char * const icc_file_name = "sRGB-IEC61966-2.1.icc";
const char * const hxx_file_name = "sRGB-IEC61966-2.1.hxx";
const char * const this_file_name_and_location =" * icc/source/create_sRGB_profile/create_sRGB_profile.cpp";
const char* const description = "sRGB IEC61966-2.1";
//const char* const devicemanufact = "IEC http://www.iec.ch"; not used, device manufactured by OOo seems funny...
const char* const devicemodel = "IEC 61966-2.1 Default RGB colour space - sRGB";
const char* const copyright = "Licensed to the Apache Software Foundation (ASF) under one or more contributor license agreements; and to You under the Apache License, Version 2.0. ";
// the creation date is fixed, corresponds to the last time this file has been changed
// NOTE: change this date values whenever the data inside the profile are changed.
const int data_last_changed_year = 2016;
const int data_last_changed_month = 12;
const int data_last_day = 24;
const int data_last_changed_hour = 43;
const int data_last_changed_minute = 00;
// the following string array it's the standard OOo header format
const char * const TheHeader1[] =
{
"/*************************************************************************",
" *",
" * Apache OpenOffice - a multi-platform office productivity suite",
" *",
" * sRGB-IEC61966-2.1.hxx",
" *",
" * creator: create_sRGB_profile",
NULL
};
const char * const TheHeader2[] =
{
" *",
" * Licensed to the Apache Software Foundation (ASF) under one",
" * or more contributor license agreements. See the NOTICE file",
" * distributed with this work for additional information",
" * regarding copyright ownership. The ASF licenses this file",
" * to you under the Apache License, Version 2.0 (the",
" * \"License\"); you may not use this file except in compliance",
" * with the License. You may obtain a copy of the License at",
" *",
" * http://www.apache.org/licenses/LICENSE-2.0",
" *",
" * Unless required by applicable law or agreed to in writing,",
" * software distributed under the License is distributed on an",
" * \"AS IS\" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY",
" * KIND, either express or implied. See the License for the",
" * specific language governing permissions and limitations",
" * under the License.",
" ************************************************************************/",
"",
"#ifndef INCLUDED_ICC_SRGB_IEC61966_2_1_H",
"#define INCLUDED_ICC_SRGB_IEC61966_2_1_H",
"",
"/***********************************************************************",
" * NOTE:",
" * this file is automatically generated by running the program",
" * obtained building:",
this_file_name_and_location,
" * contained in module icc",
" * modify that program if you need to change something.",
" ***********************************************************************/",
NULL // last string, a null
};
const char * const TheTail[] =
{
"#endif /* INCLUDED_ICC_SRGB_IEC61966_2_1_H */",
NULL
};
icFloatNumber computeIEC_RGBtoXYZ( icFloatNumber indata )
{
double retval = 0.0;
if(indata < 0.04045)
retval = indata/12.92;
else // apply the other conversion
retval = pow( (indata + 0.055)/1.055 , 2.4);
return retval;
}
icFloatNumber computeIEC_XYZtoRGB( icFloatNumber indata )
{
icFloatNumber retval = 0.0;
if(indata < 0.0031308)
retval = indata*12.92;
else // apply the other conversion
retval = 1.055*pow( indata , icFloatNumber(1.0/2.4)) - 0.055;
// cout << retval << endl;
return retval;
}
void dumpTag(FILE *outfile, CIccProfile *pIcc, icTagSignature sig)
{
CIccTag *pTag = pIcc->FindTag(sig);
char buf[64];
CIccInfo Fmt;
std::string contents;
if (pTag)
{
fprintf(outfile, "\nContents of %s tag (%s)\n", Fmt.GetTagSigName(sig), icGetSig(buf, sig));
fprintf(outfile,"Type: ");
if (pTag->IsArrayType()) fprintf(outfile, "Array of ");
fprintf(outfile, "%s\n", Fmt.GetTagTypeSigName(pTag->GetType()));
pTag->Describe(contents);
fwrite(contents.c_str(), contents.length(), 1, outfile);
}
else
fprintf(outfile, "Tag (%s) not found in profile\n", icGetSig(buf, sig));
}
void dumpProfile(FILE *outfile, const char * profileName)
{
CIccProfile *pIcc;
icValidateStatus nStatus;
pIcc = OpenIccProfile(profileName);
if (!pIcc)
printf("Unable to open '%s'\n", profileName);
else
{
icHeader *pHdr = &pIcc->m_Header;
CIccInfo Fmt;
char buf[64];
fprintf(outfile,"Profile: '%s'\n", profileName);
if(Fmt.IsProfileIDCalculated(&pHdr->profileID))
fprintf(outfile,"Profile ID: %s\n", Fmt.GetProfileID(&pHdr->profileID));
else
fprintf(outfile,"Profile ID: Profile ID not calculated.\n");
fprintf(outfile,"Size: %ld(0x%lx) bytes\n", pHdr->size, pHdr->size);
fprintf(outfile,"\nHeader\n");
fprintf(outfile,"------\n");
fprintf(outfile,"Attributes: %s\n", Fmt.GetDeviceAttrName(pHdr->attributes));
fprintf(outfile,"Cmm: %s\n", Fmt.GetCmmSigName((icCmmSignature)(pHdr->cmmId)));
fprintf(outfile,"Creation Date: %d/%d/%d %02u:%02u:%02u\n",
pHdr->date.month, pHdr->date.day, pHdr->date.year,
pHdr->date.hours, pHdr->date.minutes, pHdr->date.seconds);
fprintf(outfile,"Creator: %s\n", icGetSig(buf, pHdr->creator));
fprintf(outfile,"Data Color Space: %s\n", Fmt.GetColorSpaceSigName(pHdr->colorSpace));
fprintf(outfile,"Flags %s\n", Fmt.GetProfileFlagsName(pHdr->flags));
fprintf(outfile,"PCS Color Space: %s\n", Fmt.GetColorSpaceSigName(pHdr->pcs));
fprintf(outfile,"Platform: %s\n", Fmt.GetPlatformSigName(pHdr->platform));
fprintf(outfile,"Rendering Intent: %s\n", Fmt.GetRenderingIntentName((icRenderingIntent)(pHdr->renderingIntent)));
fprintf(outfile,"Type: %s\n", Fmt.GetProfileClassSigName(pHdr->deviceClass));
fprintf(outfile,"Version: %s\n", Fmt.GetVersionName(pHdr->version));
fprintf(outfile,"Illuminant: X=%.4lf, Y=%.4lf, Z=%.4lf\n",
icFtoD(pHdr->illuminant.X),
icFtoD(pHdr->illuminant.Y),
icFtoD(pHdr->illuminant.Z));
fprintf(outfile,"\nProfile Tags\n");
fprintf(outfile,"------------\n");
fprintf(outfile,"%25s ID %8s\t%8s\n", "Tag", "Offset", "Size");
fprintf(outfile,"%25s ------ %8s\t%8s\n", "----", "------", "----");
int n;
TagEntryList::iterator i;
for (n=0, i=pIcc->m_Tags->begin(); i!=pIcc->m_Tags->end(); i++, n++)
{
fprintf(outfile,"%25s %s %8ld\t%8ld\n", Fmt.GetTagSigName(i->TagInfo.sig),
icGetSig(buf, i->TagInfo.sig, false),
i->TagInfo.offset, i->TagInfo.size);
}
for (n=0, i=pIcc->m_Tags->begin(); i!=pIcc->m_Tags->end(); i++, n++)
dumpTag(outfile, pIcc, i->TagInfo.sig);
}
delete pIcc;
}
int main(int argc, char* argv[])
{
const char* myName = path_tail(argv[0]);
try
{
const char* const out_file_pathname = icc_file_name;
CIccProfile profile;
profile.InitHeader();
profile.m_Header.date.year = data_last_changed_year;
profile.m_Header.date.month = data_last_changed_month;
profile.m_Header.date.day = data_last_day;
profile.m_Header.date.hours = data_last_changed_hour;
profile.m_Header.date.minutes = data_last_changed_minute;
profile.m_Header.date.seconds = 0;
profile.m_Header.deviceClass = icSigDisplayClass;
profile.m_Header.colorSpace = icSigRgbData;
profile.m_Header.pcs = icSigXYZData;
profile.m_Header.platform = icSigUnkownPlatform;
profile.m_Header.attributes = static_cast(icReflective);
profile.m_Header.renderingIntent = icPerceptual;
profile.m_Header.cmmId = 0x6E6F6E65; /* 'none' */
profile.m_Header.model = 0x73524742;//sRGB
profile.m_Header.version=icVersionNumberV2_1;
// Required tags for a three-component matrix-based display profile, as laid
// out by specification ICC.1:1998-09 (clause 6.3) are:
//
// copyrightTag
// profileDescriptionTag
// redMatrixColumnTag
// greenMatrixColumnTag
// blueMatrixColumnTag
// redTRCTag
// greenTRCTag
// blueTRCTag
// mediaWhitePointTag
// the other tags:
//
// technologyTag
// deviceModelTag
// deviceMfgDescTag
// mediaBlackPointTag
// viewingCondDescTag
// viewingConditionsTag
// luminanceTag
// measurementTag
//
// are optionals, added for completeness
// the element below are sorted in the same order as
// the list above, but the LUT table,
// embedded at the end of the profile
// copyrightTag
CIccTagText* copyrightTag = new CIccTagText;
copyrightTag->SetText(copyright);
profile.AttachTag(icSigCopyrightTag, copyrightTag);
// profileDescriptionTag
CIccTagTextDescription* descriptionTag = new CIccTagTextDescription;
descriptionTag->SetText(description);
profile.AttachTag(icSigProfileDescriptionTag, descriptionTag);
CIccTagXYZ* redMatrixColumnTag = new CIccTagXYZ;
//values from raccomandation of ICC for sRGB, D50 referenced characterisation data
//should be: 0.4361, 0.2225, 0.0139 according to application notes,
// the 'X' value below is the one commonly in use on a very
// diffused sRGB profile
(*redMatrixColumnTag)[0].X = icDtoF(0.4361);
(*redMatrixColumnTag)[0].Y = icDtoF(0.2225);
(*redMatrixColumnTag)[0].Z = icDtoF(0.0139);
profile.AttachTag(icSigRedMatrixColumnTag, redMatrixColumnTag);
CIccTagXYZ* greenMatrixColumnTag = new CIccTagXYZ;
//values from raccomandation of ICC for sRGB, D50 referenced characterisation data
(*greenMatrixColumnTag)[0].X = icDtoF(0.3851);
(*greenMatrixColumnTag)[0].Y = icDtoF(0.7169);
(*greenMatrixColumnTag)[0].Z = icDtoF(0.0971);
profile.AttachTag(icSigGreenMatrixColumnTag, greenMatrixColumnTag);
CIccTagXYZ* blueMatrixColumnTag = new CIccTagXYZ;
//values from raccomandation of ICC for sRGB, D50 referenced characterisation data
//should be: 0.1431, 0.0606, 0.7139 according to application notes,
// the 'Z' value below is the one commonly in use on a very
// diffused sRGB profile
(*blueMatrixColumnTag)[0].X = icDtoF(0.1431);
(*blueMatrixColumnTag)[0].Y = icDtoF(0.0606);
(*blueMatrixColumnTag)[0].Z = icDtoF(0.7141);
profile.AttachTag(icSigBlueMatrixColumnTag, blueMatrixColumnTag);
// mediaWhitePointTag
CIccTagXYZ* whitePointTag = new CIccTagXYZ;
(*whitePointTag)[0].X = icDtoF(0.9505);
(*whitePointTag)[0].Y = icDtoF(1.0);
(*whitePointTag)[0].Z = icDtoF(1.0891);
profile.AttachTag(icSigMediaWhitePointTag, whitePointTag);
//device signature (technologytag)
CIccTagSignature* deviceSign = new CIccTagSignature;
deviceSign->SetValue( icSigCRTDisplay );
profile.AttachTag( icSigTechnologyTag, deviceSign );
//device model tag
CIccTagTextDescription* deviceModelTag = new CIccTagTextDescription;
deviceModelTag->SetText("IEC 61966-2.1 Default RGB colour space - sRGB");
profile.AttachTag( icSigDeviceModelDescTag, deviceModelTag);
// deviceMfgDescTag
CIccTagTextDescription* deviceMfgTag = new CIccTagTextDescription;
deviceMfgTag->SetText("IEC http://www.iec.ch");
profile.AttachTag( icSigDeviceMfgDescTag, deviceMfgTag);
// mediaBlackPointTag
CIccTagXYZ* blackPointTag = new CIccTagXYZ;
(*blackPointTag)[0].X =
(*blackPointTag)[0].Y =
(*blackPointTag)[0].Z = icDtoF(0.0);
profile.AttachTag(icSigMediaBlackPointTag, blackPointTag);
// viewingCondDescTag
CIccTagTextDescription* viewingCondDescTag = new CIccTagTextDescription;
viewingCondDescTag->SetText("Reference viewing condition according to IEC 61966-2.1");
profile.AttachTag( icSigViewingCondDescTag, viewingCondDescTag );
// viewingConditionsTag
CIccTagViewingConditions* viewingConditionsTag = new CIccTagViewingConditions;
// Illuminant tristimulus value
(*viewingConditionsTag).m_XYZIllum.X = icDtoF(19.6445);
(*viewingConditionsTag).m_XYZIllum.Y = icDtoF(20.3718);
(*viewingConditionsTag).m_XYZIllum.Z = icDtoF(16.8089);
// surround tristimulus value
(*viewingConditionsTag).m_XYZSurround.X = icDtoF(3.9289);
(*viewingConditionsTag).m_XYZSurround.Y = icDtoF(4.0744);
(*viewingConditionsTag).m_XYZSurround.Z = icDtoF(3.3618);
(*viewingConditionsTag).m_illumType = icIlluminantD50;
profile.AttachTag( icSigViewingConditionsType, viewingConditionsTag );
// luminanceTag
CIccTagXYZ* luminanceTag = new CIccTagXYZ;
(*luminanceTag)[0].X = icDtoF(76.0365);
(*luminanceTag)[0].Y = icDtoF(80.0);
(*luminanceTag)[0].Z = icDtoF(87.1246);
profile.AttachTag(icSigLuminanceTag, luminanceTag);
// measurementTag
CIccTagMeasurement* measurementTag = new CIccTagMeasurement;
(*measurementTag).m_Data.stdObserver = icStdObs1931TwoDegrees;
(*measurementTag).m_Data.backing.X =
(*measurementTag).m_Data.backing.Y =
(*measurementTag).m_Data.backing.Z = icDtoF(0.0);
(*measurementTag).m_Data.geometry = icGeometryUnknown;
// the flare is 1%, but the library doesn't seem all right with this
// see specification ICC.1:1998-09, clause 6.5.8, table 55 fot the right
// format of the data value
(*measurementTag).m_Data.flare = static_cast< icMeasurementFlare > ( icDtoUF( 0.01 ) );//means 1%
(*measurementTag).m_Data.illuminant = icIlluminantD65;
profile.AttachTag(icSigMeasurementTag, measurementTag );
// compute the LUT curves, they are equal for all three colors
// so only one LUT is computed and stored
int N = 1024; // number of points in LUTs
CIccTagCurve* colorTRCTag = new CIccTagCurve(N);
// apply conversion from RGB to XYZ, stepping the RGB value linearly from 0 to 100%
// 1024 steps are computed
for (int i = 0; i < N; ++i)
(*colorTRCTag)[i] = computeIEC_RGBtoXYZ( (icFloatNumber)i/(N-1));
profile.AttachTag(icSigRedTRCTag, colorTRCTag);
profile.AttachTag(icSigGreenTRCTag, colorTRCTag);
profile.AttachTag(icSigBlueTRCTag, colorTRCTag);
//Verify things
string validationReport;
icValidateStatus validationStatus = profile.Validate(validationReport);
switch (validationStatus)
{
case icValidateOK:
break;
case icValidateWarning:
clog << "Profile validation warning" << endl
<< validationReport;
break;
case icValidateNonCompliant:
clog << "Profile non compliancy" << endl
<< validationReport;
break;
case icValidateCriticalError:
default:
clog << "Profile Error" << endl
<< validationReport;
}
// Out it goes
CIccFileIO out;
out.Open(out_file_pathname, "wb+");
profile.Write(&out);
out.Close();
FILE *headerfile = fopen(hxx_file_name,"w");
//print OpenOffice standard file header
const char *the_string;
int idx = 0;
while((the_string = TheHeader1[idx++]) != NULL )
fprintf(headerfile,"%s\n",the_string);
// print the creation date (today)
// print the date of sRGB ICC profile data
fprintf(headerfile," * the date of last change to sRGB ICC profile data is:\n * %4d/%02d/%02d - %02d:%02d\n",
data_last_changed_year, data_last_changed_month,
data_last_day, data_last_changed_hour,data_last_changed_minute );
idx = 0;
while((the_string = TheHeader2[idx++]) != NULL )
fprintf(headerfile,"%s\n",the_string);
{
// spit out the data structure (an array of unsigned char)
FILE *infile;
int achar, number = 1;
infile = fopen(out_file_pathname,"rb");
fseek(infile,0,SEEK_END);
long int thesize= ftell(infile);
fseek(infile,0,SEEK_SET);
fprintf(headerfile,"\nsal_uInt8 nsRGB_ICC_profile[%d]=\n{\n ",thesize);
do
{
achar = fgetc(infile);
if(achar == EOF)
break;
fprintf(headerfile,"0x%02x",achar);
if(number % 12 == 0)
fprintf(headerfile,",\n ");
else
fprintf(headerfile,", ");
number++;
} while(achar != EOF );
fprintf(headerfile,"\n};\n\n");
fclose(infile);
}
// append the file contents, in human readable form, as comment in the header
// get the functions from iccDump
fprintf(headerfile,"/*****************\n\n");
fprintf(headerfile,"This ICC profile contains the following data:\n\n");
dumpProfile(headerfile, out_file_pathname );
fprintf(headerfile,"\n*****************/\n");
//now append the tail
idx = 0;
while((the_string = TheTail[idx++]) != NULL )
fprintf(headerfile,"%s\n",the_string);
fclose(headerfile);
return EXIT_SUCCESS;
}
catch (const std::exception& e)
{
cout << myName << ": error: " << e.what() << endl;
return EXIT_FAILURE;
}
}