libvips/libsrc/colour/colour_dispatch.c

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2007-08-29 18:23:50 +02:00
/* Function dispatch tables for arithmetic.
*
* J. Cupitt, 8/4/93.
*/
/*
This file is part of VIPS.
VIPS is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/*
These files are distributed with VIPS - http://www.vips.ecs.soton.ac.uk
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif /*HAVE_CONFIG_H*/
#include <vips/intl.h>
#include <stdio.h>
#include <vips/vips.h>
#ifdef WITH_DMALLOC
#include <dmalloc.h>
#endif /*WITH_DMALLOC*/
/* One image in, one out.
*/
static im_arg_desc one_in_one_out[] = {
IM_INPUT_IMAGE( "in" ),
IM_OUTPUT_IMAGE( "out" )
};
/* Two images in, one out.
*/
static im_arg_desc two_in_one_out[] = {
IM_INPUT_IMAGE( "in1" ),
IM_INPUT_IMAGE( "in2" ),
IM_OUTPUT_IMAGE( "out" )
};
/* Call im_sRGB2XYZ via arg vector.
*/
static int
sRGB2XYZ_vec( im_object *argv )
{
return( im_sRGB2XYZ( argv[0], argv[1] ) );
}
/* Description of im_sRGB2XYZ.
*/
static im_function sRGB2XYZ_desc = {
"im_sRGB2XYZ", /* Name */
"convert sRGB to XYZ", /* Description */
IM_FN_PIO, /* Flags */
sRGB2XYZ_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_XYZ2sRGB via arg vector.
*/
static int
XYZ2sRGB_vec( im_object *argv )
{
return( im_XYZ2sRGB( argv[0], argv[1] ) );
}
/* Description of im_XYZ2sRGB.
*/
static im_function XYZ2sRGB_desc = {
"im_XYZ2sRGB", /* Name */
"convert XYZ to sRGB", /* Description */
IM_FN_PIO, /* Flags */
XYZ2sRGB_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_LCh2Lab via arg vector.
*/
static int
LCh2Lab_vec( im_object *argv )
{
return( im_LCh2Lab( argv[0], argv[1] ) );
}
/* Description of im_LCh2Lab.
*/
static im_function LCh2Lab_desc = {
"im_LCh2Lab", /* Name */
"convert LCh to Lab", /* Description */
IM_FN_PIO, /* Flags */
LCh2Lab_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_LabQ2XYZ via arg vector.
*/
static int
LabQ2XYZ_vec( im_object *argv )
{
return( im_LabQ2XYZ( argv[0], argv[1] ) );
}
/* Description of im_LabQ2XYZ.
*/
static im_function LabQ2XYZ_desc = {
"im_LabQ2XYZ", /* Name */
"convert LabQ to XYZ", /* Description */
IM_FN_PIO, /* Flags */
LabQ2XYZ_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_LCh2UCS via arg vector.
*/
static int
LCh2UCS_vec( im_object *argv )
{
return( im_LCh2UCS( argv[0], argv[1] ) );
}
/* Description of im_LCh2UCS.
*/
static im_function LCh2UCS_desc = {
"im_LCh2UCS", /* Name */
"convert LCh to UCS", /* Description */
IM_FN_PIO, /* Flags */
LCh2UCS_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_Lab2LCh via arg vector.
*/
static int
Lab2LCh_vec( im_object *argv )
{
return( im_Lab2LCh( argv[0], argv[1] ) );
}
/* Description of im_Lab2LCh.
*/
static im_function Lab2LCh_desc = {
"im_Lab2LCh", /* Name */
"convert Lab to LCh", /* Description */
IM_FN_PIO, /* Flags */
Lab2LCh_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_Lab2LabQ() via arg vector.
*/
static int
Lab2LabQ_vec( im_object *argv )
{
return( im_Lab2LabQ( argv[0], argv[1] ) );
}
/* Description of im_Lab2LabQ.
*/
static im_function Lab2LabQ_desc = {
"im_Lab2LabQ", /* Name */
"convert Lab to LabQ", /* Description */
IM_FN_PIO, /* Flags */
Lab2LabQ_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_Lab2XYZ() via arg vector.
*/
static int
Lab2XYZ_vec( im_object *argv )
{
return( im_Lab2XYZ( argv[0], argv[1] ) );
}
/* Description of im_Lab2XYZ.
*/
static im_function Lab2XYZ_desc = {
"im_Lab2XYZ", /* Name */
"convert D65 Lab to XYZ", /* Description */
IM_FN_PIO, /* Flags */
Lab2XYZ_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
static int
icc_present_vec( im_object *argv )
{
int *present = ((int *) argv[0]);
*present = im_icc_present();
return( 0 );
}
static im_arg_desc icc_present_args[] = {
IM_OUTPUT_INT( "present" )
};
/* Description of im_icc_present.
*/
static im_function icc_present_desc = {
"im_icc_present", /* Name */
"test for presence of ICC library", /* Description */
0, /* Flags */
icc_present_vec, /* Dispatch function */
IM_NUMBER( icc_present_args ), /* Size of arg list */
icc_present_args /* Arg list */
};
static int
icc_transform_vec( im_object *argv )
{
int intent = *((int *) argv[4]);
return( im_icc_transform( argv[0], argv[1],
argv[2], argv[3], intent ) );
}
static im_arg_desc icc_transform_args[] = {
IM_INPUT_IMAGE( "in" ),
IM_OUTPUT_IMAGE( "out" ),
IM_INPUT_STRING( "input_profile" ),
IM_INPUT_STRING( "output_profile" ),
IM_INPUT_INT( "intent" )
};
/* Description of im_icc_transform.
*/
static im_function icc_transform_desc = {
"im_icc_transform", /* Name */
"convert between two device images with a pair of ICC profiles",
/* Description */
IM_FN_PIO, /* Flags */
icc_transform_vec, /* Dispatch function */
IM_NUMBER( icc_transform_args ), /* Size of arg list */
icc_transform_args /* Arg list */
};
static int
icc_import_embedded_vec( im_object *argv )
{
int intent = *((int *) argv[2]);
return( im_icc_import_embedded( argv[0], argv[1], intent ) );
}
static im_arg_desc icc_import_embedded_args[] = {
IM_INPUT_IMAGE( "in" ),
IM_OUTPUT_IMAGE( "out" ),
IM_INPUT_INT( "intent" )
};
/* Description of im_icc_import_embedded.
*/
static im_function icc_import_embedded_desc = {
"im_icc_import_embedded", /* Name */
"convert a device image to float LAB using the embedded profile",
/* Description */
IM_FN_PIO, /* Flags */
icc_import_embedded_vec, /* Dispatch function */
IM_NUMBER( icc_import_embedded_args ), /* Size of arg list */
icc_import_embedded_args /* Arg list */
};
static int
icc_import_vec( im_object *argv )
{
int intent = *((int *) argv[3]);
return( im_icc_import( argv[0], argv[1],
argv[2], intent ) );
}
static im_arg_desc icc_import_args[] = {
IM_INPUT_IMAGE( "in" ),
IM_OUTPUT_IMAGE( "out" ),
IM_INPUT_STRING( "input_profile" ),
IM_INPUT_INT( "intent" )
};
/* Description of im_icc_import.
*/
static im_function icc_import_desc = {
"im_icc_import", /* Name */
"convert a device image to float LAB with an ICC profile",
/* Description */
IM_FN_PIO, /* Flags */
icc_import_vec, /* Dispatch function */
IM_NUMBER( icc_import_args ), /* Size of arg list */
icc_import_args /* Arg list */
};
static int
icc_export_depth_vec( im_object *argv )
{
int intent = *((int *) argv[4]);
int depth = *((int *) argv[2]);
return( im_icc_export_depth( argv[0], argv[1],
depth, argv[3], intent ) );
}
static im_arg_desc icc_export_depth_args[] = {
IM_INPUT_IMAGE( "in" ),
IM_OUTPUT_IMAGE( "out" ),
IM_INPUT_INT( "depth" ),
IM_INPUT_STRING( "output_profile" ),
IM_INPUT_INT( "intent" )
};
/* Description of im_icc_export_depth.
*/
static im_function icc_export_depth_desc = {
"im_icc_export_depth", /* Name */
"convert a float LAB to device space with an ICC profile",
/* Description */
IM_FN_PIO, /* Flags */
icc_export_depth_vec, /* Dispatch function */
IM_NUMBER( icc_export_depth_args ), /* Size of arg list */
icc_export_depth_args /* Arg list */
};
static int
icc_export_vec( im_object *argv )
{
int intent = *((int *) argv[3]);
return( im_icc_export( argv[0], argv[1],
argv[2], intent ) );
}
static im_arg_desc icc_export_args[] = {
IM_INPUT_IMAGE( "in" ),
IM_OUTPUT_IMAGE( "out" ),
IM_INPUT_STRING( "output_profile" ),
IM_INPUT_INT( "intent" )
};
/* Description of im_icc_export.
*/
static im_function icc_export_desc = {
"im_icc_export", /* Name */
"convert a float LAB to an 8-bit device image with an ICC profile",
/* Description */
IM_FN_PIO, /* Flags */
icc_export_vec, /* Dispatch function */
IM_NUMBER( icc_export_args ), /* Size of arg list */
icc_export_args /* Arg list */
};
static int
icc_ac2rc_vec( im_object *argv )
{
return( im_icc_ac2rc( argv[0], argv[1], argv[2] ) );
}
static im_arg_desc icc_ac2rc_args[] = {
IM_INPUT_IMAGE( "in" ),
IM_OUTPUT_IMAGE( "out" ),
IM_INPUT_STRING( "profile" )
};
/* Description of im_icc_ac2rc.
*/
static im_function icc_ac2rc_desc = {
"im_icc_ac2rc", /* Name */
"convert LAB from AC to RC using an ICC profile",
/* Description */
IM_FN_PIO, /* Flags */
icc_ac2rc_vec, /* Dispatch function */
IM_NUMBER( icc_ac2rc_args ), /* Size of arg list */
icc_ac2rc_args /* Arg list */
};
static int
Lab2XYZ_temp_vec( im_object *argv )
{
double X0 = *((double *) argv[2]);
double Y0 = *((double *) argv[3]);
double Z0 = *((double *) argv[4]);
return( im_Lab2XYZ_temp( argv[0], argv[1], X0, Y0, Z0 ) );
}
static im_arg_desc temp_args[] = {
IM_INPUT_IMAGE( "in" ),
IM_OUTPUT_IMAGE( "out" ),
IM_INPUT_DOUBLE( "X0" ),
IM_INPUT_DOUBLE( "Y0" ),
IM_INPUT_DOUBLE( "Z0" )
};
/* Description of im_Lab2XYZ_temp.
*/
static im_function Lab2XYZ_temp_desc = {
"im_Lab2XYZ_temp", /* Name */
"convert Lab to XYZ, with a specified colour temperature",
/* Description */
IM_FN_PIO, /* Flags */
Lab2XYZ_temp_vec, /* Dispatch function */
IM_NUMBER( temp_args ), /* Size of arg list */
temp_args /* Arg list */
};
/* Call im_Lab2UCS() via arg vector.
*/
static int
Lab2UCS_vec( im_object *argv )
{
return( im_Lab2UCS( argv[0], argv[1] ) );
}
/* Description of im_Lab2UCS.
*/
static im_function Lab2UCS_desc = {
"im_Lab2UCS", /* Name */
"convert Lab to UCS", /* Description */
IM_FN_PIO, /* Flags */
Lab2UCS_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_LabQ2Lab() via arg vector.
*/
static int
LabQ2Lab_vec( im_object *argv )
{
return( im_LabQ2Lab( argv[0], argv[1] ) );
}
/* Description of im_LabQ2Lab.
*/
static im_function LabQ2Lab_desc = {
"im_LabQ2Lab", /* Name */
"convert LabQ to Lab", /* Description */
IM_FN_PIO, /* Flags */
LabQ2Lab_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
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/* Call im_rad2float() via arg vector.
*/
static int
rad2float_vec( im_object *argv )
{
return( im_rad2float( argv[0], argv[1] ) );
}
2009-03-23 23:47:53 +01:00
/* Description of im_rad2float.
2009-03-03 18:06:48 +01:00
*/
static im_function rad2float_desc = {
"im_rad2float", /* Name */
"convert Radiance packed to float", /* Description */
IM_FN_PIO, /* Flags */
rad2float_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
2009-03-23 23:47:53 +01:00
/* Call im_float2rad() via arg vector.
*/
static int
float2rad_vec( im_object *argv )
{
return( im_float2rad( argv[0], argv[1] ) );
}
/* Description of im_float2rad
*/
static im_function float2rad_desc = {
"im_float2rad", /* Name */
"convert float to Radiance packed", /* Description */
IM_FN_PIO, /* Flags */
float2rad_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
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/* Call im_LabQ2LabS() via arg vector.
*/
static int
LabQ2LabS_vec( im_object *argv )
{
return( im_LabQ2LabS( argv[0], argv[1] ) );
}
/* Description of im_LabQ2LabS.
*/
static im_function LabQ2LabS_desc = {
"im_LabQ2LabS", /* Name */
"convert LabQ to LabS", /* Description */
IM_FN_PIO, /* Flags */
LabQ2LabS_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_Lab2LabS() via arg vector.
*/
static int
Lab2LabS_vec( im_object *argv )
{
return( im_Lab2LabS( argv[0], argv[1] ) );
}
/* Description of im_Lab2LabS.
*/
static im_function Lab2LabS_desc = {
"im_Lab2LabS", /* Name */
"convert Lab to LabS", /* Description */
IM_FN_PIO, /* Flags */
Lab2LabS_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_LabS2Lab() via arg vector.
*/
static int
LabS2Lab_vec( im_object *argv )
{
return( im_LabS2Lab( argv[0], argv[1] ) );
}
/* Description of im_LabS2Lab.
*/
static im_function LabS2Lab_desc = {
"im_LabS2Lab", /* Name */
"convert LabS to Lab", /* Description */
IM_FN_PIO, /* Flags */
LabS2Lab_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_LabS2LabQ() via arg vector.
*/
static int
LabS2LabQ_vec( im_object *argv )
{
return( im_LabS2LabQ( argv[0], argv[1] ) );
}
/* Description of im_LabS2LabQ.
*/
static im_function LabS2LabQ_desc = {
"im_LabS2LabQ", /* Name */
"convert LabS to LabQ", /* Description */
IM_FN_PIO, /* Flags */
LabS2LabQ_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_UCS2XYZ() via arg vector.
*/
static int
UCS2XYZ_vec( im_object *argv )
{
return( im_UCS2XYZ( argv[0], argv[1] ) );
}
/* Description of im_UCS2XYZ.
*/
static im_function UCS2XYZ_desc = {
"im_UCS2XYZ", /* Name */
"convert UCS to XYZ", /* Description */
IM_FN_PIO, /* Flags */
UCS2XYZ_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_UCS2LCh() via arg vector.
*/
static int
UCS2LCh_vec( im_object *argv )
{
return( im_UCS2LCh( argv[0], argv[1] ) );
}
/* Description of im_UCS2LCh.
*/
static im_function UCS2LCh_desc = {
"im_UCS2LCh", /* Name */
"convert UCS to LCh", /* Description */
IM_FN_PIO, /* Flags */
UCS2LCh_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_UCS2Lab() via arg vector.
*/
static int
UCS2Lab_vec( im_object *argv )
{
return( im_UCS2Lab( argv[0], argv[1] ) );
}
/* Description of im_UCS2Lab.
*/
static im_function UCS2Lab_desc = {
"im_UCS2Lab", /* Name */
"convert UCS to Lab", /* Description */
IM_FN_PIO, /* Flags */
UCS2Lab_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_Yxy2XYZ via arg vector.
*/
static int
Yxy2XYZ_vec( im_object *argv )
{
return( im_Yxy2XYZ( argv[0], argv[1] ) );
}
/* Description of im_Yxy2XYZ.
*/
static im_function Yxy2XYZ_desc = {
"im_Yxy2XYZ", /* Name */
"convert Yxy to XYZ", /* Description */
IM_FN_PIO, /* Flags */
Yxy2XYZ_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_XYZ2Yxy via arg vector.
*/
static int
XYZ2Yxy_vec( im_object *argv )
{
return( im_XYZ2Yxy( argv[0], argv[1] ) );
}
/* Description of im_XYZ2Yxy.
*/
static im_function XYZ2Yxy_desc = {
"im_XYZ2Yxy", /* Name */
"convert XYZ to Yxy", /* Description */
IM_FN_PIO, /* Flags */
XYZ2Yxy_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Call im_XYZ2Lab via arg vector.
*/
static int
XYZ2Lab_vec( im_object *argv )
{
return( im_XYZ2Lab( argv[0], argv[1] ) );
}
/* Description of im_XYZ2Lab.
*/
static im_function XYZ2Lab_desc = {
"im_XYZ2Lab", /* Name */
"convert D65 XYZ to Lab", /* Description */
IM_FN_PIO, /* Flags */
XYZ2Lab_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
static int
XYZ2Lab_temp_vec( im_object *argv )
{
double X0 = *((double *) argv[2]);
double Y0 = *((double *) argv[3]);
double Z0 = *((double *) argv[4]);
return( im_XYZ2Lab_temp( argv[0], argv[1], X0, Y0, Z0 ) );
}
/* Description of im_XYZ2Lab_temp.
*/
static im_function XYZ2Lab_temp_desc = {
"im_XYZ2Lab_temp", /* Name */
"convert XYZ to Lab, with a specified colour temperature",
/* Description */
IM_FN_PIO, /* Flags */
XYZ2Lab_temp_vec, /* Dispatch function */
IM_NUMBER( temp_args ), /* Size of arg list */
temp_args /* Arg list */
};
/* Call im_XYZ2UCS() via arg vector.
*/
static int
XYZ2UCS_vec( im_object *argv )
{
return( im_XYZ2UCS( argv[0], argv[1] ) );
}
/* Description of im_XYZ2UCS.
*/
static im_function XYZ2UCS_desc = {
"im_XYZ2UCS", /* Name */
"convert XYZ to UCS", /* Description */
IM_FN_PIO, /* Flags */
XYZ2UCS_vec, /* Dispatch function */
IM_NUMBER( one_in_one_out ), /* Size of arg list */
one_in_one_out /* Arg list */
};
/* Args to XYZ2disp and disp2XYZ.
*/
static im_arg_desc XYZ2disp_args[] = {
IM_INPUT_IMAGE( "in" ),
IM_OUTPUT_IMAGE( "out" ),
IM_INPUT_DISPLAY( "disp" )
};
/* Call im_XYZ2disp() via arg vector.
*/
static int
XYZ2disp_vec( im_object *argv )
{
return( im_XYZ2disp( argv[0], argv[1], argv[2] ) );
}
/* Description of im_XYZ2disp.
*/
static im_function XYZ2disp_desc = {
"im_XYZ2disp", /* Name */
"convert XYZ to displayble", /* Description */
IM_FN_PIO, /* Flags */
XYZ2disp_vec, /* Dispatch function */
IM_NUMBER( XYZ2disp_args ), /* Size of arg list */
XYZ2disp_args /* Arg list */
};
/* Call im_Lab2disp() via arg vector.
*/
static int
Lab2disp_vec( im_object *argv )
{
return( im_Lab2disp( argv[0], argv[1], argv[2] ) );
}
/* Description of im_Lab2disp.
*/
static im_function Lab2disp_desc = {
"im_Lab2disp", /* Name */
"convert Lab to displayable", /* Description */
IM_FN_PIO, /* Flags */
Lab2disp_vec, /* Dispatch function */
IM_NUMBER( XYZ2disp_args ), /* Size of arg list */
XYZ2disp_args /* Arg list */
};
/* Call im_LabQ2disp() via arg vector.
*/
static int
LabQ2disp_vec( im_object *argv )
{
return( im_LabQ2disp( argv[0], argv[1], argv[2] ) );
}
/* Description of im_LabQ2disp.
*/
static im_function LabQ2disp_desc = {
"im_LabQ2disp", /* Name */
"convert LabQ to displayable", /* Description */
IM_FN_PIO, /* Flags */
LabQ2disp_vec, /* Dispatch function */
IM_NUMBER( XYZ2disp_args ), /* Size of arg list */
XYZ2disp_args /* Arg list */
};
/* Call im_dE00_fromLab() via arg vector.
*/
static int
dE00_fromLab_vec( im_object *argv )
{
return( im_dE00_fromLab( argv[0], argv[1], argv[2] ) );
}
/* Description of im_dE00_fromLab.
*/
static im_function dE00_fromLab_desc = {
"im_dE00_fromLab", /* Name */
"calculate delta-E CIE2000 for two Lab images",
IM_FN_PIO, /* Flags */
dE00_fromLab_vec, /* Dispatch function */
IM_NUMBER( two_in_one_out ), /* Size of arg list */
two_in_one_out /* Arg list */
};
/* Call im_dECMC_fromLab() via arg vector.
*/
static int
dECMC_fromLab_vec( im_object *argv )
{
return( im_dECMC_fromLab( argv[0], argv[1], argv[2] ) );
}
/* Description of im_dECMC_fromLab.
*/
static im_function dECMC_fromLab_desc = {
"im_dECMC_fromLab", /* Name */
"calculate delta-E CMC(1:1) for two Lab images",
IM_FN_PIO, /* Flags */
dECMC_fromLab_vec, /* Dispatch function */
IM_NUMBER( two_in_one_out ), /* Size of arg list */
two_in_one_out /* Arg list */
};
/* Call im_dE_fromXYZ() via arg vector.
*/
static int
dE_fromXYZ_vec( im_object *argv )
{
return( im_dE_fromXYZ( argv[0], argv[1], argv[2] ) );
}
/* Description of im_dE_fromXYZ.
*/
static im_function dE_fromXYZ_desc = {
"im_dE_fromXYZ", /* Name */
"calculate delta-E for two XYZ images",
IM_FN_PIO, /* Flags */
dE_fromXYZ_vec, /* Dispatch function */
IM_NUMBER( two_in_one_out ), /* Size of arg list */
two_in_one_out /* Arg list */
};
/* Call im_dE_fromLab() via arg vector.
*/
static int
dE_fromLab_vec( im_object *argv )
{
return( im_dE_fromLab( argv[0], argv[1], argv[2] ) );
}
/* Description of im_dE_fromLab.
*/
static im_function dE_fromLab_desc = {
"im_dE_fromLab", /* Name */
"calculate delta-E for two Lab images",
IM_FN_PIO, /* Flags */
dE_fromLab_vec, /* Dispatch function */
IM_NUMBER( two_in_one_out ), /* Size of arg list */
two_in_one_out /* Arg list */
};
/* Two images in, one out.
*/
static im_arg_desc dE_fromdisp_args[] = {
IM_INPUT_IMAGE( "in1" ),
IM_INPUT_IMAGE( "in2" ),
IM_OUTPUT_IMAGE( "out" ),
IM_INPUT_DISPLAY( "disp" )
};
/* Call im_dE_fromdisp() via arg vector.
*/
static int
dE_fromdisp_vec( im_object *argv )
{
return( im_dE_fromdisp( argv[0], argv[1], argv[2], argv[3] ) );
}
/* Description of im_dE_fromdisp.
*/
static im_function dE_fromdisp_desc = {
"im_dE_fromdisp", /* Name */
"calculate delta-E for two displayable images",
IM_FN_PIO, /* Flags */
dE_fromdisp_vec, /* Dispatch function */
IM_NUMBER( dE_fromdisp_args ), /* Size of arg list */
dE_fromdisp_args /* Arg list */
};
/* Call im_dECMC_fromdisp() via arg vector.
*/
static int
dECMC_fromdisp_vec( im_object *argv )
{
return( im_dECMC_fromdisp( argv[0], argv[1], argv[2], argv[3] ) );
}
/* Description of im_dECMC_fromdisp.
*/
static im_function dECMC_fromdisp_desc = {
"im_dECMC_fromdisp", /* Name */
"calculate delta-E CMC(1:1) for two displayable images",
IM_FN_PIO, /* Flags */
dECMC_fromdisp_vec, /* Dispatch function */
IM_NUMBER( dE_fromdisp_args ), /* Size of arg list */
dE_fromdisp_args /* Arg list */
};
/* Call im_disp2XYZ() via arg vector.
*/
static int
disp2XYZ_vec( im_object *argv )
{
return( im_disp2XYZ( argv[0], argv[1], argv[2] ) );
}
/* Description of im_disp2XYZ.
*/
static im_function disp2XYZ_desc = {
"im_disp2XYZ", /* Name */
"convert displayable to XYZ", /* Description */
IM_FN_PIO, /* Flags */
disp2XYZ_vec, /* Dispatch function */
IM_NUMBER( XYZ2disp_args ), /* Size of arg list */
XYZ2disp_args /* Arg list */
};
/* Call im_disp2Lab() via arg vector.
*/
static int
disp2Lab_vec( im_object *argv )
{
return( im_disp2Lab( argv[0], argv[1], argv[2] ) );
}
/* Description of im_disp2Lab.
*/
static im_function disp2Lab_desc = {
"im_disp2Lab", /* Name */
"convert displayable to Lab", /* Description */
IM_FN_PIO, /* Flags */
disp2Lab_vec, /* Dispatch function */
IM_NUMBER( XYZ2disp_args ), /* Size of arg list */
XYZ2disp_args /* Arg list */
};
static im_arg_desc morph_args[] = {
IM_INPUT_IMAGE( "in" ),
IM_OUTPUT_IMAGE( "out" ),
IM_INPUT_DMASK( "greyscale" ),
IM_INPUT_DOUBLE( "L_offset" ),
IM_INPUT_DOUBLE( "L_scale" ),
IM_INPUT_DOUBLE( "a_scale" ),
IM_INPUT_DOUBLE( "b_scale" )
};
static int
morph_vec( im_object *argv )
{
im_mask_object *mo = argv[2];
double L_offset = *((double *) argv[3]);
double L_scale = *((double *) argv[4]);
double a_scale = *((double *) argv[5]);
double b_scale = *((double *) argv[6]);
return( im_lab_morph( argv[0], argv[1],
mo->mask, L_offset, L_scale, a_scale, b_scale ) );
}
static im_function morph_desc = {
"im_lab_morph", /* Name */
"morph colourspace of a LAB image",
IM_FN_PIO | IM_FN_PTOP, /* Flags */
morph_vec, /* Dispatch function */
IM_NUMBER( morph_args ), /* Size of arg list */
morph_args /* Arg list */
};
/* Package up all these functions.
*/
static im_function *colour_list[] = {
&LCh2Lab_desc,
&LCh2UCS_desc,
&Lab2LCh_desc,
&Lab2LabQ_desc,
&Lab2LabS_desc,
&Lab2UCS_desc,
&Lab2XYZ_desc,
&Lab2XYZ_temp_desc,
&Lab2disp_desc,
&LabQ2LabS_desc,
&LabQ2Lab_desc,
&LabQ2XYZ_desc,
&LabQ2disp_desc,
&LabS2LabQ_desc,
&LabS2Lab_desc,
&UCS2LCh_desc,
&UCS2Lab_desc,
&UCS2XYZ_desc,
&XYZ2Lab_desc,
&XYZ2Lab_temp_desc,
&XYZ2UCS_desc,
&XYZ2Yxy_desc,
&XYZ2disp_desc,
&XYZ2sRGB_desc,
&Yxy2XYZ_desc,
&dE00_fromLab_desc,
&dECMC_fromLab_desc,
&dECMC_fromdisp_desc,
&dE_fromLab_desc,
&dE_fromXYZ_desc,
&dE_fromdisp_desc,
&disp2Lab_desc,
&disp2XYZ_desc,
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&float2rad_desc,
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&icc_ac2rc_desc,
&icc_export_desc,
&icc_export_depth_desc,
&icc_import_desc,
&icc_import_embedded_desc,
&icc_present_desc,
&icc_transform_desc,
&morph_desc,
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&rad2float_desc,
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&sRGB2XYZ_desc
};
/* Package of functions.
*/
im_package im__colour = {
"colour",
IM_NUMBER( colour_list ),
colour_list
};