/***********************************************************************
* SIVP - Scilab Image and Video Processing toolbox
* Copyright (C) 2006 Shiqi Yu
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU 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 General Public License for more details.
*
* You should have received a copy of the GNU 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
***********************************************************************/
#include "common.h"
/************************************************************
* im2=int_cvtcolor(im, cvt_code);
* cvt_code = 'rgb2hsv', 'hsv2rgb', 'rgb2ycrcb', 'ycrcb2rgb'
************************************************************/
int int_cvtcolor(char *fname)
{
char * cvt_str_code = NULL; //input string code
int cvt_code; //opencv cvt_color code
IplImage * src_image = NULL;
IplImage * src_f32_image = NULL;
IplImage * dst_f32_image = NULL;
IplImage * dst_f64_image = NULL;
int m2, n2, l2;
//check the number of input and output parameters
CheckRhs(2,2);
CheckLhs(1,1);
GetRhsVar(2, "c", &m2, &n2, &l2);
cvt_str_code = cstk(l2);
//load the input image
src_image = Mat2IplImg(1);
// check if input image is correctly loaded
if(src_image == NULL)
{
sciprint("%s error: can't load the input image.\r\n", fname);
return -1;
}
//check the number of channels
if(src_image->nChannels != 3)
{
sciprint("%s error: The input image must be 3-channel image.\r\n", fname);
cvReleaseImage(&src_image);
return -1;
}
//this function is called
//from scilab macros rgb2hsv/hsv2rgb/...
//the input image can only be double float.
if(src_image->depth != IPL_DEPTH_64F)
{
sciprint("%s error: The input image must be double type.\r\n", fname);
cvReleaseImage(&src_image);
return -1;
}
if( strcmp(cvt_str_code, "rgb2hsv") == 0)
cvt_code = CV_BGR2HSV; //the channel order of IplImage in SIVP is BGR
else if( strcmp(cvt_str_code, "hsv2rgb") == 0)
cvt_code = CV_HSV2BGR;
else if( strcmp(cvt_str_code, "rgb2ycrcb") == 0)
cvt_code = CV_BGR2YCrCb;
else if( strcmp(cvt_str_code, "ycrcb2rgb") == 0)
cvt_code = CV_YCrCb2BGR;
else
{
sciprint("%s error: unsupport convertion code %s.\r\n", fname, cvt_str_code);
cvReleaseImage(&src_image);
return -1;
}
//create images needed
src_f32_image = cvCreateImage(cvGetSize(src_image),
IPL_DEPTH_32F,
3);
dst_f32_image = cvCreateImage(cvGetSize(src_image),
IPL_DEPTH_32F,
3);
dst_f64_image = cvCreateImage(cvGetSize(src_image),
IPL_DEPTH_64F,
3);
if(src_f32_image == NULL ||
dst_f32_image == NULL ||
dst_f64_image == NULL)
{
sciprint("Error: create image error.\r\n");
cvReleaseImage(&src_image);
cvReleaseImage(&src_f32_image);
cvReleaseImage(&dst_f32_image);
cvReleaseImage(&dst_f64_image);
return -1;
}
cvConvert(src_image, src_f32_image);
cvCvtColor(src_f32_image, dst_f32_image, cvt_code);
cvConvert(dst_f32_image, dst_f64_image);
IplImg2Mat(dst_f64_image, 3);
//send the result
LhsVar(1)=3;
cvReleaseImage(&src_image);
cvReleaseImage(&src_f32_image);
cvReleaseImage(&dst_f32_image);
cvReleaseImage(&dst_f64_image);
return 0;
}
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