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/* ==================================================================== */
/* Author :Priyanka Hiranandani NIT Surat */
/* ==================================================================== */
/* Syntax : return_rotatedrect=minAreaRect(InputArray points);
/* ==================================================================== */
#include <numeric>
#include "opencv2/core/core.hpp"
#include "opencv2/highgui/highgui.hpp"
#include "opencv2/opencv.hpp"
#include <iostream>
#include <sciprint.h>
using namespace cv;
using namespace std;
extern "C"
{
#include "api_scilab.h"
#include "Scierror.h"
#include "BOOL.h"
#include <localization.h>
int minAreaRect(char *fname, unsigned long fname_len)
{
// Error management variable
SciErr sciErr;
//variable info
int iRows = 0;
int iCols = 0;
int piRows = 0;
int piCols = 0;
int* piAddr = NULL;
int* piAddr2 = NULL;
int* piAddr3 = NULL;
int* piAddr4 = NULL;
int* piAddr5 = NULL;
int* piAddr6 = NULL;
int* piAddrNew = NULL;
int* piLen = NULL;
double* pstData = NULL;
int* pstData2 = NULL;
double *rrows;
double *rcols;
double sigmaSpace;
int error;
////checking input argument
CheckInputArgument(pvApiCtx,1,1);
//checking output argument
CheckOutputArgument(pvApiCtx,5,5);
//for first argument
// get Address of first input
sciErr = getVarAddressFromPosition(pvApiCtx,1,&piAddr);
//check for any error
if(sciErr.iErr)
{
printError(&sciErr, 0);
return 0;
}
//retrieve input array
//SciErr getMatrixOfDouble(void* _pvCtx, int* _piAddress, int* _piRows, int* _piCols, double** _pdblReal)
sciErr = getMatrixOfDouble(pvApiCtx, piAddr, &iRows, &iCols,&pstData);
if(sciErr.iErr)
{
printError(&sciErr, 0);
return 0;
}
int k=0;
vector<Point> contours;
for(int i=0;i<iCols;i++)
{
contours.push_back(Point2f(pstData[i],pstData[i+1])) ;
i++;
}
RotatedRect rect;
rect=minAreaRect(contours);
double size1,size2,center1,center2,angle;
//from rotated rect datatype we can fetch required size,point,angle
Size2f sz; //size2f function for floating point values
Point2f cen;
sz=rect.size;
cen=rect.center;
angle=rect.angle;
size1=sz.width;
size2=sz.height;
center1=cen.x;
center2=cen.y;
error=createScalarDouble(pvApiCtx,nbInputArgument(pvApiCtx)+1,size1);
if(error!=0)
{
sciprint("error occurred");
return 0;
}
error=createScalarDouble(pvApiCtx,nbInputArgument(pvApiCtx)+2,size2);
if(error!=0)
{
sciprint("error occurred");
return 0;
}
error=createScalarDouble(pvApiCtx,nbInputArgument(pvApiCtx)+3,center1);
if(error!=0)
{
sciprint("error occurred");
return 0;
}
error=createScalarDouble(pvApiCtx,nbInputArgument(pvApiCtx)+4,center2);
if(error!=0)
{
sciprint("error occurred");
return 0;
}
error=createScalarDouble(pvApiCtx,nbInputArgument(pvApiCtx)+5,angle);
if(error!=0)
{
sciprint("error occurred");
return 0;
}
AssignOutputVariable(pvApiCtx, 1) = nbInputArgument(pvApiCtx) + 1;
AssignOutputVariable(pvApiCtx, 2) = nbInputArgument(pvApiCtx) + 2;
AssignOutputVariable(pvApiCtx, 3) = nbInputArgument(pvApiCtx) + 3;
AssignOutputVariable(pvApiCtx, 4) = nbInputArgument(pvApiCtx) + 4;
AssignOutputVariable(pvApiCtx, 5) = nbInputArgument(pvApiCtx) + 5;
ReturnArguments(pvApiCtx);
}
}
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