Opencv— — kaleidoscope Filter

// define head function
#ifndef PS_ALGORITHM_H_INCLUDED
#define PS_ALGORITHM_H_INCLUDED

#include <iostream>
#include <string>
#include "cv.h"
#include "highgui.h"
#include "cxmat.hpp"
#include "cxcore.hpp"
#include "math.h"

using namespace std;
using namespace cv;

void Show_Image(Mat&, const string &);

#endif // PS_ALGORITHM_H_INCLUDED

/* generate the circle transform */

#include "PS_Algorithm.h"
#include <time.h>

using namespace std;
using namespace cv;

#define pi 3.1415926

float Triangle(float x);

int main()
{
    string Img_name("4.jpg");
    Mat Img;
    Img=imread(Img_name);

    Mat Img_out(Img.size(), CV_8UC3);

    int width=Img.cols;
    int height=Img.rows;

    float angle = pi/4;
    float angle2=pi/4;
    float centreX = 0.5;
    float centreY = 0.5;
    float sides = 10;

    float icentreX=width*centreX;
    float icentreY=height*centreY;
    float radius=150;

    float dx,dy,new_x,new_y;
    float p,q,x1,y1;
    float c, r, theta, temp_theta, radius_c;

    for (int y=0; y<height; y++)
    {
        for (int x=0; x<width; x++)
        {

             dx=x-icentreX;
             dy=y-icentreY;

             theta=atan2(dy, dx)-angle-angle2;
             r=sqrt(dy*dy+dx*dx);

             temp_theta=theta/pi*sides*0.5;
             theta=Triangle(temp_theta);

             if (radius)
             {
                c=cos(theta);
                radius_c=radius/c;
                r=radius_c * Triangle(r/radius_c);
             }


            theta=theta+angle;

            new_x=r * cos(theta)+icentreX;
            new_y=r * sin(theta)+icentreY;

            if(new_x<0)         new_x=0;
            if(new_x>=width-1)  new_x=width-2;
            if(new_y<0)         new_y=0;
            if(new_y>=height-1) new_y=height-2;

          // if (new_x<0) continue;
          // if (new_x>=width-1) continue;
          // if (new_y>=height-1) continue;
          // if (new_y<0) continue;

            x1=(int)new_x;
            y1=(int)new_y;

            p=new_x-x1;
            q=new_y-y1;

            for (int k=0; k<3; k++)
            {
                Img_out.at<Vec3b>(y, x)[k]=(1-p)*(1-q)*Img.at<Vec3b>(y1, x1)[k]+
                                        (p)*(1-q)*Img.at<Vec3b>(y1,x1+1)[k]+
                                        (1-p)*(q)*Img.at<Vec3b>(y1+1,x1)[k]+
                                        (p)*(q)*Img.at<Vec3b>(y1+1,x1+1)[k];
            }

        }
    }

    Show_Image(Img_out, "out");
    cout<<"All is well"<<endl;

   // imwrite("Out.jpg", Img_out);

    waitKey();
}

float Triangle(float x)
{
    float temp_r=fmod(x, 1.0);

    if (temp_r<0.5)
    {
       return 2*temp_r;
    }
    else
    {
       return 2*(1-temp_r);
    }

}


// define the show image
#include "PS_Algorithm.h"
#include <iostream>
#include <string>

using namespace std;
using namespace cv;

void Show_Image(Mat& Image, const string& str)
{
    namedWindow(str.c_str(),CV_WINDOW_AUTOSIZE);
    imshow(str.c_str(), Image);

}

图像效果可以参考:

http://blog.csdn.net/matrix_space/article/details/46789783

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