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#include "precomp.hpp"
#include "opencv2/photo.hpp"
#include <iostream>
#include <stdlib.h>

#include "npr.hpp"

using namespace std;
using namespace cv;

void cv::edgePreservingFilter(InputArray _src, OutputArray dst, int flags, float sigma_s, float sigma_r)
{
    CV_INSTRUMENT_REGION();

    Mat I = _src.getMat();

    Domain_Filter obj;

    Mat img;
    I.convertTo(img,CV_32FC3,1.0/255.0);

    Mat res;
    obj.filter(img, res, sigma_s, sigma_r, flags);

    convertScaleAbs(res, dst, 255,0);
}

void cv::detailEnhance(InputArray _src, OutputArray dst, float sigma_s, float sigma_r)
{
    CV_INSTRUMENT_REGION();

    Mat I = _src.getMat();

    float factor = 3.0f;

    Mat img;
    I.convertTo(img,CV_32FC3,1.0/255.0);

    Mat lab;
    vector <Mat> lab_channel;
    cvtColor(img,lab,COLOR_BGR2Lab);
    split(lab,lab_channel);

    Mat L;
    lab_channel[0].convertTo(L,CV_32FC1,1.0/255.0);

    Domain_Filter obj;

    Mat res;
    obj.filter(L, res, sigma_s, sigma_r, 1);

    Mat detail = L - res;
    multiply(detail,factor,detail);
    L = res + detail;

    L.convertTo(lab_channel[0],CV_32FC1,255);

    merge(lab_channel,lab);

    cvtColor(lab,res,COLOR_Lab2BGR);
    res.convertTo(dst,CV_8UC3,255);
}

void cv::pencilSketch(InputArray _src, OutputArray _dst1, OutputArray _dst2, float sigma_s, float sigma_r, float shade_factor)
{
    CV_INSTRUMENT_REGION();

    Mat I = _src.getMat();
    _dst1.create(I.size(), CV_8UC1);
    Mat dst1 = _dst1.getMat();

    _dst2.create(I.size(), CV_8UC3);
    Mat dst2 = _dst2.getMat();

    Mat img = Mat(I.size(),CV_32FC3);
    I.convertTo(img,CV_32FC3,1.0/255.0);

    Domain_Filter obj;

    Mat sketch = Mat(I.size(),CV_32FC1);
    Mat color_sketch = Mat(I.size(),CV_32FC3);

    obj.pencil_sketch(img, sketch, color_sketch, sigma_s, sigma_r, shade_factor);

    sketch.convertTo(dst1,CV_8UC1,255);
    color_sketch.convertTo(dst2,CV_8UC3,255);

}

void cv::stylization(InputArray _src, OutputArray _dst, float sigma_s, float sigma_r)
{
    CV_INSTRUMENT_REGION();

    Mat I = _src.getMat();
    _dst.create(I.size(), CV_8UC3);
    Mat dst = _dst.getMat();

    Mat img;
    I.convertTo(img,CV_32FC3,1.0/255.0);

    int h = img.size().height;
    int w = img.size().width;

    Mat res;
    Mat magnitude = Mat(h,w,CV_32FC1);

    Domain_Filter obj;
    obj.filter(img, res, sigma_s, sigma_r, NORMCONV_FILTER);

    obj.find_magnitude(res,magnitude);

    Mat stylized;

    vector <Mat> temp;
    split(res,temp);
    multiply(temp[0],magnitude,temp[0]);
    multiply(temp[1],magnitude,temp[1]);
    multiply(temp[2],magnitude,temp[2]);
    merge(temp,stylized);

    stylized.convertTo(dst,CV_8UC3,255);
}