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/*------------------------------------------------------------------------------------------*\
   This file contains material supporting chapter 4 of the cookbook:  
   Computer Vision Programming using the OpenCV Library.
   by Robert Laganiere, Packt Publishing, 2011.

   This program is free software; permission is hereby granted to use, copy, modify,
   and distribute this source code, or portions thereof, for any purpose, without fee,
   subject to the restriction that the copyright notice may not be removed
   or altered from any source or altered source distribution.
   The software is released on an as-is basis and without any warranties of any kind.
   In particular, the software is not guaranteed to be fault-tolerant or free from failure.
   The author disclaims all warranties with regard to this software, any use,
   and any consequent failure, is purely the responsibility of the user.
 
   Copyright (C) 2010-2011 Robert Laganiere, www.laganiere.name
\*------------------------------------------------------------------------------------------*/


#include <iostream>
using namespace std;

#include "cv.h"
#include "highgui.h"
#include "histogram.h"

int main()
{
        // Read input image
        cv::Mat image= cv::imread("../group.jpg",0);
        if (!image.data)
                return 0;

    // Display the image
        cv::namedWindow("Image");
        cv::imshow("Image",image);

        // The histogram object
        Histogram1D h;

    // Compute the histogram
        cv::MatND histo= h.getHistogram(image);

        // Loop over each bin
        for (int i=0; i<256; i++)
                cout << "Value " << i << " = " << histo.at<float>(i) << endl;  

        // Display a histogram as an image
        cv::namedWindow("Histogram");
        cv::imshow("Histogram",h.getHistogramImage(image));

        // creating a binary image by thresholding at the valley
        cv::Mat thresholded;
        cv::threshold(image,thresholded,60,255,cv::THRESH_BINARY);
 
        // Display the thresholded image
        cv::namedWindow("Binary Image");
        cv::imshow("Binary Image",thresholded);
        cv::imwrite("binary.bmp",thresholded);

        // Equalize the image
        cv::Mat eq= h.equalize(image);

        // Show the result
        cv::namedWindow("Equalized Image");
        cv::imshow("Equalized Image",eq);

        // Show the new histogram
        cv::namedWindow("Equalized Histogram");
        cv::imshow("Equalized Histogram",h.getHistogramImage(eq));

        // Stretch the image ignoring bins with less than 5 pixels
        cv::Mat str= h.stretch(image,5);

        // Show the result
        cv::namedWindow("Stretched Image");
        cv::imshow("Stretched Image",str);

        // Show the new histogram
        cv::namedWindow("Stretched Histogram");
        cv::imshow("Stretched Histogram",h.getHistogramImage(str));

        // Create an image inversion table
        uchar lookup[256];
       
        for (int i=0; i<256; i++) {
               
                lookup[i]= 255-i;
        }

        // Apply lookup and display negative image
        cv::namedWindow("Negative image");
        cv::imshow("Negative image",h.applyLookUp(image,lookup));

        cv::waitKey();
        return 0;
}