/*//////////////////////////////////////////////////////////////////////////////////////

// IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING.

//  By downloading, copying, installing or using the software you agree to this license.

//  If you do not agree to this license, do not download, install,

//  copy or use the software.

// This is a implementation of the Logistic Regression algorithm in C++ in OpenCV.

// AUTHOR:

// Rahul Kavi rahulkavi[at]live[at]com

//

// contains a subset of data from the popular Iris Dataset (taken from

// "http://archive.ics.uci.edu/ml/datasets/Iris")

// # You are free to use, change, or redistribute the code in any way you wish for

// # non-commercial purposes, but please maintain the name of the original author.

// # This code comes with no warranty of any kind.

// #

// # You are free to use, change, or redistribute the code in any way you wish for

// # non-commercial purposes, but please maintain the name of the original author.

// # This code comes with no warranty of any kind.

// # Logistic Regression ALGORITHM

//                           License Agreement

//                For Open Source Computer Vision Library

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// Copyright (C) 2008-2011, Willow Garage Inc., all rights reserved.

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#include <iostream>

#include <opencv2/core.hpp>

#include <opencv2/ml.hpp>

#include <opencv2/highgui.hpp>

using namespace std;

using namespace cv;

using namespace cv::ml;

/*

 * Jeff --> Show mutiple-photos from Mat.

 */

static void showImage(const Mat &data, int columns, const String &name)

{

    // columns = 28

    Mat bigImage;

    for(int i = 0; i < data.rows; ++i)

    {

        //rows: number of photos.

        // vector --> reshape --> col 28, col 28 ...

        // push_back: show each pic from left to right.

        bigImage.push_back(data.row(i).reshape(0, columns));

    }

    imshow(name, bigImage.t());

}

static float calculateAccuracyPercent(const Mat &original, const Mat &predicted)

{

    return 100 * (float)countNonZero(original == predicted) / predicted.rows;

}

int main()

{

    const String filename = "../data/data01.xml";

    cout << "**********************************************************************" << endl;

    cout << filename

         << " contains digits 0 and 1 of 20 samples each, collected on an Android device" << endl;

    cout << "Each of the collected images are of size 28 x 28 re-arranged to 1 x 784 matrix"

         << endl;

    cout << "**********************************************************************" << endl;

    Mat data, labels;

    {

        /*

         * Jeff --> Load xml.

         *          transform to Mat.

         * FileStorage.

         */

        cout << "loading the dataset...";

        // Step 1.

        FileStorage f;

        if(f.open(filename, FileStorage::READ))

        {

            // Step 2.

            f["datamat"] >> data;

            f["labelsmat"] >> labels;

            f.release();

        }

        else

        {

            cerr << "file can not be opened: " << filename << endl;

            return 1;

        }

        // Step 3.

        data.convertTo(data, CV_32F);

        labels.convertTo(labels, CV_32F);

        cout << "read " << data.rows << " rows of data" << endl;

    }

    Mat data_train, data_test;

    Mat labels_train, labels_test;

    for(int i = 0; i < data.rows; i++)

    {

        // Step 4.

        if(i % 2 == 0)

        {

            data_train.push_back(data.row(i));

            labels_train.push_back(labels.row(i));

        }

        else

        {

            data_test.push_back(data.row(i));

            labels_test.push_back(labels.row(i));

        }

    }

    cout << "training/testing samples count: " << data_train.rows << "/" << data_test.rows << endl;

    // display sample image

    showImage(data_train, 28, "train data");

    showImage(data_test, 28, "test data");

    /**************************************************************************/

    // simple case with batch gradient

    cout << "training...";

    // Step (1), create classifier.

    Ptr<LogisticRegression> lr1 = LogisticRegression::create();

    // Step (2),

    lr1->setLearningRate(0.001);

    lr1->setIterations(10);

    lr1->setRegularization(LogisticRegression::REG_L2);

    lr1->setTrainMethod(LogisticRegression::BATCH);

    lr1->setMiniBatchSize(1);

    // Step (3), train.

    //! [init]

    lr1->train(data_train, ROW_SAMPLE, labels_train);

    cout << "done!" << endl;

    //--------------------------------------------------------------------------

    cout << "predicting...";

    // Step (4), predict.

    Mat responses;

    lr1->predict(data_test, responses);

    cout << "done!" << endl;

    // Step (5), show prediction report

    cout << "original vs predicted:" << endl;

    // Jeff --> CV_32S is a signed 32bit integer value for each pixel.

    labels_test.convertTo(labels_test, CV_32S);

    cout << labels_test.t() << endl;

    cout << responses.t() << endl;

    cout << "accuracy: " << calculateAccuracyPercent(labels_test, responses) << "%" << endl;

    // Step (6), save the classfier

    const String saveFilename = "NewLR_Trained.xml";

    cout << "saving the classifier to " << saveFilename << endl;

    lr1->save(saveFilename);

    /****************************** End ***************************************/

    // load the classifier onto new object

    cout << "loading a new classifier from " << saveFilename << endl;

    Ptr<LogisticRegression> lr2 = StatModel::load<LogisticRegression>(saveFilename);

    // predict using loaded classifier

    cout << "predicting the dataset using the loaded classfier...";

    Mat responses2;

    lr2->predict(data_test, responses2);

    cout << "done!" << endl;

    // calculate accuracy

    cout << labels_test.t() << endl;

    cout << responses2.t() << endl;

    cout << "accuracy: " << calculateAccuracyPercent(labels_test, responses2) << "%" << endl;

    waitKey(0);

    return 0;

}