PuzzleSolver/Source/functions/solve/classExtension.cpp

#include "../../header.h"

//use this in second abstraction layer maybe ey?
void createRandomAbstraction2()
{
    //get a picture
    cv::Mat PuzzlePicture = cv::imread("../../Codicil/Images/Balloons.jpg");
    if(! PuzzlePicture.data )
    {
        cout <<  "Could not open or find the image" << std::endl ;
        return;
    }
    //split a picture into mxn pieces
    cv::Size smallSize ((int)(PuzzlePicture.cols/getCols()) ,(int)(PuzzlePicture.rows/getRows()));
    // get the image data

    vector<cv::Mat> smallChannels;
    unsigned int i=0,j=0;
    for  ( int y=0; y<=PuzzlePicture.rows-smallSize.height; y += smallSize.height )
    {

        for  ( int x=0 ; x<=PuzzlePicture.cols-smallSize.width; x += smallSize.width )
        {
            //split into different ROIs
            cv::Rect rect =   cv::Rect (x ,y , smallSize.width, smallSize.height );
            cv::Mat tmpSmallPicture = cv::Mat(PuzzlePicture,rect);
            cv::split(tmpSmallPicture, smallChannels);

            //save color into individual PuzzlePieces in Matrix
            PuzzlePiece tmpPiece = getPiece(j,i);
            tmpPiece.r = cv::mean(smallChannels[0]).operator[](0);
            tmpPiece.g = cv::mean(smallChannels[1]).operator[](0);
            tmpPiece.b = cv::mean(smallChannels[2]).operator[](0);
            setPiece(coor(j,i),tmpPiece);
            j++;
        }
        i++;
        j=0;
    }
}
generating "Random" Pieces from picture source now rgb values stored as double in the piece base class. this is bound to change once other group has expanded piece base class. 2017-12-06 16:25:13 +01:00			`#include "../../header.h"`
edited file structure to better represent our current system. added entire code base 2017-11-18 08:16:05 +01:00
Removed lots of slack, edited map functions into dispatcher, puzzleMat missing Removed overconstructed logic, changed vector to map. PuzzleMat object not defined yet, for implementation, make the functions that have already been called through it. 2017-12-20 18:23:39 +01:00			`//use this in second abstraction layer maybe ey?`
			`void createRandomAbstraction2()`
generating "Random" Pieces from picture source now rgb values stored as double in the piece base class. this is bound to change once other group has expanded piece base class. 2017-12-06 16:25:13 +01:00			`{`
			`//get a picture`
			`cv::Mat PuzzlePicture = cv::imread("../../Codicil/Images/Balloons.jpg");`
			`if(! PuzzlePicture.data )`
			`{`
			`cout << "Could not open or find the image" << std::endl ;`
			`return;`
			`}`
			`//split a picture into mxn pieces`
			`cv::Size smallSize ((int)(PuzzlePicture.cols/getCols()) ,(int)(PuzzlePicture.rows/getRows()));`
			`// get the image data`

			`vector<cv::Mat> smallChannels;`
			`unsigned int i=0,j=0;`
			`for ( int y=0; y<=PuzzlePicture.rows-smallSize.height; y += smallSize.height )`
			`{`

			`for ( int x=0 ; x<=PuzzlePicture.cols-smallSize.width; x += smallSize.width )`
			`{`
			`//split into different ROIs`
			`cv::Rect rect = cv::Rect (x ,y , smallSize.width, smallSize.height );`
			`cv::Mat tmpSmallPicture = cv::Mat(PuzzlePicture,rect);`
			`cv::split(tmpSmallPicture, smallChannels);`

			`//save color into individual PuzzlePieces in Matrix`
			`PuzzlePiece tmpPiece = getPiece(j,i);`
			`tmpPiece.r = cv::mean(smallChannels[0]).operator[](0);`
			`tmpPiece.g = cv::mean(smallChannels[1]).operator[](0);`
			`tmpPiece.b = cv::mean(smallChannels[2]).operator[](0);`
Added David Code, removed Clion Stuff 2017-12-07 16:26:45 +01:00			`setPiece(coor(j,i),tmpPiece);`
generating "Random" Pieces from picture source now rgb values stored as double in the piece base class. this is bound to change once other group has expanded piece base class. 2017-12-06 16:25:13 +01:00			`j++;`
			`}`
			`i++;`
			`j=0;`
			`}`
edited file structure to better represent our current system. added entire code base 2017-11-18 08:16:05 +01:00			`}`