#include "processing.h"

Processing::Processing(/* args */)
{
}

Processing::~Processing()
{
}

static double angle( Point pt1, Point pt2, Point pt0 )
{
    double dx1 = pt1.x - pt0.x;
    double dy1 = pt1.y - pt0.y;
    double dx2 = pt2.x - pt0.x;
    double dy2 = pt2.y - pt0.y;
    return (dx1*dx2 + dy1*dy2)/sqrt((dx1*dx1 + dy1*dy1)*(dx2*dx2 + dy2*dy2) + 1e-10);
}

void Processing::processImage(Mat& inputPicture, int thresholdBinary, int gaussKernelSize, int thresholdCanny1, int thresholdCanny2, int apertureSizeCanny)
{
    //Idea here is: Processing module consists of two methods:
    // One (this) to do all kinds of stuff to the picture (grayscale conversion, threshold, gauss etc etc)
    // And one (the other one) to segment the lines.
    // No return value here as the input is passed by reference -> directly modified.
    cvtColor(inputPicture, inputPicture, COLOR_BGR2GRAY);
    threshold(inputPicture, inputPicture, thresholdBinary, 255, THRESH_BINARY);
    GaussianBlur(inputPicture, inputPicture, Size(gaussKernelSize, gaussKernelSize), 0); 
    Canny(inputPicture, inputPicture, thresholdCanny1, thresholdCanny2, apertureSizeCanny);
}

std::vector<Vec4i> Processing::calculateLineSegments(const Mat& inputPicture)
{
    //See following link
    //https://stackoverflow.com/questions/45322630/how-to-detect-lines-in-opencv
    vector<Vec4i> lines;
    VectorOfLines linesInVectors;
    HoughLinesP(inputPicture, lines, 1, CV_PI/360, 150, 0, 250);
    //lines = linesInVectors.findMiddleLine(lines);
    
    return lines;
}