opencv_contrib/modules/plot/include/opencv2/plot.hpp

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//                    Created by Nuno Moutinho
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#ifndef _OPENCV_PLOT_H_
#define _OPENCV_PLOT_H_
#ifdef __cplusplus

#include <opencv2/core.hpp>
#include <opencv2/imgproc.hpp>
#include <iostream>
#include <stdio.h>
#include <vector>

/**
@defgroup plot Plot function for Mat data
*/

namespace cv
{
    namespace plot
    {

    class CV_EXPORTS Plot
{
    protected:
        Mat plotDataX;
        Mat plotDataY;
        Mat plotDataX_plusZero;
        Mat plotDataY_plusZero;
        const char * plotName;

        //dimensions and limits of the plot
        int plotSizeWidth;
        int plotSizeHeight;
        double plotMinX;
        double plotMaxX;
        double plotMinY;
        double plotMaxY;
        double plotMinX_plusZero;
        double plotMaxX_plusZero;
        double plotMinY_plusZero;
        double plotMaxY_plusZero;
        int plotLineWidth;

        //colors of each plot element
        Scalar plotLineColor;
        Scalar plotBackgroundColor;
        Scalar plotAxisColor;
        Scalar plotGridColor;
        Scalar plotTextColor;

        //the final plot result
        Mat plotResult;

    public:

        //constructor accepting only Y data to be plotted
        Plot(Mat _plotData)
        {
            //if the matrix is not Nx1 or 1xN
            if(_plotData.cols > 1 && _plotData.rows > 1)
            {
                std::cout << "ERROR: Plot data must be a 1xN or Nx1 matrix." << std::endl;
                exit(0);
            }

            //if the matrix type is not CV_64F
            if(_plotData.type() != CV_64F)
            {
                std::cout << "ERROR: Plot data type must be double (CV_64F)." << std::endl;
                exit(0);
            }

            //in case we have a row matrix than needs to be transposed
            if(_plotData.cols > _plotData.rows)
            {
                _plotData = _plotData.t();
            }

            plotDataY=_plotData;
            plotDataX = plotDataY*0;
            for (int i=0; i<plotDataY.rows; i++)
            {
                plotDataX.at<double>(i,0) = i;
            }

            //calling the main constructor
            plotHelper(plotDataX, plotDataY);
        }

        //constructor accepting X data and Y data to be plotted
        Plot(Mat _plotDataX, Mat _plotDataY)
        {
            //f the matrix is not Nx1 or 1xN
            if((_plotDataX.cols > 1 && _plotDataX.rows > 1) || (_plotDataY.cols > 1 && _plotDataY.rows > 1))
            {
                std::cout << "ERROR: Plot data must be a 1xN or Nx1 matrix." << std::endl;
                exit(0);
            }

            //if the matrix type is not CV_64F
            if(_plotDataX.type() != CV_64F || _plotDataY.type() != CV_64F)
            {
                std::cout << "ERROR: Plot data type must be double (CV_64F)." << std::endl;
                exit(0);
            }

            //in case we have a row matrix than needs to be transposed
            if(_plotDataX.cols > _plotDataX.rows)
            {
                _plotDataX = _plotDataX.t();
            }
            if(_plotDataY.cols > _plotDataY.rows)
            {
                _plotDataY = _plotDataY.t();
            }

            plotHelper(_plotDataX, _plotDataY);
        }

        //set functions
        void setMinX(double _plotMinX)
        {
            plotMinX = _plotMinX;
            plotMinX_plusZero = _plotMinX;
        }
        void setMaxX(double _plotMaxX)
        {
            plotMaxX = _plotMaxX;
            plotMaxX_plusZero = _plotMaxX;
        }
        void setMinY(double _plotMinY)
        {
            plotMinY = _plotMinY;
            plotMinY_plusZero = _plotMinY;
        }
        void setMaxY(double _plotMaxY)
        {
            plotMaxY = _plotMaxY;
            plotMaxY_plusZero = _plotMaxY;
        }
        void setPlotLineWidth(int _plotLineWidth)
        {
            plotLineWidth=_plotLineWidth;
        }
        void setPlotLineColor(Scalar _plotLineColor)
        {
            plotLineColor=_plotLineColor;
        }
        void setPlotBackgroundColor(Scalar _plotBackgroundColor)
        {
            plotBackgroundColor=_plotBackgroundColor;
        }
        void setPlotAxisColor(Scalar _plotAxisColor)
        {
            plotAxisColor=_plotAxisColor;
        }
        void setPlotGridColor(Scalar _plotGridColor)
        {
            plotGridColor=_plotGridColor;
        }
        void setPlotTextColor(Scalar _plotTextColor)
        {
            plotTextColor=_plotTextColor;
        }
        void setPlotSize(int _plotSizeWidth, int _plotSizeHeight)
        {
            if(_plotSizeWidth > 400)
                plotSizeWidth = _plotSizeWidth;
            else
                plotSizeWidth = 400;

            if(_plotSizeHeight > 300)
                plotSizeHeight = _plotSizeHeight;
            else
                plotSizeHeight = 300;
        }

        //render the plotResult to a Mat
        void render(Mat &_plotResult);

    protected:

        //a helper method to be used in the constructor
        void plotHelper(Mat _plotDataX, Mat _plotDataY)
        {
            plotDataX=_plotDataX;
            plotDataY=_plotDataY;

            int NumVecElements = plotDataX.rows;

            plotDataX_plusZero = Mat::zeros(NumVecElements+1,1,CV_64F);
            plotDataY_plusZero = Mat::zeros(NumVecElements+1,1,CV_64F);

            for(int i=0; i<NumVecElements; i++){
                plotDataX_plusZero.at<double>(i,0) = plotDataX.at<double>(i,0);
                plotDataY_plusZero.at<double>(i,0) = plotDataY.at<double>(i,0);
            }

            double MinX;
            double MaxX;
            double MinY;
            double MaxY;
            double MinX_plusZero;
            double MaxX_plusZero;
            double MinY_plusZero;
            double MaxY_plusZero;

            //Obtain the minimum and maximum values of Xdata
            minMaxLoc(plotDataX,&MinX,&MaxX);

            //Obtain the minimum and maximum values of Ydata
            minMaxLoc(plotDataY,&MinY,&MaxY);

            //Obtain the minimum and maximum values of Xdata plus zero
            minMaxLoc(plotDataX_plusZero,&MinX_plusZero,&MaxX_plusZero);

            //Obtain the minimum and maximum values of Ydata plus zero
            minMaxLoc(plotDataY_plusZero,&MinY_plusZero,&MaxY_plusZero);

            //setting the min and max values for each axis
            plotMinX = MinX;
            plotMaxX = MaxX;
            plotMinY = MinY;
            plotMaxY = MaxY;
            plotMinX_plusZero = MinX_plusZero;
            plotMaxX_plusZero = MaxX_plusZero;
            plotMinY_plusZero = MinY_plusZero;
            plotMaxY_plusZero = MaxY_plusZero;

            //setting the default size of a plot figure
            setPlotSize(600, 400);

            //setting the default plot line size
            setPlotLineWidth(1);

            //setting default colors for the different elements of the plot
            setPlotAxisColor(Scalar(0, 0, 255));
            setPlotGridColor(Scalar(255, 255, 255));
            setPlotBackgroundColor(Scalar(0, 0, 0));
            setPlotLineColor(Scalar(0, 255, 255));
            setPlotTextColor(Scalar(255, 255, 255));
        }

        Mat linearInterpolation(double Xa, double Xb, double Ya, double Yb, Mat Xdata);
        void drawAxis(int ImageXzero, int ImageYzero, double CurrentX, double CurrentY, Scalar axisColor, Scalar gridColor);
        void drawValuesAsText(double Value, int Xloc, int Yloc, int XMargin, int YMargin);
        void drawValuesAsText(const char * Text, double Value, int Xloc, int Yloc, int XMargin, int YMargin);
        void drawLine(int Xstart, int Xend, int Ystart, int Yend, Scalar lineColor);
};
}
}

#endif
#endif