#pragma once // // FILE: Correlation.h // AUTHOR: Rob Tillaart // VERSION: 0.3.0 // PURPOSE: Calculate Correlation from a small dataset. // URL: https://github.com/RobTillaart/Correlation #include "Arduino.h" #define CORRELATION_LIB_VERSION (F("0.3.0")) class Correlation { public: Correlation(uint8_t size = 20); // WARNING calculate memory usage !! ~Correlation(); // returns true if the pair of values is added to internal array. // returns false when internal array is full. bool add(float x, float y); // administrative functions uint8_t count() { return _count; }; uint8_t size() { return _size; }; void clear(); // in running mode, adding new pair of values will replace old ones // this constantly adapts the regression parameters A and B (iff calculate is called) void setRunningCorrelation(bool rc) { _runningMode = rc; }; bool getRunningCorrelation() { return _runningMode; }; // worker, to calculate the correlation parameters. // MUST be called before retrieving the parameters // A, B, R, Rsquared, Esquared, avgX and avgY // // parameter forced overrules the _needRecalculate flag. // forced is default false to maintain backwards compatibility // // returns false if contains no elements ==> count() == 0 bool calculate(bool forced = false); // enables / disables R, Rsquared and Esquared calculation // This can be used to speed up the calculate function if // these values are not used in your project. void setR2Calculation(bool doR2) { _doR2 = doR2; }; bool getR2Calculation() { return _doR2; }; void setE2Calculation(bool doE2) { _doE2 = doE2; }; bool getE2Calculation() { return _doE2; }; // Y = A + B * X // note if no elements are added or calculate is not called // the values for A and B are 0 float getA() { return _a; }; float getB() { return _b; }; // getR() returns correlation coefficient (0.2.0 fixed sign) float getR() { return _r; }; float getRsquare() { return _r * _r; }; // returns sum of the errors squared == indication of 'spread' // the smaller this value the more the points are on/near one line. float getEsquare() { return _sumErrorSquare; }; // get the average values of the datasets (if count > 0) float getAverageX() { return _avgX; }; // will replace getAvgX() in time float getAverageY() { return _avgY; }; // will replace getAvgY() in time // float getAvgX() { return _avgX; }; // obsolete in 0.3.0 // float getAvgY() { return _avgY; }; // obsolete in 0.3.0 // based on the dataset get the estimated values for X and Y // it uses the last calculated A and B // library does not return a confidence interval for these values. float getEstimateY(float x); float getEstimateX(float y); // STATISTICAL // to get bounding box of all x,y pairs. float getMinX(); // idem float getMaxX(); // idem float getMinY(); // idem float getMaxY(); // idem // DEBUGGING - access to internal arrays. bool setXY(uint8_t index, float x, float y); // returns true if succeeded bool setX(uint8_t index, float x); // returns true if succeeded bool setY(uint8_t index, float y); // returns true if succeeded float getX(uint8_t index); // idem float getY(uint8_t index); // idem float getSumXY(); // replaces getSumXiYi() float getSumX2(); // replaces getSumXi2() float getSumY2(); // replaces getSumYi2() // float getSumXiYi() { return _sumXiYi; }; // obsolete in version 0.3.0 // float getSumXi2() { return _sumXi2; }; // obsolete in version 0.3.0 // float getSumYi2() { return _sumYi2; }; // obsolete in version 0.3.0 private: uint8_t _size = 0; uint8_t _index = 0; uint8_t _count = 0; bool _runningMode = false; bool _needRecalculate = true; bool _doE2 = true; bool _doR2 = true; float * _x; float * _y; float _avgX; float _avgY; float _a; float _b; float _div_b; float _r; float _sumErrorSquare; float _sumXiYi; float _sumXi2; float _sumYi2; }; // -- END OF FILE --