#pragma once // // FILE: RunningAverage.h // AUTHOR: Rob Tillaart // VERSION: 0.4.4 // DATE: 2011-01-30 // PURPOSE: Arduino library to calculate the running average by means of a circular buffer // URL: https://github.com/RobTillaart/RunningAverage #include "Arduino.h" #define RUNNINGAVERAGE_LIB_VERSION (F("0.4.4")) class RunningAverage { public: explicit RunningAverage(const uint16_t size); ~RunningAverage(); void clear(); void add(const float value) { addValue(value); }; void addValue(const float value); void fillValue(const float value, const uint16_t number); float getValue(const uint16_t position); float getAverage(); // iterates over all elements. float getFastAverage() const; // reuses previous calculated values. // return statistical characteristics of the running average float getStandardDeviation() const; float getStandardError() const; // returns min/max added to the data-set since last clear float getMin() const { return _min; }; float getMax() const { return _max; }; // returns min/max from the values in the internal buffer float getMinInBuffer() const; float getMaxInBuffer() const; // return true if buffer is full bool bufferIsFull() const { return _count == _size; }; float getElement(uint16_t index) const; uint16_t getSize() const { return _size; } uint16_t getCount() const { return _count; } // use not all elements just a part from 0..partial-1 // (re)setting partial will clear the internal buffer. void setPartial(const uint16_t partial = 0); // 0 ==> use all uint16_t getPartial() { return _partial; }; // get some stats from the last count additions. float getAverageLast(uint16_t count); float getMinInBufferLast(uint16_t count); float getMaxInBufferLast(uint16_t count); // Experimental 0.4.3 float getAverageSubset(uint16_t start, uint16_t count); protected: uint16_t _size; uint16_t _count; uint16_t _index; uint16_t _partial; float _sum; float* _array; float _min; float _max; }; // -- END OF FILE --