#pragma once // // FILE: DHTStable.h // AUTHOR: Rob Tillaart // VERSION: 1.1.1 // PURPOSE: DHT Temperature & Humidity Sensor library for Arduino // URL: https://github.com/RobTillaart/DHTstable #include "Arduino.h" #define DHTSTABLE_LIB_VERSION (F("1.1.1 - DHTStable")) const int DHTLIB_OK = 0; const int DHTLIB_ERROR_CHECKSUM = -1; const int DHTLIB_ERROR_TIMEOUT = -2; const int DHTLIB_INVALID_VALUE = -999; const int DHTLIB_DHT11_WAKEUP = 18; const int DHTLIB_DHT_WAKEUP = 1; // max timeout is 100usec. // For a 16Mhz processor that is max 1600 clock cycles // loops using TIMEOUT use at least 4 clock cycles // so 100 us takes max 400 loops // so by dividing F_CPU by 40000 we "fail" as fast as possible const int DHTLIB_TIMEOUT = (F_CPU/40000); class DHTStable { public: DHTStable(); void reset(); // return values: // DHTLIB_OK // DHTLIB_ERROR_CHECKSUM // DHTLIB_ERROR_TIMEOUT int read11(uint8_t pin); // DHT11 & DHT12 int read(uint8_t pin); // DHT22 inline int read12(uint8_t pin) { return read11(pin); }; // ok inline int read21(uint8_t pin) { return read(pin); }; // ok inline int read22(uint8_t pin) { return read(pin); }; // ok inline int read33(uint8_t pin) { return read(pin); }; // ok inline int read44(uint8_t pin) { return read(pin); }; // ok inline int read2301(uint8_t pin) { return read(pin); }; // ok inline int read2302(uint8_t pin) { return read(pin); }; // ok inline int read2320(uint8_t pin) { return read(pin); }; // ok inline int read2322(uint8_t pin) { return read(pin); }; // ok // read values from cache, call read() to refresh! float getHumidity() { return _humidity; }; float getTemperature() { return _temperature; }; bool getDisableIRQ() { return _disableIRQ; }; void setDisableIRQ(bool b ) { _disableIRQ = b; }; private: uint8_t _bits[5]; // buffer to receive data int _readSensor(uint8_t pin, uint8_t wakeupDelay); bool _disableIRQ = false; float _humidity; float _temperature; }; // -- END OF FILE --