// // FILE: MCP23008.cpp // AUTHOR: Rob Tillaart // VERSION: 0.1.2 // PURPOSE: Arduino library for I2C MCP23008 8 channel port expander // DATE: 2019-10-12 // URL: https://github.com/RobTillaart/MCP23008 #include "MCP23008.h" // Registers // DESCRIPTION DATASHEET #define MCP23008_DDR_A 0x00 // Data Direction Register A P 10 #define MCP23008_POL_A 0x01 // Input Polarity A P 11 #define MCP23008_GPINTEN_A 0x02 // NOT USED interrupt enable P 12 #define MCP23008_DEFVAL_A 0x03 // NOT USED interrupt def P 13 #define MCP23008_INTCON_A 0x04 // NOT USED interrupt control P 14 #define MCP23008_IOCR 0x05 // IO control register P 15 #define MCP23008_PUR_A 0x06 // Pull Up Resistors A P 16 #define MCP23008_INTF_A 0x07 // NOT USED interrupt flag P 17 #define MCP23008_INTCAP_A 0x08 // NOT USED interrupt capture P 18 #define MCP23008_GPIO_A 0x09 // General Purpose IO A P 19 #define MCP23008_OLAT_A 0x0A // NOT USED output latch P 20 MCP23008::MCP23008(uint8_t address, TwoWire *wire) { _address = address; _wire = wire; _error = MCP23008_OK; } #if defined(ESP8266) || defined(ESP32) bool MCP23008::begin(const uint8_t dataPin, const uint8_t clockPin) { _wire = &Wire; _wire->begin(dataPin, clockPin); // check connected if (! isConnected()) return false; // disable address increment (datasheet) if (! writeReg(MCP23008_IOCR, 0b00100000)) return false; // Force INPUT_PULLUP if (! writeReg(MCP23008_PUR_A, 0xFF)) return false; return true; } #endif bool MCP23008::begin() { _wire->begin(); // check connected if (! isConnected()) return false; // disable address increment (datasheet) if (! writeReg(MCP23008_IOCR, 0b00100000)) return false; // Force INPUT_PULLUP if (! writeReg(MCP23008_PUR_A, 0xFF)) return false; return true; } bool MCP23008::isConnected() { _wire->beginTransmission(_address); if (_wire->endTransmission() != 0) { _error = MCP23008_I2C_ERROR; return false; } _error = MCP23008_OK; return true; } // single pin interface // pin = 0..7 // mode = INPUT, OUTPUT, INPUT_PULLUP (= same as INPUT) bool MCP23008::pinMode(uint8_t pin, uint8_t mode) { if (pin > 7) { _error = MCP23008_PIN_ERROR; return false; } if ((mode != INPUT) && (mode != INPUT_PULLUP) && (mode != OUTPUT)) { _error = MCP23008_VALUE_ERROR; return false; } uint8_t dataDirectionRegister = MCP23008_DDR_A; uint8_t val = readReg(dataDirectionRegister); if (_error != MCP23008_OK) { return false; } uint8_t mask = 1 << pin; // only work with valid if ((mode == INPUT) || (mode == INPUT_PULLUP)) { val |= mask; } else if (mode == OUTPUT) { val &= ~mask; } // other values won't change val .... writeReg(dataDirectionRegister, val); if (_error != MCP23008_OK) { return false; } return true; } // pin = 0..7 // value = LOW, HIGH bool MCP23008::digitalWrite(uint8_t pin, uint8_t value) { if (pin > 7) { _error = MCP23008_PIN_ERROR; return false; } uint8_t IOR = MCP23008_GPIO_A; uint8_t val = readReg(IOR); uint8_t pre = val; if (_error != MCP23008_OK) { return false; } uint8_t mask = 1 << pin; if (value) { val |= mask; } else { val &= ~mask; } // only write if there is a change if (val != pre) { writeReg(IOR, val); if (_error != MCP23008_OK) { return false; } } return true; } uint8_t MCP23008::digitalRead(uint8_t pin) { if (pin > 7) { _error = MCP23008_PIN_ERROR; return MCP23008_INVALID_READ; } uint8_t IOR = MCP23008_GPIO_A; uint8_t val = readReg(IOR); if (_error != MCP23008_OK) { return MCP23008_INVALID_READ; } uint8_t mask = 1 << pin; if (val & mask) return HIGH; return LOW; } // pin = 0..7 // reverse = true or false bool MCP23008::setPolarity(uint8_t pin, bool reversed) { if (pin > 7) { _error = MCP23008_PIN_ERROR; return false; } uint8_t inputPolarityRegister = MCP23008_POL_A; uint8_t val = readReg(inputPolarityRegister); if (_error != MCP23008_OK) { return false; } uint8_t mask = 1 << pin; if (reversed) { val |= mask; } else { val &= ~mask; } writeReg(inputPolarityRegister, val); if (_error != MCP23008_OK) { return false; } return true; } bool MCP23008::getPolarity(uint8_t pin, bool &reversed) { if (pin > 7) { _error = MCP23008_PIN_ERROR; return false; } uint8_t inputPolarityRegister = MCP23008_POL_A; uint8_t val = readReg(inputPolarityRegister); if (_error != MCP23008_OK) { return false; } uint8_t mask = 1 << pin; reversed = (val & mask) > 0; return true; } // pin = 0..7 // reverse = true or false bool MCP23008::setPullup(uint8_t pin, bool pullup) { if (pin > 7) { _error = MCP23008_PIN_ERROR; return false; } uint8_t inputPullupRegister = MCP23008_PUR_A; uint8_t val = readReg(inputPullupRegister); if (_error != MCP23008_OK) { return false; } uint8_t mask = 1 << pin; if (pullup) { val |= mask; } else { val &= ~mask; } writeReg(inputPullupRegister, val); if (_error != MCP23008_OK) { return false; } return true; } bool MCP23008::getPullup(uint8_t pin, bool &pullup) { if (pin > 7) { _error = MCP23008_PIN_ERROR; return false; } uint8_t inputPullupRegister = MCP23008_PUR_A; uint8_t val = readReg(inputPullupRegister); if (_error != MCP23008_OK) { return false; } uint8_t mask = 1 << pin; pullup = (val & mask) > 0; return true; } /////////////////////////////////////////////////////////////////////// // // 8 pins interface // whole register at once // value = 0..0xFF bit pattern bool MCP23008::pinMode8(uint8_t value) { writeReg(MCP23008_DDR_A, value); _error = MCP23008_OK; return true; } bool MCP23008::write8(uint8_t value) { writeReg(MCP23008_GPIO_A, value); _error = MCP23008_OK; return true; } int MCP23008::read8() { _error = MCP23008_OK; return readReg(MCP23008_GPIO_A); } // mask = 0..0xFF bit pattern bool MCP23008::setPolarity8(uint8_t mask) { writeReg(MCP23008_POL_A, mask); if (_error != MCP23008_OK) { return false; } return true; } bool MCP23008::getPolarity8(uint8_t &mask) { mask = readReg(MCP23008_POL_A); if (_error != MCP23008_OK) { return false; } return true; } // mask = 0..0xFF bit pattern bool MCP23008::setPullup8(uint8_t mask) { writeReg(MCP23008_PUR_A, mask); if (_error != MCP23008_OK) { return false; } return true; } bool MCP23008::getPullup8(uint8_t &mask) { mask = readReg(MCP23008_PUR_A); if (_error != MCP23008_OK) { return false; } return true; } int MCP23008::lastError() { int e = _error; _error = MCP23008_OK; // reset error after read. return e; } //////////////////////////////////////////////////// // // PRIVATE // bool MCP23008::writeReg(uint8_t reg, uint8_t value) { _wire->beginTransmission(_address); _wire->write(reg); _wire->write(value); if (_wire->endTransmission() != 0) { _error = MCP23008_I2C_ERROR; return false; } _error = MCP23008_OK; return true; } uint8_t MCP23008::readReg(uint8_t reg) { _wire->beginTransmission(_address); _wire->write(reg); if (_wire->endTransmission() != 0) { _error = MCP23008_I2C_ERROR; return 0; } else { _error = MCP23008_OK; } uint8_t n = _wire->requestFrom(_address, (uint8_t)1); if (n != 1) { _error = MCP23008_I2C_ERROR; return 0; } return _wire->read(); } // -- END OF FILE --