GY-63_MS5611/libraries/FRAM_I2C/FRAM.h
2022-12-29 16:05:49 +01:00

143 lines
4.1 KiB
C++

#pragma once
//
// FILE: FRAM.h
// AUTHOR: Rob Tillaart
// VERSION: 0.4.3
// DATE: 2018-01-24
// PURPOSE: Arduino library for I2C FRAM
// URL: https://github.com/RobTillaart/FRAM_I2C
//
#include "Arduino.h"
#include "Wire.h"
#define FRAM_LIB_VERSION (F("0.4.3"))
#define FRAM_OK 0
#define FRAM_ERROR_ADDR -10
#define FRAM_ERROR_I2C -11
#define FRAM_ERROR_CONNECT -12
// Size known types
#define FRAM_MB85RC04 512
#define FRAM_MB85RC16 2048
#define FRAM_MB85RC64T 8192
#define FRAM_MB85RC128A 16384
#define FRAM_MB85RC256V 32768
#define FRAM_MB85RC512T 65536
#define FRAM_MB85RC1MT 131072
class FRAM
{
public:
FRAM(TwoWire *wire = &Wire);
#if defined (ESP8266) || defined(ESP32)
// address and writeProtectPin is optional
int begin(int sda, int scl, const uint8_t address = 0x50,
const int8_t writeProtectPin = -1);
#endif
// address and writeProtectPin is optional
int begin(const uint8_t address = 0x50,
const int8_t writeProtectPin = -1);
bool isConnected();
void write8(uint16_t memaddr, uint8_t value);
void write16(uint16_t memaddr, uint16_t value);
void write32(uint16_t memaddr, uint32_t value);
void writeFloat(uint16_t memaddr, float value);
void writeDouble(uint16_t memaddr, double value);
void write(uint16_t memaddr, uint8_t * obj, uint16_t size);
uint8_t read8(uint16_t memaddr);
uint16_t read16(uint16_t memaddr);
uint32_t read32(uint16_t memaddr);
float readFloat(uint16_t memaddr);
double readDouble(uint16_t memaddr);
void read(uint16_t memaddr, uint8_t * obj, uint16_t size);
template <class T> uint16_t writeObject(uint16_t memaddr, T &obj)
{
write(memaddr, (uint8_t *) &obj, sizeof(obj));
return memaddr + sizeof(obj);
};
template <class T> uint16_t readObject(uint16_t memaddr, T &obj)
{
read(memaddr, (uint8_t *) &obj, sizeof(obj));
return memaddr + sizeof(obj);
}
// works only if pin is defined in begin.
bool setWriteProtect(bool b);
bool getWriteProtect();
// meta info
uint16_t getManufacturerID(); // Fujitsu = 0x000A
uint16_t getProductID(); // Proprietary
uint16_t getSize(); // Returns size in KILO-BYTE (or 0)
uint32_t getSizeBytes(); // Returns size in BYTE
void setSizeBytes(uint32_t value); // override when getSize() fails == 0
uint32_t clear(uint8_t value = 0); // fills FRAM with value
// 0.3.6
void sleep();
bool wakeup(uint32_t trec = 400); // trec <= 400us P12
protected:
uint8_t _address;
uint32_t _sizeBytes;
// default no pin = -1 ==> no write protect.
int8_t _writeProtectPin = -1;
TwoWire* _wire;
uint16_t _getMetaData(uint8_t id);
void _writeBlock(uint16_t memaddr, uint8_t * obj, uint8_t size);
void _readBlock(uint16_t memaddr, uint8_t * obj, uint8_t size);
};
/////////////////////////////////////////////////////////////////
//
// FRAM32
//
class FRAM32 : public FRAM
{
public:
FRAM32(TwoWire *wire = &Wire);
void write8(uint32_t memaddr, uint8_t value);
void write16(uint32_t memaddr, uint16_t value);
void write32(uint32_t memaddr, uint32_t value);
void writeFloat(uint32_t memaddr, float value);
void writeDouble(uint32_t memaddr, double value);
void write(uint32_t memaddr, uint8_t * obj, uint16_t size);
uint8_t read8(uint32_t memaddr);
uint16_t read16(uint32_t memaddr);
uint32_t read32(uint32_t memaddr);
float readFloat(uint32_t memaddr);
double readDouble(uint32_t memaddr);
void read(uint32_t memaddr, uint8_t * obj, uint16_t size);
template <class T> uint32_t writeObject(uint32_t memaddr, T &obj);
template <class T> uint32_t readObject(uint32_t memaddr, T &obj);
uint32_t clear(uint8_t value = 0); // fills FRAM with value
protected:
void _writeBlock(uint32_t memaddr, uint8_t * obj, uint8_t size);
void _readBlock(uint32_t memaddr, uint8_t * obj, uint8_t size);
};
// -- END OF FILE --