#if !defined(_RADIOLIB_BUILD_OPTIONS_H) #define _RADIOLIB_BUILD_OPTIONS_H #if ARDUINO >= 100 #include "Arduino.h" #else #error "Unsupported Arduino version (< 1.0.0)" #endif /* * Platform-specific configuration. * * RADIOLIB_PLATFORM - platform name, used in debugging to quickly check the correct platform is detected. * RADIOLIB_PIN_TYPE - which type should be used for pin numbers in functions like digitalRead(). * RADIOLIB_PIN_MODE - which type should be used for pin modes in functions like pinMode(). * RADIOLIB_PIN_STATUS - which type should be used for pin values in functions like digitalWrite(). * RADIOLIB_INTERRUPT_STATUS - which type should be used for pin changes in functions like attachInterrupt(). * RADIOLIB_DIGITAL_PIN_TO_INTERRUPT - function/macro to be used to convert digital pin number to interrupt pin number. * RADIOLIB_NC - alias for unused pin, usually the largest possible value of RADIOLIB_PIN_TYPE. * RADIOLIB_DEFAULT_SPI - default SPIClass instance to use. * RADIOLIB_PROGMEM - macro to place variable into program storage (usually Flash). * RADIOLIB_PROGMEM_READ_BYTE - function/macro to read variables saved in program storage (usually Flash). * RADIOLIB_TYPE_ALIAS - construct to create an alias for a type, usually vai the `using` keyword. * RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED - defined if the specific platform does not support SoftwareSerial. * RADIOLIB_HARDWARE_SERIAL_PORT - which hardware serial port should be used on platform that do not have SoftwareSerial support. * RADIOLIB_TONE_UNSUPPORTED - some platforms do not have tone()/noTone(), which is required for AFSK. * * In addition, some platforms may require RadioLib to disable specific drivers (such as ESP8266). * * Users may also specify their own configuration by uncommenting the RADIOLIB_CUSTOM_PLATFORM, * and then specifying all platform parameters in the section below. This will override automatic * platform detection. */ // uncomment to enable custom platform definition //#define RADIOLIB_CUSTOM_PLATFORM #if defined(RADIOLIB_CUSTOM_PLATFORM) // name for your platform #define RADIOLIB_PLATFORM "Custom" // the following parameters must always be defined #define RADIOLIB_PIN_TYPE uint8_t #define RADIOLIB_PIN_MODE uint8_t #define RADIOLIB_PIN_STATUS uint8_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; // the following must be defined if the Arduino core does not support SoftwareSerial library //#define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED //#define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 // the following must be defined if the Arduino core does not support tone function //#define RADIOLIB_TONE_UNSUPPORTED // some platforms seem to have issues with SPI modules that use a command interface // this can be mitigated by adding delays into SPI communication // (see https://github.com/jgromes/RadioLib/issues/158 for details) //#define RADIOLIB_SPI_SLOWDOWN // some of RadioLib drivers may be excluded, to prevent collisions with platforms (or to speed up build process) // the following is a complete list of all possible exclusion macros, uncomment any of them to disable that driver // NOTE: Some of the exclusion macros are dependent on each other. For example, it is not possible to exclude RF69 // while keeping SX1231 (because RF69 is the base class for SX1231). The dependency is always uni-directional, // so excluding SX1231 and keeping RF69 is valid. //#define RADIOLIB_EXCLUDE_CC1101 //#define RADIOLIB_EXCLUDE_ESP8266 //#define RADIOLIB_EXCLUDE_HC05 //#define RADIOLIB_EXCLUDE_JDY08 //#define RADIOLIB_EXCLUDE_NRF24 //#define RADIOLIB_EXCLUDE_RF69 //#define RADIOLIB_EXCLUDE_SX1231 // dependent on RADIOLIB_EXCLUDE_RF69 //#define RADIOLIB_EXCLUDE_SI443X //#define RADIOLIB_EXCLUDE_RFM2X // dependent on RADIOLIB_EXCLUDE_SI443X //#define RADIOLIB_EXCLUDE_SX127X //#define RADIOLIB_EXCLUDE_RFM9X // dependent on RADIOLIB_EXCLUDE_SX127X //#define RADIOLIB_EXCLUDE_SX126X //#define RADIOLIB_EXCLUDE_SX128X //#define RADIOLIB_EXCLUDE_XBEE //#define RADIOLIB_EXCLUDE_AFSK //#define RADIOLIB_EXCLUDE_AX25 //#define RADIOLIB_EXCLUDE_HELLSCHREIBER //#define RADIOLIB_EXCLUDE_HTTP //#define RADIOLIB_EXCLUDE_MORSE //#define RADIOLIB_EXCLUDE_MQTT //#define RADIOLIB_EXCLUDE_RTTY //#define RADIOLIB_EXCLUDE_SSTV #else #if defined(__AVR__) && !(defined(ARDUINO_AVR_UNO_WIFI_REV2) || defined(ARDUINO_AVR_NANO_EVERY) || defined(ARDUINO_ARCH_MEGAAVR)) // Arduino AVR boards (except for megaAVR) - Uno, Mega etc. #define RADIOLIB_PLATFORM "Arduino AVR" #define RADIOLIB_PIN_TYPE uint8_t #define RADIOLIB_PIN_MODE uint8_t #define RADIOLIB_PIN_STATUS uint8_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #elif defined(ESP8266) // ESP8266 boards #define RADIOLIB_PLATFORM "ESP8266" #define RADIOLIB_PIN_TYPE uint8_t #define RADIOLIB_PIN_MODE uint8_t #define RADIOLIB_PIN_STATUS uint8_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; // RadioLib has ESP8266 driver, this must be disabled to use ESP8266 as platform #define RADIOLIB_EXCLUDE_ESP8266 #define RADIOLIB_EXCLUDE_HTTP #elif defined(ESP32) // ESP32 boards #define RADIOLIB_PLATFORM "ESP32" #define RADIOLIB_PIN_TYPE uint8_t #define RADIOLIB_PIN_MODE uint8_t #define RADIOLIB_PIN_STATUS uint8_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED #define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 // ESP32 doesn't support tone(), but it can be emulated via LED control peripheral #define RADIOLIB_TONE_UNSUPPORTED #define RADIOLIB_TONE_ESP32_CHANNEL (1) #elif defined(ARDUINO_ARCH_STM32) // official STM32 Arduino core (https://github.com/stm32duino/Arduino_Core_STM32) #define RADIOLIB_PLATFORM "Arduino STM32 (official)" #define RADIOLIB_PIN_TYPE uint32_t #define RADIOLIB_PIN_MODE uint32_t #define RADIOLIB_PIN_STATUS uint32_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFFFFFFFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED #define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 // slow down SX126x/8x SPI on this platform #define RADIOLIB_SPI_SLOWDOWN #elif defined(SAMD_SERIES) // Adafruit SAMD boards (M0 and M4) #define RADIOLIB_PLATFORM "Adafruit SAMD" #define RADIOLIB_PIN_TYPE uint32_t #define RADIOLIB_PIN_MODE uint32_t #define RADIOLIB_PIN_STATUS uint32_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFFFFFFFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED #define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 // slow down SX126x/8x SPI on this platform #define RADIOLIB_SPI_SLOWDOWN #elif defined(ARDUINO_ARCH_SAMD) // Arduino SAMD (Zero, MKR, etc.) #define RADIOLIB_PLATFORM "Arduino SAMD" #define RADIOLIB_PIN_TYPE pin_size_t #define RADIOLIB_PIN_MODE PinMode #define RADIOLIB_PIN_STATUS PinStatus #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED #define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 #elif defined(__SAM3X8E__) // Arduino Due #define RADIOLIB_PLATFORM "Arduino Due" #define RADIOLIB_PIN_TYPE uint32_t #define RADIOLIB_PIN_MODE uint32_t #define RADIOLIB_PIN_STATUS uint32_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFFFFFFFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED #define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 #define RADIOLIB_TONE_UNSUPPORTED #elif (defined(NRF52832_XXAA) || defined(NRF52840_XXAA)) && !defined(ARDUINO_ARDUINO_NANO33BLE) // Adafruit nRF52 boards #define RADIOLIB_PLATFORM "Adafruit nRF52" #define RADIOLIB_PIN_TYPE uint32_t #define RADIOLIB_PIN_MODE uint32_t #define RADIOLIB_PIN_STATUS uint32_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFFFFFFFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #elif defined(ARDUINO_ARC32_TOOLS) // Intel Curie #define RADIOLIB_PLATFORM "Intel Curie" #define RADIOLIB_PIN_TYPE uint8_t #define RADIOLIB_PIN_MODE uint8_t #define RADIOLIB_PIN_STATUS uint8_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #elif defined(ARDUINO_AVR_UNO_WIFI_REV2) || defined(ARDUINO_AVR_NANO_EVERY) // Arduino megaAVR boards - Uno Wifi Rev.2, Nano Every #define RADIOLIB_PLATFORM "Arduino megaAVR" #define RADIOLIB_PIN_TYPE uint8_t #define RADIOLIB_PIN_MODE PinMode #define RADIOLIB_PIN_STATUS PinStatus #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #elif defined(ARDUINO_ARCH_APOLLO3) // Sparkfun Apollo3 boards #define RADIOLIB_PLATFORM "Sparkfun Apollo3" #define RADIOLIB_PIN_TYPE pin_size_t #define RADIOLIB_PIN_MODE Arduino_PinMode #define RADIOLIB_PIN_STATUS PinStatus #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED #define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 // Apollo3 uses mbed libraries, which already contain ESP8266 driver #define RADIOLIB_EXCLUDE_ESP8266 // slow down SX126x/8x SPI on this platform #define RADIOLIB_SPI_SLOWDOWN #elif defined(ARDUINO_ARDUINO_NANO33BLE) // Arduino Nano 33 BLE #define RADIOLIB_PLATFORM "Arduino Nano 33 BLE" #define RADIOLIB_PIN_TYPE pin_size_t #define RADIOLIB_PIN_MODE PinMode #define RADIOLIB_PIN_STATUS PinStatus #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED #define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 // Nano 33 BLE uses mbed libraries, which already contain ESP8266 driver #define RADIOLIB_EXCLUDE_ESP8266 #elif defined(ARDUINO_PORTENTA_H7_M7) || defined(ARDUINO_PORTENTA_H7_M4) // Arduino Portenta H7 #define RADIOLIB_PLATFORM "Portenta H7" #define RADIOLIB_PIN_TYPE pin_size_t #define RADIOLIB_PIN_MODE PinMode #define RADIOLIB_PIN_STATUS PinStatus #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED #define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 // Arduino Portenta H7 uses mbed libraries, which already contain ESP8266 driver #define RADIOLIB_EXCLUDE_ESP8266 #elif defined(__STM32F4__) || defined(__STM32F1__) // Arduino STM32 core by Roger Clark (https://github.com/rogerclarkmelbourne/Arduino_STM32) #define RADIOLIB_PLATFORM "STM32duino (unofficial)" #define RADIOLIB_PIN_TYPE uint8_t #define RADIOLIB_PIN_MODE WiringPinMode #define RADIOLIB_PIN_STATUS uint8_t #define RADIOLIB_INTERRUPT_STATUS ExtIntTriggerMode #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED #define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 #elif defined(ARDUINO_ARCH_MEGAAVR) // MegaCoreX by MCUdude (https://github.com/MCUdude/MegaCoreX) #define RADIOLIB_PLATFORM "MegaCoreX" #define RADIOLIB_PIN_TYPE uint8_t #define RADIOLIB_PIN_MODE uint8_t #define RADIOLIB_PIN_STATUS uint8_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #elif defined(ARDUINO_ARCH_RP2040) // Raspberry Pi Pico #define RADIOLIB_PLATFORM "Raspberry Pi Pico" #define RADIOLIB_PIN_TYPE pin_size_t #define RADIOLIB_PIN_MODE PinMode #define RADIOLIB_PIN_STATUS PinStatus #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED #define RADIOLIB_HARDWARE_SERIAL_PORT Serial1 #define RADIOLIB_EXCLUDE_ESP8266 #elif defined(__ASR6501__) // CubeCell #define RADIOLIB_PLATFORM "CubeCell" #define RADIOLIB_PIN_TYPE uint8_t #define RADIOLIB_PIN_MODE PINMODE #define RADIOLIB_PIN_STATUS uint8_t #define RADIOLIB_INTERRUPT_STATUS IrqModes #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) // CubeCell doesn't seem to define nullptr, let's do something like that now #define nullptr NULL // ... and also defines pinMode() as a macro, which is by far the stupidest thing I have seen on Arduino #undef pinMode // ... and uses an outdated GCC which does not support type aliases #define RADIOLIB_TYPE_ALIAS(type, alias) typedef class type alias; // ... and it also has no tone(). This platform was designed by an idiot. #define RADIOLIB_TONE_UNSUPPORTED #else // other platforms not covered by the above list - this may or may not work #define RADIOLIB_PLATFORM "Unknown" #define RADIOLIB_UNKNOWN_PLATFORM #define RADIOLIB_PIN_TYPE uint8_t #define RADIOLIB_PIN_MODE uint8_t #define RADIOLIB_PIN_STATUS uint8_t #define RADIOLIB_INTERRUPT_STATUS RADIOLIB_PIN_STATUS #define RADIOLIB_DIGITAL_PIN_TO_INTERRUPT(p) digitalPinToInterrupt(p) #define RADIOLIB_NC (0xFF) #define RADIOLIB_DEFAULT_SPI SPI #define RADIOLIB_PROGMEM PROGMEM #define RADIOLIB_PROGMEM_READ_BYTE(addr) pgm_read_byte(addr) #define RADIOLIB_TYPE_ALIAS(type, alias) using alias = type; #endif #endif /* * Uncomment to enable debug output. * Warning: Debug output will slow down the whole system significantly. * Also, it will result in larger compiled binary. * Levels: debug - only main info * verbose - full transcript of all SPI/UART communication */ //#define RADIOLIB_DEBUG //#define RADIOLIB_VERBOSE // set which Serial port should be used for debug output #define RADIOLIB_DEBUG_PORT Serial #if defined(RADIOLIB_DEBUG) #define RADIOLIB_DEBUG_PRINT(...) { RADIOLIB_DEBUG_PORT.print(__VA_ARGS__); } #define RADIOLIB_DEBUG_PRINTLN(...) { RADIOLIB_DEBUG_PORT.println(__VA_ARGS__); } #else #define RADIOLIB_DEBUG_PRINT(...) {} #define RADIOLIB_DEBUG_PRINTLN(...) {} #endif #if defined(RADIOLIB_VERBOSE) #define RADIOLIB_VERBOSE_PRINT(...) { RADIOLIB_DEBUG_PORT.print(__VA_ARGS__); } #define RADIOLIB_VERBOSE_PRINTLN(...) { RADIOLIB_DEBUG_PORT.println(__VA_ARGS__); } #else #define RADIOLIB_VERBOSE_PRINT(...) {} #define RADIOLIB_VERBOSE_PRINTLN(...) {} #endif /* * Uncomment to enable "paranoid" SPI mode * Every write to an SPI register using SPI set function will be verified by a subsequent read operation. * This improves reliablility, but slightly slows down communication. * Note: Enabled by default. */ #define RADIOLIB_SPI_PARANOID /* * Uncomment to enable parameter range checking * RadioLib will check provided parameters (such as frequency) against limits determined by the device manufacturer. * It is highly advised to keep this macro defined, removing it will allow invalid values to be set, * possibly leading to bricked module and/or program crashing. * Note: Enabled by default. */ #define RADIOLIB_CHECK_PARAMS /* * Uncomment to enable SX127x errata fix * Warning: SX127x errata fix has been reported to cause issues with LoRa bandwidths lower than 62.5 kHz. * It should only be enabled if you really are observing some errata-related issue. * Note: Disabled by default. */ //#define RADIOLIB_FIX_ERRATA_SX127X #if defined(RADIOLIB_FIX_ERRATA_SX127X) #define RADIOLIB_ERRATA_SX127X(...) { errataFix(__VA_ARGS__); } #else #define RADIOLIB_ERRATA_SX127X(...) {} #endif /* * Uncomment to enable god mode - all methods and member variables in all classes will be made public, thus making them accessible from Arduino code. * Warning: Come on, it's called GOD mode - obviously only use this if you know what you're doing. * Failure to heed the above warning may result in bricked module. */ //#define RADIOLIB_GODMODE /* * Uncomment to enable low-level hardware access * This will make some hardware methods like SPI get/set accessible from the user sketch - think of it as "god mode lite" * Warning: RadioLib won't stop you from writing invalid stuff into your device, so it's quite easy to brick your module with this. */ //#define RADIOLIB_LOW_LEVEL /* * Uncomment to enable pre-defined modules when using RadioShield. */ //#define RADIOLIB_RADIOSHIELD /* * Uncomment to enable static-only memory management: no dynamic allocation will be performed. * Warning: Large static arrays will be created in some methods. It is not advised to send large packets in this mode. */ //#define RADIOLIB_STATIC_ONLY // set the size of static arrays to use #if !defined(RADIOLIB_STATIC_ARRAY_SIZE) #define RADIOLIB_STATIC_ARRAY_SIZE 256 #endif /*! \brief A simple assert macro, will return on error. */ #define RADIOLIB_ASSERT(STATEVAR) { if((STATEVAR) != ERR_NONE) { return(STATEVAR); } } /*! \brief Macro to check variable is within constraints - this is commonly used to check parameter ranges. Requires RADIOLIB_CHECK_RANGE to be enabled */ #if defined(RADIOLIB_CHECK_PARAMS) #define RADIOLIB_CHECK_RANGE(VAR, MIN, MAX, ERR) { if(!(((VAR) >= (MIN)) && ((VAR) <= (MAX)))) { return(ERR); } } #else #define RADIOLIB_CHECK_RANGE(VAR, MIN, MAX, ERR) {} #endif // version definitions #define RADIOLIB_VERSION_MAJOR (0x04) #define RADIOLIB_VERSION_MINOR (0x06) #define RADIOLIB_VERSION_PATCH (0x00) #define RADIOLIB_VERSION_EXTRA (0x00) #define RADIOLIB_VERSION ((RADIOLIB_VERSION_MAJOR << 24) | (RADIOLIB_VERSION_MINOR << 16) | (RADIOLIB_VERSION_PATCH << 8) | (RADIOLIB_VERSION_EXTRA)) #endif