/* Boards.h - Hardware Abstraction Layer for Firmata library Copyright (c) 2006-2008 Hans-Christoph Steiner. All rights reserved. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. See file LICENSE.txt for further informations on licensing terms. Last updated November 5th, 2015 */ #ifndef Firmata_Boards_h #define Firmata_Boards_h #include #if defined(ARDUINO) && ARDUINO >= 100 #include "Arduino.h" // for digitalRead, digitalWrite, etc #else #include "WProgram.h" #endif // Normally Servo.h must be included before Firmata.h (which then includes // this file). If Servo.h wasn't included, this allows the code to still // compile, but without support for any Servos. Hopefully that's what the // user intended by not including Servo.h #ifndef MAX_SERVOS #define MAX_SERVOS 0 #endif /* Firmata Hardware Abstraction Layer Firmata is built on top of the hardware abstraction functions of Arduino, specifically digitalWrite, digitalRead, analogWrite, analogRead, and pinMode. While these functions offer simple integer pin numbers, Firmata needs more information than is provided by Arduino. This file provides all other hardware specific details. To make Firmata support a new board, only this file should require editing. The key concept is every "pin" implemented by Firmata may be mapped to any pin as implemented by Arduino. Usually a simple 1-to-1 mapping is best, but such mapping should not be assumed. This hardware abstraction layer allows Firmata to implement any number of pins which map onto the Arduino implemented pins in almost any arbitrary way. General Constants: These constants provide basic information Firmata requires. TOTAL_PINS: The total number of pins Firmata implemented by Firmata. Usually this will match the number of pins the Arduino functions implement, including any pins pins capable of analog or digital. However, Firmata may implement any number of pins. For example, on Arduino Mini with 8 analog inputs, 6 of these may be used for digital functions, and 2 are analog only. On such boards, Firmata can implement more pins than Arduino's pinMode() function, in order to accommodate those special pins. The Firmata protocol supports a maximum of 128 pins, so this constant must not exceed 128. TOTAL_ANALOG_PINS: The total number of analog input pins implemented. The Firmata protocol allows up to 16 analog inputs, accessed using offsets 0 to 15. Because Firmata presents the analog inputs using different offsets than the actual pin numbers (a legacy of Arduino's analogRead function, and the way the analog input capable pins are physically labeled on all Arduino boards), the total number of analog input signals must be specified. 16 is the maximum. VERSION_BLINK_PIN: When Firmata starts up, it will blink the version number. This constant is the Arduino pin number where a LED is connected. Pin Mapping Macros: These macros provide the mapping between pins as implemented by Firmata protocol and the actual pin numbers used by the Arduino functions. Even though such mappings are often simple, pin numbers received by Firmata protocol should always be used as input to these macros, and the result of the macro should be used with with any Arduino function. When Firmata is extended to support a new pin mode or feature, a pair of macros should be added and used for all hardware access. For simple 1:1 mapping, these macros add no actual overhead, yet their consistent use allows source code which uses them consistently to be easily adapted to all other boards with different requirements. IS_PIN_XXXX(pin): The IS_PIN macros resolve to true or non-zero if a pin as implemented by Firmata corresponds to a pin that actually implements the named feature. PIN_TO_XXXX(pin): The PIN_TO macros translate pin numbers as implemented by Firmata to the pin numbers needed as inputs to the Arduino functions. The corresponding IS_PIN macro should always be tested before using a PIN_TO macro, so these macros only need to handle valid Firmata pin numbers for the named feature. Port Access Inline Funtions: For efficiency, Firmata protocol provides access to digital input and output pins grouped by 8 bit ports. When these groups of 8 correspond to actual 8 bit ports as implemented by the hardware, these inline functions can provide high speed direct port access. Otherwise, a default implementation using 8 calls to digitalWrite or digitalRead is used. When porting Firmata to a new board, it is recommended to use the default functions first and focus only on the constants and macros above. When those are working, if optimized port access is desired, these inline functions may be extended. The recommended approach defines a symbol indicating which optimization to use, and then conditional complication is used within these functions. readPort(port, bitmask): Read an 8 bit port, returning the value. port: The port number, Firmata pins port*8 to port*8+7 bitmask: The actual pins to read, indicated by 1 bits. writePort(port, value, bitmask): Write an 8 bit port. port: The port number, Firmata pins port*8 to port*8+7 value: The 8 bit value to write bitmask: The actual pins to write, indicated by 1 bits. */ /*============================================================================== * Board Specific Configuration *============================================================================*/ #ifndef digitalPinHasPWM #define digitalPinHasPWM(p) IS_PIN_DIGITAL(p) #endif // Arduino Duemilanove, Diecimila, and NG #if defined(__AVR_ATmega168__) || defined(__AVR_ATmega328P__) || defined(__AVR_ATmega328__) #if defined(NUM_ANALOG_INPUTS) && NUM_ANALOG_INPUTS == 6 #define TOTAL_ANALOG_PINS 6 #define TOTAL_PINS 20 // 14 digital + 6 analog #else #define TOTAL_ANALOG_PINS 8 #define TOTAL_PINS 22 // 14 digital + 8 analog #endif #define VERSION_BLINK_PIN 13 #define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) <= 19) #define IS_PIN_ANALOG(p) ((p) >= 14 && (p) < 14 + TOTAL_ANALOG_PINS) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) (IS_PIN_DIGITAL(p) && (p) - 2 < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 18 || (p) == 19) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 14) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) ((p) - 2) #define ARDUINO_PINOUT_OPTIMIZE 1 // Wiring (and board) #elif defined(WIRING) #define VERSION_BLINK_PIN WLED #define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) < TOTAL_PINS) #define IS_PIN_ANALOG(p) ((p) >= FIRST_ANALOG_PIN && (p) < (FIRST_ANALOG_PIN+TOTAL_ANALOG_PINS)) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == SDA || (p) == SCL) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - FIRST_ANALOG_PIN) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) (p) // old Arduinos #elif defined(__AVR_ATmega8__) #define TOTAL_ANALOG_PINS 6 #define TOTAL_PINS 20 // 14 digital + 6 analog #define VERSION_BLINK_PIN 13 #define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) <= 19) #define IS_PIN_ANALOG(p) ((p) >= 14 && (p) <= 19) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) (IS_PIN_DIGITAL(p) && (p) - 2 < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 18 || (p) == 19) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 14) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) ((p) - 2) #define ARDUINO_PINOUT_OPTIMIZE 1 // Arduino Mega #elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__) #define TOTAL_ANALOG_PINS 16 #define TOTAL_PINS 70 // 54 digital + 16 analog #define VERSION_BLINK_PIN 13 #define PIN_SERIAL1_RX 19 #define PIN_SERIAL1_TX 18 #define PIN_SERIAL2_RX 17 #define PIN_SERIAL2_TX 16 #define PIN_SERIAL3_RX 15 #define PIN_SERIAL3_TX 14 #define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) < TOTAL_PINS) #define IS_PIN_ANALOG(p) ((p) >= 54 && (p) < TOTAL_PINS) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) ((p) >= 2 && (p) - 2 < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 20 || (p) == 21) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define IS_PIN_SERIAL(p) ((p) > 13 && (p) < 20) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 54) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) ((p) - 2) // Arduino DUE #elif defined(__SAM3X8E__) #define TOTAL_ANALOG_PINS 12 #define TOTAL_PINS 66 // 54 digital + 12 analog #define VERSION_BLINK_PIN 13 #define PIN_SERIAL1_RX 19 #define PIN_SERIAL1_TX 18 #define PIN_SERIAL2_RX 17 #define PIN_SERIAL2_TX 16 #define PIN_SERIAL3_RX 15 #define PIN_SERIAL3_TX 14 #define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) < TOTAL_PINS) #define IS_PIN_ANALOG(p) ((p) >= 54 && (p) < TOTAL_PINS) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) ((p) >= 2 && (p) - 2 < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 20 || (p) == 21) // 70 71 #define IS_PIN_SERIAL(p) ((p) > 13 && (p) < 20) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 54) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) ((p) - 2) // Arduino Zero // Note this will work with an Arduino Zero Pro, but not with an Arduino M0 Pro // Arduino M0 Pro does not properly map pins to the board labeled pin numbers #elif defined(_VARIANT_ARDUINO_ZERO_) #define TOTAL_ANALOG_PINS 6 #define TOTAL_PINS 25 // 14 digital + 6 analog + 2 i2c + 3 spi #define TOTAL_PORTS 3 // set when TOTAL_PINS > num digitial I/O pins #define VERSION_BLINK_PIN LED_BUILTIN //#define PIN_SERIAL1_RX 0 // already defined in zero core variant.h //#define PIN_SERIAL1_TX 1 // already defined in zero core variant.h #define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) <= 19) #define IS_PIN_ANALOG(p) ((p) >= 14 && (p) < 14 + TOTAL_ANALOG_PINS) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) (IS_PIN_DIGITAL(p) && (p) < MAX_SERVOS) // deprecated since v2.4 #define IS_PIN_I2C(p) ((p) == 20 || (p) == 21) // SDA = 20, SCL = 21 #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) // SS = A2 #define IS_PIN_SERIAL(p) ((p) == 0 || (p) == 1) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 14) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) (p) // deprecated since v2.4 // Teensy 1.0 #elif defined(__AVR_AT90USB162__) #define TOTAL_ANALOG_PINS 0 #define TOTAL_PINS 21 // 21 digital + no analog #define VERSION_BLINK_PIN 6 #define PIN_SERIAL1_RX 2 #define PIN_SERIAL1_TX 3 #define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) < TOTAL_PINS) #define IS_PIN_ANALOG(p) (0) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS) #define IS_PIN_I2C(p) (0) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define IS_PIN_SERIAL(p) ((p) == 2 || (p) == 3) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) (0) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) (p) // Teensy 2.0 #elif defined(__AVR_ATmega32U4__) && defined(CORE_TEENSY) #define TOTAL_ANALOG_PINS 12 #define TOTAL_PINS 25 // 11 digital + 12 analog #define VERSION_BLINK_PIN 11 #define PIN_SERIAL1_RX 7 #define PIN_SERIAL1_TX 8 #define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) < TOTAL_PINS) #define IS_PIN_ANALOG(p) ((p) >= 11 && (p) <= 22) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 5 || (p) == 6) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define IS_PIN_SERIAL(p) ((p) == 7 || (p) == 8) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) (((p) < 22) ? 21 - (p) : 11) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) (p) // Teensy 3.0, 3.1 and 3.2 #elif defined(__MK20DX128__) || defined(__MK20DX256__) #define TOTAL_ANALOG_PINS 14 #define TOTAL_PINS 38 // 24 digital + 10 analog-digital + 4 analog #define VERSION_BLINK_PIN 13 #define PIN_SERIAL1_RX 0 #define PIN_SERIAL1_TX 1 #define PIN_SERIAL2_RX 9 #define PIN_SERIAL2_TX 10 #define PIN_SERIAL3_RX 7 #define PIN_SERIAL3_TX 8 #define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) <= 33) #define IS_PIN_ANALOG(p) (((p) >= 14 && (p) <= 23) || ((p) >= 34 && (p) <= 38)) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 18 || (p) == 19) #define IS_PIN_SERIAL(p) (((p) > 6 && (p) < 11) || ((p) == 0 || (p) == 1)) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) (((p) <= 23) ? (p) - 14 : (p) - 24) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) (p) // Teensy-LC #elif defined(__MKL26Z64__) #define TOTAL_ANALOG_PINS 13 #define TOTAL_PINS 27 // 27 digital + 13 analog-digital #define VERSION_BLINK_PIN 13 #define PIN_SERIAL1_RX 0 #define PIN_SERIAL1_TX 1 #define PIN_SERIAL2_RX 9 #define PIN_SERIAL2_TX 10 #define PIN_SERIAL3_RX 7 #define PIN_SERIAL3_TX 8 #define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) <= 26) #define IS_PIN_ANALOG(p) ((p) >= 14) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 18 || (p) == 19) #define IS_PIN_SERIAL(p) (((p) > 6 && (p) < 11) || ((p) == 0 || (p) == 1)) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 14) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) (p) // Teensy++ 1.0 and 2.0 #elif defined(__AVR_AT90USB646__) || defined(__AVR_AT90USB1286__) #define TOTAL_ANALOG_PINS 8 #define TOTAL_PINS 46 // 38 digital + 8 analog #define VERSION_BLINK_PIN 6 #define PIN_SERIAL1_RX 2 #define PIN_SERIAL1_TX 3 #define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) < TOTAL_PINS) #define IS_PIN_ANALOG(p) ((p) >= 38 && (p) < TOTAL_PINS) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 0 || (p) == 1) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define IS_PIN_SERIAL(p) ((p) == 2 || (p) == 3) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 38) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) (p) // Leonardo #elif defined(__AVR_ATmega32U4__) #define TOTAL_ANALOG_PINS 12 #define TOTAL_PINS 30 // 14 digital + 12 analog + 4 SPI (D14-D17 on ISP header) #define VERSION_BLINK_PIN 13 #define PIN_SERIAL1_RX 0 #define PIN_SERIAL1_TX 1 #define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) < TOTAL_PINS) #define IS_PIN_ANALOG(p) ((p) >= 18 && (p) < TOTAL_PINS) #define IS_PIN_PWM(p) ((p) == 3 || (p) == 5 || (p) == 6 || (p) == 9 || (p) == 10 || (p) == 11 || (p) == 13) #define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 2 || (p) == 3) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define IS_PIN_SERIAL(p) ((p) == 0 || (p) == 1) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) (p) - 18 #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) (p) // Intel Galileo Board (gen 1 and 2) and Intel Edison #elif defined(ARDUINO_LINUX) #define TOTAL_ANALOG_PINS 6 #define TOTAL_PINS 20 // 14 digital + 6 analog #define VERSION_BLINK_PIN 13 #define PIN_SERIAL1_RX 0 #define PIN_SERIAL1_TX 1 #define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) <= 19) #define IS_PIN_ANALOG(p) ((p) >= 14 && (p) <= 19) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) (IS_PIN_DIGITAL(p) && (p) - 2 < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == SDA || (p) == SCL) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define IS_PIN_SERIAL(p) ((p) == 0 || (p) == 1) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 14) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) ((p) - 2) // Sanguino #elif defined(__AVR_ATmega644P__) || defined(__AVR_ATmega644__) #define TOTAL_ANALOG_PINS 8 #define TOTAL_PINS 32 // 24 digital + 8 analog #define VERSION_BLINK_PIN 0 #define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) < TOTAL_PINS) #define IS_PIN_ANALOG(p) ((p) >= 24 && (p) < TOTAL_PINS) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 16 || (p) == 17) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 24) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) ((p) - 2) // Illuminato #elif defined(__AVR_ATmega645__) #define TOTAL_ANALOG_PINS 6 #define TOTAL_PINS 42 // 36 digital + 6 analog #define VERSION_BLINK_PIN 13 #define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) < TOTAL_PINS) #define IS_PIN_ANALOG(p) ((p) >= 36 && (p) < TOTAL_PINS) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS) #define IS_PIN_I2C(p) ((p) == 4 || (p) == 5) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 36) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) ((p) - 2) // Pic32 chipKIT FubarinoSD #elif defined(_BOARD_FUBARINO_SD_) #define TOTAL_ANALOG_PINS NUM_ANALOG_PINS // 15 #define TOTAL_PINS NUM_DIGITAL_PINS // 45, All pins can be digital #define MAX_SERVOS NUM_DIGITAL_PINS #define VERSION_BLINK_PIN PIN_LED1 #define IS_PIN_DIGITAL(p) 1 #define IS_PIN_ANALOG(p) ((p) >= 30 && (p) <= 44) #define IS_PIN_PWM(p) IS_PIN_DIGITAL(p) #define IS_PIN_SERVO(p) IS_PIN_DIGITAL(p) #define IS_PIN_I2C(p) ((p) == 1 || (p) == 2) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) (14 - (p - 30)) #define PIN_TO_PWM(p) (p) #define PIN_TO_SERVO(p) (p) // Pic32 chipKIT FubarinoMini // Note, FubarinoMini analog pin 20 will not function in Firmata as analog input due to limitation in analog mapping #elif defined(_BOARD_FUBARINO_MINI_) #define TOTAL_ANALOG_PINS 14 // We have to fake this because of the poor analog pin mapping planning in FubarinoMini #define TOTAL_PINS NUM_DIGITAL_PINS // 33 #define MAX_SERVOS NUM_DIGITAL_PINS #define VERSION_BLINK_PIN PIN_LED1 #define IS_PIN_DIGITAL(p) ((p) != 14 && (p) != 15 && (p) != 31 && (p) != 32) #define IS_PIN_ANALOG(p) ((p) == 0 || ((p) >= 3 && (p) <= 13)) #define IS_PIN_PWM(p) IS_PIN_DIGITAL(p) #define IS_PIN_SERVO(p) IS_PIN_DIGITAL(p) #define IS_PIN_I2C(p) ((p) == 25 || (p) == 26) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) (p) #define PIN_TO_PWM(p) (p) #define PIN_TO_SERVO(p) (p) // Pic32 chipKIT UNO32 #elif defined(_BOARD_UNO_) && defined(__PIC32) // NOTE: no _BOARD_UNO32_ to use #define TOTAL_ANALOG_PINS NUM_ANALOG_PINS // 12 #define TOTAL_PINS NUM_DIGITAL_PINS // 47 All pins can be digital #define MAX_SERVOS NUM_DIGITAL_PINS // All pins can be servo with SoftPWMservo #define VERSION_BLINK_PIN PIN_LED1 #define IS_PIN_DIGITAL(p) ((p) >= 2) #define IS_PIN_ANALOG(p) ((p) >= 14 && (p) <= 25) #define IS_PIN_PWM(p) IS_PIN_DIGITAL(p) #define IS_PIN_SERVO(p) IS_PIN_DIGITAL(p) #define IS_PIN_I2C(p) ((p) == 45 || (p) == 46) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 14) #define PIN_TO_PWM(p) (p) #define PIN_TO_SERVO(p) (p) // Pic32 chipKIT DP32 #elif defined(_BOARD_DP32_) #define TOTAL_ANALOG_PINS 15 // Really only has 9, but have to override because of mistake in variant file #define TOTAL_PINS NUM_DIGITAL_PINS // 19 #define MAX_SERVOS NUM_DIGITAL_PINS // All pins can be servo with SoftPWMservo #define VERSION_BLINK_PIN PIN_LED1 #define IS_PIN_DIGITAL(p) (((p) != 1) && ((p) != 4) && ((p) != 5) && ((p) != 15) && ((p) != 16)) #define IS_PIN_ANALOG(p) ((p) >= 6 && (p) <= 14) #define IS_PIN_PWM(p) IS_PIN_DIGITAL(p) #define IS_PIN_SERVO(p) IS_PIN_DIGITAL(p) #define IS_PIN_I2C(p) ((p) == 2 || (p) == 3) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) (p) #define PIN_TO_PWM(p) (p) #define PIN_TO_SERVO(p) (p) // Pic32 chipKIT uC32 #elif defined(_BOARD_UC32_) #define TOTAL_ANALOG_PINS NUM_ANALOG_PINS // 12 #define TOTAL_PINS NUM_DIGITAL_PINS // 47 All pins can be digital #define MAX_SERVOS NUM_DIGITAL_PINS // All pins can be servo with SoftPWMservo #define VERSION_BLINK_PIN PIN_LED1 #define IS_PIN_DIGITAL(p) ((p) >= 2) #define IS_PIN_ANALOG(p) ((p) >= 14 && (p) <= 25) #define IS_PIN_PWM(p) IS_PIN_DIGITAL(p) #define IS_PIN_SERVO(p) IS_PIN_DIGITAL(p) #define IS_PIN_I2C(p) ((p) == 45 || (p) == 46) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 14) #define PIN_TO_PWM(p) (p) #define PIN_TO_SERVO(p) (p) // Pic32 chipKIT WF32 #elif defined(_BOARD_WF32_) #define TOTAL_ANALOG_PINS NUM_ANALOG_PINS #define TOTAL_PINS NUM_DIGITAL_PINS #define MAX_SERVOS NUM_DIGITAL_PINS #define VERSION_BLINK_PIN PIN_LED1 #define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) <= 49) // Accounts for SD and WiFi dedicated pins #define IS_PIN_ANALOG(p) ((p) >= 14 && (p) <= 25) #define IS_PIN_PWM(p) IS_PIN_DIGITAL(p) #define IS_PIN_SERVO(p) IS_PIN_DIGITAL(p) #define IS_PIN_I2C(p) ((p) == 34 || (p) == 35) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 14) #define PIN_TO_PWM(p) (p) #define PIN_TO_SERVO(p) (p) // Pic32 chipKIT WiFire #elif defined(_BOARD_WIFIRE_) #define TOTAL_ANALOG_PINS NUM_ANALOG_PINS // 14 #define TOTAL_PINS NUM_DIGITAL_PINS // 71 #define MAX_SERVOS NUM_DIGITAL_PINS #define VERSION_BLINK_PIN PIN_LED1 #define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) <= 47) // Accounts for SD and WiFi dedicated pins #define IS_PIN_ANALOG(p) ((p) >= 14 && (p) <= 25) #define IS_PIN_PWM(p) IS_PIN_DIGITAL(p) #define IS_PIN_SERVO(p) IS_PIN_DIGITAL(p) #define IS_PIN_I2C(p) ((p) == 34 || (p) == 35) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) <= 25 ? ((p) - 14) : (p) - 36) #define PIN_TO_PWM(p) (p) #define PIN_TO_SERVO(p) (p) // Pic32 chipKIT MAX32 #elif defined(_BOARD_MEGA_) && defined(__PIC32) // NOTE: no _BOARD_MAX32_ to use #define TOTAL_ANALOG_PINS NUM_ANALOG_PINS // 16 #define TOTAL_PINS NUM_DIGITAL_PINS // 87 #define MAX_SERVOS NUM_DIGITAL_PINS #define VERSION_BLINK_PIN PIN_LED1 #define IS_PIN_DIGITAL(p) ((p) >= 2) #define IS_PIN_ANALOG(p) ((p) >= 54 && (p) <= 69) #define IS_PIN_PWM(p) IS_PIN_DIGITAL(p) #define IS_PIN_SERVO(p) IS_PIN_DIGITAL(p) #define IS_PIN_I2C(p) ((p) == 34 || (p) == 35) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 54) #define PIN_TO_PWM(p) (p) #define PIN_TO_SERVO(p) (p) // Pic32 chipKIT Pi #elif defined(_BOARD_CHIPKIT_PI_) #define TOTAL_ANALOG_PINS 16 #define TOTAL_PINS NUM_DIGITAL_PINS // 19 #define MAX_SERVOS NUM_DIGITAL_PINS #define VERSION_BLINK_PIN PIN_LED1 #define IS_PIN_DIGITAL(p) (((p) >= 2) && ((p) <= 3) || (((p) >= 8) && ((p) <= 13)) || (((p) >= 14) && ((p) <= 17))) #define IS_PIN_ANALOG(p) ((p) >= 14 && (p) <= 17) #define IS_PIN_PWM(p) IS_PIN_DIGITAL(p) #define IS_PIN_SERVO(p) IS_PIN_DIGITAL(p) #define IS_PIN_I2C(p) ((p) == 16 || (p) == 17) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) <= 15 ? (p) - 14 : (p) - 12) //#define PIN_TO_ANALOG(p) (((p) <= 16) ? ((p) - 14) : ((p) - 16)) #define PIN_TO_PWM(p) (p) #define PIN_TO_SERVO(p) (p) // Pinoccio Scout // Note: digital pins 9-16 are usable but not labeled on the board numerically. // SS=9, MOSI=10, MISO=11, SCK=12, RX1=13, TX1=14, SCL=15, SDA=16 #elif defined(ARDUINO_PINOCCIO) #define TOTAL_ANALOG_PINS 8 #define TOTAL_PINS NUM_DIGITAL_PINS // 32 #define VERSION_BLINK_PIN 23 #define PIN_SERIAL1_RX 13 #define PIN_SERIAL1_TX 14 #define IS_PIN_DIGITAL(p) (((p) >= 2) && ((p) <= 16)) || (((p) >= 24) && ((p) <= 31)) #define IS_PIN_ANALOG(p) ((p) >= 24 && (p) <= 31) #define IS_PIN_PWM(p) digitalPinHasPWM(p) #define IS_PIN_SERVO(p) IS_PIN_DIGITAL(p) #define IS_PIN_I2C(p) ((p) == SCL || (p) == SDA) #define IS_PIN_SPI(p) ((p) == SS || (p) == MOSI || (p) == MISO || (p) == SCK) #define IS_PIN_SERIAL(p) ((p) == 13 || (p) == 14) #define PIN_TO_DIGITAL(p) (p) #define PIN_TO_ANALOG(p) ((p) - 24) #define PIN_TO_PWM(p) PIN_TO_DIGITAL(p) #define PIN_TO_SERVO(p) ((p) - 2) // anything else #else #error "Please edit Boards.h with a hardware abstraction for this board" #endif // as long this is not defined for all boards: #ifndef IS_PIN_SPI #define IS_PIN_SPI(p) 0 #endif #ifndef IS_PIN_SERIAL #define IS_PIN_SERIAL(p) 0 #endif /*============================================================================== * readPort() - Read an 8 bit port *============================================================================*/ static inline unsigned char readPort(byte, byte) __attribute__((always_inline, unused)); static inline unsigned char readPort(byte port, byte bitmask) { #if defined(ARDUINO_PINOUT_OPTIMIZE) if (port == 0) return (PIND & 0xFC) & bitmask; // ignore Rx/Tx 0/1 if (port == 1) return ((PINB & 0x3F) | ((PINC & 0x03) << 6)) & bitmask; if (port == 2) return ((PINC & 0x3C) >> 2) & bitmask; return 0; #else unsigned char out = 0, pin = port * 8; if (IS_PIN_DIGITAL(pin + 0) && (bitmask & 0x01) && digitalRead(PIN_TO_DIGITAL(pin + 0))) out |= 0x01; if (IS_PIN_DIGITAL(pin + 1) && (bitmask & 0x02) && digitalRead(PIN_TO_DIGITAL(pin + 1))) out |= 0x02; if (IS_PIN_DIGITAL(pin + 2) && (bitmask & 0x04) && digitalRead(PIN_TO_DIGITAL(pin + 2))) out |= 0x04; if (IS_PIN_DIGITAL(pin + 3) && (bitmask & 0x08) && digitalRead(PIN_TO_DIGITAL(pin + 3))) out |= 0x08; if (IS_PIN_DIGITAL(pin + 4) && (bitmask & 0x10) && digitalRead(PIN_TO_DIGITAL(pin + 4))) out |= 0x10; if (IS_PIN_DIGITAL(pin + 5) && (bitmask & 0x20) && digitalRead(PIN_TO_DIGITAL(pin + 5))) out |= 0x20; if (IS_PIN_DIGITAL(pin + 6) && (bitmask & 0x40) && digitalRead(PIN_TO_DIGITAL(pin + 6))) out |= 0x40; if (IS_PIN_DIGITAL(pin + 7) && (bitmask & 0x80) && digitalRead(PIN_TO_DIGITAL(pin + 7))) out |= 0x80; return out; #endif } /*============================================================================== * writePort() - Write an 8 bit port, only touch pins specified by a bitmask *============================================================================*/ static inline unsigned char writePort(byte, byte, byte) __attribute__((always_inline, unused)); static inline unsigned char writePort(byte port, byte value, byte bitmask) { #if defined(ARDUINO_PINOUT_OPTIMIZE) if (port == 0) { bitmask = bitmask & 0xFC; // do not touch Tx & Rx pins byte valD = value & bitmask; byte maskD = ~bitmask; cli(); PORTD = (PORTD & maskD) | valD; sei(); } else if (port == 1) { byte valB = (value & bitmask) & 0x3F; byte valC = (value & bitmask) >> 6; byte maskB = ~(bitmask & 0x3F); byte maskC = ~((bitmask & 0xC0) >> 6); cli(); PORTB = (PORTB & maskB) | valB; PORTC = (PORTC & maskC) | valC; sei(); } else if (port == 2) { bitmask = bitmask & 0x0F; byte valC = (value & bitmask) << 2; byte maskC = ~(bitmask << 2); cli(); PORTC = (PORTC & maskC) | valC; sei(); } return 1; #else byte pin = port * 8; if ((bitmask & 0x01)) digitalWrite(PIN_TO_DIGITAL(pin + 0), (value & 0x01)); if ((bitmask & 0x02)) digitalWrite(PIN_TO_DIGITAL(pin + 1), (value & 0x02)); if ((bitmask & 0x04)) digitalWrite(PIN_TO_DIGITAL(pin + 2), (value & 0x04)); if ((bitmask & 0x08)) digitalWrite(PIN_TO_DIGITAL(pin + 3), (value & 0x08)); if ((bitmask & 0x10)) digitalWrite(PIN_TO_DIGITAL(pin + 4), (value & 0x10)); if ((bitmask & 0x20)) digitalWrite(PIN_TO_DIGITAL(pin + 5), (value & 0x20)); if ((bitmask & 0x40)) digitalWrite(PIN_TO_DIGITAL(pin + 6), (value & 0x40)); if ((bitmask & 0x80)) digitalWrite(PIN_TO_DIGITAL(pin + 7), (value & 0x80)); return 1; #endif } #ifndef TOTAL_PORTS #define TOTAL_PORTS ((TOTAL_PINS + 7) / 8) #endif #endif /* Firmata_Boards_h */