/* Firmata is a generic protocol for communicating with microcontrollers from software on a host computer. It is intended to work with any host computer software package. To download a host software package, please click on the following link to open the list of Firmata client libraries in your default browser. https://github.com/firmata/arduino#firmata-client-libraries Copyright (C) 2006-2008 Hans-Christoph Steiner. All rights reserved. Copyright (C) 2010-2011 Paul Stoffregen. All rights reserved. Copyright (C) 2009 Shigeru Kobayashi. All rights reserved. Copyright (C) 2009-2016 Jeff Hoefs. All rights reserved. Copyright (C) 2015 Brian Schmalz. 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 October 16th, 2016 */ #include // Gives us PWM and Servo on every pin #include #include #define I2C_WRITE B00000000 #define I2C_READ B00001000 #define I2C_READ_CONTINUOUSLY B00010000 #define I2C_STOP_READING B00011000 #define I2C_READ_WRITE_MODE_MASK B00011000 #define I2C_10BIT_ADDRESS_MODE_MASK B00100000 #define I2C_END_TX_MASK B01000000 #define I2C_STOP_TX 1 #define I2C_RESTART_TX 0 #define I2C_MAX_QUERIES 8 #define I2C_REGISTER_NOT_SPECIFIED -1 // the minimum interval for sampling analog input #define MINIMUM_SAMPLING_INTERVAL 1 /*============================================================================== * GLOBAL VARIABLES *============================================================================*/ /* analog inputs */ int analogInputsToReport = 0; // bitwise array to store pin reporting /* digital input ports */ byte reportPINs[TOTAL_PORTS]; // 1 = report this port, 0 = silence byte previousPINs[TOTAL_PORTS]; // previous 8 bits sent /* pins configuration */ byte portConfigInputs[TOTAL_PORTS]; // each bit: 1 = pin in INPUT, 0 = anything else /* timer variables */ unsigned long currentMillis; // store the current value from millis() unsigned long previousMillis; // for comparison with currentMillis unsigned int samplingInterval = 19; // how often to run the main loop (in ms) /* i2c data */ struct i2c_device_info { byte addr; int reg; byte bytes; byte stopTX; }; /* for i2c read continuous more */ i2c_device_info query[I2C_MAX_QUERIES]; byte i2cRxData[64]; boolean isI2CEnabled = false; signed char queryIndex = -1; // default delay time between i2c read request and Wire.requestFrom() unsigned int i2cReadDelayTime = 0; SoftServo servos[MAX_SERVOS]; byte servoPinMap[TOTAL_PINS]; byte detachedServos[MAX_SERVOS]; byte detachedServoCount = 0; byte servoCount = 0; boolean isResetting = false; // Forward declare a few functions to avoid compiler errors with older versions // of the Arduino IDE. void setPinModeCallback(byte, int); void reportAnalogCallback(byte analogPin, int value); void sysexCallback(byte, byte, byte*); /* utility functions */ void wireWrite(byte data) { #if ARDUINO >= 100 Wire.write((byte)data); #else Wire.send(data); #endif } byte wireRead(void) { #if ARDUINO >= 100 return Wire.read(); #else return Wire.receive(); #endif } /*============================================================================== * FUNCTIONS *============================================================================*/ void attachServo(byte pin, int minPulse, int maxPulse) { if (servoCount < MAX_SERVOS) { // reuse indexes of detached servos until all have been reallocated if (detachedServoCount > 0) { servoPinMap[pin] = detachedServos[detachedServoCount - 1]; if (detachedServoCount > 0) detachedServoCount--; } else { servoPinMap[pin] = servoCount; servoCount++; } if (minPulse > 0 && maxPulse > 0) { servos[servoPinMap[pin]].attach(PIN_TO_DIGITAL(pin), minPulse, maxPulse); } else { servos[servoPinMap[pin]].attach(PIN_TO_DIGITAL(pin)); } } else { Firmata.sendString("Max servos attached"); } } void detachServo(byte pin) { servos[servoPinMap[pin]].detach(); // if we're detaching the last servo, decrement the count // otherwise store the index of the detached servo if (servoPinMap[pin] == servoCount && servoCount > 0) { servoCount--; } else if (servoCount > 0) { // keep track of detached servos because we want to reuse their indexes // before incrementing the count of attached servos detachedServoCount++; detachedServos[detachedServoCount - 1] = servoPinMap[pin]; } servoPinMap[pin] = 255; } void enableI2CPins() { byte i; // is there a faster way to do this? would probaby require importing // Arduino.h to get SCL and SDA pins for (i = 0; i < TOTAL_PINS; i++) { if (IS_PIN_I2C(i)) { // mark pins as i2c so they are ignore in non i2c data requests setPinModeCallback(i, PIN_MODE_I2C); } } isI2CEnabled = true; Wire.begin(); } /* disable the i2c pins so they can be used for other functions */ void disableI2CPins() { isI2CEnabled = false; // disable read continuous mode for all devices queryIndex = -1; } void readAndReportData(byte address, int theRegister, byte numBytes, byte stopTX) { // allow I2C requests that don't require a register read // for example, some devices using an interrupt pin to signify new data available // do not always require the register read so upon interrupt you call Wire.requestFrom() if (theRegister != I2C_REGISTER_NOT_SPECIFIED) { Wire.beginTransmission(address); wireWrite((byte)theRegister); Wire.endTransmission(stopTX); // default = true // do not set a value of 0 if (i2cReadDelayTime > 0) { // delay is necessary for some devices such as WiiNunchuck delayMicroseconds(i2cReadDelayTime); } } else { theRegister = 0; // fill the register with a dummy value } Wire.requestFrom(address, numBytes); // all bytes are returned in requestFrom // check to be sure correct number of bytes were returned by slave if (numBytes < Wire.available()) { Firmata.sendString("I2C: Too many bytes received"); } else if (numBytes > Wire.available()) { Firmata.sendString("I2C: Too few bytes received"); } i2cRxData[0] = address; i2cRxData[1] = theRegister; for (int i = 0; i < numBytes && Wire.available(); i++) { i2cRxData[2 + i] = wireRead(); } // send slave address, register and received bytes Firmata.sendSysex(SYSEX_I2C_REPLY, numBytes + 2, i2cRxData); } void outputPort(byte portNumber, byte portValue, byte forceSend) { // pins not configured as INPUT are cleared to zeros portValue = portValue & portConfigInputs[portNumber]; // only send if the value is different than previously sent if (forceSend || previousPINs[portNumber] != portValue) { Firmata.sendDigitalPort(portNumber, portValue); previousPINs[portNumber] = portValue; } } /* ----------------------------------------------------------------------------- * check all the active digital inputs for change of state, then add any events * to the Serial output queue using Serial.print() */ void checkDigitalInputs(void) { /* Using non-looping code allows constants to be given to readPort(). * The compiler will apply substantial optimizations if the inputs * to readPort() are compile-time constants. */ if (TOTAL_PORTS > 0 && reportPINs[0]) outputPort(0, readPort(0, portConfigInputs[0]), false); if (TOTAL_PORTS > 1 && reportPINs[1]) outputPort(1, readPort(1, portConfigInputs[1]), false); if (TOTAL_PORTS > 2 && reportPINs[2]) outputPort(2, readPort(2, portConfigInputs[2]), false); if (TOTAL_PORTS > 3 && reportPINs[3]) outputPort(3, readPort(3, portConfigInputs[3]), false); if (TOTAL_PORTS > 4 && reportPINs[4]) outputPort(4, readPort(4, portConfigInputs[4]), false); if (TOTAL_PORTS > 5 && reportPINs[5]) outputPort(5, readPort(5, portConfigInputs[5]), false); if (TOTAL_PORTS > 6 && reportPINs[6]) outputPort(6, readPort(6, portConfigInputs[6]), false); if (TOTAL_PORTS > 7 && reportPINs[7]) outputPort(7, readPort(7, portConfigInputs[7]), false); if (TOTAL_PORTS > 8 && reportPINs[8]) outputPort(8, readPort(8, portConfigInputs[8]), false); if (TOTAL_PORTS > 9 && reportPINs[9]) outputPort(9, readPort(9, portConfigInputs[9]), false); if (TOTAL_PORTS > 10 && reportPINs[10]) outputPort(10, readPort(10, portConfigInputs[10]), false); if (TOTAL_PORTS > 11 && reportPINs[11]) outputPort(11, readPort(11, portConfigInputs[11]), false); if (TOTAL_PORTS > 12 && reportPINs[12]) outputPort(12, readPort(12, portConfigInputs[12]), false); if (TOTAL_PORTS > 13 && reportPINs[13]) outputPort(13, readPort(13, portConfigInputs[13]), false); if (TOTAL_PORTS > 14 && reportPINs[14]) outputPort(14, readPort(14, portConfigInputs[14]), false); if (TOTAL_PORTS > 15 && reportPINs[15]) outputPort(15, readPort(15, portConfigInputs[15]), false); } // ----------------------------------------------------------------------------- /* Sets a pin that is in Servo mode to a particular output value * (i.e. pulse width). Different boards may have different ways of * setting servo values, so putting it in a function keeps things cleaner. */ void servoWrite(byte pin, int value) { SoftPWMServoPWMWrite(PIN_TO_PWM(pin), value); } // ----------------------------------------------------------------------------- /* sets the pin mode to the correct state and sets the relevant bits in the * two bit-arrays that track Digital I/O and PWM status */ void setPinModeCallback(byte pin, int mode) { if (Firmata.getPinMode(pin) == PIN_MODE_IGNORE) return; if (Firmata.getPinMode(pin) == PIN_MODE_I2C && isI2CEnabled && mode != PIN_MODE_I2C) { // disable i2c so pins can be used for other functions // the following if statements should reconfigure the pins properly disableI2CPins(); } if (IS_PIN_DIGITAL(pin) && mode != PIN_MODE_SERVO) { if (servoPinMap[pin] < MAX_SERVOS && servos[servoPinMap[pin]].attached()) { detachServo(pin); } } if (IS_PIN_ANALOG(pin)) { reportAnalogCallback(PIN_TO_ANALOG(pin), mode == PIN_MODE_ANALOG ? 1 : 0); // turn on/off reporting } if (IS_PIN_DIGITAL(pin)) { if (mode == INPUT || mode == PIN_MODE_PULLUP) { portConfigInputs[pin / 8] |= (1 << (pin & 7)); } else { portConfigInputs[pin / 8] &= ~(1 << (pin & 7)); } } Firmata.setPinState(pin, 0); switch (mode) { case PIN_MODE_ANALOG: if (IS_PIN_ANALOG(pin)) { if (IS_PIN_DIGITAL(pin)) { pinMode(PIN_TO_DIGITAL(pin), INPUT); // disable output driver #if ARDUINO <= 100 // deprecated since Arduino 1.0.1 - TODO: drop support in Firmata 2.6 digitalWrite(PIN_TO_DIGITAL(pin), LOW); // disable internal pull-ups #endif } Firmata.setPinMode(pin, PIN_MODE_ANALOG); } break; case INPUT: if (IS_PIN_DIGITAL(pin)) { pinMode(PIN_TO_DIGITAL(pin), INPUT); // disable output driver #if ARDUINO <= 100 // deprecated since Arduino 1.0.1 - TODO: drop support in Firmata 2.6 digitalWrite(PIN_TO_DIGITAL(pin), LOW); // disable internal pull-ups #endif Firmata.setPinMode(pin, INPUT); } break; case PIN_MODE_PULLUP: if (IS_PIN_DIGITAL(pin)) { pinMode(PIN_TO_DIGITAL(pin), INPUT_PULLUP); Firmata.setPinMode(pin, PIN_MODE_PULLUP); Firmata.setPinState(pin, 1); } break; case OUTPUT: if (IS_PIN_DIGITAL(pin)) { if (Firmata.getPinMode(pin) == PIN_MODE_PWM) { // Disable PWM if pin mode was previously set to PWM. digitalWrite(PIN_TO_DIGITAL(pin), LOW); } pinMode(PIN_TO_DIGITAL(pin), OUTPUT); Firmata.setPinMode(pin, OUTPUT); } break; case PIN_MODE_PWM: if (IS_PIN_PWM(pin)) { pinMode(PIN_TO_PWM(pin), OUTPUT); servoWrite(PIN_TO_PWM(pin), 0); Firmata.setPinMode(pin, PIN_MODE_PWM); } break; case PIN_MODE_SERVO: if (IS_PIN_DIGITAL(pin)) { Firmata.setPinMode(pin, PIN_MODE_SERVO); if (servoPinMap[pin] == 255 || !servos[servoPinMap[pin]].attached()) { // pass -1 for min and max pulse values to use default values set // by Servo library attachServo(pin, -1, -1); } } break; case PIN_MODE_I2C: if (IS_PIN_I2C(pin)) { // mark the pin as i2c // the user must call I2C_CONFIG to enable I2C for a device Firmata.setPinMode(pin, PIN_MODE_I2C); } break; default: Firmata.sendString("Unknown pin mode"); // TODO: put error msgs in EEPROM } // TODO: save status to EEPROM here, if changed } /* * Sets the value of an individual pin. Useful if you want to set a pin value but * are not tracking the digital port state. * Can only be used on pins configured as OUTPUT. * Cannot be used to enable pull-ups on Digital INPUT pins. */ void setPinValueCallback(byte pin, int value) { if (pin < TOTAL_PINS && IS_PIN_DIGITAL(pin)) { if (Firmata.getPinMode(pin) == OUTPUT) { Firmata.setPinState(pin, value); digitalWrite(PIN_TO_DIGITAL(pin), value); } } } void analogWriteCallback(byte pin, int value) { if (pin < TOTAL_PINS) { switch (Firmata.getPinMode(pin)) { case PIN_MODE_SERVO: if (IS_PIN_DIGITAL(pin)) servos[servoPinMap[pin]].write(value); Firmata.setPinState(pin, value); break; case PIN_MODE_PWM: if (IS_PIN_PWM(pin)) servoWrite(PIN_TO_PWM(pin), value); Firmata.setPinState(pin, value); break; } } } void digitalWriteCallback(byte port, int value) { byte pin, lastPin, pinValue, mask = 1, pinWriteMask = 0; if (port < TOTAL_PORTS) { // create a mask of the pins on this port that are writable. lastPin = port * 8 + 8; if (lastPin > TOTAL_PINS) lastPin = TOTAL_PINS; for (pin = port * 8; pin < lastPin; pin++) { // do not disturb non-digital pins (eg, Rx & Tx) if (IS_PIN_DIGITAL(pin)) { // do not touch pins in PWM, ANALOG, SERVO or other modes if (Firmata.getPinMode(pin) == OUTPUT || Firmata.getPinMode(pin) == INPUT) { pinValue = ((byte)value & mask) ? 1 : 0; if (Firmata.getPinMode(pin) == OUTPUT) { pinWriteMask |= mask; } else if (Firmata.getPinMode(pin) == INPUT && pinValue == 1 && Firmata.getPinState(pin) != 1) { // only handle INPUT here for backwards compatibility #if ARDUINO > 100 pinMode(pin, INPUT_PULLUP); #else // only write to the INPUT pin to enable pullups if Arduino v1.0.0 or earlier pinWriteMask |= mask; #endif } Firmata.setPinState(pin, pinValue); } } mask = mask << 1; } writePort(port, (byte)value, pinWriteMask); } } // ----------------------------------------------------------------------------- /* sets bits in a bit array (int) to toggle the reporting of the analogIns */ //void FirmataClass::setAnalogPinReporting(byte pin, byte state) { //} void reportAnalogCallback(byte analogPin, int value) { if (analogPin < TOTAL_ANALOG_PINS) { if (value == 0) { analogInputsToReport = analogInputsToReport & ~ (1 << analogPin); } else { analogInputsToReport = analogInputsToReport | (1 << analogPin); // prevent during system reset or all analog pin values will be reported // which may report noise for unconnected analog pins if (!isResetting) { // Send pin value immediately. This is helpful when connected via // ethernet, wi-fi or bluetooth so pin states can be known upon // reconnecting. Firmata.sendAnalog(analogPin, analogRead(analogPin)); } } } // TODO: save status to EEPROM here, if changed } void reportDigitalCallback(byte port, int value) { if (port < TOTAL_PORTS) { reportPINs[port] = (byte)value; // Send port value immediately. This is helpful when connected via // ethernet, wi-fi or bluetooth so pin states can be known upon // reconnecting. if (value) outputPort(port, readPort(port, portConfigInputs[port]), true); } // do not disable analog reporting on these 8 pins, to allow some // pins used for digital, others analog. Instead, allow both types // of reporting to be enabled, but check if the pin is configured // as analog when sampling the analog inputs. Likewise, while // scanning digital pins, portConfigInputs will mask off values from any // pins configured as analog } /*============================================================================== * SYSEX-BASED commands *============================================================================*/ void sysexCallback(byte command, byte argc, byte *argv) { byte mode; byte stopTX; byte slaveAddress; byte data; int slaveRegister; unsigned int delayTime; switch (command) { case I2C_REQUEST: mode = argv[1] & I2C_READ_WRITE_MODE_MASK; if (argv[1] & I2C_10BIT_ADDRESS_MODE_MASK) { Firmata.sendString("10-bit addressing not supported"); return; } else { slaveAddress = argv[0]; } // need to invert the logic here since 0 will be default for client // libraries that have not updated to add support for restart tx if (argv[1] & I2C_END_TX_MASK) { stopTX = I2C_RESTART_TX; } else { stopTX = I2C_STOP_TX; // default } switch (mode) { case I2C_WRITE: Wire.beginTransmission(slaveAddress); for (byte i = 2; i < argc; i += 2) { data = argv[i] + (argv[i + 1] << 7); wireWrite(data); } Wire.endTransmission(); delayMicroseconds(70); break; case I2C_READ: if (argc == 6) { // a slave register is specified slaveRegister = argv[2] + (argv[3] << 7); data = argv[4] + (argv[5] << 7); // bytes to read } else { // a slave register is NOT specified slaveRegister = I2C_REGISTER_NOT_SPECIFIED; data = argv[2] + (argv[3] << 7); // bytes to read } readAndReportData(slaveAddress, (int)slaveRegister, data, stopTX); break; case I2C_READ_CONTINUOUSLY: if ((queryIndex + 1) >= I2C_MAX_QUERIES) { // too many queries, just ignore Firmata.sendString("too many queries"); break; } if (argc == 6) { // a slave register is specified slaveRegister = argv[2] + (argv[3] << 7); data = argv[4] + (argv[5] << 7); // bytes to read } else { // a slave register is NOT specified slaveRegister = (int)I2C_REGISTER_NOT_SPECIFIED; data = argv[2] + (argv[3] << 7); // bytes to read } queryIndex++; query[queryIndex].addr = slaveAddress; query[queryIndex].reg = slaveRegister; query[queryIndex].bytes = data; query[queryIndex].stopTX = stopTX; break; case I2C_STOP_READING: byte queryIndexToSkip; // if read continuous mode is enabled for only 1 i2c device, disable // read continuous reporting for that device if (queryIndex <= 0) { queryIndex = -1; } else { queryIndexToSkip = 0; // if read continuous mode is enabled for multiple devices, // determine which device to stop reading and remove it's data from // the array, shifiting other array data to fill the space for (byte i = 0; i < queryIndex + 1; i++) { if (query[i].addr == slaveAddress) { queryIndexToSkip = i; break; } } for (byte i = queryIndexToSkip; i < queryIndex + 1; i++) { if (i < I2C_MAX_QUERIES) { query[i].addr = query[i + 1].addr; query[i].reg = query[i + 1].reg; query[i].bytes = query[i + 1].bytes; query[i].stopTX = query[i + 1].stopTX; } } queryIndex--; } break; default: break; } break; case I2C_CONFIG: delayTime = (argv[0] + (argv[1] << 7)); if (delayTime > 0) { i2cReadDelayTime = delayTime; } if (!isI2CEnabled) { enableI2CPins(); } break; case SERVO_CONFIG: if (argc > 4) { // these vars are here for clarity, they'll optimized away by the compiler byte pin = argv[0]; int minPulse = argv[1] + (argv[2] << 7); int maxPulse = argv[3] + (argv[4] << 7); if (IS_PIN_DIGITAL(pin)) { if (servoPinMap[pin] < MAX_SERVOS && servos[servoPinMap[pin]].attached()) { detachServo(pin); } attachServo(pin, minPulse, maxPulse); setPinModeCallback(pin, PIN_MODE_SERVO); } } break; case SAMPLING_INTERVAL: if (argc > 1) { samplingInterval = argv[0] + (argv[1] << 7); if (samplingInterval < MINIMUM_SAMPLING_INTERVAL) { samplingInterval = MINIMUM_SAMPLING_INTERVAL; } } else { //Firmata.sendString("Not enough data"); } break; case EXTENDED_ANALOG: if (argc > 1) { int val = argv[1]; if (argc > 2) val |= (argv[2] << 7); if (argc > 3) val |= (argv[3] << 14); analogWriteCallback(argv[0], val); } break; case CAPABILITY_QUERY: Firmata.write(START_SYSEX); Firmata.write(CAPABILITY_RESPONSE); for (byte pin = 0; pin < TOTAL_PINS; pin++) { if (IS_PIN_DIGITAL(pin)) { Firmata.write((byte)INPUT); Firmata.write(1); Firmata.write((byte)PIN_MODE_PULLUP); Firmata.write(1); Firmata.write((byte)OUTPUT); Firmata.write(1); } if (IS_PIN_ANALOG(pin)) { Firmata.write(PIN_MODE_ANALOG); Firmata.write(10); // 10 = 10-bit resolution } if (IS_PIN_PWM(pin)) { Firmata.write(PIN_MODE_PWM); Firmata.write(DEFAULT_PWM_RESOLUTION); } if (IS_PIN_DIGITAL(pin)) { Firmata.write(PIN_MODE_SERVO); Firmata.write(14); } if (IS_PIN_I2C(pin)) { Firmata.write(PIN_MODE_I2C); Firmata.write(1); // TODO: could assign a number to map to SCL or SDA } Firmata.write(127); } Firmata.write(END_SYSEX); break; case PIN_STATE_QUERY: if (argc > 0) { byte pin = argv[0]; Firmata.write(START_SYSEX); Firmata.write(PIN_STATE_RESPONSE); Firmata.write(pin); if (pin < TOTAL_PINS) { Firmata.write(Firmata.getPinMode(pin)); Firmata.write((byte)Firmata.getPinState(pin) & 0x7F); if (Firmata.getPinState(pin) & 0xFF80) Firmata.write((byte)(Firmata.getPinState(pin) >> 7) & 0x7F); if (Firmata.getPinState(pin) & 0xC000) Firmata.write((byte)(Firmata.getPinState(pin) >> 14) & 0x7F); } Firmata.write(END_SYSEX); } break; case ANALOG_MAPPING_QUERY: Firmata.write(START_SYSEX); Firmata.write(ANALOG_MAPPING_RESPONSE); for (byte pin = 0; pin < TOTAL_PINS; pin++) { Firmata.write(IS_PIN_ANALOG(pin) ? PIN_TO_ANALOG(pin) : 127); } Firmata.write(END_SYSEX); break; } } /*============================================================================== * SETUP() *============================================================================*/ void systemResetCallback() { isResetting = true; // initialize a defalt state // TODO: option to load config from EEPROM instead of default if (isI2CEnabled) { disableI2CPins(); } for (byte i = 0; i < TOTAL_PORTS; i++) { reportPINs[i] = false; // by default, reporting off portConfigInputs[i] = 0; // until activated previousPINs[i] = 0; } for (byte i = 0; i < TOTAL_PINS; i++) { // pins with analog capability default to analog input // otherwise, pins default to digital output if (IS_PIN_ANALOG(i)) { // turns off pullup, configures everything setPinModeCallback(i, PIN_MODE_ANALOG); } else if (IS_PIN_DIGITAL(i)) { // sets the output to 0, configures portConfigInputs setPinModeCallback(i, OUTPUT); } servoPinMap[i] = 255; } // by default, do not report any analog inputs analogInputsToReport = 0; detachedServoCount = 0; servoCount = 0; /* send digital inputs to set the initial state on the host computer, * since once in the loop(), this firmware will only send on change */ /* TODO: this can never execute, since no pins default to digital input but it will be needed when/if we support EEPROM stored config for (byte i=0; i < TOTAL_PORTS; i++) { outputPort(i, readPort(i, portConfigInputs[i]), true); } */ isResetting = false; } void setup() { Firmata.setFirmwareVersion(FIRMATA_FIRMWARE_MAJOR_VERSION, FIRMATA_FIRMWARE_MINOR_VERSION); Firmata.attach(ANALOG_MESSAGE, analogWriteCallback); Firmata.attach(DIGITAL_MESSAGE, digitalWriteCallback); Firmata.attach(REPORT_ANALOG, reportAnalogCallback); Firmata.attach(REPORT_DIGITAL, reportDigitalCallback); Firmata.attach(SET_PIN_MODE, setPinModeCallback); Firmata.attach(SET_DIGITAL_PIN_VALUE, setPinValueCallback); Firmata.attach(START_SYSEX, sysexCallback); Firmata.attach(SYSTEM_RESET, systemResetCallback); /* For chipKIT Pi board, we need to use Serial1. All others just use Serial. */ #if defined(_BOARD_CHIPKIT_PI_) Serial1.begin(57600); Firmata.begin(Serial1); #else Firmata.begin(57600); #endif systemResetCallback(); // reset to default config } /*============================================================================== * LOOP() *============================================================================*/ void loop() { byte pin, analogPin; /* DIGITALREAD - as fast as possible, check for changes and output them to the * FTDI buffer using Serial.print() */ checkDigitalInputs(); /* STREAMREAD - processing incoming messagse as soon as possible, while still * checking digital inputs. */ while (Firmata.available()) Firmata.processInput(); // TODO - ensure that Stream buffer doesn't go over 60 bytes currentMillis = millis(); if (currentMillis - previousMillis > samplingInterval) { previousMillis += samplingInterval; /* ANALOGREAD - do all analogReads() at the configured sampling interval */ for (pin = 0; pin < TOTAL_PINS; pin++) { if (IS_PIN_ANALOG(pin) && Firmata.getPinMode(pin) == PIN_MODE_ANALOG) { analogPin = PIN_TO_ANALOG(pin); if (analogInputsToReport & (1 << analogPin)) { Firmata.sendAnalog(analogPin, analogRead(analogPin)); } } } // report i2c data for all device with read continuous mode enabled if (queryIndex > -1) { for (byte i = 0; i < queryIndex + 1; i++) { readAndReportData(query[i].addr, query[i].reg, query[i].bytes, query[i].stopTX); } } } }