{

char buffer[10]; //max length is three units

Str_value.toCharArray(buffer, 10);

int int_value = atoi(buffer);

return int_value;

String temp = input;

for (int i=0; i<len; i++) {

int idx = temp.indexOf(spChar);

results[i] = temp.substring(0,idx);

temp = temp.substring(idx+1);

}

int pinToMeasure = Str2int(data);

// readCapacitivePin

// Input: Arduino pin number

// Output: A number, from 0 to 17 expressing

// how much capacitance is on the pin

// When you touch the pin, or whatever you have

// attached to it, the number will get higher

// http://playground.arduino.cc/Code/CapacitiveSensor

//

// Variables used to translate from Arduino to AVR pin naming

volatile uint8_t* port;

volatile uint8_t* ddr;

volatile uint8_t* pin;

// Here we translate the input pin number from

// Arduino pin number to the AVR PORT, PIN, DDR,

// and which bit of those registers we care about.

byte bitmask;

port = portOutputRegister(digitalPinToPort(pinToMeasure));

ddr = portModeRegister(digitalPinToPort(pinToMeasure));

bitmask = digitalPinToBitMask(pinToMeasure);

pin = portInputRegister(digitalPinToPort(pinToMeasure));

// Discharge the pin first by setting it low and output

*port &= ~(bitmask);

*ddr |= bitmask;

delay(1);

// Make the pin an input with the internal pull-up on

*ddr &= ~(bitmask);

*port |= bitmask;

// Now see how long the pin to get pulled up. This manual unrolling of the loop

// decreases the number of hardware cycles between each read of the pin,

// thus increasing sensitivity.

uint8_t cycles = 17;

if (*pin & bitmask) { cycles = 0;}

else if (*pin & bitmask) { cycles = 1;}

else if (*pin & bitmask) { cycles = 2;}

else if (*pin & bitmask) { cycles = 3;}

else if (*pin & bitmask) { cycles = 4;}

else if (*pin & bitmask) { cycles = 5;}

else if (*pin & bitmask) { cycles = 6;}

else if (*pin & bitmask) { cycles = 7;}

else if (*pin & bitmask) { cycles = 8;}

else if (*pin & bitmask) { cycles = 9;}

else if (*pin & bitmask) { cycles = 10;}

else if (*pin & bitmask) { cycles = 11;}

else if (*pin & bitmask) { cycles = 12;}

else if (*pin & bitmask) { cycles = 13;}

else if (*pin & bitmask) { cycles = 14;}

else if (*pin & bitmask) { cycles = 15;}

else if (*pin & bitmask) { cycles = 16;}

// Discharge the pin again by setting it low and output

// It's important to leave the pins low if you want to

// be able to touch more than 1 sensor at a time - if

// the sensor is left pulled high, when you touch

// two sensors, your body will transfer the charge between

// sensors.

*port &= ~(bitmask);

*ddr |= bitmask;

//return cycles;

Serial.println(cycles);

int idx = data.indexOf('%');

int len = Str2int(data.substring(0,idx));

String data2 = data.substring(idx+1);

int idx2 = data2.indexOf('%');

int pin = Str2int(data2.substring(0,idx2));

String data3 = data2.substring(idx2+1);

String melody[len*2];

split(melody,len*2,data3,'%');

for (int thisNote = 0; thisNote < len; thisNote++) {

int noteDuration = 1000/Str2int(melody[thisNote+len]);

int note = Str2int(melody[thisNote]);

tone(pin, note, noteDuration);

int pause = noteDuration * 1.30;

delay(pause);

noTone(pin);

}

int pin = Str2int(data);

if(mode<=0){ //read

Serial.println(digitalRead(pin));

}else{

if(pin <0){

digitalWrite(-pin,LOW);

}else{

digitalWrite(pin,HIGH);

}

//Serial.println('0');

}

if(mode<=0){ //read

int pin = Str2int(data);

Serial.println(analogRead(pin));

}else{

String sdata[2];

split(sdata,2,data,'%');

int pin = Str2int(sdata[0]);

int pv = Str2int(sdata[1]);

analogWrite(pin,pv);

}

int pin = Str2int(data);

if(pin <=0){

pinMode(-pin,INPUT);

}else{

pinMode(pin,OUTPUT);

}

String sdata[4];

split(sdata, 4, data, '%');

int dataPin = sdata[0].toInt();

int clockPin = sdata[1].toInt();

String bitOrderName = sdata[2];

byte value = (byte)(sdata[3].toInt());

if (bitOrderName == "MSBFIRST") {

shiftOut(dataPin, clockPin, MSBFIRST, value);

} else {

shiftOut(dataPin, clockPin, LSBFIRST, value);

}

String sdata[3];

split(sdata, 3, data, '%');

int dataPin = sdata[0].toInt();

int clockPin = sdata[1].toInt();

String bitOrderName = sdata[2];

int incoming;

if (bitOrderName == "MSBFIRST") {

incoming = (int)shiftIn(dataPin, clockPin, MSBFIRST);

} else {

incoming = (int)shiftIn(dataPin, clockPin, LSBFIRST);

}

Serial.println(incoming);

delete sserial;

String sdata[3];

split(sdata,3,data,'%');

int rx_ = Str2int(sdata[0]);

int tx_ = Str2int(sdata[1]);

int baud_ = Str2int(sdata[2]);

sserial = new SoftwareSerial(rx_, tx_);

sserial->begin(baud_);

Serial.println("ss OK");

int len = data.length()+1;

char buffer[len];

data.toCharArray(buffer,len);

Serial.println("ss OK");

sserial->write(buffer);

int pin = Str2int(data);

long duration;

if(pin <=0){

pinMode(-pin, INPUT);

duration = pulseIn(-pin, LOW);

}else{

pinMode(pin, INPUT);

duration = pulseIn(pin, HIGH);

}

Serial.println(duration);

int pin = Str2int(data);

long duration;

if(pin <=0){

pinMode(-pin, OUTPUT);

digitalWrite(-pin, HIGH);

delayMicroseconds(2);

digitalWrite(-pin, LOW);

delayMicroseconds(5);

digitalWrite(-pin, HIGH);

pinMode(-pin, INPUT);

duration = pulseIn(-pin, LOW);

}else{

pinMode(pin, OUTPUT);

digitalWrite(pin, LOW);

delayMicroseconds(2);

digitalWrite(pin, HIGH);

delayMicroseconds(5);

digitalWrite(pin, LOW);

pinMode(pin, INPUT);

duration = pulseIn(pin, HIGH);

}

Serial.println(duration);

String sdata[3];

split(sdata,3,data,'%');

int pin = Str2int(sdata[0]);

int min = Str2int(sdata[1]);

int max = Str2int(sdata[2]);

int pos = -1;

for (int i = 0; i<8;i++) {

if (servo_pins[i] == pin) { //reset in place

servos[pos].detach();

servos[pos].attach(pin, min, max);

servo_pins[pos] = pin;

Serial.println(pos);

return;

}

}

for (int i = 0; i<8;i++) {

if (servo_pins[i] == 0) {pos = i;break;} // find spot in servo array

}

if (pos == -1) {;} //no array position available!

else {

servos[pos].attach(pin, min, max);

servo_pins[pos] = pin;

Serial.println(pos);

}

int pos = Str2int(data);

servos[pos].detach();

servo_pins[pos] = 0;

int pos = Str2int(data);

int angle;

angle = servos[pos].read();

Serial.println(angle);

String sdata[2];

split(sdata,2,data,'%');

int pos = Str2int(sdata[0]);

int angle = Str2int(sdata[1]);

servos[pos].write(angle);

String sdata[2];

split(sdata,2,data,'%');

int pos = Str2int(sdata[0]);

int uS = Str2int(sdata[1]);

servos[pos].writeMicroseconds(uS);

String sdata[2];

split(sdata, 2, data, '%');

if (mode == 0) {

EEPROM.write(Str2int(sdata[0]), Str2int(sdata[1]));

} else {

Serial.println(EEPROM.read(Str2int(sdata[0])));

}

char readChar[64];

Serial.readBytesUntil(33,readChar,64);

String read_ = String(readChar);

//Serial.println(readChar);

int idx1 = read_.indexOf('%');

int idx2 = read_.indexOf('$');

// separate command from associated data

String cmd = read_.substring(1,idx1);

String data = read_.substring(idx1+1,idx2);

// determine command sent

if (cmd == "dw") {

DigitalHandler(1, data);

}

else if (cmd == "dr") {

DigitalHandler(0, data);

}

else if (cmd == "aw") {

AnalogHandler(1, data);

}

else if (cmd == "ar") {

AnalogHandler(0, data);

}

else if (cmd == "pm") {

ConfigurePinHandler(data);

}

else if (cmd == "ps") {

pulseInSHandler(data);

}

else if (cmd == "pi") {

pulseInHandler(data);

}

else if (cmd == "ss") {

SS_set(data);

}

else if (cmd == "sw") {

SS_write(data);

}

else if (cmd == "sr") {

SS_read(data);

}

else if (cmd == "sva") {

SV_add(data);

}

else if (cmd == "svr") {

SV_read(data);

}

else if (cmd == "svw") {

SV_write(data);

}

else if (cmd == "svwm") {

SV_write_ms(data);

}

else if (cmd == "svd") {

SV_remove(data);

}

else if (cmd == "version") {

Version();

}

else if (cmd == "to") {

Tone(data);

}

else if (cmd == "nto") {

ToneNo(data);

}

else if (cmd == "cap") {

readCapacitivePin(data);

}

else if (cmd == "so") {

shiftOutHandler(data);

}

else if (cmd == "si") {

shiftInHandler(data);

}

else if (cmd == "eewr") {

EEPROMHandler(0, data);

}

else if (cmd == "eer") {

EEPROMHandler(1, data);

}

else if (cmd == "sz") {

sizeEEPROM();

}

Serial.begin(9600);

while (!Serial) {

; // wait for serial port to connect. Needed for Leonardo only

}