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balancing-robot/Touch OSC/OSC-master/examples/SerialOscuinoForFubarino/SerialOscuinoForFubarino.ino
philsson 335d5f5a01 Touch OSC
2020-06-22 17:36:27 +02:00

294 lines
8.3 KiB
C++
Executable File
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#include <OSCBundle.h>
#include <OSCBoards.h>
// Fubarino MINI
#ifdef BOARD_HAS_USB_SERIAL
#include <SLIPEncodedUSBSerial.h>
SLIPEncodedUSBSerial SLIPSerial( thisBoardsSerialUSB );
#else
#include <SLIPEncodedSerial.h>
SLIPEncodedSerial SLIPSerial(Serial);
#endif
OSCBundle bundleOUT;
//converts the pin to an osc address
char * numToOSCAddress( int pin){
static char s[10];
int i = 9;
s[i--]= '\0';
do
{
s[i] = "0123456789"[pin % 10];
--i;
pin /= 10;
}
while(pin && i);
s[i] = '/';
return &s[i];
}
/**
* ROUTES
*
* these are where the routing functions go
*
*/
/**
* DIGITAL
*
* called when address matched "/d"
* expected format:
* /d/(pin)
* /u = digitalRead with pullup
* (no value) = digitalRead without pullup
* (value) = digital write on that pin
*
*/
void routeDigital(OSCMessage &msg, int addrOffset ){
//match input or output
for(byte pin = 0; pin < NUM_DIGITAL_PINS; pin++){
//match against the pin number strings
int pinMatched = msg.match(numToOSCAddress(pin), addrOffset);
if(pinMatched){
switch(pin)
{
// fubarino MINI
// these are used for clocks and USB and Program switch and shouldn't be written to
// unless you know what you are doing
case 3: case 14: case 15: case 23: case 16: case 31:case 32: goto out;
}
//if it has an int, then it's a digital write
if (msg.isInt(0)){
pinMode(pin, OUTPUT);
digitalWrite(pin, (msg.getInt(0)>0) ? HIGH:LOW);
} //otherwise it's an digital read
//with a pullup?
else if (msg.fullMatch("/u", pinMatched+addrOffset)){
//set the pullup
pinMode(pin, INPUT_PULLUP);
//setup the output address which should be /d/(pin)/u
char outputAddress[9];
strcpy(outputAddress, "/d");
strcat(outputAddress, numToOSCAddress(pin));
strcat(outputAddress,"/u");
//do the digital read and send the results
{
OSCMessage msgOut(outputAddress); msgOut.add(digitalRead(pin));
SLIPSerial.beginPacket(); msgOut.send(SLIPSerial); SLIPSerial.endPacket();
}
} //else without a pullup
else {
//set the pinmode
pinMode(pin, INPUT);
//setup the output address which should be /d/(pin)
char outputAddress[6];
strcpy(outputAddress, "/d");
strcat(outputAddress, numToOSCAddress(pin));
//do the digital read and send the results
{
OSCMessage msgOut(outputAddress); msgOut.add(digitalRead(pin));
SLIPSerial.beginPacket(); msgOut.send(SLIPSerial); SLIPSerial.endPacket();
}
}
}
out: ;
}
}
/**
* ANALOG
*
* called when the address matches "/a"
*
* format:
* /a/(pin)
* /u = analogRead with pullup
* (no value) = analogRead without pullup
* (digital value) = digital write on that pin
* (float value) = analogWrite on that pin
*
**/
void routeAnalog(OSCMessage &msg, int addrOffset ){
//iterate through all the analog pins
for(byte pin = 0; pin < NUM_ANALOG_INPUTS; pin++){
//match against the pin number strings
int pinMatched = msg.match(numToOSCAddress(pin), addrOffset);
if(pinMatched){
//if it has an int, then it's a digital write
if (msg.isInt(0)){
pinMode(analogInputToDigitalPin(pin), OUTPUT);
digitalWrite(analogInputToDigitalPin(pin), (msg.getInt(0) > 0)? HIGH: LOW);
} //otherwise it's an analog read
else if(msg.isFloat(0)){
analogWrite(pin, (int)(msg.getFloat(0)*255.0f));
}
#ifdef BOARD_HAS_ANALOG_PULLUP
//with a pullup?
else if (msg.fullMatch("/u", pinMatched+addrOffset)){
//set the pullup
pinMode(analogInputToDigitalPin(pin), INPUT_PULLUP);
//setup the output address which should be /a/(pin)/u
char outputAddress[9];
strcpy(outputAddress, "/a");
strcat(outputAddress, numToOSCAddress(pin));
strcat(outputAddress,"/u");
//do the analog read and send the results
{
OSCMessage msgOut(outputAddress); msgOut.add((int32_t)analogRead(pin));
SLIPSerial.beginPacket();msgOut.send(SLIPSerial); SLIPSerial.endPacket();
}
} //else without a pullup
#endif
else {
//set the pinmode
// This fails on Arduino 1.04 on Leanardo, I added this to fix it: #define analogInputToDigitalPin(p) (p+18)
pinMode(analogInputToDigitalPin(pin), INPUT);
//setup the output address which should be /a/(pin)
char outputAddress[6];
strcpy(outputAddress, "/a");
strcat(outputAddress, numToOSCAddress(pin));
//do the analog read and send the results
{
OSCMessage msgOut(outputAddress); msgOut.add((int32_t)analogRead(pin));
SLIPSerial.beginPacket(); msgOut.send(SLIPSerial); SLIPSerial.endPacket();
}
}
}
}
}
#ifdef BOARD_HAS_TONE
/**
* TONE
*
* square wave output "/tone"
*
* format:
* /tone/pin
*
* (digital value) (float value) = freqency in Hz
* (no value) disable tone
*
**/
void routeTone(OSCMessage &msg, int addrOffset ){
//iterate through all the analog pins
for(byte pin = 0; pin < NUM_DIGITAL_PINS; pin++){
//match against the pin number strings
int pinMatched = msg.match(numToOSCAddress(pin), addrOffset);
if(pinMatched){
unsigned int frequency = 0;
//if it has an int, then it's an integers frequency in Hz
if (msg.isInt(0)){
frequency = msg.getInt(0);
} //otherwise it's a floating point frequency in Hz
else if(msg.isFloat(0)){
frequency = msg.getFloat(0);
}
else
noTone(pin);
if(frequency>0)
{
if(msg.isInt(1))
tone(pin, frequency, msg.getInt(1));
else
tone(pin, frequency);
}
}
}
}
#endif
/**
* SYSTEM MESSAGES
*
* expected format:
* /s
* /m = microseconds
* /d = number of digital pins
* /a = number of analog pins
* /l integer = set the led
* /t = temperature
* /s = power supply voltage
*/
//
void routeSystem(OSCMessage &msg, int addrOffset ){
#ifdef BOARD_HAS_DIE_TEMPERATURE_SENSOR
if (msg.fullMatch("/t", addrOffset)){
{ OSCMessage msgOut("/s/t"); msgOut.add(getTemperature()); SLIPSerial.beginPacket();msgOut.send(SLIPSerial); SLIPSerial.endPacket(); }
}
#endif
#ifdef BOARD_HAS_DIE_POWER_SUPPLY_MEASUREMENT
if (msg.fullMatch("/s", addrOffset)){
{ OSCMessage msgOut("/s/s"); msgOut.add(getSupplyVoltage()); SLIPSerial.beginPacket();msgOut.send(SLIPSerial); SLIPSerial.endPacket(); }
}
#endif
if (msg.fullMatch("/m", addrOffset)){
{ OSCMessage msgOut("/s/m"); msgOut.add((int32_t)micros()); SLIPSerial.beginPacket();msgOut.send(SLIPSerial); SLIPSerial.endPacket(); }
}
if (msg.fullMatch("/d", addrOffset)){
{ OSCMessage msgOut("/s/d"); msgOut.add(NUM_DIGITAL_PINS); SLIPSerial.beginPacket();msgOut.send(SLIPSerial); SLIPSerial.endPacket(); }
}
if (msg.fullMatch("/a", addrOffset)){
{ OSCMessage msgOut("/s/a"); msgOut.add(NUM_ANALOG_INPUTS); SLIPSerial.beginPacket();msgOut.send(SLIPSerial); SLIPSerial.endPacket(); }
}
if (msg.fullMatch("/l", addrOffset)){
if (msg.isInt(0)){
pinMode(LED_BUILTIN, OUTPUT);
int i = msg.getInt(0);
pinMode(LED_BUILTIN, OUTPUT);
digitalWrite(LED_BUILTIN, (i > 0)? HIGH: LOW);
{ OSCMessage msgOut("/s/l"); msgOut.add(i); SLIPSerial.beginPacket();msgOut.send(SLIPSerial); SLIPSerial.endPacket(); }
}
}
}
/**
* MAIN METHODS
*
* setup and loop, bundle receiving/sending, initial routing
*/
void setup() {
SLIPSerial.begin(9600); // set this as high as you can reliably run on your platform
}
//reads and routes the incoming messages
void loop(){
OSCBundle bundleIN;
int size;
while(!SLIPSerial.endofPacket())
if ((size =SLIPSerial.available()) > 0)
{
while(size--)
bundleIN.fill(SLIPSerial.read());
}
if(!bundleIN.hasError())
{
bundleIN.route("/s", routeSystem);
bundleIN.route("/a", routeAnalog);
bundleIN.route("/d", routeDigital);
#ifdef BOARD_HAS_TONE
bundleIN.route("/tone", routeTone);
#endif
#ifdef BOARD_HAS_CAPACITANCE_SENSING
bundleIN.route("/c", routeTouch);
#endif
}
}
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