/* Serial Call and Response in ASCII Language: Wiring/Arduino This program sends an ASCII A (byte of value 65) on startup and repeats that until it gets some data in. Then it waits for a byte in the serial port, and sends three ASCII-encoded, comma-separated sensor values, truncated by a linefeed and carriage return, whenever it gets a byte in. The circuit: - potentiometers attached to analog inputs 0 and 1 - pushbutton attached to digital I/O 2 created 26 Sep 2005 by Tom Igoe modified 24 Apr 2012 by Tom Igoe and Scott Fitzgerald Thanks to Greg Shakar and Scott Fitzgerald for the improvements This example code is in the public domain. http://www.arduino.cc/en/Tutorial/SerialCallResponseASCII */ int firstSensor = 0; // first analog sensor int secondSensor = 0; // second analog sensor int thirdSensor = 0; // digital sensor int inByte = 0; // incoming serial byte void setup() { // start serial port at 9600 bps and wait for port to open: Serial.begin(9600); while (!Serial) { ; // wait for serial port to connect. Needed for native USB port only } pinMode(2, INPUT); // digital sensor is on digital pin 2 establishContact(); // send a byte to establish contact until receiver responds } void loop() { // if we get a valid byte, read analog ins: if (Serial.available() > 0) { // get incoming byte: inByte = Serial.read(); // read first analog input: firstSensor = analogRead(A0); // read second analog input: secondSensor = analogRead(A1); // read switch, map it to 0 or 255 thirdSensor = map(digitalRead(2), 0, 1, 0, 255); // send sensor values: Serial.print(firstSensor); Serial.print(","); Serial.print(secondSensor); Serial.print(","); Serial.println(thirdSensor); } } void establishContact() { while (Serial.available() <= 0) { Serial.println("0,0,0"); // send an initial string delay(300); } } /* Processing code to run with this example: // This example code is in the public domain. import processing.serial.*; // import the Processing serial library Serial myPort; // The serial port float bgcolor; // Background color float fgcolor; // Fill color float xpos, ypos; // Starting position of the ball void setup() { size(640,480); // List all the available serial ports // if using Processing 2.1 or later, use Serial.printArray() println(Serial.list()); // I know that the first port in the serial list on my Mac is always my // Arduino board, so I open Serial.list()[0]. // Change the 0 to the appropriate number of the serial port that your // microcontroller is attached to. myPort = new Serial(this, Serial.list()[0], 9600); // read bytes into a buffer until you get a linefeed (ASCII 10): myPort.bufferUntil('\n'); // draw with smooth edges: smooth(); } void draw() { background(bgcolor); fill(fgcolor); // Draw the shape ellipse(xpos, ypos, 20, 20); } // serialEvent method is run automatically by the Processing applet whenever // the buffer reaches the byte value set in the bufferUntil() // method in the setup(): void serialEvent(Serial myPort) { // read the serial buffer: String myString = myPort.readStringUntil('\n'); // if you got any bytes other than the linefeed: myString = trim(myString); // split the string at the commas and convert the sections into integers: int sensors[] = int(split(myString, ',')); // print out the values you got: for (int sensorNum = 0; sensorNum < sensors.length; sensorNum++) { print("Sensor " + sensorNum + ": " + sensors[sensorNum] + "\t"); } // add a linefeed after all the sensor values are printed: println(); if (sensors.length > 1) { xpos = map(sensors[0], 0,1023,0,width); ypos = map(sensors[1], 0,1023,0,height); fgcolor = sensors[2]; } // send a byte to ask for more data: myPort.write("A"); } */ /* Max/MSP version 5 patch to run with this example: ----------begin_max5_patcher---------- 3640.3oc6cs0jZajE94Y9UzKkeHoVloTeSHkm1II0VkeHIthSs6C1obIjZ.E KjHRhY7jT4+9d5KBj.jTCAXfoV6x.sj5VmyWet127ed6MCFm8EQw.z2f9.5l a9yau4F0kjW3FS4aFLO3KgIAEpGaPX174hzxAC02qT7kR80mkkUHPAnBQdbP BZQVdIZRd1bT4r3BDTmkU0YQPY3r3zoeJWDVpe2ttr6cFhvXt7KhyH8W26f9 USkhiTulrw+1czQUszjrzxzf4B0sdP9dqtS5x4woIhREQiWewrkkUW0oViTD +GpFASt2Qd0+51akeLzRPIU7DPXagIFnH.4653f9WAKKyxVHRQNcfDXlih2w puvbdWHAlcTPBRKHg4x5mr74EBMINHV1+iFL.8qG.VMWTTDLUrs.TBH+zAvP nTEhvvxun9pBd6FWH38DWH6DWv6ItbX.RKBOJ7XbP5ztvDesvhBLb6VTwcOg DmiBjnXfiIrjjED0CpP490PEmtPExwQA5EGUVjK.CKQJqtcYl0nCMRAJi76D Z7dQflCCVV1i+ENiTy3AwYaghEA4.KVJx+jHMXbhntJPceO3iBpPOPKtZqtU jUoXtw28fkEimmEIlOI.3Q4iMT9wO+iLxc9O7sN28928t6Ve8uMYo.7EUN6t ePVoUW+6E4hOW7CAgeaV1meWd1cuWnYLy8mKhhClGDd25F3ce+C2si1Ud42+ bZ3IQJOXg7q96t80e50YvDjqHw7VvkRTXhHHuKEerRwmqfBFsS.g9h.HZN3X hJf5Qd+xHZHgzc.mrqeYjbn4E84evfIDUjDtjNwD2iRHV6anmGdbmsfKxTTJ dd93rjtBJ2U42foCwZDqKfYzKkrh4VgYIY4FxVRmN2646f8ck+xw7KrjzOlZ ZYAVfdZgKlaWn29FzA8nfdR2quj.3ejflBJnKr.Dwpf13cZBm85P0rPj.rOB 6fvztPFGkVI0SAPi5NKHmih7E8Ph2e35uOtYN6x6JEQtJVWpV7gRtm2dZy9W +YMCxLHrEvAknQktDVdY7v82SFosgmSGHO56BRRt6mEEKxRKDnGd+2812h9X 5GSeODOcAJ.M9YHHAfjPkyD0GIugn.Ht6bQ.7TTS8DoPtCQCQxWobX+jYPUJ hPn3zgnx7kogphieFZ2j3TwDgH5dzaUscJ77kEnIY4hoYKglVYzcH5KKxJzu qmgegxl.0MLNGBNDsr.5IUz0iAPZFE.0TtLOEdClQYrAAeORwW+XVo3aP+hb DHUBCH.mfbEKfGOPyjQhGiCAdNUUBRcQjij4X.u5MZRDzHSyTDQFbcYdHHIM AzlF1lnoLjKG8UZH5guV1vEkA4kKWbOPGPC9YgjNdJHVy+ZJQ1.Cq.FUWQpA ke.8DbUwi.YEWBUCDhPyAXCEETFbuhICg9EIRiYnGVjKyt0+io.r+9vrxRz+ Nt7OlJxCRhT35u.X0amlI9X5xEQppQwneJrLarPVU7JkGYWVHz2njevz1UoX XkoEWOkxDWO9kXYocoTwuzF611zXJyimB3F5qf9nOT9qesryJTJ1EOcV4cIh IPVWYoOBUMFTl.4sGRRzRT4AOIkRjn8h7LnNJI2mhg6OSk5JZrPJ4i9gfu.R w+NHLCcpfAMij88n+qTPPMt4UTwj3bAnY.h.aIe.RiAEeF8Pdzx3zLkLUs1Z mcmczah0FH4ZmpLcp.rVbX3d0zalKhSiKAxBZ9BU2zTP3uPobgL1Q.U0.kl+ jcBZj1AMOpzsJYjdz0n53QXsfYrqELKblH7yUFoDfPVXbrwDGXqCjwjviT7a rXZbpxOvxzXvpOnPH0GlTJMZog8l2UZJcdPjxjG7ywIYgeFULaInFDk8jpxZ apvMA4cv9X.7.vaRRGFAcPYHMR0dF2BZC7wEJ2TOKeZnCRD+HzJo.OLWSW6r qk2wfI6pGf.pdjC4rpfL2YeK8JYloVf93.ocJEvocv9wAcEiMQgBtl.lb0y9 heKnvtGRs+iHOJHM3uaZbN1jDrhED4FfwfLPCEmH8jV.BB0Z+aF.Vkqc4apU EIb9a5zAcGt5Rf3WdsNJ3R4PXDU0mouHzIca0MWO.KpQjT8oq1SIyqV3mP24 ToxfHpdyOPNqgwoK.W.fxfRNtwsiDSBVlT9ociSMu+jfPQqUtk9paFLMONJK URFMpq7xUuvOXF1HBuN6ndhzfE6nxPXQkKKFGjKQNyHtSptYYVVRyaspyBD3 CRiA0YQYrlbgHdptY77E4wZk5UWSOf9yJByyRRZzT5673NtiNrvmhiJmoZq5 fI73wKp5DFrBihhmBNxadsxfoEMuRiIbutfVcM4FWuyr.2bvrlNF5.3U+q9C sKaa5jkMt70iSd8bC2ZbEFUuAa0DWqYF0tJ91p43649br2nZ2usLGuoxrnQq 6TArNx+1CjRLPpVWf62Kj59ZFRa38Y6D0kRo8AnT8b0g0e4p8+f6.P4sBnaX TqMmPsOdOcjG+dMtOmdzcgLdIGqjX0J+FAVrmSu.L8fAX19Ky1C.e1.z+IB2 qpeCIUV+.I4fARxQGH0i.9ECVZrhZMTheMCkc4XRMsoCgbef2ZFjaF5MXzaH n2PQugYmhe0WjdcU47Z1Ukhb6CwFISy2HNtcvtaNRWdshHNVgHcNMUlopRm4 tJByyLXfI0UN6GM7eUiFTm8BMbctZQC8atOegDu6oveXrgpeaGnfaETvsBJN 6AKuNsT4n+zRVXJtQd+ciEEYKyCq.8ptRTSdBRQrLNcUd5eXcjoa7fyhihZl UrNQxBYZo5g.vpdt8klkJi1QyPvdH7UFMStbvYu8Amu1nY7ECMKGXBqnY2KH Z18Jjl4aYNnEYiQWVzrUxytWNzL0VZ14xglI6isN5kAMi2GZlbYPyNma6FqC aJRs9qEogO+ovfvYFxxjGV07cLnH3QQzm.R.BG7SAkk4wiWVpC2p9jwX23ka 0zSz4M6e1QZY.8mljMNHwLURqZ9FuzslMk8ZJXtcMPeblVut1XYDhdMCpmjZ 8BAqsU9DezKxJAa8Hmbbfi+wccuVv7c0qELrEHB+UAhHWzCfCbKPEyBki24Z clythVwfkYSmlHrPdX8tC5v1iPb5ArPuOWc8NVrRZspq24UxhE0wBcAsMyt2 2LLuqvkKZRXjEq5CM6S3tq9Zm6HD+8Prm0F+jDWn1paUe+2ZuF259kxkiR5W Qf6vzKBtMm+gFrMeuWsKW.6B61VyWOFjz0Zsmwza+.ikxQcAL3iDtbLWMTKm OtyMEFcjWM9iu0rMa81D8kUl3v2ewcHWP5B2HX6kK7t7DL5fs6JVIrO0Z1l3 bEpOP3zih9.gbspPzKDYbRVAQ7CFhtZsYzhW1ko0WEJcG3oAC0aRIyxKsUEI +iDPwOLfp0uNA68MmtSUSmRuNb8d1ttWya7sVWf5Iwf.1LQtZUnqNvT1bS6z E5o2vfqNSH5bufQbuZV09M.E04Mj8XBUiBqNGl5FSt3NGlZaGRpV6wc4kiWi q0twaaORhul1jjsIi7cMjQlJJUaQuhR495nlfRQWRJXkrgmMGXWjKM4jdGJH yovkl4HUetutzWuY5tjFHneGn77rtG3iJ92whCVJxKhBwgGtRaFIzabfNrRn WThd9q24vsZjf9JvHwOKBhprFDmtXYIZ7xISjaO1GE4OK2V9yiS.qFhvrznh 8cKyMZs7EVepT01FlCe0rIC0lUk6NX4N9syCyAE660+ovE9hyGqjaGurrLak G0YwoMlFO4YMSZjd9DcWucsjUr1Yqgy8TluCY3N9Q8.+k0JCD3ZTS0CW8Qyb s19nOxrgjw7VFU+3ooYviK66pCfimt8AAxHOOBkK+EajC2yayWtciMzgdvpM NKORj29YyGcS4wFVlql0wcZTg1yw5wvMNiTpuUzpu.Y0miRlgO0w7wpZI2Em SUBGayVM5eqU4C+rV4ZSPkvXqLJbAHlR3mKwT5ISL8+Kv0k.GWEKwpP3ewk3 7omKIN7EtDmp4ZtHk0BfatXgLhgasHgZrVYaY8AIO7fq8Pas1fFzjd4ibwpd XO4GXOeOG+lcyasNh1R+wVx2yBxeTOT+wiZFYA0P48PNyiiVjAhJlNT4Qvpb uj3aN2qYqJcBfSWhMbf+YCPcsfbNeTC2l9WNc+5eIlkST0RJgupzIn+kysgC X6GGXnYpdYfP0GP6MKQXM3N1Ih6XVvcLuym7B0B5w8v.ahqBI49qJcJ.TaX. 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