/* 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. Thanks to Greg Shakar and Scott Fitzgerald for the improvements The circuit: * potentiometers attached to analog inputs 0 and 1 * pushbutton attached to digital I/O 2 Created 26 Sept. 2005 by Tom Igoe modified 2 Apr 2012 by Tom Igoe and Scott Fitzgerald 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); // this check is only needed on the Leonardo: while (!Serial) ; ; 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 255L 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 println(Serial.list()); // I know that the first port in the serial list on my mac // is always my Arduino module, 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---------- 3365.3oc4bk0iiaiD9Y2+J3JLOrAq6Fhj5LOscRP.lGxtCxDr6CYBFHaQaqL xRNRzcOcBx+8s3grkZac31Vr8jMASKScPU7qNXUTUw+3lIVyx+LqzB80neFM YxebyjIxSINwDc6IVqi977znR4sYMOe8ZVF2Zp5Zb1m4pyuJOujghPkrhjnT zl7BNZQQ9ZDeURIBdlsUOyh7LdYxuyDOGlbms9zYaWmjkx3x2Cd+Iy2xqNa0 stIhOeUR1xOVvlyUTuuqOzSHRfs7fspEz.8K5GJIVRn4y90ao90okrn0RZw5 dAkaItvedyMh+LcffRF6QnaO.SzPQnmsM5eFskmmugkgrOebfzNNPbbDibJU hCXG2tvArSEsn5b9SaXptwJQviQVV6drKCRslUVFsjcn3SJH8bJ.C4n.Ctcf gRjhDTaO4gPI7DbbbgfaEWtz.RKhNR7XVT1xSASrOYLITJrfUG75VVwqULQR mlAWRyihOUXAepvhiGsNrX2ErPbtFfkMELvzRrzp6nBM9Dk5CUJq3G1IzDXL snsuz4WR3r054+rduzb86jPHxZp3OyxyWK92seS5VFX+lu5128c2e6s3c2w9 K7C4wr0G47hG38OkMe2k99jB12m9zsgem+2b66e261CFMYCz1YCdJ7WaLiX2 oHJE2qU9FV5EWWiIlU5MZi3vnJ+pANhxagvfNwMxq8r.bz7TVTw3pQqkgHRa dNzNQDZqHhhPMCr.JsEFQJQgIjt8kz40VJo.dwrKjoeRufBNTZrwizInztyB igWks.LhvOJeBLfmd4jVlmmlWnFJXABXeWPnMNzS7Ka8uv0.ki4htxQK2.0b nNcAj9u1BWI77nSA8nlB8TBfNdcgdAcNwmY.veOEsDzP2b9A2P5GTTg031oQ bmqAUyRVJP7HrMBSOekyN7ThXqfDao7le2g3X2su7S2ezTwE64NtAE6Js93D HQGJ4N21CJN701TDHyfvipZTEb3JssP6z1hWuxJWZXoskdSE2B5aiRSu8GYk axyJYn6e+2912h9P1GxdO3ScIJBM6IvKAfXQ7Ur5qR2TTD36cAKBtKp94XYP vLwSQhWoXI81DUDwYwHTR1TDuXa1bYyYOA8aZRFaAiEeG5sx9NCtedIZQdAa Y9VnqkF8mh97l7R065I3Wn7EvyNOo.bbDssD3CR55gHHtoRfZ3aKxf2fdEDa Pv2gjiq+UNm80neRr5hRVIBvIHNvR31iTCxX1CIygwblrEDKFq.Ihy.d0OqK QPmrLWRD4v4EwhfDzDPaJXaghxPdtn+tBht+qDcbIOpfucyc.c.c3mXB53wn D03WQIhNXZEvHYEYZT9dzivYYO.jUBGdLPhFsFfMTbDO5N4fbNvWDHM1Ac+l BQjdgeHCf82OOmyQeeB+2WxJhRik35OAX0aWly9P11MwxGihQ+6477YLwih2 o7HXYyAdiT9ASGy0k0QY3UpP45nVTx.uiqR4ZYD8EdQxR.0P+cfC8y7e4qDr p4Bgtjkq32lxV.gckm8.7nIfpDHsceZpRdpH5QgLh.q2TjCOiTt8wD35qjAu hlwDx8neH5yfL7uAhx.KELmokquC8eEhAxUDuhJVjTv.8BP.3.oCPVLp7Sn6 Kh2ljkKknp0WGkYNp7Rhx7nGQNKpi9PKSW3YHtYAKIKgCcJLZKkrokfneoT0 Bosh.JpQR89EGEzHiIngUt4SUGv5EtwoEPywLf17Ur4epxFECjxlmjnsvAl5 .gLA9Hj+lwVljImFXaVBXzGzHDJDK3BaVJbu4UEVRWGEKs3A+bVZ97OgJWsE zChyeL6UPp0wWEo.VYHpximVX.Ti7kg1f9fkvZhD8USB9Aqi5Zi8KILqio6R knfudQ98Te+ivVPgSdku9Orh3nrcQJJI.VgFXzHC7HIohY6JA4jZj6DKv1Ys SOo1iHfyeUExn6zcmBrFVTuCl.VAdHo54CUmDXR2TcwJTPw70qquZ1HmfZN3 ArykBIVVbMgpIVwrEmReH9Le6ueaUft09Sy6LIaCLC.nkJ0ed96MZaJ+iGWh n40WDMm05C2BeZh0xhj37LAYz3YEmt5EJr6qzbpS4x6HKZyQdXddd5rnBACY VJqAiFTVhxRVCFn4IJJB7no5hIq2TjnLHr6brrHnOVUNuHOMsQWotxCG4JJ2 9dLIluR1W6wqFes65RY0Uiab9NCS64q1zxY.H4V8u52TCFH9N2PWbfesqerv VZW+t0vWTg2hcs2u310il6fUBvuNM1tpdW1CmTYSTqxMV.qs3+MOjRzPpREv MrWH06pARaL0ygQRKjRaGP2M4aqS.29xvzp3o5yTgUG7TQWi6.Kc6DKacIYZ e1Iyftah.Wdr6QhsC.14kJrpz60xpXclvzE.SeoBqlEP+GH7KBHe4Z8MjTc5 GHIcBj0Wr4+uCK0FPGLThutfxtlXR9MOmh1DATUND8D5MXzaHn2PQuww7SUo 09qNP5cpJ6qlopjidq1PD6WLh3KVOasL2g9v97UeJ3zj7phsV77eA.FXRcMv 9Qiv+RiFT6SBM7ruNPC0a15zcMytmI7HA2Qg+ywYp72CCTZXptug79PGEK8S KQgIIMw0ONVTlusXdEnWEACpIAFyJ4IY6hk9m2SqO6FWkDG2LxU0ZKDuIG3m 6R.pAw8NY516KT519KS51anzsHliqH5VXEdXzM4KT5FBAAgudn6fgR2WWx2C mtoWW1SHmBcSudna7oP2jqG518.0sVna+qK4D2gh2dWWzMcnzs8Ejt0mr5Cf XUF8.K9ivqA726iQbdQxrsbkKXM95LG6qHLde5gNuXee4iko4yhR0eloc8h0 M6QhKyGpydjqII0WCNjtO8qZKeib8uBRlw+1sWhLvpqRuQGWlKd.Hh6U.hHR 1.vhpQPEpusJMZ5JuzbMW9nyyWtLcWNKdl0bklwS1UJKcLDo8v3u3r2w0LfN GUcFD609pHMLsG07vrRdOb.0jhSfwSDyz4wmfPuSuIkQ.VuVKd6Nbzhpn8Lv MMoTVHWUG2W8tWxhQxyEkNtEurRQvinxQGxy+XAMPC2WXsKW+iDbgRmpGhRo iZ0s6pRoees+B9cALXqK7nFnxYWhBtpKE9.RswmqWmL9936cT2siCumLp7dc dVNLdefk4F13QcXSB8G7vlX+EnLO00evx7DxqiPuAfgpDSTCCtcBCuR59sLi 31r5o5wkXi8vsWbxSU9k5D3rUfJrOfp0ClB7zU.lMBOp0+kda+fnbwpmpV80 q9uZMQsSS.IrUrBY1XK2UPddsqLpVg0oT3tMZfNKIJhm0q.nH2TcLIlniNY2 VMT2XxEdqFpsBETlEti5ZU4DVaTqlOtsREDatZErMYjusgLxRFWVoZkbQ8MT SPobbkTv57KXHaJUDqq1EmQuoRgUKPAgT82ix6wFawY9s0LdQ9EYwH5evWMC R2UPLwn6FPsYLPkG8ip0.s+GpEqRUorsZMf9paM3GYQwUp8IYa1xQy1tXgnb PefU7jnLzWmjBlGXyyyhKMeQhoS4FsABkUi1pQLrgJrNkETQ8vJpw0wMVOer x9RP+6pT3K7Dphw6rsbd9toOWkTkFS0dQUeiK7wvA5NbXVdQrptm1clkGtoW 3GDPnthe43a6FD7rM8hZkCzgEmNVAOOuVhNNGXGybmcoYPDKh8ihr39cmV7z 4fBRsAf8cjo09Se6UG9pMRMW+9WTeha26KES6+q5T0oKyxAZPH9VeLpXMMFK MJLq5iEI.oJBLu8Ufm.OZ77fOQ1Rn34+P1W+kPXrawJ7qhXkOUMireP+hUgz +BKVI63l4SoRJ644ofVV6f7SPrNA6SOkVxMARijz4v7R334jvAR9mDM4zCMQ MJIQaj1LsASglGlr6ilLKN4ZO.ZBaaTZxe.jD08zHIhuiHwD7v5HCB105LI1 fAPr9FE9bF.EEXTJBODgLmSjgpXgtjPYBmnXuxVWBhkbgIVM4o+9n0ZctDKd Hpulc1.5P31Dr4oo9lN.a1oCFDuidhldItTUBXo2ze8105bmnfN.p08DoVGa o1qiCtlUYYqyjZ8HCAaMK+dH.njtIlyiDxPoIr4noAiSFzKoAI76ZVZxcHzj yKSgTsEm53Enxxs5snpsA.8cJaYhILbMqSTtCwIT2SzWcJUNwuCtNBJactl6 F.wFd8ow38BmsvSI4Q205b8XNXDX1mK.ND23cLqe7CI9Uri4iy+RSSUgG5p+ HIpz3nQKZUBfJEBksNW2AcFp8b7I6NnNwkbbb10xHTqsY8b.OBxBZWnopDbs BOIm+BGfGCsIpqTxkZqhBPSshVmK0RGCp0OPE7taMpU15boVxUnkJ7PVQRyZ PmNnvjLbn5zqPZZHV6nFdYVFhSeT5UHMYV8Nr2HrbTNZCrNXoAV8xrHZctyg MDIM7IxUE6mpR5SM8u1pqn0kvKf9roQ8N0YETQVpJnPOhptBazRteTK1KOcT a+8meDTjfQXFCepaMuunggpQRiV5jcsxuB+C9dg27m27+.7QBpFG -----------end_max5_patcher----------- */