Laser Sensing Display for UI interfaces in the real world
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main.cpp@36:233b12d0b1f0, 2013-03-13 (annotated)
- Committer:
- mbedalvaro
- Date:
- Wed Mar 13 11:38:48 2013 +0000
- Revision:
- 36:233b12d0b1f0
- Parent:
- 35:35af5086ab4f
- Child:
- 37:fa6b1f15819f
modified the way the "is touched" mode works
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
mbedalvaro | 0:345b3bc7a0ea | 1 | #include "mbed.h" |
mbedalvaro | 0:345b3bc7a0ea | 2 | #include "hardwareIO.h" |
mbedalvaro | 0:345b3bc7a0ea | 3 | #include "mbedOSC.h" |
mbedalvaro | 0:345b3bc7a0ea | 4 | #include "blobConfig.h" |
mbedalvaro | 0:345b3bc7a0ea | 5 | #include "simpleLaserRenderer.h" |
mbedalvaro | 0:345b3bc7a0ea | 6 | |
mbedalvaro | 0:345b3bc7a0ea | 7 | extern "C" void mbed_reset(); |
mbedalvaro | 0:345b3bc7a0ea | 8 | |
mbedalvaro | 0:345b3bc7a0ea | 9 | blobConfig blobconf; |
mbedalvaro | 0:345b3bc7a0ea | 10 | simpleLaserSensingRenderer lsr; |
mbedalvaro | 0:345b3bc7a0ea | 11 | |
mbedalvaro | 0:345b3bc7a0ea | 12 | // For tests: |
mbedalvaro | 0:345b3bc7a0ea | 13 | DigitalOut myled(LED1); |
mbedalvaro | 0:345b3bc7a0ea | 14 | DigitalOut myled2(LED2); |
mbedalvaro | 23:bf666fcc61bc | 15 | DigitalOut myled3(LED3); |
mbedalvaro | 0:345b3bc7a0ea | 16 | |
mbedalvaro | 0:345b3bc7a0ea | 17 | |
mbedalvaro | 1:a4050fee11f7 | 18 | // To test the time it takes for executing one loop in the main program: |
mbedalvaro | 10:6f8e48dca1bd | 19 | //#define LOOPTIMECOMPUTE |
mbedalvaro | 1:a4050fee11f7 | 20 | |
mbedalvaro | 1:a4050fee11f7 | 21 | // To get serial commands (for debug, or other things using a Terminal - for instance, a laser scan) |
mbedalvaro | 14:0fc33a3a7b4b | 22 | #define SERIAL_COMMANDS |
mbedalvaro | 0:345b3bc7a0ea | 23 | |
mbedalvaro | 0:345b3bc7a0ea | 24 | //---------- ETHERNET / OSC related (in the future, put somewhere else...): ------------------------------------------- |
mbedalvaro | 0:345b3bc7a0ea | 25 | // mbed IP address (server): |
mbedalvaro | 0:345b3bc7a0ea | 26 | #ifdef DHCP |
mbedalvaro | 0:345b3bc7a0ea | 27 | EthernetNetIf eth; |
mbedalvaro | 0:345b3bc7a0ea | 28 | #else |
mbedalvaro | 0:345b3bc7a0ea | 29 | EthernetNetIf eth( |
mbedalvaro | 36:233b12d0b1f0 | 30 | IpAddr(10,0,0,2), //IP Address of the mbed |
mbedalvaro | 1:a4050fee11f7 | 31 | IpAddr(255,255,255,0), //Network Mask |
mbedalvaro | 1:a4050fee11f7 | 32 | IpAddr(10,0,0,1), //Gateway |
mbedalvaro | 1:a4050fee11f7 | 33 | IpAddr(10,0,0,1) //DNS |
mbedalvaro | 0:345b3bc7a0ea | 34 | ); |
mbedalvaro | 0:345b3bc7a0ea | 35 | #endif |
mbedalvaro | 0:345b3bc7a0ea | 36 | |
mbedalvaro | 0:345b3bc7a0ea | 37 | //uint8_t serverMac[] = { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED }; |
mbedalvaro | 0:345b3bc7a0ea | 38 | uint8_t serverIp[] = { 10, 0, 0, 2 }; // not needed perhaps! |
mbedalvaro | 0:345b3bc7a0ea | 39 | int serverPort = 10000; |
mbedalvaro | 1:a4050fee11f7 | 40 | |
mbedalvaro | 32:52273c3291fe | 41 | //uint8_t destIp[] = {10, 0, 0, 3}; |
mbedalvaro | 32:52273c3291fe | 42 | uint8_t destIp[] = {255, 255, 255, 255}; // broadcast, so we can use several computers for sound, etc |
mbedalvaro | 0:345b3bc7a0ea | 43 | int destPort = 12000; |
mbedalvaro | 1:a4050fee11f7 | 44 | |
mbedalvaro | 0:345b3bc7a0ea | 45 | char *topAddress="/mbed"; |
mbedalvaro | 0:345b3bc7a0ea | 46 | char *subAddress[3]={ "/test1" , "/test2" , "/test3" }; |
mbedalvaro | 1:a4050fee11f7 | 47 | |
mbedalvaro | 0:345b3bc7a0ea | 48 | OSCMessage recMes; |
mbedalvaro | 0:345b3bc7a0ea | 49 | OSCMessage sendMes; |
mbedalvaro | 1:a4050fee11f7 | 50 | |
mbedalvaro | 1:a4050fee11f7 | 51 | OSCClass osc; |
mbedalvaro | 1:a4050fee11f7 | 52 | //OSCClass osc(&recMes); // instantiate OSC communication object, and set the receiver container from the OSC packets |
mbedalvaro | 1:a4050fee11f7 | 53 | |
mbedalvaro | 1:a4050fee11f7 | 54 | void processOSC(UDPSocketEvent e); |
mbedalvaro | 0:345b3bc7a0ea | 55 | // ---------------------------------------------------------------------------------------------------------------------- |
mbedalvaro | 0:345b3bc7a0ea | 56 | |
mbedalvaro | 2:34157ebbf56b | 57 | // Tickers: |
mbedalvaro | 0:345b3bc7a0ea | 58 | Ticker timerForRendering; |
mbedalvaro | 2:34157ebbf56b | 59 | //Ticker timerForSendingData; // better use a timer, so as not to interrupt the exact laser display ticker |
mbedalvaro | 2:34157ebbf56b | 60 | |
mbedalvaro | 9:3321170d157c | 61 | // Timers: |
mbedalvaro | 0:345b3bc7a0ea | 62 | Timer measureLoopPeriod; |
mbedalvaro | 9:3321170d157c | 63 | //Timer measureUpdatePeriod; |
mbedalvaro | 18:d72935b13858 | 64 | |
mbedalvaro | 0:345b3bc7a0ea | 65 | |
mbedalvaro | 1:a4050fee11f7 | 66 | // to get serial commands (not necessary perhaps) |
mbedalvaro | 0:345b3bc7a0ea | 67 | void processSerial(); |
mbedalvaro | 1:a4050fee11f7 | 68 | |
mbedalvaro | 0:345b3bc7a0ea | 69 | int main() { |
mbedalvaro | 1:a4050fee11f7 | 70 | |
mbedalvaro | 0:345b3bc7a0ea | 71 | // Initialize the hardware (laser powers, positions...): |
mbedalvaro | 0:345b3bc7a0ea | 72 | IO.init(); |
mbedalvaro | 0:345b3bc7a0ea | 73 | |
mbedalvaro | 1:a4050fee11f7 | 74 | // ------------------------------- |
mbedalvaro | 1:a4050fee11f7 | 75 | // Set the Ethernet port: |
mbedalvaro | 1:a4050fee11f7 | 76 | printf("Setting up...\r\n"); |
mbedalvaro | 1:a4050fee11f7 | 77 | EthernetErr ethErr = eth.setup(); |
mbedalvaro | 1:a4050fee11f7 | 78 | if (ethErr) { |
mbedalvaro | 1:a4050fee11f7 | 79 | printf("Error %d in setup.\r\n", ethErr); |
mbedalvaro | 1:a4050fee11f7 | 80 | return -1; |
mbedalvaro | 1:a4050fee11f7 | 81 | } |
mbedalvaro | 1:a4050fee11f7 | 82 | printf("Setup OK\r\n"); |
mbedalvaro | 1:a4050fee11f7 | 83 | |
mbedalvaro | 1:a4050fee11f7 | 84 | //(1) Sending message: |
mbedalvaro | 1:a4050fee11f7 | 85 | // Set IP and Port: |
mbedalvaro | 1:a4050fee11f7 | 86 | sendMes.setIp( destIp ); |
mbedalvaro | 1:a4050fee11f7 | 87 | sendMes.setPort( destPort ); |
mbedalvaro | 1:a4050fee11f7 | 88 | // Set data: |
mbedalvaro | 1:a4050fee11f7 | 89 | // sendMes.setTopAddress(topAddress); |
mbedalvaro | 1:a4050fee11f7 | 90 | |
mbedalvaro | 1:a4050fee11f7 | 91 | //setting osc functionnality: |
mbedalvaro | 1:a4050fee11f7 | 92 | //(2) Receiving: |
mbedalvaro | 1:a4050fee11f7 | 93 | // recMes.setIp( serverIp ); // not needed? |
mbedalvaro | 1:a4050fee11f7 | 94 | osc.setReceiveMessage(&recMes); // this sets the receiver container for the OSC packets (we can avoid doing this if we use osc.getMessage() to get messages) |
mbedalvaro | 1:a4050fee11f7 | 95 | osc.begin(serverPort, &processOSC); // binds the upd (osc) messages to an arbitrary listening port ("server" port), and callback function |
mbedalvaro | 1:a4050fee11f7 | 96 | // ------------------------------- |
mbedalvaro | 1:a4050fee11f7 | 97 | |
mbedalvaro | 0:345b3bc7a0ea | 98 | /* // sending seems not to work right after setting the osc object?? |
mbedalvaro | 0:345b3bc7a0ea | 99 | wait(1); |
mbedalvaro | 0:345b3bc7a0ea | 100 | sendMes.setTopAddress("starting"); |
mbedalvaro | 1:a4050fee11f7 | 101 | sendMes.setSubAddress(""); |
mbedalvaro | 0:345b3bc7a0ea | 102 | osc.sendOsc( &sendMes ); |
mbedalvaro | 0:345b3bc7a0ea | 103 | */ |
mbedalvaro | 1:a4050fee11f7 | 104 | |
mbedalvaro | 0:345b3bc7a0ea | 105 | // initialize with the desired blob configuration: |
mbedalvaro | 1:a4050fee11f7 | 106 | |
mbedalvaro | 0:345b3bc7a0ea | 107 | // Tested modes: |
mbedalvaro | 1:a4050fee11f7 | 108 | blobconf.clearConfig(); |
mbedalvaro | 10:6f8e48dca1bd | 109 | // blobconf.addOneElasticLoopContractCentral(); |
mbedalvaro | 11:62f7183a03e7 | 110 | // blobconf.addOneElasticContourFollowing(); |
mbedalvaro | 1:a4050fee11f7 | 111 | |
mbedalvaro | 14:0fc33a3a7b4b | 112 | // blobconf.addOneRigidLoopBouncing(); |
mbedalvaro | 9:3321170d157c | 113 | // blobconf.addOneRigidLoopBouncing(); |
mbedalvaro | 16:2ff1cb2ae1b1 | 114 | //blobconf.addOneRigidLoopFollowing(); |
mbedalvaro | 29:2fc8c12822eb | 115 | // blobconf.addOneRigidLoopFollowing(); |
mbedalvaro | 32:52273c3291fe | 116 | //blobconf.addOneElasticLoopContractCentralFast(); |
mbedalvaro | 32:52273c3291fe | 117 | //blobconf.addOneRigidLoopTest(); |
mbedalvaro | 2:34157ebbf56b | 118 | |
mbedalvaro | 32:52273c3291fe | 119 | // START WITH TWO FOLLOWING SPOTS (exhibition Tokyo Design Week): |
mbedalvaro | 32:52273c3291fe | 120 | blobconf.initConfig(FOLLOWING_SPOTS, 2); // value is the nb of spots instantiated |
mbedalvaro | 32:52273c3291fe | 121 | // Make them of different color: |
mbedalvaro | 32:52273c3291fe | 122 | blobconf.blobArray[0]->setBlueColor(1); |
mbedalvaro | 32:52273c3291fe | 123 | blobconf.blobArray[1]->setGreenColor(1); |
mbedalvaro | 32:52273c3291fe | 124 | // start in no stand by mode: |
mbedalvaro | 32:52273c3291fe | 125 | blobconf.allResume(); |
mbedalvaro | 1:a4050fee11f7 | 126 | |
mbedalvaro | 0:345b3bc7a0ea | 127 | // Important: first, set the initial position for all the blobs, this will be useful because |
mbedalvaro | 0:345b3bc7a0ea | 128 | // when changing modes we can use the previous central position... |
mbedalvaro | 1:a4050fee11f7 | 129 | // blobconf.setInitialPos(CENTER_AD_MIRROR_X, CENTER_AD_MIRROR_Y); |
mbedalvaro | 1:a4050fee11f7 | 130 | |
mbedalvaro | 24:4e52031a495b | 131 | // draw the config once before activating the laser buffer: |
mbedalvaro | 5:73cd58b58f95 | 132 | blobconf.draw(); |
mbedalvaro | 13:9f03eac02700 | 133 | lsr.startFullDisplay(); |
mbedalvaro | 1:a4050fee11f7 | 134 | |
mbedalvaro | 0:345b3bc7a0ea | 135 | // RENRERER (attn: setConfigToRender must be called when the blobconf is set - i.e., the number of blobs and number of points/blob is fixed) |
mbedalvaro | 1:a4050fee11f7 | 136 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 1:a4050fee11f7 | 137 | |
mbedalvaro | 1:a4050fee11f7 | 138 | // Timer on the rendering function of the oneLoop object: |
mbedalvaro | 9:3321170d157c | 139 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); // the address of the object, member function, and interval (in seconds) |
mbedalvaro | 9:3321170d157c | 140 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); // the address of the object, member function, and interval (in seconds) |
mbedalvaro | 1:a4050fee11f7 | 141 | |
mbedalvaro | 1:a4050fee11f7 | 142 | // Timer for sending OSC data: |
mbedalvaro | 9:3321170d157c | 143 | // timerForSendingData.attach(&blobconf, &blobConfig::sendConfData, 0.025); // time in seconds (25ms -> 40Hz) |
mbedalvaro | 1:a4050fee11f7 | 144 | |
mbedalvaro | 1:a4050fee11f7 | 145 | //========================================== INFINITE LOOP (in USER PROGRAM CONTEXT) =================================================================== |
mbedalvaro | 1:a4050fee11f7 | 146 | #ifdef LOOPTIMECOMPUTE |
mbedalvaro | 1:a4050fee11f7 | 147 | int timeCounterNum=1000; |
mbedalvaro | 1:a4050fee11f7 | 148 | #endif |
mbedalvaro | 1:a4050fee11f7 | 149 | |
mbedalvaro | 9:3321170d157c | 150 | //measureUpdatePeriod.start(); |
mbedalvaro | 1:a4050fee11f7 | 151 | |
mbedalvaro | 1:a4050fee11f7 | 152 | while (true) { |
mbedalvaro | 1:a4050fee11f7 | 153 | |
mbedalvaro | 13:9f03eac02700 | 154 | if (lsr.endedFullDisplay()) { |
mbedalvaro | 9:3321170d157c | 155 | |
mbedalvaro | 9:3321170d157c | 156 | // measureUpdatePeriod.stop(); |
mbedalvaro | 9:3321170d157c | 157 | // measureUpdatePeriod.reset(); |
mbedalvaro | 9:3321170d157c | 158 | |
mbedalvaro | 9:3321170d157c | 159 | // __disable_irq(); |
mbedalvaro | 9:3321170d157c | 160 | |
mbedalvaro | 1:a4050fee11f7 | 161 | // update config dynamics (this also could be threaded?): |
mbedalvaro | 1:a4050fee11f7 | 162 | blobconf.update(); |
mbedalvaro | 1:a4050fee11f7 | 163 | |
mbedalvaro | 10:6f8e48dca1bd | 164 | |
mbedalvaro | 1:a4050fee11f7 | 165 | // draw the config (note: each kind of blob renders differently) |
mbedalvaro | 1:a4050fee11f7 | 166 | blobconf.draw(); |
mbedalvaro | 18:d72935b13858 | 167 | |
mbedalvaro | 18:d72935b13858 | 168 | |
mbedalvaro | 18:d72935b13858 | 169 | // (b)Sending Data: // PUT THIS IN AN INTERRUPT OR USE A TIMER!!! it may be TOO FAST... |
mbedalvaro | 18:d72935b13858 | 170 | // NOTE: better use a timer, so the only ISR "ticker" is the laser rendering (otherwise the laser rendering will be interrupted by the sending of data - the other way is ok): |
mbedalvaro | 18:d72935b13858 | 171 | // NOTE: timer for sending is now not COMMON to all blobs, but depends on the blob (it could depend on the CONFIG only, but this can be simulated by using |
mbedalvaro | 18:d72935b13858 | 172 | // per blob timer counter. |
mbedalvaro | 18:d72935b13858 | 173 | blobconf.sendConfData(); |
mbedalvaro | 18:d72935b13858 | 174 | |
mbedalvaro | 16:2ff1cb2ae1b1 | 175 | |
mbedalvaro | 23:bf666fcc61bc | 176 | lsr.startFullDisplay(); // this start the point-display counter (wherever the actual laser is). Before update and draw, the counter needs to be reset. |
mbedalvaro | 16:2ff1cb2ae1b1 | 177 | |
mbedalvaro | 9:3321170d157c | 178 | |
mbedalvaro | 9:3321170d157c | 179 | // __enable_irq(); |
mbedalvaro | 9:3321170d157c | 180 | |
mbedalvaro | 9:3321170d157c | 181 | // measureUpdatePeriod.start(); |
mbedalvaro | 10:6f8e48dca1bd | 182 | |
mbedalvaro | 1:a4050fee11f7 | 183 | } |
mbedalvaro | 0:345b3bc7a0ea | 184 | |
mbedalvaro | 2:34157ebbf56b | 185 | |
mbedalvaro | 1:a4050fee11f7 | 186 | // COMMUNICATION: |
mbedalvaro | 1:a4050fee11f7 | 187 | // (a) Reading commands: |
mbedalvaro | 1:a4050fee11f7 | 188 | // Ethernet: |
mbedalvaro | 1:a4050fee11f7 | 189 | Net::poll(); // this will take care of calling processOSC(UDPSocketEvent e) when a new packet arrives. |
mbedalvaro | 1:a4050fee11f7 | 190 | |
mbedalvaro | 1:a4050fee11f7 | 191 | // Serial: |
mbedalvaro | 1:a4050fee11f7 | 192 | #ifdef SERIAL_COMMANDS |
mbedalvaro | 1:a4050fee11f7 | 193 | if (pc.readable()>0) processSerial(); |
mbedalvaro | 1:a4050fee11f7 | 194 | #endif |
mbedalvaro | 9:3321170d157c | 195 | |
mbedalvaro | 34:1244fa3f2559 | 196 | // Potentiometer, switches, etc: |
mbedalvaro | 34:1244fa3f2559 | 197 | //(1) Check for change of threshold mode button (switch one): |
mbedalvaro | 34:1244fa3f2559 | 198 | //!!! ATTENTION: this does not work very well to say the truth: bouncing+adc settings problems... |
mbedalvaro | 34:1244fa3f2559 | 199 | bool stateswitch; |
mbedalvaro | 34:1244fa3f2559 | 200 | if (IO.switchOneCheck(stateswitch)) { |
mbedalvaro | 34:1244fa3f2559 | 201 | if (stateswitch) pc.printf("Setting AUTO threshold mode\n"); else pc.printf("Setting FIXED threshold mode\n"); |
mbedalvaro | 34:1244fa3f2559 | 202 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.setThresholdMode((stateswitch? 1 : 0)); |
mbedalvaro | 34:1244fa3f2559 | 203 | } |
mbedalvaro | 34:1244fa3f2559 | 204 | //(2) in case the threshold mode is set to fixed, check the current pot value and update the threshold when pressing second switch: |
mbedalvaro | 34:1244fa3f2559 | 205 | if ((blobconf.blobArray[0]->displaySensingBuffer.modeThreshold==FIXED)&&(IO.switchTwoCheck(stateswitch))) { |
mbedalvaro | 34:1244fa3f2559 | 206 | IO.updatePotValue(); |
mbedalvaro | 34:1244fa3f2559 | 207 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.setFixedThreshold(IO.potValue); |
mbedalvaro | 34:1244fa3f2559 | 208 | pc.printf("Got :%d\n", IO.potValue); |
mbedalvaro | 34:1244fa3f2559 | 209 | } |
mbedalvaro | 34:1244fa3f2559 | 210 | |
mbedalvaro | 9:3321170d157c | 211 | |
mbedalvaro | 1:a4050fee11f7 | 212 | // text: |
mbedalvaro | 1:a4050fee11f7 | 213 | /* |
mbedalvaro | 1:a4050fee11f7 | 214 | sendMes.setTopAddress("/hello"); |
mbedalvaro | 1:a4050fee11f7 | 215 | sendMes.setSubAddress("/daito"); // ATTENTION: the host computer needs to know in advance how many points are in the loop (I did not implement "bundle" messages yet...) |
mbedalvaro | 1:a4050fee11f7 | 216 | int x=(long)10; |
mbedalvaro | 1:a4050fee11f7 | 217 | sendMes.setArgs( "i", &x); |
mbedalvaro | 1:a4050fee11f7 | 218 | osc.sendOsc( &sendMes ); |
mbedalvaro | 1:a4050fee11f7 | 219 | */ |
mbedalvaro | 1:a4050fee11f7 | 220 | |
mbedalvaro | 0:345b3bc7a0ea | 221 | #ifdef LOOPTIMECOMPUTE |
mbedalvaro | 9:3321170d157c | 222 | if (timeCounterNum>50) myled = 0; |
mbedalvaro | 9:3321170d157c | 223 | // if (timeCounterNum%10==0) blobconf.sendConfData(); |
mbedalvaro | 9:3321170d157c | 224 | if (timeCounterNum>100) { |
mbedalvaro | 1:a4050fee11f7 | 225 | myled = 1; |
mbedalvaro | 1:a4050fee11f7 | 226 | measureLoopPeriod.stop(); |
mbedalvaro | 1:a4050fee11f7 | 227 | sendMes.setTopAddress("/timeloop"); |
mbedalvaro | 1:a4050fee11f7 | 228 | sendMes.setSubAddress("/"); |
mbedalvaro | 10:6f8e48dca1bd | 229 | // long x=(long)(int(measureLoopPeriod.read_us()/100.0)); |
mbedalvaro | 9:3321170d157c | 230 | // long x=(long)(blobconf.blobArray[0]->displaySensingBuffer.lsdTrajectory.size()); |
mbedalvaro | 9:3321170d157c | 231 | // long x=(long)(blobconf.blobArray[0]->normRecenteringVector); |
mbedalvaro | 10:6f8e48dca1bd | 232 | long x=(long)(1000*blobconf.blobArray[0]->displaySensingBuffer.lsdTrajectory[0].intensity); |
mbedalvaro | 1:a4050fee11f7 | 233 | sendMes.setArgs( "i", &x); |
mbedalvaro | 1:a4050fee11f7 | 234 | osc.sendOsc( &sendMes ); |
mbedalvaro | 1:a4050fee11f7 | 235 | timeCounterNum=0; |
mbedalvaro | 1:a4050fee11f7 | 236 | measureLoopPeriod.reset(); |
mbedalvaro | 1:a4050fee11f7 | 237 | measureLoopPeriod.start(); |
mbedalvaro | 1:a4050fee11f7 | 238 | } else timeCounterNum++; |
mbedalvaro | 0:345b3bc7a0ea | 239 | #endif |
mbedalvaro | 0:345b3bc7a0ea | 240 | |
mbedalvaro | 0:345b3bc7a0ea | 241 | } |
mbedalvaro | 0:345b3bc7a0ea | 242 | } |
mbedalvaro | 0:345b3bc7a0ea | 243 | |
mbedalvaro | 1:a4050fee11f7 | 244 | // ================= INTERPRET COMMAND ========================= |
mbedalvaro | 0:345b3bc7a0ea | 245 | // NOTE: the following arrays are GLOBAL (used in processOSC and processSerial, as well as in interpretCommand function): |
mbedalvaro | 1:a4050fee11f7 | 246 | // max of two addresses (top and sub), of a max length of 24 characters: |
mbedalvaro | 0:345b3bc7a0ea | 247 | char address[2][24]; |
mbedalvaro | 0:345b3bc7a0ea | 248 | //long auxdata[2]; // to store a max of two arguments (note: we will only use LONGs) |
mbedalvaro | 1:a4050fee11f7 | 249 | int data[2]; // this is to have -1 as NO DATA, to detect errors. |
mbedalvaro | 1:a4050fee11f7 | 250 | |
mbedalvaro | 1:a4050fee11f7 | 251 | //interpretCommand(const char& address[2][], const int& data[2]) { |
mbedalvaro | 0:345b3bc7a0ea | 252 | void interpretCommand() { |
mbedalvaro | 0:345b3bc7a0ea | 253 | // (I) =========================================== SPECIAL FUNCTIONS (reset, rescan LUT, etc) ==================================================== |
mbedalvaro | 16:2ff1cb2ae1b1 | 254 | if ( !strcmp(address[0], "takeSnapshot" ) ) { |
mbedalvaro | 24:4e52031a495b | 255 | int value=data[0]; |
mbedalvaro | 24:4e52031a495b | 256 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 24:4e52031a495b | 257 | |
mbedalvaro | 1:a4050fee11f7 | 258 | // for test: |
mbedalvaro | 1:a4050fee11f7 | 259 | for (int i=0; i<2 ; i++) { |
mbedalvaro | 1:a4050fee11f7 | 260 | myled = 1; |
mbedalvaro | 1:a4050fee11f7 | 261 | wait(0.1); |
mbedalvaro | 1:a4050fee11f7 | 262 | myled = 0; |
mbedalvaro | 1:a4050fee11f7 | 263 | wait(0.1); |
mbedalvaro | 1:a4050fee11f7 | 264 | } |
mbedalvaro | 1:a4050fee11f7 | 265 | |
mbedalvaro | 1:a4050fee11f7 | 266 | // First, we need to disable the threaded display for the loop: |
mbedalvaro | 1:a4050fee11f7 | 267 | timerForRendering.detach(); |
mbedalvaro | 1:a4050fee11f7 | 268 | |
mbedalvaro | 24:4e52031a495b | 269 | // Then, do the scan (sending values on SERIAL port): |
mbedalvaro | 24:4e52031a495b | 270 | IO.scan_serial(value); |
mbedalvaro | 1:a4050fee11f7 | 271 | |
mbedalvaro | 1:a4050fee11f7 | 272 | // Finally, start again threaded display: |
mbedalvaro | 9:3321170d157c | 273 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 9:3321170d157c | 274 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 24:4e52031a495b | 275 | |
mbedalvaro | 24:4e52031a495b | 276 | } |
mbedalvaro | 1:a4050fee11f7 | 277 | } |
mbedalvaro | 1:a4050fee11f7 | 278 | |
mbedalvaro | 1:a4050fee11f7 | 279 | else if ( !strcmp(address[0], "mbedReset" ) ) mbed_reset(); |
mbedalvaro | 22:d87317d7ca91 | 280 | |
mbedalvaro | 22:d87317d7ca91 | 281 | else if (!strcmp(address[0], "showMirrorLimits")) { |
mbedalvaro | 22:d87317d7ca91 | 282 | int value=data[0]; |
mbedalvaro | 22:d87317d7ca91 | 283 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 22:d87317d7ca91 | 284 | timerForRendering.detach(); |
mbedalvaro | 24:4e52031a495b | 285 | IO.showLimitsMirrors(value); |
mbedalvaro | 22:d87317d7ca91 | 286 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 24:4e52031a495b | 287 | } |
mbedalvaro | 22:d87317d7ca91 | 288 | } |
mbedalvaro | 1:a4050fee11f7 | 289 | |
mbedalvaro | 1:a4050fee11f7 | 290 | else if ( !strcmp(address[0], "calibrate" ) ) { |
mbedalvaro | 1:a4050fee11f7 | 291 | // First, we need to disable the threaded display for the loop: |
mbedalvaro | 1:a4050fee11f7 | 292 | timerForRendering.detach(); |
mbedalvaro | 1:a4050fee11f7 | 293 | // RESCAN (and save LUT table): |
mbedalvaro | 1:a4050fee11f7 | 294 | IO.scanLUT(); |
mbedalvaro | 1:a4050fee11f7 | 295 | // Finally, start again threaded display: |
mbedalvaro | 9:3321170d157c | 296 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 9:3321170d157c | 297 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 1:a4050fee11f7 | 298 | } |
mbedalvaro | 1:a4050fee11f7 | 299 | |
mbedalvaro | 1:a4050fee11f7 | 300 | // (II) ========================================= GLOBAL CONFIG and HARDWARE COMMANDS =========================================== |
mbedalvaro | 1:a4050fee11f7 | 301 | |
mbedalvaro | 32:52273c3291fe | 302 | else if ( !strcmp(address[0], "setAllColor" ) ) { |
mbedalvaro | 32:52273c3291fe | 303 | int value=data[0]; // this is the color (RGB bits) |
mbedalvaro | 32:52273c3291fe | 304 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 32:52273c3291fe | 305 | blobconf.allSetColor(value); |
mbedalvaro | 32:52273c3291fe | 306 | } |
mbedalvaro | 32:52273c3291fe | 307 | } |
mbedalvaro | 33:43e8bc451ef0 | 308 | |
mbedalvaro | 33:43e8bc451ef0 | 309 | else if ( !strcmp(address[0], "setAllRandomColor" ) ) { |
mbedalvaro | 33:43e8bc451ef0 | 310 | blobconf.randomizeAllColors(); |
mbedalvaro | 33:43e8bc451ef0 | 311 | } |
mbedalvaro | 32:52273c3291fe | 312 | |
mbedalvaro | 32:52273c3291fe | 313 | else if ( !strcmp(address[0], "setAllGreenColor" ) ) { |
mbedalvaro | 1:a4050fee11f7 | 314 | int value=data[0]; |
mbedalvaro | 1:a4050fee11f7 | 315 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 25:74cb85b85fd2 | 316 | if (value==0) |
mbedalvaro | 32:52273c3291fe | 317 | blobconf.allSetGreen(1); |
mbedalvaro | 25:74cb85b85fd2 | 318 | else |
mbedalvaro | 32:52273c3291fe | 319 | blobconf.allSetGreen(0); |
mbedalvaro | 1:a4050fee11f7 | 320 | } |
mbedalvaro | 1:a4050fee11f7 | 321 | } |
mbedalvaro | 23:bf666fcc61bc | 322 | |
mbedalvaro | 32:52273c3291fe | 323 | else if ( !strcmp(address[0], "setAllBlueColor" ) ) { |
mbedalvaro | 32:52273c3291fe | 324 | int value=data[0]; |
mbedalvaro | 32:52273c3291fe | 325 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 32:52273c3291fe | 326 | if (value==0) |
mbedalvaro | 32:52273c3291fe | 327 | blobconf.allSetBlue(1); |
mbedalvaro | 32:52273c3291fe | 328 | else |
mbedalvaro | 32:52273c3291fe | 329 | blobconf.allSetBlue(0); |
mbedalvaro | 32:52273c3291fe | 330 | } |
mbedalvaro | 32:52273c3291fe | 331 | } |
mbedalvaro | 32:52273c3291fe | 332 | |
mbedalvaro | 32:52273c3291fe | 333 | // NOTE: RED either afect the lock in, or some other red laser... not yet done. |
mbedalvaro | 32:52273c3291fe | 334 | |
mbedalvaro | 23:bf666fcc61bc | 335 | else if ( !strcmp(address[0], "testPower" ) ) { |
mbedalvaro | 23:bf666fcc61bc | 336 | // First, we need to disable the threaded display for the loop: |
mbedalvaro | 23:bf666fcc61bc | 337 | timerForRendering.detach(); |
mbedalvaro | 23:bf666fcc61bc | 338 | |
mbedalvaro | 23:bf666fcc61bc | 339 | // Note: arguments is first 3 bits to set the laser powers (3 LSB bits to set each color) |
mbedalvaro | 23:bf666fcc61bc | 340 | // and then the second argument is the number of seconds to wait for the measurment |
mbedalvaro | 23:bf666fcc61bc | 341 | int value1=data[0], value2=data[1]; |
mbedalvaro | 23:bf666fcc61bc | 342 | if ((value1!=-1)&&(value2!=-1)) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 23:bf666fcc61bc | 343 | |
mbedalvaro | 23:bf666fcc61bc | 344 | // Set position of mirrors: |
mbedalvaro | 23:bf666fcc61bc | 345 | IO.writeOutX(CENTER_AD_MIRROR_X); |
mbedalvaro | 23:bf666fcc61bc | 346 | IO.writeOutY(CENTER_AD_MIRROR_Y); |
mbedalvaro | 23:bf666fcc61bc | 347 | |
mbedalvaro | 23:bf666fcc61bc | 348 | for (int i=0; i<3 ; i++) { |
mbedalvaro | 23:bf666fcc61bc | 349 | myled3 = 1; |
mbedalvaro | 23:bf666fcc61bc | 350 | wait(0.2); |
mbedalvaro | 23:bf666fcc61bc | 351 | myled3 = 0; |
mbedalvaro | 23:bf666fcc61bc | 352 | wait(0.2); |
mbedalvaro | 23:bf666fcc61bc | 353 | } |
mbedalvaro | 23:bf666fcc61bc | 354 | |
mbedalvaro | 23:bf666fcc61bc | 355 | // Set laser power: |
mbedalvaro | 23:bf666fcc61bc | 356 | IO.setRGBPower((unsigned char)value1); |
mbedalvaro | 23:bf666fcc61bc | 357 | |
mbedalvaro | 23:bf666fcc61bc | 358 | // Wait... |
mbedalvaro | 23:bf666fcc61bc | 359 | wait(value2);// in seconds |
mbedalvaro | 23:bf666fcc61bc | 360 | //Timer t; |
mbedalvaro | 23:bf666fcc61bc | 361 | //t.start(); |
mbedalvaro | 23:bf666fcc61bc | 362 | //while(t.read_ms()<value2*1000); |
mbedalvaro | 23:bf666fcc61bc | 363 | //t.stop(); |
mbedalvaro | 23:bf666fcc61bc | 364 | } |
mbedalvaro | 23:bf666fcc61bc | 365 | |
mbedalvaro | 23:bf666fcc61bc | 366 | // Finally, start again threaded display: |
mbedalvaro | 23:bf666fcc61bc | 367 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 23:bf666fcc61bc | 368 | |
mbedalvaro | 23:bf666fcc61bc | 369 | } |
mbedalvaro | 23:bf666fcc61bc | 370 | |
mbedalvaro | 23:bf666fcc61bc | 371 | |
mbedalvaro | 1:a4050fee11f7 | 372 | |
mbedalvaro | 1:a4050fee11f7 | 373 | // SIMPLE BEHAVIOUR MODES (to be read from an XML file in the future): |
mbedalvaro | 11:62f7183a03e7 | 374 | else if (!strcmp(address[0], "elastic_following")) { // |
mbedalvaro | 1:a4050fee11f7 | 375 | timerForRendering.detach(); |
mbedalvaro | 30:d8af03f01cd4 | 376 | |
mbedalvaro | 30:d8af03f01cd4 | 377 | blobconf.initConfig(ONE_ELASTIC_FOLLOWING); |
mbedalvaro | 30:d8af03f01cd4 | 378 | |
mbedalvaro | 1:a4050fee11f7 | 379 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 9:3321170d157c | 380 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 9:3321170d157c | 381 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 16:2ff1cb2ae1b1 | 382 | |
mbedalvaro | 11:62f7183a03e7 | 383 | } else if (!strcmp(address[0], "elastic_mouth")) { // |
mbedalvaro | 1:a4050fee11f7 | 384 | timerForRendering.detach(); |
mbedalvaro | 30:d8af03f01cd4 | 385 | |
mbedalvaro | 30:d8af03f01cd4 | 386 | blobconf.initConfig(ONE_ELASTIC_MOUTH); |
mbedalvaro | 30:d8af03f01cd4 | 387 | |
mbedalvaro | 1:a4050fee11f7 | 388 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 9:3321170d157c | 389 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 9:3321170d157c | 390 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 19:228430f1350e | 391 | |
mbedalvaro | 19:228430f1350e | 392 | } else if (!strcmp(address[0], "elastic_mouth_small")) { // |
mbedalvaro | 19:228430f1350e | 393 | timerForRendering.detach(); |
mbedalvaro | 30:d8af03f01cd4 | 394 | |
mbedalvaro | 30:d8af03f01cd4 | 395 | blobconf.initConfig(ONE_ELASTIC_MOUTH_SMALL); |
mbedalvaro | 30:d8af03f01cd4 | 396 | |
mbedalvaro | 19:228430f1350e | 397 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 19:228430f1350e | 398 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 19:228430f1350e | 399 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 1:a4050fee11f7 | 400 | } |
mbedalvaro | 11:62f7183a03e7 | 401 | else if (!strcmp(address[0], "spot_bouncing")) { |
mbedalvaro | 16:2ff1cb2ae1b1 | 402 | int value=data[0]; |
mbedalvaro | 16:2ff1cb2ae1b1 | 403 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 16:2ff1cb2ae1b1 | 404 | timerForRendering.detach(); |
mbedalvaro | 30:d8af03f01cd4 | 405 | |
mbedalvaro | 30:d8af03f01cd4 | 406 | blobconf.initConfig(BOUNCING_SPOTS, value); // value is the nb of spots instantiated |
mbedalvaro | 16:2ff1cb2ae1b1 | 407 | |
mbedalvaro | 16:2ff1cb2ae1b1 | 408 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 16:2ff1cb2ae1b1 | 409 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 16:2ff1cb2ae1b1 | 410 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 16:2ff1cb2ae1b1 | 411 | } |
mbedalvaro | 16:2ff1cb2ae1b1 | 412 | } |
mbedalvaro | 16:2ff1cb2ae1b1 | 413 | |
mbedalvaro | 30:d8af03f01cd4 | 414 | else if (!strcmp(address[0], "spot_lorentz")) { |
mbedalvaro | 27:1ce994629ffc | 415 | int value=data[0]; |
mbedalvaro | 27:1ce994629ffc | 416 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 27:1ce994629ffc | 417 | timerForRendering.detach(); |
mbedalvaro | 30:d8af03f01cd4 | 418 | |
mbedalvaro | 30:d8af03f01cd4 | 419 | blobconf.initConfig(LORENTZ_SPOTS, value); // value is the nb of spots instantiated |
mbedalvaro | 27:1ce994629ffc | 420 | |
mbedalvaro | 27:1ce994629ffc | 421 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 27:1ce994629ffc | 422 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 27:1ce994629ffc | 423 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 27:1ce994629ffc | 424 | } |
mbedalvaro | 27:1ce994629ffc | 425 | } |
mbedalvaro | 28:44b7b6e35548 | 426 | |
mbedalvaro | 28:44b7b6e35548 | 427 | else if (!strcmp(address[0], "air_hockey")) { |
mbedalvaro | 28:44b7b6e35548 | 428 | int value=data[0]; |
mbedalvaro | 28:44b7b6e35548 | 429 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 28:44b7b6e35548 | 430 | timerForRendering.detach(); |
mbedalvaro | 30:d8af03f01cd4 | 431 | |
mbedalvaro | 30:d8af03f01cd4 | 432 | blobconf.initConfig(AIR_HOCKEY_GAME, value); // value is the nb of spots instantiated |
mbedalvaro | 28:44b7b6e35548 | 433 | |
mbedalvaro | 28:44b7b6e35548 | 434 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 28:44b7b6e35548 | 435 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 28:44b7b6e35548 | 436 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 28:44b7b6e35548 | 437 | } |
mbedalvaro | 28:44b7b6e35548 | 438 | } |
mbedalvaro | 32:52273c3291fe | 439 | |
mbedalvaro | 32:52273c3291fe | 440 | else if (!strcmp(address[0], "rain_mode")) { |
mbedalvaro | 32:52273c3291fe | 441 | int value=data[0]; |
mbedalvaro | 32:52273c3291fe | 442 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 32:52273c3291fe | 443 | timerForRendering.detach(); |
mbedalvaro | 32:52273c3291fe | 444 | |
mbedalvaro | 32:52273c3291fe | 445 | blobconf.initConfig(RAIN_MODE, value); // value is the nb of spots instantiated |
mbedalvaro | 32:52273c3291fe | 446 | |
mbedalvaro | 32:52273c3291fe | 447 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 32:52273c3291fe | 448 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 32:52273c3291fe | 449 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 32:52273c3291fe | 450 | } |
mbedalvaro | 32:52273c3291fe | 451 | } |
mbedalvaro | 32:52273c3291fe | 452 | |
mbedalvaro | 28:44b7b6e35548 | 453 | |
mbedalvaro | 28:44b7b6e35548 | 454 | else if (!strcmp(address[0], "spot_following")) { |
mbedalvaro | 16:2ff1cb2ae1b1 | 455 | int value=data[0]; |
mbedalvaro | 16:2ff1cb2ae1b1 | 456 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 16:2ff1cb2ae1b1 | 457 | |
mbedalvaro | 16:2ff1cb2ae1b1 | 458 | timerForRendering.detach(); |
mbedalvaro | 22:d87317d7ca91 | 459 | |
mbedalvaro | 30:d8af03f01cd4 | 460 | blobconf.initConfig(FOLLOWING_SPOTS, value); // value is the nb of spots instantiated |
mbedalvaro | 22:d87317d7ca91 | 461 | |
mbedalvaro | 16:2ff1cb2ae1b1 | 462 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 16:2ff1cb2ae1b1 | 463 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 16:2ff1cb2ae1b1 | 464 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 16:2ff1cb2ae1b1 | 465 | } |
mbedalvaro | 16:2ff1cb2ae1b1 | 466 | } |
mbedalvaro | 16:2ff1cb2ae1b1 | 467 | |
mbedalvaro | 30:d8af03f01cd4 | 468 | else if (!strcmp(address[0], "circular_pong")) { |
mbedalvaro | 30:d8af03f01cd4 | 469 | int value=data[0]; |
mbedalvaro | 30:d8af03f01cd4 | 470 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 30:d8af03f01cd4 | 471 | |
mbedalvaro | 30:d8af03f01cd4 | 472 | timerForRendering.detach(); |
mbedalvaro | 30:d8af03f01cd4 | 473 | |
mbedalvaro | 30:d8af03f01cd4 | 474 | blobconf.initConfig(CIRCULAR_PONG_GAME, value); // value is the nb of spots instantiated |
mbedalvaro | 30:d8af03f01cd4 | 475 | |
mbedalvaro | 30:d8af03f01cd4 | 476 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 30:d8af03f01cd4 | 477 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 30:d8af03f01cd4 | 478 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 30:d8af03f01cd4 | 479 | } |
mbedalvaro | 30:d8af03f01cd4 | 480 | } |
mbedalvaro | 31:5f039cbddee8 | 481 | |
mbedalvaro | 31:5f039cbddee8 | 482 | else if (!strcmp(address[0], "fish_net")) { |
mbedalvaro | 30:d8af03f01cd4 | 483 | int value=data[0]; |
mbedalvaro | 30:d8af03f01cd4 | 484 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 30:d8af03f01cd4 | 485 | |
mbedalvaro | 30:d8af03f01cd4 | 486 | timerForRendering.detach(); |
mbedalvaro | 30:d8af03f01cd4 | 487 | |
mbedalvaro | 31:5f039cbddee8 | 488 | blobconf.initConfig(FISH_NET_GAME, value); // value is the nb of spots instantiated |
mbedalvaro | 31:5f039cbddee8 | 489 | |
mbedalvaro | 31:5f039cbddee8 | 490 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 31:5f039cbddee8 | 491 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 31:5f039cbddee8 | 492 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 31:5f039cbddee8 | 493 | } |
mbedalvaro | 31:5f039cbddee8 | 494 | } |
mbedalvaro | 31:5f039cbddee8 | 495 | |
mbedalvaro | 31:5f039cbddee8 | 496 | else if (!strcmp(address[0], "vertical_pinball")) { |
mbedalvaro | 31:5f039cbddee8 | 497 | int value=data[0]; |
mbedalvaro | 31:5f039cbddee8 | 498 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 31:5f039cbddee8 | 499 | |
mbedalvaro | 31:5f039cbddee8 | 500 | timerForRendering.detach(); |
mbedalvaro | 31:5f039cbddee8 | 501 | |
mbedalvaro | 31:5f039cbddee8 | 502 | blobconf.initConfig(VERTICAL_PINBALL_GAME, value); |
mbedalvaro | 31:5f039cbddee8 | 503 | |
mbedalvaro | 31:5f039cbddee8 | 504 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 31:5f039cbddee8 | 505 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 31:5f039cbddee8 | 506 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 31:5f039cbddee8 | 507 | } |
mbedalvaro | 31:5f039cbddee8 | 508 | } |
mbedalvaro | 31:5f039cbddee8 | 509 | |
mbedalvaro | 31:5f039cbddee8 | 510 | else if (!strcmp(address[0], "pac_man")) { |
mbedalvaro | 31:5f039cbddee8 | 511 | timerForRendering.detach(); |
mbedalvaro | 31:5f039cbddee8 | 512 | |
mbedalvaro | 30:d8af03f01cd4 | 513 | blobconf.initConfig(PAC_MAN_GAME); |
mbedalvaro | 30:d8af03f01cd4 | 514 | |
mbedalvaro | 30:d8af03f01cd4 | 515 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 30:d8af03f01cd4 | 516 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 30:d8af03f01cd4 | 517 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 30:d8af03f01cd4 | 518 | } |
mbedalvaro | 30:d8af03f01cd4 | 519 | |
mbedalvaro | 31:5f039cbddee8 | 520 | else if (!strcmp(address[0], "spot_tracking")) { |
mbedalvaro | 31:5f039cbddee8 | 521 | timerForRendering.detach(); |
mbedalvaro | 31:5f039cbddee8 | 522 | |
mbedalvaro | 31:5f039cbddee8 | 523 | blobconf.initConfig(ONE_TRACKING_SPOT); // value is the nb of spots instantiated |
mbedalvaro | 31:5f039cbddee8 | 524 | |
mbedalvaro | 31:5f039cbddee8 | 525 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 31:5f039cbddee8 | 526 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 31:5f039cbddee8 | 527 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 31:5f039cbddee8 | 528 | } |
mbedalvaro | 30:d8af03f01cd4 | 529 | |
mbedalvaro | 16:2ff1cb2ae1b1 | 530 | else if (!strcmp(address[0], "spot_test")) { |
mbedalvaro | 0:345b3bc7a0ea | 531 | timerForRendering.detach(); |
mbedalvaro | 0:345b3bc7a0ea | 532 | // blobconf.computeBoundingBox(); |
mbedalvaro | 1:a4050fee11f7 | 533 | blobconf.clearConfig(); |
mbedalvaro | 16:2ff1cb2ae1b1 | 534 | blobconf.addOneRigidLoopTest(); |
mbedalvaro | 1:a4050fee11f7 | 535 | lsr.setConfigToRender(&blobconf); |
mbedalvaro | 9:3321170d157c | 536 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 9:3321170d157c | 537 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 1:a4050fee11f7 | 538 | } |
mbedalvaro | 1:a4050fee11f7 | 539 | |
mbedalvaro | 1:a4050fee11f7 | 540 | // other: |
mbedalvaro | 1:a4050fee11f7 | 541 | |
mbedalvaro | 24:4e52031a495b | 542 | else if ( !strcmp(address[0], "standby" ) ) { // will put ALL the blobs in stand by mode (no update function) |
mbedalvaro | 0:345b3bc7a0ea | 543 | blobconf.allStandBy(); // will avoid the update function |
mbedalvaro | 24:4e52031a495b | 544 | } |
mbedalvaro | 24:4e52031a495b | 545 | else if ( !strcmp(address[0], "resume" ) ) { |
mbedalvaro | 24:4e52031a495b | 546 | blobconf.allResume(); // Update function is called for all the blobs |
mbedalvaro | 1:a4050fee11f7 | 547 | } |
mbedalvaro | 1:a4050fee11f7 | 548 | |
mbedalvaro | 1:a4050fee11f7 | 549 | // (III) ========================================= Loop control (parameters, etc) =========================================== |
mbedalvaro | 19:228430f1350e | 550 | |
mbedalvaro | 33:43e8bc451ef0 | 551 | else if (!strcmp( address[0], "setSpeed" ) ) { |
mbedalvaro | 33:43e8bc451ef0 | 552 | int value=data[0]; // value 1 means a speed of 0.1, value 10, a speed of 1, etc. |
mbedalvaro | 33:43e8bc451ef0 | 553 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 33:43e8bc451ef0 | 554 | for (int i=0; i< blobconf.numBlobs; i++) { |
mbedalvaro | 33:43e8bc451ef0 | 555 | //if ((!strcmp(blobconf.blobArray[i].spotName, "rigid_following"))||(!strcmp(blobconf.blobArray[i].spotName, "rigid_following"))) { |
mbedalvaro | 33:43e8bc451ef0 | 556 | blobconf.blobArray[i]->setSpeed((float)(0.1*value)); |
mbedalvaro | 33:43e8bc451ef0 | 557 | } |
mbedalvaro | 33:43e8bc451ef0 | 558 | } |
mbedalvaro | 33:43e8bc451ef0 | 559 | } |
mbedalvaro | 24:4e52031a495b | 560 | else if (!strcmp( address[0], "speedFactor" ) ) { |
mbedalvaro | 24:4e52031a495b | 561 | int value=data[0]; // value 100 means no change of speed. 200 is twice as fast, 50 is half as fast. |
mbedalvaro | 24:4e52031a495b | 562 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 24:4e52031a495b | 563 | for (int i=0; i< blobconf.numBlobs; i++) { |
mbedalvaro | 24:4e52031a495b | 564 | //if ((!strcmp(blobconf.blobArray[i].spotName, "rigid_following"))||(!strcmp(blobconf.blobArray[i].spotName, "rigid_following"))) { |
mbedalvaro | 24:4e52031a495b | 565 | blobconf.blobArray[i]->speedFactor((float)(1.0*value/100.0)); |
mbedalvaro | 24:4e52031a495b | 566 | } |
mbedalvaro | 24:4e52031a495b | 567 | } |
mbedalvaro | 24:4e52031a495b | 568 | } |
mbedalvaro | 24:4e52031a495b | 569 | |
mbedalvaro | 33:43e8bc451ef0 | 570 | else if (!strcmp( address[0], "setSize" ) ) { |
mbedalvaro | 33:43e8bc451ef0 | 571 | int value=data[0]; // this is the direct size of the scafold |
mbedalvaro | 32:52273c3291fe | 572 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 33:43e8bc451ef0 | 573 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->setSize((float)(1.0*value)); |
mbedalvaro | 32:52273c3291fe | 574 | } |
mbedalvaro | 32:52273c3291fe | 575 | } |
mbedalvaro | 33:43e8bc451ef0 | 576 | else if (!strcmp( address[0], "sizeFactor" ) ) { |
mbedalvaro | 33:43e8bc451ef0 | 577 | int value=data[0]; // value 100 means no change of sice. 200 is twice as big, 50 is half as big. |
mbedalvaro | 33:43e8bc451ef0 | 578 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 33:43e8bc451ef0 | 579 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->sizeFactor((float)(1.0*value/100.0)); |
mbedalvaro | 33:43e8bc451ef0 | 580 | } |
mbedalvaro | 33:43e8bc451ef0 | 581 | } |
mbedalvaro | 33:43e8bc451ef0 | 582 | |
mbedalvaro | 32:52273c3291fe | 583 | // ADJUST MIRROR ANGLE CORRECTION: |
mbedalvaro | 32:52273c3291fe | 584 | else if (!strcmp( address[0], "adjustPlusAngle" ) ) { |
mbedalvaro | 32:52273c3291fe | 585 | int value=data[0]; // this is not a factor, but an additive quantity to the current delay |
mbedalvaro | 32:52273c3291fe | 586 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 32:52273c3291fe | 587 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.addDelayMirrors(value); |
mbedalvaro | 32:52273c3291fe | 588 | } |
mbedalvaro | 32:52273c3291fe | 589 | } |
mbedalvaro | 32:52273c3291fe | 590 | else if (!strcmp( address[0], "adjustMinusAngle" ) ) { |
mbedalvaro | 32:52273c3291fe | 591 | int value=data[0]; // this is not a factor, but an substractive quantity to the current delay |
mbedalvaro | 32:52273c3291fe | 592 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 32:52273c3291fe | 593 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.addDelayMirrors(-value); |
mbedalvaro | 32:52273c3291fe | 594 | } |
mbedalvaro | 32:52273c3291fe | 595 | } |
mbedalvaro | 32:52273c3291fe | 596 | |
mbedalvaro | 24:4e52031a495b | 597 | else if (!strcmp( address[0], "adjustPlusAngle" ) ) { |
mbedalvaro | 24:4e52031a495b | 598 | int value=data[0]; // value 100 means no change of speed. 200 is twice as fast, 50 is half as fast. |
mbedalvaro | 24:4e52031a495b | 599 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 24:4e52031a495b | 600 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.addDelayMirrors(value); |
mbedalvaro | 24:4e52031a495b | 601 | } |
mbedalvaro | 24:4e52031a495b | 602 | } |
mbedalvaro | 24:4e52031a495b | 603 | |
mbedalvaro | 33:43e8bc451ef0 | 604 | |
mbedalvaro | 33:43e8bc451ef0 | 605 | // THRESHOLD MODE, and PARAMETERS: |
mbedalvaro | 34:1244fa3f2559 | 606 | //(1) Set the threshold mode: |
mbedalvaro | 33:43e8bc451ef0 | 607 | else if (!strcmp( address[0], "autoThreshold" ) ) { |
mbedalvaro | 34:1244fa3f2559 | 608 | int value=data[0]; // 1 (auto) or 0 (fixed) |
mbedalvaro | 33:43e8bc451ef0 | 609 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 33:43e8bc451ef0 | 610 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.setThresholdMode(value); |
mbedalvaro | 33:43e8bc451ef0 | 611 | } |
mbedalvaro | 35:35af5086ab4f | 612 | // set led and switch state (global value of threshold): |
mbedalvaro | 35:35af5086ab4f | 613 | IO.setSwitchOneState(value>0); |
mbedalvaro | 33:43e8bc451ef0 | 614 | } |
mbedalvaro | 33:43e8bc451ef0 | 615 | |
mbedalvaro | 33:43e8bc451ef0 | 616 | // (a) AUTO THRESHOLD: |
mbedalvaro | 33:43e8bc451ef0 | 617 | // MINIMUM CONTRAST RATIO: |
mbedalvaro | 33:43e8bc451ef0 | 618 | // (1) using multiplicative factor: |
mbedalvaro | 32:52273c3291fe | 619 | else if (!strcmp( address[0], "adjustMultContrast" ) ) { |
mbedalvaro | 32:52273c3291fe | 620 | int value=data[0]; // value 100 means no change of the current contrast value. 200 means a min contrast |
mbedalvaro | 32:52273c3291fe | 621 | // that is twice as large and 50 is half as large as before. |
mbedalvaro | 24:4e52031a495b | 622 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 32:52273c3291fe | 623 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.multMinContrastRatio((float)(1.0*value/100.0)); |
mbedalvaro | 32:52273c3291fe | 624 | } |
mbedalvaro | 32:52273c3291fe | 625 | } |
mbedalvaro | 32:52273c3291fe | 626 | // (2) directly: |
mbedalvaro | 32:52273c3291fe | 627 | else if (!strcmp( address[0], "adjustContrast" ) ) { |
mbedalvaro | 32:52273c3291fe | 628 | int value=data[0]; // value is in PERCENT (100=1, 50 = 0.5...) |
mbedalvaro | 32:52273c3291fe | 629 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 32:52273c3291fe | 630 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.setMinContrastRatio((float)(1.0*value/100.0)); |
mbedalvaro | 24:4e52031a495b | 631 | } |
mbedalvaro | 24:4e52031a495b | 632 | } |
mbedalvaro | 34:1244fa3f2559 | 633 | // THRESHOLD FACTOR: |
mbedalvaro | 32:52273c3291fe | 634 | //(1) using multiplicative factor: |
mbedalvaro | 32:52273c3291fe | 635 | else if (!strcmp( address[0], "adjustMultThreshold" ) ) { |
mbedalvaro | 32:52273c3291fe | 636 | int value=data[0]; // value 100 means no change of the current contrast value. 200 means a min contrast |
mbedalvaro | 32:52273c3291fe | 637 | // that is twice as large and 50 is half as large as before. |
mbedalvaro | 32:52273c3291fe | 638 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 32:52273c3291fe | 639 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.multThresholdFactor((float)(1.0*value/100.0)); |
mbedalvaro | 32:52273c3291fe | 640 | } |
mbedalvaro | 32:52273c3291fe | 641 | } |
mbedalvaro | 32:52273c3291fe | 642 | //(2) directly: |
mbedalvaro | 32:52273c3291fe | 643 | else if (!strcmp( address[0], "adjustThresholdFactor" ) ) { |
mbedalvaro | 32:52273c3291fe | 644 | int value=data[0]; // value is in PERCENT (100=1, 50 = 0.5...) |
mbedalvaro | 32:52273c3291fe | 645 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 32:52273c3291fe | 646 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.setThresholdFactor((float)(1.0*value/100.0)); |
mbedalvaro | 32:52273c3291fe | 647 | } |
mbedalvaro | 32:52273c3291fe | 648 | } |
mbedalvaro | 33:43e8bc451ef0 | 649 | // MINIMUM ACCEPTABLE INTENSITY: |
mbedalvaro | 32:52273c3291fe | 650 | // Adjust minimum acceptable intensity: |
mbedalvaro | 32:52273c3291fe | 651 | else if (!strcmp( address[0], "adjustMinAcceptableIntensity" ) ) { |
mbedalvaro | 32:52273c3291fe | 652 | int value=data[0]; // value is DIRECT value (0 to 255) |
mbedalvaro | 32:52273c3291fe | 653 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 32:52273c3291fe | 654 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.setMinAcceptableIntensity(value); |
mbedalvaro | 32:52273c3291fe | 655 | } |
mbedalvaro | 32:52273c3291fe | 656 | } |
mbedalvaro | 32:52273c3291fe | 657 | |
mbedalvaro | 33:43e8bc451ef0 | 658 | // (b) FIXED THRESHOLD: |
mbedalvaro | 33:43e8bc451ef0 | 659 | // Adjust fixedThreshold (directly): |
mbedalvaro | 33:43e8bc451ef0 | 660 | else if (!strcmp( address[0], "adjustFixedThreshold" ) ) { |
mbedalvaro | 33:43e8bc451ef0 | 661 | int value=data[0]; // value is DIRECT value (0 to 255) |
mbedalvaro | 33:43e8bc451ef0 | 662 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 33:43e8bc451ef0 | 663 | for (int i=0; i< blobconf.numBlobs; i++) blobconf.blobArray[i]->displaySensingBuffer.setFixedThreshold(value); |
mbedalvaro | 33:43e8bc451ef0 | 664 | } |
mbedalvaro | 33:43e8bc451ef0 | 665 | } |
mbedalvaro | 33:43e8bc451ef0 | 666 | |
mbedalvaro | 33:43e8bc451ef0 | 667 | |
mbedalvaro | 33:43e8bc451ef0 | 668 | |
mbedalvaro | 32:52273c3291fe | 669 | // ===================== SEND DATA MODES ======================= |
mbedalvaro | 24:4e52031a495b | 670 | |
mbedalvaro | 1:a4050fee11f7 | 671 | else if (!strcmp( address[0], "sendOSC" ) ) { |
mbedalvaro | 1:a4050fee11f7 | 672 | int value=data[0]; |
mbedalvaro | 1:a4050fee11f7 | 673 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 1:a4050fee11f7 | 674 | for (int i=0; i< blobconf.numBlobs; i++) { |
mbedalvaro | 1:a4050fee11f7 | 675 | blobconf.blobArray[i]->sendOSC=(value>0); |
mbedalvaro | 1:a4050fee11f7 | 676 | } |
mbedalvaro | 1:a4050fee11f7 | 677 | } |
mbedalvaro | 1:a4050fee11f7 | 678 | } |
mbedalvaro | 1:a4050fee11f7 | 679 | |
mbedalvaro | 1:a4050fee11f7 | 680 | else if (!strcmp( address[0], "sendArea" ) ) { |
mbedalvaro | 1:a4050fee11f7 | 681 | int value=data[0]; |
mbedalvaro | 1:a4050fee11f7 | 682 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 1:a4050fee11f7 | 683 | for (int i=0; i< blobconf.numBlobs; i++) { |
mbedalvaro | 1:a4050fee11f7 | 684 | blobconf.blobArray[i]->sendingBlobArea=(value>0); |
mbedalvaro | 1:a4050fee11f7 | 685 | } |
mbedalvaro | 1:a4050fee11f7 | 686 | } |
mbedalvaro | 1:a4050fee11f7 | 687 | } |
mbedalvaro | 1:a4050fee11f7 | 688 | |
mbedalvaro | 1:a4050fee11f7 | 689 | else if (!strcmp( address[0], "sendPos" ) ) { |
mbedalvaro | 1:a4050fee11f7 | 690 | int value=data[0]; |
mbedalvaro | 1:a4050fee11f7 | 691 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 1:a4050fee11f7 | 692 | for (int i=0; i< blobconf.numBlobs; i++) { |
mbedalvaro | 1:a4050fee11f7 | 693 | blobconf.blobArray[i]->sendingLoopPositions=(value>0); |
mbedalvaro | 1:a4050fee11f7 | 694 | } |
mbedalvaro | 1:a4050fee11f7 | 695 | } |
mbedalvaro | 1:a4050fee11f7 | 696 | } |
mbedalvaro | 1:a4050fee11f7 | 697 | |
mbedalvaro | 1:a4050fee11f7 | 698 | else if (!strcmp( address[0], "sendRegions" ) ) { |
mbedalvaro | 1:a4050fee11f7 | 699 | int value=data[0]; |
mbedalvaro | 1:a4050fee11f7 | 700 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 1:a4050fee11f7 | 701 | for (int i=0; i< blobconf.numBlobs; i++) { |
mbedalvaro | 1:a4050fee11f7 | 702 | blobconf.blobArray[i]->sendingLoopRegions=(value>0); |
mbedalvaro | 1:a4050fee11f7 | 703 | } |
mbedalvaro | 1:a4050fee11f7 | 704 | } |
mbedalvaro | 1:a4050fee11f7 | 705 | } |
mbedalvaro | 1:a4050fee11f7 | 706 | |
mbedalvaro | 1:a4050fee11f7 | 707 | else if (!strcmp( address[0], "sendTouched" ) ) { |
mbedalvaro | 1:a4050fee11f7 | 708 | int value=data[0]; |
mbedalvaro | 1:a4050fee11f7 | 709 | if (value!=-1) { // otherwise do nothing, this is a reception error (there was no data) |
mbedalvaro | 1:a4050fee11f7 | 710 | for (int i=0; i< blobconf.numBlobs; i++) { |
mbedalvaro | 1:a4050fee11f7 | 711 | blobconf.blobArray[i]->sendingTouched=(value>0); |
mbedalvaro | 1:a4050fee11f7 | 712 | } |
mbedalvaro | 1:a4050fee11f7 | 713 | } |
mbedalvaro | 1:a4050fee11f7 | 714 | } |
mbedalvaro | 1:a4050fee11f7 | 715 | |
mbedalvaro | 1:a4050fee11f7 | 716 | |
mbedalvaro | 1:a4050fee11f7 | 717 | |
mbedalvaro | 0:345b3bc7a0ea | 718 | } |
mbedalvaro | 0:345b3bc7a0ea | 719 | |
mbedalvaro | 0:345b3bc7a0ea | 720 | //============= RECEIVE OSC COMMANDS ========================= |
mbedalvaro | 1:a4050fee11f7 | 721 | // This is the callback function called when there are packets on the listening socket. It is not nice to have it |
mbedalvaro | 1:a4050fee11f7 | 722 | // here, but for the time being having a "wrapping global" is the simplest solution (we cannot pass a member-function pointer |
mbedalvaro | 1:a4050fee11f7 | 723 | // as handler to the upd object). |
mbedalvaro | 0:345b3bc7a0ea | 724 | void processOSC(UDPSocketEvent e) { |
mbedalvaro | 0:345b3bc7a0ea | 725 | osc.onUDPSocketEvent(e); |
mbedalvaro | 0:345b3bc7a0ea | 726 | |
mbedalvaro | 0:345b3bc7a0ea | 727 | if (osc.newMessage) { |
mbedalvaro | 1:a4050fee11f7 | 728 | // in fact, there is no need to check this if using the method of a global callback function - it is clear this is a new packet... however, it may be |
mbedalvaro | 1:a4050fee11f7 | 729 | // interesting to use a timer, and process data (answers, etc) only after a certain amount of time, so as to avoid blocking the program in IRQ context... |
mbedalvaro | 1:a4050fee11f7 | 730 | |
mbedalvaro | 1:a4050fee11f7 | 731 | // Acquire the addresses and arguments and put them in the GLOBAL variables: |
mbedalvaro | 1:a4050fee11f7 | 732 | strcpy(address[0],""); |
mbedalvaro | 1:a4050fee11f7 | 733 | strcpy(address[1],""); |
mbedalvaro | 1:a4050fee11f7 | 734 | for (int i=0; i<recMes.getAddressNum(); i++) strcpy(address[i],recMes.getAddress(i)); // NOTE: up to the rest of the program to check if address[1] is really not null |
mbedalvaro | 1:a4050fee11f7 | 735 | // Acquire data: |
mbedalvaro | 1:a4050fee11f7 | 736 | data[0]=-1; |
mbedalvaro | 1:a4050fee11f7 | 737 | data[1]=-1; |
mbedalvaro | 1:a4050fee11f7 | 738 | for (int i=0; i<recMes.getArgNum(); i++) data[i]=(int)recMes.getArgInt(i); |
mbedalvaro | 1:a4050fee11f7 | 739 | |
mbedalvaro | 1:a4050fee11f7 | 740 | // Finally, interpret the command: |
mbedalvaro | 1:a4050fee11f7 | 741 | interpretCommand();//address, data); |
mbedalvaro | 1:a4050fee11f7 | 742 | |
mbedalvaro | 0:345b3bc7a0ea | 743 | } |
mbedalvaro | 1:a4050fee11f7 | 744 | } |
mbedalvaro | 1:a4050fee11f7 | 745 | |
mbedalvaro | 0:345b3bc7a0ea | 746 | //============= RECEIVE SERIAL COMMANDS ========================= |
mbedalvaro | 0:345b3bc7a0ea | 747 | // |
mbedalvaro | 1:a4050fee11f7 | 748 | // NOTE: - NUMERIC PARAMETERS have to be send BEFORE the command word. They must be sent as ASCII DEC, without end character. |
mbedalvaro | 0:345b3bc7a0ea | 749 | // - Commands words SHOULD NOT have numbers in it. They should be C compliant STRINGS (ended with character '0') |
mbedalvaro | 1:a4050fee11f7 | 750 | // - order is irrelevant: we can send 10 RADIUS or RADIUS 10. |
mbedalvaro | 0:345b3bc7a0ea | 751 | |
mbedalvaro | 1:a4050fee11f7 | 752 | // String to store ALPHANUMERIC DATA (i.e., integers, floating point numbers, unsigned ints, etc represented as DEC) sent wirelessly: |
mbedalvaro | 0:345b3bc7a0ea | 753 | char stringData[24]; // note: an integer is two bytes long, represented with a maximum of 5 digits, but we may send floats or unsigned int... |
mbedalvaro | 0:345b3bc7a0ea | 754 | int indexStringData=0;//position of the byte in the string |
mbedalvaro | 0:345b3bc7a0ea | 755 | |
mbedalvaro | 0:345b3bc7a0ea | 756 | // String to store COMMAND WORDS: |
mbedalvaro | 0:345b3bc7a0ea | 757 | char stringCommand[24]; // note: an integer is two bytes long, represented with a maximum of 5 digits, but we may send floats or unsigned int... |
mbedalvaro | 0:345b3bc7a0ea | 758 | int indexStringCommand=0; |
mbedalvaro | 0:345b3bc7a0ea | 759 | bool commandReady=false; // will become true when receiving the byte 0 (i.e. the '/0' string terminator) |
mbedalvaro | 0:345b3bc7a0ea | 760 | |
mbedalvaro | 0:345b3bc7a0ea | 761 | void processSerial() { |
mbedalvaro | 0:345b3bc7a0ea | 762 | |
mbedalvaro | 1:a4050fee11f7 | 763 | while (pc.readable()>0) { |
mbedalvaro | 1:a4050fee11f7 | 764 | |
mbedalvaro | 14:0fc33a3a7b4b | 765 | |
mbedalvaro | 1:a4050fee11f7 | 766 | char val =pc.getc(); |
mbedalvaro | 0:345b3bc7a0ea | 767 | // pc.printf("Got :%d\n", incomingByte); |
mbedalvaro | 1:a4050fee11f7 | 768 | //pc.putc(incomingByte); |
mbedalvaro | 1:a4050fee11f7 | 769 | |
mbedalvaro | 1:a4050fee11f7 | 770 | // Save ASCII numeric characters (ASCII 0 - 9) on stringData: |
mbedalvaro | 1:a4050fee11f7 | 771 | if ((val >= '0') && (val <= '9')) { // this is 45 to 57 (included) |
mbedalvaro | 1:a4050fee11f7 | 772 | stringData[indexStringData] = val; |
mbedalvaro | 1:a4050fee11f7 | 773 | indexStringData++; |
mbedalvaro | 1:a4050fee11f7 | 774 | } |
mbedalvaro | 1:a4050fee11f7 | 775 | |
mbedalvaro | 1:a4050fee11f7 | 776 | // Save ASCII letters in stringCommand: |
mbedalvaro | 1:a4050fee11f7 | 777 | if ((val >= 'A') && (val <= 'z')) { // this is 65 to 122 (included) |
mbedalvaro | 1:a4050fee11f7 | 778 | stringCommand[indexStringCommand] = val; |
mbedalvaro | 1:a4050fee11f7 | 779 | indexStringCommand++; |
mbedalvaro | 1:a4050fee11f7 | 780 | } |
mbedalvaro | 1:a4050fee11f7 | 781 | // is command ready? |
mbedalvaro | 1:a4050fee11f7 | 782 | if (val=='/') { |
mbedalvaro | 1:a4050fee11f7 | 783 | commandReady=true; |
mbedalvaro | 1:a4050fee11f7 | 784 | stringCommand[indexStringCommand] = 0; // string termination. |
mbedalvaro | 1:a4050fee11f7 | 785 | indexStringCommand=0; // reset index string for acquiring next command |
mbedalvaro | 1:a4050fee11f7 | 786 | //Serial.println(stringCommand); |
mbedalvaro | 1:a4050fee11f7 | 787 | } |
mbedalvaro | 1:a4050fee11f7 | 788 | |
mbedalvaro | 1:a4050fee11f7 | 789 | // COMMANDS (with or without numeric parameters): |
mbedalvaro | 1:a4050fee11f7 | 790 | if (commandReady==true) { // it means we can interpret the command string: |
mbedalvaro | 1:a4050fee11f7 | 791 | commandReady=false; |
mbedalvaro | 1:a4050fee11f7 | 792 | |
mbedalvaro | 1:a4050fee11f7 | 793 | stringData[indexStringData] = 0 ;// string termination for numeric values; |
mbedalvaro | 1:a4050fee11f7 | 794 | indexStringData=0; |
mbedalvaro | 1:a4050fee11f7 | 795 | |
mbedalvaro | 1:a4050fee11f7 | 796 | // PARSE DATA: (TO DO!!!!!!!!!!!!!!): |
mbedalvaro | 0:345b3bc7a0ea | 797 | |
mbedalvaro | 1:a4050fee11f7 | 798 | // (a) Parse command (get address[0] and address[1]): |
mbedalvaro | 1:a4050fee11f7 | 799 | //ex: "/1/standBy" -- > address[0]="1" and address[1]="standBy" |
mbedalvaro | 1:a4050fee11f7 | 800 | // address[2] |
mbedalvaro | 1:a4050fee11f7 | 801 | |
mbedalvaro | 1:a4050fee11f7 | 802 | // Serial.println(stringCommand); |
mbedalvaro | 1:a4050fee11f7 | 803 | // Serial.println(stringData); |
mbedalvaro | 1:a4050fee11f7 | 804 | |
mbedalvaro | 1:a4050fee11f7 | 805 | // (b) Parse data: |
mbedalvaro | 1:a4050fee11f7 | 806 | |
mbedalvaro | 1:a4050fee11f7 | 807 | // char address[2][24]; |
mbedalvaro | 1:a4050fee11f7 | 808 | //long auxdata[2]; // to store a max of two arguments (note: we will only use LONGs) |
mbedalvaro | 1:a4050fee11f7 | 809 | //int data[2]; // this is to have -1 as NO DATA, to detect errors. |
mbedalvaro | 1:a4050fee11f7 | 810 | |
mbedalvaro | 1:a4050fee11f7 | 811 | // FOR THE TIME BEING there is no parsing for serial commands: |
mbedalvaro | 1:a4050fee11f7 | 812 | |
mbedalvaro | 1:a4050fee11f7 | 813 | // SCANNING: |
mbedalvaro | 1:a4050fee11f7 | 814 | if (!strcmp(stringCommand , "takeSnapshot")) { |
mbedalvaro | 1:a4050fee11f7 | 815 | // First, we need to disable the threaded display for the loop: |
mbedalvaro | 1:a4050fee11f7 | 816 | timerForRendering.detach(); |
mbedalvaro | 1:a4050fee11f7 | 817 | |
mbedalvaro | 1:a4050fee11f7 | 818 | // Then, do the scan (sending values on serial port): |
mbedalvaro | 24:4e52031a495b | 819 | IO.scan_serial(atoi(stringData)); |
mbedalvaro | 1:a4050fee11f7 | 820 | |
mbedalvaro | 1:a4050fee11f7 | 821 | // Finally, start again threaded display: |
mbedalvaro | 4:f9d364f10335 | 822 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 9:3321170d157c | 823 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 16:2ff1cb2ae1b1 | 824 | } else if (!strcmp(stringCommand , "REDON")) IO.setRedPower(1); // pc.printf("%d\n",incomingByte); |
mbedalvaro | 1:a4050fee11f7 | 825 | |
mbedalvaro | 14:0fc33a3a7b4b | 826 | else if (!strcmp(stringCommand , "REDOFF")) IO.setRedPower(0); |
mbedalvaro | 14:0fc33a3a7b4b | 827 | |
mbedalvaro | 14:0fc33a3a7b4b | 828 | else if (!strcmp(stringCommand , "READVALUE")) pc.printf("Value read: %f", lockin.getSmoothValue());//lockin.getLastValue());/ |
mbedalvaro | 1:a4050fee11f7 | 829 | |
mbedalvaro | 14:0fc33a3a7b4b | 830 | else if (!strcmp(stringCommand , "mbedReset")) mbed_reset(); |
mbedalvaro | 16:2ff1cb2ae1b1 | 831 | |
mbedalvaro | 14:0fc33a3a7b4b | 832 | else if (!strcmp(stringCommand , "calibrate")) { |
mbedalvaro | 16:2ff1cb2ae1b1 | 833 | // First, we need to disable the threaded display for the loop: |
mbedalvaro | 16:2ff1cb2ae1b1 | 834 | timerForRendering.detach(); |
mbedalvaro | 16:2ff1cb2ae1b1 | 835 | // RESCAN (and save LUT table): |
mbedalvaro | 16:2ff1cb2ae1b1 | 836 | IO.scanLUT(); |
mbedalvaro | 16:2ff1cb2ae1b1 | 837 | // Finally, start again threaded display: |
mbedalvaro | 16:2ff1cb2ae1b1 | 838 | timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThread, RENDER_INTERVAL); |
mbedalvaro | 16:2ff1cb2ae1b1 | 839 | // timerForRendering.attach(&lsr, &simpleLaserSensingRenderer::laserRenderThreadONEBLOBONLY, RENDER_INTERVAL); |
mbedalvaro | 16:2ff1cb2ae1b1 | 840 | } |
mbedalvaro | 1:a4050fee11f7 | 841 | |
mbedalvaro | 1:a4050fee11f7 | 842 | // FINALLY, interpret commands (but only after parsing): |
mbedalvaro | 1:a4050fee11f7 | 843 | // interpretCommand();//address, data); |
mbedalvaro | 0:345b3bc7a0ea | 844 | |
mbedalvaro | 0:345b3bc7a0ea | 845 | } |
mbedalvaro | 1:a4050fee11f7 | 846 | } |
mbedalvaro | 1:a4050fee11f7 | 847 | } |
mbedalvaro | 0:345b3bc7a0ea | 848 | |
mbedalvaro | 0:345b3bc7a0ea | 849 | |
mbedalvaro | 0:345b3bc7a0ea | 850 | |
mbedalvaro | 0:345b3bc7a0ea | 851 | // ================ MISCELANEA |
mbedalvaro | 0:345b3bc7a0ea | 852 | |
mbedalvaro | 0:345b3bc7a0ea | 853 | /* EXAMPLE SEND/RECEIVE on PROCESSING: |
mbedalvaro | 0:345b3bc7a0ea | 854 | |
mbedalvaro | 0:345b3bc7a0ea | 855 | // oscP5sendreceive by andreas schlegel |
mbedalvaro | 0:345b3bc7a0ea | 856 | // example shows how to send and receive osc messages. |
mbedalvaro | 0:345b3bc7a0ea | 857 | // oscP5 website at http://www.sojamo.de/oscP5 |
mbedalvaro | 0:345b3bc7a0ea | 858 | |
mbedalvaro | 0:345b3bc7a0ea | 859 | import oscP5.*; |
mbedalvaro | 0:345b3bc7a0ea | 860 | import netP5.*; |
mbedalvaro | 1:a4050fee11f7 | 861 | |
mbedalvaro | 0:345b3bc7a0ea | 862 | OscP5 oscP5; |
mbedalvaro | 0:345b3bc7a0ea | 863 | NetAddress myRemoteLocation; |
mbedalvaro | 0:345b3bc7a0ea | 864 | |
mbedalvaro | 0:345b3bc7a0ea | 865 | void setup() { |
mbedalvaro | 0:345b3bc7a0ea | 866 | size(400,400); |
mbedalvaro | 0:345b3bc7a0ea | 867 | frameRate(25); |
mbedalvaro | 1:a4050fee11f7 | 868 | // start oscP5, listening for incoming messages at port 12000 |
mbedalvaro | 0:345b3bc7a0ea | 869 | oscP5 = new OscP5(this,12000); |
mbedalvaro | 1:a4050fee11f7 | 870 | |
mbedalvaro | 0:345b3bc7a0ea | 871 | // myRemoteLocation is a NetAddress. a NetAddress takes 2 parameters, |
mbedalvaro | 0:345b3bc7a0ea | 872 | // an ip address and a port number. myRemoteLocation is used as parameter in |
mbedalvaro | 1:a4050fee11f7 | 873 | // oscP5.send() when sending osc packets to another computer, device, |
mbedalvaro | 0:345b3bc7a0ea | 874 | // application. usage see below. for testing purposes the listening port |
mbedalvaro | 0:345b3bc7a0ea | 875 | // and the port of the remote location address are the same, hence you will |
mbedalvaro | 0:345b3bc7a0ea | 876 | // send messages back to this sketch. |
mbedalvaro | 0:345b3bc7a0ea | 877 | myRemoteLocation = new NetAddress("10.0.0.2",10000); |
mbedalvaro | 0:345b3bc7a0ea | 878 | } |
mbedalvaro | 0:345b3bc7a0ea | 879 | |
mbedalvaro | 0:345b3bc7a0ea | 880 | |
mbedalvaro | 0:345b3bc7a0ea | 881 | void draw() { |
mbedalvaro | 1:a4050fee11f7 | 882 | background(0); |
mbedalvaro | 0:345b3bc7a0ea | 883 | } |
mbedalvaro | 0:345b3bc7a0ea | 884 | |
mbedalvaro | 0:345b3bc7a0ea | 885 | void mousePressed() { |
mbedalvaro | 1:a4050fee11f7 | 886 | // in the following different ways of creating osc messages are shown by example |
mbedalvaro | 0:345b3bc7a0ea | 887 | OscMessage myMessage = new OscMessage("/mbed/test1"); |
mbedalvaro | 1:a4050fee11f7 | 888 | |
mbedalvaro | 1:a4050fee11f7 | 889 | myMessage.add(123); // add an int to the osc message |
mbedalvaro | 0:345b3bc7a0ea | 890 | |
mbedalvaro | 1:a4050fee11f7 | 891 | // send the message |
mbedalvaro | 1:a4050fee11f7 | 892 | oscP5.send(myMessage, myRemoteLocation); |
mbedalvaro | 0:345b3bc7a0ea | 893 | } |
mbedalvaro | 0:345b3bc7a0ea | 894 | |
mbedalvaro | 0:345b3bc7a0ea | 895 | |
mbedalvaro | 1:a4050fee11f7 | 896 | // incoming osc message are forwarded to the oscEvent method. |
mbedalvaro | 0:345b3bc7a0ea | 897 | void oscEvent(OscMessage theOscMessage) { |
mbedalvaro | 1:a4050fee11f7 | 898 | // print the address pattern and the typetag of the received OscMessage |
mbedalvaro | 0:345b3bc7a0ea | 899 | print("### received an osc message."); |
mbedalvaro | 0:345b3bc7a0ea | 900 | print(" addrpattern: "+theOscMessage.addrPattern()); |
mbedalvaro | 0:345b3bc7a0ea | 901 | println(" typetag: "+theOscMessage.typetag()); |
mbedalvaro | 0:345b3bc7a0ea | 902 | } |
mbedalvaro | 0:345b3bc7a0ea | 903 | |
mbedalvaro | 0:345b3bc7a0ea | 904 | */ |