neopixel control OSC->ESP added

esp32_vroom_38pin/esp32_vroom_38pin.ino

@@ -38,6 +38,8 @@ const char* password = "cermozise";
 // BROADCAST TO ALL IP / port
 const IPAddress castIp = IPAddress(192,168,0,255);  // 255 FOR BROADCAST
 const int port = 57120; // SUPERCOLLIDERS DEFAULT INCOMING OSC PORT
+const unsigned int localPort = 8888;        // local port to listen for UDP packets (here's where we send the packets)
+
 bool connected = false;
 #include <WiFiUdp.h>
 WiFiUDP udp;
@@ -49,9 +51,25 @@ WiFiUDP udp;
 #include <OSCBundle.h>
 #include <OSCMessage.h>
 #include <OSCBoards.h>
+#include <OSCData.h>
+
 /* OSC MSG channels */
 OSCBundle bundle;
 
+OSCErrorCode error;
+unsigned int ledState = LOW;              // LOW means led is *on*
+unsigned int ledNum = 0;              // LOW means led is *on*
+unsigned int touchBoard = 0;              // LOW means led is *on*
+
+#ifndef BUILTIN_LED
+#ifdef LED_BUILTIN
+#define BUILTIN_LED LED_BUILTIN
+#else
+#define BUILTIN_LED 13
+#endif
+#endif
+
+
 // SERIAL /////////////////////////////////
 #ifdef BOARD_HAS_USB_SERIAL
 #include <SLIPEncodedUSBSerial.h>
@@ -69,18 +87,24 @@ byte KEYLEN = 12;
 void setup() {
   ws2812fx.init();
   ws2812fx.setBrightness(10);
+     //ws2812fx.setPixelColor(11, ws2812fx.Color(0,0,0));
+     //
 
   // parameters: index, start, stop, mode, color, speed, reverse
-  ws2812fx.setSegment(0,  0,  11, FX_MODE_BREATH, 0xFFFFFF, 1000, false); // segment 0 is leds 0 - 9
+ // ws2812fx.setSegment(0,  0,  11, FX_MODE_BREATH, 0xFFFFFF, 1000, false); // segment 0 is leds 0 - 9
   //ws2812fx.setSegment(1, 0, 0, FX_MODE_BREATH,  0xFF0000, 300, false); // segment 1 is leds 10 - 19
   //ws2812fx.setSegment(2, 6, 11, FX_MODE_BREATH, 0x0000FF, 400, true);  // segment 2 is leds 20 - 29
   
+  ws2812fx.setSegment(0, 0, 11, 11, BLACK, 2000, false);    
+
   ws2812fx.start();
 
   Serial.begin(115200);
   WiFi.mode(WIFI_AP);
   connectWiFi();
   
+  udp.begin(localPort); // start udp for incoming OSC messages
+
   const String macAddress = WiFi.macAddress(); ;
   
   // Default address is 0x5A, if tied to 3.3V its 0x5B         
@@ -111,9 +135,9 @@ void setup() {
 
 int colorCount = 0;
 
-
 void loop() { 
-  ws2812fx.service();   
+  rOSC();
+  //ws2812fx.service();   
   sendCapacitive(cap0, 0); // from the 121
   sendCapacitive(cap1, 1); // from the 121  
 }
@@ -138,7 +162,101 @@ void connectWiFi(){
   Serial.println(WiFi.localIP());
 }
 
-// detect touch events and send over OSC //////////////
+//NEOPIXEL COLOUR LOGIC /////////////////////////////////////////////
+
+uint32_t colors[] = {RED, GREEN, BLUE, YELLOW, CYAN, MAGENTA, 
+PURPLE, ORANGE, PINK, GRAY, ULTRAWHITE, WHITE, BLACK };
+
+void led(OSCMessage &msg) {
+  
+  ledNum = msg.getInt(0); // which sensor/led 
+  ledState = msg.getInt(1); // which state
+  touchBoard = msg.getInt(2); // which touch board
+
+  // increment led index based on which board input i.e. board 1 is 0-11, board 2 is 12 - 24
+  if (touchBoard==0){ledNum = ledNum + 0; };
+  if (touchBoard==1){ledNum = ledNum+6; }; // change to 12 when new strip wired! 6 for testing
+
+  switch (msg.getInt(1)) {
+          ws2812fx.setMode(FX_MODE_BLINK);  
+    case 0:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    break;
+    case 1:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    case 5:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    break;
+      case 6:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    break;
+  }
+
+  switch (msg.getInt(1)) {
+          ws2812fx.setMode(FX_MODE_BLINK);  
+    case 0:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    break;
+    case 1:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    break;
+    case 2:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    break;
+    case 3:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    break;
+    case 4:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    break;
+      case 5:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    break;
+      case 6:
+      ws2812fx.setPixelColor(ledNum, colors[ledState]);
+    break;
+
+ws2812fx.start();
+
+}
+
+    //ws2812fx.start();
+    ws2812fx.show();
+
+}
+
+void flashyNeoPixel(int x){
+Serial.print('asfd : ' + x);
+ if (x==2){
+   while(x==2){
+     ws2812fx.setPixelColor(11, ws2812fx.Color(0,222,222));
+     ws2812fx.show();
+     delay(100);
+     ws2812fx.setPixelColor(11, ws2812fx.Color(222,222,222));
+     ws2812fx.show();
+     delay(100);
+     }
+ }
+}
+
+void rOSC(){
+      //Serial.print("osc func called...");
+ OSCMessage msg;
+  int size = udp.parsePacket();
+
+  if (size > 0) {
+    while (size--) {
+      msg.fill(udp.read());
+    }
+    if (!msg.hasError()) {
+      msg.dispatch("/led", led);
+    } else {
+      error = msg.getError();
+      Serial.print("error: ");
+      Serial.println(error);
+    }
+  }
+}
 
 void sendCapacitive(Adafruit_MPR121 sensorboard, int index){ 
  // Get the currently touched pads
@@ -148,10 +266,9 @@ void sendCapacitive(Adafruit_MPR121 sensorboard, int index){
    // it if *is* touched and *wasnt* touched before, alert!
     if ((currtouched[index] & _BV(i)) && !(lasttouched[index] & _BV(i)) ) {
       Serial.print(i); Serial.println(" touched");
-      ws2812fx.setSegment(0,  i,  i, FX_MODE_STATIC, 0xFFFFFF, 700, false); // segment 0 is leds 0 - 9
+//      ws2812fx.setSegment(0,  i,  i, FX_MODE_STATIC, 0x0096FF, 700, false); // segment 0 is leds 0 - 9
 
       //ledState = !ledState;
-
               OSCMessage msg("/touch");
               msg.add(WiFi.macAddress().c_str()); // mac address of sender esp32           
               msg.add((int32_t)i); // send which sensor (0 - 11) was touched
@@ -166,7 +283,7 @@ void sendCapacitive(Adafruit_MPR121 sensorboard, int index){
              #endif
 
             String cap = "val for key num: " + String(i) + " === " + String(HIGH);
-            Serial.println("OSC SENT "); Serial.println(cap);       
+            //Serial.println("OSC SENT "); Serial.println(cap);       
     }
     // if it *was* touched and now *isnt*, alert!
     if (!(currtouched[index] & _BV(i)) && (lasttouched[index] & _BV(i)) ) {
@@ -187,8 +304,8 @@ void sendCapacitive(Adafruit_MPR121 sensorboard, int index){
       udp.endPacket();
 #endif
       
-      String cap = "val for key num: " + String(i) + " === " + String(LOW);
-      Serial.println("OSC SENT "); Serial.println(cap);       
+     // String cap = "val for key num: " + String(i) + " === " + String(LOW);
+     // Serial.println("OSC SENT "); Serial.println(cap);       
     }
   }
 

sc/live_touch_instrument.scd

@@ -3,6 +3,9 @@
 s.options.numInputBusChannels = 4;
 s.options.numOutputBusChannels = 4;
 
+b = NetAddr.new("192.168.0.116", 8888);    // create the NetAddr
+//b.sendMsg("/led", [0,1].choose);    // send the application the message "hello" with the parameter "there"
+
 //OSCFunc.trace(true); // Turn posting on
 //OSCFunc.trace(false); // Turn posting off
 
@@ -33,15 +36,18 @@ s.waitForBoot{
 	// create group order
 	~sGA = Group.new; ~sGB = Group.new; ~sGC = Group.new; ~sGD = Group.new;
 
+
+
+
 	s.sync;
 
 	//// SYNTHS //////////////////////////////////
 
-	SynthDef.new(\splay, {| out=0, bufnum=0, t_trig=0, amp=0.5, rate=1,
+	SynthDef.new(\splay, {| out=0, bufnum=0, tpse=1, t_trig=0, amp=0.8, rate=1,
 		atk=1, rel=1, loop=0, spos=0, gate=0, panRate=0.2 |
 		var env, sig;
 		env= EnvGen.kr(Env.asr(atk,1,rel),gate, doneAction:2);
-		sig = PlayBuf.ar(1, bufnum, rate, t_trig, startPos: spos, loop:loop, doneAction: 0);
+		sig = PlayBuf.ar(1, bufnum, rate*tpse, t_trig, startPos: spos, loop:loop, doneAction: 0);
 		sig = sig * env * amp;
 		sig = Pan2.ar(sig, FSinOsc.kr(panRate));
 		Out.ar(out, sig);
@@ -51,21 +57,41 @@ s.waitForBoot{
 
 	~oPA = 8.collect({
 		arg itt, rate=1, out=0, sdir=\bowl,
-		amp=0.5, loop=1,  panRate=rrand(0.05,0.75), group=~sGA;
+		amp=0.9, loop=1,  panRate=rrand(0.05,0.75), group=~sGA;
 		Synth.new(\splay,  [\bufnum, ~smp[sdir][rrand(0,~smp[sdir].size-1)], \out, out, \loop, loop,  panRate: panRate], group);
 	});
 
 	~oPB = 8.collect({
 		arg itt, rate=1, out=0, sdir=\green,
-		amp=0.1, loop=1,  panRate=rrand(0.05,0.75), group=~sGA;
+		amp=0.5, loop=1,  panRate=rrand(0.05,0.75), group=~sGB;
 		Synth.new(\splay,  [\bufnum, ~smp[sdir][rrand(0,~smp[sdir].size-1)], \out, out, \loop, loop,  panRate: panRate], group);
 	});
 
 
 	// RECEIVE OSC MESSAGES FROM ESP32s
+	~modeA = 0;
+	~modeB = 0;
+	~modeC = 0;
+	~modeD = 0;
+
+	~shiftA = 0; // shift state
+	~shiftB = 0; // shift state
+	~shiftC = 0; // shift state
+	~shiftD = 0; // shift state
+
+	~scaleMode = [Scale.partch_o1, Scale.major, Scale.minor, Scale.chromatic];
+	~scaleA = ~scaleMode[0];
+	~scaleB = ~scaleMode[3];
+
+
+	~lsA=1; // loop state
+	~lsB=1; // loop state
+    ~ssA = 0;
+    ~ssB = 0;
+
+	//~scales[2].tuning; ~scales[2].size; ~scales[2].pitchesPerOcatave;
+
 
-	~shift = 0; // shift state
-	~ls0=1; // loop state
 	s.sync;
 
 	~esp32Receive = { arg name ,mac; OSCdef(name, { arg msg, time;
@@ -75,42 +101,135 @@ s.waitForBoot{
 		// msg[3] is it a touch [1] or a release [0]
 		// msg[4] which of the connected mpr121 boards is sending
 
-		if (msg[1] == mac && msg[3] == 1 && msg[4] == 0 && ~shift == 0 )  {
-			postln("first board" + msg[2]);
-			~scale = Scale.partch_o1;
-			w = case
-			{ msg[2] == 0} { ~oPA[0].set(\rate, ~scale[rrand(0,47)].midiratio, \t_trig, 1, \loop, 1, \gate, 1); }
-			{ msg[2] == 1} { ~oPA[1].set(\rate, ~scale[rrand(0,47)].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 2} { ~oPA[2].set(\rate, ~scale[rrand(0,47)].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 3} { ~oPA[3].set(\rate, ~scale[rrand(0,47)].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 4} { ~oPA[4].set(\rate, ~scale[rrand(0,47)].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 5} { ~oPA[5].set(\rate, ~scale[rrand(0,47)].midiratio, \t_trig, 1, \gate, 1);  }
-			{ msg[2] == 6} { ~oPA[6].set(\rate, ~scale[rrand(0,47)].midiratio, \t_trig, 1, \gate, 1);  }
-			{ msg[2] == 7} { ~oPA[7].set(\rate, ~scale[rrand(0,47)].midiratio + 1 , \t_trig, 1, \gate, 1); }
+		if (msg[1] == mac && msg[3] == 1 && msg[4] == 0 && ~shiftA == 0 )  {
+			//12.0.rand.round;
+			// use an array to spread different patterns over the keys
+			~rpitch = rrand(0,~scaleA.size -1);
+		    postln("first board" + msg[2] + "pitchclass: " + ~rpitch );
+			b.sendMsg("/led", msg[2], ~rpitch, msg[4]);
 
+			w = case
+			{ msg[2] == 0} { ~oPA[0].set(\rate, ~scaleA[~rpitch].midiratio, \t_trig, 1, \gate, 1, \tpse, 1); }
+			{ msg[2] == 1} { ~oPA[1].set(\rate, ~scaleA[0].midiratio, \t_trig, 1, \gate, 1, \tpse, 1); }
+			// always have a know root
+			{ msg[2] == 2} { ~oPA[2].set(\rate, ~scaleA[~rpitch].midiratio, \t_trig, 1, \gate, 1, \tpse, 1); }
+			{ msg[2] == 3} { ~oPA[3].set(\rate, ~scaleA[~rpitch].midiratio, \t_trig, 1, \gate, 1, \tpse, 1); }
+			{ msg[2] == 4} { ~oPA[4].set(\rate, ~scaleA[~rpitch].midiratio, \t_trig, 1, \gate, 1, \tpse, 1); }
+			{ msg[2] == 5} { ~oPA[5].set(\rate, ~scaleA[~rpitch].midiratio, \t_trig, 1, \gate, 1, \tpse, 1);  }
+			{ msg[2] == 6} { ~oPA[6].set(\rate, ~scaleA[~rpitch].midiratio, \t_trig, 1, \gate, 1, \tpse, 1);  }
+			{ msg[2] == 7} { ~oPA[7].set(\rate, ~scaleA[~rpitch].midiratio + 1 , \t_trig, 1, \gate, 1); }
+
+			// LOOP mode on off
 			{ msg[2] == 8 } {  // touch 7 = toggle looping of all samplers
-				~ls0 = (~ls0 + 1)% 2;
-  				~sGA.set(\loop, ~ls0 ); // toggle this
-				postln("loop state set as:" + ~ls0 + "    7 " + msg[2]  );
+				~lsA = (~lsA + 1)% 2;
+				~sGA.set(\loop, ~lsA ); // toggle this
+				b.sendMsg("/led", msg[2], ~lsA, msg[4]);
+				postln("loop state set as:" + ~lsA + "    7 " + msg[2]  );
 			};
 		};
 
+		// SHIFT logic for board A - 3 function=  shift off on extra
+		///if SHIFT IS DEPRESSED on board 0 - shift enabled while 11 depressed
+
+		if (msg[1] == mac && msg[2] == 11 && msg[4] == 0 )  {
+			if (msg[3]==1){
+				~shiftA = (~shiftA + 1)% 3;
+				postln("SHIFT is: " + ~shiftA);
+				b.sendMsg("/led", msg[2], ~shiftA, msg[4]);
+			};
+		};
+
+		if (~shiftA==1 && msg[3]==1)  {
+			postln(" shift is pressed " + msg[2]);
+			w = case
+			{ msg[2] == 0} { ~oPA[0].set(\tpse, 2, \t_trig, 1); }
+			{ msg[2] == 1} { ~oPA[1].set(\tpse, 2, \t_trig, 1); }
+			{ msg[2] == 2} { ~oPA[2].set(\tpse, 2, \t_trig, 1); }
+			{ msg[2] == 3} { ~oPA[3].set(\tpse, 2, \t_trig, 1); }
+			{ msg[2] == 4} { ~oPA[4].set(\tpse, 2, \t_trig, 1); }
+			{ msg[2] == 5} { ~oPA[5].set(\tpse, 2, \t_trig, 1); }
+			{ msg[2] == 6} { ~oPA[6].set(\tpse, 2, \t_trig, 1); }
+			{ msg[2] == 7} { ~oPA[7].set(\tpse, 2, \t_trig, 1); }
+		};
+
+		// SCALE CHANGER
+
+		if (~shiftA==1 && msg[2] == 8 && msg[3] == 1)  {
+			~ssA = (~ssA + 1) % 4;
+			// use key release to
+			~scaleA = ~scaleMode[~ssA];
+			postln(" shift is pressed - scale changed to: " + ~ssA);
+			b.sendMsg("/led", 9, ~ssA, msg[4]);
+		};
+
+		//////////////////////////////////////////////////////////////////////////
+		// MODE logic for board A
+
+		if (msg[1] == mac && msg[2] == 10 && msg[4] == 0 )  {
+			if (msg[3]==1){
+				// send the esp32 an osc message
+				~modeA = ~modeA+1 % 3;
+				b.sendMsg("/led", msg[2], ~modeA, msg[4]); postln(~modeA); };
+		};
+
+
+		if (msg[1] == mac && msg[3] == 1 && msg[4] == 0 && ~modeA == 1 )  {
+			w = case
+			{ msg[2] == 0} { ~oPA[0].set(\tpse, -1); }
+			{ msg[2] == 1} { ~oPA[1].set(\tpse, -1 ); }
+			{ msg[2] == 2} { ~oPA[1].set(\tpse, -1 ); }
+			{ msg[2] == 3} { ~oPA[1].set(\tpse, -1 ); }
+			{ msg[2] == 4} { ~oPA[1].set(\tpse, -1 ); }
+			{ msg[2] == 5} { ~oPA[1].set(\tpse, -1 ); }
+			{ msg[2] == 6} { ~oPA[1].set(\tpse, -1 ); }
+			{ msg[2] == 7} { ~oPA[1].set(\tpse, -1 ); }
+		};
+
+		// mode 2 randomize transposition
+
+		if (msg[1] == mac && msg[3] == 1 && msg[4] == 0 && ~modeA == 2 )  {
+			w = case
+			{ msg[2] == 0} { ~oPA[0].set(\tpse, [0.25].choose); }
+			{ msg[2] == 1} { ~oPA[1].set(\tpse, [0.25].choose ); }
+			{ msg[2] == 2} { ~oPA[2].set(\tpse, [0.25].choose); }
+			{ msg[2] == 3} { ~oPA[3].set(\tpse, [0.25].choose ); }
+			{ msg[2] == 4} { ~oPA[4].set(\tpse, [0.25].choose ); }
+			{ msg[2] == 5} { ~oPA[5].set(\tpse, [0.25].choose ); }
+			{ msg[2] == 6} { ~oPA[6].set(\tpse, [0.25].choose ); }
+			{ msg[2] == 7} { ~oPA[7].set(\tpse, [0.25].choose ); }
+
+		};
+
+		//////////////////////////////////////////////////////////////////////////
+
+
+
+
+
+		//////////// second board
+
 		if (msg[1] == mac && msg[3] == 1 && msg[4] == 1)  {
-			postln("second board" + msg[2]);
+
+			~rpitch = rrand(0,47);
+			~rpitch = ~rpitch%11;  postln("second board" + msg[2] + "color: " + ~rpitch );
+			b.sendMsg("/led", msg[2], ~rpitch, msg[4]);
+
+
 			w = case
-			{ msg[2] == 0} { ~oPB[0].set(\rate, Scale.major[0].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 1} { ~oPB[1].set(\rate, Scale.major[1].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 2} { ~oPB[2].set(\rate, Scale.major[2].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 3} { ~oPB[3].set(\rate, Scale.major[3].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 4} { ~oPB[4].set(\rate, Scale.major[4].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 5} { ~oPB[5].set(\rate, Scale.major[5].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 6} { ~oPB[6].set(\rate, Scale.major[6].midiratio, \t_trig, 1, \gate, 1); }
-			{ msg[2] == 7} { ~oPB[7].set(\rate, Scale.major[7].midiratio, \t_trig, 1, \gate, 1); }
+			{ msg[2] == 0} { ~oPB[0].set(\rate, Scale.major[0].midiratio, \t_trig, 1, \gate, 1, \tpse, 1); }
+			{ msg[2] == 1} { ~oPB[1].set(\rate, Scale.major[1].midiratio, \t_trig, 1, \gate, 1, \tpse, 1); }
+			{ msg[2] == 2} { ~oPB[2].set(\rate, Scale.major[2].midiratio, \t_trig, 1, \gate, 1, \tpse, 1); }
+			{ msg[2] == 3} { ~oPB[3].set(\rate, Scale.major[3].midiratio, \t_trig, 1, \gate, 1,\tpse, 1); }
+			{ msg[2] == 4} { ~oPB[4].set(\rate, Scale.major[4].midiratio, \t_trig, 1, \gate, 1,\tpse, 1); }
+			{ msg[2] == 5} { ~oPB[5].set(\rate, Scale.major[5].midiratio, \t_trig, 1, \gate, 1,\tpse, 1); }
+			{ msg[2] == 6} { ~oPB[6].set(\rate, Scale.major[6].midiratio, \t_trig, 1, \gate, 1,\tpse, 1); }
+			{ msg[2] == 7} { ~oPB[7].set(\rate, Scale.major[7].midiratio, \t_trig, 1, \gate, 1,\tpse, 1); }
 
 			{ msg[2] == 8 } {  // touch 7 = toggle looping of all samplers
-				~ls0 = (~ls0 + 1)% 2;
-				~sGB.set(\loop, ~ls0 ); // toggle this
-				postln("loop state set as:" + ~ls0 + "    7 " + msg[2]  );
+				~lsB = (~lsB + 1)% 2;
+				~sGB.set(\loop, ~lsB ); // toggle this
+				b.sendMsg("/led", msg[2], ~lsB, msg[4]);
+				postln("loop state set as:" + ~lsB + "    7 " + msg[2]  );
 			};
 		};
 
@@ -122,43 +241,41 @@ s.waitForBoot{
 		// msg[3] is it a touch [1] or a release [0]
 		// msg[4] which of the connected mpr121 boards is sending
 
-		// if SHIFT IS DEPRESSED on board 1 - shift enabled while 11 depressed
-		if (msg[1] == mac && msg[2] == 11 && msg[4] == 0 )  {
-			if (msg[3]==1){
-				~shift = 1; postln("shift is enabled"  )}
-			{   ~shift = 0; postln("shift is disabled" )}
-		};
 
-		// when finished apply effect/change and set state to unselected
+
+		// if SHIFT IS DEPRESSED on board 1 - shift enabled while 11 depressed
+
+		if (msg[1] == mac && msg[2] == 11 && msg[4] == 1 )  {
+			if (msg[3]==1){
+				~shiftB = 1; postln("shift is enabled"  )}
+			{   ~shiftB = 0; postln("shift is disabled" )}
+		};
 
 		if (~shift==1)  {
 			postln(" shift is pressed " + msg[2]);
 			w = case
-			{ msg[2] == 0} { ~oPA[0].set(\rate, 16); }
-			{ msg[2] == 1} { ~oPA[1].set(\rate, 14); }
-			{ msg[2] == 2} { ~oPA[2].set(\rate, 12); }
-			{ msg[2] == 3} { ~oPA[3].set(\rate, 10); }
-			{ msg[2] == 4} { ~oPA[4].set(\rate, 8); }
-			{ msg[2] == 5} { ~oPA[5].set(\rate, 6); }
-			{ msg[2] == 6} { ~oPA[6].set(\rate, 4); }
-			{ msg[2] == 7} { ~oPA[7].set(\rate, 2); }
+			{ msg[2] == 0} { ~oPB[0].set(\rate, 16); }
+			{ msg[2] == 1} { ~oPB[1].set(\rate, 14); }
+			{ msg[2] == 2} { ~oPB[2].set(\rate, 12); }
+			{ msg[2] == 3} { ~oPB[3].set(\rate, 10); }
+			{ msg[2] == 4} { ~oPB[4].set(\rate, 8); }
+			{ msg[2] == 5} { ~oPB[5].set(\rate, 6); }
+			{ msg[2] == 6} { ~oPB[6].set(\rate, 4); }
+			{ msg[2] == 7} { ~oPB[7].set(\rate, 2); }
 		}
-		//~oPA[0].get(\rate.poll).poll
+
+		//////////////////////////////////////////////////////////////////////////
 
 	},'/touch') } ;
 
-	~oPA[0].get(\rate).value;
-
 	s.sync;
 
 	~esp32Receive.('anything', '3C:E9:0E:AD:A5:48');
 
 	~sG.set(\amp, 1);
 	~sG.set(\rate, -1);
-
 	~sGB.set(\amp, 0.2);
 
-
 	"patch loaded and ready...".postln;
 
 };