added live patch for 2xmpr121
parent
f49a316ccb
commit
394ae3ad2f
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@ -27,64 +27,16 @@ Adafruit_NeoPixel pixels(1, PIN, NEO_GRB + NEO_KHZ800);
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#ifndef _BV
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#define _BV(bit) (1 << (bit))
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#endif
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// You can have up to 4 on one i2c bus but one is enough for testing!
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Adafruit_MPR121 cap = Adafruit_MPR121();
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// Keeps track of the last pins touched
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// so we know when buttons are 'released'
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uint16_t lasttouched = 0;
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uint16_t currtouched = 0;
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#endif/
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.//./ You can have up to 4 on one i2c bus but one is enough for testing!
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// Wi-Fi SETTINGS /////////////
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Adafruit_MPR121 cap0 = Adafruit_MPR121();
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#include <WiFi.h>
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const char* ssid = "zavod rizoma_EXT";
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const char* password = "cermozise";
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// BROADCAST TO ALL IP / port
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const IPAddress castIp = IPAddress(192,168,0,255); // 255 FOR BROADCAST
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const int port = 57120; // SUPERCOLLIDERS DEFAULT INCOMING OSC PORT
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bool connected = false;
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#include <WiFiUdp.h>
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WiFiUDP udp;
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Adafruit_MPR121 cap1 = Adafruit_MPR121();
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pixels.begin(); // INITIALIZE NeoPixel (REQUIRED)
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// OSC and serial communications ////////////////////////////
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#define SERIAL_OSC
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#define WIFI_OSC
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#include <OSCBundle.h>
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#include <OSCMessage.h>
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#include <OSCBoards.h>
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/* OSC MSG channels */
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OSCBundle bundle;
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// SERIAL /////////////////////////////////
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#ifdef BOARD_HAS_USB_SERIAL
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#include <SLIPEncodedUSBSerial.h>
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SLIPEncodedUSBSerial SLIPSerial( thisBoardsSerialUSB );
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#else
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#include <SLIPEncodedSerial.h>
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SLIPEncodedSerial SLIPSerial(Serial);
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#endif
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// CAPACITIVE TOUCH SETUP ///////////////////
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byte keys[] = {1,2,3,4,5,6,7,10,11,12,13,14};
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byte KEYLEN = 12;
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byte pressed[] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
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byte lastTouchState[] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
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byte touchState[] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
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byte lastDebounceTime[] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
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unsigned long debounceDelay = 50; // the debounce time; increase if the output flickers
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//int THRESH = 40; // capacitive noise threshold
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///////////////////////////////////////////
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void setup() {
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pixels.setBrightness(5);
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pixels.begin(); // INITIALIZE NeoPixel (REQUIRED)
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pinMode(ledPin, OUTPUT); //Define ledPin as output
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pinMode(shiftLedPin, OUTPUT); //Define ledPin as output
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pinMode(loopLedPin, OUTPUT); //Define ledPin as output
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@ -99,13 +51,22 @@ void setup() {
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// Default address is 0x5A, if tied to 3.3V its 0x5B
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// If tied to SDA its 0x5C and if SCL then 0x5D
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if (!cap.begin(0x5A)) {
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Serial.println("MPR121 not found, check wiring?");
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if (!cap1.begin(0x5A)) {
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Serial.println("MPR121 not found, check wiring?");
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while (1);
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}
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Serial.println("MPR121 found!");
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if (!cap2.begin(0x5C)) {
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Serial.println("MPR121 not found, check wiring?");
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while (1);
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}
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Serial.println("MPR121 found!");
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// I2C init
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//Serial.println("Starting up I2C");
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//Wire.begin();
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@ -126,7 +87,9 @@ void setup() {
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} // setup ends //////////////////////////////////////////////////
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// MAIN LOOP /////////////////////////////////////////////////////////
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int colorCount = 0;
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void loop() {
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//Set the new color on the pixel.
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pixels.setPixelColor(0, Wheel(colorCount++));
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@ -135,8 +98,9 @@ void loop() {
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if (colorCount > 255)
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colorCount = 0;
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sendCapacitive();
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sendCapacitiveOlimex();
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sendCapacitiveA(); // from the 121
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sendCapacitiveB(); // from the 121
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sendCapacitiveOlimex(); // from the board
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}
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@ -185,13 +149,13 @@ void connectWiFi(){
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// detect touch events and send over OSC //////////////
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void sendCapacitive(void){
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void sendCapacitiveA(void){
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// Get the currently touched pads
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currtouched = cap.touched();
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currtouched0 = cap1.touched();
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for (uint8_t i=0; i<KEYLEN; i++) {
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// it if *is* touched and *wasnt* touched before, alert!
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if ((currtouched & _BV(i)) && !(lasttouched & _BV(i)) ) {
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if ((currtouched0 & _BV(i)) && !(lasttouched0 & _BV(i)) ) {
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Serial.print(i); Serial.println(" touched");
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ledState = !ledState;
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@ -207,11 +171,11 @@ void sendCapacitive(void){
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udp.endPacket();
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#endif
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String cap = "val for key num: " + String(i) + " === " + String(HIGH);
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Serial.println("OSC SENT "); Serial.println(cap);
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String cap1 = "val for key num: " + String(i) + " === " + String(HIGH);
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Serial.println("OSC SENT "); Serial.println(cap0);
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}
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// if it *was* touched and now *isnt*, alert!
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if (!(currtouched & _BV(i)) && (lasttouched & _BV(i)) ) {
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if (!(currtouched0 & _BV(i)) && (lasttouched0 & _BV(i)) ) {
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Serial.print(i); Serial.println(" released");
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OSCMessage msg("/release_121_A");
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@ -225,15 +189,15 @@ void sendCapacitive(void){
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udp.endPacket();
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#endif
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String cap = "val for key num: " + String(i) + " === " + String(LOW);
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Serial.println("OSC SENT "); Serial.println(cap);
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String cap1 = "val for key num: " + String(i) + " === " + String(LOW);
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Serial.println("OSC SENT "); Serial.println(cap1);
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}
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}
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// reset our state
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lasttouched = currtouched;
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lasttouched0 = currtouched0;
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/*
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@ -271,6 +235,90 @@ void sendCapacitive(void){
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void sendCapacitiveB(void){
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// Get the currently touched pads
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currtouched1 = cap2.touched();
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for (uint8_t i=0; i<KEYLEN; i++) {
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// it if *is* touched and *wasnt* touched before, alert!
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if ((currtouched1 & _BV(i)) && !(lasttouched1 & _BV(i)) ) {
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Serial.print(i); Serial.println(" touched");
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ledState = !ledState;
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OSCMessage msg("/touch_121_B");
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msg.add(WiFi.macAddress().c_str()); // mac address of sender
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msg.add((int32_t)i); // send which sensor was touched
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#ifdef WIFI_OSC
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udp.beginPacket(castIp, port);
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//bundle.send(udp);
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msg.send(udp);
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udp.endPacket();
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#endif
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String cap2 = "val for key num: " + String(i) + " === " + String(HIGH);
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Serial.println("OSC SENT "); Serial.println(cap2);
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}
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// if it *was* touched and now *isnt*, alert!
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if (!(currtouched1 & _BV(i)) && (lasttouched1 & _BV(i)) ) {
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Serial.print(i); Serial.println(" released");
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OSCMessage msg("/release_121_B");
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msg.add(WiFi.macAddress().c_str()); // mac address of sender
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msg.add((int32_t)i); // send which sensor was touched
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#ifdef WIFI_OSC
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udp.beginPacket(castIp, port);
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//bundle.send(udp);
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msg.send(udp);
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udp.endPacket();
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#endif
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String cap2 = "val for key num: " + String(i) + " === " + String(LOW);
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Serial.println("OSC SENT "); Serial.println(cap2);
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}
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}
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// reset our state
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lasttouched1 = currtouched1;
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/*
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// comment out this line for detailed data from the sensor!
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// return;
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// debugging info, what
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Serial.print("\t\t\t\t\t\t\t\t\t\t\t\t\t 0x"); Serial.println(cap.touched(), HEX);
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Serial.print("Filt: ");
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for (uint8_t i=0; i<KEYLEN; i++) {
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Serial.print(cap.filteredData(i)); Serial.print("\t");
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}
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Serial.println();
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Serial.print("Base: ");
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for (uint8_t i=0; i<KEYLEN; i++) {
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Serial.print(cap.baselineData(i)); Serial.print("\t");
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}
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Serial.println();
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*/
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// put a delay so it isn't overwhelming
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delay(5);
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//return;
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/////////////////////////////////////////////////////////////////////////////////////////
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//Serial.println(int(currtouched+pow(2,12)),BIN);
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//Serial.print("<");
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//Serial.println(">");
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} //////////////////
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@ -1,20 +1,16 @@
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/*RUN*/
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//supercollider file for spellcaster
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s.options.numInputBusChannels = 4;
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s.options.numOutputBusChannels = 4;
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OSCFunc.trace(true); // Turn posting on
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OSCFunc.trace(false); // Turn posting off
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//OSCFunc.trace(true); // Turn posting on
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//OSCFunc.trace(false); // Turn posting off
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//s.boot;
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//(
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s.waitForBoot{
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///////////////////////////////////////////////////////////////////////////
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// set path for sample location and make dictionary of subdirectories
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//~samplepath = thisProcess.nowExecutingPath.dirname ++ "/samples";
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~samplepath = "/home/rizoma/pifcamp2023/sc/samples"; // CHANGE THIS TO YOUR OWN PATH
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~samplepath = "/home/rob/pifcamp2023/sc/samples"; // CHANGE THIS TO YOUR OWN PATH
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~smp = Dictionary.new;
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PathName(~samplepath).entries.do{
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)
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);
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};
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// e.g. green sample subdirectory of ~samplepath: ~smp[\green][1] //
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///////////////////////////////////////////////////////////////////////
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// allocate busses
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@ -37,104 +31,138 @@ s.waitForBoot{
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~ringModBus = Bus.audio(s, 1);
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// create group order
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~smpGrp = Group.new;
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// 4 BUFFERS ALLOCATED ...
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~b1 = Buffer.alloc(s, s.sampleRate * 10, 1); // Allocate a 10 second mono buffer
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~b0 = Buffer.alloc(s, s.sampleRate * 4, 1); //
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//~b1 = Buffer.alloc(s, s.sampleRate * 4, 1); //
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~b2 = Buffer.alloc(s, s.sampleRate * 4, 1); //
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~b3 = Buffer.alloc(s, s.sampleRate * 4, 1); //
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////////////////////////////////////////////////////////////
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// function to save audio recordings to timestamped wav files
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// make the MIZA directory manually for now and store audio recording archive there
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// this gets triggered by the osc responder below // ~archiveInputs.value(~b0);
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~path = thisProcess.platform.recordingsDir +/+ "MIZA/";
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~archiveInputs = { | buf| buf.write(
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path: ~path ++ "MIZA_" ++ Date.localtime.stamp ++ ".wav",
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headerFormat: "wav",
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sampleFormat: 'int16');
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};
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// load archive directories into array and scramble
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~archiveDir = PathName.new(~path).files.scramble.copyFromStart(5);
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~archiveDir[0]; // get a random file from archive
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~sGA = Group.new; ~sGB = Group.new; ~sGC = Group.new; ~sGD = Group.new;
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s.sync;
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//// SYNTHS //////////////////////////////////
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SynthDef.new(\splay, {| out = 0, bufnum = 0, trig = 1, amp = 1, rate=1,
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atk=1, rel=1, loop=0, spos=0, gate=1 |
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SynthDef.new(\splay, {| out=0, bufnum=0, t_trig=0, amp=0.5, rate=1,
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atk=1, rel=1, loop=0, spos=0, gate=0, panRate=0.2 |
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var env, sig;
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env= EnvGen.kr(Env.asr(atk,1,rel),gate, doneAction:2);
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sig = PlayBuf.ar(1, bufnum,
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//BufRateScale.kr(bufnum) *
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rate, trig, startPos: spos, loop:loop,
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doneAction: Done.freeSelf);
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sig = PlayBuf.ar(1, bufnum, rate, t_trig, startPos: spos, loop:loop, doneAction: 0);
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sig = sig * env * amp;
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sig = Pan2.ar(sig, FSinOsc.kr(panRate));
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Out.ar(out, sig);
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}).add;
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////////////////////////////////////////////////////////
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s.sync;
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~oscPlay = {
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arg chan=1, rates=1, sdir=\bowl, amp=0.5, loop=0, group=~smpGrp;
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Synth(\splay, [\bufnum, ~smp[sdir][rrand(0,~smp[sdir].size)],
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\out, rrand(0,1), \rate, rates, \amp, rrand(0.4, 0.8), \loop, loop], group); // recorder
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postln("chan:" + chan + "rates: " + rates + "sdir:" + sdir.asString + "amp: " + amp );
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};
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~oPA = 8.collect({
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arg itt, rate=1, out=0, sdir=\bowl,
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amp=0.5, loop=1, panRate=rrand(0.05,0.75), group=~sGA;
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//var deg = Scale.major[deg].midiratio;
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//postln( itt + " bufnum" + \bufnum + "sdir:" + sdir.asString + "amp: " + amp + "out: " + out);
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Synth.new(\splay, [\bufnum, ~smp[sdir][rrand(0,~smp[sdir].size-1)], \out, out, \loop, loop, panRate: panRate], group);
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});
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// 'A8:42:E3:4B:10:AC'
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~ls0=1; //loop state
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~oPB = 8.collect({
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arg itt, rate=1, out=0, sdir=\green,
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amp=0.1, loop=1, panRate=rrand(0.05,0.75), group=~sGA;
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//var deg = Scale.major[deg].midiratio;
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//postln( itt + " bufnum" + \bufnum + "sdir:" + sdir.asString + "amp: " + amp + "out: " + out);
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Synth.new(\splay, [\bufnum, ~smp[sdir][rrand(0,~smp[sdir].size-1)], \out, out, \loop, loop, panRate: panRate], group);
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});
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///////////////////////////////////////////////////////////////////
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// RECEIVE OSC MESSAGES FROM ESP32s
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~shift = 0; // shift state
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~ls0=1; // loop state
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s.sync;
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// RECEIVE OSC MESSAGES FROM ESP32s
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~esp32Receive = { arg name ,mac; OSCdef(name, { arg msg, time;
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/* postln("from esp32: " + mac + " name: " + name + " sensor: " + msg[2] ); // which ESP instrument and sensor is message coming from
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"~esp32Receive function declared".postln;*/
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~esp32Receive = { arg name ,mac; OSCdef(name, { arg msg, time;
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if (msg[1] == mac) { // use esp32 mac address to determine source of msg
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// msg[1] sender mac address
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// msg[2] which of the [0 - 11] sensors is touched
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// msg[3] is it a touch [1] or a release [0]
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// msg[4] which of the connected mpr121 boards is sending
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postln("from esp32: " + mac + " name: " + name + " sensor: " + msg[2] ); // which ESP instrument and sensor is message coming from
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if (msg[1] == mac && msg[3] == 1 && msg[4] == 0 && ~shift == 0 ) {
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postln("first board" + msg[2]);
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~scale = Scale.partch_o1;
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w = case
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{ msg[2] == 0} { ~oscPlay.value( chan: rrand(0,1), rates:[0.125, 0.5,1].choose + 0.1, sdir: \green, amp:rrand(0.4, 0.8), loop:0, group:~smpGrp ); }
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{ msg[2] == 1} { ~oscPlay.value( chan: rrand(0,1), rates:[8,16,24].choose + 0.2, sdir: \bowl, amp:rrand(0.4, 0.8), loop:1, group:~smpGrp ); }
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{ msg[2] == 2} { ~oscPlay.value( chan: rrand(0,1), rates:[0.125, 0.5, 1].choose + 0.3, sdir: \bowl, amp:rrand(0.4, 0.8), loop:0, group:~smpGrp ); }
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{ msg[2] == 3} { ~oscPlay.value( chan: rrand(0,1), rates:[0.5, 1,2,3].choose + 0.5, sdir: \bowl, amp:rrand(0.4, 0.8), loop:0, group:~smpGrp ); }
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{ msg[2] == 4} { ~oscPlay.value( chan: rrand(0,1), rates:[0.5, 1,2,3].choose + 0.8, sdir: \bowl, amp:rrand(0.4, 0.8), loop:0, group:~smpGrp ); }
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{ msg[2] == 5} { ~oscPlay.value( chan: rrand(0,1), rates:[0.5, 1,2,3].choose + 1.3, sdir: \bowl, amp:rrand(0.4, 0.8), loop:0, group:~smpGrp ); }
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{ msg[2] == 6} { ~oscPlay.value( chan: rrand(0,1), rates:[0.5, 1,2,3].choose + 2.1, sdir: \bowl, amp:rrand(0.4, 0.8), loop:0, group:~smpGrp ); }
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{ msg[2] == 0} { ~oPA[0].set(\rate, ~scale[rrand(0,47)].midiratio, \t_trig, 1, \loop, 1, \gate, 1); }
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{ msg[2] == 1} { ~oPA[1].set(\rate, ~scale[rrand(0,47)].midiratio, \t_trig, 1, \gate, 1); }
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{ 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); }
|
||||
|
||||
// touch 7 = toggle looping of all samplers
|
||||
{ msg[2] == 7} {
|
||||
{ msg[2] == 8 } { // touch 7 = toggle looping of all samplers
|
||||
~ls0 = (~ls0 + 1)% 2;
|
||||
~smpGrp.set(\loop, ~ls0 ); // toggle this
|
||||
~sGA.set(\loop, ~ls0 ); // toggle this
|
||||
postln("loop state set as:" + ~ls0 + " 7 " + msg[2] );
|
||||
};
|
||||
};
|
||||
|
||||
if (msg[1] == mac && msg[3] == 1 && msg[4] == 1) {
|
||||
postln("second board" + msg[2]);
|
||||
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] == 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] );
|
||||
};
|
||||
};
|
||||
|
||||
// select with SHIFT key - toggle effect = apply with enter key
|
||||
// set a state // release of shift key acts as enter
|
||||
|
||||
// msg[1] sender mac address
|
||||
// msg[2] which of the [0 - 11] sensors is touched
|
||||
// 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==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); }
|
||||
}
|
||||
},'/touch') } ;
|
||||
//~oPA[0].get(\rate.poll).poll
|
||||
|
||||
},'/touch') } ;
|
||||
|
||||
~oPA[0].get(\rate).value;
|
||||
|
||||
s.sync;
|
||||
|
||||
"asdfasdfasdf".postln;
|
||||
~esp32Receive.('anything', '3C:E9:0E:AD:A5:48');
|
||||
|
||||
~esp32Receive.('bendy_wires', 'A8:42:E3:4B:10:AC');
|
||||
~esp32Receive.('tetractys', '48:E7:29:C3:EF:BC');
|
||||
~esp32Receive.('roger', '48:E7:29:C3:EF:BC');
|
||||
~esp32Receive.('robbie', 'A8:42:E3:57:A1:38');
|
||||
~esp32Receive.('tina', 'A8:42:E3:47:5E:3C ');
|
||||
~sG.set(\amp, 1);
|
||||
~sG.set(\rate, -1);
|
||||
|
||||
~sGB.set(\amp, 0.2);
|
||||
|
||||
|
||||
"patch loaded and ready...".postln;
|
||||
|
||||
};
|
||||
|
||||
//}
|
||||
/// mesages from tetractys esp32
|
||||
// 3C:E9:0E:AD:E5:00 - general
|
||||
// 48:E7:29:C3:EF:BC - tetractys
|
||||
// A0:B7:65:4A:AB:40 // white clip
|
||||
// A8:42:E3:4B:10:AC // testing thin case
|
||||
|
|
|
@ -0,0 +1,164 @@
|
|||
/*RUN*/
|
||||
|
||||
s.options.numInputBusChannels = 4;
|
||||
s.options.numOutputBusChannels = 4;
|
||||
|
||||
//OSCFunc.trace(true); // Turn posting on
|
||||
//OSCFunc.trace(false); // Turn posting off
|
||||
|
||||
s.waitForBoot{
|
||||
///////////////////////////////////////////////////////////////////////////
|
||||
// set path for sample location and make dictionary of subdirectories
|
||||
//~samplepath = thisProcess.nowExecutingPath.dirname ++ "/samples";
|
||||
~samplepath = "/home/rob/pifcamp2023/sc/samples"; // CHANGE THIS TO YOUR OWN PATH
|
||||
~smp = Dictionary.new;
|
||||
|
||||
PathName(~samplepath).entries.do{
|
||||
arg subfolder;
|
||||
~smp.add(
|
||||
subfolder.folderName.asSymbol ->
|
||||
Array.fill(
|
||||
subfolder.entries.size,
|
||||
{ arg i; Buffer.read(s, subfolder.entries[i].fullPath).normalize;}
|
||||
)
|
||||
);
|
||||
};
|
||||
// e.g. green sample subdirectory of ~samplepath: ~smp[\green][1] //
|
||||
///////////////////////////////////////////////////////////////////////
|
||||
|
||||
// allocate busses
|
||||
~reverbBus = Bus.audio(s, 1);
|
||||
~ringModBus = Bus.audio(s, 1);
|
||||
|
||||
// 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,
|
||||
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 = sig * env * amp;
|
||||
sig = Pan2.ar(sig, FSinOsc.kr(panRate));
|
||||
Out.ar(out, sig);
|
||||
}).add;
|
||||
|
||||
s.sync;
|
||||
|
||||
~oPA = 8.collect({
|
||||
arg itt, rate=1, out=0, sdir=\bowl,
|
||||
amp=0.5, 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;
|
||||
Synth.new(\splay, [\bufnum, ~smp[sdir][rrand(0,~smp[sdir].size-1)], \out, out, \loop, loop, panRate: panRate], group);
|
||||
});
|
||||
|
||||
|
||||
// RECEIVE OSC MESSAGES FROM ESP32s
|
||||
|
||||
~shift = 0; // shift state
|
||||
~ls0=1; // loop state
|
||||
s.sync;
|
||||
|
||||
~esp32Receive = { arg name ,mac; OSCdef(name, { arg msg, time;
|
||||
|
||||
// msg[1] sender mac address
|
||||
// msg[2] which of the [0 - 11] sensors is touched
|
||||
// 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); }
|
||||
|
||||
{ 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] );
|
||||
};
|
||||
};
|
||||
|
||||
if (msg[1] == mac && msg[3] == 1 && msg[4] == 1) {
|
||||
postln("second board" + msg[2]);
|
||||
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] == 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] );
|
||||
};
|
||||
};
|
||||
|
||||
// select with SHIFT key - toggle effect = apply with enter key
|
||||
// set a state // release of shift key acts as enter
|
||||
|
||||
// msg[1] sender mac address
|
||||
// msg[2] which of the [0 - 11] sensors is touched
|
||||
// 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==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); }
|
||||
}
|
||||
//~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;
|
||||
|
||||
};
|
Loading…
Reference in New Issue