Added neovim config

audio.scd

@@ -1,3 +1,5 @@
+// SVNVimStart
+
 s = Server.local;
 s.waitForBoot {
     var module, msg, modules;
@@ -9,22 +11,25 @@ s.waitForBoot {
 
     // Create the synth definition and load it
     module = SynthDef.new(\module, { 
-        arg hue, saturation, value, pan, gain;
-        var oscillator, noise, filter, panner, mixer, frequency, qfactor, noise_level, osc_level;
+        arg hue, saturation, value, pan, gain, octave;
+        var oscillator, noise, filter, panner, mixer, frequency, qfactor, noise_level, osc_level, lagtime;
+
 
         // Calculate some parameters
-        frequency = 800 + 500*hue;
-        qfactor = (1 - saturation)**4;
-        osc_level = saturation;
-        noise_level = 1 - osc_level;
+        lagtime = 0.5;
+        frequency = Lag.kr(200 + 300*hue, lagtime) * (2**octave);
+        qfactor = Lag.kr((1 - saturation)**4, lagtime);
+        osc_level = Lag.kr(saturation, lagtime);
+        noise_level = Lag.kr(1 - osc_level, lagtime);
 
         // Generate some sounds
         // noise = WhiteNoise.ar(1);
-        noise = Crackle.ar(1.9, 1.0);
+        noise = Crackle.ar(1.99, 1.0);
         filter = BPF.ar(noise, frequency, qfactor) * noise_level;
-        oscillator = SinOsc.ar(frequency) * osc_level;
+        //oscillator = SinOsc.ar(frequency) * osc_level;
+        oscillator = DPW3Tri.ar(frequency) * osc_level;
         mixer = Mix.ar([filter, oscillator]);
-        panner = LinPan2.ar(mixer, 2*pan - 1, value * 0.2);
+        panner = LinPan2.ar(mixer, pan, 10*HPF.kr(value, 10**(1-octave*2))**2);
         Out.ar(0, panner);
     });
     module.load(s);
@@ -34,23 +39,21 @@ s.waitForBoot {
     modules = Array.fill(12, 
         {
             arg index; 
-            var pan;
+            var pan, octave;
             pan = ((index % 4) - 1.5)/1.5;
+            octave = (index / 4).floor;
+            "% %\n".postf(pan, octave);
             Synth.new(\module, 
-                [\hue, 0.5, \saturation, 0.1, \value, 0.5, pan, 0.5, \gain, 0.9]
+                [\hue, 0.5, \saturation, 0.1, \value, 0.5, pan, 0.5, \gain, 0.9, \octave, octave]
             )
         }
     );
 
-    "%\n".postf(modules[0]);
-    "%\n".postf(modules[1]);
 
     // Hook up OSC
     f = { |msg, time, addr|
         if(msg[0] == '/radio') {
-            "Got data: index: % hue: % sat: % value: % pan: %\n".postf(msg[1], msg[2], msg[3], msg[4], msg[5]);
             if(msg[1]<modules.size){
-                "Applying to module %\n\n".postf(msg[1]);
                 modules[msg[1]].set(\hue, msg[2]);
                 modules[msg[1]].set(\saturation, msg[3]);
                 modules[msg[1]].set(\value, msg[4]);

debug.scd

@@ -0,0 +1 @@
+SinOsc.ar(1000).play

radio.py

@@ -24,7 +24,6 @@ def analyze_block(frame, osc, index, sp, ep, send=False):
     h, s, v = colorsys.rgb_to_hsv(*average_color)
 
     # Configure the oscillator
-    # and index == 0:
     if send:
         print("Sending message", h, s, v)
         osc.send_message(
@@ -62,7 +61,7 @@ def analyze(frame, osc):
     if time.time() - LAST_MESSAGE_TIME > 0.1:
         LAST_MESSAGE_TIME = time.time()
         send = True
-    for index, (x, y) in enumerate(it.product(range(n), range(m))):
+    for index, (y, x) in enumerate(it.product(range(m), range(n))):
         sp = (int(x * dx), int(y * dy))
         ep = (int(x * dx + dx), int(y * dy + dy))
         frame = draw_rectangle(frame, sp, ep)
@@ -71,6 +70,7 @@ def analyze(frame, osc):
 
 
 if __name__ == '__main__':
+    # camera = cv2.VideoCapture("/dev/video2")
     camera = cv2.VideoCapture(0)
     osc = udp_client.SimpleUDPClient("0.0.0.0", 5005)