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Gooder noise

tags/kitchen
Pete Shadbolt 3 anni fa
parent
commit
254a25c183
4 ha cambiato i file con 81 aggiunte e 11 eliminazioni
  1. +3
    -2
      audio.scd
  2. +27
    -0
      dev.scd
  3. +28
    -0
      fm.scd
  4. +23
    -9
      radio.py

+ 3
- 2
audio.scd Vedi File

@@ -6,7 +6,6 @@ s.waitForBoot {
thisProcess.openUDPPort(5005);
n = NetAddr.new("0.0.0.0", 5005);
o = OSCFunc({ arg msg, time, addr, recvPort; [msg, time, addr, recvPort].postln; }, '/radio', n);
//OSCFunc.trace(true);

// Create the synth definition and load it
module = SynthDef.new("module", {
@@ -34,13 +33,15 @@ s.waitForBoot {
// Create multiple sound generators
modules = [];
3.do({
1.do({
arg index;
var synth;
synth = Synth.new("module", [\hue, 0.5, \saturation, 0.1, \value, 0.5, \pan, 0.5, \gain, 0.9]);
modules.add(synth);
});

"%".postf(modules[0]);

// Hook up OSC
f = { |msg, time, addr|
if(msg[0] == '/radio') {


+ 27
- 0
dev.scd Vedi File

@@ -0,0 +1,27 @@
s = Server.local;
s.waitForBoot {
var synth, module;

// Create the synth definition and load it
module = SynthDef.new("module", {
var noise, crackle, mixer, oscillator, filtered_noise, tone, frequency, noise_level, qfactor, osc_level;

tone = MouseX.kr(1, 0);
frequency = MouseY.kr(200, 2000);
qfactor = (tone)**4;
osc_level = 1 - tone;
noise_level = 1 - tone;

oscillator = SinOsc.ar(frequency) * osc_level;
crackle = Crackle.ar(tone + 1, 0.5);
noise = WhiteNoise.ar(1);
filtered_noise = BPF.ar(noise, frequency, qfactor) * noise_level;
mixer = Mix.ar([crackle, filtered_noise]);
Out.ar(0, mixer);
});

module.load(s);
s.sync;

synth = Synth.new("module");
};

+ 28
- 0
fm.scd Vedi File

@@ -0,0 +1,28 @@
s = Server.local;
s.waitForBoot {
var synth, module;

// Create the synth definition and load it
module = SynthDef.new("module", {
var mod, car, modPartial=2.401, carPartial=1, index=3, freq=440, mul=0.05;

mod = SinOsc.ar(
freq * modPartial,
0,
200
);

car = SinOsc.ar(
(freq * carPartial) + mod,
0,
mul
);

Out.ar(0, Disintegrator.ar(SinOsc.ar(440), 0.5));
});

module.load(s);
s.sync;

synth = Synth.new("module");
};

+ 23
- 9
radio.py Vedi File

@@ -1,4 +1,5 @@
import math
import time
import itertools as it
import cv2
from pythonosc import udp_client
@@ -7,6 +8,7 @@ import numpy as np
DENSITY = 4
RED = [0, 0, 255]
N_COLORS = 3
LAST_MESSAGE_TIME = 0


def draw_rectangle(frame, sp, ep):
@@ -14,7 +16,7 @@ def draw_rectangle(frame, sp, ep):
return cv2.rectangle(frame, sp, ep, RED, 1)


def analyze_block(frame, osc, index, sp, ep):
def analyze_block(frame, osc, index, sp, ep, send=False):
""" Analyze a block """
block = frame[sp[1]:ep[1], sp[0]:ep[0], 0:3]
average_color = np.average(block, (0, 1))
@@ -26,13 +28,20 @@ def analyze_block(frame, osc, index, sp, ep):
h, s, v = cv2.cvtColor(average_color, cv2.COLOR_BGR2HSV)[0][0]

# Configure the oscillator
osc.send_message(
"/radio",
[int(index),
float(h / 255),
float(s / 255),
float(v / 255), .5])

if send and index == 0:
print("Sending message")
osc.send_message(
"/radio",
[int(index),
float(h / 255),
float(1),
float(v / 255), .5])
# osc.send_message(
# "/radio",
# [int(index),
# float(h / 255),
# float(s / 255),
# float(v / 255), .5])
# Draw the image
for thickness, color in ((3, (0, 0, 0)), (1, (255, 255, 255))):
frame = cv2.putText(frame,
@@ -47,16 +56,21 @@ def analyze_block(frame, osc, index, sp, ep):

def analyze(frame, osc):
""" Analyze the full frame """
global LAST_MESSAGE_TIME
height, width, d = frame.shape
n = DENSITY
m = math.ceil(n * (height / width))
dx = width / n
dy = height / m
send = False
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))):
sp = (int(x * dx), int(y * dy))
ep = (int(x * dx + dx), int(y * dy + dy))
frame = draw_rectangle(frame, sp, ep)
frame = analyze_block(frame, osc, index, sp, ep)
frame = analyze_block(frame, osc, index, sp, ep, send)
return frame




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