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Change UI controls

slider switch is now standby mode
button a toggles spectro/shaker modes
bottun b cycles between 4 brightness levels

Also added debounce logic
master
Nimrod Kerrett vor 2 Jahren
Ursprung
Commit
dd4c80c09b
1 geänderte Dateien mit 66 neuen und 33 gelöschten Zeilen
  1. 66
    33
      code.py

+ 66
- 33
code.py Datei anzeigen

@@ -1,11 +1,15 @@
1 1
 """
2 2
 Spectroshaker by The Dod:
3 3
 Adafruit CircuitPlayground Bluefruit dual-mode "bling"
4
-(selectable via the slider switch).
5 4
 The RGB levels of neopixels around the circuit indicate:
6 5
 - Low/Mid/High sound levels (spectrogram mode)
7 6
 - X/Y/Z acceleration (shaker mode)
8
-TO BE CONTINUED ...
7
+
8
+Controls:
9
+    slider switch: normal/standby mode
10
+    button a: toggle between spectrogram/shaker mode
11
+    button b: cycle between 4 brightness levels
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+
9 13
 """
10 14
 import math
11 15
 import time
@@ -21,48 +25,77 @@ LED_ANGLES = [
21 25
 minx = miny = minz = -5.0
22 26
 maxx = maxy = maxz = 5.0
23 27
 
24
-fft_size = 8 # power of 2
28
+fft_size = 8  # power of 2
25 29
 samples = [0.0+0.0j]*fft_size
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-MAX_2FREQ = 10.0 # After testing this a bit in the wild
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+MAX_2FREQ = 10.0  # After testing this a bit in the wild
27 31
 
28 32
 cp.pixels.brightness = 0.1
29 33
 
34
+MODE_SPECTRO = 1
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+MODE_SHAKER = 2
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+current_mode = MODE_SHAKER
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+is_standby = cp.switch
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+last_click = 0
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+DEBOUNCE = 0.25
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+
30 41
 def angles2level(led, val):
31 42
     led_angle = LED_ANGLES[led]
32 43
     val_angle = val * 2.0 * math.pi
33 44
     angle = led_angle - val_angle
34
-    while angle>2*math.pi:
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+    while angle > 2 * math.pi:
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         angle -= 2*math.pi
36 47
     # the pow() makes sin() values sharper
37 48
     return int(255*pow(math.sin(angle/2), 4))
38 49
 
39 50
 while True:
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-    if cp.button_a:
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-        cp.pixels.brightness = max(0.05, cp.pixels.brightness*0.9)
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-    elif cp.button_b:
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-        cp.pixels.brightness = min(0.95, 1.0-(1.0-cp.pixels.brightness)*0.9)
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+    if time.monotonic() > last_click+DEBOUNCE:
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+        if is_standby != cp.switch:
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+            is_standby = cp.switch
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+            last_click = time.monotonic()
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+            if is_standby:
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+                for i in range(NUM_PIXELS):
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+                    cp.pixels[i] = (0, 0, 0)
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+        if cp.button_a:
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+            last_click = time.monotonic()
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+            current_mode = (
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+                current_mode == MODE_SHAKER and MODE_SPECTRO
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+                or MODE_SHAKER)
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+        elif cp.button_b:
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+            last_click = time.monotonic()
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+            is_standby = False
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+            if cp.pixels.brightness >= 0.4:
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+                cp.pixels.brightness = 0.1
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+            else:
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+                cp.pixels.brightness += 0.1
44 70
 
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-    samples.pop(0)
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-    samples.append(cp.sound_level+0.0j)
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-    x, y, z = cp.acceleration
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-    if x<minx: minx = x
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-    if y<miny: miny = y
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-    if z<minz: minz = z
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-    if x>maxx: maxx = x
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-    if y>maxy: maxy = y
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-    if z>maxx: maxz = z
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-    if cp.switch: # accelerometer mode
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-        vals = (
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-            (x-minx)/(maxx-minx),
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-            (y-miny)/(maxy-miny),
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-            (z-minz)/(maxz-minz))
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-    else: # spectrogram mode
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-        raw_freqs = spectrogram(samples)
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-        pairs = [raw_freqs[i]+raw_freqs[i+1] for i in range(fft_size//2)]
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-        vals = [min(1.0, abs(x/MAX_2FREQ)) for x in pairs[:3]]
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-    for i in range(NUM_PIXELS):
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-        cp.pixels[i] = (
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-            angles2level(i, vals[0]),
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-            angles2level(i, vals[1]),
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-            angles2level(i, vals[2]))
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-    time.sleep(0.01)
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+    if not is_standby:
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+        samples.pop(0)
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+        samples.append(cp.sound_level+0.0j)
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+        x, y, z = cp.acceleration
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+        if x < minx:
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+            minx = x
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+        if y < miny:
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+            miny = y
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+        if z < minz:
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+            minz = z
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+        if x > maxx:
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+            maxx = x
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+        if y > maxy:
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+            maxy = y
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+        if z > maxz:
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+            maxz = z
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+        if current_mode == MODE_SHAKER:  # accelerometer mode
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+            vals = (
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+                (x-minx)/(maxx-minx),
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+                (y-miny)/(maxy-miny),
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+                (z-minz)/(maxz-minz))
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+        else:  # spectrogram mode
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+            raw_freqs = spectrogram(samples)
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+            pairs = [raw_freqs[i]+raw_freqs[i+1] for i in range(fft_size//2)]
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+            vals = [min(1.0, abs(x/MAX_2FREQ)) for x in pairs[:3]]
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+        for i in range(NUM_PIXELS):
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+            cp.pixels[i] = (
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+                angles2level(i, vals[0]),
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+                angles2level(i, vals[1]),
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+                angles2level(i, vals[2]))
101
+    time.sleep(0.01)

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