- #!/usr/bin/env python3
- #
- # This script was used to work out how to map the RGB/brightness input
- # data to GPIO pinout voltages.
-
- maxV = 3.27
-
- requirements = [
- # Input # Expected output
- (0, 0, 0, 1.00, False, None, None, None),
- (255, 255, 255, 0.00, False, None, None, None),
- (255, 0, 0, 0.01, True, 2.95, maxV, maxV),
- (255, 0, 0, 1.00, True, 1.82, 3.27, 3.27),
- (255, 255, 0, 0.01, True, 3.04, 2.86, 3.17),
- (255, 255, 0, 1.00, True, 2.56, 1.77, 3.15),
- (255, 255, 255, 0.01, True, 3.04, 2.86, 3.07),
- (255, 255, 255, 1.00, True, 2.56, 1.77, 2.73),
- (0, 255, 0, 0.01, True, 3.27, 2.95, 3.27),
- (0, 255, 0, 1.00, True, 3.27, 1.82, 3.27),
- (0, 255, 255, 0.01, True, 3.13, 2.86, 3.07),
- (0, 255, 255, 1.00, True, 2.97, 1.76, 2.71),
- (0, 0, 255, 0.01, True, 3.27, 3.27, 2.95),
- (0, 0, 255, 1.00, True, 3.27, 3.27, 1.82),
- (255, 0, 255, 0.01, True, 2.88, 3.12, 2.86),
- (255, 0, 255, 1.00, True, 1.85, 2.92, 1.77),
- (255, 128, 0, 0.01, True, 2.86, 2.93, 3.17),
- (255, 128, 0, 1.00, True, 1.77, 2.10, 3.15),
- (255, 0 ,128, 0.01, True, 2.86, 3.12, 3.10),
- (255, 0 ,128, 1.00, True, 1.77, 2.94, 2.84),
- (255, 128, 128, 0.01, True, 2.86, 2.93, 3.10),
- (255, 128, 128, 1.00, True, 1.77, 2.10, 2.86),
- (128, 255, 0, 0.01, True, 3.11, 2.86, 3.17),
- (128, 255, 0, 1.00, True, 2.87, 1.76, 3.15),
- (255, 128, 255, 0.01, True, 2.86, 2.93, 2.87),
- (255, 128, 255, 1.00, True, 1.76, 2.06, 1.80),
- ]
-
- def get_red(r, g, b, brightness):
- if r == 0:
- if g == 1 and b == 1:
- return round(3.13 - (brightness * 100 - 1) * (3.13 - 2.97)/99, 2)
- else:
- return maxV;
- if g == 1:
- if r == 1:
- return round((3.04 - (brightness * 100 - 1) * (3.04 - 2.56)/99), 2)
- elif r > 0:
- return round((3.11 - (brightness * 100 - 1) * (3.11 - 2.87)/99), 2)
- elif g > 0:
- if b == 1:
- return round((2.86 - (brightness * 100 - 1) * (2.86 - 1.76)/99), 2)
- else:
- return round((2.86 - (brightness * 100 - 1) * (2.86 - 1.77)/99), 2)
- elif b == 1:
- return round((2.88 - (brightness * 100 - 1) * (2.88 - 1.85)/99), 2)
- elif b > 0:
- return round((2.86 - (brightness * 100 - 1) * (2.86 - 1.77)/99), 2)
- else:
- return round((2.95 - (brightness * 100 - 1) * (2.95 - 1.82)/99), 2)
- raise Exception("Shouldn't get here")
-
- def get_green(r, g, b, brightness):
- if g == 0:
- if r == 1 and b == 1:
- return round(3.12 - (brightness * 100 - 1) * (3.12 - 2.92)/99, 2)
- elif r == 1 and b > 0:
- return round(3.12 - (brightness * 100 - 1) * (3.12 - 2.94)/99, 2)
- else:
- return maxV;
- if r == 1 and g == 1:
- return round((2.86 - (brightness * 100 - 1) * (2.86 - 1.77)/99), 2)
- elif r == 1:
- if b == 1:
- return round((2.93 - (brightness * 100 - 1) * (2.93 - 2.06)/99), 2)
- else:
- return round((2.93 - (brightness * 100 - 1) * (2.93 - 2.10)/99), 2)
- elif r > 0:
- return round((2.86 - (brightness * 100 - 1) * (2.86 - 1.76)/99), 2)
- elif r == 0 and b == 1:
- return round((2.86 - (brightness * 100 - 1) * (2.86 - 1.76)/99), 2)
- else:
- return round((2.95 - (brightness * 100 - 1) * (2.95 - 1.82)/99), 2)
- raise Exception("Shouldn't get here")
-
- def get_blue(r, g, b, brightness):
- if b == 0:
- if r > 0 and g > 0:
- return round((3.17 - (brightness * 100 - 1) * (3.17 - 3.15)/99), 2)
- else:
- return maxV;
- if r == 1 and g == 1:
- return round((3.07 - (brightness * 100 - 1) * (3.07 - 2.73)/99), 2)
- elif r == 1 and g == 0:
- if b == 1:
- return round((2.86 - (brightness * 100 - 1) * (2.86 - 1.77)/99), 2)
- elif b > 0:
- return round((3.10 - (brightness * 100 - 1) * (3.10 - 2.84)/99), 2)
- elif r == 1 and g > 0:
- if b == 1:
- return round((2.87 - (brightness * 100 - 1) * (2.87 - 1.80)/99), 2)
- else:
- return round((3.10 - (brightness * 100 - 1) * (3.10 - 2.86)/99), 2)
- elif r == 0 and g == 1:
- return round((3.07 - (brightness * 100 - 1) * (3.07 - 2.71)/99), 2)
- else:
- return round((2.95 - (brightness * 100 - 1) * (2.95 - 1.82)/99), 2)
- raise Exception("Shouldn't get here")
-
- def make_rgb_fractions(r, g, b):
- """ These ought to be 0 to 1 on input already, but it won't
- hurt to make sure they are."""
- m = max(r, g, b)
- r = r/m
- g = g/m
- b = b/m
- return (r, g, b)
-
-
- for r,g,b,brightness,stateExpected, rVexpected, gVexpected, bVexpected in requirements:
- print(f"IN: {r}, {g}, {b} at {brightness} / ", end="")
- print(f"EXP: ({stateExpected}) {rVexpected},{gVexpected},{bVexpected} ", end="")
-
- state = True
- if r + g + b == 0 or brightness == 0:
- state = False
- rV = None
- gV = None
- bV = None
- else:
- r, g, b = make_rgb_fractions(r, g, b)
- rV = get_red(r, g, b, brightness)
- gV = get_green(r, g, b, brightness)
- bV = get_blue(r, g, b, brightness)
- print(f"OUT: ({state}) {rV},{gV},{bV} ", end="")
- if rV == rVexpected and gV == gVexpected and bV == bVexpected and state == stateExpected:
- print(" [PASS]");
- else:
- print()
-
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