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New effect: Power - [Preview](https://imgur.com/a/p6e9l)
Better beat/highs detection
Added processing latency indicator
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not-matt 2017-12-28 01:25:16 +00:00 committed by GitHub
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commit 3ae736bffe
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@ -9,6 +9,7 @@ import config
import microphone
import dsp
import led
import random
if config.USE_GUI:
from qrangeslider import QRangeSlider
from qfloatslider import QFloatSlider
@ -22,7 +23,7 @@ class Visualizer():
self.effects = {"Scroll":self.visualize_scroll,
"Energy":self.visualize_energy,
"Spectrum":self.visualize_spectrum,
#"Power":self.visualize_power,
"Power":self.visualize_power,
"Wavelength":self.visualize_wavelength,
"Beat":self.visualize_beat,
"Wave":self.visualize_wave,
@ -68,14 +69,18 @@ class Visualizer():
"low":0,
"mid":0,
"high":0}
self.detection_ranges = {"beat":(0,3),
"low":(3,int(config.N_FFT_BINS*0.2)),
"mid":(int(config.N_FFT_BINS*0.4),int(config.N_FFT_BINS*0.6)),
"high":(int(config.N_FFT_BINS*0.7),int(config.N_FFT_BINS))}
self.detection_ranges = {"beat":(0,int(config.N_FFT_BINS*0.13)),
"low":(int(config.N_FFT_BINS*0.15),int(config.N_FFT_BINS*0.4)),
"mid":(int(config.N_FFT_BINS*0.4),int(config.N_FFT_BINS*0.7)),
"high":(int(config.N_FFT_BINS*0.8),int(config.N_FFT_BINS))}
self.min_detect_amplitude = {"beat":0.7,
"low":0.5,
"mid":0.3,
"high":0.05}
"high":0.3}
self.min_percent_diff = {"beat":100,
"low":100,
"mid":50,
"high":30}
# Configurable options for effects go in this dictionary.
# Usage: self.effect_opts[effect][option]
self.effect_opts = {"Energy":{"blur": 1, # Amount of blur to apply
@ -86,14 +91,19 @@ class Visualizer():
"decay": 0.7, # How quickly the flash fades away
"wipe_speed":2}, # Number of pixels added to colour bit every frame
"Wavelength":{"roll_speed": 0, # How fast (if at all) to cycle colour overlay across strip
"color_mode": "Spectral", # Colour mode of overlay
"color_mode": "Spectral", # Colour gradient to display
"mirror": False, # Reflect output down centre of strip
"reverse_grad": False, # Flip (LR) gradient
"reverse_roll": False, # Reverse movement of gradient roll
"blur": 3.0}, # Amount of blur to apply
"blur": 3.0, # Amount of blur to apply
"flip_lr":False}, # Flip output left-right
"Scroll":{"decay": 0.95, # How quickly the colour fades away as it moves
"blur": 0.2}, # Amount of blur to apply
"Power":{"blur": 3.0}, # Amount of blur to apply
"Power":{"color_mode": "Spectral", # Colour gradient to display
"s_count": config.N_PIXELS//6, # Initial number of sparks
"s_color": "White", # Color of sparks
"mirror": False, # Mirror output down central axis
"flip_lr":False}, # Flip output left-right
"Single":{"color": "Red"}, # Static color to show
"Beat":{"color": "Red", # Colour of beat flash
"decay": 0.7}, # How quickly the flash fades away
@ -102,7 +112,8 @@ class Visualizer():
"roll_speed":0, # How fast (if at all) to cycle colour colours across strip
"mirror": False, # Mirror down centre of strip
#"reverse_grad": False, # Flip (LR) gradient
"reverse_roll": False}, # Reverse movement of gradient roll
"reverse_roll": False, # Reverse movement of gradient roll
"flip_lr":False}, # Flip output left-right
"Gradient":{"color_mode":"Spectral", # Colour gradient to display
"roll_speed": 0, # How fast (if at all) to cycle colour colours across strip
"mirror": False, # Mirror gradient down central axis
@ -150,16 +161,22 @@ class Visualizer():
["blur", "Blur", "float_slider", (0.1,4.0,0.1)],
["mirror", "Mirror", "checkbox"],
["reverse_grad", "Reverse Gradient", "checkbox"],
["reverse_roll", "Reverse Roll", "checkbox"]],
["reverse_roll", "Reverse Roll", "checkbox"],
["flip_lr", "Flip LR", "checkbox"]],
"Scroll":[["blur", "Blur", "float_slider", (0.05,4.0,0.05)],
["decay", "Decay", "float_slider", (0.95,1.0,0.005)]],
"Power":[["blur", "Blur", "float_slider", (0.1,4.0,0.1)]],
"Power":[["color_mode", "Color Mode", "dropdown", self.multicolor_mode_names],
["s_color", "Spark Color ", "dropdown", self.colors],
["s_count", "Spark Amount", "slider", (0,config.N_PIXELS//6,1)],
["mirror", "Mirror", "checkbox"],
["flip_lr", "Flip LR", "checkbox"]],
"Single":[["color", "Color", "dropdown", self.colors]],
"Beat":[["color", "Color", "dropdown", self.colors],
["decay", "Flash Decay", "float_slider", (0.3,0.98,0.005)]],
"Bars":[["color_mode", "Color Mode", "dropdown", self.multicolor_mode_names],
["resolution", "Resolution", "slider", (1, config.N_FFT_BINS, 1)],
["roll_speed", "Roll Speed", "slider", (0,8,1)],
["flip_lr", "Flip LR", "checkbox"],
["mirror", "Mirror", "checkbox"],
["reverse_roll", "Reverse Roll", "checkbox"]],
"Gradient":[["color_mode", "Color Mode", "dropdown", self.multicolor_mode_names],
@ -170,9 +187,13 @@ class Visualizer():
["roll_speed", "Fade Speed", "slider", (0,8,1)],
["reverse", "Reverse", "checkbox"]]
}
# Setup for latency timer
self.latency_deque = deque(maxlen=10)
# Setup for "Wave" (don't change these)
self.wave_wipe_count = 0
# Setup for "Power" (don't change these)
self.power_indexes = []
self.power_brightness = 0
# Setup for multicolour modes (don't mess with this either unless you want to add in your own multicolour modes)
# If there's a multicolour mode you would like to see, let me know on GitHub!
self.multicolor_modes = {}
@ -224,12 +245,17 @@ class Visualizer():
def get_vis(self, y, audio_input):
self.update_freq_channels(y)
self.detect_freqs()
time1 = time.time()
if audio_input:
self.prev_output = np.copy(self.effects[self.current_effect](y))
elif self.current_effect in self.non_reactive_effects:
self.prev_output = np.copy(self.effects[self.current_effect](y))
else:
self.prev_output = np.multiply(self.prev_output, 0.95)
time2 = time.time()
self.latency_deque.append(1000*(time2-time1))
if config.USE_GUI:
gui.label_latency.setText("{} ms Processing Latency ".format(int(sum(self.latency_deque)/len(self.latency_deque))))
return self.prev_output
def _split_equal(self, value, parts):
@ -251,10 +277,11 @@ class Visualizer():
channel_avgs.append(sum(self.freq_channels[i])/len(self.freq_channels[i]))
differences.append(((self.freq_channels[i][0]-channel_avgs[i])*100)//channel_avgs[i])
for i in ["beat", "low", "mid", "high"]:
if any(differences[j] >= 100 and self.freq_channels[j][0] >= self.min_detect_amplitude[i]\
for j in range(*self.detection_ranges[i]))\
and (time.time() - self.prev_freq_detects[i] > 0.15)\
and len(self.freq_channels[0]) == self.freq_channel_history:
if any(differences[j] >= self.min_percent_diff[i]\
and self.freq_channels[j][0] >= self.min_detect_amplitude[i]\
for j in range(*self.detection_ranges[i]))\
and (time.time() - self.prev_freq_detects[i] > 0.1)\
and len(self.freq_channels[0]) == self.freq_channel_history:
self.prev_freq_detects[i] = time.time()
self.current_freq_detects[i] = True
#print(i)
@ -339,39 +366,12 @@ class Visualizer():
output[0] = gaussian_filter1d(output[0], sigma=self.effect_opts["Wavelength"]["blur"])
output[1] = gaussian_filter1d(output[1], sigma=self.effect_opts["Wavelength"]["blur"])
output[2] = gaussian_filter1d(output[2], sigma=self.effect_opts["Wavelength"]["blur"])
if self.effect_opts["Wavelength"]["flip_lr"]:
output = np.fliplr(output)
if self.effect_opts["Wavelength"]["mirror"]:
output = np.concatenate((output[:, ::-2], output[:, ::2]), axis=1)
return output
def visualize_power(self, y):
"""Effect that pulses different reqions of the strip increasing sound energy"""
global p
_p = np.copy(p)
y = np.copy(interpolate(y, config.N_PIXELS // 2))
common_mode.update(y)
diff = y - self.prev_spectrum
self.prev_spectrum = np.copy(y)
# Color channel mappings
r = r_filt.update(y - common_mode.value)
g = np.abs(diff)
b = b_filt.update(np.copy(y))
# I have no idea what any of this does but it looks kinda cool
r = [int(i*255) for i in r[::3]]
g = [int(i*255) for i in g[::3]]
b = [int(i*255) for i in b[::3]]
_p[0, 0:len(r)] = r
_p[1, len(r):len(r)+len(g)] = g
_p[2, len(r)+len(g):config.N_PIXELS] = b[:39] # this needs to be fixed
p_filt.update(_p)
# Clip it into range
_p = np.clip(p, 0, 255).astype(int)
# Apply substantial blur to smooth the edges
_p[0, :] = gaussian_filter1d(_p[0, :], sigma=self.effect_opts["Power"]["blur"])
_p[1, :] = gaussian_filter1d(_p[1, :], sigma=self.effect_opts["Power"]["blur"])
_p[2, :] = gaussian_filter1d(_p[2, :], sigma=self.effect_opts["Power"]["blur"])
self.prev_spectrum = y
return np.concatenate((_p[:, ::-1], _p), axis=1)
def visualize_spectrum(self, y):
"""Effect that maps the Mel filterbank frequencies onto the LED strip"""
global p
@ -464,12 +464,53 @@ class Visualizer():
self.multicolor_modes[self.effect_opts["Bars"]["color_mode"]],
self.effect_opts["Bars"]["roll_speed"]*(-1 if self.effect_opts["Bars"]["reverse_roll"] else 1),
axis=1)
if self.effect_opts["Bars"]["flip_lr"]:
output = np.fliplr(output)
if self.effect_opts["Bars"]["mirror"]:
output = np.concatenate((output[:, ::-2], output[:, ::2]), axis=1)
return output
def visualize_power(self, y):
#self.effect_opts["Power"]["color_mode"]
# Bit of fiddling with the y values
y = np.copy(interpolate(y, config.N_PIXELS // 2))
common_mode.update(y)
self.prev_spectrum = np.copy(y)
# Color channel mappings
r = r_filt.update(y - common_mode.value)
r = np.array([j for i in zip(r,r) for j in i])
output = np.array([self.multicolor_modes[self.effect_opts["Power"]["color_mode"]][0, :config.N_PIXELS]*r,
self.multicolor_modes[self.effect_opts["Power"]["color_mode"]][1, :config.N_PIXELS]*r,
self.multicolor_modes[self.effect_opts["Power"]["color_mode"]][2, :config.N_PIXELS]*r])
# if there's a high (eg clap):
if self.current_freq_detects["high"]:
self.power_brightness = 1.0
# Generate random indexes
self.power_indexes = random.sample(range(config.N_PIXELS), self.effect_opts["Power"]["s_count"])
#print("ye")
# Assign colour to the random indexes
for index in self.power_indexes:
output[0, index] = int(self.colors[self.effect_opts["Power"]["s_color"]][0]*self.power_brightness)
output[1, index] = int(self.colors[self.effect_opts["Power"]["s_color"]][1]*self.power_brightness)
output[2, index] = int(self.colors[self.effect_opts["Power"]["s_color"]][2]*self.power_brightness)
# Remove some of the indexes for next time
self.power_indexes = [i for i in self.power_indexes if i not in random.sample(self.power_indexes, len(self.power_indexes)//4)]
if len(self.power_indexes) <= 4:
self.power_indexes = []
# Fade the colour of the sparks out a bit for next time
if self.power_brightness > 0:
self.power_brightness -= 0.05
# Calculate length of bass bar based on max bass frequency volume and length of strip
strip_len = int((config.N_PIXELS//3)*max(y[:int(config.N_FFT_BINS*0.2)]))
# Add the bass bars into the output. Colour proportional to length
output[0][:strip_len] = self.multicolor_modes[self.effect_opts["Power"]["color_mode"]][0][strip_len]
output[1][:strip_len] = self.multicolor_modes[self.effect_opts["Power"]["color_mode"]][1][strip_len]
output[2][:strip_len] = self.multicolor_modes[self.effect_opts["Power"]["color_mode"]][2][strip_len]
if self.effect_opts["Power"]["flip_lr"]:
output = np.fliplr(output)
if self.effect_opts["Power"]["mirror"]:
output = np.concatenate((output[:, ::-2], output[:, ::2]), axis=1)
return output
def visualize_single(self, y):
"Displays a single colour, non audio reactive"
@ -517,9 +558,12 @@ class GUI(QWidget):
labels_layout = QHBoxLayout()
self.label_error = QLabel("")
self.label_fps = QLabel("")
self.label_latency = QLabel("")
self.label_fps.setAlignment(Qt.AlignRight | Qt.AlignVCenter)
self.label_latency.setAlignment(Qt.AlignRight | Qt.AlignVCenter)
labels_layout.addWidget(self.label_error)
labels_layout.addStretch()
labels_layout.addWidget(self.label_latency)
labels_layout.addWidget(self.label_fps)
# ================================================== Set up graph layout
@ -819,7 +863,7 @@ def microphone_update(audio_samples):
mel = np.atleast_2d(YS).T * dsp.mel_y.T
# Scale data to values more suitable for visualization
mel = np.sum(mel, axis=0)
mel = mel**0.8
mel = mel**0.7
# Gain normalization
mel_gain.update(np.max(gaussian_filter1d(mel, sigma=1.0)))
mel /= mel_gain.value