2018-02-27 21:12:08 +01:00
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"""Default settings and configuration for audio reactive LED strip"""
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2017-12-18 21:50:27 +01:00
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from __future__ import print_function
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from __future__ import division
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import os
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2018-02-27 21:12:08 +01:00
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use_defaults = {"configuration": True, # See notes below for detailed explanation
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"GUI_opts": False,
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"devices": True,
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"colors": True,
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"gradients": True}
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settings = { # All settings are stored in this dict
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"configuration":{ # Program configuration
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'USE_GUI': True, # Whether to display the GUI
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'DISPLAY_FPS': False, # Whether to print the FPS when running (can reduce performance)
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'MIC_RATE': 48000, # Sampling frequency of the microphone in Hz
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'FPS': 60, # Desired refresh rate of the visualization (frames per second)
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'MIN_FREQUENCY': 20, # Frequencies below this value will be removed during audio processing
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'MAX_FREQUENCY': 18000, # Frequencies above this value will be removed during audio processing
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'MAX_BRIGHTNESS': 250, # Frequencies above this value will be removed during audio processing
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'N_ROLLING_HISTORY': 4, # Number of past audio frames to include in the rolling window
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2018-03-04 21:21:34 +01:00
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'MIN_VOLUME_THRESHOLD': 0.001 # No music visualization displayed if recorded audio volume below threshold
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2018-02-27 21:12:08 +01:00
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#'LOGARITHMIC_SCALING': True, # Scale frequencies logarithmically to match perceived pitch of human ear
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},
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"GUI_opts":{"Graphs":True, # Which parts of the gui to show
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"Reactive Effect Buttons":True,
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"Non Reactive Effect Buttons":True,
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"Frequency Range":True,
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"Effect Options":True},
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# All devices and their respective settings. Indexed by name, call each one what you want.
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"devices":{"Desk Strip":{
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2018-03-04 21:21:34 +01:00
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"configuration":{"TYPE": "ESP8266", # Device type (see below for all supported boards)
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2018-02-27 21:12:08 +01:00
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# Required configuration for device. See below for all required keys per device
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"AUTO_DETECT": True, # Set this true if you're using windows hotspot to connect (see below for more info)
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"MAC_ADDR": "2c-3a-e8-2f-2c-9f", # MAC address of the ESP8266. Only used if AUTO_DETECT is True
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"UDP_IP": "192.168.1.208", # IP address of the ESP8266. Must match IP in ws2812_controller.ino
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"UDP_PORT": 7778, # Port number used for socket communication between Python and ESP8266
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"MAX_BRIGHTNESS": 250, # Max brightness of output (0-255) (my strip sometimes bugs out with high brightness)
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# Other configuration
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"N_PIXELS": 58, # Number of pixels in the LED strip (must match ESP8266 firmware)
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"N_FFT_BINS": 24, # Number of frequency bins to use when transforming audio to frequency domain
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2018-03-04 21:21:34 +01:00
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"current_effect": "Energy" # Currently selected effect for this board, used as default when program launches
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2018-02-27 21:12:08 +01:00
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},
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# Configurable options for this board's effects go in this dictionary.
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# Usage: config.settings["devices"][name]["effect_opts"][effect][option]
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"effect_opts":{"Energy": {"blur": 1, # Amount of blur to apply
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"scale":0.9, # Width of effect on strip
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"r_multiplier": 1.0, # How much red
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"g_multiplier": 1.0, # How much green
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"b_multiplier": 1.0}, # How much blue
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"Wave": {"color_wave": "Red", # Colour of moving bit
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"color_flash": "White", # Colour of flashy bit
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"wipe_len":5, # Initial length of colour bit after beat
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"decay": 0.7, # How quickly the flash fades away
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"wipe_speed":2}, # Number of pixels added to colour bit every frame
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"Spectrum": {"r_multiplier": 1.0, # How much red
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"g_multiplier": 1.0, # How much green
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"b_multiplier": 1.0}, # How much blue
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"Wavelength":{"roll_speed": 0, # How fast (if at all) to cycle colour overlay across strip
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"color_mode": "Spectral", # Colour gradient to display
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"mirror": False, # Reflect output down centre of strip
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"reverse_grad": False, # Flip (LR) gradient
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"reverse_roll": False, # Reverse movement of gradient roll
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"blur": 3.0, # Amount of blur to apply
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"flip_lr":False}, # Flip output left-right
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2018-03-04 21:21:34 +01:00
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"Scroll": {"lows_color": "Red", # Colour of low frequencies
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"mids_color": "Green", # Colour of mid frequencies
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"high_color": "Blue", # Colour of high frequencies
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"decay": 0.995, # How quickly the colour fades away as it moves
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2018-02-27 21:12:08 +01:00
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"speed": 1, # Speed of scroll
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"r_multiplier": 1.0, # How much red
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"g_multiplier": 1.0, # How much green
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"b_multiplier": 1.0, # How much blue
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"blur": 0.2}, # Amount of blur to apply
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"Power": {"color_mode": "Spectral", # Colour gradient to display
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"s_count": 20, # Initial number of sparks
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"s_color": "White", # Color of sparks
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"mirror": True, # Mirror output down central axis
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"flip_lr":False}, # Flip output left-right
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"Single": {"color": "Purple"}, # Static color to show
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"Beat": {"color": "Red", # Colour of beat flash
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"decay": 0.7}, # How quickly the flash fades away
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"Bars": {"resolution":4, # Number of "bars"
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"color_mode":"Spectral", # Multicolour mode to use
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"roll_speed":0, # How fast (if at all) to cycle colour colours across strip
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"mirror": False, # Mirror down centre of strip
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#"reverse_grad": False, # Flip (LR) gradient
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"reverse_roll": False, # Reverse movement of gradient roll
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"flip_lr":False}, # Flip output left-right
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"Gradient": {"color_mode":"Spectral", # Colour gradient to display
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"roll_speed": 0, # How fast (if at all) to cycle colour colours across strip
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"mirror": False, # Mirror gradient down central axis
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"reverse": False}, # Reverse movement of gradient
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"Fade": {"color_mode":"Spectral", # Colour gradient to fade through
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"roll_speed": 1, # How fast (if at all) to fade through colours
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"reverse": False}, # Reverse "direction" of fade (r->g->b or r<-g<-b)
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"Calibration":{"r": 100,
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"g": 100,
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"b": 100}
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}
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},
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"Main Strip":{
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2018-03-04 21:21:34 +01:00
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"configuration":{"TYPE": "ESP8266", # Device type (see below for all supported boards)
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2018-02-27 21:12:08 +01:00
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# Required configuration for device. See below for all required keys per device
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"AUTO_DETECT": True, # Set this true if you're using windows hotspot to connect (see below for more info)
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"MAC_ADDR": "5c-cf-7f-f0-8c-f3", # MAC address of the ESP8266. Only used if AUTO_DETECT is True
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"UDP_IP": "192.168.1.208", # IP address of the ESP8266. Must match IP in ws2812_controller.ino
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"UDP_PORT": 7778, # Port number used for socket communication between Python and ESP8266
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"MAX_BRIGHTNESS": 180, # Max brightness of output (0-255) (my strip sometimes bugs out with high brightness)
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# Other configuration
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"N_PIXELS": 226, # Number of pixels in the LED strip (must match ESP8266 firmware)
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"N_FFT_BINS": 24, # Number of frequency bins to use when transforming audio to frequency domain
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"current_effect": "Single" # Currently selected effect for this board, used as default when program launches
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},
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# Configurable options for this board's effects go in this dictionary.
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# Usage: config.settings["devices"][name]["effect_opts"][effect][option]
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"effect_opts":{"Energy": {"blur": 1, # Amount of blur to apply
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"scale":0.9, # Width of effect on strip
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"r_multiplier": 1.0, # How much red
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"g_multiplier": 1.0, # How much green
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"b_multiplier": 1.0}, # How much blue
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"Wave": {"color_wave": "Red", # Colour of moving bit
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"color_flash": "White", # Colour of flashy bit
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"wipe_len":5, # Initial length of colour bit after beat
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"decay": 0.7, # How quickly the flash fades away
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"wipe_speed":2}, # Number of pixels added to colour bit every frame
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"Spectrum": {"r_multiplier": 1.0, # How much red
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"g_multiplier": 1.0, # How much green
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"b_multiplier": 1.0}, # How much blue
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"Wavelength":{"roll_speed": 0, # How fast (if at all) to cycle colour overlay across strip
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"color_mode": "Spectral", # Colour gradient to display
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"mirror": False, # Reflect output down centre of strip
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"reverse_grad": False, # Flip (LR) gradient
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"reverse_roll": False, # Reverse movement of gradient roll
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"blur": 3.0, # Amount of blur to apply
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"flip_lr":False}, # Flip output left-right
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2018-03-04 21:21:34 +01:00
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"Scroll": {"lows_color": "Red", # Colour of low frequencies
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"mids_color": "Green", # Colour of mid frequencies
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"high_color": "Blue", # Colour of high frequencies
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"decay": 0.995, # How quickly the colour fades away as it moves
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2018-02-27 21:12:08 +01:00
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"speed": 1, # Speed of scroll
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"r_multiplier": 1.0, # How much red
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"g_multiplier": 1.0, # How much green
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"b_multiplier": 1.0, # How much blue
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"blur": 0.2}, # Amount of blur to apply
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"Power": {"color_mode": "Spectral", # Colour gradient to display
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"s_count": 20, # Initial number of sparks
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"s_color": "White", # Color of sparks
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"mirror": True, # Mirror output down central axis
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"flip_lr":False}, # Flip output left-right
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"Single": {"color": "Purple"}, # Static color to show
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"Beat": {"color": "Red", # Colour of beat flash
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"decay": 0.7}, # How quickly the flash fades away
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"Bars": {"resolution":4, # Number of "bars"
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"color_mode":"Spectral", # Multicolour mode to use
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"roll_speed":0, # How fast (if at all) to cycle colour colours across strip
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"mirror": False, # Mirror down centre of strip
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#"reverse_grad": False, # Flip (LR) gradient
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"reverse_roll": False, # Reverse movement of gradient roll
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"flip_lr":False}, # Flip output left-right
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"Gradient": {"color_mode":"Spectral", # Colour gradient to display
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"roll_speed": 0, # How fast (if at all) to cycle colour colours across strip
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"mirror": False, # Mirror gradient down central axis
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"reverse": False}, # Reverse movement of gradient
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"Fade": {"color_mode":"Spectral", # Colour gradient to fade through
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"roll_speed": 1, # How fast (if at all) to fade through colours
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"reverse": False}, # Reverse "direction" of fade (r->g->b or r<-g<-b)
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"Calibration":{"r": 100,
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"g": 100,
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"b": 100}
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}
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}
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},
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# Collection of different colours in RGB format
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"colors":{"Red":(255,0,0),
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"Orange":(255,40,0),
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"Yellow":(255,255,0),
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"Green":(0,255,0),
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"Blue":(0,0,255),
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"Light blue":(1,247,161),
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"Purple":(80,5,252),
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"Pink":(255,0,178),
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"White":(255,255,255)},
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# Multicolour gradients. Colours must be in list above
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"gradients":{"Spectral" : ["Red", "Orange", "Yellow", "Green", "Light blue", "Blue", "Purple", "Pink"],
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"Dancefloor": ["Red", "Pink", "Purple", "Blue"],
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"Sunset" : ["Red", "Orange", "Yellow"],
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"Ocean" : ["Green", "Light blue", "Blue"],
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"Jungle" : ["Green", "Red", "Orange"],
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2018-03-04 21:21:34 +01:00
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"Sunny" : ["Yellow", "Light blue", "Orange", "Blue"],
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"Fruity" : ["Orange", "Blue"],
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"Peach" : ["Orange", "Pink"],
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"Rust" : ["Orange", "Red"]
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2018-02-27 21:12:08 +01:00
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}
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}
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2018-03-04 21:21:34 +01:00
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device_req_config = {"Stripless" : None, # duh
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"BlinkStick" : None,
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"DotStar" : None,
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"ESP8266" : {"AUTO_DETECT": ["Auto Detect",
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"Automatically detect device on network using MAC address",
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"checkbox",
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True],
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"MAC_ADDR" : ["Mac Address",
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"Hardware address of device, used for auto-detection",
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"textbox",
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"aa-bb-cc-dd-ee-ff"],
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"UDP_IP" : ["IP Address",
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"IP address of device, used if auto-detection isn't active",
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"textbox",
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"xxx.xxx.xxx.xxx"],
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"UDP_PORT" : ["Port",
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"Port used to communicate with device",
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"textbox",
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"7778"]},
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"RaspberryPi" : {"LED_PIN" : ["LED Pin",
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"GPIO pin connected to the LED strip RaspberryPi (must support PWM)",
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"textbox",
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"10"],
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"LED_FREQ_HZ": ["LED Frequency",
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"LED signal frequency in Hz",
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"textbox",
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"800000"],
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"LED_DMA" : ["DMA Channel",
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"DMA channel used for generating PWM signal",
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"textbox",
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"5"],
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"LED_INVERT" : ["Invert LEDs",
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"Set True if using an inverting logic level converter",
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"checkbox",
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True]},
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"Fadecandy" : {"SERVER" : ["Server Address",
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"Address of Fadecandy server",
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"textbox",
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"localhost:7890"]}
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}
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2018-02-27 21:12:08 +01:00
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"""
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~~ NOTES ~~
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[use_defaults]
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For any dicts in this file (config.py), you can add them into the use_defaults
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dict to force the program to use these values over any stored in settings.ini
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that you would have set using the GUI. At runtime, settings.ini is used to update
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the above dicts with custom set values.
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If you're running a headless RPi, you may want to edit settings in this file, then
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specify to use the dict you wrote, rather than have the program overwrite from
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settings.ini at runtime. You could also run the program with the gui, set the
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settings that you want, then disable the gui and the custom settings will still
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be loaded. Basically it works as you would expect it to.
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[DEVICE TYPE]
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Device used to control LED strip.
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2017-12-18 21:50:27 +01:00
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2018-03-04 21:21:34 +01:00
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'ESP8266' means that you are using an ESP8266 module to control the LED strip
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2018-02-27 21:12:08 +01:00
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and commands will be sent to the ESP8266 over WiFi. You can have as many of
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these as your computer is able to handle.
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2017-12-18 21:50:27 +01:00
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2018-03-04 21:21:34 +01:00
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'RaspberryPi' means that you are using a Raspberry Pi as a standalone unit to process
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2017-12-18 21:50:27 +01:00
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audio input and control the LED strip directly.
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2018-03-04 21:21:34 +01:00
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'BlinkStick' means that a BlinkstickPro is connected to this PC which will be used
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2017-12-18 21:50:27 +01:00
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to control the leds connected to it.
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2018-03-04 21:21:34 +01:00
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'Fadecandy' means that a Fadecandy server is running on your computer and is connected
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via usb to a Fadecandy board connected to LEDs
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2018-02-27 21:12:08 +01:00
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2018-03-04 21:21:34 +01:00
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'DotStar' creates an APA102-based output device. LMK if you have any success
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2018-02-27 21:12:08 +01:00
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getting this to work becuase i have no clue if it will.
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2018-03-04 21:21:34 +01:00
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'Stripless' means that the program will run without sending data to a strip.
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2017-12-18 21:50:27 +01:00
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Useful for development etc, but doesn't look half as good ;)
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2018-02-27 21:12:08 +01:00
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[REQUIRED CONFIGURATION KEYS]
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2018-03-04 21:21:34 +01:00
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===== 'ESP8266'
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2018-02-27 21:12:08 +01:00
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"AUTO_DETECT" # Set this true if you're using windows hotspot to connect (see below for more info)
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"MAC_ADDR" # MAC address of the ESP8266. Only used if AUTO_DETECT is True
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"UDP_IP" # IP address of the ESP8266. Must match IP in ws2812_controller.ino
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"UDP_PORT" # Port number used for socket communication between Python and ESP8266
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2018-03-04 21:21:34 +01:00
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===== 'RaspberryPi'
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2018-02-27 21:12:08 +01:00
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"LED_PIN" # GPIO pin connected to the LED strip pixels (must support PWM)
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"LED_FREQ_HZ" # LED signal frequency in Hz (usually 800kHz)
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"LED_DMA" # DMA channel used for generating PWM signal (try 5)
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"BRIGHTNESS" # Brightness of LED strip between 0 and 255
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"LED_INVERT" # Set True if using an inverting logic level converter
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2018-03-04 21:21:34 +01:00
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===== 'BlinkStick'
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2018-02-27 21:12:08 +01:00
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No required configuration keys
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2018-03-04 21:21:34 +01:00
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===== 'Fadecandy'
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"SERVER" # Address of Fadecandy server. (usually 'localhost:7890')
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===== 'DotStar'
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2018-02-27 21:12:08 +01:00
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No required configuration keys
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2018-03-04 21:21:34 +01:00
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===== 'Stripless'
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2018-02-27 21:12:08 +01:00
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No required configuration keys (heh)
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[AUTO_DETECT]
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Set to true if the ip address of the device changes. This is the case if it's connecting
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through windows hotspot, for instance. If so, give the mac address of the device. This
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allows windows to look for the device's IP using "arp -a" and finding the matching
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mac address. I haven't tested this on Linux or macOS.
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[FPS]
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2017-12-18 21:50:27 +01:00
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FPS indicates the desired refresh rate, or frames-per-second, of the audio
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visualization. The actual refresh rate may be lower if the computer cannot keep
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up with desired FPS value.
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Higher framerates improve "responsiveness" and reduce the latency of the
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visualization but are more computationally expensive.
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Low framerates are less computationally expensive, but the visualization may
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appear "sluggish" or out of sync with the audio being played if it is too low.
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The FPS should not exceed the maximum refresh rate of the LED strip, which
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depends on how long the LED strip is.
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2018-02-27 21:12:08 +01:00
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[N_FFT_BINS]
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2017-12-18 21:50:27 +01:00
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Fast Fourier transforms are used to transform time-domain audio data to the
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frequency domain. The frequencies present in the audio signal are assigned
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to their respective frequency bins. This value indicates the number of
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frequency bins to use.
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A small number of bins reduces the frequency resolution of the visualization
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but improves amplitude resolution. The opposite is true when using a large
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number of bins. More bins is not always better!
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There is no point using more bins than there are pixels on the LED strip.
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"""
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2018-02-27 21:12:08 +01:00
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for board in settings["devices"]:
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2018-03-04 21:21:34 +01:00
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if settings["devices"][board]["configuration"]["TYPE"] == 'ESP8266':
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2018-02-27 21:12:08 +01:00
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settings["devices"][board]["configuration"]["SOFTWARE_GAMMA_CORRECTION"] = False
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# Set to False because the firmware handles gamma correction + dither
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2018-03-04 21:21:34 +01:00
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elif settings["devices"][board]["configuration"]["TYPE"] == 'RaspberryPi':
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2018-02-27 21:12:08 +01:00
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settings["devices"][board]["configuration"]["SOFTWARE_GAMMA_CORRECTION"] = True
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# Set to True because Raspberry Pi doesn't use hardware dithering
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2018-03-04 21:21:34 +01:00
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elif settings["devices"][board]["configuration"]["TYPE"] == 'BlinkStick':
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2018-02-27 21:12:08 +01:00
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settings["devices"][board]["configuration"]["SOFTWARE_GAMMA_CORRECTION"] = True
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2018-03-04 21:21:34 +01:00
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elif settings["devices"][board]["configuration"]["TYPE"] == 'DotStar':
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2018-02-27 21:12:08 +01:00
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settings["devices"][board]["configuration"]["SOFTWARE_GAMMA_CORRECTION"] = False
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2018-03-04 21:21:34 +01:00
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elif settings["devices"][board]["configuration"]["TYPE"] == 'Fadecandy':
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2018-02-27 21:12:08 +01:00
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settings["devices"][board]["configuration"]["SOFTWARE_GAMMA_CORRECTION"] = False
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2018-03-04 21:21:34 +01:00
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elif settings["devices"][board]["configuration"]["TYPE"] == 'Stripless':
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2018-02-27 21:12:08 +01:00
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settings["devices"][board]["configuration"]["SOFTWARE_GAMMA_CORRECTION"] = False
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else:
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raise ValueError("Invalid device selected. Device {} not known.".format(settings["devices"][board]["configuration"]["TYPE"]))
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settings["devices"][board]["effect_opts"]["Power"]["s_count"] = settings["devices"][board]["configuration"]["N_PIXELS"]//6
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# Cheeky lil fix in case the user sets an odd number of LEDs
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if settings["devices"][board]["configuration"]["N_PIXELS"] % 2:
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settings["devices"][board]["configuration"]["N_PIXELS"] -= 1
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# Ignore these
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# settings["configuration"]['_max_led_FPS'] = int(((settings["configuration"]["N_PIXELS"] * 30e-6) + 50e-6)**-1.0)
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2017-12-18 21:50:27 +01:00
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