feat: add cava and rofi configs

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doryan 2024-09-12 22:02:51 +04:00
parent 5f579fc2fa
commit 919dfb0633
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cava/config Normal file
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## Configuration file for CAVA.
# Remove the ; to change parameters.
[general]
# Smoothing mode. Can be 'normal', 'scientific' or 'waves'. DEPRECATED as of 0.6.0
mode = waves
# Accepts only non-negative values.
framerate = 60
# 'autosens' will attempt to decrease sensitivity if the bars peak. 1 = on, 0 = off
# new as of 0.6.0 autosens of low values (dynamic range)
# 'overshoot' allows bars to overshoot (in % of terminal height) without initiating autosens. DEPRECATED as of 0.6.0
; autosens = 1
; overshoot = 20
# Manual sensitivity in %. If autosens is enabled, this will only be the initial value.
# 200 means double height. Accepts only non-negative values.
; sensitivity = 100
# The number of bars (0-512). 0 sets it to auto (fill up console).
# Bars' width and space between bars in number of characters.
; bars = 0
; bar_width = 2
; bar_spacing = 1
# bar_height is only used for output in "noritake" format
; bar_height = 32
# For SDL width and space between bars is in pixels, defaults are:
; bar_width = 20
; bar_spacing = 5
# sdl_glsl have these default values, they are only used to calulate max number of bars.
; bar_width = 1
; bar_spacing = 0
# Lower and higher cutoff frequencies for lowest and highest bars
# the bandwidth of the visualizer.
# Note: there is a minimum total bandwidth of 43Mhz x number of bars.
# Cava will automatically increase the higher cutoff if a too low band is specified.
; lower_cutoff_freq = 50
; higher_cutoff_freq = 10000
# Seconds with no input before cava goes to sleep mode. Cava will not perform FFT or drawing and
# only check for input once per second. Cava will wake up once input is detected. 0 = disable.
; sleep_timer = 0
[input]
# Audio capturing method. Possible methods are: 'fifo', 'portaudio', 'pipewire', 'alsa', 'pulse', 'sndio', 'oss', 'jack' or 'shmem'
# Defaults to 'oss', 'pipewire', 'sndio', 'jack', 'pulse', 'alsa', 'portaudio' or 'fifo', in that order, dependent on what support cava was built with.
# On Mac it defaults to 'portaudio' or 'fifo'
# On windows this is automatic and no input settings are needed.
#
# All input methods uses the same config variable 'source'
# to define where it should get the audio.
#
# For pulseaudio and pipewire 'source' will be the source. Default: 'auto', which uses the monitor source of the default sink
# (all pulseaudio sinks(outputs) have 'monitor' sources(inputs) associated with them).
#
# For pipewire 'source' will be the object name or object.serial of the device to capture from.
# Both input and output devices are supported.
#
# For alsa 'source' will be the capture device.
# For fifo 'source' will be the path to fifo-file.
# For shmem 'source' will be /squeezelite-AA:BB:CC:DD:EE:FF where 'AA:BB:CC:DD:EE:FF' will be squeezelite's MAC address
#
# For sndio 'source' will be a raw recording audio descriptor or a monitoring sub-device, e.g. 'rsnd/2' or 'snd/1'. Default: 'default'.
# README.md contains further information on how to setup CAVA for sndio.
#
# For oss 'source' will be the path to a audio device, e.g. '/dev/dsp2'. Default: '/dev/dsp', i.e. the default audio device.
# README.md contains further information on how to setup CAVA for OSS on FreeBSD.
#
# For jack 'source' will be the name of the JACK server to connect to, e.g. 'foobar'. Default: 'default'.
# README.md contains further information on how to setup CAVA for JACK.
#
; method = pulse
; source = auto
; method = pipewire
; source = auto
; method = alsa
; source = hw:Loopback,1
; method = fifo
; source = /tmp/mpd.fifo
; method = shmem
; source = /squeezelite-AA:BB:CC:DD:EE:FF
; method = portaudio
; source = auto
; method = sndio
; source = default
; method = oss
; source = /dev/dsp
; method = jack
; source = default
# The options 'sample_rate', 'sample_bits', 'channels' and 'autoconnect' can be configured for some input methods:
# sample_rate: fifo, pipewire, sndio, oss
# sample_bits: fifo, pipewire, sndio, oss
# channels: sndio, oss, jack
# autoconnect: jack
# Other methods ignore these settings.
#
# For 'sndio' and 'oss' they are only preferred values, i.e. if the values are not supported
# by the chosen audio device, the device will use other supported values instead.
# Example: 48000, 32 and 2, but the device only supports 44100, 16 and 1, then it
# will use 44100, 16 and 1.
#
; sample_rate = 44100
; sample_bits = 16
; channels = 2
; autoconnect = 2
[output]
# Output method. Can be 'ncurses', 'noncurses', 'raw', 'noritake', 'sdl'
# or 'sdl_glsl'.
# 'noncurses' (default) uses a buffer and cursor movements to only print
# changes from frame to frame in the terminal. Uses less resources and is less
# prone to tearing (vsync issues) than 'ncurses'.
#
# 'raw' is an 8 or 16 bit (configurable via the 'bit_format' option) data
# stream of the bar heights that can be used to send to other applications.
# 'raw' defaults to 200 bars, which can be adjusted in the 'bars' option above.
#
# 'noritake' outputs a bitmap in the format expected by a Noritake VFD display
# in graphic mode. It only support the 3000 series graphical VFDs for now.
#
# 'sdl' uses the Simple DirectMedia Layer to render in a graphical context.
# 'sdl_glsl' uses SDL to create an OpenGL context. Write your own shaders or
# use one of the predefined ones.
; method = noncurses
# Orientation of the visualization. Can be 'bottom', 'top', 'left' or 'right'.
# Default is 'bottom'. Other orientations are only supported on sdl and ncruses
# output. Note: many fonts have weird glyphs for 'top' and 'right' characters,
# which can make ncurses not look right.
; orientation = bottom
# Visual channels. Can be 'stereo' or 'mono'.
# 'stereo' mirrors both channels with low frequencies in center.
# 'mono' outputs left to right lowest to highest frequencies.
# 'mono_option' set mono to either take input from 'left', 'right' or 'average'.
# set 'reverse' to 1 to display frequencies the other way around.
; channels = stereo
; mono_option = average
; reverse = 0
# Raw output target. A fifo will be created if target does not exist.
; raw_target = /dev/stdout
# Raw data format. Can be 'binary' or 'ascii'.
; data_format = binary
# Binary bit format, can be '8bit' (0-255) or '16bit' (0-65530).
; bit_format = 16bit
# Ascii max value. In 'ascii' mode range will run from 0 to value specified here
; ascii_max_range = 1000
# Ascii delimiters. In ascii format each bar and frame is separated by a delimiters.
# Use decimal value in ascii table (i.e. 59 = ';' and 10 = '\n' (line feed)).
; bar_delimiter = 59
; frame_delimiter = 10
# sdl window size and position. -1,-1 is centered.
; sdl_width = 1000
; sdl_height = 500
; sdl_x = -1
; sdl_y= -1
; sdl_full_screen = 0
# set label on bars on the x-axis. Can be 'frequency' or 'none'. Default: 'none'
# 'frequency' displays the lower cut off frequency of the bar above.
# Only supported on ncurses and noncurses output.
; xaxis = none
# enable alacritty synchronized updates. 1 = on, 0 = off
# removes flickering in alacritty terminal emulator.
# defaults to off since the behaviour in other terminal emulators is unknown
; alacritty_sync = 0
# Shaders for sdl_glsl, located in $HOME/.config/cava/shaders
; vertex_shader = pass_through.vert
; fragment_shader = bar_spectrum.frag
; for glsl output mode, keep rendering even if no audio
; continuous_rendering = 0
# disable console blank (screen saver) in tty
# (Not supported on FreeBSD)
; disable_blanking = 0
# show a flat bar at the bottom of the screen when idle, 1 = on, 0 = off
; show_idle_bar_heads = 1
# show waveform instead of frequency spectrum, 1 = on, 0 = off
; waveform = 0
[color]
# Colors can be one of seven predefined: black, blue, cyan, green, magenta, red, white, yellow.
# Or defined by hex code '#xxxxxx' (hex code must be within ''). User defined colors requires
# a terminal that can change color definitions such as Gnome-terminal or rxvt.
# default is to keep current terminal color
; background = default
; foreground = default
# SDL and sdl_glsl only support hex code colors, these are the default:
; background = '#111111'
; foreground = '#33ffff'
# Gradient mode, only hex defined colors are supported,
# background must also be defined in hex or remain commented out. 1 = on, 0 = off.
# You can define as many as 8 different colors. They range from bottom to top of screen
gradient = 1
gradient_color_1 = '#478061'
gradient_color_2 = '#598C6E'
gradient_color_3 = '#6C987C'
gradient_color_4 = '#7EA489'
gradient_color_5 = '#8DAD94'
gradient_color_6 = '#9CB79F'
gradient_color_7 = '#ABC2AB'
gradient_color_8 = '#ABC2AB'
[smoothing]
# Percentage value for integral smoothing. Takes values from 0 - 100.
# Higher values means smoother, but less precise. 0 to disable.
# DEPRECATED as of 0.8.0, use noise_reduction instead
; integral = 77
# Disables or enables the so-called "Monstercat smoothing" with or without "waves". Set to 0 to disable.
; monstercat = 0
; waves = 0
# Set gravity percentage for "drop off". Higher values means bars will drop faster.
# Accepts only non-negative values. 50 means half gravity, 200 means double. Set to 0 to disable "drop off".
# DEPRECATED as of 0.8.0, use noise_reduction instead
; gravity = 100
# In bar height, bars that would have been lower that this will not be drawn.
# DEPRECATED as of 0.8.0
; ignore = 0
# Noise reduction, int 0 - 100. default 77
# the raw visualization is very noisy, this factor adjusts the integral and gravity filters to keep the signal smooth
# 100 will be very slow and smooth, 0 will be fast but noisy.
; noise_reduction = 77
[eq]
# This one is tricky. You can have as much keys as you want.
# Remember to uncomment more than one key! More keys = more precision.
# Look at readme.md on github for further explanations and examples.
; 1 = 1 # bass
; 2 = 1
; 3 = 1 # midtone
; 4 = 1
; 5 = 1 # treble

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#version 330
in vec2 fragCoord;
out vec4 fragColor;
// bar values. defaults to left channels first (low to high), then right (high to low).
uniform float bars[512];
uniform int bars_count; // number of bars (left + right) (configurable)
uniform int bar_width; // bar width (configurable), not used here
uniform int bar_spacing; // space bewteen bars (configurable)
uniform vec3 u_resolution; // window resolution
//colors, configurable in cava config file (r,g,b) (0.0 - 1.0)
uniform vec3 bg_color; // background color
uniform vec3 fg_color; // foreground color
uniform int gradient_count;
uniform vec3 gradient_colors[8]; // gradient colors
vec3 normalize_C(float y,vec3 col_1, vec3 col_2, float y_min, float y_max)
{
//create color based on fraction of this color and next color
float yr = (y - y_min) / (y_max - y_min);
return col_1 * (1.0 - yr) + col_2 * yr;
}
void main()
{
// find which bar to use based on where we are on the x axis
float x = u_resolution.x * fragCoord.x;
int bar = int(bars_count * fragCoord.x);
//calculate a bar size
float bar_size = u_resolution.x / bars_count;
//the y coordinate and bar values are the same
float y = bars[bar];
// make sure there is a thin line at bottom
if (y * u_resolution.y < 1.0)
{
y = 1.0 / u_resolution.y;
}
//draw the bar up to current height
if (y > fragCoord.y)
{
//make some space between bars basen on settings
if (x > (bar + 1) * (bar_size) - bar_spacing)
{
fragColor = vec4(bg_color,1.0);
}
else
{
if (gradient_count == 0)
{
fragColor = vec4(fg_color,1.0);
}
else
{
//find which color in the configured gradient we are at
int color = int((gradient_count - 1) * fragCoord.y);
//find where on y this and next color is supposed to be
float y_min = color / (gradient_count - 1.0);
float y_max = (color + 1.0) / (gradient_count - 1.0);
//make color
fragColor = vec4(normalize_C(fragCoord.y, gradient_colors[color], gradient_colors[color + 1], y_min, y_max), 1.0);
}
}
}
else
{
fragColor = vec4(bg_color,1.0);
}
}

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#version 330
in vec2 fragCoord;
out vec4 fragColor;
// bar values. defaults to left channels first (low to high), then right (high to low).
uniform float bars[512];
uniform int bars_count; // number of bars (left + right) (configurable)
uniform vec3 u_resolution; // window resolution, not used here
//colors, configurable in cava config file
uniform vec3 bg_color; // background color(r,g,b) (0.0 - 1.0), not used here
uniform vec3 fg_color; // foreground color, not used here
void main()
{
// find which bar to use based on where we are on the x axis
int bar = int(bars_count * fragCoord.x);
float bar_y = 1.0 - abs((fragCoord.y - 0.5)) * 2.0;
float y = (bars[bar]) * bar_y;
float bar_x = (fragCoord.x - float(bar) / float(bars_count)) * bars_count;
float bar_r = 1.0 - abs((bar_x - 0.5)) * 2;
bar_r = bar_r * bar_r * 2;
// set color
fragColor.r = fg_color.x * y * bar_r;
fragColor.g = fg_color.y * y * bar_r;
fragColor.b = fg_color.z * y * bar_r;
}

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#version 330
// Input vertex data, different for all executions of this shader.
layout(location = 0) in vec3 vertexPosition_modelspace;
// Output data ; will be interpolated for each fragment.
out vec2 fragCoord;
void main()
{
gl_Position = vec4(vertexPosition_modelspace,1);
fragCoord = (vertexPosition_modelspace.xy+vec2(1,1))/2.0;
}

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rofi/config.rasi Normal file
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/* ==========================================================================
Rofi color theme
Based on the Gruvbox color scheme for Vim by morhetz
https://github.com/morhetz/gruvbox
File: gruvbox-dark-hard.rasi
Desc: Gruvbox dark (hard contrast) color theme for Rofi
Author: bardisty <b@bah.im>
Source: https://github.com/bardisty/gruvbox-rofi
Modified: Mon Feb 12 2018 06:04:26 PST -0800
========================================================================== */
* {
/* Theme settings */
highlight: bold italic;
scrollbar: true;
/* Gruvbox dark colors */
gruvbox-dark-bg0-hard: #1d2021;
gruvbox-dark-bg0: #282828;
gruvbox-dark-bg2: #504945;
gruvbox-dark-fg0: #ABC2AB;
gruvbox-dark-fg1: #478061;
gruvbox-dark-red-dark: #cc241d;
gruvbox-dark-red-light: #fb4934;
gruvbox-dark-yellow-dark: #478061;
gruvbox-dark-yellow-light: #ABC2AB;
gruvbox-dark-gray: #86a884;
/* Theme colors */
background: @gruvbox-dark-bg0-hard;
background-color: @background;
foreground: @gruvbox-dark-fg1;
border-color: @gruvbox-dark-gray;
separatorcolor: @border-color;
scrollbar-handle: @border-color;
normal-background: @background;
normal-foreground: @foreground;
alternate-normal-background: @gruvbox-dark-bg0;
alternate-normal-foreground: @foreground;
selected-normal-background: @gruvbox-dark-bg2;
selected-normal-foreground: @gruvbox-dark-fg0;
active-background: @gruvbox-dark-yellow-dark;
active-foreground: @background;
alternate-active-background: @active-background;
alternate-active-foreground: @active-foreground;
selected-active-background: @gruvbox-dark-yellow-light;
selected-active-foreground: @active-foreground;
urgent-background: @gruvbox-dark-red-dark;
urgent-foreground: @background;
alternate-urgent-background: @urgent-background;
alternate-urgent-foreground: @urgent-foreground;
selected-urgent-background: @gruvbox-dark-red-light;
selected-urgent-foreground: @urgent-foreground;
}
window {
padding: 2px;
}
listview {
padding: 0;
lines: 8;
columns: 2;
fixed-height: false;
}
element {
padding: 8px;
spacing: 8px;
}