openal-soft/alsoftrc.sample

# OpenAL config file.
#
# Option blocks may appear multiple times, and duplicated options will take the
# last value specified. Environment variables may be specified within option
# values, and are automatically substituted when the config file is loaded.
# Environment variable names may only contain alpha-numeric characters (a-z,
# A-Z, 0-9) and underscores (_), and are prefixed with $. For example,
# specifying "$HOME/file.ext" would typically result in something like
# "/home/user/file.ext". To specify an actual "$" character, use "$$".
#
# Device-specific values may be specified by including the device name in the
# block name, with "general" replaced by the device name. That is, general
# options for the device "Name of Device" would be in the [Name of Device]
# block, while ALSA options would be in the [alsa/Name of Device] block.
# Options marked as "(global)" are not influenced by the device.
#
# The system-wide settings can be put in /etc/xdg/alsoft.conf (as determined by
# the XDG_CONFIG_DIRS env var list, /etc/xdg being the default if unset) and
# user-specific override settings in $HOME/.config/alsoft.conf (as determined
# by the XDG_CONFIG_HOME env var).
#
# For Windows, these settings should go into $AppData\alsoft.ini
#
# An additional configuration file (alsoft.ini on Windows, alsoft.conf on other
# OSs) can be placed alongside the process executable for app-specific config
# settings.
#
# Option and block names are case-senstive. The supplied values are only hints
# and may not be honored (though generally it'll try to get as close as
# possible). Note: options that are left unset may default to app- or system-
# specified values. These are the current available settings:

##
## General stuff
##
[general]

## disable-cpu-exts: (global)
#  Disables use of specialized methods that use specific CPU intrinsics.
#  Certain methods may utilize CPU extensions for improved performance, and
#  this option is useful for preventing some or all of those methods from being
#  used. The available extensions are: sse, sse2, sse3, sse4.1, and neon.
#  Specifying 'all' disables use of all such specialized methods.
#disable-cpu-exts =

## drivers: (global)
#  Sets the backend driver list order, comma-seperated. Unknown backends and
#  duplicated names are ignored. Unlisted backends won't be considered for use
#  unless the list is ended with a comma (e.g. 'oss,' will try OSS first before
#  other backends, while 'oss' will try OSS only). Backends prepended with -
#  won't be considered for use (e.g. '-oss,' will try all available backends
#  except OSS). An empty list means to try all backends.
#drivers =

## channels:
#  Sets the output channel configuration. If left unspecified, one will try to
#  be detected from the system, and defaulting to stereo. The available values
#  are: mono, stereo, quad, surround51, surround61, surround71, surround3d71,
#  ambi1, ambi2, ambi3. Note that the ambi* configurations provide ambisonic
#  channels of the given order (using ACN ordering and SN3D normalization by
#  default), which need to be decoded to play correctly on speakers.
#channels =

## sample-type:
#  Sets the output sample type. Currently, all mixing is done with 32-bit float
#  and converted to the output sample type as needed. Available values are:
#  int8    - signed 8-bit int
#  uint8   - unsigned 8-bit int
#  int16   - signed 16-bit int
#  uint16  - unsigned 16-bit int
#  int32   - signed 32-bit int
#  uint32  - unsigned 32-bit int
#  float32 - 32-bit float
#sample-type = float32

## frequency:
#  Sets the output frequency. If left unspecified it will try to detect a
#  default from the system, otherwise it will default to 44100.
#frequency =

## period_size:
#  Sets the update period size, in sample frames. This is the number of frames
#  needed for each mixing update. Acceptable values range between 64 and 8192.
#  If left unspecified it will default to 1/50th of the frequency (20ms, or 882
#  for 44100, 960 for 48000, etc).
#period_size =

## periods:
#  Sets the number of update periods. Higher values create a larger mix ahead,
#  which helps protect against skips when the CPU is under load, but increases
#  the delay between a sound getting mixed and being heard. Acceptable values
#  range between 2 and 16.
#periods = 3

## stereo-mode:
#  Specifies if stereo output is treated as being headphones or speakers. With
#  headphones, HRTF or crossfeed filters may be used for better audio quality.
#  Valid settings are auto, speakers, and headphones.
#stereo-mode = auto

## stereo-encoding:
#  Specifies the encoding method for non-HRTF stereo output. 'panpot' (default)
#  uses standard amplitude panning (aka pair-wise, stereo pair, etc) between
#  -30 and +30 degrees, while 'uhj' creates stereo-compatible two-channel UHJ
#  output, which encodes some surround sound information into stereo output
#  that can be decoded with a surround sound receiver. If crossfeed filters are
#  used, UHJ is disabled.
#stereo-encoding = panpot

## ambi-format:
#  Specifies the channel order and normalization for the "ambi*" set of channel
#  configurations. Valid settings are: fuma, acn+fuma, ambix (or acn+sn3d), or
#  acn+n3d
#ambi-format = ambix

## hrtf:
#  Controls HRTF processing. These filters provide better spatialization of
#  sounds while using headphones, but do require a bit more CPU power. While
#  HRTF is used, the cf_level option is ignored. Setting this to auto (default)
#  will allow HRTF to be used when headphones are detected or the app requests
#  it, while setting true or false will forcefully enable or disable HRTF
#  respectively.
#hrtf = auto

## hrtf-mode:
#  Specifies the rendering mode for HRTF processing. Setting the mode to full
#  (default) applies a unique HRIR filter to each source given its relative
#  location, providing the clearest directional response at the cost of the
#  highest CPU usage. Setting the mode to ambi1, ambi2, or ambi3 will instead
#  mix to a first-, second-, or third-order ambisonic buffer respectively, then
#  decode that buffer with HRTF filters. Ambi1 has the lowest CPU usage,
#  replacing the per-source HRIR filter for a simple 4-channel panning mix, but
#  retains full 3D placement at the cost of a more diffuse response. Ambi2 and
#  ambi3 increasingly improve the directional clarity, at the cost of more CPU
#  usage (still less than "full", given some number of active sources).
#hrtf-mode = full

## hrtf-size:
#  Specifies the impulse response size, in samples, for the HRTF filter. Larger
#  values increase the filter quality, while smaller values reduce processing
#  cost. A value of 0 (default) uses the full filter size in the dataset, and
#  the default dataset has a filter size of 32 samples at 44.1khz.
#hrtf-size = 0

## default-hrtf:
#  Specifies the default HRTF to use. When multiple HRTFs are available, this
#  determines the preferred one to use if none are specifically requested. Note
#  that this is the enumerated HRTF name, not necessarily the filename.
#default-hrtf =

## hrtf-paths:
#  Specifies a comma-separated list of paths containing HRTF data sets. The
#  format of the files are described in docs/hrtf.txt. The files within the
#  directories must have the .mhr file extension to be recognized. By default,
#  OS-dependent data paths will be used. They will also be used if the list
#  ends with a comma. On Windows this is:
#  $AppData\openal\hrtf
#  And on other systems, it's (in order):
#  $XDG_DATA_HOME/openal/hrtf  (defaults to $HOME/.local/share/openal/hrtf)
#  $XDG_DATA_DIRS/openal/hrtf  (defaults to /usr/local/share/openal/hrtf and
#                               /usr/share/openal/hrtf)
#hrtf-paths =

## cf_level:
#  Sets the crossfeed level for stereo output. Valid values are:
#  0 - No crossfeed
#  1 - Low crossfeed
#  2 - Middle crossfeed
#  3 - High crossfeed (virtual speakers are closer to itself)
#  4 - Low easy crossfeed
#  5 - Middle easy crossfeed
#  6 - High easy crossfeed
#  Users of headphones may want to try various settings. Has no effect on non-
#  stereo modes.
#cf_level = 0

## resampler: (global)
#  Selects the default resampler used when mixing sources. Valid values are:
#  point - nearest sample, no interpolation
#  linear - extrapolates samples using a linear slope between samples
#  cubic - extrapolates samples using a Catmull-Rom spline
#  bsinc12 - extrapolates samples using a band-limited Sinc filter (varying
#            between 12 and 24 points, with anti-aliasing)
#  fast_bsinc12 - same as bsinc12, except without interpolation between down-
#                 sampling scales
#  bsinc24 - extrapolates samples using a band-limited Sinc filter (varying
#            between 24 and 48 points, with anti-aliasing)
#  fast_bsinc24 - same as bsinc24, except without interpolation between down-
#                 sampling scales
#resampler = linear

## rt-prio: (global)
#  Sets the real-time priority value for the mixing thread. Not all drivers may
#  use this (eg. PortAudio) as those APIs already control the priority of the
#  mixing thread. 0 and negative values will disable real-time priority. Note
#  that this may constitute a security risk since a real-time priority thread
#  can indefinitely block normal-priority threads if it fails to wait. Disable
#  this if it turns out to be a problem.
#rt-prio = 1

## rt-time-limit: (global)
#  On non-Windows systems, allows reducing the process's RLIMIT_RTTIME resource
#  as necessary for acquiring real-time priority from RTKit.
#rt-time-limit = true

## sources:
#  Sets the maximum number of allocatable sources. Lower values may help for
#  systems with apps that try to play more sounds than the CPU can handle.
#sources = 256

## slots:
#  Sets the maximum number of Auxiliary Effect Slots an app can create. A slot
#  can use a non-negligible amount of CPU time if an effect is set on it even
#  if no sources are feeding it, so this may help when apps use more than the
#  system can handle.
#slots = 64

## sends:
#  Limits the number of auxiliary sends allowed per source. Setting this higher
#  than the default has no effect.
#sends = 6

## front-stablizer:
#  Applies filters to "stablize" front sound imaging. A psychoacoustic method
#  is used to generate a front-center channel signal from the front-left and
#  front-right channels, improving the front response by reducing the combing
#  artifacts and phase errors. Consequently, it will only work with channel
#  configurations that include front-left, front-right, and front-center.
#front-stablizer = false

## output-limiter:
#  Applies a gain limiter on the final mixed output. This reduces the volume
#  when the output samples would otherwise clamp, avoiding excessive clipping
#  noise.
#output-limiter = true

## dither:
#  Applies dithering on the final mix, for 8- and 16-bit output by default.
#  This replaces the distortion created by nearest-value quantization with low-
#  level whitenoise.
#dither = true

## dither-depth:
#  Quantization bit-depth for dithered output. A value of 0 (or less) will
#  match the output sample depth. For int32, uint32, and float32 output, 0 will
#  disable dithering because they're at or beyond the rendered precision. The
#  maximum dither depth is 24.
#dither-depth = 0

## volume-adjust:
#  A global volume adjustment for source output, expressed in decibels. The
#  value is logarithmic, so +6 will be a scale of (approximately) 2x, +12 will
#  be a scale of 4x, etc. Similarly, -6 will be x1/2, and -12 is about x1/4. A
#  value of 0 means no change.
#volume-adjust = 0

## excludefx: (global)
#  Sets which effects to exclude, preventing apps from using them. This can
#  help for apps that try to use effects which are too CPU intensive for the
#  system to handle. Available effects are: eaxreverb,reverb,autowah,chorus,
#  compressor,distortion,echo,equalizer,flanger,modulator,dedicated,pshifter,
#  fshifter,vmorpher.
#excludefx =

## default-reverb: (global)
#  A reverb preset that applies by default to all sources on send 0
#  (applications that set their own slots on send 0 will override this).
#  Available presets are: None, Generic, PaddedCell, Room, Bathroom,
#  Livingroom, Stoneroom, Auditorium, ConcertHall, Cave, Arena, Hangar,
#  CarpetedHallway, Hallway, StoneCorridor, Alley, Forest, City, Moutains,
#  Quarry, Plain, ParkingLot, SewerPipe, Underwater, Drugged, Dizzy, Psychotic.
#default-reverb =

## trap-alc-error: (global)
#  Generates a SIGTRAP signal when an ALC device error is generated, on systems
#  that support it. This helps when debugging, while trying to find the cause
#  of a device error. On Windows, a breakpoint exception is generated.
#trap-alc-error = false

## trap-al-error: (global)
#  Generates a SIGTRAP signal when an AL context error is generated, on systems
#  that support it. This helps when debugging, while trying to find the cause
#  of a context error. On Windows, a breakpoint exception is generated.
#trap-al-error = false

##
## Ambisonic decoder stuff
##
[decoder]

## hq-mode:
#  Enables a high-quality ambisonic decoder. This mode is capable of frequency-
#  dependent processing, creating a better reproduction of 3D sound rendering
#  over surround sound speakers.
#hq-mode = true

## distance-comp:
#  Enables compensation for the speakers' relative distances to the listener.
#  This applies the necessary delays and attenuation to make the speakers
#  behave as though they are all equidistant, which is important for proper
#  playback of 3D sound rendering. Requires the proper distances to be
#  specified in the decoder configuration file.
#distance-comp = true

## nfc:
#  Enables near-field control filters. This simulates and compensates for low-
#  frequency effects caused by the curvature of nearby sound-waves, which
#  creates a more realistic perception of sound distance with surround sound
#  output. Note that the effect may be stronger or weaker than intended if the
#  application doesn't use or specify an appropriate unit scale, or if
#  incorrect speaker distances are set. For HRTF output, hrtf-mode must be set
#  to one of the ambi* values for this to function.
#nfc = false

## speaker-dist:
#  Specifies the speaker distance in meters, used by the near-field control
#  filters with surround sound output. For ambisonic output modes, this value
#  is the basis for the NFC-HOA Reference Delay parameter (calculated as
#  delay_seconds = speaker_dist/343.3). This value is not used when a decoder
#  configuration is set for the output mode (since they specify the per-speaker
#  distances, overriding this setting), or when the NFC filters are off. Valid
#  values range from 0.1 to 10.
#speaker-dist = 1

## quad:
#  Decoder configuration file for Quadraphonic channel output. See
#  docs/ambdec.txt for a description of the file format.
#quad =

## surround51:
#  Decoder configuration file for 5.1 Surround (Side and Rear) channel output.
#  See docs/ambdec.txt for a description of the file format.
#surround51 =

## surround61:
#  Decoder configuration file for 6.1 Surround channel output. See
#  docs/ambdec.txt for a description of the file format.
#surround61 =

## surround71:
#  Decoder configuration file for 7.1 Surround channel output. See
#  docs/ambdec.txt for a description of the file format.
#surround71 =

## surround3d71:
#  Decoder configuration file for 3D7.1 Surround channel output. See
#  docs/ambdec.txt for a description of the file format. See also
#  docs/3D7.1.txt for information about 3D7.1.
#surround3d71 =

##
## Reverb effect stuff (includes EAX reverb)
##
[reverb]

## boost: (global)
#  A global amplification for reverb output, expressed in decibels. The value
#  is logarithmic, so +6 will be a scale of (approximately) 2x, +12 will be a
#  scale of 4x, etc. Similarly, -6 will be about half, and -12 about 1/4th. A
#  value of 0 means no change.
#boost = 0

##
## PipeWire backend stuff
##
[pipewire]

## assume-audio: (global)
#  Causes the backend to succeed initialization even if PipeWire reports no
#  audio support. Currently, audio support is detected by the presence of audio
#  source or sink nodes, although this can cause false negatives in cases where
#  device availability during library initialization is spotty. Future versions
#  of PipeWire are expected to have a more robust method to test audio support,
#  but in the mean time this can be set to true to assume PipeWire has audio
#  support even when no nodes may be reported at initialization time.
#assume-audio = false

##
## PulseAudio backend stuff
##
[pulse]

## spawn-server: (global)
#  Attempts to autospawn a PulseAudio server whenever needed (initializing the
#  backend, enumerating devices, etc). Setting autospawn to false in Pulse's
#  client.conf will still prevent autospawning even if this is set to true.
#spawn-server = true

## allow-moves: (global)
#  Allows PulseAudio to move active streams to different devices. Note that the
#  device specifier (seen by applications) will not be updated when this
#  occurs, and neither will the AL device configuration (sample rate, format,
#  etc).
#allow-moves = true

## fix-rate:
#  Specifies whether to match the playback stream's sample rate to the device's
#  sample rate. Enabling this forces OpenAL Soft to mix sources and effects
#  directly to the actual output rate, avoiding a second resample pass by the
#  PulseAudio server.
#fix-rate = false

## adjust-latency:
#  Attempts to adjust the overall latency of device playback. Note that this
#  may have adverse effects on the resulting internal buffer sizes and mixing
#  updates, leading to performance problems and drop-outs. However, if the
#  PulseAudio server is creating a lot of latency, enabling this may help make
#  it more manageable.
#adjust-latency = false

##
## ALSA backend stuff
##
[alsa]

## device: (global)
#  Sets the device name for the default playback device.
#device = default

## device-prefix: (global)
#  Sets the prefix used by the discovered (non-default) playback devices. This
#  will be appended with "CARD=c,DEV=d", where c is the card id and d is the
#  device index for the requested device name.
#device-prefix = plughw:

## device-prefix-*: (global)
#  Card- and device-specific prefixes may be used to override the device-prefix
#  option. The option may specify the card id (eg, device-prefix-NVidia), or
#  the card id and device index (eg, device-prefix-NVidia-0). The card id is
#  case-sensitive.
#device-prefix- =

## custom-devices: (global)
#  Specifies a list of enumerated playback devices and the ALSA devices they
#  refer to. The list pattern is "Display Name=ALSA device;...". The display
#  names will be returned for device enumeration, and the ALSA device is the
#  device name to open for each enumerated device.
#custom-devices =

## capture: (global)
#  Sets the device name for the default capture device.
#capture = default

## capture-prefix: (global)
#  Sets the prefix used by the discovered (non-default) capture devices. This
#  will be appended with "CARD=c,DEV=d", where c is the card id and d is the
#  device number for the requested device name.
#capture-prefix = plughw:

## capture-prefix-*: (global)
#  Card- and device-specific prefixes may be used to override the
#  capture-prefix option. The option may specify the card id (eg,
#  capture-prefix-NVidia), or the card id and device index (eg,
#  capture-prefix-NVidia-0). The card id is case-sensitive.
#capture-prefix- =

## custom-captures: (global)
#  Specifies a list of enumerated capture devices and the ALSA devices they
#  refer to. The list pattern is "Display Name=ALSA device;...". The display
#  names will be returned for device enumeration, and the ALSA device is the
#  device name to open for each enumerated device.
#custom-captures =

## mmap:
#  Sets whether to try using mmap mode (helps reduce latencies and CPU
#  consumption). If mmap isn't available, it will automatically fall back to
#  non-mmap mode. True, yes, on, and non-0 values will attempt to use mmap. 0
#  and anything else will force mmap off.
#mmap = true

## allow-resampler:
#  Specifies whether to allow ALSA's built-in resampler. Enabling this will
#  allow the playback device to be set to a different sample rate than the
#  actual output, causing ALSA to apply its own resampling pass after OpenAL
#  Soft resamples and mixes the sources and effects for output.
#allow-resampler = false

##
## OSS backend stuff
##
[oss]

## device: (global)
#  Sets the device name for OSS output.
#device = /dev/dsp

## capture: (global)
#  Sets the device name for OSS capture.
#capture = /dev/dsp

##
## Solaris backend stuff
##
[solaris]

## device: (global)
#  Sets the device name for Solaris output.
#device = /dev/audio

##
## QSA backend stuff
##
[qsa]

##
## JACK backend stuff
##
[jack]

## spawn-server: (global)
#  Attempts to autospawn a JACK server when initializing.
#spawn-server = false

## custom-devices: (global)
#  Specifies a list of enumerated devices and the ports they connect to. The
#  list pattern is "Display Name=ports regex;Display Name=ports regex;...". The
#  display names will be returned for device enumeration, and the ports regex
#  is the regular expression to identify the target ports on the server (as
#  given by the jack_get_ports function) for each enumerated device.
#custom-devices =

## rt-mix:
#  Renders samples directly in the real-time processing callback. This allows
#  for lower latency and less overall CPU utilization, but can increase the
#  risk of underruns when increasing the amount of work the mixer needs to do.
#rt-mix = true

## connect-ports:
#  Attempts to automatically connect the client ports to physical server ports.
#  Client ports that fail to connect will leave the remaining channels
#  unconnected and silent (the device format won't change to accommodate).
#connect-ports = true

## buffer-size:
#  Sets the update buffer size, in samples, that the backend will keep buffered
#  to handle the server's real-time processing requests. This value must be a
#  power of 2, or else it will be rounded up to the next power of 2. If it is
#  less than JACK's buffer update size, it will be clamped. This option may
#  be useful in case the server's update size is too small and doesn't give the
#  mixer time to keep enough audio available for the processing requests.
#  Ignored when rt-mix is true.
#buffer-size = 0

##
## WASAPI backend stuff
##
[wasapi]

##
## DirectSound backend stuff
##
[dsound]

##
## Windows Multimedia backend stuff
##
[winmm]

##
## PortAudio backend stuff
##
[port]

## device: (global)
#  Sets the device index for output. Negative values will use the default as
#  given by PortAudio itself.
#device = -1

## capture: (global)
#  Sets the device index for capture. Negative values will use the default as
#  given by PortAudio itself.
#capture = -1

##
## Wave File Writer stuff
##
[wave]

## file: (global)
#  Sets the filename of the wave file to write to. An empty name prevents the
#  backend from opening, even when explicitly requested.
#  THIS WILL OVERWRITE EXISTING FILES WITHOUT QUESTION!
#file =

## bformat: (global)
#  Creates AMB format files using first-order ambisonics instead of a standard
#  single- or multi-channel .wav file.
#bformat = false

##
## EAX extensions stuff
##
[eax]

## enable: (global)
#  Sets whether to enable EAX extensions or not.
#enable = true

##
## Per-game compatibility options (these should only be set in per-game config
## files, *NOT* system- or user-level!)
##
[game_compat]

## nfc-scale: (global)
#  A meters-per-unit distance scale applied to NFC filters. If a game doesn't
#  use real-world meters for in-game units, the filters may create a too-near
#  or too-distant effect. For instance, if the game uses 1 foot per unit, a
#  value of 0.3048 will correctly adjust the filters. Or if the game uses 1
#  kilometer per unit, a value of 1000 will correctly adjust the filters.
#nfc-scale = 1

## reverse-x: (global)
#  Reverses the local X (left-right) position of 3D sound sources.
#reverse-x = false

## reverse-y: (global)
#  Reverses the local Y (up-down) position of 3D sound sources.
#reverse-y = false

## reverse-z: (global)
#  Reverses the local Z (front-back) position of 3D sound sources.
#reverse-z = false