SOX audio tool Quick Reference Guide: Difference between revisions

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(Created page with "Generate 1 second of white noise. sox -n output.wav synth 1 noise Generate a 1-second sine tone. sox -n output.wav synth 1 sine 440 Generate a 10-second sine sweep. sox -n output.wav synth 10 sine 0:20000 Exponential sine sweep sox -n -r 44100 sine-sweep.wav synth 10 sine 5/22050 =play= Play synthesized audio. play -n synth sine 440 trim 0 1 gain -12 ################################################################################ #### MODIFYING AUDIO #########...")
 
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  play -n synth sine 440 trim 0 1 gain -12
  play -n synth sine 440 trim 0 1 gain -12


=modify=
Reduce level by 12dB
sox speech.wav output.wav gain -12


################################################################################
Crop to the first 1 second of the file.
#### MODIFYING AUDIO
sox speech.wav output.wav trim 0 1
################################################################################


# Reduce level by 12dB
Reverse the contents.
sox speech.wav output.wav gain -12
sox speech.wav output.wav reverse


# Crop to the first 1 second of the file.
Normalise the contents to 0dBFS.
sox speech.wav output.wav trim 0 1
sox speech.wav output.wav norm


# Reverse the contents.
Equaliser (-6dB @ 100Hz, -24dB @ 8000Hz)
sox speech.wav output.wav reverse
sox speech.wav output.wav bass -6 100 treble -24 8000


# Normalise the contents to 0dBFS.
Add room modelling reverb.
sox speech.wav output.wav norm
sox speech.wav output.wav reverb 50 50 100


# Equaliser (-6dB @ 100Hz, -24dB @ 8000Hz)
Trim digital silence from start and end.
sox speech.wav output.wav bass -6 100 treble -24 8000
sox input.wav trimmed/output.wav silence 1 0.1 0 1 0.1 0
 
# Add room modelling reverb.
sox speech.wav output.wav reverb 50 50 100
 
# Trim digital silence from start and end.
sox input.wav trimmed/output.wav silence 1 0.1 0 1 0.1 0


sox infile outfile gain -n
sox infile outfile gain -n
       normalises to 0dB, and
       normalises to 0dB, and
sox infile outfile gain -n -3
sox infile outfile gain -n -3
       normalises to -3dB.
       normalises to -3dB.


 
=effects=
chorus effect:
chorus effect:
A typical delay is around 40ms to 60ms; the modulation speed is best near 0.25Hz and the modulation depth around 2ms.  For example, a single delay:
A typical delay is around 40ms to 60ms; the modulation speed is best near 0.25Hz and the modulation depth around 2ms.  For example, a single delay:

Revision as of 11:11, 27 November 2022

Generate 1 second of white noise. 

sox -n output.wav synth 1 noise

Generate a 1-second sine tone. 

sox -n output.wav synth 1 sine 440

Generate a 10-second sine sweep. 

sox -n output.wav synth 10 sine 0:20000

Exponential sine sweep 

sox -n -r 44100 sine-sweep.wav synth 10 sine 5/22050

play

Play synthesized audio. 

play -n synth sine 440 trim 0 1 gain -12

modify

Reduce level by 12dB 

sox speech.wav output.wav gain -12

Crop to the first 1 second of the file. 

sox speech.wav output.wav trim 0 1

Reverse the contents. 

sox speech.wav output.wav reverse

Normalise the contents to 0dBFS. 

sox speech.wav output.wav norm

Equaliser (-6dB @ 100Hz, -24dB @ 8000Hz) 

sox speech.wav output.wav bass -6 100 treble -24 8000

Add room modelling reverb. 

sox speech.wav output.wav reverb 50 50 100

Trim digital silence from start and end. 

sox input.wav trimmed/output.wav silence 1 0.1 0 1 0.1 0

sox infile outfile gain -n 

     normalises to 0dB, and

sox infile outfile gain -n -3 

     normalises to -3dB.

effects

chorus effect: A typical delay is around 40ms to 60ms; the modulation speed is best near 0.25Hz and the modulation depth around 2ms. For example, a single delay: 

                play guitar1.wav chorus 0.7 0.9 55 0.4 0.25 2 -t
             Two delays of the original samples:
                play guitar1.wav chorus 0.6 0.9 50 0.4 0.25 2 -t \
                   60 0.32 0.4 1.3 -s
             A fuller sounding chorus (with three additional delays):
                play guitar1.wav chorus 0.5 0.9 50 0.4 0.25 2 -t \
                   60 0.32 0.4 2.3 -t 40 0.3 0.3 1.3 -s


compand: The following example might be used to make a piece of music with both quiet and loud passages suitable for listening to in a noisy environment such as a moving vehicle: 

                sox asz.wav asz-car.wav compand 0.3,1 6:-70,-60,-20 -5 -90 0.2
             The transfer function (`6:-70,...') says that very soft sounds (below -70dB) will remain unchanged.  This will stop the compander from boosting the  volume  on  `silent'
             passages such as between movements.  However, sounds in the range -60dB to 0dB (maximum volume) will be boosted so that the 60dB dynamic range of the original music will
             be compressed 3-to-1 into a 20dB range, which is wide enough to enjoy the music but narrow enough to get around the road noise.  The `6:' selects 6dB soft-knee  compand-
             ing.   The  -5  (dB)  output gain is needed to avoid clipping (the number is inexact, and was derived by experimentation).  The -90 (dB) for the initial volume will work
             fine for a clip that starts with near silence, and the delay of 0.2 (seconds) has the effect of causing the compander to react  a  bit  more  quickly  to  sudden  volume
             changes.
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