#lang scribble/manual @(require (for-label racket)) @title{(compander input control thresh slopeBelow slopeAbove clampTime relaxTime)} Compressor, expander, limiter, gate, ducker. General purpose dynamics processor. input: The signal to be compressed / expanded / gated. control: The signal whose amplitude determines the gain applied to the input signal. Often the same as in (for standard gating or compression) but should be different for ducking. thresh: Control signal amplitude threshold, which determines the break point between slopeBelow and slopeAbove. Usually 0..1. The control signal amplitude is calculated using RMS. slopeBelow: slope of the amplitude curve below the threshold. If this slope > 1.0, the amplitude will drop off more quickly the softer the control signal gets when the control signal is close to 0 amplitude, the output should be exactly zero -- hence, noise gating. Values < 1.0 are possible, but it means that a very low-level control signal will cause the input signal to be amplified, which would raise the noise floor. slopeAbove: Same thing, but above the threshold. Values < 1.0 achieve compression (louder signals are attenuated) > 1.0, you get expansion (louder signals are made even louder). For 3:1 compression, you would use a value of 1/3 here. clampTime: The amount of time it takes for the amplitude adjustment to kick in fully. This is usually pretty small, not much more than 10 milliseconds (the default value). relaxTime: The amount of time for the amplitude adjustment to be released. Usually a bit longer than clampTime if both times are too short, you can get some (possibly unwanted) artifacts. Example signal to process. @racketblock[ (define z (mul (decay2 (mul (impulse ar 8 0) (mul (lf-saw kr 0.3 0) 0.3)) 0.001 0.3) (mix (pulse ar (mce2 80 81) 0.3)))) ] @racketblock[ (audition (out 0 z)) ] Noise gate @racketblock[ (let ((x (mouse-x kr 0.01 1 0 0.1))) (audition (out 0 (mce2 z (compander z z x 10 1 0.01 0.01))))) ] Compressor @racketblock[ (let ((x (mouse-x kr 0.01 1 0 0.1))) (audition (out 0 (mce2 z (compander z z x 1 0.5 0.01 0.01))))) ] limiter @racketblock[ (let ((x (mouse-x kr 0.01 1 0 0.1))) (audition (out 0 (mce2 z (compander z z x 1 0.1 0.01 0.01))))) ] Sustainer @racketblock[ (let ((x (mouse-x kr 0.01 1 0 0.1))) (audition (out 0 (mce2 z (compander z z x 0.1 1.0 0.01 0.01))))) ]