Synthesizer.Interpolation.Module
Description
Special interpolations defined in terms of Module operations.
Synopsis
 data T t y constant :: T t y linear :: C t y => T t y cubic :: (C t, C t y) => T t y cubicAlt :: (C t, C t y) => T t y piecewise :: C t y => Int -> [t -> t] -> T t y piecewiseConstant :: C t y => T t y piecewiseLinear :: C t y => T t y piecewiseCubic :: (C t, C t y) => T t y function :: C t y => (Int, Int) -> (t -> t) -> T t y
Documentation
 data T t y Source
 interpolation as needed for resampling
 constant :: T t y Source
Consider the signal to be piecewise constant.
 linear :: C t y => T t y Source
Consider the signal to be piecewise linear.
 cubic :: (C t, C t y) => T t y Source
Consider the signal to be piecewise cubic, with smooth connections at the nodes. It uses a cubic curve which has node values x0 at 0 and x1 at 1 and derivatives (x1-xm1)2 and (x2-x0)2, respectively. You can see how it works if you evaluate the expression for t=0 and t=1 as well as the derivative at these points.
 cubicAlt :: (C t, C t y) => T t y Source
The interpolators for module operations do not simply compute a straight linear combination of some vectors. Instead they add then scale, then add again, and so on. This is efficient whenever scaling and addition is cheap. In this case they might save multiplications. I can't say much about numeric cancellations, however.
 piecewise :: C t y => Int -> [t -> t] -> T t y Source
 piecewiseConstant :: C t y => T t y Source
 piecewiseLinear :: C t y => T t y Source
 piecewiseCubic :: (C t, C t y) => T t y Source
 function Source
 :: C t y => (Int, Int) (left extent, right extent), e.g. (1,1) for linear hat -> t -> t -> T t y with this wrapper you can use the collection of interpolating functions from Donadio's DSP library
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