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Synthesizer.Causal.ToneModulation |
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Synopsis |
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interpolateCell :: Read sig y => T a y -> T b y -> (a, b) -> Cell sig y -> y | | seekCell :: (C t, Transform sig y) => Int -> t -> ((t, T t), sig y) -> ((t, t), Cell sig y) | | oscillatorCells :: (C t, Transform sig y) => Margin -> Margin -> Int -> t -> sig y -> (t, T t) -> T (t, t) ((t, t), Cell sig y) | | oscillatorSuffixes :: (C t, Transform sig y) => Margin -> Margin -> Int -> t -> sig y -> (t, T t) -> T (t, t) ((t, T t), sig y) | | integrateFractional :: C t => t -> (t, T t) -> (Skip t, T (t, t) (Skip t)) | | integrateFractionalClip :: C t => t -> (t, T t) -> T (t, t) (Skip t) | | limitRelativeShapes :: (C t, Ord t) => Margin -> Margin -> Int -> t -> (t, T t t) | | limitMinRelativeValues :: (C t, Ord t) => t -> t -> (t, T t t) |
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Documentation |
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interpolateCell :: Read sig y => T a y -> T b y -> (a, b) -> Cell sig y -> y | Source |
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In contrast to the counterpart of this function for plain lists,
it does not use sophisticated list transposition tricks,
but seeks through the prototype signal using drop.
Since drop is used in an inner loop, it must be fast.
This is true for StorableVectors.
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integrateFractionalClip :: C t => t -> (t, T t) -> T (t, t) (Skip t) | Source |
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Delays output by one element and shorten it by one element at the end.
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limitMinRelativeValues :: (C t, Ord t) => t -> t -> (t, T t t) | Source |
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Produced by Haddock version 2.4.2 |