Safe Haskell	Safe-Inferred
Language	Haskell2010

Sound.Sc3.Common.Envelope

Contents

Curve
Envelope
Construct

Description

Envelope generators.

Synopsis

data Envelope_Curve a
- = EnvStep
- | EnvLin
- | EnvExp
- | EnvSin
- | EnvWelch
- | EnvNum a
- | EnvSqr
- | EnvCub
- | EnvHold
type Envelope_Curve_2 a = T2 (Envelope_Curve a)
type Envelope_Curve_3 a = T3 (Envelope_Curve a)
type Envelope_Curve_4 a = T4 (Envelope_Curve a)
env_curve_shape :: Num a => Envelope_Curve a -> a
env_curve_value :: Num a => Envelope_Curve a -> a
env_curve_interpolation_f :: (Ord t, Floating t) => Envelope_Curve t -> Interpolation_f t
env_curve_map :: (a -> b) -> Envelope_Curve a -> Envelope_Curve b
data Envelope a = Envelope {
- env_levels :: [a]
- env_times :: [a]
- env_curves :: [Envelope_Curve a]
- env_release_node :: Maybe Int
- env_loop_node :: Maybe Int
- env_offset :: a
}
envelope_map :: (a -> b) -> Envelope a -> Envelope b
envelope :: Num a => [a] -> [a] -> [Envelope_Curve a] -> Envelope a
envelope_duration :: Num n => Envelope n -> n
envelope_n_segments :: Integral i => Envelope n -> i
envelope_segment_ix :: (Ord a, Num a) => Envelope a -> a -> Maybe Int
type Envelope_Segment t = (t, t, t, t, Envelope_Curve t)
envelope_segment :: Num t => Envelope t -> Int -> Envelope_Segment t
envelope_segments :: Num t => Envelope t -> [Envelope_Segment t]
pack_envelope_segments :: Num t => [Envelope_Segment t] -> ([t], [t], [Envelope_Curve t])
envelope_is_normal :: (Eq n, Num n) => Envelope n -> Bool
envelope_normalise :: (Num a, Ord a) => Envelope a -> Envelope a
envelope_at :: (Ord t, Floating t) => Envelope t -> t -> t
envelope_render :: (Ord t, Floating t, Enum t) => Int -> Envelope t -> [(t, t)]
envelope_table :: (Ord t, Floating t, Enum t) => Int -> Envelope t -> [t]
envelope_curves :: Envelope a -> [Envelope_Curve a]
envelope_sc3_array :: Num a => Envelope a -> Maybe [a]
envelope_sc3_ienvgen_array :: Num a => Envelope a -> Maybe [a]
env_is_sustained :: Envelope a -> Bool
env_delay :: Envelope a -> a -> Envelope a
env_circle_z :: Fractional a => a -> a -> Envelope_Curve a -> Envelope a -> Envelope a
env_circle_0 :: Fractional a => Envelope a -> Envelope a
envTrapezoid_f :: Num t => (t -> t -> t, t -> t -> t) -> t -> t -> t -> t -> Envelope t
envCoord :: Num n => [(n, n)] -> n -> n -> Envelope_Curve n -> Envelope n
envPairs :: (Num n, Ord n) => [(n, n)] -> Envelope_Curve n -> Envelope n
envPerc_c :: Num a => a -> a -> a -> Envelope_Curve_2 a -> Envelope a
envPerc :: Num a => a -> a -> Envelope a
envTriangle :: Fractional a => a -> a -> Envelope a
envSine :: Fractional a => a -> a -> Envelope a
data Linen a = Linen {
- linen_attackTime :: a
- linen_sustainTime :: a
- linen_releaseTime :: a
- linen_level :: a
- linen_curve :: Envelope_Curve_3 a
}
linen_def :: Fractional t => Linen t
envLinen_r :: Num a => Linen a -> Envelope a
envLinen_c :: Num a => a -> a -> a -> a -> Envelope_Curve_3 a -> Envelope a
envLinen :: Num a => a -> a -> a -> a -> Envelope a
data Adsr a = Adsr {
- adsr_attackTime :: a
- adsr_decayTime :: a
- adsr_sustainLevel :: a
- adsr_releaseTime :: a
- adsr_peakLevel :: a
- adsr_curve :: Envelope_Curve_3 a
- adsr_bias :: a
}
adsr_def :: Fractional n => Adsr n
envAdsr :: Num a => a -> a -> a -> a -> a -> Envelope_Curve a -> a -> Envelope a
envAdsr_def :: Num a => a -> a -> a -> a -> Envelope a
envAdsr_r :: Num a => Adsr a -> Envelope a
data Adssr a = Adssr {
- adssr_attackTime :: a
- adssr_attackLevel :: a
- adssr_decayTime :: a
- adssr_decayLevel :: a
- adssr_slopeTime :: a
- adssr_sustainLevel :: a
- adssr_releaseTime :: a
- adssr_curve :: Envelope_Curve_4 a
- adssr_bias :: a
}
envAdssr :: Num a => a -> a -> a -> a -> a -> a -> a -> Envelope_Curve a -> a -> Envelope a
envAdssr_r :: Num a => Adssr a -> Envelope a
data Asr a = Asr {
- asr_attackTime :: a
- asr_sustainLevel :: a
- asr_releaseTime :: a
- asr_curve :: Envelope_Curve_2 a
}
asr_def :: Fractional t => Asr t
envAsr_c :: Num a => a -> a -> a -> Envelope_Curve_2 a -> Envelope a
envAsr :: Num a => a -> a -> a -> Envelope_Curve a -> Envelope a
envAsr_r :: Num a => Asr a -> Envelope a
envStep :: Num a => [a] -> [a] -> Maybe Int -> Maybe Int -> Envelope a
envXyc :: Num n => [(n, n, Envelope_Curve n)] -> Envelope n
envXyc_sort :: (Num n, Ord n) => [(n, n, Envelope_Curve n)] -> Envelope n

Curve

data Envelope_Curve a Source #

Envelope curve indicator input.

Constructors

EnvStep
EnvLin
EnvExp
EnvSin
EnvWelch	Note: not implemented at Sc3
EnvNum a
EnvSqr
EnvCub
EnvHold

Instances

Instances details

Show a => Show (Envelope_Curve a) Source #
Instance details Defined in Sound.Sc3.Common.Envelope Methods showsPrec :: Int -> Envelope_Curve a -> ShowS # show :: Envelope_Curve a -> String # showList :: [Envelope_Curve a] -> ShowS #
Eq a => Eq (Envelope_Curve a) Source #
Instance details Defined in Sound.Sc3.Common.Envelope Methods (==) :: Envelope_Curve a -> Envelope_Curve a -> Bool # (/=) :: Envelope_Curve a -> Envelope_Curve a -> Bool #

type Envelope_Curve_2 a = T2 (Envelope_Curve a) Source #

Envelope curve pair.

type Envelope_Curve_3 a = T3 (Envelope_Curve a) Source #

Envelope curve triple.

type Envelope_Curve_4 a = T4 (Envelope_Curve a) Source #

Envelope curve quadruple.

env_curve_shape :: Num a => Envelope_Curve a -> a Source #

Convert Envelope_Curve to shape value.

map env_curve_shape [EnvSin,EnvSqr] == [3,6]

env_curve_value :: Num a => Envelope_Curve a -> a Source #

The value of EnvCurve is non-zero for EnvNum.

map env_curve_value [EnvWelch,EnvNum 2] == [0,2]

env_curve_interpolation_f :: (Ord t, Floating t) => Envelope_Curve t -> Interpolation_f t Source #

Interpolation_f of Envelope_Curve.

env_curve_map :: (a -> b) -> Envelope_Curve a -> Envelope_Curve b Source #

Apply f to EnvNum value.

Envelope

data Envelope a Source #

Sc3 envelope segment model

Constructors

Envelope
Fields env_levels :: [a] Set of n levels, n is >= 1 env_times :: [a] Set of n-1 time intervals env_curves :: [Envelope_Curve a] Possibly empty curve set env_release_node :: Maybe Int Maybe index to release node env_loop_node :: Maybe Int Maybe index to loop node env_offset :: a An offset for all time values (IEnvGen only)

Instances

Instances details

Functor Envelope Source #	fmap = `envelope_map`
Instance details Defined in Sound.Sc3.Common.Envelope Methods fmap :: (a -> b) -> Envelope a -> Envelope b # (<$) :: a -> Envelope b -> Envelope a #
Show a => Show (Envelope a) Source #
Instance details Defined in Sound.Sc3.Common.Envelope Methods showsPrec :: Int -> Envelope a -> ShowS # show :: Envelope a -> String # showList :: [Envelope a] -> ShowS #
Eq a => Eq (Envelope a) Source #
Instance details Defined in Sound.Sc3.Common.Envelope Methods (==) :: Envelope a -> Envelope a -> Bool # (/=) :: Envelope a -> Envelope a -> Bool #

envelope_map :: (a -> b) -> Envelope a -> Envelope b Source #

Apply f to all a at Envelope.

envelope :: Num a => [a] -> [a] -> [Envelope_Curve a] -> Envelope a Source #

Variant without release and loop node inputs (defaulting to nil).

Sound.Sc3.Plot.plotEnvelope [envelope [0,1,0] [3,2] [EnvSin,EnvSin]]

envelope_duration :: Num n => Envelope n -> n Source #

Duration of Envelope, ie. sum . env_times.

envelope_n_segments :: Integral i => Envelope n -> i Source #

Number of segments at Envelope, ie. length . env_times.

envelope_segment_ix :: (Ord a, Num a) => Envelope a -> a -> Maybe Int Source #

Determine which envelope segment a given time t falls in.

type Envelope_Segment t = (t, t, t, t, Envelope_Curve t) Source #

A set of start time, start level, end time, end level and curve.

envelope_segment :: Num t => Envelope t -> Int -> Envelope_Segment t Source #

Extract envelope segment given at index i.

envelope_segments :: Num t => Envelope t -> [Envelope_Segment t] Source #

Extract all segments.

pack_envelope_segments :: Num t => [Envelope_Segment t] -> ([t], [t], [Envelope_Curve t]) Source #

Transform list of Envelope_Segments into lists (env_levels,env_times,env_curves).

envelope_is_normal :: (Eq n, Num n) => Envelope n -> Bool Source #

An envelope is normal if it has no segments with zero duration.

envelope_normalise :: (Num a, Ord a) => Envelope a -> Envelope a Source #

Normalise envelope by deleting segments of zero duration.

envelope_at :: (Ord t, Floating t) => Envelope t -> t -> t Source #

Get value for Envelope at time t, or zero if t is out of range. By convention if the envelope has a segment of zero duration we give the rightmost value.

envelope_render :: (Ord t, Floating t, Enum t) => Int -> Envelope t -> [(t, t)] Source #

Render Envelope to breakpoint set of n equi-distant places.

envelope_table :: (Ord t, Floating t, Enum t) => Int -> Envelope t -> [t] Source #

Contruct a lookup table of n places from Envelope.

envelope_curves :: Envelope a -> [Envelope_Curve a] Source #

Variant on env_curves that expands the, possibly empty, user list by cycling (if not empty) or by filling with EnvLin.

envelope_sc3_array :: Num a => Envelope a -> Maybe [a] Source #

Linear Sc3 form of Envelope data.

Form is: l0 #t reset loop l1 t0 c0 c0' ...

envelope_sc3_array (envelope [0,1] [0.1] [EnvLin]) == Just [0,1,-99,-99,1,0.1,1,0]

let l = [0,0.6,0.3,1.0,0]
let t = [0.1,0.02,0.4,1.1]
let c = [EnvLin,EnvExp,EnvNum (-6),EnvSin]
let e = Envelope l t c Nothing Nothing 0
let r = [0,4,-99,-99,0.6,0.1,1,0,0.3,0.02,2,0,1,0.4,5,-6,0,1.1,3,0]
envelope_sc3_array e == Just r

envelope_sc3_ienvgen_array :: Num a => Envelope a -> Maybe [a] Source #

IEnvGen Sc3 form of Envelope data.

l = [0,0.6,0.3,1.0,0]
t = [0.1,0.02,0.4,1.1]
c = [EnvLin,EnvExp,EnvNum (-6),EnvSin]
e = Envelope l t c Nothing Nothing 0
r = [0,0,4,1.62,0.1,1,0,0.6,0.02,2,0,0.3,0.4,5,-6,1,1.1,3,0,0]
envelope_sc3_ienvgen_array e == Just r

env_is_sustained :: Envelope a -> Bool Source #

True if env_release_node is not Nothing.

env_delay :: Envelope a -> a -> Envelope a Source #

Delay the onset of the envelope (add initial segment).

env_circle_z :: Fractional a => a -> a -> Envelope_Curve a -> Envelope a -> Envelope a Source #

Connect releaseNode (or end) to first node of envelope. z is a value that is first zero and thereafter one. tc & cc are time and curve from first to last.

env_circle_0 :: Fractional a => Envelope a -> Envelope a Source #

env_circle_z with cycle time of zero.

Construct

envTrapezoid_f :: Num t => (t -> t -> t, t -> t -> t) -> t -> t -> t -> t -> Envelope t Source #

Trapezoidal envelope generator.

Requires (and (=) functions returning 1 for true and 0 for false.

The arguments are: 1. shape determines the sustain time as a proportion of dur, zero is a triangular envelope, one a rectangular envelope; 2. skew determines the attack/decay ratio, zero is an immediate attack and a slow decay, one a slow attack and an immediate decay; 3. duration in seconds; 4. amplitude as linear gain.

envCoord :: Num n => [(n, n)] -> n -> n -> Envelope_Curve n -> Envelope n Source #

Coordinate based static envelope generator. Points are (time,value) pairs.

let e = envCoord [(0,0),(1/4,1),(1,0)] 1 1 EnvLin
envelope_sc3_array e == Just [0,2,-99,-99,1,1/4,1,0,0,3/4,1,0]

import Sound.Sc3.Plot 
plotEnvelope [envCoord [(0,0),(1/4,1),(1,0)] 1 1 EnvLin]

envPairs :: (Num n, Ord n) => [(n, n)] -> Envelope_Curve n -> Envelope n Source #

Segments given as pairs of (time,level). The input is sorted by time before processing.

envPairs [(0, 1), (3, 1.4), (2.1, 0.5)] EnvSin

envPerc_c :: Num a => a -> a -> a -> Envelope_Curve_2 a -> Envelope a Source #

Percussive envelope, with attack, release, level and curve inputs.

envPerc :: Num a => a -> a -> Envelope a Source #

Percussive envelope, with attack and release inputs.

envTriangle :: Fractional a => a -> a -> Envelope a Source #

Triangular envelope, with duration and level inputs.

let e = envTriangle 1 0.1
envelope_sc3_array e == Just [0,2,-99,-99,0.1,0.5,1,0,0,0.5,1,0]

envSine :: Fractional a => a -> a -> Envelope a Source #

Sine envelope, with duration and level inputs.

let e = envSine 0 0.1
envelope_sc3_array e == Just [0,2,-99,-99,0.1,0.5,1,0,0,0.5,1,0]

data Linen a Source #

Parameters for Linen envelopes.

Constructors

Linen
Fields linen_attackTime :: a linen_sustainTime :: a linen_releaseTime :: a linen_level :: a linen_curve :: Envelope_Curve_3 a

linen_def :: Fractional t => Linen t Source #

Sc3 defaults for Linen.

envLinen_r :: Num a => Linen a -> Envelope a Source #

Record (Linen) variant of envLinen.

envLinen_c :: Num a => a -> a -> a -> a -> Envelope_Curve_3 a -> Envelope a Source #

Variant of envLinen with user specified 'Envelope_Curve a'.

envLinen :: Num a => a -> a -> a -> a -> Envelope a Source #

Linear envelope parameter constructor.

e = envLinen 0 1 0 1
s = envelope_segments e
p = pack_envelope_segments s
p == (env_levels e,env_times e,env_curves e)

data Adsr a Source #

Parameters for Adsr envelopes. The sustain level is given as a proportion of the peak level.

Constructors

Adsr
Fields adsr_attackTime :: a adsr_decayTime :: a adsr_sustainLevel :: a adsr_releaseTime :: a adsr_peakLevel :: a adsr_curve :: Envelope_Curve_3 a adsr_bias :: a

adsr_def :: Fractional n => Adsr n Source #

Sc3 defaults for Adsr.

envAdsr :: Num a => a -> a -> a -> a -> a -> Envelope_Curve a -> a -> Envelope a Source #

Attack, decay, sustain, release envelope parameter constructor.

envAdsr_def :: Num a => a -> a -> a -> a -> Envelope a Source #

Variant with defaults for pL, c and b.

envAdsr_r :: Num a => Adsr a -> Envelope a Source #

Record (Adsr) variant of envAdsr.

data Adssr a Source #

Parameters for Roland type Adssr envelopes.

Constructors

Adssr
Fields adssr_attackTime :: a adssr_attackLevel :: a adssr_decayTime :: a adssr_decayLevel :: a adssr_slopeTime :: a adssr_sustainLevel :: a adssr_releaseTime :: a adssr_curve :: Envelope_Curve_4 a adssr_bias :: a

envAdssr :: Num a => a -> a -> a -> a -> a -> a -> a -> Envelope_Curve a -> a -> Envelope a Source #

Attack, decay, slope, sustain, release envelope parameter constructor.

envAdssr_r :: Num a => Adssr a -> Envelope a Source #

Record (Adssr) variant of envAdssr.

data Asr a Source #

Parameters for Asr envelopes.

Constructors

Asr
Fields asr_attackTime :: a asr_sustainLevel :: a asr_releaseTime :: a asr_curve :: Envelope_Curve_2 a

asr_def :: Fractional t => Asr t Source #

Sc3 default values for Asr.

envAsr_c :: Num a => a -> a -> a -> Envelope_Curve_2 a -> Envelope a Source #

Sc3 .asr has singular curve argument, hence _c suffix.

envAsr :: Num a => a -> a -> a -> Envelope_Curve a -> Envelope a Source #

Attack, sustain, release envelope parameter constructor.

c = 3
r = Just [0,2,1,-99,0.1,3,c,0,0,2,c,0]
envelope_sc3_array (envAsr 3 0.1 2 EnvSin) == r

envAsr_r :: Num a => Asr a -> Envelope a Source #

Record (Asr) variant of envAsr.

envStep :: Num a => [a] -> [a] -> Maybe Int -> Maybe Int -> Envelope a Source #

All segments are horizontal lines.

envXyc :: Num n => [(n, n, Envelope_Curve n)] -> Envelope n Source #

Segments given as triples of (time,level,curve). The final curve is ignored.

envXyc [(0, 1, EnvSin), (2.1, 0.5, EnvLin), (3, 1.4, EnvLin)]

envXyc_sort :: (Num n, Ord n) => [(n, n, Envelope_Curve n)] -> Envelope n Source #

Variant where the input is sorted by time before processing.

envXyc_sort [(0, 1, EnvSin), (3, 1.4, EnvLin), (2.1, 0.5, EnvLin)]