dobutokO2-0.36.2.0: DobutokO/Sound.hs
-- |
-- Module : DobutokO.Sound
-- Copyright : (c) OleksandrZhabenko 2020
-- License : MIT
-- Stability : Experimental
-- Maintainer : olexandr543@yahoo.com
--
-- Helps to create experimental music from a file (or its part) and a Ukrainian text.
-- It can also generate a timbre for the notes. Uses SoX inside.
{-# LANGUAGE BangPatterns, LambdaCase #-}
{-# OPTIONS_GHC -threaded #-}
module DobutokO.Sound (
-- * Library and executable functions
-- ** For the fixed timbre
overSoXSynthN
-- *** For the fixed timbre with different signs for harmonics coefficients
, overTones2
, overSoXSynth2
, overSoXSynthN2
, overSoXSynthN3
-- *** Use additional parameters
, overSoXSynthDN
, overSoXSynth2DN
-- *** Use a file for information
, overSoXSynthNGen
, overSoXSynthNGen2
, overSoXSynthNGen3
-- ** For the unique for the String structure timbre
, uniqOvertonesV
, uniqOverSoXSynth
, uniqOverSoXSynthN
-- *** For the unique for the String structure timbre with different signs for harmonics coefficients
, uniqOvertonesV2
, uniqOverSoXSynth2
, uniqOverSoXSynthN3
, uniqOverSoXSynthN4
-- *** Use a file for information
, uniqOverSoXSynthNGen
, uniqOverSoXSynthNGen3
, uniqOverSoXSynthNGen4
-- ** Work with octaves
, octaveUp
, octaveDown
, whichOctave
, liftInOctave
, liftInOctaveV
-- ** Even more extended
, dviykyTA
, triykyTA
, chetvirkyTA
, p'yatirkyTA
, shistkyTA
, simkyTA
, visimkyTA
, dev'yatkyTA
, desyatkyTA
, odynadtsyatkyTA
, octavesTA
-- * Extended generation using enky functionality
-- ** With somewhat fixed timbre
, overSoXSynthNGenE
, overSoXSynthNGen2E
, overSoXSynthNGen3E
-- ** With usage of additional information in the Ukrainian text
, uniqOverSoXSynthNGenE
, uniqOverSoXSynthNGen3E
, uniqOverSoXSynthNGen4E
-- * Auxiliary functions
, signsFromString
-- * New 4G functions to work with Durations
, overSoXSynthN4G
, overSoXSynthN24G
, overSoXSynthN34G
, overSoXSynthNGenE4G
, overSoXSynthNGen2E4G
, overSoXSynthNGen3E4G
, uniqOverSoXSynthN4G
, uniqOverSoXSynthN34G
, uniqOverSoXSynthN44G
, uniqOverSoXSynthNGenE4G
, uniqOverSoXSynthNGen3E4G
, uniqOverSoXSynthNGen4E4G
-- ** 4G with speech-like composition
, overSoXSynthN4GS
, overSoXSynthN24GS
, overSoXSynthN34GS
, overSoXSynthNGenE4GS
, overSoXSynthNGen2E4GS
, overSoXSynthNGen3E4GS
, uniqOverSoXSynthN4GS
, uniqOverSoXSynthN34GS
, uniqOverSoXSynthN44GS
, uniqOverSoXSynthNGenE4GS
, uniqOverSoXSynthNGen3E4GS
, uniqOverSoXSynthNGen4E4GS
-- * New 5G functions to work also with Intervals
, overSoXSynthN35G
, overSoXSynthNGen3E5G
, uniqOverSoXSynthN45G
, uniqOverSoXSynthNGen4E5G
-- ** 5G with obtained from the text arbitraty length Intervals
, overSoXSynthN35GS
, overSoXSynthNGen3E5GS
, uniqOverSoXSynthN45GS
, uniqOverSoXSynthNGen4E5GS
-- * New 6G function to work also with Strengths
, overSoXSynthNGen3E6G
, uniqOverSoXSynthNGen4E6G
-- ** 6G with obtained from the text arbitrary length Strengths
, overSoXSynthNGen3E6GS
, uniqOverSoXSynthNGen4E6GS
) where
import CaseBi (getBFst')
import System.Exit (ExitCode(ExitSuccess))
import Numeric (showFFloat)
import Control.Exception (onException)
import System.Environment (getArgs)
import Data.List (isPrefixOf,sort,sortBy,nubBy)
import Data.Maybe (isJust,isNothing,fromJust,maybe)
import Data.Char (isDigit)
import qualified Data.Vector as V
import System.Process
import EndOfExe (showE)
import MMSyn7.Syllable
import MMSyn7s
import System.Directory
import SoXBasics
import Processing_mmsyn7ukr
import Melodics.Ukrainian (convertToProperUkrainian)
import DobutokO.Sound.Functional
dviykyTA :: NotePairs
dviykyTA = V.generate 107 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 1)))
triykyTA :: NotePairs
triykyTA = V.generate 106 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 2)))
chetvirkyTA :: NotePairs
chetvirkyTA = V.generate 105 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 3)))
p'yatirkyTA :: NotePairs
p'yatirkyTA = V.generate 104 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 4)))
shistkyTA :: NotePairs
shistkyTA = V.generate 103 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 5)))
simkyTA :: NotePairs
simkyTA = V.generate 102 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 6)))
visimkyTA :: NotePairs
visimkyTA = V.generate 101 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 7)))
dev'yatkyTA :: NotePairs
dev'yatkyTA = V.generate 100 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 8)))
desyatkyTA :: NotePairs
desyatkyTA = V.generate 99 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 9)))
odynadtsyatkyTA :: NotePairs
odynadtsyatkyTA = V.generate 98 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 10)))
octavesTA :: NotePairs
octavesTA = V.generate 97 (\i -> (V.unsafeIndex notes i, V.unsafeIndex notes (i + 11)))
--------------------------------------------------------------------------------------------------------------------------
-- | Returns an analogous note in the higher octave (its frequency in Hz).
octaveUp :: Double -> Double
octaveUp x = 2 * x
{-# INLINE octaveUp #-}
-- | Returns an analogous note in the lower octave (its frequency in Hz).
octaveDown :: Double -> Double
octaveDown x = x / 2
{-# INLINE octaveDown #-}
-----------------------------------------------------------------------------------------------------------------------------
-- | Function can be used to determine to which octave (in the American notation for the notes, this is a number in the note written form,
-- e. g. for C4 this is 4) the frequency belongs (to be more exact, the closest note for the given frequency -- see 'closestNote' taking into account
-- its lower pure quint, which can lay in the lower by 1 octave). If it is not practical to determine the number, then the function returns 'Nothing'.
whichOctave :: Double -> Maybe Int
whichOctave x
| compare (closestNote x) 24.4996 == GT = (\t ->
case isJust t of
True -> fmap (\z ->
case z of
0 -> z
_ -> z - 1) t
_ -> Just 8) . V.findIndex (\(t1, t2) -> compare (closestNote x) t1 == LT) $ octavesT
| otherwise = Nothing
-- | Function lifts the given frequency to the given number of the octave (in American notation, from 0 to 8). This number is an 'Int' parameter.
-- The function also takes into account the lower pure quint for the closest note.
-- If it is not practical to determine the number, then the function returns 'Nothing'.
liftInOctave :: Int -> Double -> Maybe Double
liftInOctave n x
| compare n 0 == LT || compare n 8 == GT = Nothing
| compare (closestNote x) 24.4996 == GT =
case compare (fromJust . whichOctave $ x) n of
EQ -> Just (closestNote x)
LT -> let z = logBase 2.0 (V.unsafeIndex notes (n * 12) / closestNote x)
z1 = truncate z in
if abs (z - fromIntegral z1) > 0.999 || abs (z - fromIntegral z1) < 0.001
then Just (V.unsafeLast . V.iterateN (fromIntegral z1 + 1) octaveUp $ closestNote x)
else Just (V.unsafeLast . V.iterateN (fromIntegral z1 + 2) octaveUp $ closestNote x)
_ -> let z = logBase 2.0 (closestNote x / V.unsafeIndex notes (n * 12))
z1 = truncate z in
if abs (z - fromIntegral z1) > 0.999 || abs (z - fromIntegral z1) < 0.001
then Just (V.unsafeLast . V.iterateN (fromIntegral z1 + 2) octaveDown $ closestNote x)
else Just (V.unsafeLast . V.iterateN (fromIntegral z1 + 1) octaveDown $ closestNote x)
| otherwise = Nothing
-- | Function lifts the 'V.Vector' of 'Double' representing frequencies to the given octave with the 'Int' number. Better to use numbers in the range [1..8].
-- The function also takes into account the lower pure quint for the obtained note behaviour. If it is not practical to determine the octave, the resulting
-- frequency is omitted from the resulting 'V.Vector'.
liftInOctaveV :: Int -> V.Vector Double -> V.Vector Double
liftInOctaveV n = V.mapMaybe (liftInOctave n)
--------------------------------------------------------------------------------------------------------------------------------
-- | For the given frequency of the note it generates a 'V.Vector' of the tuples, each one of which contains the harmonics' frequency and amplitude. For every given
-- 'String' structure of the uniqueness (see the documentation for @mmsyn7s@ package and its 'MMSyn7.Syllable' module) it produces the unique timbre.
uniqOvertonesV :: Double -> String -> OvertonesO
uniqOvertonesV note xs =
let ys = uniquenessPeriods xs
z = sum ys
v = V.fromList . fmap (\y -> fromIntegral y / fromIntegral z) $ ys
z2 = V.length v
v2 = V.generate z2 (\i -> V.unsafeIndex v i / fromIntegral (i + 1)) in
V.takeWhile (\(!u,!z) -> compare u (V.unsafeIndex notes 107) /= GT && compare (abs z) 0.001 == GT) . V.unsafeSlice 1 (z2 - 1) .
V.zip (V.generate z2 (\i -> note * fromIntegral (i + 1))) $ v2
-- | Additional function to produce signs from the given 'String' of the Ukrainian text. Ukrainian vowels and voiced consonants gives \"+\" sign (+1), voiceless
-- and sonorous consonants gives \"-\" sign (-1). Voiceless2 gives "0". Other symbols are not taken into account.
signsFromString :: Int -> String -> V.Vector Int
signsFromString n1 =
V.take n1 . V.fromList . concatMap (fmap (\case
Vowel _ -> 1
Voiced _ -> 1
VoicedP _ -> 1
Voiceless _ -> (-1)
VoicelessP _ -> (-1)
Sonorous _ -> (-1)
SonorousP _ -> (-1)
_ -> 0) . concatMap representProlonged) . syllablesUkrP . take (3 * n1) . cycle
-- | For the given frequency of the note and a Ukrainian text it generates a 'V.Vector' of the tuples, each one of which contains
-- the harmonics' frequency and amplitude. The 'String' is used to produce the signs for harmonics coefficients.
overTones2 :: Double -> String -> OvertonesO
overTones2 note ts =
V.takeWhile (\(!w,!z) -> compare w (V.unsafeIndex notes 107) /= GT && compare (abs z) 0.001 == GT) . V.filter (\(_, t4) -> t4 /= 0.0) .
V.zip (V.generate 1024 (\i -> note * fromIntegral (i + 2))) $ (V.generate 1024 (\i -> fromIntegral (V.unsafeIndex (signsFromString 1024 ts)
(i + 1)) / fromIntegral ((i + 1) * (i + 1))))
-- | For the given frequency of the note it generates a 'V.Vector' of the tuples, each one of which contains the harmonics' frequency and amplitude. For every given
-- first 'String' argument structure of the uniqueness (see the documentation for @mmsyn7s@ package and its 'MMSyn7.Syllable' module) it produces the unique timbre.
-- The second 'String' is used to produce the signs for harmonics coefficients.
uniqOvertonesV2 :: Double -> String -> String -> OvertonesO
uniqOvertonesV2 note xs ts =
let ys = uniquenessPeriods xs
z = sum ys
v = V.fromList . fmap (\y -> fromIntegral y / fromIntegral z) $ ys
z2 = V.length v
v2 = V.generate z2 (\i -> (V.unsafeIndex (V.map fromIntegral . signsFromString z2 $ ts) i) * V.unsafeIndex v i / fromIntegral (i + 1)) in
V.takeWhile (\(!u,!z) -> compare u (V.unsafeIndex notes 107) /= GT && compare (abs z) 0.001 == GT) . V.filter (\(_, t4) -> t4 /= 0.0) .
V.unsafeSlice 1 (z2 - 1) . V.zip (V.generate z2 (\i -> note * fromIntegral (i + 1))) $ v2
-- | Similar to 'overSoXSynth' except that takes not necessarily pure lower quint note as the second one, but the one specified by the 'String' parameter
-- as an argument to 'dNote'. If you begin the 'String' with space characters, or \"сь\", or \"ць\", or dash, or apostrophe, or soft sign, than there will
-- be no interval and the sound will be solely one with its 'OvertonesO'.
overSoXSynthDN :: Double -> String -> IO ()
overSoXSynthDN x = overSoXSynth2DN x 0.5
-- | Similar to 'overSoXSynthDN' except that the resulting duration is specified by the second 'Double' parameter in seconds. For 'overSoXSynthDN'
-- it is equal to 0.5.
overSoXSynth2DN :: Double -> Double -> String -> IO ()
overSoXSynth2DN x y zs
| V.null . convertToProperUkrainian $ zs = overSoXSynth x
| otherwise = do
let note0 = closestNote x
note1 = dNote (V.unsafeIndex (intervalsFromString zs) 0) note0
v0 = overTones note0
v1 = maybe V.empty overTones note1
overSoXSynthHelp vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test0" ++ show (i + 2) ++ ".wav", "synth", showFFloat (Just 4) y "","sine", showFFloat (Just 4) noteN "",
"vol", showFFloat (Just 4) amplN ""] "") vec
overSoXSynthHelp2 vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test1" ++ show (i + 2) ++ ".wav", "synth", showFFloat (Just 4) y "","sine", showFFloat (Just 4) noteN "",
"vol", showFFloat (Just 4) amplN ""] "") vec
_ <- readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testA.wav", "synth", showFFloat (Just 4) y "","sine",
showFFloat (Just 4) note0 "", "vol","0.5"] ""
if isNothing note1 then overSoXSynthHelp v0
else do
_ <- readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testB.wav", "synth", showFFloat (Just 4) y "","sine",
showFFloat (Just 4) (fromJust note1) "", "vol","0.5"] ""
overSoXSynthHelp v0
overSoXSynthHelp2 v1
mixTest
-- | For the given frequency it generates a musical sound with a timbre. The main component of the sound includes the lower pure quint,
-- which can be in the same octave or in the one with the number lower by one. Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" files in the current directory, because they can be overwritten.
-- The 'String' argument is used to define signs of the harmonics coefficients for Overtones.
overSoXSynth2 :: Double -> String -> IO ()
overSoXSynth2 x tts = do
let note0 = closestNote x
note1 = pureQuintNote note0
v0 = overTones2 note0 tts
v1 = overTones2 note1 tts
overSoXSynthHelp vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test0" ++ show (i + 2) ++ ".wav", "synth", "0.5","sine", showFFloat (Just 4) noteN "",
"vol", showFFloat (Just 4) amplN ""] "") vec
overSoXSynthHelp2 vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test1" ++ show (i + 2) ++ ".wav", "synth", "0.5","sine", showFFloat (Just 4) noteN "",
"vol", showFFloat (Just 4) amplN ""] "") vec
_ <- readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "test01.wav", "synth", "0.5","sine", showFFloat (Just 4) note0 "",
"synth", "0.5","sine", "mix", showFFloat (Just 4) note1 "", "vol","0.5"] ""
overSoXSynthHelp v0
overSoXSynthHelp2 v1
mixTest
-- | Function to create a melody for the given arguments. 'String' is used to provide a rhythm. The main component of the sound includes the lower pure quint, which
-- can be in the same octave or in the one with the number lower by one. The first 'Double' argument from the range [0.01..1.0] is used as a maximum amplitude
-- for Overtones. If it is set to 1.0 the overTones amplitudes are just the maximum ones, otherwise they are multiplied by the parameter and this results
-- in their becoming more silent ones. The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" files in the current directory, because they can be overwritten.
overSoXSynthN :: Int -> Double -> Double -> String -> V.Vector Double -> IO ()
overSoXSynthN n ampL time3 zs = overSoXSynthN4G n ampL (str2DurationsDef n zs time3)
-- | Function to create a melody for the given arguments. 'Durations' is used to provide a rhythm.
overSoXSynthN4G :: Int -> Double -> Durations -> V.Vector Double -> IO ()
overSoXSynthN4G n ampL v2 vec0
| compare (abs ampL) 0.01 /= LT && compare (abs ampL) 1.0 /= GT =
let zeroN = numVZeroesPre vec0
m = V.length v2 in V.imapM_ (\j x -> do
let note0 = closestNote x -- zs is obtained from the command line arguments
note1 = pureQuintNote note0
v0 = overTones note0
v1 = overTones note1
overSoXSynthHelpN vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (amplN * ampL) "" else "0"] "") vec
overSoXSynthHelpN2 vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "testQ" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (amplN * ampL) "" else "0"] "") vec
soxSynthHelpMain note01 note02 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testA" ++ prependZeroes zeroN "1" ++
".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note01 "", "synth",
showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", "mix", showFFloat (Just 4) note02 "", "vol",if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT
then "0.5" else "0"] ""
soxSynthHelpMain note0 note1
overSoXSynthHelpN v0
overSoXSynthHelpN2 v1
mixTest2 zeroN j) vec0
| otherwise = let ampL1 = ampL - (fromIntegral . truncate $ ampL) in
if abs ampL1 < 0.01 then overSoXSynthN4G n 0.01 v2 vec0
else overSoXSynthN4G n ampL1 v2 vec0
-- | Variant of the 'overSoXSynthN4G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
overSoXSynthN4GS :: Int -> Double -> Double -> String -> V.Vector Double -> IO ()
overSoXSynthN4GS n ampL time3 zs = overSoXSynthN4G n ampL (str2Durations zs time3)
-- | Function to create a melody for the given arguments. 'String' is used to provide a rhythm. The main component of the sound includes the lower pure quint, which
-- can be in the same octave or in the one with the number lower by one. The first 'Double' argument from the range [0.01..1.0] is used as a maximum amplitude
-- for Overtones. If it is set to 1.0 the overTones amplitudes are just the maximum ones, otherwise they are multiplied by the parameter and this results
-- in their becoming more silent ones. The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" files in the current directory, because they can be overwritten.
overSoXSynthN2 :: Int -> Double -> Double -> String -> String -> V.Vector Double -> IO ()
overSoXSynthN2 n ampL time3 zs = overSoXSynthN24G n ampL (str2DurationsDef n zs time3)
-- | Function to create a melody for the given arguments. 'Durations' is used to provide a rhythm.
overSoXSynthN24G :: Int -> Double -> Durations -> String -> V.Vector Double -> IO ()
overSoXSynthN24G n ampL v2 tts vec0
| compare (abs ampL) 0.01 /= LT && compare (abs ampL) 1.0 /= GT =
let zeroN = numVZeroesPre vec0
m = V.length v2 in V.imapM_ (\j x -> do
let note0 = closestNote x -- zs is obtained from the command line arguments
note1 = pureQuintNote note0
v0 = overTones2 note0 tts
v1 = overTones2 note1 tts
overSoXSynthHelpN vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine",showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (amplN * ampL) "" else "0"] "") vec
overSoXSynthHelpN2 vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "testQ" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (amplN * ampL) "" else "0"] "") vec
soxSynthHelpMain note01 note02 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testA" ++ prependZeroes zeroN "1" ++
".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note01 "",
"synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", "mix", showFFloat (Just 4) note02 "", "vol",
if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then "0.5" else "0"] ""
soxSynthHelpMain note0 note1
overSoXSynthHelpN v0
overSoXSynthHelpN2 v1
mixTest2 zeroN j) vec0
| otherwise = let ampL1 = ampL - (fromIntegral . truncate $ ampL) in
if abs ampL1 < 0.01 then overSoXSynthN24G n 0.01 v2 tts vec0
else overSoXSynthN24G n ampL1 v2 tts vec0
-- | Variant of the 'overSoXSynthN24G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
overSoXSynthN24GS :: Int -> Double -> Double -> String -> String -> V.Vector Double -> IO ()
overSoXSynthN24GS n ampL time3 zs = overSoXSynthN24G n ampL (str2Durations zs time3)
-- | Function to create a melody for the given arguments. 'String' is used to provide a rhythm. The main component of the sound includes the lower pure quint, which
-- can be in the same octave or in the one with the number lower by one. The first 'Double' argument from the range [0.01..1.0] is used as a maximum amplitude
-- for Overtones. If it is set to 1.0 the overTones amplitudes are just the maximum ones, otherwise they are multiplied by the parameter and this results
-- in their becoming more silent ones. The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" files in the current directory, because they can be overwritten.
-- The third 'String' argument is used to define the intervals for the notes if any.
-- The third 'Double' parameter basically is used to define in how many times the volume for the second lower note is less than the volume of
-- the main note. If it is rather great, it can signal that the volume for the second note overTones are greater than for the main note obetones.
-- The last one is experimental feature.
overSoXSynthN3 :: Int -> Double -> Double -> Double -> String -> String -> String -> V.Vector Double -> IO ()
overSoXSynthN3 n ampL time3 dAmpl zs = overSoXSynthN34G n ampL dAmpl (str2DurationsDef n zs time3)
-- | Function to create a melody for the given arguments. 'Duraitons' is used to provide a rhythm.
overSoXSynthN34G :: Int -> Double -> Double -> Durations -> String -> String -> V.Vector Double -> IO ()
overSoXSynthN34G n ampL dAmpl v2 tts vs vec0
| compare (abs ampL) 0.01 /= LT && compare (abs ampL) 1.0 /= GT =
let m = V.length v2
zeroN = numVZeroesPre vec0
v3 = intervalsFromString vs
l = length vs in V.imapM_ (\j x -> do
let note0 = closestNote x -- zs is obtained from the command line arguments
note1 = dNote (V.unsafeIndex v3 (j `rem` l)) note0
v0 = overTones2 note0 tts
v1 = if isNothing note1 then V.empty
else overTones2 (fromJust note1) tts
overSoXSynthHelpN vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine",showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (amplN * ampL) "" else "0"] "") vec
overSoXSynthHelpN2 vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "testQ" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (if dAmpl * amplN * ampL > 1.0 then 1.0
else dAmpl * amplN * ampL) "" else "0"] "") vec
soxSynthHelpMain0 note01 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testA" ++ prependZeroes zeroN "1" ++ ".wav",
"synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note01 "", "vol",
if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then "0.5" else "0"] ""
soxSynthHelpMain1 note02 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testB" ++
prependZeroes zeroN "1" ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note02 "",
"vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (if dAmpl > 0.5 then 0.5 else dAmpl / 2) "" else "0"] ""
if isNothing note1 then do { soxSynthHelpMain0 note0
; overSoXSynthHelpN v0 }
else do { soxSynthHelpMain0 note0
; soxSynthHelpMain1 (fromJust note1)
; overSoXSynthHelpN v0
; overSoXSynthHelpN2 v1}
paths0 <- listDirectory "."
let paths = sort . filter (isPrefixOf "test") $ paths0
_ <- readProcessWithExitCode (fromJust (showE "sox")) (["--combine", "mix"] ++ paths ++ ["result0" ++ prependZeroes zeroN (show j) ++ ".wav","vol","0.3"]) ""
mapM_ removeFile paths) vec0
| otherwise = let ampL1 = ampL - (fromIntegral . truncate $ ampL) in
if abs ampL1 < 0.01 then overSoXSynthN34G n 0.01 dAmpl v2 tts vs vec0
else overSoXSynthN34G n ampL1 dAmpl v2 tts vs vec0
-- | Generalized variant of the 'overSoXSynthN34G' where you specify your own 'Intervals'. For more information, please, refer to 'intervalsFromStringG'.
overSoXSynthN35G :: Int -> Double -> Double -> Durations -> String -> Intervals -> V.Vector Double -> IO ()
overSoXSynthN35G n ampL dAmpl v2 tts v3 vec0
| compare (abs ampL) 0.01 /= LT && compare (abs ampL) 1.0 /= GT =
let m = V.length v2
zeroN = numVZeroesPre vec0
l = V.length v3 in V.imapM_ (\j x -> do
let note0 = closestNote x -- zs is obtained from the command line arguments
note1 = dNote (V.unsafeIndex v3 (j `rem` l)) note0
v0 = overTones2 note0 tts
v1 = if isNothing note1 then V.empty
else overTones2 (fromJust note1) tts
overSoXSynthHelpN vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine",showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (amplN * ampL) "" else "0"] "") vec
overSoXSynthHelpN2 vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "testQ" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (if dAmpl * amplN * ampL > 1.0 then 1.0
else dAmpl * amplN * ampL) "" else "0"] "") vec
soxSynthHelpMain0 note01 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testA" ++ prependZeroes zeroN "1" ++ ".wav",
"synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note01 "", "vol",
if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then "0.5" else "0"] ""
soxSynthHelpMain1 note02 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testB" ++
prependZeroes zeroN "1" ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note02 "",
"vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (if dAmpl > 0.5 then 0.5 else dAmpl / 2) "" else "0"] ""
if isNothing note1 then do { soxSynthHelpMain0 note0
; overSoXSynthHelpN v0 }
else do { soxSynthHelpMain0 note0
; soxSynthHelpMain1 (fromJust note1)
; overSoXSynthHelpN v0
; overSoXSynthHelpN2 v1}
paths0 <- listDirectory "."
let paths = sort . filter (isPrefixOf "test") $ paths0
_ <- readProcessWithExitCode (fromJust (showE "sox")) (["--combine", "mix"] ++ paths ++ ["result0" ++ prependZeroes zeroN (show j) ++ ".wav","vol","0.3"]) ""
mapM_ removeFile paths) vec0
| otherwise = let ampL1 = ampL - (fromIntegral . truncate $ ampL) in
if abs ampL1 < 0.01 then overSoXSynthN35G n 0.01 dAmpl v2 tts v3 vec0
else overSoXSynthN35G n ampL1 dAmpl v2 tts v3 vec0
-- | Variant of the 'overSoXSynthN34G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
overSoXSynthN34GS :: Int -> Double -> Double -> Double -> String -> String -> String -> V.Vector Double -> IO ()
overSoXSynthN34GS n ampL time3 dAmpl zs = overSoXSynthN34G n ampL dAmpl (str2Durations zs time3)
-- | Variant of the 'overSoXSynthN34G' where intervals are obtained from the basic 'Intervals' with the length no more than 29 and a Ukrainian text
-- specified as the last 'String' argument so that you can produce 'Intervals' of the arbitrary length. For more information, please, refer to
-- 'intervalsFromStringG' and 'strToIntG'.
overSoXSynthN35GS :: Int -> Double -> Double -> Double -> String -> String -> Intervals -> String -> V.Vector Double -> IO ()
overSoXSynthN35GS n ampL time3 dAmpl zs tts v3 vs = overSoXSynthN35G n ampL dAmpl (str2Durations zs time3) tts (intervalsFromStringG v3 vs)
-- | Similar to 'overSoXSynthN', but uses a sound file to obtain the information analogous to 'V.Vector' in the latter one. Besides, the function lifts
-- the frequencies to the octave with the given by 'Int' parameter number (better to use from the range [1..8]). The first 'Double' argument from
-- the range [0.01..1.0] is used as a maximum amplitude for Overtones. If it is set to 1.0 the overTones amplitudes are just maximum ones,
-- otherwise they are multiplied by the parameter and this results in their becoming more silent ones.
-- The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" and \"end.wav\" files in the current directory, because they can be overwritten.
--
-- For better usage the 'FilePath' should be a filepath for the .wav file.
overSoXSynthNGen :: FilePath -> Int -> Double -> Double -> String -> IO ()
overSoXSynthNGen file m = overSoXSynthNGenE file m 12
-- | Similar to 'overSoXSynthNGen', but uses additional second 'Int' parameter. It defines, to which n-th elements set (see 'nkyT') belongs the obtained
-- higher notes in the intervals. If that parameter equals to 12, then the function is practically equivalent to 'overSoXSynthNGen'. To obtain
-- its modifications, please, use 2, 3, 4, 6, or 9.
overSoXSynthNGenE :: FilePath -> Int -> Int -> Double -> Double -> String -> IO ()
overSoXSynthNGenE file m ku ampL time3 zs = do
n <- duration1000 file
nGenE4Gi n file m ku ampL (str2DurationsDef n zs time3)
-- | Variant of the 'overSoXSynthNGenE4G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
overSoXSynthNGenE4GS :: FilePath -> Int -> Int -> Double -> Double -> String -> IO ()
overSoXSynthNGenE4GS file m ku ampL time3 zs = do
n <- duration1000 file
nGenE4Gi n file m ku ampL (str2Durations zs time3)
nGenE4Gi :: Int -> FilePath -> Int -> Int -> Double -> Durations -> IO ()
nGenE4Gi n file m ku ampL v2 = do
vecA <- freqsFromFile file n
let vecB = liftInEnkuV m ku . V.map fromIntegral . V.filter (/= (11440::Int)) $ vecA
overSoXSynthN4G n ampL v2 vecB
endFromResult
-- | 4G genaralized version of the 'overSoXSynthNGenE' where you provide your own 'Durations'.
overSoXSynthNGenE4G :: FilePath -> Int -> Int -> Double -> Durations -> IO ()
overSoXSynthNGenE4G file m ku ampL v2 = do
n <- duration1000 file
nGenE4Gi n file m ku ampL v2
-- | Similar to 'overSoXSynthN2', but uses a sound file to obtain the information analogous to 'V.Vector' in the latter one. Besides, the function lifts
-- the frequencies to the octave with the given by 'Int' parameter number (better to use from the range [1..8]). The first 'Double' argument from
-- the range [0.01..1.0] is used as a maximum amplitude for Overtones. If it is set to 1.0 the overTones amplitudes are just maximum ones,
-- otherwise they are multiplied by the parameter and this results in their becoming more silent ones.
-- The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" and \"end.wav\" files in the current directory, because they can be overwritten.
--
-- For better usage the 'FilePath' should be a filepath for the .wav file.
-- The second 'String' argument is used to define signs of the harmonics coefficients in the generated sounds.
overSoXSynthNGen2 :: FilePath -> Int -> Double -> Double -> String -> String -> IO ()
overSoXSynthNGen2 file m = overSoXSynthNGen2E file m 12
-- | Similar to 'overSoXSynthNGen2', but uses additional second 'Int' parameter. It defines, to which n-th elements set (see 'nkyT') belongs the obtained
-- higher notes in the intervals. If that parameter equals to 12, then the function is practically equivalent to 'overSoXSynthNGen2'. To obtain
-- its modifications, please, use 2, 3, 4, 6, or 9.
overSoXSynthNGen2E :: FilePath -> Int -> Int -> Double -> Double -> String -> String -> IO ()
overSoXSynthNGen2E file m ku ampL time3 zs tts = do
n <- duration1000 file
nGen2E4Gi n file m ku ampL (str2DurationsDef n zs time3) tts
-- | Variant of the 'overSoXSynthNGen2E4G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
overSoXSynthNGen2E4GS :: FilePath -> Int -> Int -> Double -> Double -> String -> String -> IO ()
overSoXSynthNGen2E4GS file m ku ampL time3 zs tts = do
n <- duration1000 file
nGen2E4Gi n file m ku ampL (str2Durations zs time3) tts
nGen2E4Gi :: Int -> FilePath -> Int -> Int -> Double -> Durations -> String -> IO ()
nGen2E4Gi n file m ku ampL v2 tts = do
vecA <- freqsFromFile file n
let vecB = liftInEnkuV m ku . V.map fromIntegral . V.filter (/= (11440::Int)) $ vecA
overSoXSynthN24G n ampL v2 tts vecB
endFromResult
-- | 4G genaralized version of the 'overSoXSynthNGen2E' where you provide your own 'Durations'.
overSoXSynthNGen2E4G :: FilePath -> Int -> Int -> Double -> Durations -> String -> IO ()
overSoXSynthNGen2E4G file m ku ampL v2 tts = do
n <- duration1000 file
nGen2E4Gi n file m ku ampL v2 tts
-- | Similar to 'overSoXSynthN2', but uses a sound file to obtain the information analogous to 'V.Vector' in the latter one. Besides, the function lifts
-- the frequencies to the octave with the given by 'Int' parameter number (better to use from the range [1..8]). The first 'Double' argument from
-- the range [0.01..1.0] is used as a maximum amplitude for Overtones. If it is set to 1.0 the overTones amplitudes are just maximum ones,
-- otherwise they are multiplied by the parameter and this results in their becoming more silent ones.
-- The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" and \"end.wav\" files in the current directory, because they can be overwritten.
--
-- For better usage the 'FilePath' should be a filepath for the .wav file.
-- The second 'String' argument is used to define signs of the harmonics coefficients in the generated sounds.
-- The third 'String' argument is used to define the intervals for the notes if any.
-- The third 'Double' parameter basically is used to define in how many times the volume for the second lower note is less than the volume of
-- the main note. If it is rather great, it can signal that the volume for the second note overTones are greater than for the main note obetones.
-- The last one is experimental feature.
overSoXSynthNGen3 :: FilePath -> Int -> Double -> Double -> Double -> String -> String -> String -> IO ()
overSoXSynthNGen3 file m = overSoXSynthNGen3E file m 12
-- | Similar to 'overSoXSynthNGen3', but uses additional second 'Int' parameter. It defines, to which n-th elements set (see 'nkyT') belongs the obtained
-- higher notes in the intervals. If that parameter equals to 12, then the function is practically equivalent to 'overSoXSynthNGen3'. To obtain
-- its modifications, please, use 2, 3, 4, 6, or 9.
overSoXSynthNGen3E :: FilePath -> Int -> Int -> Double -> Double -> Double -> String -> String -> String -> IO ()
overSoXSynthNGen3E file m ku ampL time3 dAmpl zs tts vs = do
n <- duration1000 file
nGen3E4Gi n file m ku ampL dAmpl (str2DurationsDef n zs time3) tts vs
-- | Variant of the 'overSoXSynthNGen3E4G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
overSoXSynthNGen3E4GS :: FilePath -> Int -> Int -> Double -> Double -> Double -> String -> String -> String -> IO ()
overSoXSynthNGen3E4GS file m ku ampL time3 dAmpl zs tts vs = do
n <- duration1000 file
nGen3E4Gi n file m ku ampL dAmpl (str2Durations zs time3) tts vs
nGen3E4Gi :: Int -> FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> String -> IO ()
nGen3E4Gi n file m ku ampL dAmpl v2 tts vs = do
vecA <- freqsFromFile file n
let vecB = liftInEnkuV m ku . V.map fromIntegral . V.filter (/= (11440::Int)) $ vecA
overSoXSynthN34G n ampL dAmpl v2 tts vs vecB
endFromResult
nGen3E5Gi :: Int -> FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> Intervals -> IO ()
nGen3E5Gi n file m ku ampL dAmpl v2 tts v3 = do
vecA <- freqsFromFile file n
let vecB = liftInEnkuV m ku . V.map fromIntegral . V.filter (/= (11440::Int)) $ vecA
overSoXSynthN35G n ampL dAmpl v2 tts v3 vecB
endFromResult
-- | 4G generalized function for 'overSoXSynthNGen3E' where you provide your own 'Durations'.
overSoXSynthNGen3E4G :: FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> String -> IO ()
overSoXSynthNGen3E4G file m ku ampL dAmpl v2 tts vs = do
n <- duration1000 file
nGen3E4Gi n file m ku ampL dAmpl v2 tts vs
-- | 5G generalized function for 'overSoXSynthNGen3E4G' where you provide your own 'Intervals'.
overSoXSynthNGen3E5G :: FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> Intervals -> IO ()
overSoXSynthNGen3E5G file m ku ampL dAmpl v2 tts v3 = do
n <- duration1000 file
nGen3E5Gi n file m ku ampL dAmpl v2 tts v3
-- | Variant of the 'overSoXSynthNGen3E5G' where 'Intervals' are obtained from the basic 'Intervals' with the length no more than 29 and a Ukrainian text
-- specified as the last 'String' argument so that you can produce 'Intervals' of the arbitrary length. For more information, please, refer to
-- 'intervalsFromStringG' and 'strToIntG'.
overSoXSynthNGen3E5GS :: FilePath -> Int -> Int -> Double -> Double -> Double -> String -> String -> Intervals -> String -> IO ()
overSoXSynthNGen3E5GS file m ku ampL time3 dAmpl zs tts v3 vs = do
n <- duration1000 file
nGen3E5Gi n file m ku ampL dAmpl (str2Durations zs time3) tts (intervalsFromStringG v3 vs)
-- | 6G generalized function for 'overSoXSynthNGen3E5G' where you provide your own 'Strengths'.
overSoXSynthNGen3E6G :: FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> Intervals -> Strengths -> Double -> IO ()
overSoXSynthNGen3E6G file m ku ampL dAmpl v2 tts v3 v6 limV =
overSoXSynthNGen3E5G file m ku ampL dAmpl v2 tts v3 >> apply6G2 v6 "221w" "result" limV >> endFromResult
-- | A variant of 'overSoXSynthNGen3E6G' where 'Strengths' are obtained from a Ukrainian text specified as the last 'String' argument.
overSoXSynthNGen3E6GS :: FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> Intervals -> String -> Double -> IO ()
overSoXSynthNGen3E6GS file m ku ampL dAmpl v2 tts v3 xxs limV = overSoXSynthNGen3E6G file m ku ampL dAmpl v2 tts v3 (str2Volume xxs) limV
-- | For the given frequency and a Ukrainian text it generates a musical sound with the timbre obtained from the Ukrainian text (see the
-- documentation for @mmsyn7s@ package). The timbre for another given text usually differs, but can be the same. The last one is only
-- if the uniqueness structure and length are the same for both 'String'. Otherwise, they differs. This gives an opportunity to practically
-- and quickly synthesize differently sounding intervals. The main component of the sound includes the lower pure quint, which can be in
-- the same octave or in the one with the number lower by one. Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" files in the current directory, because they can be overwritten.
uniqOverSoXSynth :: Double -> String -> IO ()
uniqOverSoXSynth x wws = do
let note0 = closestNote x
note1 = pureQuintNote note0
v0 = uniqOvertonesV note0 wws
v1 = uniqOvertonesV note1 wws
_ <- readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "test-.wav", "synth", "0.5","sine", showFFloat (Just 4) note0 "",
"synth", "0.5","sine", "mix", showFFloat (Just 4) note1 "", "vol","0.5"] ""
uniqOverSoXSynthHelp v0
uniqOverSoXSynthHelp2 v1
mixTest
uniqOverSoXSynthHelp1 :: String -> OvertonesO -> IO ()
uniqOverSoXSynthHelp1 xs = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", xs ++ show (i + 2) ++ ".wav", "synth", "0.5","sine", showFFloat (Just 4) noteN "", "vol", showFFloat (Just 4) amplN ""] "")
uniqOverSoXSynthHelp :: OvertonesO -> IO ()
uniqOverSoXSynthHelp = uniqOverSoXSynthHelp1 "test0"
uniqOverSoXSynthHelp2 :: OvertonesO -> IO ()
uniqOverSoXSynthHelp2 = uniqOverSoXSynthHelp1 "test1"
-- | For the given frequency and a Ukrainian text it generates a musical sound with the timbre obtained from the Ukrainian text (see the
-- documentation for @mmsyn7s@ package). The timbre for another given text usually differs, but can be the same. The last one is only
-- if the uniqueness structure and length are the same for both 'String'. Otherwise, they differs. This gives an opportunity to practically
-- and quickly synthesize differently sounding intervals. The main component of the sound includes the lower pure quint, which can be in
-- the same octave or in the one with the number lower by one. Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" files in the current directory, because they can be overwritten.
-- The second 'String' argument is used to define signs for the harmonics coefficients for Overtones.
uniqOverSoXSynth2 :: Double -> String -> String -> IO ()
uniqOverSoXSynth2 x wws tts = do
let note0 = closestNote x
note1 = pureQuintNote note0
v0 = uniqOvertonesV2 note0 wws tts
v1 = uniqOvertonesV2 note1 wws tts
_ <- readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "test-.wav", "synth", "0.5","sine", showFFloat (Just 4) note0 "", "synth",
"0.5","sine", "mix", showFFloat (Just 4) note1 "", "vol","0.5"] ""
uniqOverSoXSynthHelp v0
uniqOverSoXSynthHelp2 v1
mixTest
-- | Function to create a melody for the given arguments. The first 'String' is used to provide a rhythm. The second one -- to provide a timbre.
-- The timbre for another given text usually differs, but can be the same. This gives an opportunity to practically and quickly
-- synthesize differently sounding intervals. The first 'Double' argument from the range [0.01..1.0] is used as a maximum amplitude for Overtones.
-- If it is set to 1.0 the overTones amplitudes are just maximum ones, otherwise they are multiplied by the parameter and this results in
-- their becoming more silent ones. The main component of the sound is in the given octave with a number given
-- by 'Int' parameter. Besides, another main component of the sound includes the lower pure quint, which can be in the same octave or in the one with
-- the number lower by one. The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" files in the current directory, because they can be overwritten.
uniqOverSoXSynthN :: Int -> Double -> Double -> String -> String -> V.Vector Double -> IO ()
uniqOverSoXSynthN n ampL time3 zs = uniqOverSoXSynthN4G n ampL (str2DurationsDef n zs time3)
-- | Variant of the 'uniqOverSoXSynthN4G' function where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
uniqOverSoXSynthN4GS :: Int -> Double -> Double -> String -> String -> V.Vector Double -> IO ()
uniqOverSoXSynthN4GS n ampL time3 zs = uniqOverSoXSynthN4G n ampL (str2Durations zs time3)
-- | 4G generalized variant of the 'uniqOverSoXSynthN' where you specify your own 'Durations'.
uniqOverSoXSynthN4G :: Int -> Double -> Durations -> String -> V.Vector Double -> IO ()
uniqOverSoXSynthN4G n ampL v2 wws vec0
| compare (abs ampL) 0.01 /= LT && compare (abs ampL) 1.0 /= GT =
let m = V.length v2
zeroN = numVZeroesPre vec0 in V.imapM_ (\j x -> do
let note0 = closestNote x
note1 = pureQuintNote note0
v0 = uniqOvertonesV note0 wws
v1 = uniqOvertonesV note1 wws
uniqOverSoXSynthHelpN = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT
then showFFloat (Just 4) (amplN * ampL) "" else "0"] "")
uniqOverSoXSynthHelpN2 = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "testQ" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT
then showFFloat (Just 4) (amplN * ampL) "" else "0"] "")
soxSynthHelpMain note01 note02 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testA" ++
prependZeroes zeroN "1" ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note01 "", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", "mix", showFFloat (Just 4) note02 "", "vol",
if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then "0.5" else "0"] ""
soxSynthHelpMain note0 note1
uniqOverSoXSynthHelpN v0
uniqOverSoXSynthHelpN2 v1
mixTest2 zeroN j) vec0
| otherwise = let ampL1 = ampL - (fromIntegral . truncate $ ampL) in
if abs ampL1 < 0.01 then uniqOverSoXSynthN4G n 0.01 v2 wws vec0
else uniqOverSoXSynthN4G n ampL1 v2 wws vec0
-- | Function to create a melody for the given arguments. The first 'String' is used to provide a rhythm. The second one -- to provide a timbre.
-- The timbre for another given text usually differs, but can be the same. This gives an opportunity to practically and quickly
-- synthesize differently sounding intervals. The first 'Double' argument from the range [0.01..1.0] is used as a maximum amplitude for Overtones.
-- If it is set to 1.0 the overTones amplitudes are just maximum ones, otherwise they are multiplied by the parameter and this results in
-- their becoming more silent ones. The main component of the sound is in the given octave with a number given
-- by 'Int' parameter. Besides, another main component of the sound includes the lower pure quint, which can be in the same octave or in the one with
-- the number lower by one. The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" files in the current directory, because they can be overwritten.
-- The third 'String' argument is used to define signs of the harmonics coefficients in the generated sounds.
uniqOverSoXSynthN3 :: Int -> Double -> Double -> String -> String -> String -> V.Vector Double -> IO ()
uniqOverSoXSynthN3 n ampL time3 zs = uniqOverSoXSynthN34G n ampL (str2DurationsDef n zs time3)
-- | Variant of the 'uniqOverSoXSynthN34G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
uniqOverSoXSynthN34GS :: Int -> Double -> Double -> String -> String -> String -> V.Vector Double -> IO ()
uniqOverSoXSynthN34GS n ampL time3 zs = uniqOverSoXSynthN34G n ampL (str2Durations zs time3)
-- | 4G generalized variant of the 'uniqOverSoXSynthN3' where you specify your own 'Durations'.
uniqOverSoXSynthN34G :: Int -> Double -> Durations -> String -> String -> V.Vector Double -> IO ()
uniqOverSoXSynthN34G n ampL v2 wws tts vec0
| compare (abs ampL) 0.01 /= LT && compare (abs ampL) 1.0 /= GT =
let m = V.length v2
zeroN = numVZeroesPre vec0 in V.imapM_ (\j x -> do
let note0 = closestNote x -- zs ? vec0 -- are they related to the one object? No, they are obtained from different sources.
note1 = pureQuintNote note0
v0 = uniqOvertonesV2 note0 wws tts
v1 = uniqOvertonesV2 note1 wws tts
uniqOverSoXSynthHelpN vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (amplN * ampL) "" else "0"] "") vec
uniqOverSoXSynthHelpN2 vec = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "testQ" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (amplN * ampL) "" else "0"] "") vec
soxSynthHelpMain note01 note02 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testA" ++
prependZeroes zeroN "1" ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note01 "",
"synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", "mix", showFFloat (Just 4) note02 "", "vol",
if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then "0.5" else "0"] ""
soxSynthHelpMain note0 note1
uniqOverSoXSynthHelpN v0
uniqOverSoXSynthHelpN2 v1
mixTest2 zeroN j) vec0
| otherwise = let ampL1 = ampL - (fromIntegral . truncate $ ampL) in
if abs ampL1 < 0.01 then uniqOverSoXSynthN34G n 0.01 v2 wws tts vec0
else uniqOverSoXSynthN34G n ampL1 v2 wws tts vec0
-- | Function to create a melody for the given arguments. The first 'String' is used to provide a rhythm. The second one -- to provide a timbre.
-- The timbre for another given text usually differs, but can be the same. This gives an opportunity to practically and quickly
-- synthesize differently sounding intervals. The first 'Double' argument from the range [0.01..1.0] is used as a maximum amplitude for Overtones.
-- If it is set to 1.0 the overTones amplitudes are just maximum ones, otherwise they are multiplied by the parameter and this results in
-- their becoming more silent ones. The main component of the sound is in the given octave with a number given
-- by 'Int' parameter. Besides, another main component of the sound includes the lower pure quint, which can be in the same octave or in the one with
-- the number lower by one. The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" files in the current directory, because they can be overwritten.
-- The third 'String' argument is used to define signs of the harmonics coefficients in the generated sounds.
-- The fourth 'String' argument is used to define the intervals for the notes if any.
-- The third 'Double' parameter basically is used to define in how many times the volume for the second lower note is less than the volume of
-- the main note. If it is rather great, it can signal that the volume for the second note overTones are greater than for the main note obetones.
-- The last one is experimental feature.
uniqOverSoXSynthN4 :: Int -> Double -> Double -> Double -> String -> String -> String -> String -> V.Vector Double -> IO ()
uniqOverSoXSynthN4 n ampL time3 dAmpl zs = uniqOverSoXSynthN44G n ampL dAmpl (str2DurationsDef n zs time3)
-- | Variant of the 'uniqOverSoXSynthN44G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
uniqOverSoXSynthN44GS :: Int -> Double -> Double -> Double -> String -> String -> String -> String -> V.Vector Double -> IO ()
uniqOverSoXSynthN44GS n ampL time3 dAmpl zs = uniqOverSoXSynthN44G n ampL dAmpl (str2Durations zs time3)
-- | 4G generalized variant of the 'uniqOverSoXSynthN4' where you specify your own 'Durations'.
uniqOverSoXSynthN44G :: Int -> Double -> Double -> Durations -> String -> String -> String -> V.Vector Double -> IO ()
uniqOverSoXSynthN44G n ampL dAmpl v2 wws tts vs = uniqOverSoXSynthN45G n ampL dAmpl v2 wws tts (intervalsFromString vs)
-- | 5G generalized variant of the 'uniqOverSoXSynthN44G' where you specify your own 'Intervals'.
uniqOverSoXSynthN45G :: Int -> Double -> Double -> Durations -> String -> String -> Intervals -> V.Vector Double -> IO ()
uniqOverSoXSynthN45G n ampL dAmpl v2 wws tts v3 vec0
| compare (abs ampL) 0.01 /= LT && compare (abs ampL) 1.0 /= GT =
let m = V.length v2
zeroN = numVZeroesPre vec0
l = V.length v3 in V.imapM_ (\j x -> do
let note0 = closestNote x
note1 = dNote (V.unsafeIndex v3 (j `rem` l)) note0
v0 = uniqOvertonesV2 note0 wws tts
v1 = if isNothing note1 then V.empty
else uniqOvertonesV2 (fromJust note1) wws tts
uniqOverSoXSynthHelpN = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine",showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (amplN * ampL) "" else "0"] "")
uniqOverSoXSynthHelpN2 = V.imapM_ (\i (noteN, amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "testQ" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (if dAmpl * amplN * ampL > 1.0 then 1.0
else dAmpl * amplN * ampL) "" else "0"] "")
soxSynthHelpMain0 note01 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testA" ++
prependZeroes zeroN "1" ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note01 "",
"vol",if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then "0.5" else "0"] ""
soxSynthHelpMain1 note02 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testB" ++
prependZeroes zeroN "1" ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note02 "",
"vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (if dAmpl > 0.5 then 0.5 else dAmpl / 2) "" else "0"] ""
if isNothing note1 then do { soxSynthHelpMain0 note0
; uniqOverSoXSynthHelpN v0 }
else do { soxSynthHelpMain0 note0
; soxSynthHelpMain1 (fromJust note1)
; uniqOverSoXSynthHelpN v0
; uniqOverSoXSynthHelpN2 v1}
mixTest2 zeroN j) vec0
| otherwise = let ampL1 = ampL - (fromIntegral . truncate $ ampL) in
if abs ampL1 < 0.01 then uniqOverSoXSynthN45G n 0.01 dAmpl v2 wws tts v3 vec0
else uniqOverSoXSynthN45G n ampL1 dAmpl v2 wws tts v3 vec0
-- | 6G generalized variant of the 'uniqOverSoXSynthN45G' where you specify your own 'Strengths' and a limit (as the last 'Double') when less volume level
-- sound files are treated as a silent ones and are not adjusted.
uniqOverSoXSynthN46G :: Int -> Double -> Double -> Durations -> String -> String -> Intervals -> V.Vector Double -> Strengths -> Double -> IO ()
uniqOverSoXSynthN46G n ampL dAmpl v2 wws tts v3 vec0 v6 limV
| V.null v6 = putStrLn "You did not provide a volume adjustments vector! "
| compare (abs ampL) 0.01 /= LT && compare (abs ampL) 1.0 /= GT =
let m = V.length v2
zeroN = numVZeroesPre vec0
l = V.length v3 in V.imapM_ (\j x -> do
let note0 = closestNote x
note1 = dNote (V.unsafeIndex v3 (j `rem` l)) note0
v0 = uniqOvertonesV2 note0 wws tts
v1 = if isNothing note1 then V.empty
else uniqOvertonesV2 (fromJust note1) wws tts
uniqOverSoXSynthHelpN = V.imapM_ (\i (noteN, !amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "test" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine",showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (amplN * ampL) "" else "0"] "")
uniqOverSoXSynthHelpN2 = V.imapM_ (\i (noteN, amplN) -> readProcessWithExitCode (fromJust (showE "sox"))
["-r22050", "-n", "testQ" ++ prependZeroes zeroN (show (i + 2)) ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "",
"sine", showFFloat (Just 4) noteN "", "vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (if dAmpl * amplN * ampL > 1.0 then 1.0
else dAmpl * amplN * ampL) "" else "0"] "")
soxSynthHelpMain0 note01 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testA" ++
prependZeroes zeroN "1" ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note01 "",
"vol",if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then "0.5" else "0"] ""
soxSynthHelpMain1 note02 = readProcessWithExitCode (fromJust (showE "sox")) ["-r22050", "-n", "testB" ++
prependZeroes zeroN "1" ++ ".wav", "synth", showFFloat (Just 4) (V.unsafeIndex v2 (j `rem` m)) "","sine", showFFloat (Just 4) note02 "",
"vol", if compare (V.unsafeIndex v2 (j `rem` m)) 0.0 == GT then showFFloat (Just 4) (if dAmpl > 0.5 then 0.5 else dAmpl / 2) "" else "0"] ""
if isNothing note1 then do { soxSynthHelpMain0 note0
; uniqOverSoXSynthHelpN v0 }
else do { soxSynthHelpMain0 note0
; soxSynthHelpMain1 (fromJust note1)
; uniqOverSoXSynthHelpN v0
; uniqOverSoXSynthHelpN2 v1}
mixTest2 zeroN j
apply6GSilentFile ("result" ++ prependZeroes zeroN (show j) ++ ".wav") limV (V.unsafeIndex v6 (j `rem` V.length v6))) vec0
| otherwise = let ampL1 = ampL - (fromIntegral . truncate $ ampL) in
if abs ampL1 < 0.01 then uniqOverSoXSynthN46G n 0.01 dAmpl v2 wws tts v3 vec0 v6 limV
else uniqOverSoXSynthN46G n ampL1 dAmpl v2 wws tts v3 vec0 v6 limV
-- | Variant of the 'uniqOverSoXSynthN45G' where 'Intervals' are obtained from the 'String' using 'intervalsFromStringG' function. Helps to create a speech-like
-- composition.
uniqOverSoXSynthN45GS :: Int -> Double -> Double -> Double -> String -> String -> String -> Intervals -> String -> V.Vector Double -> IO ()
uniqOverSoXSynthN45GS n ampL time3 dAmpl zs wws tts v3 vs = uniqOverSoXSynthN45G n ampL dAmpl (str2Durations zs time3) wws tts (intervalsFromStringG v3 vs)
-- | Variant of the 'uniqOverSoXSynthN46G' where 'Strengths' are obtained from the 'String' using 'str2Volume' function. Helps to create a speech-like
-- composition.
uniqOverSoXSynthN46GS :: Int -> Double -> Double -> Double -> String -> String -> String -> Intervals -> String -> V.Vector Double -> String ->
Double -> IO ()
uniqOverSoXSynthN46GS n ampL time3 dAmpl zs wws tts v3 vs vec0 xxs limV =
uniqOverSoXSynthN46G n ampL dAmpl (str2Durations zs time3) wws tts (intervalsFromStringG v3 vs) vec0 (str2Volume xxs) limV
-- | Similar to 'uniqOverSoXSynthN', but uses a sound file to obtain the information analogous to 'V.Vector' in the latter one.
-- Besides, the function lifts the frequencies to the octave with the given by 'Int' parameter number (better to use from the range [1..8]).
-- The first 'Double' argument from the range [0.01..1.0] is used as a maximum amplitude for Overtones. If it is set to 1.0 the
-- overTones amplitudes are just the maximum ones, otherwise they are multiplied by the parameter and this results in their becoming more silent ones.
-- The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" and \"end.wav\" files in the current directory, because they can be overwritten.
--
-- For better usage the 'FilePath' should be a filepath for the .wav file.
uniqOverSoXSynthNGen :: FilePath -> Int -> Double -> Double -> String -> String -> IO ()
uniqOverSoXSynthNGen file m = uniqOverSoXSynthNGenE file m 12
-- | Similar to 'uniqOverSoXSynthNGen', but uses additional second 'Int' parameter. It defines, to which n-th elements set (see 'nkyT') belongs the obtained
-- higher notes in the intervals. If that parameter equals to 12, then the function is practically equivalent to 'uniqOverSoXSynthNGen'. To obtain
-- its modifications, please, use 2, 3, 4, 6, or 9.
uniqOverSoXSynthNGenE :: FilePath -> Int -> Int -> Double -> Double -> String -> String -> IO ()
uniqOverSoXSynthNGenE file m ku ampL time3 zs wws = do
n <- duration1000 file
unGenNE4Gi n file m ku ampL (str2DurationsDef n zs time3) wws
-- | Variant of the 'uniqOverSoXSynthNGenE4G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
uniqOverSoXSynthNGenE4GS :: FilePath -> Int -> Int -> Double -> Double -> String -> String -> IO ()
uniqOverSoXSynthNGenE4GS file m ku ampL time3 zs wws = do
n <- duration1000 file
unGenNE4Gi n file m ku ampL (str2Durations zs time3) wws
unGenNE4Gi :: Int -> FilePath -> Int -> Int -> Double -> Durations -> String -> IO ()
unGenNE4Gi n file m ku ampL v2 wws = do
vecA <- freqsFromFile file n
let vecB = liftInEnkuV m ku . V.map fromIntegral . V.filter (/= (11440::Int)) $ vecA
uniqOverSoXSynthN4G n ampL v2 wws vecB
endFromResult
-- | 4G genaralized version of the 'uniqOverSoXSynthNGenE' where you provide your own 'Durations'.
uniqOverSoXSynthNGenE4G :: FilePath -> Int -> Int -> Double -> Durations -> String -> IO ()
uniqOverSoXSynthNGenE4G file m ku ampL v2 wws = do
n <- duration1000 file
unGenNE4Gi n file m ku ampL v2 wws
-- | Similar to 'uniqOverSoXSynthN', but uses a sound file to obtain the information analogous to 'V.Vector' in the latter one.
-- Besides, the function lifts the frequencies to the octave with the given by 'Int' parameter number (better to use from the range [1..8]).
-- The first 'Double' argument from the range [0.01..1.0] is used as a maximum amplitude for Overtones. If it is set to 1.0 the
-- overTones amplitudes are just the maximum ones, otherwise they are multiplied by the parameter and this results in their becoming more silent ones.
-- The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" and \"end.wav\" files in the current directory, because they can be overwritten.
--
-- For better usage the 'FilePath' should be a filepath for the .wav file.
-- The third 'String' argument is used to define signs of the harmonics coefficients in the generated sounds.
uniqOverSoXSynthNGen3 :: FilePath -> Int -> Double -> Double -> String -> String -> String -> IO ()
uniqOverSoXSynthNGen3 file m = uniqOverSoXSynthNGen3E file m 12
-- | Similar to 'uniqOverSoXSynthNGen3', but uses additional second 'Int' parameter. It defines, to which n-th elements set (see 'nkyT') belongs the obtained
-- higher notes in the intervals. If that parameter equals to 12, then the function is practically equivalent to 'uniqOverSoXSynthNGen3'. To obtain
-- its modifications, please, use 2, 3, 4, 6, or 9.
uniqOverSoXSynthNGen3E :: FilePath -> Int -> Int -> Double -> Double -> String -> String -> String -> IO ()
uniqOverSoXSynthNGen3E file m ku ampL time3 zs wws tts = do
n <- duration1000 file
unGenN3E4Gi n file m ku ampL (str2DurationsDef n zs time3) wws tts
-- | Variant of the 'uniqOverSoXSynthNGen3E4G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
uniqOverSoXSynthNGen3E4GS :: FilePath -> Int -> Int -> Double -> Double -> String -> String -> String -> IO ()
uniqOverSoXSynthNGen3E4GS file m ku ampL time3 zs wws tts = do
n <- duration1000 file
unGenN3E4Gi n file m ku ampL (str2Durations zs time3) wws tts
unGenN3E4Gi :: Int -> FilePath -> Int -> Int -> Double -> Durations -> String -> String -> IO ()
unGenN3E4Gi n file m ku ampL v2 wws tts = do
vecA <- freqsFromFile file n
let vecB = liftInEnkuV m ku . V.map fromIntegral . V.filter (/= (11440::Int)) $ vecA
uniqOverSoXSynthN34G n ampL v2 wws tts vecB
endFromResult
-- | 4G genaralized version of the 'uniqOverSoXSynthNGen3E' where you provide your own 'Durations'.
uniqOverSoXSynthNGen3E4G :: FilePath -> Int -> Int -> Double -> Durations -> String -> String -> IO ()
uniqOverSoXSynthNGen3E4G file m ku ampL v2 wws tts = do
n <- duration1000 file
unGenN3E4Gi n file m ku ampL v2 wws tts
-- | Similar to 'uniqOverSoXSynthN', but uses a sound file to obtain the information analogous to 'V.Vector' in the latter one.
-- Besides, the function lifts the frequencies to the octave with the given by 'Int' parameter number (better to use from the range [1..8]).
-- The first 'Double' argument from the range [0.01..1.0] is used as a maximum amplitude for Overtones. If it is set to 1.0 the
-- overTones amplitudes are just the maximum ones, otherwise they are multiplied by the parameter and this results in their becoming more silent ones.
-- The second 'Double' argument is a basic sound duration. The default one is 0.5 (second). Please, check before executing
-- whether there is no \"x.wav\", \"test*\", \"result*\" and \"end.wav\" files in the current directory, because they can be overwritten.
--
-- For better usage the 'FilePath' should be a filepath for the .wav file.
-- The third 'String' argument is used to define signs of the harmonics coefficients in the generated sounds.
-- The fourth 'String' argument is used to define the intervals for the notes if any.
-- The third 'Double' parameter basically is used to define in how many times the volume for the second lower note is less than the volume of
-- the main note. If it is rather great, it can signal that the volume for the second note overTones are greater than for the main note obetones.
-- The last one is an experimental feature.
uniqOverSoXSynthNGen4 :: FilePath -> Int -> Double -> Double -> Double -> String -> String -> String -> String -> IO ()
uniqOverSoXSynthNGen4 file m = uniqOverSoXSynthNGen4E file m 12
-- | Similar to 'uniqOverSoXSynthNGen4', but uses additional second 'Int' parameter. It defines, to which n-th elements set (see 'nkyT') belongs the obtained
-- higher notes in the intervals. If that parameter equals to 12, then the function is practically equivalent to 'uniqOverSoXSynthNGen4'. To obtain
-- its modifications, please, use 2, 3, 4, 6, or 9.
uniqOverSoXSynthNGen4E :: FilePath -> Int -> Int -> Double -> Double -> Double -> String -> String -> String -> String -> IO ()
uniqOverSoXSynthNGen4E file m ku ampL time3 dAmpl zs wws tts vs = do
n <- duration1000 file
unGenN4E4Gi n file m ku ampL dAmpl (str2DurationsDef n zs time3) wws tts vs
-- | Variant of the 'uniqOverSoXSynthNGen4E4G' where 'Durations' are obtained from the 'String' using 'str2Durations' function. Helps to create a speech-like
-- composition.
uniqOverSoXSynthNGen4E4GS :: FilePath -> Int -> Int -> Double -> Double -> Double -> String -> String -> String -> String -> IO ()
uniqOverSoXSynthNGen4E4GS file m ku ampL time3 dAmpl zs wws tts vs = do
n <- duration1000 file
unGenN4E4Gi n file m ku ampL dAmpl (str2Durations zs time3) wws tts vs
unGenN4E4Gi :: Int -> FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> String -> String -> IO ()
unGenN4E4Gi n file m ku ampL dAmpl v2 wws tts vs = do
vecA <- freqsFromFile file n
let vecB = liftInEnkuV m ku . V.map fromIntegral . V.filter (/= (11440::Int)) $ vecA
uniqOverSoXSynthN44G n ampL dAmpl v2 wws tts vs vecB
endFromResult
unGenN4E5Gi :: Int -> FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> String -> Intervals -> IO ()
unGenN4E5Gi n file m ku ampL dAmpl v2 wws tts v3 = do
vecA <- freqsFromFile file n
let vecB = liftInEnkuV m ku . V.map fromIntegral . V.filter (/= (11440::Int)) $ vecA
uniqOverSoXSynthN45G n ampL dAmpl v2 wws tts v3 vecB
endFromResult
-- | 4G genaralized version of the 'uniqOverSoXSynthNGen4E' where you provide your own 'Durations'.
uniqOverSoXSynthNGen4E4G :: FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> String -> String -> IO ()
uniqOverSoXSynthNGen4E4G file m ku ampL dAmpl v2 wws tts vs = do
n <- duration1000 file
unGenN4E4Gi n file m ku ampL dAmpl v2 wws tts vs
-- | 5G genaralized version of the 'uniqOverSoXSynthNGen4E' where you provide your own 'Durations' and 'Intervals'.
uniqOverSoXSynthNGen4E5G :: FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> String -> Intervals -> IO ()
uniqOverSoXSynthNGen4E5G file m ku ampL dAmpl v2 wws tts v3 = do
n <- duration1000 file
unGenN4E5Gi n file m ku ampL dAmpl v2 wws tts v3
-- | Variant of the 'uniqOverSoXSynthNGen4E5G' where 'Intervals' are obtained from the 'String' using 'intervalsFromStringG' function. Helps to create a speech-like
-- composition.
uniqOverSoXSynthNGen4E5GS :: FilePath -> Int -> Int -> Double -> Double -> Double -> String -> String -> String -> Intervals -> String -> IO ()
uniqOverSoXSynthNGen4E5GS file m ku ampL time3 dAmpl zs wws tts v3 vs = do
n <- duration1000 file
unGenN4E5Gi n file m ku ampL dAmpl (str2Durations zs time3) wws tts (intervalsFromStringG v3 vs)
-- | 6G generalized function for 'uniqOverSoXSynthNGen3E5G' where you provide your own 'Strengths'.
uniqOverSoXSynthNGen4E6G :: FilePath -> Int -> Int -> Double -> Double -> Durations -> String -> String -> Intervals -> Strengths -> Double -> IO ()
uniqOverSoXSynthNGen4E6G file m ku ampL dAmpl v2 wws tts v3 v6 limV =
uniqOverSoXSynthNGen4E5G file m ku ampL dAmpl v2 wws tts v3 >> apply6G2 v6 "221w" "result" limV >> endFromResult
-- | A variant of 'uniqOverSoXSynthNGen3E6G' where 'Strengths' are obtained from a Ukrainian text specified as the last 'String' argument.
uniqOverSoXSynthNGen4E6GS :: FilePath -> Int -> Int -> Double -> Double -> Double -> String -> String -> String -> Intervals -> String ->
String -> Double -> IO ()
uniqOverSoXSynthNGen4E6GS file m ku ampL time3 dAmpl zs wws tts v5 vs xxs limV =
uniqOverSoXSynthNGen4E6G file m ku ampL dAmpl (str2Durations zs time3) wws tts (intervalsFromStringG v5 vs) (str2Volume xxs) limV