Safe Haskell | Safe |
---|---|
Language | Haskell2010 |
Channel messages
- data T = Cons {}
- data Body
- get :: C parser => Int -> Channel -> Int -> Fragile parser T
- getWithStatus :: C parser => Int -> Fragile (T parser) T
- put :: C writer => T -> writer
- putWithStatus :: (Compression compress, C writer) => T -> T compress writer
- data Channel
- fromChannel :: Channel -> Int
- toChannel :: Int -> Channel
- data Pitch
- fromPitch :: Pitch -> Int
- toPitch :: Int -> Pitch
- data Velocity
- fromVelocity :: Velocity -> Int
- toVelocity :: Int -> Velocity
- data Program
- fromProgram :: Program -> Int
- toProgram :: Int -> Program
- data Controller
- fromController :: Controller -> Int
- toController :: Int -> Controller
- decodeStatus :: Int -> (Int, Channel)
Documentation
Cons | |
|
get :: C parser => Int -> Channel -> Int -> Fragile parser T Source
Parse a MIDI Channel message. Note that since getting the first byte is a little complex (there are issues with running status), the code, channel and first data byte must be determined by the caller.
getWithStatus :: C parser => Int -> Fragile (T parser) T Source
Parse an event.
Note that in the case of a regular MIDI Event, the tag is the status,
and we read the first byte of data before we call get
.
In the case of a MIDIEvent with running status,
we find out the status from the parser
(it's been nice enough to keep track of it for us),
and the tag that we've already gotten is the first byte of data.
putWithStatus :: (Compression compress, C writer) => T -> T compress writer Source
This definition should be in Message.Channel, but this results in a cyclic import.
fromChannel :: Channel -> Int Source
Bounded Velocity Source | ToDo: We have defined minBound = Velocity 0, but strictly spoken the minimum Velocity is 1, since Velocity zero means NoteOff. One can at least think of NoteOff with (Velocity 0), but I have never seen that. |
Eq Velocity Source | |
Ord Velocity Source | |
Show Velocity Source | |
Arbitrary Velocity Source | |
Random Velocity Source |
fromVelocity :: Velocity -> Int Source
toVelocity :: Int -> Velocity Source
fromProgram :: Program -> Int Source
data Controller Source
We do not define Controller
as enumeration with many constructors,
because some controllers have multiple names and some are undefined.
It is also more efficient this way.
Thus you cannot use case
for processing controller types,
but you can use lookup
instead.
maybe (putStrLn "unsupported controller") putStrLn $ lookup ctrl $ (portamento, "portamento") : (modulation, "modulation") : []
fromController :: Controller -> Int Source
toController :: Int -> Controller Source
decodeStatus :: Int -> (Int, Channel) Source
for internal use