module Main exposing (main) import Browser import Html exposing (..) import Html.Attributes exposing (..) import Html.Events exposing (..) import Piano {-| Notes are the individuals sounds that we use to create music. Think: "do re mi fa so la ti do". Note: Technically a "C-sharp" is also a "D-flat", but I will model accidentals (i.e. sharps and flats) as sharps and represent the ambiguity when I render the underlying state of the application. Note: There are "notes" like A, B, D-flat, and then there are notes like "middle C", also denoted in scientific pitch notation as C4. I'm unsure of what to call each of these, and my application does not model scientific pitch notation yet, so these non-scientific pitch denote values are "notes" for now. -} type Note = C | C_sharp | D | D_sharp | E | F | F_sharp | G | G_sharp | A | A_sharp | B {-| We create "scales" by enumerating the notes of a given key. These keys are defined by the "tonic" note and the "mode". I thought about including Ionian, Dorian, Phrygian, etc., but in the I would like to avoid over-abstracting this early on, so I'm going to err on the side of overly concrete until I have a better idea of the extent of this project. -} type Mode = BluesMode | MajorMode | MinorMode {-| One can measure the difference between between notes using intervals. -} type Interval = Half | Whole | MajorThird | MinorThird {-| Songs are written in one or more keys, which define the notes and therefore chords that harmonize with one another. -} type Key = Key (Note, Mode) {-| A bundle of notes which are usually, but not necessarily harmonious. -} type Chord = Chord (Note, ChordType, ChordPosition) {-| On a piano, a triad can be played three ways. As a rule-of-thumb, The number of ways a pianist can play a chord is equal to the number of notes in the chord itself. -} type ChordPosition = First | Second | Third | Fourth {-| Many possible chords exist. This type encodes the possibilities. I am tempted to model these in a more "DRY" way, but I worry that this abstraction may cause more problems than it solves. -} type ChordType = Major | Major7 | MajorDominant7 | Minor | Minor7 | MinorDominant7 | Augmented | Augmented7 | Diminished | Diminished7 {-| Encode whether you are traversing "up" or "down" intervals -} type StepDirection = Up | Down {-| Return a list of steps to take away from the root note to return back to the root note for a given mode. -} intervalsForMode : Mode -> List Interval intervalsForMode mode = case mode of MajorMode -> [Whole, Whole, Half, Whole, Whole, Whole, Half] MinorMode -> [Whole, Half, Whole, Whole, Half, Whole, Whole] BluesMode -> [MinorThird, Whole, Half, Half, MinorThird] {-| Return a list of the intervals the comprise a chord -} intervalsForChordType : ChordType -> List Interval intervalsForChordType chordType = case chordType of Major -> [MajorThird, MinorThird] Major7 -> [MajorThird, MinorThird, MajorThird] MajorDominant7 -> [MajorThird, MinorThird, MajorThird, MinorThird] Minor -> [MinorThird, MajorThird] Minor7 -> [MinorThird, MajorThird, MajorThird] MinorDominant7 -> [MinorThird, MajorThird, MajorThird, MinorThird] Augmented -> [MajorThird, MajorThird] Augmented7 -> [MajorThird, MajorThird, Whole] Diminished -> [MinorThird, MinorThird] Diminished7 -> [MinorThird, MinorThird, MinorThird] {-| Return the note in the direction, `dir`, away from `note` `s` intervals -} step : StepDirection -> Interval -> Note -> Note step dir s note = let doHalfStep = halfStep dir in case s of Half -> doHalfStep note Whole -> doHalfStep note |> doHalfStep MinorThird -> doHalfStep note |> doHalfStep |> doHalfStep MajorThird -> doHalfStep note |> doHalfStep |> doHalfStep |> doHalfStep {-| Return the note that is one half step away from `note` in the direction, `dir`. -} halfStep : StepDirection -> Note -> Note halfStep dir note = case (dir, note) of -- C (Up, C) -> C_sharp (Down, C) -> B -- C# (Up, C_sharp) -> D (Down, C_sharp) -> C -- D (Up, D) -> D_sharp (Down, D) -> C_sharp -- D_sharp (Up, D_sharp) -> E (Down, D_sharp) -> D -- E (Up, E) -> F (Down, E) -> D_sharp -- F (Up, F) -> F_sharp (Down, F) -> E -- F# (Up, F_sharp) -> G (Down, F_sharp) -> F -- G (Up, G) -> G_sharp (Down, G) -> F_sharp -- G# (Up, G_sharp) -> A (Down, G_sharp) -> A -- A (Up, A) -> A_sharp (Down, A) -> G_sharp -- A# (Up, A_sharp) -> B (Down, A_sharp) -> A -- B (Up, B) -> C (Down, B) -> A_sharp {-| Returns a list of all of the notes up from a give `note` -} applySteps : List Interval -> Note -> List Note applySteps steps note = case List.foldl (\s (prev, result) -> ((step Up s prev), (step Up s prev :: result))) (note, []) steps of (_, result) -> List.reverse result {-| Return the scale for a given `key` -} notesForKey : Key -> List Note notesForKey key = case key of Key (note, mode) -> applySteps (intervalsForKeyMode mode) note {-| Return a list of the notes that comprise a `chord` -} notesForChord : Chord -> List Note notesForChord chord = case chord of -- TODO(wpcarro): Use the Position to rotate the chord n times Chord (note, chordType, _) -> applySteps (intervalsForChordType chordType) note {-| Serialize a human-readable format of `note` -} viewNote : Note -> String viewNote note = case note of C -> "C" C_sharp -> "C♯/D♭" D -> "D" D_sharp -> "D♯/E♭" E -> "E" F -> "F" F_sharp -> "F♯/G♭" G -> "G" G_sharp -> "G♯/A♭" A -> "A" A_sharp -> "A♯/B♭" B -> "B" {-| For now, I'm just dumping things onto the page to sketch ideas. -} main = let key = Key (D, MinorMode) chord = Chord (D, Major, First) in div [] [ ul [] (notesForKey key |> List.map (\n -> li [] [ text (viewNote n) ])) , ul [] (notesForChord chord |> List.map (\n -> li [] [ text (viewNote n) ])) , Piano.render ]