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(* Copyright (c) 2016-2017 David Kaloper Meršinjak. All rights reserved.
   See https://github.com/pqwy/notty/blob/master/LICENSE.md *)

open Notty
open Notty.Infix

let pow n e = int_of_float (float n ** float e)

module List = struct
  include List

  let rec replicate n a = if n < 1 then [] else a :: replicate (n - 1) a
  let rec range a b = if a > b then [] else a :: range (a + 1) b

  let rec intersperse a = function
    | ([] | [ _ ]) as t -> t
    | x :: xs -> x :: a :: intersperse a xs


  let rec take n = function
    | x :: xs when n > 0 -> x :: take (pred n) xs
    | _ -> []


  let rec splitat n = function
    | x :: xs when n > 0 ->
      let a, b = splitat (pred n) xs in
      x :: a, b
    | xs -> [], xs


  let rec chunks n xs =
    match splitat n xs with
    | a, [] -> [ a ]
    | a, b -> a :: chunks n b


  let rec zip xs ys =
    match xs, ys with
    | [], _ | _, [] -> []
    | x :: xs, y :: ys -> (x, y) :: zip xs ys
end

module String = struct
  include String

  let repeat n str =
    let b = Buffer.create 16 in
    for _ = 1 to n do
      Buffer.add_string b str
    done;
    Buffer.contents b
end

let tile w h i = I.tabulate w h (fun _ _ -> i)

(** A few images used in several places. *)
module Images = struct
  let i1 =
    I.(string A.(fg lightblack) "omgbbq" <-> string A.(fg white ++ bg red) "@")
    <|> I.(pad ~t:2 @@ string A.(fg green) "xo")


  let i2 = I.(hpad 1 1 (hcrop 1 1 @@ tile 3 3 i1) <|> i1)
  let i3 = tile 5 5 i2

  let i4 =
    let i = I.(i3 <|> crop ~t:1 i3 <|> i3) in
    I.(crop ~l:1 i <-> crop ~r:1 i <-> crop ~b:2 i)


  let i5 = tile 5 1 List.(range 0 15 |> map (fun i -> I.pad ~t:i ~l:(i * 2) i2) |> I.zcat)
  let c_gray_ramp = I.tabulate 24 1 (fun g _ -> I.string A.(bg (gray g)) " ")

  let c_cube_ix =
    I.tabulate 6 1
    @@ fun r _ ->
    I.hpad 0 1 @@ I.tabulate 6 6 @@ fun b g -> I.string A.(bg (rgb ~r ~g ~b)) " "


  let c_cube_rgb =
    let f x = [| 0x00; 0x5f; 0x87; 0xaf; 0xd7; 0xff |].(x) in
    I.tabulate 6 1
    @@ fun r _ ->
    I.hpad 0 1
    @@ I.tabulate 6 6
    @@ fun b g -> I.string A.(bg (rgb_888 ~r:(f r) ~g:(f g) ~b:(f b))) " "


  let c_rainbow w h =
    let pi2 = 2. *. 3.14159 in
    let pi2_3 = pi2 /. 3.
    and f t off = (sin (t +. off) *. 128.) +. 128. |> truncate in
    let color t = A.rgb_888 ~r:(f t (-.pi2_3)) ~g:(f t 0.) ~b:(f t pi2_3) in
    I.tabulate (w - 1) 1
    @@ fun x _ ->
    let t = (pi2 *. float x /. float w) +. 3.7 in
    I.char A.(bg (color t)) ' ' 1 h


  (* U+25CF BLACK CIRCLE *)
  let dot color = I.string (A.fg color) "●"

  (* U+25AA BLACK SMALL SQUARE *)
  let square color = I.string (A.fg color) "▪"

  let rec cantor = function
    | 0 -> square A.lightblue
    | n ->
      let sub = cantor (pred n) in
      I.hcat (List.replicate (pow 3 n) (square A.lightblue))
      <-> (sub <|> I.void (pow 3 (n - 1)) 0 <|> sub)


  let checker n m i =
    let w = I.width i in
    I.(tile (n / 2) (m / 2) (hpad 0 w i <-> hpad w 0 i))


  let checker1 = checker 20 20 I.(char A.(bg magenta) ' ' 2 1)

  let rec sierp c n =
    I.(
      if n > 1
      then (
        let ss = sierp c (pred n) in
        ss <-> (ss <|> ss))
      else hpad 1 0 (square c))


  let grid xxs = xxs |> List.map I.hcat |> I.vcat

  let outline attr i =
    let w, h = I.(width i, height i) in
    let chr x = I.uchar attr (Uchar.of_int x) 1 1
    and hbar = I.uchar attr (Uchar.of_int 0x2500) w 1
    and vbar = I.uchar attr (Uchar.of_int 0x2502) 1 h in
    let a, b, c, d = chr 0x256d, chr 0x256e, chr 0x256f, chr 0x2570 in
    grid [ [ a; hbar; b ]; [ vbar; i; vbar ]; [ d; hbar; c ] ]
end

let halfblock = "▄"

let pxmatrix w h f =
  I.tabulate w h
  @@ fun x y ->
  let y = y * 2 in
  I.string A.(bg (f x y) ++ fg (f x (y + 1))) halfblock


module Term = Notty_unix.Term

let simpleterm ~imgf ~f ~s =
  let term = Term.create () in
  let imgf (w, h) s = I.(string A.(fg lightblack) "[ESC quits.]" <-> imgf (w, h - 1) s) in
  let rec go s =
    Term.image term (imgf (Term.size term) s);
    match Term.event term with
    | `End | `Key (`Escape, []) | `Key (`ASCII 'C', [ `Ctrl ]) -> ()
    | `Resize _ -> go s
    | #Unescape.event as e ->
      (match f s e with
       | Some s -> go s
       | _ -> ())
  in
  go s