Source file lTerm_text_impl.ml

(*
 * lTerm_text.ml
 * -------------
 * Copyright : (c) 2011, Jeremie Dimino <jeremie@dimino.org>
 * Licence   : BSD3
 *
 * This file is a part of Lambda-Term.
 *)

module Make (LiteralIntf: LiteralIntf.Type) = struct
  open LTerm_style
  open Result

  type t = (Zed_char.t * LTerm_style.t) array

  (* +-----------------------------------------------------------------+
    | Conversions                                                     |
    +-----------------------------------------------------------------+ *)

  let dummy = (Zed_char.unsafe_of_char ' ', LTerm_style.none)

  let of_string str=
    Array.map (fun chr-> (chr, LTerm_style.none)) (Array.of_list (Zed_string.unsafe_explode str))

  let aval_width= function
    | Ok {Zed_string.len=_;width}-> width
    | Error {Zed_string.start=_;len=_;width}-> width

  let of_utf8 str=
    let str= Zed_string.unsafe_of_utf8 str in
    of_string str

  (*let rec invalid_length str ofs acc =
    let ofs, len, _ = Zed_utf8.next_error str ofs in
    if ofs = String.length str then
      acc + len
    else
      invalid_length str (ofs + 1) (acc + len + 4)*)

  let uchar_of_hex x =
    if x < 10 then
      Uchar.of_int (Char.code '0' + x)
    else
      Uchar.of_int (Char.code 'a' + x - 10)

  let of_string_maybe_invalid str=
    let len= Zed_string.length str in
    let arr= Array.make len dummy in
    let rec loop ofs idx=
      if idx = len then
        arr
      else begin
        let ofs, idx=
          try
            let chr, ofs= Zed_string.extract_next str ofs in
            Array.unsafe_set arr idx (chr, LTerm_style.none);
            (ofs, idx + 1)
          with
            Zed_utf8.Invalid _->
            let code= Uchar.to_int (Zed_char.core (Zed_string.extract str ofs)) in
            Array.unsafe_set arr (idx + 0)
              (Zed_char.unsafe_of_char '\\', LTerm_style.none);
            Array.unsafe_set arr (idx + 1)
              (Zed_char.unsafe_of_char 'y', LTerm_style.none);
            Array.unsafe_set arr (idx + 2)
              (Zed_char.unsafe_of_uChar (uchar_of_hex (code lsr 4))
              , LTerm_style.none);
            Array.unsafe_set arr (idx + 3)
              (Zed_char.unsafe_of_uChar (uchar_of_hex (code land 15))
              , LTerm_style.none);
            ofs + 1, idx + 4
        in
        loop ofs idx
      end
    in
    loop 0 0

  let of_utf8_maybe_invalid str=
    let str= Zed_string.unsafe_of_utf8 str in
    of_string_maybe_invalid str

  let to_string txt =
    Zed_string.init (Array.length txt) (fun i-> fst txt.(i))

  let of_rope rope =
    let arr = Array.make (Zed_rope.length rope) dummy in
    let rec loop zip idx=
      if Zed_rope.Zip.at_eos zip then
        arr
      else begin
        let chr, zip = Zed_rope.Zip.next zip in
        Array.unsafe_set arr idx (chr, LTerm_style.none);
        loop zip (idx + 1)
      end
    in
    loop (Zed_rope.Zip.make_f rope 0) 0

  let to_rope txt =
    let buf = Zed_rope.Buffer.create () in
    Array.iter (fun (ch, _style) -> Zed_rope.Buffer.add buf ch) txt;
    Zed_rope.Buffer.contents buf

  let stylise str style =
    let str= Zed_string.unsafe_of_utf8 str in
    Array.map (fun chr-> (chr, style)) (Array.of_list (Zed_string.explode str))

  (* +-----------------------------------------------------------------+
    | Parenthesis matching                                            |
    +-----------------------------------------------------------------+ *)

  let lparen = Zed_char.unsafe_of_char '('
  let rparen = Zed_char.unsafe_of_char ')'
  let lbrace = Zed_char.unsafe_of_char '{'
  let rbrace = Zed_char.unsafe_of_char '}'
  let lbracket = Zed_char.unsafe_of_char '['
  let rbracket = Zed_char.unsafe_of_char ']'

  type search_result =
    | No_match_found
    | No_paren_found
    | Match_found of int

  let stylise_parenthesis text ?(paren = [(lparen, rparen); (lbrace, rbrace); (lbracket, rbracket)]) pos style_paren =
    if Array.length text > 0 then begin
      let rec rsearch idx left right depth =
        if idx >= Array.length text then
          No_match_found
        else
          let ch, _ = text.(idx) in
          if ch = right then
            if depth = 0 then
              Match_found idx
            else
              rsearch (idx + 1) left right (depth - 1)
          else if ch = left then
            rsearch (idx + 1) left right (depth + 1)
          else
            rsearch (idx + 1) left right depth
      in
      let rec lsearch idx left right depth =
        if idx < 0 then
          No_match_found
        else
          let ch, _ = text.(idx) in
          if ch = left then
            if depth = 0 then
              Match_found idx
            else
              lsearch (idx - 1) left right (depth - 1)
          else if ch = right then
            lsearch (idx - 1) left right (depth + 1)
          else
            lsearch (idx - 1) left right depth
      in
      let found =
        if pos = Array.length text then
          false
        else
          let ch, _ = text.(pos) in
          let rec loop = function
            | [] ->
                No_paren_found
            | (lparen, rparen) :: rest ->
                if ch = lparen then
                  rsearch (pos + 1) lparen rparen 0
                else if ch = rparen then
                  lsearch (pos - 1) lparen rparen 0
                else
                  loop rest
          in
          match loop paren with
            | Match_found idx ->
                let ch, style = text.(idx) in
                text.(idx) <- (ch, LTerm_style.merge style_paren style);
                true
            | No_match_found ->
                true
            | No_paren_found ->
                false
      in
      if not found && pos > 0 then
        let ch, style = text.(pos - 1) in
        let rec loop = function
          | [] ->
              No_paren_found
          | (lparen, rparen) :: rest ->
              if ch = lparen then
                rsearch (pos + 1) lparen rparen 0
              else if ch = rparen then
                lsearch (pos - 2) lparen rparen 0
              else
                loop rest
        in
        match loop paren with
          | Match_found idx ->
              text.(pos - 1) <- (ch, LTerm_style.merge style_paren style);
              let ch, style = text.(idx) in
              text.(idx) <- (ch, LTerm_style.merge style_paren style)
          | No_match_found | No_paren_found ->
              ()
    end

  (* +-----------------------------------------------------------------+
    | Markup strings                                                  |
    +-----------------------------------------------------------------+ *)

  type item =
    | S of LiteralIntf.string_intf
    | R of Zed_rope.t
    | B_bold of bool
    | E_bold
    | B_underline of bool
    | E_underline
    | B_blink of bool
    | E_blink
    | B_reverse of bool
    | E_reverse
    | B_fg of LTerm_style.color
    | E_fg
    | B_bg of LTerm_style.color
    | E_bg

  type markup = item list

  type eval_stack = {
    mutable q_bold : bool option list;
    mutable q_underline : bool option list;
    mutable q_blink : bool option list;
    mutable q_reverse : bool option list;
    mutable q_fg : LTerm_style.color option list;
    mutable q_bg : LTerm_style.color option list;
  }

  let markup_length markup =
    let rec loop len = function
      | [] -> len
      | S str :: rest -> loop (len + Zed_string.length (LiteralIntf.to_string_exn str)) rest
      | R str :: rest -> loop (len + Zed_rope.length str) rest
      | _ :: rest -> loop len rest
    in
    loop 0 markup

  let eval markup =
    let state = {
      q_bold = [];
      q_underline = [];
      q_blink = [];
      q_reverse = [];
      q_fg = [];
      q_bg = [];
    } in
    let arr = Array.make (markup_length markup) dummy in
    let rec copy_string str ofs idx style =
      if ofs >= Zed_string.bytes str then
        idx
      else begin
        let chr, ofs= Zed_string.extract_next str ofs in
        Array.unsafe_set arr idx (chr, style);
        copy_string str ofs (idx + 1) style
      end
    in
    let rec copy_rope zip idx style =
      if Zed_rope.Zip.at_eos zip then
        idx
      else begin
        let chr, zip = Zed_rope.Zip.next zip in
        Array.unsafe_set arr idx (chr, style);
        copy_rope zip (idx + 1) style
      end
    in
    let rec loop idx style = function
      | [] ->
          arr
      | S str :: rest ->
          let str= LiteralIntf.to_string_exn str in
          loop (copy_string str 0 idx style) style rest
      | R str :: rest ->
          loop (copy_rope (Zed_rope.Zip.make_f str 0) idx style) style rest
      | B_bold status :: rest ->
          state.q_bold <- style.bold :: state.q_bold;
          loop idx { style with bold = Some status } rest
      | E_bold :: rest -> begin
          match state.q_bold with
            | [] ->
                loop idx style rest
            | save :: l ->
                state.q_bold <- l;
                loop idx { style with bold = save } rest
        end
      | B_underline status :: rest ->
          state.q_underline <- style.underline :: state.q_underline;
          loop idx { style with underline = Some status } rest
      | E_underline :: rest -> begin
          match state.q_underline with
            | [] ->
                loop idx style rest
            | save :: l ->
                state.q_underline <- l;
                loop idx { style with underline = save } rest
        end
      | B_blink status :: rest ->
          state.q_blink <- style.blink :: state.q_blink;
          loop idx { style with blink = Some status } rest
      | E_blink :: rest -> begin
          match state.q_blink with
            | [] ->
                loop idx style rest
            | save :: l ->
                state.q_blink <- l;
                loop idx { style with blink = save } rest
        end
      | B_reverse color :: rest ->
          state.q_reverse <- style.reverse :: state.q_reverse;
          loop idx { style with reverse = Some color } rest
      | E_reverse :: rest -> begin
          match state.q_reverse with
            | [] ->
                loop idx style rest
            | save :: l ->
                state.q_reverse <- l;
                loop idx { style with reverse = save } rest
        end
      | B_fg color :: rest ->
          state.q_fg <- style.foreground :: state.q_fg;
          loop idx { style with foreground = Some color } rest
      | E_fg :: rest -> begin
          match state.q_fg with
            | [] ->
                loop idx style rest
            | save :: l ->
                state.q_fg <- l;
                loop idx { style with foreground = save } rest
        end
      | B_bg color :: rest ->
          state.q_bg <- style.background :: state.q_bg;
          loop idx { style with background = Some color } rest
      | E_bg :: rest -> begin
          match state.q_bg with
            | [] ->
                loop idx style rest
            | save :: l ->
                state.q_bg <- l;
                loop idx { style with background = save } rest
        end
    in
    loop 0 none markup



  (** {6 Styled formatters} *)

  let make_formatter ?read_color () =
    let style = Stack.create () in
    let content = ref [||] in

    let get_style () =
      if Stack.is_empty style then LTerm_style.none
      else Stack.top style
    and pop_style () =
      if Stack.is_empty style then ()
      else ignore (Stack.pop style)
    and push_style sty =
      if Stack.is_empty style then Stack.push sty style
      else Stack.push (LTerm_style.merge (Stack.top style) sty) style
    in

    let put s pos len =
      let s = String.sub s pos len in
      content := Array.append !content (stylise s (get_style ()))
    in
    let flush () = () in
    let fmt = Format.make_formatter put flush in

    let get_content () =
      Format.pp_print_flush fmt () ; !content
    in

    begin match read_color with
      | None -> ()
      | Some f ->
          Format.pp_set_tags fmt true;
          Format.pp_set_formatter_tag_functions fmt {
            Format.
            mark_open_tag =
              (fun a -> push_style (f a) ; "");
            mark_close_tag =
              (fun _ -> pop_style (); "");
            print_open_tag = (fun _ -> ());
            print_close_tag = (fun _ -> ());
          }[@ocaml.warning "-3"] ;
    end ;

    get_content, fmt

  let pp_with_style to_style =
    fun style fstr fmt ->
      let tag = to_style style in
      (Format.pp_open_tag[@ocaml.warning "-3"]) fmt tag;
      Format.kfprintf
        (fun fmt ->
          Format.pp_close_tag fmt ()[@ocaml.warning "-3"])
        fmt fstr

  let kstyprintf ?read_color f fstr =
    let get_content, fmt = make_formatter ?read_color () in
    Format.kfprintf (fun _ -> f (get_content ())) fmt fstr

  let styprintf ?read_color fstr = kstyprintf ?read_color (fun x -> x) fstr
end