(*  Title:      Pure/General/pretty.ML

    Author:     Lawrence C Paulson, Cambridge University Computer Laboratory

    Author:     Markus Wenzel, TU Munich

Generic pretty printing module.

Loosely based on

  D. C. Oppen, "Pretty Printing",

  ACM Transactions on Programming Languages and Systems (1980), 465-483.

The object to be printed is given as a tree with indentation and line

breaking information.  A "break" inserts a newline if the text until

the next break is too long to fit on the current line.  After the newline,

text is indented to the level of the enclosing block.  Normally, if a block

is broken then all enclosing blocks will also be broken.  Only "inconsistent

breaks" are provided.

The stored length of a block is used in breakdist (to treat each inner block as

a unit for breaking).

*)

signature PRETTY =

sig

  val default_indent: string -> int -> output

  val add_mode: string -> (string -> int -> output) -> unit

  type T

  val str: string -> T

  val brk: int -> T

  val fbrk: T

  val breaks: T list -> T list

  val fbreaks: T list -> T list

  val blk: int * T list -> T

  val block: T list -> T

  val strs: string list -> T

  val markup: Markup.T -> T list -> T

  val mark: Markup.T -> T -> T

  val keyword: string -> T

  val command: string -> T

  val markup_chunks: Markup.T -> T list -> T

  val chunks: T list -> T

  val chunks2: T list -> T

  val block_enclose: T * T -> T list -> T

  val quote: T -> T

  val backquote: T -> T

  val separate: string -> T list -> T list

  val commas: T list -> T list

  val enclose: string -> string -> T list -> T

  val enum: string -> string -> string -> T list -> T

  val position: Position.T -> T

  val list: string -> string -> T list -> T

  val str_list: string -> string -> string list -> T

  val big_list: string -> T list -> T

  val indent: int -> T -> T

  val unbreakable: T -> T

  val setmargin: int -> unit

  val setmp_margin: int -> ('a -> 'b) -> 'a -> 'b

  val setdepth: int -> unit

  val to_ML: T -> ML_Pretty.pretty

  val from_ML: ML_Pretty.pretty -> T

  val symbolicN: string

  val output_buffer: T -> Buffer.T

  val output: T -> output

  val string_of: T -> string

  val str_of: T -> string

  val writeln: T -> unit

  type pp

  val pp: (term -> T) * (typ -> T) * (sort -> T) * (class list -> T) * (arity -> T) -> pp

  val term: pp -> term -> T

  val typ: pp -> typ -> T

  val sort: pp -> sort -> T

  val classrel: pp -> class list -> T

  val arity: pp -> arity -> T

  val string_of_term: pp -> term -> string

  val string_of_typ: pp -> typ -> string

  val string_of_sort: pp -> sort -> string

  val string_of_classrel: pp -> class list -> string

  val string_of_arity: pp -> arity -> string

end;

structure Pretty: PRETTY =

struct

(** print mode operations **)

fun default_indent (_: string) = Symbol.spaces;

local

  val default = {indent = default_indent};

  val modes = ref (Symtab.make [("", default)]);

in

  fun add_mode name indent = CRITICAL (fn () =>

    change modes (Symtab.update_new (name, {indent = indent})));

  fun get_mode () =

    the_default default (Library.get_first (Symtab.lookup (! modes)) (print_mode_value ()));

end;

fun mode_indent x y = #indent (get_mode ()) x y;

val output_spaces = Output.output o Symbol.spaces;

val add_indent = Buffer.add o output_spaces;

(** printing items: compound phrases, strings, and breaks **)

datatype T =

  Block of Markup.T * T list * int * int |  (*markup, body, indentation, length*)

  String of output * int |                  (*text, length*)

  Break of bool * int;                      (*mandatory flag, width if not taken*)

fun length (Block (_, _, _, len)) = len

  | length (String (_, len)) = len

  | length (Break (_, wd)) = wd;

(** derived operations to create formatting expressions **)

val str = String o Output.output_width;

fun brk wd = Break (false, wd);

val fbrk = Break (true, 2);

fun breaks prts = Library.separate (brk 1) prts;

fun fbreaks prts = Library.separate fbrk prts;

fun markup_block m (indent, es) =

  let

    fun sum [] k = k

      | sum (e :: es) k = sum es (length e + k);

  in Block (m, es, indent, sum es 0) end;

val blk = markup_block Markup.none;

fun block prts = blk (2, prts);

val strs = block o breaks o map str;

fun markup m prts = markup_block m (0, prts);

fun mark m prt = markup m [prt];

fun keyword name = mark (Markup.keyword name) (str name);

fun command name = mark (Markup.command name) (str name);

fun markup_chunks m prts = markup m (fbreaks prts);

val chunks = markup_chunks Markup.none;

fun chunks2 prts = blk (0, flat (Library.separate [fbrk, fbrk] (map single prts)));

fun block_enclose (p1, p2) ps = chunks [(block  o fbreaks) (p1 :: ps), p2];

fun quote prt = blk (1, [str "\"", prt, str "\""]);

fun backquote prt = blk (1, [str "`", prt, str "`"]);

fun separate sep prts =

  flat (Library.separate [str sep, brk 1] (map single prts));

val commas = separate ",";

fun enclose lpar rpar prts =

  block (str lpar :: (prts @ [str rpar]));

fun enum sep lpar rpar prts = enclose lpar rpar (separate sep prts);

val position =

  enum "," "{" "}" o map (fn (x, y) => str (x ^ "=" ^ y)) o Position.properties_of;

val list = enum ",";

fun str_list lpar rpar strs = list lpar rpar (map str strs);

fun big_list name prts = block (fbreaks (str name :: prts));

fun indent 0 prt = prt

  | indent n prt = blk (0, [str (Symbol.spaces n), prt]);

fun unbreakable (Break (_, wd)) = String (output_spaces wd, wd)

  | unbreakable (Block (m, es, indent, wd)) = Block (m, map unbreakable es, indent, wd)

  | unbreakable (e as String _) = e;

(** formatting **)

(* margin *)

fun make_margin_info m =

 {margin = m,                   (*right margin, or page width*)

  breakgain = m div 20,         (*minimum added space required of a break*)

  emergencypos = m div 2};      (*position too far to right*)

val margin_info = ref (make_margin_info 76);

fun setmargin m = margin_info := make_margin_info m;

fun setmp_margin m f = setmp margin_info (make_margin_info m) f;

(* depth limitation *)

val depth = ref 0;   (*maximum depth; 0 means no limit*)

fun setdepth dp = (depth := dp);

local

  fun pruning dp (Block (m, bes, indent, wd)) =

        if dp > 0

        then markup_block m (indent, map (pruning (dp - 1)) bes)

        else str "..."

    | pruning dp e = e

in

  fun prune e = if ! depth > 0 then pruning (! depth) e else e;

end;

(* formatted output *)

local

type text = {tx: Buffer.T, ind: Buffer.T, pos: int, nl: int};

val empty: text =

 {tx = Buffer.empty,

  ind = Buffer.empty,

  pos = 0,

  nl = 0};

fun newline {tx, ind, pos, nl} : text =

 {tx = Buffer.add (Output.output "\n") tx,

  ind = Buffer.empty,

  pos = 0,

  nl = nl + 1};

fun control s {tx, ind, pos: int, nl} : text =

 {tx = Buffer.add s tx,

  ind = ind,

  pos = pos,

  nl = nl};

fun string (s, len) {tx, ind, pos: int, nl} : text =

 {tx = Buffer.add s tx,

  ind = Buffer.add s ind,

  pos = pos + len,

  nl = nl};

fun blanks wd = string (output_spaces wd, wd);

fun indentation (buf, len) {tx, ind, pos, nl} : text =

  let val s = Buffer.content buf in

   {tx = Buffer.add (mode_indent s len) tx,

    ind = Buffer.add s ind,

    pos = pos + len,

    nl = nl}

  end;

(*Add the lengths of the expressions until the next Break; if no Break then

  include "after", to account for text following this block.*)

fun breakdist (Block (_, _, _, len) :: es, after) = len + breakdist (es, after)

  | breakdist (String (s, len) :: es, after) = len + breakdist (es, after)

  | breakdist (Break _ :: es, after) = 0

  | breakdist ([], after) = after;

(*Search for the next break (at this or higher levels) and force it to occur.*)

fun forcenext [] = []

  | forcenext (Break (_, wd) :: es) = Break (true, 0) :: es

  | forcenext (e :: es) = e :: forcenext es;

(*es is list of expressions to print;

  blockin is the indentation of the current block;

  after is the width of the following context until next break.*)

fun format ([], _, _) text = text

  | format (e :: es, block as (blockind, blockin), after) (text as {ind, pos, nl, ...}) =

      (case e of

        Block (markup, bes, indent, wd) =>

          let

            val {emergencypos, ...} = ! margin_info;

            val pos' = pos + indent;

            val pos'' = pos' mod emergencypos;

            val block' =

              if pos' < emergencypos then (ind |> add_indent indent, pos')

              else (add_indent pos'' Buffer.empty, pos'');

            val (bg, en) = Markup.output markup;

            val btext: text = text

              |> control bg

              |> format (bes, block', breakdist (es, after))

              |> control en;

            (*if this block was broken then force the next break*)

            val es' = if nl < #nl btext then forcenext es else es;

          in format (es', block, after) btext end

      | String str => format (es, block, after) (string str text)

      | Break (force, wd) =>

          let val {margin, breakgain, ...} = ! margin_info in

            (*no break if text to next break fits on this line

              or if breaking would add only breakgain to space*)

            format (es, block, after)

              (if not force andalso

                  pos + wd <= Int.max (margin - breakdist (es, after), blockin + breakgain)

                then text |> blanks wd  (*just insert wd blanks*)

                else text |> newline |> indentation block)

          end);

in

fun formatted e = #tx (format ([prune e], (Buffer.empty, 0), 0) empty);

end;

(* special output *)

(*symbolic markup -- no formatting*)

fun symbolic prt =

  let

    fun out (Block (m, [], _, _)) = Buffer.markup m I

      | out (Block (m, prts, indent, _)) =

          Buffer.markup m (Buffer.markup (Markup.block indent) (fold out prts))

      | out (String (s, _)) = Buffer.add s

      | out (Break (false, wd)) = Buffer.markup (Markup.break wd) (Buffer.add (output_spaces wd))

      | out (Break (true, _)) = Buffer.markup Markup.fbreak (Buffer.add (output_spaces 1));

  in out prt Buffer.empty end;

(*unformatted output*)

fun unformatted prt =

  let

    fun fmt (Block (m, prts, _, _)) = Buffer.markup m (fold fmt prts)

      | fmt (String (s, _)) = Buffer.add s

      | fmt (Break (false, wd)) = Buffer.add (output_spaces wd)

      | fmt (Break (true, _)) = Buffer.add (output_spaces 1);

  in fmt (prune prt) Buffer.empty end;

(* ML toplevel pretty printing *)

fun to_ML (Block (m, prts, ind, _)) = ML_Pretty.Block (Markup.output m, map to_ML prts, ind)

  | to_ML (String s) = ML_Pretty.String s

  | to_ML (Break b) = ML_Pretty.Break b;

fun from_ML (ML_Pretty.Block (_, prts, ind)) = blk (ind, map from_ML prts)

  | from_ML (ML_Pretty.String s) = String s

  | from_ML (ML_Pretty.Break b) = Break b;

(* output interfaces *)

val symbolicN = "pretty_symbolic";

fun output_buffer prt =

  if print_mode_active symbolicN then symbolic prt

  else formatted prt;

val output = Buffer.content o output_buffer;

val string_of = Output.escape o output;

val str_of = Output.escape o Buffer.content o unformatted;

val writeln = Output.writeln o string_of;

(** abstract pretty printing context **)

datatype pp =

  PP of (term -> T) * (typ -> T) * (sort -> T) * (class list -> T) * (arity -> T);

val pp = PP;

fun pp_fun f (PP x) = f x;

val term     = pp_fun #1;

val typ      = pp_fun #2;

val sort     = pp_fun #3;

val classrel = pp_fun #4;

val arity    = pp_fun #5;

val string_of_term     = string_of oo term;

val string_of_typ      = string_of oo typ;

val string_of_sort     = string_of oo sort;

val string_of_classrel = string_of oo classrel;

val string_of_arity    = string_of oo arity;

end;