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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2016 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
module Glue : sig
(** The [Glue] module implements a container data structure with
efficient concatenation. *)
type 'a t
val atom : 'a -> 'a t
val glue : 'a t -> 'a t -> 'a t
val empty : 'a t
val is_empty : 'a t -> bool
val iter : ('a -> unit) -> 'a t -> unit
end = struct
type 'a t = GEmpty | GLeaf of 'a | GNode of 'a t * 'a t
let atom x = GLeaf x
let glue x y =
match x, y with
| GEmpty, _ -> y
| _, GEmpty -> x
| _, _ -> GNode (x,y)
let empty = GEmpty
let is_empty x = x = GEmpty
let rec iter f = function
| GEmpty -> ()
| GLeaf x -> f x
| GNode (x,y) -> iter f x; iter f y
end
module Tag :
sig
type t
type 'a key
val create : string -> 'a key
val inj : 'a -> 'a key -> t
val prj : t -> 'a key -> 'a option
end =
struct
module Dyn = Dyn.Make(struct end)
type t = Dyn.t
type 'a key = 'a Dyn.tag
let create = Dyn.create
let inj = Dyn.Easy.inj
let prj = Dyn.Easy.prj
end
open Pp_control
(* The different kinds of blocks are:
\begin{description}
\item[hbox:] Horizontal block no line breaking;
\item[vbox:] Vertical block each break leads to a new line;
\item[hvbox:] Horizontal-vertical block: same as vbox, except if
this block is small enough to fit on a single line
\item[hovbox:] Horizontal or Vertical block: breaks lead to new line
only when necessary to print the content of the block
\item[tbox:] Tabulation block: go to tabulation marks and no line breaking
(except if no mark yet on the reste of the line)
\end{description}
*)
type block_type =
| Pp_hbox of int
| Pp_vbox of int
| Pp_hvbox of int
| Pp_hovbox of int
| Pp_tbox
type str_token =
| Str_def of string
| Str_len of string * int (** provided length *)
type 'a ppcmd_token =
| Ppcmd_print of 'a
| Ppcmd_box of block_type * ('a ppcmd_token Glue.t)
| Ppcmd_print_break of int * int
| Ppcmd_set_tab
| Ppcmd_print_tbreak of int * int
| Ppcmd_white_space of int
| Ppcmd_force_newline
| Ppcmd_print_if_broken
| Ppcmd_open_box of block_type
| Ppcmd_close_box
| Ppcmd_close_tbox
| Ppcmd_comment of string list
| Ppcmd_open_tag of Tag.t
| Ppcmd_close_tag
type 'a ppdir_token =
| Ppdir_ppcmds of 'a ppcmd_token Glue.t
| Ppdir_print_newline
| Ppdir_print_flush
type ppcmd = str_token ppcmd_token
type std_ppcmds = ppcmd Glue.t
type 'a ppdirs = 'a ppdir_token Glue.t
let (++) = Glue.glue
let app = Glue.glue
let is_empty g = Glue.is_empty g
(* Compute length of an UTF-8 encoded string
Rem 1 : utf8_length <= String.length (equal if pure ascii)
Rem 2 : if used for an iso8859_1 encoded string, the result is
wrong in very rare cases. Such a wrong case corresponds to any
sequence of a character in range 192..253 immediately followed by a
character in range 128..191 (typical case in french is "déçu" which
is counted 3 instead of 4); then no real harm to use always
utf8_length even if using an iso8859_1 encoding *)
let utf8_length s =
let len = String.length s
and cnt = ref 0
and nc = ref 0
and p = ref 0 in
while !p < len do
begin
match s.[!p] with
| '\000'..'\127' -> nc := 0 (* ascii char *)
| '\128'..'\191' -> nc := 0 (* cannot start with a continuation byte *)
| '\192'..'\223' -> nc := 1 (* expect 1 continuation byte *)
| '\224'..'\239' -> nc := 2 (* expect 2 continuation bytes *)
| '\240'..'\247' -> nc := 3 (* expect 3 continuation bytes *)
| '\248'..'\251' -> nc := 4 (* expect 4 continuation bytes *)
| '\252'..'\253' -> nc := 5 (* expect 5 continuation bytes *)
| '\254'..'\255' -> nc := 0 (* invalid byte *)
end ;
incr p ;
while !p < len && !nc > 0 do
match s.[!p] with
| '\128'..'\191' (* next continuation byte *) -> incr p ; decr nc
| _ (* not a continuation byte *) -> nc := 0
done ;
incr cnt
done ;
!cnt
(* formatting commands *)
let str s = Glue.atom(Ppcmd_print (Str_def s))
let stras (i, s) = Glue.atom(Ppcmd_print (Str_len (s, i)))
let brk (a,b) = Glue.atom(Ppcmd_print_break (a,b))
let tbrk (a,b) = Glue.atom(Ppcmd_print_tbreak (a,b))
let tab () = Glue.atom(Ppcmd_set_tab)
let fnl () = Glue.atom(Ppcmd_force_newline)
let pifb () = Glue.atom(Ppcmd_print_if_broken)
let ws n = Glue.atom(Ppcmd_white_space n)
let comment l = Glue.atom(Ppcmd_comment l)
(* derived commands *)
let mt () = Glue.empty
let spc () = Glue.atom(Ppcmd_print_break (1,0))
let cut () = Glue.atom(Ppcmd_print_break (0,0))
let align () = Glue.atom(Ppcmd_print_break (0,0))
let int n = str (string_of_int n)
let real r = str (string_of_float r)
let bool b = str (string_of_bool b)
let strbrk s =
let rec aux p n =
if n < String.length s then
if s.[n] = ' ' then
if p = n then spc() :: aux (n+1) (n+1)
else str (String.sub s p (n-p)) :: spc () :: aux (n+1) (n+1)
else aux p (n + 1)
else if p = n then [] else [str (String.sub s p (n-p))]
in List.fold_left (++) Glue.empty (aux 0 0)
let pr_loc_pos loc =
if Loc.is_ghost loc then (str"<unknown>")
else
let loc = Loc.unloc loc in
int (fst loc) ++ str"-" ++ int (snd loc)
let pr_loc loc =
if Loc.is_ghost loc then str"<unknown>" ++ fnl ()
else
let fname = loc.Loc.fname in
if CString.equal fname "" then
Loc.(str"Toplevel input, characters " ++ int loc.bp ++
str"-" ++ int loc.ep ++ str":" ++ fnl ())
else
Loc.(str"File " ++ str "\"" ++ str fname ++ str "\"" ++
str", line " ++ int loc.line_nb ++ str", characters " ++
int (loc.bp-loc.bol_pos) ++ str"-" ++ int (loc.ep-loc.bol_pos) ++
str":" ++ fnl())
let ismt = is_empty
(* boxing commands *)
let h n s = Glue.atom(Ppcmd_box(Pp_hbox n,s))
let v n s = Glue.atom(Ppcmd_box(Pp_vbox n,s))
let hv n s = Glue.atom(Ppcmd_box(Pp_hvbox n,s))
let hov n s = Glue.atom(Ppcmd_box(Pp_hovbox n,s))
let t s = Glue.atom(Ppcmd_box(Pp_tbox,s))
(* Opening and closing of boxes *)
let hb n = Glue.atom(Ppcmd_open_box(Pp_hbox n))
let vb n = Glue.atom(Ppcmd_open_box(Pp_vbox n))
let hvb n = Glue.atom(Ppcmd_open_box(Pp_hvbox n))
let hovb n = Glue.atom(Ppcmd_open_box(Pp_hovbox n))
let tb () = Glue.atom(Ppcmd_open_box Pp_tbox)
let close () = Glue.atom(Ppcmd_close_box)
let tclose () = Glue.atom(Ppcmd_close_tbox)
(* Opening and closed of tags *)
let open_tag t = Glue.atom(Ppcmd_open_tag t)
let close_tag () = Glue.atom(Ppcmd_close_tag)
let tag t s = open_tag t ++ s ++ close_tag ()
let eval_ppcmds l = l
(* In new syntax only double quote char is escaped by repeating it *)
let escape_string s =
let rec escape_at s i =
if i<0 then s
else if s.[i] == '"' then
let s' = String.sub s 0 i^"\""^String.sub s i (String.length s - i) in
escape_at s' (i-1)
else escape_at s (i-1) in
escape_at s (String.length s - 1)
let qstring s = str "\"" ++ str (escape_string s) ++ str "\""
let qs = qstring
let quote s = h 0 (str "\"" ++ s ++ str "\"")
(* This flag tells if the last printed comment ends with a newline, to
avoid empty lines *)
let com_eol = ref false
let com_brk ft = com_eol := false
let com_if ft f =
if !com_eol then (com_eol := false; Format.pp_force_newline ft ())
else Lazy.force f
let rec pr_com ft s =
let (s1,os) =
try
let n = String.index s '\n' in
String.sub s 0 n, Some (String.sub s (n+1) (String.length s - n - 1))
with Not_found -> s,None in
com_if ft (Lazy.from_val());
(* let s1 =
if String.length s1 <> 0 && s1.[0] = ' ' then
(Format.pp_print_space ft (); String.sub s1 1 (String.length s1 - 1))
else s1 in*)
Format.pp_print_as ft (utf8_length s1) s1;
match os with
Some s2 ->
if Int.equal (String.length s2) 0 then (com_eol := true)
else
(Format.pp_force_newline ft (); pr_com ft s2)
| None -> ()
type tag_handler = Tag.t -> Format.tag
(* pretty printing functions *)
let pp_dirs ?pp_tag ft =
let pp_open_box = function
| Pp_hbox n -> Format.pp_open_hbox ft ()
| Pp_vbox n -> Format.pp_open_vbox ft n
| Pp_hvbox n -> Format.pp_open_hvbox ft n
| Pp_hovbox n -> Format.pp_open_hovbox ft n
| Pp_tbox -> Format.pp_open_tbox ft ()
in
let rec pp_cmd = function
| Ppcmd_print tok ->
begin match tok with
| Str_def s ->
let n = utf8_length s in
com_if ft (Lazy.from_val()); Format.pp_print_as ft n s
| Str_len (s, n) ->
com_if ft (Lazy.from_val()); Format.pp_print_as ft n s
end
| Ppcmd_box(bty,ss) -> (* Prevent evaluation of the stream! *)
com_if ft (Lazy.from_val());
pp_open_box bty ;
if not (Format.over_max_boxes ()) then Glue.iter pp_cmd ss;
Format.pp_close_box ft ()
| Ppcmd_open_box bty -> com_if ft (Lazy.from_val()); pp_open_box bty
| Ppcmd_close_box -> Format.pp_close_box ft ()
| Ppcmd_close_tbox -> Format.pp_close_tbox ft ()
| Ppcmd_white_space n ->
com_if ft (Lazy.from_fun (fun()->Format.pp_print_break ft n 0))
| Ppcmd_print_break(m,n) ->
com_if ft (Lazy.from_fun(fun()->Format.pp_print_break ft m n))
| Ppcmd_set_tab -> Format.pp_set_tab ft ()
| Ppcmd_print_tbreak(m,n) ->
com_if ft (Lazy.from_fun(fun()->Format.pp_print_tbreak ft m n))
| Ppcmd_force_newline ->
com_brk ft; Format.pp_force_newline ft ()
| Ppcmd_print_if_broken ->
com_if ft (Lazy.from_fun(fun()->Format.pp_print_if_newline ft ()))
| Ppcmd_comment coms ->
(* Format.pp_open_hvbox ft 0;*)
List.iter (pr_com ft) coms(*;
Format.pp_close_box ft ()*)
| Ppcmd_open_tag tag ->
begin match pp_tag with
| None -> ()
| Some f -> Format.pp_open_tag ft (f tag)
end
| Ppcmd_close_tag ->
begin match pp_tag with
| None -> ()
| Some _ -> Format.pp_close_tag ft ()
end
in
let pp_dir = function
| Ppdir_ppcmds cmdstream -> Glue.iter pp_cmd cmdstream
| Ppdir_print_newline ->
com_brk ft; Format.pp_print_newline ft ()
| Ppdir_print_flush -> Format.pp_print_flush ft ()
in
fun (dirstream : _ ppdirs) ->
try
Glue.iter pp_dir dirstream; com_brk ft
with reraise ->
let reraise = Backtrace.add_backtrace reraise in
let () = Format.pp_print_flush ft () in
Exninfo.iraise reraise
(* pretty printing functions WITHOUT FLUSH *)
let pp_with ?pp_tag ft strm =
pp_dirs ?pp_tag ft (Glue.atom (Ppdir_ppcmds strm))
(* pretty printing functions WITH FLUSH *)
let msg_with ?pp_tag ft strm =
pp_dirs ?pp_tag ft (Glue.atom(Ppdir_ppcmds strm) ++ Glue.atom(Ppdir_print_flush))
(* If mixing some output and a goal display, please use msg_warning,
so that interfaces (proofgeneral for example) can easily dispatch
them to different windows. *)
(** Output to a string formatter *)
let string_of_ppcmds c =
Format.fprintf Format.str_formatter "@[%a@]" (msg_with ?pp_tag:None) c;
Format.flush_str_formatter ()
(* Copy paste from Util *)
let pr_comma () = str "," ++ spc ()
let pr_semicolon () = str ";" ++ spc ()
let pr_bar () = str "|" ++ spc ()
let pr_arg pr x = spc () ++ pr x
let pr_non_empty_arg pr x = let pp = pr x in if ismt pp then mt () else spc () ++ pr x
let pr_opt pr = function None -> mt () | Some x -> pr_arg pr x
let pr_opt_no_spc pr = function None -> mt () | Some x -> pr x
(** TODO: merge with CString.ordinal *)
let pr_nth n =
let s =
if (n / 10) mod 10 = 1 then "th"
else match n mod 10 with
| 1 -> "st"
| 2 -> "nd"
| 3 -> "rd"
| _ -> "th"
in
int n ++ str s
(* [prlist pr [a ; ... ; c]] outputs [pr a ++ ... ++ pr c] *)
let prlist pr l = List.fold_left (fun x e -> x ++ pr e) Glue.empty l
(* unlike all other functions below, [prlist] works lazily.
if a strict behavior is needed, use [prlist_strict] instead.
evaluation is done from left to right. *)
let prlist_sep_lastsep no_empty sep lastsep elem =
let rec start = function
|[] -> mt ()
|[e] -> elem e
|h::t -> let e = elem h in
if no_empty && ismt e then start t else
let rec aux = function
|[] -> mt ()
|h::t ->
let e = elem h and r = aux t in
if no_empty && ismt e then r else
if ismt r
then let s = lastsep () in s ++ e
else let s = sep () in s ++ e ++ r
in let r = aux t in e ++ r
in start
let prlist_strict pr l = prlist_sep_lastsep true mt mt pr l
(* [prlist_with_sep sep pr [a ; ... ; c]] outputs
[pr a ++ sep() ++ ... ++ sep() ++ pr c] *)
let prlist_with_sep sep pr l = prlist_sep_lastsep false sep sep pr l
(* Print sequence of objects separated by space (unless an element is empty) *)
let pr_sequence pr l = prlist_sep_lastsep true spc spc pr l
(* [pr_enum pr [a ; b ; ... ; c]] outputs
[pr a ++ str "," ++ pr b ++ str "," ++ ... ++ str "and" ++ pr c] *)
let pr_enum pr l = prlist_sep_lastsep true pr_comma (fun () -> str " and" ++ spc ()) pr l
let pr_vertical_list pr = function
| [] -> str "none" ++ fnl ()
| l -> fnl () ++ str " " ++ hov 0 (prlist_with_sep fnl pr l) ++ fnl ()
(* [prvecti_with_sep sep pr [|a0 ; ... ; an|]] outputs
[pr 0 a0 ++ sep() ++ ... ++ sep() ++ pr n an] *)
let prvecti_with_sep sep elem v =
let rec pr i =
if Int.equal i 0 then
elem 0 v.(0)
else
let r = pr (i-1) and s = sep () and e = elem i v.(i) in
r ++ s ++ e
in
let n = Array.length v in
if Int.equal n 0 then mt () else pr (n - 1)
(* [prvecti pr [|a0 ; ... ; an|]] outputs [pr 0 a0 ++ ... ++ pr n an] *)
let prvecti elem v = prvecti_with_sep mt elem v
(* [prvect_with_sep sep pr [|a ; ... ; c|]] outputs
[pr a ++ sep() ++ ... ++ sep() ++ pr c] *)
let prvect_with_sep sep elem v = prvecti_with_sep sep (fun _ -> elem) v
(* [prvect pr [|a ; ... ; c|]] outputs [pr a ++ ... ++ pr c] *)
let prvect elem v = prvect_with_sep mt elem v
let surround p = hov 1 (str"(" ++ p ++ str")")
|