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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        *)
(************************************************************************)

open Cdglobals
open Index

(*s Low level output *)

let output_char c = Pervasives.output_char !out_channel c

let output_string s = Pervasives.output_string !out_channel s

let printf s = Printf.fprintf !out_channel s

let sprintf = Printf.sprintf

[@@@ocaml.warning "-3"]       (* String.{capitalize,lowercase}_ascii since 4.03.0 GPR#124 *)
let capitalize = String.capitalize
let lowercase = String.lowercase
[@@@ocaml.warning "+3"]

(*s Coq keywords *)

let build_table l =
  let h = Hashtbl.create 101 in
  List.iter (fun key ->Hashtbl.add h  key ()) l;
  function s -> try Hashtbl.find h s; true with Not_found -> false

let is_keyword =
  build_table
    [ "About"; "AddPath"; "Axiom"; "Abort"; "Chapter"; "Check"; "Coercion"; "Compute"; "CoFixpoint";
      "CoInductive"; "Corollary"; "Defined"; "Definition"; "End"; "Eval"; "Example";
      "Export"; "Fact"; "Fix"; "Fixpoint"; "Function"; "Generalizable"; "Global"; "Grammar";
      "Guarded"; "Goal"; "Hint"; "Debug"; "On";
      "Hypothesis"; "Hypotheses";
      "Resolve"; "Unfold"; "Immediate"; "Extern"; "Constructors"; "Rewrite";
      "Implicit"; "Import"; "Inductive";
      "Infix"; "Lemma"; "Let"; "Load"; "Local"; "Ltac";
      "Module"; "Module Type"; "Declare Module"; "Include";
      "Mutual"; "Parameter"; "Parameters"; "Print"; "Printing"; "All"; "Proof"; "Proof with"; "Qed";
      "Record"; "Recursive"; "Remark"; "Require"; "Save"; "Scheme"; "Assumptions"; "Axioms"; "Universes";
      "Induction"; "for"; "Sort"; "Section"; "Show"; "Structure"; "Syntactic"; "Syntax"; "Tactic"; "Theorem";
      "Search"; "SearchAbout"; "SearchHead"; "SearchPattern"; "SearchRewrite";
      "Set"; "Types"; "Undo"; "Unset"; "Variable"; "Variables"; "Context";
      "Notation"; "Reserved Notation"; "Tactic Notation";
      "Delimit"; "Bind"; "Open"; "Scope"; "Inline";
      "Implicit Arguments"; "Add"; "Strict";
      "Typeclasses"; "Instance"; "Global Instance"; "Class"; "Instantiation";
      "subgoal"; "subgoals"; "vm_compute";
      "Opaque"; "Transparent"; "Time";
      "Extraction"; "Extract";
      "Variant";
      (* Program *)
      "Program Definition"; "Program Example"; "Program Fixpoint"; "Program Lemma";
      "Obligation"; "Obligations"; "Solve"; "using"; "Next Obligation"; "Next";
      "Program Instance"; "Equations"; "Equations_nocomp";
      (*i (* coq terms *) *)
      "forall"; "match"; "as"; "in"; "return"; "with"; "end"; "let"; "fun";
      "if"; "then"; "else"; "Prop"; "Set"; "Type"; ":="; "where"; "struct"; "wf"; "measure";
      "fix"; "cofix";
      (* Ltac *)
      "before"; "after"; "constr"; "ltac"; "goal"; "context"; "beta"; "delta"; "iota"; "zeta"; "lazymatch";
      (* Notations *)
      "level"; "associativity"; "no"
       ]

let is_tactic =
  build_table
    [ "intro"; "intros"; "apply"; "rewrite"; "refine"; "case"; "clear"; "injection";
      "elimtype"; "progress"; "setoid_rewrite"; "left"; "right"; "constructor"; 
      "econstructor"; "decide equality"; "abstract"; "exists"; "cbv"; "simple destruct";
      "info"; "fourier"; "field"; "specialize"; "evar"; "solve"; "instanciate";
      "quote"; "eexact"; "autorewrite";
      "destruct"; "destruction"; "destruct_call"; "dependent"; "elim"; "extensionality";
      "f_equal"; "generalize"; "generalize_eqs"; "generalize_eqs_vars"; "induction"; "rename"; "move"; "omega";
      "set"; "assert"; "do"; "repeat";
      "cut"; "assumption"; "exact"; "split"; "subst"; "try"; "discriminate";
      "simpl"; "unfold"; "red"; "compute"; "at"; "in"; "by";
      "reflexivity"; "symmetry"; "transitivity";
      "replace"; "setoid_replace"; "inversion"; "inversion_clear";
      "pattern"; "intuition"; "congruence"; "fail"; "fresh";
      "trivial"; "tauto"; "firstorder"; "ring";
      "clapply"; "program_simpl"; "program_simplify"; "eapply"; "auto"; "eauto";
      "change"; "fold"; "hnf"; "lazy"; "simple"; "eexists"; "debug"; "idtac"; "first"; "type of"; "pose";
      "eval"; "instantiate"; "until" ]

(*s Current Coq module *)

let current_module : (string * string option) ref = ref ("",None)

let get_module withsub =
  let (m,sub) = !current_module in
  if withsub then
    match sub with
    | None -> m
    | Some sub -> m ^ ": " ^ sub
  else
    m

let set_module m sub = current_module := (m,sub);
                       page_title := get_module true

(*s Common to both LaTeX and HTML *)

let item_level = ref 0
let in_doc = ref false

(*s Customized and predefined pretty-print *)

let initialize_texmacs () =
  let ensuremath x = sprintf "<with|mode|math|\\<%s\\>>" x in
  List.fold_right (fun (s,t) tt -> Tokens.ttree_add tt s t)
    [ "*", ensuremath "times";
      "->", ensuremath "rightarrow";
      "<-", ensuremath "leftarrow";
      "<->", ensuremath "leftrightarrow";
      "=>", ensuremath "Rightarrow";
      "<=", ensuremath "le";
      ">=", ensuremath "ge";
      "<>", ensuremath "noteq";
      "~",  ensuremath "lnot";
      "/\\", ensuremath "land";
      "\\/", ensuremath "lor";
      "|-", ensuremath "vdash"
    ] Tokens.empty_ttree

let token_tree_texmacs = ref (initialize_texmacs ())

let token_tree_latex = ref Tokens.empty_ttree
let token_tree_html = ref Tokens.empty_ttree

let initialize_tex_html () =
  let if_utf8 = if !Cdglobals.utf8 then fun x -> Some x else fun _ -> None in
  let (tree_latex, tree_html) = List.fold_right (fun (s,l,l') (tt,tt') ->
      (Tokens.ttree_add tt s l,
       match l' with None -> tt' | Some l' -> Tokens.ttree_add tt' s l'))
      [ "*" ,  "\\ensuremath{\\times}", if_utf8 "×";
	"|", "\\ensuremath{|}", None;
	"->",  "\\ensuremath{\\rightarrow}", if_utf8 "→";
	"->~",  "\\ensuremath{\\rightarrow\\lnot}", None;
	"->~~",  "\\ensuremath{\\rightarrow\\lnot\\lnot}", None;
	"<-",  "\\ensuremath{\\leftarrow}", None;
	"<->", "\\ensuremath{\\leftrightarrow}", if_utf8 "↔";
	"=>",  "\\ensuremath{\\Rightarrow}", if_utf8 "⇒";
	"<=",  "\\ensuremath{\\le}", if_utf8 "≤";
	">=",  "\\ensuremath{\\ge}", if_utf8 "≥";
	"<>",  "\\ensuremath{\\not=}", if_utf8 "≠";
	"~",   "\\ensuremath{\\lnot}", if_utf8 "¬";
	"/\\", "\\ensuremath{\\land}", if_utf8 "∧";
	"\\/", "\\ensuremath{\\lor}", if_utf8 "∨";
	"|-",  "\\ensuremath{\\vdash}", None;
	"forall", "\\ensuremath{\\forall}", if_utf8 "∀";
	"exists", "\\ensuremath{\\exists}", if_utf8 "∃";
	"Π", "\\ensuremath{\\Pi}", if_utf8 "Π";
	"λ", "\\ensuremath{\\lambda}", if_utf8 "λ";
	(* "fun", "\\ensuremath{\\lambda}" ? *)
      ] (Tokens.empty_ttree,Tokens.empty_ttree) in
  token_tree_latex := tree_latex;
  token_tree_html  := tree_html

let add_printing_token s (t1,t2) =
  (match t1 with None -> () | Some t1 ->
    token_tree_latex := Tokens.ttree_add !token_tree_latex s t1);
  (match t2 with None -> () | Some t2 ->
    token_tree_html := Tokens.ttree_add !token_tree_html s t2)

let remove_printing_token s =
  token_tree_latex := Tokens.ttree_remove !token_tree_latex s;
  token_tree_html := Tokens.ttree_remove !token_tree_html s

(*s Table of contents *)

type toc_entry =
  | Toc_library of string * string option
  | Toc_section of int * (unit -> unit) * string

let (toc_q : toc_entry Queue.t) = Queue.create ()

let add_toc_entry e = Queue.add e toc_q

let new_label = let r = ref 0 in fun () -> incr r; "lab" ^ string_of_int !r

(*s LaTeX output *)

module Latex = struct

  let in_title = ref false

  (*s Latex preamble *)

  let (preamble : string Queue.t) = Queue.create ()

  let push_in_preamble s = Queue.add s preamble

  let utf8x_extra_support () =
    printf "\n";
    printf "%%Warning: tipa declares many non-standard macros used by utf8x to\n";
    printf "%%interpret utf8 characters but extra packages might have to be added\n";
    printf "%%such as \"textgreek\" for Greek letters not already in tipa\n";
    printf "%%or \"stmaryrd\" for mathematical symbols.\n";
    printf "%%Utf8 codes missing a LaTeX interpretation can be defined by using\n";
    printf "%%\\DeclareUnicodeCharacter{code}{interpretation}.\n";
    printf "%%Use coqdoc's option -p to add new packages or declarations.\n";
    printf "\\usepackage{tipa}\n";
    printf "\n"

  let header () =
    if !header_trailer then begin
      printf "\\documentclass[12pt]{report}\n";
      if !inputenc != "" then printf "\\usepackage[%s]{inputenc}\n" !inputenc;
      if !inputenc = "utf8x" then utf8x_extra_support ();
      printf "\\usepackage[T1]{fontenc}\n";
      printf "\\usepackage{fullpage}\n";
      printf "\\usepackage{coqdoc}\n";
      printf "\\usepackage{amsmath,amssymb}\n";
      printf "\\usepackage{url}\n";
      (match !toc_depth with
       | None -> ()
       | Some n -> printf "\\setcounter{tocdepth}{%i}\n" n);
      Queue.iter (fun s -> printf "%s\n" s) preamble;
      printf "\\begin{document}\n"
    end;
    output_string
      "%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%\n";
    output_string
      "%% This file has been automatically generated with the command\n";
    output_string "%% ";
    Array.iter (fun s -> printf "%s " s) Sys.argv;
    printf "\n";
    output_string
      "%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%\n"

  let trailer () =
    if !header_trailer then begin
      printf "\\end{document}\n"
    end

  (*s Latex low-level translation *)

  let nbsp () = output_char '~'

  let char c = match c with
    | '\\' ->
	printf "\\symbol{92}"
    | '$' | '#' | '%' | '&' | '{' | '}' | '_' ->
	output_char '\\'; output_char c
    | '^' | '~' ->
	output_char '\\'; output_char c; printf "{}"
    | _ ->
	output_char c

  let label_char c = match c with
    | '_' -> output_char ' '
    | '\\' | '$' | '#' | '%' | '&' | '{' | '}'
    | '^' | '~' -> printf "x%X" (Char.code c)
    | _ -> if c >= '\x80' then printf "x%X" (Char.code c) else output_char c

  let label_ident s =
    for i = 0 to String.length s - 1 do label_char s.[i] done

  let latex_char = output_char
  let latex_string = output_string

  let html_char _ = ()
  let html_string _ = ()

  (*s Latex char escaping *)

  let escaped =
    let buff = Buffer.create 5 in
    fun s ->
      Buffer.clear buff;
      for i = 0 to String.length s - 1 do
	match s.[i] with
	| '\\' ->
	    Buffer.add_string buff "\\symbol{92}"
	| '$' | '#' | '%' | '&' | '{' | '}' | '_' as c ->
	    Buffer.add_char buff '\\'; Buffer.add_char buff c
	| '^' | '~' as c ->
	    Buffer.add_char buff '\\'; Buffer.add_char buff c;
	    Buffer.add_string buff "{}"
        | '\'' ->
            if i < String.length s - 1 && s.[i+1] = '\'' then begin
              Buffer.add_char buff '\''; Buffer.add_char buff '{';
              Buffer.add_char buff '}'
            end else
              Buffer.add_char buff '\''
	| c ->
	    Buffer.add_char buff c
      done;
      Buffer.contents buff

  (*s Latex reference and symbol translation *)

  let start_module () =
    let ln = !lib_name in
      if not !short then begin
        printf "\\coqlibrary{";
        label_ident (get_module false);
        printf "}{";
        if ln <> "" then printf "%s " ln;
        printf "}{%s}\n\n" (escaped (get_module true))
    end

  let start_latex_math () = output_char '$'

  let stop_latex_math () = output_char '$'

  let start_quote () = output_char '`'; output_char '`'
  let stop_quote () = output_char '\''; output_char '\''
    
  let start_verbatim inline = 
    if inline then printf "\\texttt{"
    else printf "\\begin{verbatim}"

  let stop_verbatim inline =
    if inline then printf "}"
    else printf "\\end{verbatim}\n"

  let url addr name = 
    printf "%s\\footnote{\\url{%s}}"
      (match name with
       | None -> ""
       | Some n -> n)
      addr

  let indentation n =
    if n == 0 then
      printf "\\coqdocnoindent\n"
    else
      let space = 0.5 *. (float n) in
      printf "\\coqdocindent{%2.2fem}\n" space

  let ident_ref m fid typ s =
    let id = if fid <> "" then (m ^ "." ^ fid) else m in
    match find_module m with
      | Local ->
	  if typ = Variable then
	    printf "\\coqdoc%s{%s}" (type_name typ) s
	  else
	    (printf "\\coqref{"; label_ident id;
	     printf "}{\\coqdoc%s{%s}}" (type_name typ) s)
      | External m when !externals ->
	  printf "\\coqexternalref{"; label_ident fid;
	  printf "}{%s}{\\coqdoc%s{%s}}" (escaped m) (type_name typ) s
      | External _ | Unknown ->
	  printf "\\coqdoc%s{%s}" (type_name typ) s

  let defref m id ty s =
    if ty <> Notation then
      (printf "\\coqdef{"; label_ident (m ^ "." ^ id);
       printf "}{%s}{\\coqdoc%s{%s}}" s (type_name ty) s)
    else
      (* Glob file still not able to say the exact extent of the definition *)
      (* so we currently renounce to highlight the notation location *)
      (printf "\\coqdef{"; label_ident (m ^ "." ^ id);
       printf "}{%s}{%s}" s s)

  let reference s = function
    | Def (fullid,typ) ->
	defref (get_module false) fullid typ s
    | Ref (m,fullid,typ) ->
	ident_ref m fullid typ s

  (*s The sublexer buffers symbol characters and attached
       uninterpreted ident and try to apply special translation such as,
       predefined, translation "->" to "\ensuremath{\rightarrow}" or,
       virtually, a user-level translation from "=_h" to "\ensuremath{=_{h}}" *)

  let output_sublexer_string doescape issymbchar tag s =
    let s = if doescape then escaped s else s in
    match tag with
    | Some ref -> reference s ref
    | None -> if issymbchar then output_string s else printf "\\coqdocvar{%s}" s

  let last_was_in = ref false

  let sublexer c loc =
    if c = '*' && !last_was_in then begin
      Tokens.flush_sublexer ();
      output_char '*'
    end else begin
      let tag =
        try Some (Index.find (get_module false) loc) with Not_found -> None
      in
      Tokens.output_tagged_symbol_char tag c
    end;
    last_was_in := false

  let sublexer_in_doc c =
    if c = '*' && !last_was_in then begin
      Tokens.flush_sublexer ();
      output_char '*'
    end else
      Tokens.output_tagged_symbol_char None c;
    last_was_in := false

  let initialize () =
    initialize_tex_html ();
    Tokens.token_tree := token_tree_latex;
    Tokens.outfun := output_sublexer_string

  (*s Interpreting ident with fallback on sublexer if unknown ident *)

  let translate s =
    match Tokens.translate s with Some s -> s | None -> escaped s

  let keyword s loc = 
    printf "\\coqdockw{%s}" (translate s)

  let ident s loc =
    last_was_in := s = "in";
    try
      match loc with
      | None -> raise Not_found
      | Some loc ->
          let tag = Index.find (get_module false) loc in
          reference (translate s) tag
    with Not_found ->
      if is_tactic s then
	printf "\\coqdoctac{%s}" (translate s)
      else if is_keyword s then
	printf "\\coqdockw{%s}" (translate s)
      else if !Cdglobals.interpolate && !in_doc (* always a var otherwise *)
      then
	try
	  let tag = Index.find_string (get_module false) s in
	  reference (translate s) tag
	with _ -> Tokens.output_tagged_ident_string s
      else Tokens.output_tagged_ident_string s

  let ident s l =
    if !in_title then (
      printf "\\texorpdfstring{\\protect";
      ident s l;
      printf "}{%s}" (translate s))
    else
      ident s l

  (*s Translating structure *)

  let proofbox () = printf "\\ensuremath{\\Box}"

  let rec reach_item_level n =
    if !item_level < n then begin
      printf "\n\\begin{itemize}\n\\item "; incr item_level;
      reach_item_level n
    end else if !item_level > n then begin
      printf "\n\\end{itemize}\n"; decr item_level;
      reach_item_level n
    end

  let item n =
    let old_level = !item_level in
    reach_item_level n;
    if n <= old_level then printf "\n\\item "

  let stop_item () = reach_item_level 0

  let start_doc () = in_doc := true

  let end_doc () = in_doc := false; stop_item ()

  (* This is broken if we are in math mode, but coqdoc currently isn't
     tracking that *)
  let start_emph () = printf "\\textit{"

  let stop_emph () = printf "}"

  let start_comment () = printf "\\begin{coqdoccomment}\n"

  let end_comment () = printf "\\end{coqdoccomment}\n"

  let start_coq () = printf "\\begin{coqdoccode}\n"

  let end_coq () = printf "\\end{coqdoccode}\n"

  let start_code () = end_doc (); start_coq ()

  let end_code () = end_coq (); start_doc ()

  let section_kind = function
    | 1 -> "\\section{"
    | 2 -> "\\subsection{"
    | 3 -> "\\subsubsection{"
    | 4 -> "\\paragraph{"
    | _ -> assert false

  let section lev f =
    stop_item ();
    output_string (section_kind lev);
    in_title := true; f (); in_title := false;
    printf "}\n\n"

  let rule () =
    printf "\\par\n\\noindent\\hrulefill\\par\n\\noindent{}"

  let paragraph () = printf "\n\n"

  let line_break () = printf "\\coqdoceol\n"

  let empty_line_of_code () = printf "\\coqdocemptyline\n"

  let start_inline_coq_block () = line_break (); empty_line_of_code ()

  let end_inline_coq_block () = empty_line_of_code ()

  let start_inline_coq () = ()

  let end_inline_coq () = ()

  let make_multi_index () = ()

  let make_index () = ()

  let make_toc () = printf "\\tableofcontents\n"

end


(*s HTML output *)

module Html = struct

  let header () =
    if !header_trailer then
      if !header_file_spec then
	let cin = Pervasives.open_in !header_file in
	  try
	    while true do
	      let s = Pervasives.input_line cin in
		printf "%s\n" s
	    done
	  with End_of_file -> Pervasives.close_in cin
      else
	begin
	  printf "<!DOCTYPE html PUBLIC \"-//W3C//DTD XHTML 1.0 Strict//EN\"\n";
	  printf "\"http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd\">\n";
	  printf "<html xmlns=\"http://www.w3.org/1999/xhtml\">\n<head>\n";
	  printf "<meta http-equiv=\"Content-Type\" content=\"text/html; charset=%s\" />\n" !charset;
	  printf "<link href=\"coqdoc.css\" rel=\"stylesheet\" type=\"text/css\" />\n";
	  printf "<title>%s</title>\n</head>\n\n" !page_title;
	  printf "<body>\n\n<div id=\"page\">\n\n<div id=\"header\">\n</div>\n\n";
	  printf "<div id=\"main\">\n\n"
	end

  let trailer () =
    if !header_trailer && !footer_file_spec then
	let cin = Pervasives.open_in !footer_file in
	  try
	    while true do
	      let s = Pervasives.input_line cin in
		printf "%s\n" s
	    done
	  with End_of_file -> Pervasives.close_in cin
    else
      begin
        if !index && (get_module false) <> "Index" then
          printf "</div>\n\n<div id=\"footer\">\n<hr/><a href=\"%s.html\">Index</a>" !index_name;
	printf "<hr/>This page has been generated by ";
	printf "<a href=\"%s\">coqdoc</a>\n" Coq_config.wwwcoq;
	printf "</div>\n\n</div>\n\n</body>\n</html>"
      end

  let start_module () =
    let ln = !lib_name in
    if not !short then begin
      let (m,sub) = !current_module in
        add_toc_entry (Toc_library (m,sub));
        if ln = ""  then
          printf "<h1 class=\"libtitle\">%s</h1>\n\n" (get_module true)
        else
          printf "<h1 class=\"libtitle\">%s %s</h1>\n\n" ln (get_module true)
    end

  let indentation n = for _i = 1 to n do printf "&nbsp;" done

  let line_break () = printf "<br/>\n"

  let empty_line_of_code () =
    printf "\n<br/>\n"

  let nbsp () = printf "&nbsp;"

  let char = function
    | '<' -> printf "&lt;"
    | '>' -> printf "&gt;"
    | '&' -> printf "&amp;"
    | c -> output_char c

  let escaped =
    let buff = Buffer.create 5 in
    fun s ->
      Buffer.clear buff;
      for i = 0 to String.length s - 1 do
	match s.[i] with
	| '<' -> Buffer.add_string buff "&lt;"
	| '>' -> Buffer.add_string buff "&gt;"
	| '&' -> Buffer.add_string buff "&amp;"
        | '\"' -> Buffer.add_string buff "&quot;"
	| c -> Buffer.add_char buff c
      done;
      Buffer.contents buff

  let sanitize_name s =
    let rec loop esc i =
      if i < 0 then if esc then escaped s else s
      else match s.[i] with
      | 'a'..'z' | 'A'..'Z' | '0'..'9' | '.' | '_' -> loop esc (i-1)
      | '<' | '>' | '&' | '\'' | '\"' -> loop true (i-1)
      | _ ->
        (* This name contains complex characters:
           this is probably a notation string, we simply hash it. *)
        Digest.to_hex (Digest.string s)
    in loop false (String.length s - 1)

  let latex_char _ = ()
  let latex_string _ = ()

  let html_char = output_char
  let html_string = output_string

  let start_latex_math () = ()
  let stop_latex_math () = ()

  let start_quote () = char '"'
  let stop_quote () = start_quote ()

  let start_verbatim inline = 
    if inline then printf "<tt>"
    else printf "<pre>"

  let stop_verbatim inline = 
    if inline then printf "</tt>" 
    else printf "</pre>\n"

  let url addr name = 
    printf "<a href=\"%s\">%s</a>" addr 
      (match name with
       | Some n -> n
       | None -> addr)

  let ident_ref m fid typ s =
    match find_module m with
    | Local ->
	printf "<a class=\"idref\" href=\"%s.html#%s\">" m (sanitize_name fid);
	printf "<span class=\"id\" title=\"%s\">%s</span></a>" typ s
    | External m when !externals ->
	printf "<a class=\"idref\" href=\"%s.html#%s\">" m (sanitize_name fid);
	printf "<span class=\"id\" title=\"%s\">%s</span></a>" typ s
    | External _ | Unknown ->
	printf "<span class=\"id\" title=\"%s\">%s</span>" typ s

  let reference s r =
    match r with
    | Def (fullid,ty) ->
	printf "<a name=\"%s\">" (sanitize_name fullid);
	printf "<span class=\"id\" title=\"%s\">%s</span></a>" (type_name ty) s
    | Ref (m,fullid,ty) ->
	ident_ref m fullid (type_name ty) s

  let output_sublexer_string doescape issymbchar tag s =
    let s = if doescape then escaped s else s in
    match tag with
    | Some ref -> reference s ref
    | None ->
	if issymbchar then output_string s
	else printf "<span class=\"id\" title=\"var\">%s</span>" s

  let sublexer c loc =
    let tag =
      try Some (Index.find (get_module false) loc) with Not_found -> None
    in
    Tokens.output_tagged_symbol_char tag c

  let sublexer_in_doc c =
    Tokens.output_tagged_symbol_char None c

  let initialize () =
    initialize_tex_html();
    Tokens.token_tree := token_tree_html;
    Tokens.outfun := output_sublexer_string

  let translate s =
    match Tokens.translate s with Some s -> s | None -> escaped s

  let keyword s loc = 
    printf "<span class=\"id\" title=\"keyword\">%s</span>" (translate s)

  let ident s loc =
    if is_keyword s then begin
      printf "<span class=\"id\" title=\"keyword\">%s</span>" (translate s)
    end else begin
      try
        match loc with
        | None -> raise Not_found
        | Some loc ->
            reference (translate s) (Index.find (get_module false) loc)
      with Not_found ->
	if is_tactic s then
	  printf "<span class=\"id\" title=\"tactic\">%s</span>" (translate s)
	else
	  if !Cdglobals.interpolate && !in_doc (* always a var otherwise *)
	  then
	    try reference (translate s) (Index.find_string (get_module false) s)
	    with _ -> Tokens.output_tagged_ident_string s
	  else
	    Tokens.output_tagged_ident_string s
    end

  let proofbox () = printf "<font size=-2>&#9744;</font>"

  let rec reach_item_level n =
    if !item_level < n then begin
      printf "<ul class=\"doclist\">\n<li>"; incr item_level;
      reach_item_level n
    end else if !item_level > n then begin
      printf "\n</li>\n</ul>\n"; decr item_level;
      reach_item_level n
    end

  let item n =
    let old_level = !item_level in
    reach_item_level n;
    if n <= old_level then printf "\n</li>\n<li>"

  let stop_item () = reach_item_level 0

  let start_coq () = if not !raw_comments then printf "<div class=\"code\">\n"

  let end_coq () = if not !raw_comments then printf "</div>\n"

  let start_doc () = in_doc := true;
    if not !raw_comments then
      printf "\n<div class=\"doc\">\n"

  let end_doc () = in_doc := false;
    stop_item ();
    if not !raw_comments then printf "\n</div>\n"

  let start_emph () = printf "<i>"

  let stop_emph () = printf "</i>"

  let start_comment () = printf "<span class=\"comment\">(*"

  let end_comment () = printf "*)</span>"

  let start_code () = end_doc (); start_coq ()

  let end_code () = end_coq (); start_doc ()

  let start_inline_coq () = 
    if !inline_notmono then printf "<span class=\"inlinecodenm\">"
                       else printf "<span class=\"inlinecode\">"

  let end_inline_coq () = printf "</span>"

  let start_inline_coq_block () = line_break (); start_inline_coq ()

  let end_inline_coq_block () = end_inline_coq ()

  let paragraph () = printf "\n<div class=\"paragraph\"> </div>\n\n" 

  (* inference rules *)
  let inf_rule assumptions (_,_,midnm) conclusions =
    (* this first function replaces any occurance of 3 or more spaces
       in a row with "&nbsp;"s.  We do this to the assumptions so that
       people can put multiple rules on a line with nice formatting *)
    let replace_spaces str =
      let rec copy a n = match n with 0 -> [] | n -> (a :: copy a (n - 1)) in 
      let results = Str.full_split (Str.regexp "[' '][' '][' ']+") str in
      let strs = List.map (fun r -> match r with
                                    | Str.Text s  -> [s]
                                    | Str.Delim s -> 
                                        copy "&nbsp;" (String.length s))  
                          results
      in
        String.concat "" (List.concat strs)
    in
    let start_assumption line =
          (printf "<tr class=\"infruleassumption\">\n";
           printf "  <td class=\"infrule\">%s</td>\n" (replace_spaces line)) in
    let end_assumption () =
          (printf "  <td></td>\n";
           printf "</td>\n") in
    let rec print_assumptions hyps = 
          match hyps with
          | []                 -> start_assumption "&nbsp;&nbsp;"
          | [(_,hyp)]          -> start_assumption hyp
          | ((_,hyp) :: hyps') -> (start_assumption hyp;
                                   end_assumption ();
                                   print_assumptions hyps') in
    printf "<center><table class=\"infrule\">\n";
    print_assumptions assumptions;
    printf "  <td class=\"infrulenamecol\" rowspan=\"3\">\n";
    (match midnm with
     | None   -> printf "    &nbsp;\n  </td>" 
     | Some s -> printf "    %s &nbsp;\n  </td>" s);
    printf "</tr>\n";
    printf "<tr class=\"infrulemiddle\">\n";
    printf "  <td class=\"infrule\"><hr /></td>\n";
    printf "</tr>\n";
    print_assumptions conclusions;
    end_assumption ();
    printf "</table></center>"

  let section lev f =
    let lab = new_label () in
    let r = sprintf "%s.html#%s" (get_module false) lab in
    (match !toc_depth with
     | None -> add_toc_entry (Toc_section (lev, f, r))
     | Some n -> if lev <= n then add_toc_entry (Toc_section (lev, f, r))
                   else ());
    stop_item ();
    printf "<a name=\"%s\"></a><h%d class=\"section\">" lab lev;
    f ();
    printf "</h%d>\n" lev

  let rule () = printf "<hr/>\n"

  (* make a HTML index from a list of triples (name,text,link) *)
  let index_ref i c =
    let idxc = sprintf "%s_%c" i.idx_name c in
    !index_name ^ (if !multi_index then "_" ^ idxc ^ ".html" else ".html#" ^ idxc)

  let letter_index category idx (c,l) =
    if l <> [] then begin
      let cat = if category && idx <> "global" then "(" ^ idx ^ ")" else "" in
      printf "<a name=\"%s_%c\"></a><h2>%s %s</h2>\n" idx c (display_letter c) cat;
      List.iter
	(fun (id,(text,link,t)) ->
	   let id' = prepare_entry id t in
	   printf "<a href=\"%s\">%s</a> %s<br/>\n" link id' text) l;
      printf "<br/><br/>"
    end

  let all_letters i = List.iter (letter_index false i.idx_name) i.idx_entries

  (* Construction d'une liste des index (1 index global, puis 1
     index par catégorie) *)
  let format_global_index =
    Index.map
      (fun s (m,t) ->
	if t = Library then
         let ln = !lib_name in
           if ln <> "" then
	       "[" ^ lowercase ln ^ "]", m ^ ".html", t
           else
	       "[library]", m ^ ".html", t
	else
	 sprintf "[%s, in <a href=\"%s.html\">%s</a>]" (type_name t) m m ,
	sprintf "%s.html#%s" m (sanitize_name s), t)

  let format_bytype_index = function
    | Library, idx ->
	Index.map (fun id m -> "", m ^ ".html", Library) idx
    | (t,idx) ->
	Index.map
	  (fun s m ->
	     let text = sprintf "[in <a href=\"%s.html\">%s</a>]" m m in
	       (text, sprintf "%s.html#%s" m (sanitize_name s), t)) idx

  (* Impression de la table d'index *)
  let print_index_table_item i =
    printf "<tr>\n<td>%s Index</td>\n" (capitalize i.idx_name);
    List.iter
      (fun (c,l) ->
	 if l <> [] then
	   printf "<td><a href=\"%s\">%s</a></td>\n" (index_ref i c)
	     (display_letter c)
	 else
	   printf "<td>%s</td>\n" (display_letter c))
      i.idx_entries;
    let n = i.idx_size in
      printf "<td>(%d %s)</td>\n" n (if n > 1 then "entries" else "entry");
      printf "</tr>\n"

  let print_index_table idxl =
    printf "<table>\n";
    List.iter print_index_table_item idxl;
    printf "</table>\n"

  let make_one_multi_index prt_tbl i =
    (* Attn: make_one_multi_index crée un nouveau fichier... *)
    let idx = i.idx_name in
    let one_letter ((c,l) as cl) =
      open_out_file (sprintf "%s_%s_%c.html" !index_name idx c);
      if (!header_trailer) then header ();
      prt_tbl (); printf "<hr/>";
      letter_index true idx cl;
      if List.length l > 30 then begin printf "<hr/>"; prt_tbl () end;
      if (!header_trailer) then trailer ();
      close_out_file ()
    in
      List.iter one_letter i.idx_entries

  let make_multi_index () =
    let all_index =
      let glob,bt = Index.all_entries () in
	(format_global_index glob) ::
	  (List.map format_bytype_index bt) in
    let print_table () = print_index_table all_index in
      List.iter (make_one_multi_index print_table) all_index

  let make_index () =
    let all_index =
      let glob,bt = Index.all_entries () in
	(format_global_index glob) ::
	  (List.map format_bytype_index bt) in
    let print_table () = print_index_table all_index in
    let print_one_index i =
      if i.idx_size > 0 then begin
	printf "<hr/>\n<h1>%s Index</h1>\n" (capitalize i.idx_name);
	all_letters i
      end
    in
      set_module "Index" None;
      if !title <> "" then printf "<h1>%s</h1>\n" !title;
      print_table ();
      if not (!multi_index) then
	begin
	  List.iter print_one_index all_index;
	  printf "<hr/>"; print_table ()
	end

    let make_toc () =
	let ln = !lib_name in
      let make_toc_entry = function
        | Toc_library (m,sub) ->
 		stop_item ();
		let ms = match sub with | None -> m | Some s -> m ^ ": " ^ s in
              if ln = "" then
 	          printf "<a href=\"%s.html\"><h2>%s</h2></a>\n" m ms
              else
 	          printf "<a href=\"%s.html\"><h2>%s %s</h2></a>\n" m ln ms
        | Toc_section (n, f, r) ->
  		item n;
  		printf "<a href=\"%s\">" r; f (); printf "</a>\n"
      in
        printf "<div id=\"toc\">\n";
        Queue.iter make_toc_entry toc_q;
        stop_item ();
        printf "</div>\n"

end


(*s TeXmacs-aware output *)

module TeXmacs = struct

  (*s Latex preamble *)

  let (_ : string Queue.t) =
    in_doc := false; Queue.create ()

  let header () =
    output_string
      "(*i This file has been automatically generated with the command  \n";
    output_string
      "    "; Array.iter (fun s -> printf "%s " s) Sys.argv; printf " *)\n"

  let trailer () = ()

  let nbsp () = output_char ' '

  let char_true c = match c with
    | '\\' -> printf "\\\\"
    | '<' -> printf "\\<"
    | '|' -> printf "\\|"
    | '>' -> printf "\\>"
    | _ -> output_char c

  let char c = if !in_doc then char_true c else output_char c

  let latex_char = char_true
  let latex_string = String.iter latex_char

  let html_char _ = ()
  let html_string _ = ()

  let raw_ident s =
    for i = 0 to String.length s - 1 do char s.[i] done

  let start_module () = ()

  let start_latex_math () = printf "<with|mode|math|"

  let stop_latex_math () = output_char '>'

  let start_verbatim inline = in_doc := true; printf "<\\verbatim>"
  let stop_verbatim inline = in_doc := false; printf "</verbatim>"

  let url addr name = 
    printf "%s<\\footnote><\\url>%s</url></footnote>" addr
      (match name with
       | None -> ""
       | Some n -> n)

  let start_quote () = output_char '`'; output_char '`'
  let stop_quote () = output_char '\''; output_char '\''

  let indentation n = ()

  let keyword s =
    printf "<kw|"; raw_ident s; printf ">"

  let ident_true s =
    if is_keyword s then keyword s
    else raw_ident s

  let keyword s loc = keyword s
  let ident s _ = if !in_doc then ident_true s else raw_ident s

  let output_sublexer_string doescape issymbchar tag s =
    if doescape then raw_ident s else output_string s

  let sublexer c l =
    if !in_doc then Tokens.output_tagged_symbol_char None c else char c

  let sublexer_in_doc c =
    char c

  let initialize () =
    Tokens.token_tree := token_tree_texmacs;
    Tokens.outfun := output_sublexer_string

  let proofbox () = printf "QED"

  let rec reach_item_level n =
    if !item_level < n then begin
      printf "\n<\\itemize>\n<item>"; incr item_level;
      reach_item_level n
    end else if !item_level > n then begin
      printf "\n</itemize>"; decr item_level;
      reach_item_level n
    end

  let item n =
    let old_level = !item_level in
    reach_item_level n;
    if n <= old_level then printf "\n\n<item>"

  let stop_item () = reach_item_level 0

  let start_doc () = in_doc := true; printf "(** texmacs: "

  let end_doc () = stop_item (); in_doc := false; printf " *)"

  let start_coq () = ()

  let end_coq () = ()

  let start_emph () = printf "<with|font shape|italic|"
  let stop_emph () = printf ">"

  let start_comment () = ()
  let end_comment () = ()

  let start_code () = in_doc := true; printf "<\\code>\n"
  let end_code () = in_doc := false; printf "\n</code>"

  let section_kind = function
    | 1 -> "section"
    | 2 -> "subsection"
    | 3 -> "subsubsection"
    | 4 -> "paragraph"
    | _ -> assert false

  let section lev f =
    stop_item ();
    printf "<"; output_string (section_kind lev); printf "|";
    f (); printf ">\n\n"

  let rule () =
    printf "\n<hrule>\n"

  let paragraph () = printf "\n\n"

  let line_break () = printf "\n"

  let empty_line_of_code () = printf "\n"

  let start_inline_coq () = printf "<verbatim|["

  let end_inline_coq () = printf "]>"

  let start_inline_coq_block () = line_break (); start_inline_coq ()

  let end_inline_coq_block () = end_inline_coq ()

  let make_multi_index () = ()

  let make_index () = ()

  let make_toc () = ()

end


(*s Raw output *)

module Raw = struct

  let header () = ()

  let trailer () = ()

  let nbsp () = output_char ' '

  let char = output_char

  let latex_char = output_char
  let latex_string = output_string

  let html_char _ = ()
  let html_string _ = ()

  let raw_ident s =
    for i = 0 to String.length s - 1 do char s.[i] done

  let start_module () = ()

  let start_latex_math () = ()
  let stop_latex_math () = ()

  let start_verbatim inline = ()
  let stop_verbatim inline = ()

  let url addr name = 
    match name with
    | Some n -> printf "%s (%s)" n addr
    | None -> printf "%s" addr

  let start_quote () = printf "\""
  let stop_quote () = printf "\""

  let indentation n =
      for _i = 1 to n do printf " " done

  let keyword s loc = raw_ident s
  let ident s loc = raw_ident s

  let sublexer c l = char c
  let sublexer_in_doc c = char c

  let initialize () =
    Tokens.token_tree := ref Tokens.empty_ttree;
    Tokens.outfun := (fun _ _ _ _ -> failwith "Useless")

  let proofbox () = printf "[]"

  let item n = printf "- "
  let stop_item () = ()
  let reach_item_level _ = ()

  let start_doc () = printf "(** "
  let end_doc () = printf " *)\n"

  let start_emph () = printf "_"
  let stop_emph () = printf "_"

  let start_comment () = printf "(*"
  let end_comment () = printf "*)"

  let start_coq () = ()
  let end_coq () = ()

  let start_code () = end_doc (); start_coq ()
  let end_code () = end_coq (); start_doc ()

  let section_kind =
    function
      | 1 -> "* "
      | 2 -> "** "
      | 3 -> "*** "
      | 4 -> "**** "
      | _ -> assert false

  let section lev f =
    output_string (section_kind lev);
    f ()

  let rule () = ()

  let paragraph () = printf "\n\n"

  let line_break () = printf "\n"

  let empty_line_of_code () = printf "\n"

  let start_inline_coq () = ()
  let end_inline_coq () = ()

  let start_inline_coq_block () = line_break (); start_inline_coq ()
  let end_inline_coq_block () = end_inline_coq ()

  let make_multi_index () = ()
  let make_index () = ()
  let make_toc () = ()

end



(*s Generic output *)

let select f1 f2 f3 f4 x =
  match !target_language with LaTeX -> f1 x | HTML -> f2 x | TeXmacs -> f3 x | Raw -> f4 x

let push_in_preamble = Latex.push_in_preamble

let header = select Latex.header Html.header TeXmacs.header Raw.header
let trailer = select Latex.trailer Html.trailer TeXmacs.trailer Raw.trailer

let start_module =
  select Latex.start_module Html.start_module TeXmacs.start_module Raw.start_module

let start_doc = select Latex.start_doc Html.start_doc TeXmacs.start_doc Raw.start_doc
let end_doc = select Latex.end_doc Html.end_doc TeXmacs.end_doc Raw.end_doc

let start_comment = select Latex.start_comment Html.start_comment TeXmacs.start_comment Raw.start_comment
let end_comment = select Latex.end_comment Html.end_comment TeXmacs.end_comment Raw.end_comment

let start_coq = select Latex.start_coq Html.start_coq TeXmacs.start_coq Raw.start_coq
let end_coq = select Latex.end_coq Html.end_coq TeXmacs.end_coq Raw.end_coq

let start_code = select Latex.start_code Html.start_code TeXmacs.start_code Raw.start_code
let end_code = select Latex.end_code Html.end_code TeXmacs.end_code Raw.end_code

let start_inline_coq =
  select Latex.start_inline_coq Html.start_inline_coq TeXmacs.start_inline_coq Raw.start_inline_coq
let end_inline_coq =
  select Latex.end_inline_coq Html.end_inline_coq TeXmacs.end_inline_coq Raw.end_inline_coq

let start_inline_coq_block =
  select Latex.start_inline_coq_block Html.start_inline_coq_block
    TeXmacs.start_inline_coq_block Raw.start_inline_coq_block
let end_inline_coq_block =
  select Latex.end_inline_coq_block Html.end_inline_coq_block TeXmacs.end_inline_coq_block Raw.end_inline_coq_block

let indentation = select Latex.indentation Html.indentation TeXmacs.indentation Raw.indentation
let paragraph = select Latex.paragraph Html.paragraph TeXmacs.paragraph Raw.paragraph
let line_break = select Latex.line_break Html.line_break TeXmacs.line_break Raw.line_break
let empty_line_of_code = select
  Latex.empty_line_of_code Html.empty_line_of_code TeXmacs.empty_line_of_code Raw.empty_line_of_code

let section = select Latex.section Html.section TeXmacs.section Raw.section
let item = select Latex.item Html.item TeXmacs.item Raw.item
let stop_item = select Latex.stop_item Html.stop_item TeXmacs.stop_item Raw.stop_item
let reach_item_level = select Latex.reach_item_level Html.reach_item_level TeXmacs.reach_item_level Raw.reach_item_level
let rule = select Latex.rule Html.rule TeXmacs.rule Raw.rule

let nbsp = select Latex.nbsp Html.nbsp TeXmacs.nbsp Raw.nbsp
let char = select Latex.char Html.char TeXmacs.char Raw.char
let keyword = select Latex.keyword Html.keyword TeXmacs.keyword Raw.keyword
let ident = select Latex.ident Html.ident TeXmacs.ident Raw.ident
let sublexer = select Latex.sublexer Html.sublexer TeXmacs.sublexer Raw.sublexer
let sublexer_in_doc = select Latex.sublexer_in_doc Html.sublexer_in_doc TeXmacs.sublexer_in_doc Raw.sublexer_in_doc
let initialize = select Latex.initialize Html.initialize TeXmacs.initialize Raw.initialize

let proofbox = select Latex.proofbox Html.proofbox TeXmacs.proofbox Raw.proofbox

let latex_char = select Latex.latex_char Html.latex_char TeXmacs.latex_char Raw.latex_char
let latex_string =
  select Latex.latex_string Html.latex_string TeXmacs.latex_string Raw.latex_string
let html_char = select Latex.html_char Html.html_char TeXmacs.html_char Raw.html_char
let html_string =
  select Latex.html_string Html.html_string TeXmacs.html_string Raw.html_string

let start_emph =
  select Latex.start_emph Html.start_emph TeXmacs.start_emph Raw.start_emph
let stop_emph =
  select Latex.stop_emph Html.stop_emph TeXmacs.stop_emph Raw.stop_emph

let start_latex_math =
  select Latex.start_latex_math Html.start_latex_math TeXmacs.start_latex_math Raw.start_latex_math
let stop_latex_math =
  select Latex.stop_latex_math Html.stop_latex_math TeXmacs.stop_latex_math Raw.stop_latex_math

let start_verbatim =
  select Latex.start_verbatim Html.start_verbatim TeXmacs.start_verbatim Raw.start_verbatim
let stop_verbatim =
  select Latex.stop_verbatim Html.stop_verbatim TeXmacs.stop_verbatim Raw.stop_verbatim
let verbatim_char inline =
  select (if inline then Latex.char else output_char) Html.char TeXmacs.char Raw.char
let hard_verbatim_char = output_char

let url = 
  select Latex.url Html.url TeXmacs.url Raw.url

let start_quote =
  select Latex.start_quote Html.start_quote TeXmacs.start_quote Raw.start_quote
let stop_quote =
  select Latex.stop_quote Html.stop_quote TeXmacs.stop_quote Raw.stop_quote

let inf_rule_dumb assumptions (midsp,midln,midnm) conclusions = 
  start_verbatim false;
  let dumb_line = 
       function (sp,ln) -> (String.iter char ((String.make sp ' ') ^ ln);
                            char '\n')
  in 
    (List.iter dumb_line assumptions;
     dumb_line (midsp, midln ^ (match midnm with 
                                | Some s -> " " ^ s 
                                | None -> ""));
     List.iter dumb_line conclusions);
  stop_verbatim false

let inf_rule = select inf_rule_dumb Html.inf_rule inf_rule_dumb inf_rule_dumb

let make_multi_index = select Latex.make_multi_index Html.make_multi_index TeXmacs.make_multi_index Raw.make_multi_index
let make_index = select Latex.make_index Html.make_index TeXmacs.make_index Raw.make_index
let make_toc = select Latex.make_toc Html.make_toc TeXmacs.make_toc Raw.make_toc