From 9043add656177eeac1491a73d2f3ab92bec0013c Mon Sep 17 00:00:00 2001 From: Benjamin Barenblat Date: Sat, 29 Dec 2018 14:31:27 -0500 Subject: Imported Upstream version 8.8.2 --- clib/backtrace.ml | 119 + clib/backtrace.mli | 98 + clib/bigint.ml | 526 ++++ clib/bigint.mli | 52 + clib/cArray.ml | 550 ++++ clib/cArray.mli | 157 ++ clib/cEphemeron.ml | 91 + clib/cEphemeron.mli | 54 + clib/cList.ml | 917 +++++++ clib/cList.mli | 277 ++ clib/cMap.ml | 220 ++ clib/cMap.mli | 90 + clib/cObj.ml | 205 ++ clib/cObj.mli | 61 + clib/cSet.ml | 69 + clib/cSet.mli | 33 + clib/cSig.mli | 88 + clib/cStack.ml | 44 + clib/cStack.mli | 58 + clib/cString.ml | 180 ++ clib/cString.mli | 80 + clib/cThread.ml | 99 + clib/cThread.mli | 28 + clib/cUnix.ml | 146 + clib/cUnix.mli | 71 + clib/canary.ml | 28 + clib/canary.mli | 27 + clib/clib.mllib | 40 + clib/dyn.ml | 161 ++ clib/dyn.mli | 68 + clib/exninfo.ml | 106 + clib/exninfo.mli | 41 + clib/hMap.ml | 416 +++ clib/hMap.mli | 30 + clib/hashcons.ml | 188 ++ clib/hashcons.mli | 92 + clib/hashset.ml | 231 ++ clib/hashset.mli | 58 + clib/heap.ml | 136 + clib/heap.mli | 54 + clib/iStream.ml | 92 + clib/iStream.mli | 83 + clib/int.ml | 239 ++ clib/int.mli | 81 + clib/minisys.ml | 80 + clib/monad.ml | 170 ++ clib/monad.mli | 96 + clib/option.ml | 211 ++ clib/option.mli | 147 + clib/orderedType.ml | 35 + clib/orderedType.mli | 19 + clib/predicate.ml | 98 + clib/predicate.mli | 84 + clib/range.ml | 93 + clib/range.mli | 39 + clib/segmenttree.ml | 140 + clib/segmenttree.mli | 30 + clib/store.ml | 89 + clib/store.mli | 43 + clib/terminal.ml | 300 ++ clib/terminal.mli | 69 + clib/trie.ml | 91 + clib/trie.mli | 63 + clib/unicode.ml | 387 +++ clib/unicode.mli | 60 + clib/unicodetable.ml | 7427 ++++++++++++++++++++++++++++++++++++++++++++++++++ clib/unionfind.ml | 138 + clib/unionfind.mli | 82 + 68 files changed, 16475 insertions(+) create mode 100644 clib/backtrace.ml create mode 100644 clib/backtrace.mli create mode 100644 clib/bigint.ml create mode 100644 clib/bigint.mli create mode 100644 clib/cArray.ml create mode 100644 clib/cArray.mli create mode 100644 clib/cEphemeron.ml create mode 100644 clib/cEphemeron.mli create mode 100644 clib/cList.ml create mode 100644 clib/cList.mli create mode 100644 clib/cMap.ml create mode 100644 clib/cMap.mli create mode 100644 clib/cObj.ml create mode 100644 clib/cObj.mli create mode 100644 clib/cSet.ml create mode 100644 clib/cSet.mli create mode 100644 clib/cSig.mli create mode 100644 clib/cStack.ml create mode 100644 clib/cStack.mli create mode 100644 clib/cString.ml create mode 100644 clib/cString.mli create mode 100644 clib/cThread.ml create mode 100644 clib/cThread.mli create mode 100644 clib/cUnix.ml create mode 100644 clib/cUnix.mli create mode 100644 clib/canary.ml create mode 100644 clib/canary.mli create mode 100644 clib/clib.mllib create mode 100644 clib/dyn.ml create mode 100644 clib/dyn.mli create mode 100644 clib/exninfo.ml create mode 100644 clib/exninfo.mli create mode 100644 clib/hMap.ml create mode 100644 clib/hMap.mli create mode 100644 clib/hashcons.ml create mode 100644 clib/hashcons.mli create mode 100644 clib/hashset.ml create mode 100644 clib/hashset.mli create mode 100644 clib/heap.ml create mode 100644 clib/heap.mli create mode 100644 clib/iStream.ml create mode 100644 clib/iStream.mli create mode 100644 clib/int.ml create mode 100644 clib/int.mli create mode 100644 clib/minisys.ml create mode 100644 clib/monad.ml create mode 100644 clib/monad.mli create mode 100644 clib/option.ml create mode 100644 clib/option.mli create mode 100644 clib/orderedType.ml create mode 100644 clib/orderedType.mli create mode 100644 clib/predicate.ml create mode 100644 clib/predicate.mli create mode 100644 clib/range.ml create mode 100644 clib/range.mli create mode 100644 clib/segmenttree.ml create mode 100644 clib/segmenttree.mli create mode 100644 clib/store.ml create mode 100644 clib/store.mli create mode 100644 clib/terminal.ml create mode 100644 clib/terminal.mli create mode 100644 clib/trie.ml create mode 100644 clib/trie.mli create mode 100644 clib/unicode.ml create mode 100644 clib/unicode.mli create mode 100644 clib/unicodetable.ml create mode 100644 clib/unionfind.ml create mode 100644 clib/unionfind.mli (limited to 'clib') diff --git a/clib/backtrace.ml b/clib/backtrace.ml new file mode 100644 index 00000000..27ed6fbf --- /dev/null +++ b/clib/backtrace.ml @@ -0,0 +1,119 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* raw_frame array option + = "caml_get_exception_backtrace" + +type t = raw_frame array list +(** List of partial raw stack frames, in reverse order *) + +let empty = [] + +let of_raw = function +| Unknown_location r -> + { frame_location = None; frame_raised = r; } +| Known_location (r, file, line, st, en) -> + let loc = { + loc_filename = file; + loc_line = line; + loc_start = st; + loc_end = en; + } in + { frame_location = Some loc; frame_raised = r; } + +let rec repr_aux accu = function +| [] -> accu +| fragment :: stack -> + let len = Array.length fragment in + let rec append accu i = + if i = len then accu + else append (of_raw fragment.(i) :: accu) (succ i) + in + repr_aux (append accu 0) stack + +let repr bt = repr_aux [] (List.rev bt) + +let push stack = match get_exception_backtrace () with +| None -> [] +| Some frames -> frames :: stack + +(** Utilities *) + +let print_frame frame = + let raise = if frame.frame_raised then "raise" else "frame" in + match frame.frame_location with + | None -> Printf.sprintf "%s @ unknown" raise + | Some loc -> + Printf.sprintf "%s @ file \"%s\", line %d, characters %d-%d" + raise loc.loc_filename loc.loc_line loc.loc_start loc.loc_end + +(** Exception manipulation *) + +let backtrace : t Exninfo.t = Exninfo.make () + +let is_recording = ref false + +let record_backtrace b = + let () = Printexc.record_backtrace b in + is_recording := b + +let get_backtrace e = + Exninfo.get e backtrace + +let add_backtrace e = + if !is_recording then + (** This must be the first function call, otherwise the stack may be + destroyed *) + let current = get_exception_backtrace () in + let info = Exninfo.info e in + begin match current with + | None -> (e, info) + | Some fragment -> + let bt = match get_backtrace info with + | None -> [] + | Some bt -> bt + in + let bt = fragment :: bt in + (e, Exninfo.add info backtrace bt) + end + else + let info = Exninfo.info e in + (e, info) + +let app_backtrace ~src ~dst = + if !is_recording then + match get_backtrace src with + | None -> dst + | Some bt -> + match get_backtrace dst with + | None -> + Exninfo.add dst backtrace bt + | Some nbt -> + let bt = bt @ nbt in + Exninfo.add dst backtrace bt + else dst diff --git a/clib/backtrace.mli b/clib/backtrace.mli new file mode 100644 index 00000000..cd315116 --- /dev/null +++ b/clib/backtrace.mli @@ -0,0 +1,98 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t +(** Add the current backtrace information to a given backtrace. *) + +val repr : t -> frame list +(** Represent a backtrace as a list of frames. Leftmost element is the outermost + call. *) + +(** {5 Utilities} *) + +val print_frame : frame -> string +(** Represent a frame. *) + +(** {5 Exception handling} *) + +val record_backtrace : bool -> unit +(** Whether to activate the backtrace recording mechanism. Note that it will + only work whenever the program was compiled with the [debug] flag. *) + +val get_backtrace : Exninfo.info -> t option +(** Retrieve the optional backtrace coming with the exception. *) + +val add_backtrace : exn -> Exninfo.iexn +(** Add the current backtrace information to the given exception. + + The intended use case is of the form: {[ + + try foo + with + | Bar -> bar + | err -> let err = add_backtrace err in baz + + ]} + + WARNING: any intermediate code between the [with] and the handler may + modify the backtrace. Yes, that includes [when] clauses. Ideally, what you + should do is something like: {[ + + try foo + with err -> + let err = add_backtrace err in + match err with + | Bar -> bar + | err -> baz + + ]} + + I admit that's a bit heavy, but there is not much to do... + +*) + +val app_backtrace : src:Exninfo.info -> dst:Exninfo.info -> Exninfo.info +(** Append the backtrace from [src] to [dst]. The returned exception is [dst] + except for its backtrace information. This is targeted at container + exceptions, that is, exceptions that contain exceptions. This way, one can + transfer the backtrace from the container to the underlying exception, as if + the latter was the one originally raised. *) diff --git a/clib/bigint.ml b/clib/bigint.ml new file mode 100644 index 00000000..9e7b44ee --- /dev/null +++ b/clib/bigint.ml @@ -0,0 +1,526 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* + let rec aux j l n = + if Int.equal j size then l else aux (j+1) (string_of_int (n mod 10) :: l) (n/10) + in String.concat "" (aux 0 [] n) + +(* The base is 10^size *) +let base = + let rec exp10 = function 0 -> 1 | n -> 10 * exp10 (n-1) in exp10 size + +(******************************************************************) +(* First, we represent all numbers by int arrays. + Later, we will optimize the particular case of small integers *) +(******************************************************************) + +module ArrayInt = struct + +(* Basic numbers *) +let zero = [||] + +let is_zero = function +| [||] -> true +| _ -> false + +(* An array is canonical when + - it is empty + - it is [|-1|] + - its first bloc is in [-base;-1[U]0;base[ + and the other blocs are in [0;base[. *) +(* +let canonical n = + let ok x = (0 <= x && x < base) in + let rec ok_tail k = (Int.equal k 0) || (ok n.(k) && ok_tail (k-1)) in + let ok_init x = (-base <= x && x < base && not (Int.equal x (-1)) && not (Int.equal x 0)) + in + (is_zero n) || (match n with [|-1|] -> true | _ -> false) || + (ok_init n.(0) && ok_tail (Array.length n - 1)) +*) + +(* [normalize_pos] : removing initial blocks of 0 *) + +let normalize_pos n = + let k = ref 0 in + while !k < Array.length n && Int.equal n.(!k) 0 do incr k done; + Array.sub n !k (Array.length n - !k) + +(* [normalize_neg] : avoid (-1) as first bloc. + input: an array with -1 as first bloc and other blocs in [0;base[ + output: a canonical array *) + +let normalize_neg n = + let k = ref 1 in + while !k < Array.length n && Int.equal n.(!k) (base - 1) do incr k done; + let n' = Array.sub n !k (Array.length n - !k) in + if Int.equal (Array.length n') 0 then [|-1|] else (n'.(0) <- n'.(0) - base; n') + +(* [normalize] : avoid 0 and (-1) as first bloc. + input: an array with first bloc in [-base;base[ and others in [0;base[ + output: a canonical array *) + +let normalize n = + if Int.equal (Array.length n) 0 then n + else if Int.equal n.(0) (-1) then normalize_neg n + else if Int.equal n.(0) 0 then normalize_pos n + else n + +(* Opposite (expects and returns canonical arrays) *) + +let neg m = + if is_zero m then zero else + let n = Array.copy m in + let i = ref (Array.length m - 1) in + while !i > 0 && Int.equal n.(!i) 0 do decr i done; + if Int.equal !i 0 then begin + n.(0) <- - n.(0); + (* n.(0) cannot be 0 since m is canonical *) + if Int.equal n.(0) (-1) then normalize_neg n + else if Int.equal n.(0) base then (n.(0) <- 0; Array.append [| 1 |] n) + else n + end else begin + (* here n.(!i) <> 0, hence 0 < base - n.(!i) < base for n canonical *) + n.(!i) <- base - n.(!i); decr i; + while !i > 0 do n.(!i) <- base - 1 - n.(!i); decr i done; + (* since -base <= n.(0) <= base-1, hence -base <= -n.(0)-1 <= base-1 *) + n.(0) <- - n.(0) - 1; + (* since m is canonical, m.(0)<>0 hence n.(0)<>-1, + and m=-1 is already handled above, so here m.(0)<>-1 hence n.(0)<>0 *) + n + end + +let push_carry r j = + let j = ref j in + while !j > 0 && r.(!j) < 0 do + r.(!j) <- r.(!j) + base; decr j; r.(!j) <- r.(!j) - 1 + done; + while !j > 0 && r.(!j) >= base do + r.(!j) <- r.(!j) - base; decr j; r.(!j) <- r.(!j) + 1 + done; + (* here r.(0) could be in [-2*base;2*base-1] *) + if r.(0) >= base then (r.(0) <- r.(0) - base; Array.append [| 1 |] r) + else if r.(0) < -base then (r.(0) <- r.(0) + 2*base; Array.append [| -2 |] r) + else normalize r (* in case r.(0) is 0 or -1 *) + +let add_to r a j = + if is_zero a then r else begin + for i = Array.length r - 1 downto j+1 do + r.(i) <- r.(i) + a.(i-j); + if r.(i) >= base then (r.(i) <- r.(i) - base; r.(i-1) <- r.(i-1) + 1) + done; + r.(j) <- r.(j) + a.(0); + push_carry r j + end + +let add n m = + let d = Array.length n - Array.length m in + if d > 0 then add_to (Array.copy n) m d else add_to (Array.copy m) n (-d) + +let sub_to r a j = + if is_zero a then r else begin + for i = Array.length r - 1 downto j+1 do + r.(i) <- r.(i) - a.(i-j); + if r.(i) < 0 then (r.(i) <- r.(i) + base; r.(i-1) <- r.(i-1) - 1) + done; + r.(j) <- r.(j) - a.(0); + push_carry r j + end + +let sub n m = + let d = Array.length n - Array.length m in + if d >= 0 then sub_to (Array.copy n) m d + else let r = neg m in add_to r n (Array.length r - Array.length n) + +let mult m n = + if is_zero m || is_zero n then zero else + let l = Array.length m + Array.length n in + let r = Array.make l 0 in + for i = Array.length m - 1 downto 0 do + for j = Array.length n - 1 downto 0 do + let p = m.(i) * n.(j) + r.(i+j+1) in + let (q,s) = + if p < 0 + then (p + 1) / base - 1, (p + 1) mod base + base - 1 + else p / base, p mod base in + r.(i+j+1) <- s; + if not (Int.equal q 0) then r.(i+j) <- r.(i+j) + q; + done + done; + normalize r + +(* Comparisons *) + +let is_strictly_neg n = not (is_zero n) && n.(0) < 0 +let is_strictly_pos n = not (is_zero n) && n.(0) > 0 +let is_neg_or_zero n = is_zero n || n.(0) < 0 +let is_pos_or_zero n = is_zero n || n.(0) > 0 + +(* Is m without its i first blocs less then n without its j first blocs ? + Invariant : |m|-i = |n|-j *) + +let rec less_than_same_size m n i j = + i < Array.length m && + (m.(i) < n.(j) || (Int.equal m.(i) n.(j) && less_than_same_size m n (i+1) (j+1))) + +let less_than m n = + if is_strictly_neg m then + is_pos_or_zero n || Array.length m > Array.length n + || (Int.equal (Array.length m) (Array.length n) && less_than_same_size m n 0 0) + else + is_strictly_pos n && (Array.length m < Array.length n || + (Int.equal (Array.length m) (Array.length n) && less_than_same_size m n 0 0)) + +(* For this equality test it is critical that n and m are canonical *) + +let rec array_eq len v1 v2 i = + if Int.equal len i then true + else + Int.equal v1.(i) v2.(i) && array_eq len v1 v2 (succ i) + +let equal m n = + let lenm = Array.length m in + let lenn = Array.length n in + (Int.equal lenm lenn) && (array_eq lenm m n 0) + +(* Is m without its k top blocs less than n ? *) + +let less_than_shift_pos k m n = + (Array.length m - k < Array.length n) + || (Int.equal (Array.length m - k) (Array.length n) && less_than_same_size m n k 0) + +let rec can_divide k m d i = + (Int.equal i (Array.length d)) || + (m.(k+i) > d.(i)) || + (Int.equal m.(k+i) d.(i) && can_divide k m d (i+1)) + +(* For two big nums m and d and a small number q, + computes m - d * q * base^(|m|-|d|-k) in-place (in m). + Both m d and q are positive. *) + +let sub_mult m d q k = + if not (Int.equal q 0) then + for i = Array.length d - 1 downto 0 do + let v = d.(i) * q in + m.(k+i) <- m.(k+i) - v mod base; + if m.(k+i) < 0 then (m.(k+i) <- m.(k+i) + base; m.(k+i-1) <- m.(k+i-1) -1); + if v >= base then begin + m.(k+i-1) <- m.(k+i-1) - v / base; + let j = ref (i-1) in + while m.(k + !j) < 0 do (* result is positive, hence !j remains >= 0 *) + m.(k + !j) <- m.(k + !j) + base; decr j; m.(k + !j) <- m.(k + !j) -1 + done + end + done + +(** Euclid division m/d = (q,r), with m = q*d+r and |r|<|q|. + This is the "Trunc" variant (a.k.a "Truncated-Toward-Zero"), + as with ocaml's / (but not as ocaml's Big_int.quomod_big_int). + We have sign r = sign m *) + +let euclid m d = + let isnegm, m = + if is_strictly_neg m then (-1),neg m else 1,Array.copy m in + let isnegd, d = if is_strictly_neg d then (-1),neg d else 1,d in + if is_zero d then raise Division_by_zero; + let q,r = + if less_than m d then (zero,m) else + let ql = Array.length m - Array.length d in + let q = Array.make (ql+1) 0 in + let i = ref 0 in + while not (less_than_shift_pos !i m d) do + if Int.equal m.(!i) 0 then incr i else + if can_divide !i m d 0 then begin + let v = + if Array.length d > 1 && not (Int.equal d.(0) m.(!i)) then + (m.(!i) * base + m.(!i+1)) / (d.(0) * base + d.(1) + 1) + else + m.(!i) / d.(0) in + q.(!i) <- q.(!i) + v; + sub_mult m d v !i + end else begin + let v = (m.(!i) * base + m.(!i+1)) / (d.(0) + 1) in + q.(!i) <- q.(!i) + v / base; + sub_mult m d (v / base) !i; + q.(!i+1) <- q.(!i+1) + v mod base; + if q.(!i+1) >= base then + (q.(!i+1) <- q.(!i+1)-base; q.(!i) <- q.(!i)+1); + sub_mult m d (v mod base) (!i+1) + end + done; + (normalize q, normalize m) in + (if Int.equal (isnegd * isnegm) (-1) then neg q else q), + (if Int.equal isnegm (-1) then neg r else r) + +(* Parsing/printing ordinary 10-based numbers *) + +let of_string s = + let len = String.length s in + let isneg = len > 1 && s.[0] == '-' in + let d = ref (if isneg then 1 else 0) in + while !d < len && s.[!d] == '0' do incr d done; + if Int.equal !d len then zero else + let r = (len - !d) mod size in + let h = String.sub s (!d) r in + let e = match h with "" -> 0 | _ -> 1 in + let l = (len - !d) / size in + let a = Array.make (l + e) 0 in + if Int.equal e 1 then a.(0) <- int_of_string h; + for i = 1 to l do + a.(i+e-1) <- int_of_string (String.sub s ((i-1)*size + !d + r) size) + done; + if isneg then neg a else a + +let to_string_pos sgn n = + if Int.equal (Array.length n) 0 then "0" else + sgn ^ + String.concat "" + (string_of_int n.(0) :: List.map format_size (List.tl (Array.to_list n))) + +let to_string n = + if is_strictly_neg n then to_string_pos "-" (neg n) + else to_string_pos "" n + +end + +(******************************************************************) +(* Optimized operations on (unbounded) integer numbers *) +(* integers smaller than base are represented as machine integers *) +(******************************************************************) + +open ArrayInt + +type bigint = Obj.t + +(* Since base is the largest power of 10 such that base*base <= max_int, + we have max_int < 100*base*base : any int can be represented + by at most three blocs *) + +let small n = (-base <= n) && (n < base) + +let mkarray n = + (* n isn't small, this case is handled separately below *) + let lo = n mod base + and hi = n / base in + let t = if small hi then [|hi;lo|] else [|hi/base;hi mod base;lo|] + in + for i = Array.length t -1 downto 1 do + if t.(i) < 0 then (t.(i) <- t.(i) + base; t.(i-1) <- t.(i-1) -1) + done; + t + +let ints_of_int n = + if Int.equal n 0 then [| |] + else if small n then [| n |] + else mkarray n + +let of_int n = + if small n then Obj.repr n else Obj.repr (mkarray n) + +let of_ints n = + let n = normalize n in (* TODO: using normalize here seems redundant now *) + if is_zero n then Obj.repr 0 else + if Int.equal (Array.length n) 1 then Obj.repr n.(0) else + Obj.repr n + +let coerce_to_int = (Obj.magic : Obj.t -> int) +let coerce_to_ints = (Obj.magic : Obj.t -> int array) + +let to_ints n = + if Obj.is_int n then ints_of_int (coerce_to_int n) + else coerce_to_ints n + +let int_of_ints = + let maxi = mkarray max_int and mini = mkarray min_int in + fun t -> + let l = Array.length t in + if (l > 3) || (Int.equal l 3 && (less_than maxi t || less_than t mini)) + then failwith "Bigint.to_int: too large"; + let sum = ref 0 in + let pow = ref 1 in + for i = l-1 downto 0 do + sum := !sum + t.(i) * !pow; + pow := !pow*base; + done; + !sum + +let to_int n = + if Obj.is_int n then coerce_to_int n + else int_of_ints (coerce_to_ints n) + +let app_pair f (m, n) = + (f m, f n) + +let add m n = + if Obj.is_int m && Obj.is_int n + then of_int (coerce_to_int m + coerce_to_int n) + else of_ints (add (to_ints m) (to_ints n)) + +let sub m n = + if Obj.is_int m && Obj.is_int n + then of_int (coerce_to_int m - coerce_to_int n) + else of_ints (sub (to_ints m) (to_ints n)) + +let mult m n = + if Obj.is_int m && Obj.is_int n + then of_int (coerce_to_int m * coerce_to_int n) + else of_ints (mult (to_ints m) (to_ints n)) + +let euclid m n = + if Obj.is_int m && Obj.is_int n + then app_pair of_int + (coerce_to_int m / coerce_to_int n, coerce_to_int m mod coerce_to_int n) + else app_pair of_ints (euclid (to_ints m) (to_ints n)) + +let less_than m n = + if Obj.is_int m && Obj.is_int n + then coerce_to_int m < coerce_to_int n + else less_than (to_ints m) (to_ints n) + +let neg n = + if Obj.is_int n then of_int (- (coerce_to_int n)) + else of_ints (neg (to_ints n)) + +let of_string m = of_ints (of_string m) +let to_string m = to_string (to_ints m) + +let zero = of_int 0 +let one = of_int 1 +let two = of_int 2 +let sub_1 n = sub n one +let add_1 n = add n one +let mult_2 n = add n n + +let div2_with_rest n = + let (q,b) = euclid n two in + (q, b == one) + +let is_strictly_neg n = is_strictly_neg (to_ints n) +let is_strictly_pos n = is_strictly_pos (to_ints n) +let is_neg_or_zero n = is_neg_or_zero (to_ints n) +let is_pos_or_zero n = is_pos_or_zero (to_ints n) + +let equal m n = + if Obj.is_block m && Obj.is_block n then + ArrayInt.equal (Obj.obj m) (Obj.obj n) + else m == n + +(* spiwack: computes n^m *) +(* The basic idea of the algorithm is that n^(2m) = (n^2)^m *) +(* In practice the algorithm performs : + k*n^0 = k + k*n^(2m) = k*(n*n)^m + k*n^(2m+1) = (n*k)*(n*n)^m *) +let pow = + let rec pow_aux odd_rest n m = (* odd_rest is the k from above *) + if m<=0 then + odd_rest + else + let quo = m lsr 1 (* i.e. m/2 *) + and odd = not (Int.equal (m land 1) 0) in + pow_aux + (if odd then mult n odd_rest else odd_rest) + (mult n n) + quo + in + pow_aux one + +(** Testing suite w.r.t. OCaml's Big_int *) + +(* +module B = struct + open Big_int + let zero = zero_big_int + let to_string = string_of_big_int + let of_string = big_int_of_string + let add = add_big_int + let opp = minus_big_int + let sub = sub_big_int + let mul = mult_big_int + let abs = abs_big_int + let sign = sign_big_int + let euclid n m = + let n' = abs n and m' = abs m in + let q',r' = quomod_big_int n' m' in + (if sign (mul n m) < 0 && sign q' <> 0 then opp q' else q'), + (if sign n < 0 then opp r' else r') +end + +let check () = + let roots = [ 1; 100; base; 100*base; base*base ] in + let rands = [ 1234; 5678; 12345678; 987654321 ] in + let nums = (List.flatten (List.map (fun x -> [x-1;x;x+1]) roots)) @ rands in + let numbers = + List.map string_of_int nums @ + List.map (fun n -> string_of_int (-n)) nums + in + let i = ref 0 in + let compare op x y n n' = + incr i; + let s = Printf.sprintf "%30s" (to_string n) in + let s' = Printf.sprintf "%30s" (B.to_string n') in + if s <> s' then Printf.printf "%s%s%s: %s <> %s\n" x op y s s' in + let test x y = + let n = of_string x and m = of_string y in + let n' = B.of_string x and m' = B.of_string y in + let a = add n m and a' = B.add n' m' in + let s = sub n m and s' = B.sub n' m' in + let p = mult n m and p' = B.mul n' m' in + let q,r = try euclid n m with Division_by_zero -> zero,zero + and q',r' = try B.euclid n' m' with Division_by_zero -> B.zero, B.zero + in + compare "+" x y a a'; + compare "-" x y s s'; + compare "*" x y p p'; + compare "/" x y q q'; + compare "%" x y r r' + in + List.iter (fun a -> List.iter (test a) numbers) numbers; + Printf.printf "%i tests done\n" !i +*) diff --git a/clib/bigint.mli b/clib/bigint.mli new file mode 100644 index 00000000..ac66b41f --- /dev/null +++ b/clib/bigint.mli @@ -0,0 +1,52 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* bigint +(** May raise a Failure just as [int_of_string] on non-numerical strings *) + +val to_string : bigint -> string + +val of_int : int -> bigint +val to_int : bigint -> int (** May raise a Failure on oversized numbers *) + +val zero : bigint +val one : bigint +val two : bigint + +val div2_with_rest : bigint -> bigint * bool (** true=odd; false=even *) +val add_1 : bigint -> bigint +val sub_1 : bigint -> bigint +val mult_2 : bigint -> bigint + +val add : bigint -> bigint -> bigint +val sub : bigint -> bigint -> bigint +val mult : bigint -> bigint -> bigint + +(** Euclid division m/d = (q,r), with m = q*d+r and |r|<|q|. + This is the "Trunc" variant (a.k.a "Truncated-Toward-Zero"), + as with ocaml's / (but not as ocaml's Big_int.quomod_big_int). + We have sign r = sign m *) + +val euclid : bigint -> bigint -> bigint * bigint + +val less_than : bigint -> bigint -> bool +val equal : bigint -> bigint -> bool + +val is_strictly_pos : bigint -> bool +val is_strictly_neg : bigint -> bool +val is_pos_or_zero : bigint -> bool +val is_neg_or_zero : bigint -> bool +val neg : bigint -> bigint + +val pow : bigint -> int -> bigint diff --git a/clib/cArray.ml b/clib/cArray.ml new file mode 100644 index 00000000..e2b1a7be --- /dev/null +++ b/clib/cArray.ml @@ -0,0 +1,550 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a -> int) -> 'a array -> 'a array -> int + val equal : ('a -> 'a -> bool) -> 'a array -> 'a array -> bool + val equal_norefl : ('a -> 'a -> bool) -> 'a array -> 'a array -> bool + val is_empty : 'a array -> bool + val exists : ('a -> bool) -> 'a array -> bool + val exists2 : ('a -> 'b -> bool) -> 'a array -> 'b array -> bool + val for_all : ('a -> bool) -> 'a array -> bool + val for_all2 : ('a -> 'b -> bool) -> 'a array -> 'b array -> bool + val for_all3 : ('a -> 'b -> 'c -> bool) -> + 'a array -> 'b array -> 'c array -> bool + val for_all4 : ('a -> 'b -> 'c -> 'd -> bool) -> + 'a array -> 'b array -> 'c array -> 'd array -> bool + val for_all_i : (int -> 'a -> bool) -> int -> 'a array -> bool + val findi : (int -> 'a -> bool) -> 'a array -> int option + val hd : 'a array -> 'a + val tl : 'a array -> 'a array + val last : 'a array -> 'a + val cons : 'a -> 'a array -> 'a array + val rev : 'a array -> unit + val fold_right_i : + (int -> 'b -> 'a -> 'a) -> 'b array -> 'a -> 'a + val fold_left_i : (int -> 'a -> 'b -> 'a) -> 'a -> 'b array -> 'a + val fold_right2 : + ('a -> 'b -> 'c -> 'c) -> 'a array -> 'b array -> 'c -> 'c + val fold_left2 : + ('a -> 'b -> 'c -> 'a) -> 'a -> 'b array -> 'c array -> 'a + val fold_left3 : + ('a -> 'b -> 'c -> 'd -> 'a) -> 'a -> 'b array -> 'c array -> 'd array -> 'a + val fold_left2_i : + (int -> 'a -> 'b -> 'c -> 'a) -> 'a -> 'b array -> 'c array -> 'a + val fold_left_from : int -> ('a -> 'b -> 'a) -> 'a -> 'b array -> 'a + val map_to_list : ('a -> 'b) -> 'a array -> 'b list + val map_of_list : ('a -> 'b) -> 'a list -> 'b array + val chop : int -> 'a array -> 'a array * 'a array + val smartmap : ('a -> 'a) -> 'a array -> 'a array + val smartfoldmap : ('r -> 'a -> 'r * 'a) -> 'r -> 'a array -> 'r * 'a array + val map2 : ('a -> 'b -> 'c) -> 'a array -> 'b array -> 'c array + val map2_i : (int -> 'a -> 'b -> 'c) -> 'a array -> 'b array -> 'c array + val map3 : + ('a -> 'b -> 'c -> 'd) -> 'a array -> 'b array -> 'c array -> 'd array + val map_left : ('a -> 'b) -> 'a array -> 'b array + val iter2 : ('a -> 'b -> unit) -> 'a array -> 'b array -> unit + val fold_left_map : ('a -> 'b -> 'a * 'c) -> 'a -> 'b array -> 'a * 'c array + val fold_right_map : ('a -> 'c -> 'b * 'c) -> 'a array -> 'c -> 'b array * 'c + val fold_left2_map : ('a -> 'b -> 'c -> 'a * 'd) -> 'a -> 'b array -> 'c array -> 'a * 'd array + val fold_right2_map : ('a -> 'b -> 'c -> 'd * 'c) -> 'a array -> 'b array -> 'c -> 'd array * 'c + val fold_map : ('a -> 'b -> 'a * 'c) -> 'a -> 'b array -> 'a * 'c array + [@@ocaml.deprecated "Same as [fold_left_map]"] + val fold_map' : ('a -> 'c -> 'b * 'c) -> 'a array -> 'c -> 'b array * 'c + [@@ocaml.deprecated "Same as [fold_right_map]"] + val fold_map2' : + ('a -> 'b -> 'c -> 'd * 'c) -> 'a array -> 'b array -> 'c -> 'd array * 'c + [@@ocaml.deprecated "Same as [fold_right2_map]"] + val distinct : 'a array -> bool + val rev_of_list : 'a list -> 'a array + val rev_to_list : 'a array -> 'a list + val filter_with : bool list -> 'a array -> 'a array +end + +include Array + +let uget = Array.unsafe_get + +(* Arrays *) + +let compare cmp v1 v2 = + if v1 == v2 then 0 + else + let len = Array.length v1 in + let c = Int.compare len (Array.length v2) in + if c <> 0 then c else + let rec loop i = + if i < 0 then 0 + else + let x = uget v1 i in + let y = uget v2 i in + let c = cmp x y in + if c <> 0 then c + else loop (i - 1) + in + loop (len - 1) + +let equal_norefl cmp t1 t2 = + let len = Array.length t1 in + if not (Int.equal len (Array.length t2)) then false + else + let rec aux i = + if i < 0 then true + else + let x = uget t1 i in + let y = uget t2 i in + cmp x y && aux (pred i) + in + aux (len - 1) + +let equal cmp t1 t2 = + if t1 == t2 then true else equal_norefl cmp t1 t2 + + +let is_empty array = Int.equal (Array.length array) 0 + +let exists f v = + let rec exrec = function + | -1 -> false + | n -> f (uget v n) || (exrec (n-1)) + in + exrec ((Array.length v)-1) + +let exists2 f v1 v2 = + let rec exrec = function + | -1 -> false + | n -> f (uget v1 n) (uget v2 n) || (exrec (n-1)) + in + let lv1 = Array.length v1 in + lv1 = Array.length v2 && exrec (lv1-1) + +let for_all f v = + let rec allrec = function + | -1 -> true + | n -> + let ans = f (uget v n) in + ans && (allrec (n-1)) + in + allrec ((Array.length v)-1) + +let for_all2 f v1 v2 = + let rec allrec = function + | -1 -> true + | n -> + let ans = f (uget v1 n) (uget v2 n) in + ans && (allrec (n-1)) + in + let lv1 = Array.length v1 in + lv1 = Array.length v2 && allrec (pred lv1) + +let for_all3 f v1 v2 v3 = + let rec allrec = function + | -1 -> true + | n -> + let ans = f (uget v1 n) + (uget v2 n) (uget v3 n) + in + ans && (allrec (n-1)) + in + let lv1 = Array.length v1 in + lv1 = Array.length v2 && lv1 = Array.length v3 && allrec (pred lv1) + +let for_all4 f v1 v2 v3 v4 = + let rec allrec = function + | -1 -> true + | n -> + let ans = f (uget v1 n) + (uget v2 n) (uget v3 n) (uget v4 n) + in + ans && (allrec (n-1)) + in + let lv1 = Array.length v1 in + lv1 = Array.length v2 && + lv1 = Array.length v3 && + lv1 = Array.length v4 && + allrec (pred lv1) + +let for_all_i f i v = + let len = Array.length v in + let rec allrec i n = + n = len || f i (uget v n) && allrec (i+1) (n+1) in + allrec i 0 + +exception Found of int + +let findi (pred: int -> 'a -> bool) (arr: 'a array) : int option = + try + for i=0 to Array.length arr - 1 do + if pred i (uget arr i) then raise (Found i) done; + None + with Found i -> Some i + +let hd v = + match Array.length v with + | 0 -> failwith "Array.hd" + | _ -> uget v 0 + +let tl v = + match Array.length v with + | 0 -> failwith "Array.tl" + | n -> Array.sub v 1 (pred n) + +let last v = + match Array.length v with + | 0 -> failwith "Array.last" + | n -> uget v (pred n) + +let cons e v = + let len = Array.length v in + let ans = Array.make (Array.length v + 1) e in + let () = Array.blit v 0 ans 1 len in + ans + +let rev t = + let n=Array.length t in + if n <=0 then () + else + for i = 0 to pred (n/2) do + let tmp = uget t ((pred n)-i) in + Array.unsafe_set t ((pred n)-i) (uget t i); + Array.unsafe_set t i tmp + done + +let fold_right_i f v a = + let rec fold a n = + if n=0 then a + else + let k = n-1 in + fold (f k (uget v k) a) k in + fold a (Array.length v) + +let fold_left_i f v a = + let n = Array.length a in + let rec fold i v = if i = n then v else fold (succ i) (f i v (uget a i)) in + fold 0 v + +let fold_right2 f v1 v2 a = + let lv1 = Array.length v1 in + let rec fold a n = + if n=0 then a + else + let k = n-1 in + fold (f (uget v1 k) (uget v2 k) a) k in + if Array.length v2 <> lv1 then invalid_arg "Array.fold_right2"; + fold a lv1 + +let fold_left2 f a v1 v2 = + let lv1 = Array.length v1 in + let rec fold a n = + if n >= lv1 then a else fold (f a (uget v1 n) (uget v2 n)) (succ n) + in + if Array.length v2 <> lv1 then invalid_arg "Array.fold_left2"; + fold a 0 + +let fold_left2_i f a v1 v2 = + let lv1 = Array.length v1 in + let rec fold a n = + if n >= lv1 then a else fold (f n a (uget v1 n) (uget v2 n)) (succ n) + in + if Array.length v2 <> lv1 then invalid_arg "Array.fold_left2"; + fold a 0 + +let fold_left3 f a v1 v2 v3 = + let lv1 = Array.length v1 in + let rec fold a n = + if n >= lv1 then a + else fold (f a (uget v1 n) (uget v2 n) (uget v3 n)) (succ n) + in + if Array.length v2 <> lv1 || Array.length v3 <> lv1 then + invalid_arg "Array.fold_left2"; + fold a 0 + +let fold_left_from n f a v = + let len = Array.length v in + let () = if n < 0 then invalid_arg "Array.fold_left_from" in + let rec fold a n = + if n >= len then a else fold (f a (uget v n)) (succ n) + in + fold a n + +let rev_of_list = function +| [] -> [| |] +| x :: l -> + let len = List.length l in + let ans = Array.make (succ len) x in + let rec set i = function + | [] -> () + | x :: l -> + Array.unsafe_set ans i x; + set (pred i) l + in + let () = set (len - 1) l in + ans + +let map_to_list = CList.map_of_array + +let map_of_list f l = + let len = List.length l in + let rec fill i v = function + | [] -> () + | x :: l -> + Array.unsafe_set v i (f x); + fill (succ i) v l + in + match l with + | [] -> [||] + | x :: l -> + let ans = Array.make len (f x) in + let () = fill 1 ans l in + ans + +let chop n v = + let vlen = Array.length v in + if n > vlen then failwith "Array.chop"; + (Array.sub v 0 n, Array.sub v n (vlen-n)) + +(* If none of the elements is changed by f we return ar itself. + The while loop looks for the first such an element. + If found, we break here and the new array is produced, + but f is not re-applied to elements that are already checked *) +let smartmap f (ar : 'a array) = + let len = Array.length ar in + let i = ref 0 in + let break = ref true in + let temp = ref None in + while !break && (!i < len) do + let v = Array.unsafe_get ar !i in + let v' = f v in + if v == v' then incr i + else begin + break := false; + temp := Some v'; + end + done; + if !i < len then begin + (** The array is not the same as the original one *) + let ans : 'a array = Array.copy ar in + let v = match !temp with None -> assert false | Some x -> x in + Array.unsafe_set ans !i v; + incr i; + while !i < len do + let v = Array.unsafe_get ans !i in + let v' = f v in + if v != v' then Array.unsafe_set ans !i v'; + incr i + done; + ans + end else ar + +(** Same as [smartmap] but threads a state meanwhile *) +let smartfoldmap f accu (ar : 'a array) = + let len = Array.length ar in + let i = ref 0 in + let break = ref true in + let r = ref accu in + (** This variable is never accessed unset *) + let temp = ref None in + while !break && (!i < len) do + let v = Array.unsafe_get ar !i in + let (accu, v') = f !r v in + r := accu; + if v == v' then incr i + else begin + break := false; + temp := Some v'; + end + done; + if !i < len then begin + let ans : 'a array = Array.copy ar in + let v = match !temp with None -> assert false | Some x -> x in + Array.unsafe_set ans !i v; + incr i; + while !i < len do + let v = Array.unsafe_get ar !i in + let (accu, v') = f !r v in + r := accu; + if v != v' then Array.unsafe_set ans !i v'; + incr i + done; + !r, ans + end else !r, ar + +let map2 f v1 v2 = + let len1 = Array.length v1 in + let len2 = Array.length v2 in + let () = if not (Int.equal len1 len2) then invalid_arg "Array.map2" in + if Int.equal len1 0 then + [| |] + else begin + let res = Array.make len1 (f (uget v1 0) (uget v2 0)) in + for i = 1 to pred len1 do + Array.unsafe_set res i (f (uget v1 i) (uget v2 i)) + done; + res + end + +let map2_i f v1 v2 = + let len1 = Array.length v1 in + let len2 = Array.length v2 in + let () = if not (Int.equal len1 len2) then invalid_arg "Array.map2" in + if Int.equal len1 0 then + [| |] + else begin + let res = Array.make len1 (f 0 (uget v1 0) (uget v2 0)) in + for i = 1 to pred len1 do + Array.unsafe_set res i (f i (uget v1 i) (uget v2 i)) + done; + res + end + +let map3 f v1 v2 v3 = + let len1 = Array.length v1 in + let () = + if len1 <> Array.length v2 || len1 <> Array.length v3 + then invalid_arg "Array.map3" + in + if Int.equal len1 0 then + [| |] + else begin + let res = Array.make len1 (f (uget v1 0) (uget v2 0) (uget v3 0)) in + for i = 1 to pred len1 do + Array.unsafe_set res i (f (uget v1 i) (uget v2 i) (uget v3 i)) + done; + res + end + +let map_left f a = (* Ocaml does not guarantee Array.map is LR *) + let l = Array.length a in (* (even if so), then we rewrite it *) + if Int.equal l 0 then [||] else begin + let r = Array.make l (f (uget a 0)) in + for i = 1 to l - 1 do + Array.unsafe_set r i (f (uget a i)) + done; + r + end + +let iter2 f v1 v2 = + let len1 = Array.length v1 in + let len2 = Array.length v2 in + let () = if not (Int.equal len2 len1) then invalid_arg "Array.iter2" in + for i = 0 to len1 - 1 do f (uget v1 i) (uget v2 i) done + +let pure_functional = false + +let fold_right_map f v e = +if pure_functional then + let (l,e) = + Array.fold_right + (fun x (l,e) -> let (y,e) = f x e in (y::l,e)) + v ([],e) in + (Array.of_list l,e) +else + let e' = ref e in + let v' = Array.map (fun x -> let (y,e) = f x !e' in e' := e; y) v in + (v',!e') + +let fold_map' = fold_right_map + +let fold_left_map f e v = + let e' = ref e in + let v' = Array.map (fun x -> let (e,y) = f !e' x in e' := e; y) v in + (!e',v') + +let fold_map = fold_left_map + +let fold_right2_map f v1 v2 e = + let e' = ref e in + let v' = + map2 (fun x1 x2 -> let (y,e) = f x1 x2 !e' in e' := e; y) v1 v2 + in + (v',!e') + +let fold_map2' = fold_right2_map + +let fold_left2_map f e v1 v2 = + let e' = ref e in + let v' = map2 (fun x1 x2 -> let (e,y) = f !e' x1 x2 in e' := e; y) v1 v2 in + (!e',v') + +let distinct v = + let visited = Hashtbl.create 23 in + try + Array.iter + (fun x -> + if Hashtbl.mem visited x then raise Exit + else Hashtbl.add visited x x) + v; + true + with Exit -> false + +let rev_to_list a = + let rec tolist i res = + if i >= Array.length a then res else tolist (i+1) (uget a i :: res) in + tolist 0 [] + +let filter_with filter v = + Array.of_list (CList.filter_with filter (Array.to_list v)) + +module Fun1 = +struct + + let map f arg v = match v with + | [| |] -> [| |] + | _ -> + let len = Array.length v in + let x0 = Array.unsafe_get v 0 in + let ans = Array.make len (f arg x0) in + for i = 1 to pred len do + let x = Array.unsafe_get v i in + Array.unsafe_set ans i (f arg x) + done; + ans + + let smartmap f arg (ar : 'a array) = + let len = Array.length ar in + let i = ref 0 in + let break = ref true in + let temp = ref None in + while !break && (!i < len) do + let v = Array.unsafe_get ar !i in + let v' = f arg v in + if v == v' then incr i + else begin + break := false; + temp := Some v'; + end + done; + if !i < len then begin + (** The array is not the same as the original one *) + let ans : 'a array = Array.copy ar in + let v = match !temp with None -> assert false | Some x -> x in + Array.unsafe_set ans !i v; + incr i; + while !i < len do + let v = Array.unsafe_get ans !i in + let v' = f arg v in + if v != v' then Array.unsafe_set ans !i v'; + incr i + done; + ans + end else ar + + let iter f arg v = + let len = Array.length v in + for i = 0 to pred len do + let x = uget v i in + f arg x + done + +end diff --git a/clib/cArray.mli b/clib/cArray.mli new file mode 100644 index 00000000..fa3978bd --- /dev/null +++ b/clib/cArray.mli @@ -0,0 +1,157 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a -> int) -> 'a array -> 'a array -> int + (** First size comparison, then lexicographic order. *) + + val equal : ('a -> 'a -> bool) -> 'a array -> 'a array -> bool + (** Lift equality to array type. *) + + val equal_norefl : ('a -> 'a -> bool) -> 'a array -> 'a array -> bool + (** Like {!equal} but does not assume that equality is reflexive: no + optimisation is performed if both arrays are physically the + same. *) + + val is_empty : 'a array -> bool + (** True whenever the array is empty. *) + + val exists : ('a -> bool) -> 'a array -> bool + (** As [List.exists] but on arrays. *) + + val exists2 : ('a -> 'b -> bool) -> 'a array -> 'b array -> bool + + val for_all : ('a -> bool) -> 'a array -> bool + val for_all2 : ('a -> 'b -> bool) -> 'a array -> 'b array -> bool + val for_all3 : ('a -> 'b -> 'c -> bool) -> + 'a array -> 'b array -> 'c array -> bool + val for_all4 : ('a -> 'b -> 'c -> 'd -> bool) -> + 'a array -> 'b array -> 'c array -> 'd array -> bool + val for_all_i : (int -> 'a -> bool) -> int -> 'a array -> bool + + val findi : (int -> 'a -> bool) -> 'a array -> int option + + val hd : 'a array -> 'a + (** First element of an array, or [Failure "Array.hd"] if empty. *) + + val tl : 'a array -> 'a array + (** Remaining part of [hd], or [Failure "Array.tl"] if empty. *) + + val last : 'a array -> 'a + (** Last element of an array, or [Failure "Array.last"] if empty. *) + + val cons : 'a -> 'a array -> 'a array + (** Append an element on the left. *) + + val rev : 'a array -> unit + (** In place reversal. *) + + val fold_right_i : + (int -> 'b -> 'a -> 'a) -> 'b array -> 'a -> 'a + val fold_left_i : (int -> 'a -> 'b -> 'a) -> 'a -> 'b array -> 'a + val fold_right2 : + ('a -> 'b -> 'c -> 'c) -> 'a array -> 'b array -> 'c -> 'c + val fold_left2 : + ('a -> 'b -> 'c -> 'a) -> 'a -> 'b array -> 'c array -> 'a + val fold_left3 : + ('a -> 'b -> 'c -> 'd -> 'a) -> 'a -> 'b array -> 'c array -> 'd array -> 'a + val fold_left2_i : + (int -> 'a -> 'b -> 'c -> 'a) -> 'a -> 'b array -> 'c array -> 'a + val fold_left_from : int -> ('a -> 'b -> 'a) -> 'a -> 'b array -> 'a + + val map_to_list : ('a -> 'b) -> 'a array -> 'b list + (** Composition of [map] and [to_list]. *) + + val map_of_list : ('a -> 'b) -> 'a list -> 'b array + (** Composition of [map] and [of_list]. *) + + val chop : int -> 'a array -> 'a array * 'a array + (** [chop i a] returns [(a1, a2)] s.t. [a = a1 + a2] and [length a1 = n]. + Raise [Failure "Array.chop"] if [i] is not a valid index. *) + + val smartmap : ('a -> 'a) -> 'a array -> 'a array + (** [smartmap f a] behaves as [map f a] but returns [a] instead of a copy when + [f x == x] for all [x] in [a]. *) + + val smartfoldmap : ('r -> 'a -> 'r * 'a) -> 'r -> 'a array -> 'r * 'a array + (** Same as [smartmap] but threads an additional state left-to-right. *) + + val map2 : ('a -> 'b -> 'c) -> 'a array -> 'b array -> 'c array + val map2_i : (int -> 'a -> 'b -> 'c) -> 'a array -> 'b array -> 'c array + val map3 : + ('a -> 'b -> 'c -> 'd) -> 'a array -> 'b array -> 'c array -> 'd array + + val map_left : ('a -> 'b) -> 'a array -> 'b array + (** As [map] but guaranteed to be left-to-right. *) + + val iter2 : ('a -> 'b -> unit) -> 'a array -> 'b array -> unit + (** Iter on two arrays. Raise [Invalid_argument "Array.iter2"] if sizes differ. *) + + val fold_left_map : ('a -> 'b -> 'a * 'c) -> 'a -> 'b array -> 'a * 'c array + (** [fold_left_map f e_0 [|l_1...l_n|] = e_n,[|k_1...k_n|]] + where [(e_i,k_i)=f e_{i-1} l_i] *) + + val fold_right_map : ('a -> 'c -> 'b * 'c) -> 'a array -> 'c -> 'b array * 'c + (** Same, folding on the right *) + + val fold_left2_map : ('a -> 'b -> 'c -> 'a * 'd) -> 'a -> 'b array -> 'c array -> 'a * 'd array + (** Same with two arrays, folding on the left *) + + val fold_right2_map : ('a -> 'b -> 'c -> 'd * 'c) -> 'a array -> 'b array -> 'c -> 'd array * 'c + (** Same with two arrays, folding on the left *) + + val fold_map : ('a -> 'b -> 'a * 'c) -> 'a -> 'b array -> 'a * 'c array + [@@ocaml.deprecated "Same as [fold_left_map]"] + + val fold_map' : ('a -> 'c -> 'b * 'c) -> 'a array -> 'c -> 'b array * 'c + [@@ocaml.deprecated "Same as [fold_right_map]"] + + val fold_map2' : + ('a -> 'b -> 'c -> 'd * 'c) -> 'a array -> 'b array -> 'c -> 'd array * 'c + [@@ocaml.deprecated "Same as [fold_right2_map]"] + + val distinct : 'a array -> bool + (** Return [true] if every element of the array is unique (for default + equality). *) + + val rev_of_list : 'a list -> 'a array + (** [rev_of_list l] is equivalent to [Array.of_list (List.rev l)]. *) + + val rev_to_list : 'a array -> 'a list + (** [rev_to_list a] is equivalent to [List.rev (List.of_array a)]. *) + + val filter_with : bool list -> 'a array -> 'a array + (** [filter_with b a] selects elements of [a] whose corresponding element in + [b] is [true]. Raise [Invalid_argument _] when sizes differ. *) + +end + +include ExtS + +module Fun1 : +sig + val map : ('r -> 'a -> 'b) -> 'r -> 'a array -> 'b array + (** [Fun1.map f x v = map (f x) v] *) + + val smartmap : ('r -> 'a -> 'a) -> 'r -> 'a array -> 'a array + (** [Fun1.smartmap f x v = smartmap (f x) v] *) + + val iter : ('r -> 'a -> unit) -> 'r -> 'a array -> unit + (** [Fun1.iter f x v = iter (f x) v] *) + +end +(** The functions defined in this module are the same as the main ones, except + that they are all higher-order, and their function arguments have an + additional parameter. This allows us to prevent closure creation in critical + cases. *) diff --git a/clib/cEphemeron.ml b/clib/cEphemeron.ml new file mode 100644 index 00000000..3136d66e --- /dev/null +++ b/clib/cEphemeron.ml @@ -0,0 +1,91 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* boxed_key = + (* TODO: take a random value here. Is there a random function in OCaml? *) + let bid = ref 0 in + (* According to OCaml Gc module documentation, Pervasives.ref is one of the + few ways of getting a boxed value the compiler will never alias. *) + fun () -> incr bid; Pervasives.ref (Pervasives.ref !bid) + +(* A phantom type to preserve type safety *) +type 'a key = boxed_key + +(* Comparing keys with == grants that if a key is unmarshalled (in the same + process where it was created or in another one) it is not mistaken for + an already existing one (unmarshal has no right to alias). If the initial + value of bid is taken at random, then one also avoids potential collisions *) +module HT = Hashtbl.Make(struct + type t = key_type ref + let equal k1 k2 = k1 == k2 + let hash id = !id +end) + +(* A key is the (unique) value inside a boxed key, hence it does not + keep its corresponding boxed key reachable (replacing key_type by boxed_key + would make the key always reachable) *) +let values : Obj.t HT.t = HT.create 1001 + +(* To avoid a race condition between the finalization function and + get/create on the values hashtable, the finalization function just + enqueues in an imperative list the item to be collected. Being the list + imperative, even if the Gc enqueues an item while run_collection is operating, + the tail of the list is eventually set to Empty on completion. + Kudos to the authors of Why3 that came up with this solution for their + implementation of weak hash tables! *) +type imperative_list = cell ref +and cell = Empty | Item of key_type ref * imperative_list + +let collection_queue : imperative_list ref = ref (ref Empty) + +let enqueue x = collection_queue := ref (Item (!x, !collection_queue)) + +let run_collection () = + let rec aux l = match !l with + | Empty -> () + | Item (k, tl) -> HT.remove values k; aux tl in + let l = !collection_queue in + aux l; + l := Empty + +(* The only reference to the boxed key is the one returned, when the user drops + it the value eventually disappears from the values table above *) +let create (v : 'a) : 'a key = + run_collection (); + let k = mk_key () in + HT.add values !k (Obj.repr v); + Gc.finalise enqueue k; + k + +(* Avoid raising Not_found *) +exception InvalidKey +let get (k : 'a key) : 'a = + run_collection (); + try Obj.obj (HT.find values !k) + with Not_found -> raise InvalidKey + +(* Simple utils *) +let default k v = + try get k + with InvalidKey -> v + +let iter_opt k f = + match + try Some (get k) + with InvalidKey -> None + with + | None -> () + | Some v -> f v + +let clear () = run_collection () diff --git a/clib/cEphemeron.mli b/clib/cEphemeron.mli new file mode 100644 index 00000000..8e753d0b --- /dev/null +++ b/clib/cEphemeron.mli @@ -0,0 +1,54 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a key + +(* May raise InvalidKey *) +exception InvalidKey +val get : 'a key -> 'a + +(* These never fail. *) +val iter_opt : 'a key -> ('a -> unit) -> unit +val default : 'a key -> 'a -> 'a + +val clear : unit -> unit diff --git a/clib/cList.ml b/clib/cList.ml new file mode 100644 index 00000000..b25c4ffd --- /dev/null +++ b/clib/cList.ml @@ -0,0 +1,917 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* int +type 'a eq = 'a -> 'a -> bool + +module type S = module type of List + +module type ExtS = +sig + include S + val compare : 'a cmp -> 'a list cmp + val equal : 'a eq -> 'a list eq + val is_empty : 'a list -> bool + val init : int -> (int -> 'a) -> 'a list + val mem_f : 'a eq -> 'a -> 'a list -> bool + val add_set : 'a eq -> 'a -> 'a list -> 'a list + val eq_set : 'a eq -> 'a list -> 'a list -> bool + val intersect : 'a eq -> 'a list -> 'a list -> 'a list + val union : 'a eq -> 'a list -> 'a list -> 'a list + val unionq : 'a list -> 'a list -> 'a list + val subtract : 'a eq -> 'a list -> 'a list -> 'a list + val subtractq : 'a list -> 'a list -> 'a list + val interval : int -> int -> int list + val make : int -> 'a -> 'a list + val assign : 'a list -> int -> 'a -> 'a list + val distinct : 'a list -> bool + val distinct_f : 'a cmp -> 'a list -> bool + val duplicates : 'a eq -> 'a list -> 'a list + val filter2 : ('a -> 'b -> bool) -> 'a list -> 'b list -> 'a list * 'b list + val map_filter : ('a -> 'b option) -> 'a list -> 'b list + val map_filter_i : (int -> 'a -> 'b option) -> 'a list -> 'b list + val filter_with : bool list -> 'a list -> 'a list + val smartmap : ('a -> 'a) -> 'a list -> 'a list + val map_left : ('a -> 'b) -> 'a list -> 'b list + val map_i : (int -> 'a -> 'b) -> int -> 'a list -> 'b list + val map2_i : + (int -> 'a -> 'b -> 'c) -> int -> 'a list -> 'b list -> 'c list + val map3 : + ('a -> 'b -> 'c -> 'd) -> 'a list -> 'b list -> 'c list -> 'd list + val map4 : + ('a -> 'b -> 'c -> 'd -> 'e) -> 'a list -> 'b list -> 'c list -> 'd list -> 'e list + val filteri : + (int -> 'a -> bool) -> 'a list -> 'a list + val partitioni : + (int -> 'a -> bool) -> 'a list -> 'a list * 'a list + val map_of_array : ('a -> 'b) -> 'a array -> 'b list + val smartfilter : ('a -> bool) -> 'a list -> 'a list + val extend : bool list -> 'a -> 'a list -> 'a list + val count : ('a -> bool) -> 'a list -> int + val index : 'a eq -> 'a -> 'a list -> int + val index0 : 'a eq -> 'a -> 'a list -> int + val iteri : (int -> 'a -> unit) -> 'a list -> unit + val fold_left_until : ('c -> 'a -> 'c CSig.until) -> 'c -> 'a list -> 'c + val fold_right_i : (int -> 'a -> 'b -> 'b) -> int -> 'a list -> 'b -> 'b + val fold_left_i : (int -> 'a -> 'b -> 'a) -> int -> 'a -> 'b list -> 'a + val fold_right_and_left : + ('a -> 'b -> 'b list -> 'a) -> 'b list -> 'a -> 'a + val fold_left3 : ('a -> 'b -> 'c -> 'd -> 'a) -> 'a -> 'b list -> 'c list -> 'd list -> 'a + val fold_left2_set : exn -> ('a -> 'b -> 'c -> 'b list -> 'c list -> 'a) -> 'a -> 'b list -> 'c list -> 'a + val for_all_i : (int -> 'a -> bool) -> int -> 'a list -> bool + val except : 'a eq -> 'a -> 'a list -> 'a list + val remove : 'a eq -> 'a -> 'a list -> 'a list + val remove_first : ('a -> bool) -> 'a list -> 'a list + val extract_first : ('a -> bool) -> 'a list -> 'a list * 'a + val insert : ('a -> 'a -> bool) -> 'a -> 'a list -> 'a list + val for_all2eq : ('a -> 'b -> bool) -> 'a list -> 'b list -> bool + val sep_last : 'a list -> 'a * 'a list + val find_map : ('a -> 'b option) -> 'a list -> 'b + val uniquize : 'a list -> 'a list + val sort_uniquize : 'a cmp -> 'a list -> 'a list + val merge_uniq : ('a -> 'a -> int) -> 'a list -> 'a list -> 'a list + val subset : 'a list -> 'a list -> bool + val chop : int -> 'a list -> 'a list * 'a list + exception IndexOutOfRange + val goto : int -> 'a list -> 'a list * 'a list + val split_when : ('a -> bool) -> 'a list -> 'a list * 'a list + val split3 : ('a * 'b * 'c) list -> 'a list * 'b list * 'c list + val firstn : int -> 'a list -> 'a list + val last : 'a list -> 'a + val lastn : int -> 'a list -> 'a list + val skipn : int -> 'a list -> 'a list + val skipn_at_least : int -> 'a list -> 'a list + val addn : int -> 'a -> 'a list -> 'a list + val prefix_of : 'a eq -> 'a list -> 'a list -> bool + val drop_prefix : 'a eq -> 'a list -> 'a list -> 'a list + val drop_last : 'a list -> 'a list + val map_append : ('a -> 'b list) -> 'a list -> 'b list + val map_append2 : ('a -> 'b -> 'c list) -> 'a list -> 'b list -> 'c list + val share_tails : 'a list -> 'a list -> 'a list * 'a list * 'a list + val fold_left_map : ('a -> 'b -> 'a * 'c) -> 'a -> 'b list -> 'a * 'c list + val fold_right_map : ('b -> 'a -> 'c * 'a) -> 'b list -> 'a -> 'c list * 'a + val fold_left2_map : ('a -> 'b -> 'c -> 'a * 'd) -> 'a -> 'b list -> 'c list -> 'a * 'd list + val fold_right2_map : ('b -> 'c -> 'a -> 'd * 'a) -> 'b list -> 'c list -> 'a -> 'd list * 'a + val fold_left3_map : ('a -> 'b -> 'c -> 'd -> 'a * 'e) -> 'a -> 'b list -> 'c list -> 'd list -> 'a * 'e list + val fold_left4_map : ('a -> 'b -> 'c -> 'd -> 'e -> 'a * 'r) -> 'a -> 'b list -> 'c list -> 'd list -> 'e list -> 'a * 'r list + val fold_map : ('a -> 'b -> 'a * 'c) -> 'a -> 'b list -> 'a * 'c list + [@@ocaml.deprecated "Same as [fold_left_map]"] + val fold_map' : ('b -> 'a -> 'c * 'a) -> 'b list -> 'a -> 'c list * 'a + [@@ocaml.deprecated "Same as [fold_right_map]"] + val map_assoc : ('a -> 'b) -> ('c * 'a) list -> ('c * 'b) list + val assoc_f : 'a eq -> 'a -> ('a * 'b) list -> 'b + val remove_assoc_f : 'a eq -> 'a -> ('a * 'b) list -> ('a * 'b) list + val mem_assoc_f : 'a eq -> 'a -> ('a * 'b) list -> bool + val min : 'a cmp -> 'a list -> 'a + val cartesian : ('a -> 'b -> 'c) -> 'a list -> 'b list -> 'c list + val cartesians : ('a -> 'b -> 'b) -> 'b -> 'a list list -> 'b list + val combinations : 'a list list -> 'a list list + val combine3 : 'a list -> 'b list -> 'c list -> ('a * 'b * 'c) list + val cartesians_filter : + ('a -> 'b -> 'b option) -> 'b -> 'a list list -> 'b list + val factorize_left : 'a eq -> ('a * 'b) list -> ('a * 'b list) list + + module type MonoS = sig + type elt + val equal : elt list -> elt list -> bool + val mem : elt -> elt list -> bool + val assoc : elt -> (elt * 'a) list -> 'a + val mem_assoc : elt -> (elt * 'a) list -> bool + val remove_assoc : elt -> (elt * 'a) list -> (elt * 'a) list + val mem_assoc_sym : elt -> ('a * elt) list -> bool + end + +end + +include List + +(** Tail-rec implementation of usual functions. This is a well-known trick used + in, for instance, ExtLib and Batteries. *) + +type 'a cell = { + head : 'a; + mutable tail : 'a list; +} + +external cast : 'a cell -> 'a list = "%identity" + +let rec map_loop f p = function +| [] -> () +| x :: l -> + let c = { head = f x; tail = [] } in + p.tail <- cast c; + map_loop f c l + +let map f = function +| [] -> [] +| x :: l -> + let c = { head = f x; tail = [] } in + map_loop f c l; + cast c + +let rec map2_loop f p l1 l2 = match l1, l2 with +| [], [] -> () +| x :: l1, y :: l2 -> + let c = { head = f x y; tail = [] } in + p.tail <- cast c; + map2_loop f c l1 l2 +| _ -> invalid_arg "List.map2" + +let map2 f l1 l2 = match l1, l2 with +| [], [] -> [] +| x :: l1, y :: l2 -> + let c = { head = f x y; tail = [] } in + map2_loop f c l1 l2; + cast c +| _ -> invalid_arg "List.map2" + +let rec map_of_array_loop f p a i l = + if Int.equal i l then () + else + let c = { head = f (Array.unsafe_get a i); tail = [] } in + p.tail <- cast c; + map_of_array_loop f c a (i + 1) l + +let map_of_array f a = + let l = Array.length a in + if Int.equal l 0 then [] + else + let c = { head = f (Array.unsafe_get a 0); tail = [] } in + map_of_array_loop f c a 1 l; + cast c + +let rec append_loop p tl = function +| [] -> p.tail <- tl +| x :: l -> + let c = { head = x; tail = [] } in + p.tail <- cast c; + append_loop c tl l + +let append l1 l2 = match l1 with +| [] -> l2 +| x :: l -> + let c = { head = x; tail = [] } in + append_loop c l2 l; + cast c + +let rec copy p = function +| [] -> p +| x :: l -> + let c = { head = x; tail = [] } in + p.tail <- cast c; + copy c l + +let rec init_loop len f p i = + if Int.equal i len then () + else + let c = { head = f i; tail = [] } in + p.tail <- cast c; + init_loop len f c (succ i) + +let init len f = + if len < 0 then invalid_arg "List.init" + else if Int.equal len 0 then [] + else + let c = { head = f 0; tail = [] } in + init_loop len f c 1; + cast c + +let rec concat_loop p = function +| [] -> () +| x :: l -> concat_loop (copy p x) l + +let concat l = + let dummy = { head = Obj.magic 0; tail = [] } in + concat_loop dummy l; + dummy.tail + +let flatten = concat + +let rec split_loop p q = function +| [] -> () +| (x, y) :: l -> + let cl = { head = x; tail = [] } in + let cr = { head = y; tail = [] } in + p.tail <- cast cl; + q.tail <- cast cr; + split_loop cl cr l + +let split = function +| [] -> [], [] +| (x, y) :: l -> + let cl = { head = x; tail = [] } in + let cr = { head = y; tail = [] } in + split_loop cl cr l; + (cast cl, cast cr) + +let rec combine_loop p l1 l2 = match l1, l2 with +| [], [] -> () +| x :: l1, y :: l2 -> + let c = { head = (x, y); tail = [] } in + p.tail <- cast c; + combine_loop c l1 l2 +| _ -> invalid_arg "List.combine" + +let combine l1 l2 = match l1, l2 with +| [], [] -> [] +| x :: l1, y :: l2 -> + let c = { head = (x, y); tail = [] } in + combine_loop c l1 l2; + cast c +| _ -> invalid_arg "List.combine" + +let rec filter_loop f p = function +| [] -> () +| x :: l -> + if f x then + let c = { head = x; tail = [] } in + let () = p.tail <- cast c in + filter_loop f c l + else + filter_loop f p l + +let filter f l = + let c = { head = Obj.magic 0; tail = [] } in + filter_loop f c l; + c.tail + +(** FIXME: Already present in OCaml 4.00 *) + +let rec map_i_loop f i p = function +| [] -> () +| x :: l -> + let c = { head = f i x; tail = [] } in + p.tail <- cast c; + map_i_loop f (succ i) c l + +let map_i f i = function +| [] -> [] +| x :: l -> + let c = { head = f i x; tail = [] } in + map_i_loop f (succ i) c l; + cast c + +(** Extensions of OCaml Stdlib *) + +let rec compare cmp l1 l2 = + if l1 == l2 then 0 else + match l1,l2 with + [], [] -> 0 + | _::_, [] -> 1 + | [], _::_ -> -1 + | x1::l1, x2::l2 -> + (match cmp x1 x2 with + | 0 -> compare cmp l1 l2 + | c -> c) + +let rec equal cmp l1 l2 = + l1 == l2 || + match l1, l2 with + | [], [] -> true + | x1 :: l1, x2 :: l2 -> + cmp x1 x2 && equal cmp l1 l2 + | _ -> false + +let is_empty = function +| [] -> true +| _ -> false + +let mem_f cmp x l = List.exists (cmp x) l + +let intersect cmp l1 l2 = + filter (fun x -> mem_f cmp x l2) l1 + +let union cmp l1 l2 = + let rec urec = function + | [] -> l2 + | a::l -> if mem_f cmp a l2 then urec l else a::urec l + in + urec l1 + +let subtract cmp l1 l2 = + if is_empty l2 then l1 + else List.filter (fun x -> not (mem_f cmp x l2)) l1 + +let unionq l1 l2 = union (==) l1 l2 +let subtractq l1 l2 = subtract (==) l1 l2 + +let interval n m = + let rec interval_n (l,m) = + if n > m then l else interval_n (m::l, pred m) + in + interval_n ([], m) + +let addn n v = + let rec aux n l = + if Int.equal n 0 then l + else aux (pred n) (v :: l) + in + if n < 0 then invalid_arg "List.addn" + else aux n + +let make n v = addn n v [] + +let assign l n e = + let rec assrec stk l i = match l, i with + | ((h::t), 0) -> List.rev_append stk (e :: t) + | ((h::t), n) -> assrec (h :: stk) t (pred n) + | ([], _) -> failwith "List.assign" + in + assrec [] l n + +let rec smartmap f l = match l with + [] -> l + | h::tl -> + let h' = f h and tl' = smartmap f tl in + if h'==h && tl'==tl then l + else h'::tl' + +let map_left = map + +let map2_i f i l1 l2 = + let rec map_i i = function + | ([], []) -> [] + | ((h1::t1), (h2::t2)) -> let v = f i h1 h2 in v :: map_i (succ i) (t1,t2) + | (_, _) -> invalid_arg "map2_i" + in + map_i i (l1,l2) + +let map3 f l1 l2 l3 = + let rec map = function + | ([], [], []) -> [] + | ((h1::t1), (h2::t2), (h3::t3)) -> let v = f h1 h2 h3 in v::map (t1,t2,t3) + | (_, _, _) -> invalid_arg "map3" + in + map (l1,l2,l3) + +let map4 f l1 l2 l3 l4 = + let rec map = function + | ([], [], [], []) -> [] + | ((h1::t1), (h2::t2), (h3::t3), (h4::t4)) -> let v = f h1 h2 h3 h4 in v::map (t1,t2,t3,t4) + | (_, _, _, _) -> invalid_arg "map4" + in + map (l1,l2,l3,l4) + +let rec smartfilter f l = match l with + [] -> l + | h::tl -> + let tl' = smartfilter f tl in + if f h then + if tl' == tl then l + else h :: tl' + else tl' + +let rec extend l a l' = match l,l' with + | true::l, b::l' -> b :: extend l a l' + | false::l, l' -> a :: extend l a l' + | [], [] -> [] + | _ -> invalid_arg "extend" + +let count f l = + let rec aux acc = function + | [] -> acc + | h :: t -> if f h then aux (acc + 1) t else aux acc t in + aux 0 l + +let rec index_f f x l n = match l with +| [] -> raise Not_found +| y :: l -> if f x y then n else index_f f x l (succ n) + +let index f x l = index_f f x l 1 + +let index0 f x l = index_f f x l 0 + +let fold_left_until f accu s = + let rec aux accu = function + | [] -> accu + | x :: xs -> match f accu x with CSig.Stop x -> x | CSig.Cont i -> aux i xs in + aux accu s + +let fold_right_i f i l = + let rec it_f i l a = match l with + | [] -> a + | b::l -> f (i-1) b (it_f (i-1) l a) + in + it_f (List.length l + i) l + +let fold_left_i f = + let rec it_list_f i a = function + | [] -> a + | b::l -> it_list_f (i+1) (f i a b) l + in + it_list_f + +let rec fold_left3 f accu l1 l2 l3 = + match (l1, l2, l3) with + ([], [], []) -> accu + | (a1::l1, a2::l2, a3::l3) -> fold_left3 f (f accu a1 a2 a3) l1 l2 l3 + | (_, _, _) -> invalid_arg "List.fold_left3" + +let rec fold_left4 f accu l1 l2 l3 l4 = + match (l1, l2, l3, l4) with + ([], [], [], []) -> accu + | (a1::l1, a2::l2, a3::l3, a4::l4) -> fold_left4 f (f accu a1 a2 a3 a4) l1 l2 l3 l4 + | (_,_, _, _) -> invalid_arg "List.fold_left4" + +(* [fold_right_and_left f [a1;...;an] hd = + f (f (... (f (f hd + an + [an-1;...;a1]) + an-1 + [an-2;...;a1]) + ...) + a2 + [a1]) + a1 + []] *) + +let fold_right_and_left f l hd = + let rec aux tl = function + | [] -> hd + | a::l -> let hd = aux (a::tl) l in f hd a tl + in aux [] l + +(* Match sets as lists according to a matching function, also folding a side effect *) +let rec fold_left2_set e f x l1 l2 = + match l1 with + | a1::l1 -> + let rec find seen = function + | [] -> raise e + | a2::l2 -> + try fold_left2_set e f (f x a1 a2 l1 l2) l1 (List.rev_append seen l2) + with e' when e' = e -> find (a2::seen) l2 in + find [] l2 + | [] -> + if l2 = [] then x else raise e + +let iteri f l = fold_left_i (fun i _ x -> f i x) 0 () l + +let for_all_i p = + let rec for_all_p i = function + | [] -> true + | a::l -> p i a && for_all_p (i+1) l + in + for_all_p + +let except cmp x l = List.filter (fun y -> not (cmp x y)) l + +let remove = except (* Alias *) + +let rec remove_first p = function + | b::l when p b -> l + | b::l -> b::remove_first p l + | [] -> raise Not_found + +let extract_first p li = + let rec loop rev_left = function + | [] -> raise Not_found + | x::right -> + if p x then List.rev_append rev_left right, x + else loop (x :: rev_left) right + in loop [] li + +let insert p v l = + let rec insrec = function + | [] -> [v] + | h::tl -> if p v h then v::h::tl else h::insrec tl + in + insrec l + +let add_set cmp x l = if mem_f cmp x l then l else x :: l + +(** List equality up to permutation (but considering multiple occurrences) *) + +let eq_set cmp l1 l2 = + let rec aux l1 = function + | [] -> is_empty l1 + | a::l2 -> aux (remove_first (cmp a) l1) l2 in + try aux l1 l2 with Not_found -> false + +let for_all2eq f l1 l2 = + try List.for_all2 f l1 l2 with Invalid_argument _ -> false + +let filteri p = + let rec filter_i_rec i = function + | [] -> [] + | x::l -> let l' = filter_i_rec (succ i) l in if p i x then x::l' else l' + in + filter_i_rec 0 + +let partitioni p = + let rec aux i = function + | [] -> [], [] + | x :: l -> + let (l1, l2) = aux (succ i) l in + if p i x then (x :: l1, l2) + else (l1, x :: l2) + in aux 0 + +let rec sep_last = function + | [] -> failwith "sep_last" + | hd::[] -> (hd,[]) + | hd::tl -> let (l,tl) = sep_last tl in (l,hd::tl) + +let rec find_map f = function +| [] -> raise Not_found +| x :: l -> + match f x with + | None -> find_map f l + | Some y -> y + +(* FIXME: we should avoid relying on the generic hash function, + just as we'd better avoid Pervasives.compare *) + +let uniquize l = + let visited = Hashtbl.create 23 in + let rec aux acc changed = function + | h::t -> if Hashtbl.mem visited h then aux acc true t else + begin + Hashtbl.add visited h h; + aux (h::acc) changed t + end + | [] -> if changed then List.rev acc else l + in aux [] false l + +(** [sort_uniquize] might be an alternative to the hashtbl-based + [uniquize], when the order of the elements is irrelevant *) + +let rec uniquize_sorted cmp = function + | a::b::l when Int.equal (cmp a b) 0 -> uniquize_sorted cmp (a::l) + | a::l -> a::uniquize_sorted cmp l + | [] -> [] + +let sort_uniquize cmp l = uniquize_sorted cmp (List.sort cmp l) + +let min cmp l = + let rec aux cur = function + | [] -> cur + | x :: l -> if cmp x cur < 0 then aux x l else aux cur l + in + match l with + | x :: l -> aux x l + | [] -> raise Not_found + +(* FIXME: again, generic hash function *) + +let distinct l = + let visited = Hashtbl.create 23 in + let rec loop = function + | h::t -> + if Hashtbl.mem visited h then false + else + begin + Hashtbl.add visited h h; + loop t + end + | [] -> true + in loop l + +let distinct_f cmp l = + let rec loop = function + | a::b::_ when Int.equal (cmp a b) 0 -> false + | a::l -> loop l + | [] -> true + in loop (List.sort cmp l) + +let rec merge_uniq cmp l1 l2 = + match l1, l2 with + | [], l2 -> l2 + | l1, [] -> l1 + | h1 :: t1, h2 :: t2 -> + let c = cmp h1 h2 in + if Int.equal c 0 + then h1 :: merge_uniq cmp t1 t2 + else if c <= 0 + then h1 :: merge_uniq cmp t1 l2 + else h2 :: merge_uniq cmp l1 t2 + +let rec duplicates cmp = function + | [] -> [] + | x::l -> + let l' = duplicates cmp l in + if mem_f cmp x l then add_set cmp x l' else l' + +let rec filter2_loop f p q l1 l2 = match l1, l2 with +| [], [] -> () +| x :: l1, y :: l2 -> + if f x y then + let c1 = { head = x; tail = [] } in + let c2 = { head = y; tail = [] } in + let () = p.tail <- cast c1 in + let () = q.tail <- cast c2 in + filter2_loop f c1 c2 l1 l2 + else + filter2_loop f p q l1 l2 +| _ -> invalid_arg "List.filter2" + +let filter2 f l1 l2 = + let c1 = { head = Obj.magic 0; tail = [] } in + let c2 = { head = Obj.magic 0; tail = [] } in + filter2_loop f c1 c2 l1 l2; + (c1.tail, c2.tail) + +let rec map_filter_loop f p = function + | [] -> () + | x :: l -> + match f x with + | None -> map_filter_loop f p l + | Some y -> + let c = { head = y; tail = [] } in + p.tail <- cast c; + map_filter_loop f c l + +let map_filter f l = + let c = { head = Obj.magic 0; tail = [] } in + map_filter_loop f c l; + c.tail + +let rec map_filter_i_loop f i p = function + | [] -> () + | x :: l -> + match f i x with + | None -> map_filter_i_loop f (succ i) p l + | Some y -> + let c = { head = y; tail = [] } in + p.tail <- cast c; + map_filter_i_loop f (succ i) c l + +let map_filter_i f l = + let c = { head = Obj.magic 0; tail = [] } in + map_filter_i_loop f 0 c l; + c.tail + +let rec filter_with filter l = match filter, l with +| [], [] -> [] +| true :: filter, x :: l -> x :: filter_with filter l +| false :: filter, _ :: l -> filter_with filter l +| _ -> invalid_arg "List.filter_with" + +(* FIXME: again, generic hash function *) + +let subset l1 l2 = + let t2 = Hashtbl.create 151 in + List.iter (fun x -> Hashtbl.add t2 x ()) l2; + let rec look = function + | [] -> true + | x::ll -> try Hashtbl.find t2 x; look ll with Not_found -> false + in + look l1 + +(** [goto i l] splits [l] into two lists [(l1,l2)] such that + [(List.rev l1)++l2=l] and [l1] has length [i]. It raises + [IndexOutOfRange] when [i] is negative or greater than the + length of [l]. *) +exception IndexOutOfRange +let goto n l = + let rec goto i acc = function + | tl when Int.equal i 0 -> (acc, tl) + | h::t -> goto (pred i) (h::acc) t + | [] -> raise IndexOutOfRange + in + goto n [] l + +(* [chop i l] splits [l] into two lists [(l1,l2)] such that + [l1++l2=l] and [l1] has length [i]. + It raises [Failure] when [i] is negative or greater than the length of [l] *) + +let chop n l = + try let (h,t) = goto n l in (List.rev h,t) + with IndexOutOfRange -> failwith "List.chop" + (* spiwack: should raise [IndexOutOfRange] but I'm afraid of missing + a try/with when replacing the exception. *) + +(* [split_when p l] splits [l] into two lists [(l1,a::l2)] such that + [l1++(a::l2)=l], [p a=true] and [p b = false] for every element [b] of [l1]. + If there is no such [a], then it returns [(l,[])] instead *) +let split_when p = + let rec split_when_loop x y = + match y with + | [] -> (List.rev x,[]) + | (a::l) -> if (p a) then (List.rev x,y) else split_when_loop (a::x) l + in + split_when_loop [] + +let rec split3 = function + | [] -> ([], [], []) + | (x,y,z)::l -> + let (rx, ry, rz) = split3 l in (x::rx, y::ry, z::rz) + +let firstn n l = + let rec aux acc n l = + match n, l with + | 0, _ -> List.rev acc + | n, h::t -> aux (h::acc) (pred n) t + | _ -> failwith "firstn" + in + aux [] n l + +let rec last = function + | [] -> failwith "List.last" + | [x] -> x + | _ :: l -> last l + +let lastn n l = + let len = List.length l in + let rec aux m l = + if Int.equal m n then l else aux (m - 1) (List.tl l) + in + if len < n then failwith "lastn" else aux len l + +let rec skipn n l = match n,l with + | 0, _ -> l + | _, [] -> failwith "List.skipn" + | n, _::l -> skipn (pred n) l + +let skipn_at_least n l = + try skipn n l with Failure _ -> [] + +let prefix_of cmp prefl l = + let rec prefrec = function + | (h1::t1, h2::t2) -> cmp h1 h2 && prefrec (t1,t2) + | ([], _) -> true + | _ -> false + in + prefrec (prefl,l) + +(** if [l=p++t] then [drop_prefix p l] is [t] else [l] *) + +let drop_prefix cmp p l = + let rec drop_prefix_rec = function + | (h1::tp, h2::tl) when cmp h1 h2 -> drop_prefix_rec (tp,tl) + | ([], tl) -> tl + | _ -> l + in + drop_prefix_rec (p,l) + +let map_append f l = List.flatten (List.map f l) + +let map_append2 f l1 l2 = List.flatten (List.map2 f l1 l2) + +let share_tails l1 l2 = + let rec shr_rev acc = function + | ((x1::l1), (x2::l2)) when x1 == x2 -> shr_rev (x1::acc) (l1,l2) + | (l1,l2) -> (List.rev l1, List.rev l2, acc) + in + shr_rev [] (List.rev l1, List.rev l2) + +(* Poor man's monadic map *) +let rec fold_left_map f e = function + | [] -> (e,[]) + | h::t -> + let e',h' = f e h in + let e'',t' = fold_left_map f e' t in + e'',h'::t' + +let fold_map = fold_left_map + +(* (* tail-recursive version of the above function *) +let fold_map f e l = + let g (e,b') h = + let (e',h') = f e h in + (e',h'::b') + in + let (e',lrev) = List.fold_left g (e,[]) l in + (e',List.rev lrev) +*) + +(* The same, based on fold_right, with the effect accumulated on the right *) +let fold_right_map f l e = + List.fold_right (fun x (l,e) -> let (y,e) = f x e in (y::l,e)) l ([],e) + +let fold_map' = fold_right_map + +let on_snd f (x,y) = (x,f y) + +let fold_left2_map f e l l' = + on_snd List.rev @@ + List.fold_left2 (fun (e,l) x x' -> + let (e,y) = f e x x' in + (e, y::l) + ) (e, []) l l' + +let fold_right2_map f l l' e = + List.fold_right2 (fun x x' (l,e) -> let (y,e) = f x x' e in (y::l,e)) l l' ([],e) + +let fold_left3_map f e l l' l'' = + on_snd List.rev @@ + fold_left3 (fun (e,l) x x' x'' -> let (e,y) = f e x x' x'' in (e,y::l)) (e,[]) l l' l'' + +let fold_left4_map f e l1 l2 l3 l4 = + on_snd List.rev @@ + fold_left4 (fun (e,l) x1 x2 x3 x4 -> let (e,y) = f e x1 x2 x3 x4 in (e,y::l)) (e,[]) l1 l2 l3 l4 + +let map_assoc f = List.map (fun (x,a) -> (x,f a)) + +let rec assoc_f f a = function + | (x, e) :: xs -> if f a x then e else assoc_f f a xs + | [] -> raise Not_found + +let remove_assoc_f f a l = + try remove_first (fun (x,_) -> f a x) l with Not_found -> l + +let mem_assoc_f f a l = List.exists (fun (x,_) -> f a x) l + +(* A generic cartesian product: for any operator (**), + [cartesian (**) [x1;x2] [y1;y2] = [x1**y1; x1**y2; x2**y1; x2**y1]], + and so on if there are more elements in the lists. *) + +let cartesian op l1 l2 = + map_append (fun x -> List.map (op x) l2) l1 + +(* [cartesians] is an n-ary cartesian product: it iterates + [cartesian] over a list of lists. *) + +let cartesians op init ll = + List.fold_right (cartesian op) ll [init] + +(* combinations [[a;b];[c;d]] gives [[a;c];[a;d];[b;c];[b;d]] *) + +let combinations l = cartesians (fun x l -> x::l) [] l + +let rec combine3 x y z = + match x, y, z with + | [], [], [] -> [] + | (x :: xs), (y :: ys), (z :: zs) -> + (x, y, z) :: combine3 xs ys zs + | _, _, _ -> invalid_arg "List.combine3" + +(* Keep only those products that do not return None *) + +let cartesian_filter op l1 l2 = + map_append (fun x -> map_filter (op x) l2) l1 + +(* Keep only those products that do not return None *) + +let cartesians_filter op init ll = + List.fold_right (cartesian_filter op) ll [init] + +(* Drop the last element of a list *) + +let rec drop_last = function + | [] -> assert false + | hd :: [] -> [] + | hd :: tl -> hd :: drop_last tl + +(* Factorize lists of pairs according to the left argument *) +let rec factorize_left cmp = function + | (a,b)::l -> + let al,l' = partition (fun (a',_) -> cmp a a') l in + (a,(b::List.map snd al)) :: factorize_left cmp l' + | [] -> [] + +module type MonoS = sig + type elt + val equal : elt list -> elt list -> bool + val mem : elt -> elt list -> bool + val assoc : elt -> (elt * 'a) list -> 'a + val mem_assoc : elt -> (elt * 'a) list -> bool + val remove_assoc : elt -> (elt * 'a) list -> (elt * 'a) list + val mem_assoc_sym : elt -> ('a * elt) list -> bool +end diff --git a/clib/cList.mli b/clib/cList.mli new file mode 100644 index 00000000..e025f7b4 --- /dev/null +++ b/clib/cList.mli @@ -0,0 +1,277 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* int +type 'a eq = 'a -> 'a -> bool + +(** Module type [S] is the one from OCaml Stdlib. *) +module type S = module type of List + +module type ExtS = +sig + include S + + val compare : 'a cmp -> 'a list cmp + (** Lexicographic order on lists. *) + + val equal : 'a eq -> 'a list eq + (** Lifts equality to list type. *) + + val is_empty : 'a list -> bool + (** Checks whether a list is empty *) + + val init : int -> (int -> 'a) -> 'a list + (** [init n f] constructs the list [f 0; ... ; f (n - 1)]. *) + + val mem_f : 'a eq -> 'a -> 'a list -> bool + (* Same as [List.mem], for some specific equality *) + + val add_set : 'a eq -> 'a -> 'a list -> 'a list + (** [add_set x l] adds [x] in [l] if it is not already there, or returns [l] + otherwise. *) + + val eq_set : 'a eq -> 'a list eq + (** Test equality up to permutation (but considering multiple occurrences) *) + + val intersect : 'a eq -> 'a list -> 'a list -> 'a list + val union : 'a eq -> 'a list -> 'a list -> 'a list + val unionq : 'a list -> 'a list -> 'a list + val subtract : 'a eq -> 'a list -> 'a list -> 'a list + val subtractq : 'a list -> 'a list -> 'a list + + val interval : int -> int -> int list + (** [interval i j] creates the list [[i; i + 1; ...; j]], or [[]] when + [j <= i]. *) + + val make : int -> 'a -> 'a list + (** [make n x] returns a list made of [n] times [x]. Raise + [Invalid_argument "List.make"] if [n] is negative. *) + + val assign : 'a list -> int -> 'a -> 'a list + (** [assign l i x] sets the [i]-th element of [l] to [x], starting from [0]. *) + + val distinct : 'a list -> bool + (** Return [true] if all elements of the list are distinct. *) + + val distinct_f : 'a cmp -> 'a list -> bool + + val duplicates : 'a eq -> 'a list -> 'a list + (** Return the list of unique elements which appear at least twice. Elements + are kept in the order of their first appearance. *) + + val filter2 : ('a -> 'b -> bool) -> 'a list -> 'b list -> 'a list * 'b list + val map_filter : ('a -> 'b option) -> 'a list -> 'b list + val map_filter_i : (int -> 'a -> 'b option) -> 'a list -> 'b list + + val filter_with : bool list -> 'a list -> 'a list + (** [filter_with b a] selects elements of [a] whose corresponding element in + [b] is [true]. Raise [Invalid_argument _] when sizes differ. *) + + val smartmap : ('a -> 'a) -> 'a list -> 'a list + (** [smartmap f [a1...an] = List.map f [a1...an]] but if for all i + [f ai == ai], then [smartmap f l == l] *) + + val map_left : ('a -> 'b) -> 'a list -> 'b list + (** As [map] but ensures the left-to-right order of evaluation. *) + + val map_i : (int -> 'a -> 'b) -> int -> 'a list -> 'b list + (** As [map] but with the index, which starts from [0]. *) + + val map2_i : + (int -> 'a -> 'b -> 'c) -> int -> 'a list -> 'b list -> 'c list + val map3 : + ('a -> 'b -> 'c -> 'd) -> 'a list -> 'b list -> 'c list -> 'd list + val map4 : ('a -> 'b -> 'c -> 'd -> 'e) -> 'a list -> 'b list -> 'c list -> + 'd list -> 'e list + val filteri : (int -> 'a -> bool) -> 'a list -> 'a list + val partitioni : (int -> 'a -> bool) -> 'a list -> 'a list * 'a list + + val map_of_array : ('a -> 'b) -> 'a array -> 'b list + (** [map_of_array f a] behaves as [List.map f (Array.to_list a)] *) + + val smartfilter : ('a -> bool) -> 'a list -> 'a list + (** [smartfilter f [a1...an] = List.filter f [a1...an]] but if for all i + [f ai = true], then [smartfilter f l == l] *) + + val extend : bool list -> 'a -> 'a list -> 'a list +(** [extend l a [a1..an]] assumes that the number of [true] in [l] is [n]; + it extends [a1..an] by inserting [a] at the position of [false] in [l] *) + val count : ('a -> bool) -> 'a list -> int + + val index : 'a eq -> 'a -> 'a list -> int + (** [index] returns the 1st index of an element in a list (counting from 1). *) + + val index0 : 'a eq -> 'a -> 'a list -> int + (** [index0] behaves as [index] except that it starts counting at 0. *) + + val iteri : (int -> 'a -> unit) -> 'a list -> unit + (** As [iter] but with the index argument (starting from 0). *) + + val fold_left_until : ('c -> 'a -> 'c CSig.until) -> 'c -> 'a list -> 'c + (** acts like [fold_left f acc s] while [f] returns + [Cont acc']; it stops returning [c] as soon as [f] returns [Stop c]. *) + + val fold_right_i : (int -> 'a -> 'b -> 'b) -> int -> 'a list -> 'b -> 'b + val fold_left_i : (int -> 'a -> 'b -> 'a) -> int -> 'a -> 'b list -> 'a + val fold_right_and_left : + ('a -> 'b -> 'b list -> 'a) -> 'b list -> 'a -> 'a + val fold_left3 : ('a -> 'b -> 'c -> 'd -> 'a) -> 'a -> 'b list -> 'c list -> 'd list -> 'a + + (** Fold sets, i.e. lists up to order; the folding function tells + when elements match by returning a value and raising the given + exception otherwise; sets should have the same size; raise the + given exception if no pairing of the two sets is found;; + complexity in O(n^2) *) + val fold_left2_set : exn -> ('a -> 'b -> 'c -> 'b list -> 'c list -> 'a) -> 'a -> 'b list -> 'c list -> 'a + + val for_all_i : (int -> 'a -> bool) -> int -> 'a list -> bool + val except : 'a eq -> 'a -> 'a list -> 'a list + val remove : 'a eq -> 'a -> 'a list -> 'a list + + val remove_first : ('a -> bool) -> 'a list -> 'a list + (** Remove the first element satisfying a predicate, or raise [Not_found] *) + + val extract_first : ('a -> bool) -> 'a list -> 'a list * 'a + (** Remove and return the first element satisfying a predicate, + or raise [Not_found] *) + + val insert : ('a -> 'a -> bool) -> 'a -> 'a list -> 'a list + (** Insert at the (first) position so that if the list is ordered wrt to the + total order given as argument, the order is preserved *) + + val for_all2eq : ('a -> 'b -> bool) -> 'a list -> 'b list -> bool + val sep_last : 'a list -> 'a * 'a list + + val find_map : ('a -> 'b option) -> 'a list -> 'b + (** Returns the first element that is mapped to [Some _]. Raise [Not_found] if + there is none. *) + + val uniquize : 'a list -> 'a list + (** Return the list of elements without duplicates. + This is the list unchanged if there was none. *) + + val sort_uniquize : 'a cmp -> 'a list -> 'a list + (** Return a sorted and de-duplicated version of a list, + according to some comparison function. *) + + val merge_uniq : 'a cmp -> 'a list -> 'a list -> 'a list + (** Merge two sorted lists and preserves the uniqueness property. *) + + val subset : 'a list -> 'a list -> bool + + val chop : int -> 'a list -> 'a list * 'a list + (** [chop i l] splits [l] into two lists [(l1,l2)] such that + [l1++l2=l] and [l1] has length [i]. It raises [Failure] when [i] + is negative or greater than the length of [l] *) + + exception IndexOutOfRange + val goto: int -> 'a list -> 'a list * 'a list + (** [goto i l] splits [l] into two lists [(l1,l2)] such that + [(List.rev l1)++l2=l] and [l1] has length [i]. It raises + [IndexOutOfRange] when [i] is negative or greater than the + length of [l]. *) + + + val split_when : ('a -> bool) -> 'a list -> 'a list * 'a list + val split3 : ('a * 'b * 'c) list -> 'a list * 'b list * 'c list + val firstn : int -> 'a list -> 'a list + val last : 'a list -> 'a + val lastn : int -> 'a list -> 'a list + val skipn : int -> 'a list -> 'a list + val skipn_at_least : int -> 'a list -> 'a list + + val addn : int -> 'a -> 'a list -> 'a list + (** [addn n x l] adds [n] times [x] on the left of [l]. *) + + val prefix_of : 'a eq -> 'a list -> 'a list -> bool + (** [prefix_of l1 l2] returns [true] if [l1] is a prefix of [l2], [false] + otherwise. *) + + val drop_prefix : 'a eq -> 'a list -> 'a list -> 'a list + (** [drop_prefix p l] returns [t] if [l=p++t] else return [l]. *) + + val drop_last : 'a list -> 'a list + + val map_append : ('a -> 'b list) -> 'a list -> 'b list + (** [map_append f [x1; ...; xn]] returns [(f x1)@(f x2)@...@(f xn)]. *) + + val map_append2 : ('a -> 'b -> 'c list) -> 'a list -> 'b list -> 'c list + (** As [map_append]. Raises [Invalid_argument _] if the two lists don't have + the same length. *) + + val share_tails : 'a list -> 'a list -> 'a list * 'a list * 'a list + + val fold_left_map : ('a -> 'b -> 'a * 'c) -> 'a -> 'b list -> 'a * 'c list + (** [fold_left_map f e_0 [l_1...l_n] = e_n,[k_1...k_n]] + where [(e_i,k_i)=f e_{i-1} l_i] *) + + val fold_right_map : ('b -> 'a -> 'c * 'a) -> 'b list -> 'a -> 'c list * 'a + (** Same, folding on the right *) + + val fold_left2_map : ('a -> 'b -> 'c -> 'a * 'd) -> 'a -> 'b list -> 'c list -> 'a * 'd list + (** Same with two lists, folding on the left *) + + val fold_right2_map : ('b -> 'c -> 'a -> 'd * 'a) -> 'b list -> 'c list -> 'a -> 'd list * 'a + (** Same with two lists, folding on the right *) + + val fold_left3_map : ('a -> 'b -> 'c -> 'd -> 'a * 'e) -> 'a -> 'b list -> 'c list -> 'd list -> 'a * 'e list + (** Same with three lists, folding on the left *) + + val fold_left4_map : ('a -> 'b -> 'c -> 'd -> 'e -> 'a * 'r) -> 'a -> 'b list -> 'c list -> 'd list -> 'e list -> 'a * 'r list + (** Same with four lists, folding on the left *) + + val fold_map : ('a -> 'b -> 'a * 'c) -> 'a -> 'b list -> 'a * 'c list + [@@ocaml.deprecated "Same as [fold_left_map]"] + + val fold_map' : ('b -> 'a -> 'c * 'a) -> 'b list -> 'a -> 'c list * 'a + [@@ocaml.deprecated "Same as [fold_right_map]"] + + val map_assoc : ('a -> 'b) -> ('c * 'a) list -> ('c * 'b) list + val assoc_f : 'a eq -> 'a -> ('a * 'b) list -> 'b + val remove_assoc_f : 'a eq -> 'a -> ('a * 'b) list -> ('a * 'b) list + val mem_assoc_f : 'a eq -> 'a -> ('a * 'b) list -> bool + + val min : 'a cmp -> 'a list -> 'a + (** Return minimum element according to some comparison function. + + @raise Not_found on an empty list. *) + + val cartesian : ('a -> 'b -> 'c) -> 'a list -> 'b list -> 'c list + (** A generic cartesian product: for any operator (**), + [cartesian (**) [x1;x2] [y1;y2] = [x1**y1; x1**y2; x2**y1; x2**y1]], + and so on if there are more elements in the lists. *) + + val cartesians : ('a -> 'b -> 'b) -> 'b -> 'a list list -> 'b list + (** [cartesians] is an n-ary cartesian product: it iterates + [cartesian] over a list of lists. *) + + val combinations : 'a list list -> 'a list list + (** combinations [[a;b];[c;d]] returns [[a;c];[a;d];[b;c];[b;d]] *) + + val combine3 : 'a list -> 'b list -> 'c list -> ('a * 'b * 'c) list + + val cartesians_filter : + ('a -> 'b -> 'b option) -> 'b -> 'a list list -> 'b list + (** Keep only those products that do not return None *) + + val factorize_left : 'a eq -> ('a * 'b) list -> ('a * 'b list) list + + module type MonoS = sig + type elt + val equal : elt list -> elt list -> bool + val mem : elt -> elt list -> bool + val assoc : elt -> (elt * 'a) list -> 'a + val mem_assoc : elt -> (elt * 'a) list -> bool + val remove_assoc : elt -> (elt * 'a) list -> (elt * 'a) list + val mem_assoc_sym : elt -> ('a * elt) list -> bool + end +end + +include ExtS diff --git a/clib/cMap.ml b/clib/cMap.ml new file mode 100644 index 00000000..373e3f8f --- /dev/null +++ b/clib/cMap.ml @@ -0,0 +1,220 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> int +end + +module type MonadS = +sig + type +'a t + val return : 'a -> 'a t + val (>>=) : 'a t -> ('a -> 'b t) -> 'b t +end + +module type S = Map.S + +module type ExtS = +sig + include CSig.MapS + module Set : CSig.SetS with type elt = key + val get : key -> 'a t -> 'a + val set : key -> 'a -> 'a t -> 'a t + val modify : key -> (key -> 'a -> 'a) -> 'a t -> 'a t + val domain : 'a t -> Set.t + val bind : (key -> 'a) -> Set.t -> 'a t + val fold_left : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b + val fold_right : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b + val smartmap : ('a -> 'a) -> 'a t -> 'a t + val smartmapi : (key -> 'a -> 'a) -> 'a t -> 'a t + val height : 'a t -> int + module Unsafe : + sig + val map : (key -> 'a -> key * 'b) -> 'a t -> 'b t + end + module Monad(M : MonadS) : + sig + val fold : (key -> 'a -> 'b -> 'b M.t) -> 'a t -> 'b -> 'b M.t + val fold_left : (key -> 'a -> 'b -> 'b M.t) -> 'a t -> 'b -> 'b M.t + val fold_right : (key -> 'a -> 'b -> 'b M.t) -> 'a t -> 'b -> 'b M.t + end +end + +module MapExt (M : Map.OrderedType) : +sig + type 'a map = 'a Map.Make(M).t + val set : M.t -> 'a -> 'a map -> 'a map + val modify : M.t -> (M.t -> 'a -> 'a) -> 'a map -> 'a map + val domain : 'a map -> Set.Make(M).t + val bind : (M.t -> 'a) -> Set.Make(M).t -> 'a map + val fold_left : (M.t -> 'a -> 'b -> 'b) -> 'a map -> 'b -> 'b + val fold_right : (M.t -> 'a -> 'b -> 'b) -> 'a map -> 'b -> 'b + val smartmap : ('a -> 'a) -> 'a map -> 'a map + val smartmapi : (M.t -> 'a -> 'a) -> 'a map -> 'a map + val height : 'a map -> int + module Unsafe : + sig + val map : (M.t -> 'a -> M.t * 'b) -> 'a map -> 'b map + end + module Monad(MS : MonadS) : + sig + val fold : (M.t -> 'a -> 'b -> 'b MS.t) -> 'a map -> 'b -> 'b MS.t + val fold_left : (M.t -> 'a -> 'b -> 'b MS.t) -> 'a map -> 'b -> 'b MS.t + val fold_right : (M.t -> 'a -> 'b -> 'b MS.t) -> 'a map -> 'b -> 'b MS.t + end +end = +struct + (** This unsafe module is a way to access to the actual implementations of + OCaml sets and maps without reimplementing them ourselves. It is quite + dubious that these implementations will ever be changed... Nonetheless, + if this happens, we can still implement a less clever version of [domain]. + *) + + type 'a map = 'a Map.Make(M).t + type set = Set.Make(M).t + + type 'a _map = + | MEmpty + | MNode of 'a map * M.t * 'a * 'a map * int + + type _set = + | SEmpty + | SNode of set * M.t * set * int + + let map_prj : 'a map -> 'a _map = Obj.magic + let map_inj : 'a _map -> 'a map = Obj.magic + let set_prj : set -> _set = Obj.magic + let set_inj : _set -> set = Obj.magic + + let rec set k v (s : 'a map) : 'a map = match map_prj s with + | MEmpty -> raise Not_found + | MNode (l, k', v', r, h) -> + let c = M.compare k k' in + if c < 0 then + let l' = set k v l in + if l == l' then s + else map_inj (MNode (l', k', v', r, h)) + else if c = 0 then + if v' == v then s + else map_inj (MNode (l, k', v, r, h)) + else + let r' = set k v r in + if r == r' then s + else map_inj (MNode (l, k', v', r', h)) + + let rec modify k f (s : 'a map) : 'a map = match map_prj s with + | MEmpty -> raise Not_found + | MNode (l, k', v, r, h) -> + let c = M.compare k k' in + if c < 0 then + let l' = modify k f l in + if l == l' then s + else map_inj (MNode (l', k', v, r, h)) + else if c = 0 then + let v' = f k' v in + if v' == v then s + else map_inj (MNode (l, k', v', r, h)) + else + let r' = modify k f r in + if r == r' then s + else map_inj (MNode (l, k', v, r', h)) + + let rec domain (s : 'a map) : set = match map_prj s with + | MEmpty -> set_inj SEmpty + | MNode (l, k, _, r, h) -> + set_inj (SNode (domain l, k, domain r, h)) + (** This function is essentially identity, but OCaml current stdlib does not + take advantage of the similarity of the two structures, so we introduce + this unsafe loophole. *) + + let rec bind f (s : set) : 'a map = match set_prj s with + | SEmpty -> map_inj MEmpty + | SNode (l, k, r, h) -> + map_inj (MNode (bind f l, k, f k, bind f r, h)) + (** Dual operation of [domain]. *) + + let rec fold_left f (s : 'a map) accu = match map_prj s with + | MEmpty -> accu + | MNode (l, k, v, r, h) -> + let accu = f k v (fold_left f l accu) in + fold_left f r accu + + let rec fold_right f (s : 'a map) accu = match map_prj s with + | MEmpty -> accu + | MNode (l, k, v, r, h) -> + let accu = f k v (fold_right f r accu) in + fold_right f l accu + + let rec smartmap f (s : 'a map) = match map_prj s with + | MEmpty -> map_inj MEmpty + | MNode (l, k, v, r, h) -> + let l' = smartmap f l in + let r' = smartmap f r in + let v' = f v in + if l == l' && r == r' && v == v' then s + else map_inj (MNode (l', k, v', r', h)) + + let rec smartmapi f (s : 'a map) = match map_prj s with + | MEmpty -> map_inj MEmpty + | MNode (l, k, v, r, h) -> + let l' = smartmapi f l in + let r' = smartmapi f r in + let v' = f k v in + if l == l' && r == r' && v == v' then s + else map_inj (MNode (l', k, v', r', h)) + + let height s = match map_prj s with + | MEmpty -> 0 + | MNode (_, _, _, _, h) -> h + + module Unsafe = + struct + + let rec map f (s : 'a map) : 'b map = match map_prj s with + | MEmpty -> map_inj MEmpty + | MNode (l, k, v, r, h) -> + let (k, v) = f k v in + map_inj (MNode (map f l, k, v, map f r, h)) + + end + + module Monad(M : MonadS) = + struct + + open M + + let rec fold_left f s accu = match map_prj s with + | MEmpty -> return accu + | MNode (l, k, v, r, h) -> + fold_left f l accu >>= fun accu -> + f k v accu >>= fun accu -> + fold_left f r accu + + let rec fold_right f s accu = match map_prj s with + | MEmpty -> return accu + | MNode (l, k, v, r, h) -> + fold_right f r accu >>= fun accu -> + f k v accu >>= fun accu -> + fold_right f l accu + + let fold = fold_left + + end + +end + +module Make(M : Map.OrderedType) = +struct + include Map.Make(M) + include MapExt(M) + let get k m = try find k m with Not_found -> assert false +end diff --git a/clib/cMap.mli b/clib/cMap.mli new file mode 100644 index 00000000..bb0019bb --- /dev/null +++ b/clib/cMap.mli @@ -0,0 +1,90 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> int +end + +module type MonadS = +sig + type +'a t + val return : 'a -> 'a t + val (>>=) : 'a t -> ('a -> 'b t) -> 'b t +end + +module type S = Map.S + +module type ExtS = +sig + include CSig.MapS + (** The underlying Map library *) + + module Set : CSig.SetS with type elt = key + (** Sets used by the domain function *) + + val get : key -> 'a t -> 'a + (** Same as {!find} but fails an assertion instead of raising [Not_found] *) + + val set : key -> 'a -> 'a t -> 'a t + (** Same as [add], but expects the key to be present, and thus faster. + @raise Not_found when the key is unbound in the map. *) + + val modify : key -> (key -> 'a -> 'a) -> 'a t -> 'a t + (** Apply the given function to the binding of the given key. + @raise Not_found when the key is unbound in the map. *) + + val domain : 'a t -> Set.t + (** Recover the set of keys defined in the map. *) + + val bind : (key -> 'a) -> Set.t -> 'a t + (** [bind f s] transform the set [x1; ...; xn] into [x1 := f x1; ...; + xn := f xn]. *) + + val fold_left : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b + (** Alias for {!fold}, to easily track where we depend on fold order. *) + + val fold_right : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b + (** Folding keys in decreasing order. *) + + val smartmap : ('a -> 'a) -> 'a t -> 'a t + (** As [map] but tries to preserve sharing. *) + + val smartmapi : (key -> 'a -> 'a) -> 'a t -> 'a t + (** As [mapi] but tries to preserve sharing. *) + + val height : 'a t -> int + (** An indication of the logarithmic size of a map *) + + module Unsafe : + sig + val map : (key -> 'a -> key * 'b) -> 'a t -> 'b t + (** As the usual [map], but also allows modifying the key of a binding. + It is required that the mapping function [f] preserves key equality, + i.e.: for all (k : key) (x : 'a), compare (fst (f k x)) k = 0. *) + end + + module Monad(M : MonadS) : + sig + val fold : (key -> 'a -> 'b -> 'b M.t) -> 'a t -> 'b -> 'b M.t + val fold_left : (key -> 'a -> 'b -> 'b M.t) -> 'a t -> 'b -> 'b M.t + val fold_right : (key -> 'a -> 'b -> 'b M.t) -> 'a t -> 'b -> 'b M.t + end + (** Fold operators parameterized by any monad. *) + +end + +module Make(M : Map.OrderedType) : ExtS with + type key = M.t + and type 'a t = 'a Map.Make(M).t + and module Set := Set.Make(M) diff --git a/clib/cObj.ml b/clib/cObj.ml new file mode 100644 index 00000000..e26f4811 --- /dev/null +++ b/clib/cObj.ml @@ -0,0 +1,205 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* = Obj.no_scan_tag then + if Obj.tag t = Obj.string_tag then + (c := !c + Obj.size t; b := !b + 1; m := max d !m) + else if Obj.tag t = Obj.double_tag then + (s := !s + 2; b := !b + 1; m := max d !m) + else if Obj.tag t = Obj.double_array_tag then + (s := !s + 2 * Obj.size t; b := !b + 1; m := max d !m) + else (b := !b + 1; m := max d !m) + else + let n = Obj.size t in + s := !s + n; b := !b + 1; + block_stats (d + 1) (n - 1) t + +and block_stats d i t = + if i >= 0 then (obj_stats d (Obj.field t i); block_stats d (i-1) t) + +let obj_stats a = + c := 0; s:= 0; b:= 0; m:= 0; + obj_stats 0 (Obj.repr a); + (!c, !s + !b, !m) + +(** {6 Physical sizes} *) + +(*s Pointers already visited are stored in a hash-table, where + comparisons are done using physical equality. *) + +module H = Hashtbl.Make( + struct + type t = Obj.t + let equal = (==) + let hash = Hashtbl.hash + end) + +let node_table = (H.create 257 : unit H.t) + +let in_table o = try H.find node_table o; true with Not_found -> false + +let add_in_table o = H.add node_table o () + +let reset_table () = H.clear node_table + +(*s Objects are traversed recursively, as soon as their tags are less than + [no_scan_tag]. [count] records the numbers of words already visited. *) + +let size_of_double = Obj.size (Obj.repr 1.0) + +let count = ref 0 + +let rec traverse t = + if not (in_table t) && Obj.is_block t then begin + add_in_table t; + let n = Obj.size t in + let tag = Obj.tag t in + if tag < Obj.no_scan_tag then + begin + count := !count + 1 + n; + for i = 0 to n - 1 do traverse (Obj.field t i) done + end + else if tag = Obj.string_tag then + count := !count + 1 + n + else if tag = Obj.double_tag then + count := !count + size_of_double + else if tag = Obj.double_array_tag then + count := !count + 1 + size_of_double * n + else + incr count + end + +(*s Sizes of objects in words and in bytes. The size in bytes is computed + system-independently according to [Sys.word_size]. *) + +let size o = + reset_table (); + count := 0; + traverse (Obj.repr o); + !count + +let size_b o = (size o) * (Sys.word_size / 8) + +let size_kb o = (size o) / (8192 / Sys.word_size) + +(** {6 Physical sizes with sharing} *) + +(** This time, all the size of objects are computed with respect + to a larger object containing them all, and we only count + the new blocks not already seen earlier in the left-to-right + visit of the englobing object. + + The very same object could have a zero size or not, depending + of the occurrence we're considering in the englobing object. + For speaking of occurrences, we use an [int list] for a path + of field indexes from the outmost block to the one we're looking. + In the list, the leftmost integer is the field index in the deepest + block. +*) + +(** We now store in the hashtable the size (with sharing), and + also the position of the first occurrence of the object *) + +let node_sizes = (H.create 257 : (int*int list) H.t) +let get_size o = H.find node_sizes o +let add_size o n pos = H.replace node_sizes o (n,pos) +let reset_sizes () = H.clear node_sizes +let global_object = ref (Obj.repr 0) + +(** [sum n f] is [f 0 + f 1 + ... + f (n-1)], evaluated from left to right *) + +let sum n f = + let rec loop k acc = if k >= n then acc else loop (k+1) (acc + f k) + in loop 0 0 + +(** Recursive visit of the main object, filling the hashtable *) + +let rec compute_size o pos = + if not (Obj.is_block o) then 0 + else + try + let _ = get_size o in 0 (* already seen *) + with Not_found -> + let n = Obj.size o in + add_size o (-1) pos (* temp size, for cyclic values *); + let tag = Obj.tag o in + let size = + if tag < Obj.no_scan_tag then + 1 + n + sum n (fun i -> compute_size (Obj.field o i) (i::pos)) + else if tag = Obj.string_tag then + 1 + n + else if tag = Obj.double_tag then + size_of_double + else if tag = Obj.double_array_tag then + size_of_double * n + else + 1 + in + add_size o size pos; + size + +(** Provides the global object in which we'll search shared sizes *) + +let register_shared_size t = + let o = Obj.repr t in + reset_sizes (); + global_object := o; + ignore (compute_size o []) + +(** Shared size of an object with respect to the global object given + by the last [register_shared_size] *) + +let shared_size pos o = + if not (Obj.is_block o) then 0 + else + let size,pos' = + try get_size o + with Not_found -> failwith "shared_size: unregistered structure ?" + in + match pos with + | Some p when p <> pos' -> 0 + | _ -> size + +let shared_size_of_obj t = shared_size None (Obj.repr t) + +(** Shared size of the object at some positiion in the global object given + by the last [register_shared_size] *) + +let shared_size_of_pos pos = + let rec obj_of_pos o = function + | [] -> o + | n::pos' -> + let o' = obj_of_pos o pos' in + assert (Obj.is_block o' && n < Obj.size o'); + Obj.field o' n + in + shared_size (Some pos) (obj_of_pos !global_object pos) + + +(*s Total size of the allocated ocaml heap. *) + +let heap_size () = + let stat = Gc.stat () + and control = Gc.get () in + let max_words_total = stat.Gc.heap_words + control.Gc.minor_heap_size in + (max_words_total * (Sys.word_size / 8)) + +let heap_size_kb () = (heap_size () + 1023) / 1024 diff --git a/clib/cObj.mli b/clib/cObj.mli new file mode 100644 index 00000000..27082f68 --- /dev/null +++ b/clib/cObj.mli @@ -0,0 +1,61 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* int +(** Physical size of an object in words. *) + +val size_b : 'a -> int +(** Same as [size] in bytes. *) + +val size_kb : 'a -> int +(** Same as [size] in kilobytes. *) + +(** {6 Physical size of an ocaml value with sharing.} *) + +(** This time, all the size of objects are computed with respect + to a larger object containing them all, and we only count + the new blocks not already seen earlier in the left-to-right + visit of the englobing object. *) + +(** Provides the global object in which we'll search shared sizes *) + +val register_shared_size : 'a -> unit + +(** Shared size (in word) of an object with respect to the global object + given by the last [register_shared_size]. *) + +val shared_size_of_obj : 'a -> int + +(** Same, with an object indicated by its occurrence in the global + object. The very same object could have a zero size or not, depending + of the occurrence we're considering in the englobing object. + For speaking of occurrences, we use an [int list] for a path + of field indexes (leftmost = deepest block, rightmost = top block of the + global object). *) + +val shared_size_of_pos : int list -> int + +(** {6 Logical size of an OCaml value.} *) + +val obj_stats : 'a -> int * int * int +(** Return the (logical) value size, the string size, and the maximum depth of + the object. This loops on cyclic structures. *) + +(** {6 Total size of the allocated ocaml heap. } *) + +val heap_size : unit -> int +(** Heap size, in words. *) + +val heap_size_kb : unit -> int +(** Heap size, in kilobytes. *) diff --git a/clib/cSet.ml b/clib/cSet.ml new file mode 100644 index 00000000..b276df1a --- /dev/null +++ b/clib/cSet.ml @@ -0,0 +1,69 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> int +end + +module type S = Set.S + +module Make(M : OrderedType)= Set.Make(M) + +module type HashedType = +sig + type t + val hash : t -> int +end + +module Hashcons(M : OrderedType)(H : HashedType with type t = M.t) = +struct + module Set = Make(M) + + type set = Set.t + type _set = + | SEmpty + | SNode of set * M.t * set * int + + let set_prj : set -> _set = Obj.magic + let set_inj : _set -> set = Obj.magic + + let rec spine s accu = match set_prj s with + | SEmpty -> accu + | SNode (l, v, r, _) -> spine l ((v, r) :: accu) + + let rec umap f s = match set_prj s with + | SEmpty -> set_inj SEmpty + | SNode (l, v, r, h) -> + let l' = umap f l in + let r' = umap f r in + let v' = f v in + set_inj (SNode (l', v', r', h)) + + let rec eqeq s1 s2 = match s1, s2 with + | [], [] -> true + | (v1, r1) :: s1, (v2, r2) :: s2 -> + v1 == v2 && eqeq (spine r1 s1) (spine r2 s2) + | _ -> false + + module Hashed = + struct + open Hashset.Combine + type t = set + type u = M.t -> M.t + let eq s1 s2 = s1 == s2 || eqeq (spine s1 []) (spine s2 []) + let hash s = Set.fold (fun v accu -> combine (H.hash v) accu) s 0 + let hashcons = umap + end + + include Hashcons.Make(Hashed) + +end diff --git a/clib/cSet.mli b/clib/cSet.mli new file mode 100644 index 00000000..ea99a791 --- /dev/null +++ b/clib/cSet.mli @@ -0,0 +1,33 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> int +end + +module type S = Set.S + +module Make(M : OrderedType) : S + with type elt = M.t + and type t = Set.Make(M).t + +module type HashedType = +sig + type t + val hash : t -> int +end + +module Hashcons (M : OrderedType) (H : HashedType with type t = M.t) : Hashcons.S with + type t = Set.Make(M).t + and type u = M.t -> M.t +(** Create hash-consing for sets. The hashing function provided must be + compatible with the comparison function. *) diff --git a/clib/cSig.mli b/clib/cSig.mli new file mode 100644 index 00000000..fb36cc5b --- /dev/null +++ b/clib/cSig.mli @@ -0,0 +1,88 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* bool + val mem: elt -> t -> bool + val add: elt -> t -> t + val singleton: elt -> t + val remove: elt -> t -> t + val union: t -> t -> t + val inter: t -> t -> t + val diff: t -> t -> t + val compare: t -> t -> int + val equal: t -> t -> bool + val subset: t -> t -> bool + val iter: (elt -> unit) -> t -> unit + val fold: (elt -> 'a -> 'a) -> t -> 'a -> 'a + val for_all: (elt -> bool) -> t -> bool + val exists: (elt -> bool) -> t -> bool + val filter: (elt -> bool) -> t -> t + val partition: (elt -> bool) -> t -> t * t + val cardinal: t -> int + val elements: t -> elt list + val min_elt: t -> elt + val max_elt: t -> elt + val choose: t -> elt + val split: elt -> t -> t * bool * t +end +(** Redeclaration of OCaml set signature, to preserve compatibility. See OCaml + documentation for more information. *) + +module type MapS = +sig + type key + type (+'a) t + val empty: 'a t + val is_empty: 'a t -> bool + val mem: key -> 'a t -> bool + val add: key -> 'a -> 'a t -> 'a t + (* when Coq requires OCaml 4.06 or later, can add: + + val update : key -> ('a option -> 'a option) -> 'a t -> 'a t + + allowing Coq to use OCaml's "update" + *) + val singleton: key -> 'a -> 'a t + val remove: key -> 'a t -> 'a t + val merge: + (key -> 'a option -> 'b option -> 'c option) -> 'a t -> 'b t -> 'c t + val compare: ('a -> 'a -> int) -> 'a t -> 'a t -> int + val equal: ('a -> 'a -> bool) -> 'a t -> 'a t -> bool + val iter: (key -> 'a -> unit) -> 'a t -> unit + val fold: (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b + val for_all: (key -> 'a -> bool) -> 'a t -> bool + val exists: (key -> 'a -> bool) -> 'a t -> bool + val filter: (key -> 'a -> bool) -> 'a t -> 'a t + val partition: (key -> 'a -> bool) -> 'a t -> 'a t * 'a t + val cardinal: 'a t -> int + val bindings: 'a t -> (key * 'a) list + val min_binding: 'a t -> (key * 'a) + val max_binding: 'a t -> (key * 'a) + val choose: 'a t -> (key * 'a) + val split: key -> 'a t -> 'a t * 'a option * 'a t + val find: key -> 'a t -> 'a + val map: ('a -> 'b) -> 'a t -> 'b t + val mapi: (key -> 'a -> 'b) -> 'a t -> 'b t +end diff --git a/clib/cStack.ml b/clib/cStack.ml new file mode 100644 index 00000000..b86b0024 --- /dev/null +++ b/clib/cStack.ml @@ -0,0 +1,44 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* raise Stack.Empty + | { stack = x::xs } as s -> s.stack <- xs; x + +let top = function + | { stack = [] } -> raise Stack.Empty + | { stack = x::_ } -> x + +let to_list { stack = s } = s + +let find f s = List.find f (to_list s) + +let find_map f s = CList.find_map f s.stack + +let fold_until f accu s = CList.fold_left_until f accu s.stack + +let is_empty { stack = s } = s = [] + +let iter f { stack = s } = List.iter f s + +let clear s = s.stack <- [] + +let length { stack = s } = List.length s + diff --git a/clib/cStack.mli b/clib/cStack.mli new file mode 100644 index 00000000..d6b8464e --- /dev/null +++ b/clib/cStack.mli @@ -0,0 +1,58 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a t +(** Create an empty stack. *) + +val push : 'a -> 'a t -> unit +(** Add an element to a stack. *) + +val find : ('a -> bool) -> 'a t -> 'a +(** Find the first element satisfying the predicate. + @raise Not_found it there is none. *) + +val is_empty : 'a t -> bool +(** Whether a stack is empty. *) + +val iter : ('a -> unit) -> 'a t -> unit +(** Iterate a function over elements, from the last added one. *) + +val clear : 'a t -> unit +(** Empty a stack. *) + +val length : 'a t -> int +(** Length of a stack. *) + +val pop : 'a t -> 'a +(** Remove and returns the first element of the stack. + @raise Empty if empty. *) + +val top : 'a t -> 'a +(** Remove the first element of the stack without modifying it. + @raise Empty if empty. *) + +val to_list : 'a t -> 'a list +(** Convert to a list. *) + +val find_map : ('a -> 'b option) -> 'a t -> 'b +(** Find the first element that returns [Some _]. + @raise Not_found it there is none. *) + +val fold_until : ('c -> 'a -> 'c CSig.until) -> 'c -> 'a t -> 'c +(** Like CList.fold_left_until. + The stack is traversed from the top and is not altered. *) + diff --git a/clib/cString.ml b/clib/cString.ml new file mode 100644 index 00000000..dd33562f --- /dev/null +++ b/clib/cString.ml @@ -0,0 +1,180 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* string -> bool = "caml_string_equal" "noalloc" + [@@@ocaml.warning "+3"] + val hash : string -> int + val is_empty : string -> bool + val explode : string -> string list + val implode : string list -> string + val strip : string -> string + val drop_simple_quotes : string -> string + val string_index_from : string -> int -> string -> int + val string_contains : where:string -> what:string -> bool + val plural : int -> string -> string + val conjugate_verb_to_be : int -> string + val ordinal : int -> string + val split : char -> string -> string list + val is_sub : string -> string -> int -> bool + module Set : Set.S with type elt = t + module Map : CMap.ExtS with type key = t and module Set := Set + module List : CList.MonoS with type elt = t + val hcons : string -> string +end + +include String + +[@@@ocaml.warning "-3"] (* [@@noalloc] since 4.03.0 GPR#240 *) +external equal : string -> string -> bool = "caml_string_equal" "noalloc" +[@@@ocaml.warning "+3"] + +let rec hash len s i accu = + if i = len then accu + else + let c = Char.code (String.unsafe_get s i) in + hash len s (succ i) (accu * 19 + c) + +let hash s = + let len = String.length s in + hash len s 0 0 + +let explode s = + let rec explode_rec n = + if n >= String.length s then + [] + else + String.make 1 (String.get s n) :: explode_rec (succ n) + in + explode_rec 0 + +let implode sl = String.concat "" sl + +let is_blank = function + | ' ' | '\r' | '\t' | '\n' -> true + | _ -> false + +let is_empty s = String.length s = 0 + +let strip s = + let n = String.length s in + let rec lstrip_rec i = + if i < n && is_blank s.[i] then + lstrip_rec (i+1) + else i + in + let rec rstrip_rec i = + if i >= 0 && is_blank s.[i] then + rstrip_rec (i-1) + else i + in + let a = lstrip_rec 0 and b = rstrip_rec (n-1) in + String.sub s a (b-a+1) + +let drop_simple_quotes s = + let n = String.length s in + if n > 2 && s.[0] = '\'' && s.[n-1] = '\'' then String.sub s 1 (n-2) else s + +(* substring searching... *) + +(* gdzie = where, co = what *) +(* gdzie=gdzie(string) gl=gdzie(length) gi=gdzie(index) *) +let rec raw_is_sub gdzie gl gi co cl ci = + (ci>=cl) || + ((String.unsafe_get gdzie gi = String.unsafe_get co ci) && + (raw_is_sub gdzie gl (gi+1) co cl (ci+1))) + +let rec raw_str_index i gdzie l c co cl = + (* First adapt to ocaml 3.11 new semantics of index_from *) + if (i+cl > l) then raise Not_found; + (* Then proceed as in ocaml < 3.11 *) + let i' = String.index_from gdzie i c in + if (i'+cl <= l) && (raw_is_sub gdzie l i' co cl 0) then i' else + raw_str_index (i'+1) gdzie l c co cl + +let string_index_from gdzie i co = + if co="" then i else + raw_str_index i gdzie (String.length gdzie) + (String.unsafe_get co 0) co (String.length co) + +let string_contains ~where ~what = + try + let _ = string_index_from where 0 what in true + with + Not_found -> false + +let is_sub p s off = + let lp = String.length p in + let ls = String.length s in + if ls < off + lp then false + else + let rec aux i = + if lp <= i then true + else + let cp = String.unsafe_get p i in + let cs = String.unsafe_get s (off + i) in + if cp = cs then aux (succ i) else false + in + aux 0 + +let plural n s = if n<>1 then s^"s" else s + +let conjugate_verb_to_be n = if n<>1 then "are" else "is" + +let ordinal 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 + string_of_int n ^ s + +(* string parsing *) + +let split c s = + let len = String.length s in + let rec split n = + try + let pos = String.index_from s n c in + let dir = String.sub s n (pos-n) in + dir :: split (succ pos) + with + | Not_found -> [String.sub s n (len-n)] + in + if Int.equal len 0 then [] else split 0 + +module Self = +struct + type t = string + let compare = compare +end + +module Set = Set.Make(Self) +module Map = CMap.Make(Self) + +module List = struct + type elt = string + let mem id l = List.exists (fun s -> equal id s) l + let assoc id l = CList.assoc_f equal id l + let remove_assoc id l = CList.remove_assoc_f equal id l + let mem_assoc id l = List.exists (fun (a,_) -> equal id a) l + let mem_assoc_sym id l = List.exists (fun (_,b) -> equal id b) l + let equal l l' = CList.equal equal l l' +end + +let hcons = Hashcons.simple_hcons Hashcons.Hstring.generate Hashcons.Hstring.hcons () diff --git a/clib/cString.mli b/clib/cString.mli new file mode 100644 index 00000000..2000dfaf --- /dev/null +++ b/clib/cString.mli @@ -0,0 +1,80 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* string -> bool = "caml_string_equal" "noalloc" + [@@@ocaml.warning "+3"] + + (** Equality on strings *) + + val hash : string -> int + (** Hashing on strings. Should be compatible with generic one. *) + + val is_empty : string -> bool + (** Test whether a string is empty. *) + + val explode : string -> string list + (** [explode "x1...xn"] returns [["x1"; ...; "xn"]] *) + + val implode : string list -> string + (** [implode [s1; ...; sn]] returns [s1 ^ ... ^ sn] *) + + val strip : string -> string + (** Remove the surrounding blank characters from a string *) + + val drop_simple_quotes : string -> string + (** Remove the eventual first surrounding simple quotes of a string. *) + + val string_index_from : string -> int -> string -> int + (** As [index_from], but takes a string instead of a char as pattern argument *) + + val string_contains : where:string -> what:string -> bool + (** As [contains], but takes a string instead of a char as pattern argument *) + + val plural : int -> string -> string + (** [plural n s] adds a optional 's' to the [s] when [2 <= n]. *) + + val conjugate_verb_to_be : int -> string + (** [conjugate_verb_to_be] returns "is" when [n=1] and "are" otherwise *) + + val ordinal : int -> string + (** Generate the ordinal number in English. *) + + val split : char -> string -> string list + (** [split c s] splits [s] into sequences separated by [c], excluded. *) + + val is_sub : string -> string -> int -> bool + (** [is_sub p s off] tests whether [s] contains [p] at offset [off]. *) + + (** {6 Generic operations} **) + + module Set : Set.S with type elt = t + (** Finite sets on [string] *) + + module Map : CMap.ExtS with type key = t and module Set := Set + (** Finite maps on [string] *) + + module List : CList.MonoS with type elt = t + (** Association lists with [string] as keys *) + + val hcons : string -> string + (** Hashconsing on [string] *) + +end + +include ExtS diff --git a/clib/cThread.ml b/clib/cThread.ml new file mode 100644 index 00000000..0b7955aa --- /dev/null +++ b/clib/cThread.ml @@ -0,0 +1,99 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* loop () + in + loop () + +let thread_friendly_read ic s ~off ~len = + try + let fd = Unix.descr_of_in_channel ic in + thread_friendly_read_fd fd s ~off ~len + with Unix.Unix_error _ -> 0 + +let really_read_fd fd s off len = + let i = ref 0 in + while !i < len do + let off = off + !i in + let len = len - !i in + let r = thread_friendly_read_fd fd s ~off ~len in + if r = 0 then raise End_of_file; + i := !i + r + done + +let really_read_fd_2_oc fd oc len = + let i = ref 0 in + let size = 4096 in + let s = Bytes.create size in + while !i < len do + let len = len - !i in + let r = thread_friendly_read_fd fd s ~off:0 ~len:(min len size) in + if r = 0 then raise End_of_file; + i := !i + r; + output oc s 0 r; + done + +let thread_friendly_really_read ic s ~off ~len = + try + let fd = Unix.descr_of_in_channel ic in + really_read_fd fd s off len + with Unix.Unix_error _ -> raise End_of_file + +let thread_friendly_really_read_line ic = + try + let fd = Unix.descr_of_in_channel ic in + let b = Buffer.create 1024 in + let s = Bytes.make 1 '\000' in + let endl = Bytes.of_string "\n" in + (* Bytes.equal is in 4.03.0 *) + while Bytes.compare s endl <> 0 do + let n = thread_friendly_read_fd fd s ~off:0 ~len:1 in + if n = 0 then raise End_of_file; + if Bytes.compare s endl <> 0 then Buffer.add_bytes b s; + done; + Buffer.contents b + with Unix.Unix_error _ -> raise End_of_file + +let thread_friendly_input_value ic = + try + let fd = Unix.descr_of_in_channel ic in + let header = Bytes.create Marshal.header_size in + really_read_fd fd header 0 Marshal.header_size; + let body_size = Marshal.data_size header 0 in + let desired_size = body_size + Marshal.header_size in + if desired_size <= Sys.max_string_length then begin + let msg = Bytes.create desired_size in + Bytes.blit header 0 msg 0 Marshal.header_size; + really_read_fd fd msg Marshal.header_size body_size; + Marshal.from_bytes msg 0 + end else begin + (* Workaround for 32 bit systems and data > 16M *) + let name, oc = + Filename.open_temp_file ~mode:[Open_binary] "coq" "marshal" in + try + output oc header 0 Marshal.header_size; + really_read_fd_2_oc fd oc body_size; + close_out oc; + let ic = open_in_bin name in + let data = Marshal.from_channel ic in + close_in ic; + Sys.remove name; + data + with e -> Sys.remove name; raise e + end + with Unix.Unix_error _ | Sys_error _ -> raise End_of_file + diff --git a/clib/cThread.mli b/clib/cThread.mli new file mode 100644 index 00000000..acc5a60c --- /dev/null +++ b/clib/cThread.mli @@ -0,0 +1,28 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* thread_ic + +val thread_friendly_input_value : thread_ic -> 'a +val thread_friendly_read : + thread_ic -> Bytes.t -> off:int -> len:int -> int +val thread_friendly_really_read : + thread_ic -> Bytes.t -> off:int -> len:int -> unit +val thread_friendly_really_read_line : thread_ic -> string + diff --git a/clib/cUnix.ml b/clib/cUnix.ml new file mode 100644 index 00000000..6b42e304 --- /dev/null +++ b/clib/cUnix.ml @@ -0,0 +1,146 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* + (* We give up to find a canonical name and just simplify it... *) + strip_path p + +let make_suffix name suffix = + if Filename.check_suffix name suffix then name else (name ^ suffix) + +let get_extension f = + let pos = try String.rindex f '.' with Not_found -> String.length f in + String.sub f pos (String.length f - pos) + +let correct_path f dir = + if Filename.is_relative f then Filename.concat dir f else f + +let file_readable_p name = + try Unix.access name [Unix.R_OK];true + with Unix.Unix_error (_, _, _) -> false + +(* As for [Unix.close_process], a [Unix.waipid] that ignores all [EINTR] *) + +let rec waitpid_non_intr pid = + try snd (Unix.waitpid [] pid) + with Unix.Unix_error (Unix.EINTR, _, _) -> waitpid_non_intr pid + +(** [run_command com] launches command [com] (via /bin/sh), + and returns the contents of stdout and stderr. If given, [~hook] + is called on each elements read on stdout or stderr. *) + +let run_command ?(hook=(fun _ ->())) c = + let result = Buffer.create 127 in + let cin,cout,cerr = Unix.open_process_full c (Unix.environment ()) in + let buff = Bytes.make 127 ' ' in + let buffe = Bytes.make 127 ' ' in + let n = ref 0 in + let ne = ref 0 in + while n:= input cin buff 0 127 ; ne := input cerr buffe 0 127 ; + !n+ !ne <> 0 + do + let r = Bytes.sub buff 0 !n in (hook r; Buffer.add_bytes result r); + let r = Bytes.sub buffe 0 !ne in (hook r; Buffer.add_bytes result r); + done; + (Unix.close_process_full (cin,cout,cerr), Buffer.contents result) + +(** [sys_command] launches program [prog] with arguments [args]. + It behaves like [Sys.command], except that we rely on + [Unix.create_process], it's hardly more complex and avoids dealing + with shells. In particular, no need to quote arguments + (against whitespace or other funny chars in paths), hence no need + to care about the different quoting conventions of /bin/sh and cmd.exe. *) + +let sys_command prog args = + let argv = Array.of_list (prog::args) in + let pid = Unix.create_process prog argv Unix.stdin Unix.stdout Unix.stderr in + waitpid_non_intr pid + +(* + checks if two file names refer to the same (existing) file by + comparing their device and inode. + It seems that under Windows, inode is always 0, so we cannot + accurately check if + +*) +(* Optimised for partial application (in case many candidates must be + compared to f1). *) +let same_file f1 = + try + let s1 = Unix.stat f1 in + (fun f2 -> + try + let s2 = Unix.stat f2 in + s1.Unix.st_dev = s2.Unix.st_dev && + if Sys.os_type = "Win32" then f1 = f2 + else s1.Unix.st_ino = s2.Unix.st_ino + with + Unix.Unix_error _ -> false) + with + Unix.Unix_error _ -> (fun _ -> false) diff --git a/clib/cUnix.mli b/clib/cUnix.mli new file mode 100644 index 00000000..1b185345 --- /dev/null +++ b/clib/cUnix.mli @@ -0,0 +1,71 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* physical_path +val string_of_physical_path : physical_path -> string + +(** Escape what has to be escaped (e.g. surround with quotes if with spaces) *) +val escaped_string_of_physical_path : physical_path -> string + +val canonical_path_name : string -> string + +(** Remove all initial "./" in a path *) +val remove_path_dot : string -> string + +(** If a path [p] starts with the current directory $PWD then + [strip_path p] returns the sub-path relative to $PWD. + Any leading "./" are also removed from the result. *) +val strip_path : string -> string + +(** correct_path f dir = dir/f if f is relative *) +val correct_path : string -> string -> string + +val path_to_list : string -> string list + +(** [make_suffix file suf] catenate [file] with [suf] when + [file] does not already end with [suf]. *) +val make_suffix : string -> string -> string + +(** Return the extension of a file, i.e. its smaller suffix starting + with "." if any, or "" otherwise. *) +val get_extension : string -> string + +val file_readable_p : string -> bool + +(** {6 Executing commands } *) + +(** [run_command com] launches command [com], and returns + the contents of stdout and stderr. If given, [~hook] + is called on each elements read on stdout or stderr. *) + +val run_command : + ?hook:(bytes->unit) -> string -> Unix.process_status * string + +(** [sys_command] launches program [prog] with arguments [args]. + It behaves like [Sys.command], except that we rely on + [Unix.create_process], it's hardly more complex and avoids dealing + with shells. In particular, no need to quote arguments + (against whitespace or other funny chars in paths), hence no need + to care about the different quoting conventions of /bin/sh and cmd.exe. *) + +val sys_command : string -> string list -> Unix.process_status + +(** A version of [Unix.waitpid] immune to EINTR exceptions *) + +val waitpid_non_intr : int -> Unix.process_status + +(** Check if two file names refer to the same (existing) file *) +val same_file : string -> string -> bool + diff --git a/clib/canary.ml b/clib/canary.ml new file mode 100644 index 00000000..b8b79ed7 --- /dev/null +++ b/clib/canary.ml @@ -0,0 +1,28 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* M.t + val inj : M.t -> t +end +(** Adds a canary to any type. *) diff --git a/clib/clib.mllib b/clib/clib.mllib new file mode 100644 index 00000000..c9b4d72f --- /dev/null +++ b/clib/clib.mllib @@ -0,0 +1,40 @@ +Canary +CObj +CEphemeron + +Hashset +Hashcons + +OrderedType +CSet +CMap +CList +CString +CStack + +Int +Range +HMap +Bigint + +CArray +Option +CUnix + +Segmenttree +Unicodetable +Unicode +Minisys +CThread +Trie +Predicate +Heap +Unionfind + +Dyn +Store +Exninfo +Backtrace +IStream +Terminal +Monad diff --git a/clib/dyn.ml b/clib/dyn.ml new file mode 100644 index 00000000..e9b04198 --- /dev/null +++ b/clib/dyn.ml @@ -0,0 +1,161 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a obj -> t -> t + val remove : 'a key -> t -> t + val find : 'a key -> t -> 'a obj + val mem : 'a key -> t -> bool + + type any = Any : 'a key * 'a obj -> any + + type map = { map : 'a. 'a key -> 'a obj -> 'a obj } + val map : map -> t -> t + + val iter : (any -> unit) -> t -> unit + val fold : (any -> 'r -> 'r) -> t -> 'r -> 'r +end + +module type PreS = +sig +type 'a tag +type t = Dyn : 'a tag * 'a -> t + +val create : string -> 'a tag +val eq : 'a tag -> 'b tag -> ('a, 'b) CSig.eq option +val repr : 'a tag -> string + +type any = Any : 'a tag -> any + +val name : string -> any option + +module Map(M : TParam) : MapS with type 'a obj = 'a M.t with type 'a key = 'a tag + +val dump : unit -> (int * string) list + +end + +module type S = +sig + include PreS + + module Easy : sig + + val make_dyn_tag : string -> ('a -> t) * (t -> 'a) * 'a tag + val make_dyn : string -> ('a -> t) * (t -> 'a) + val inj : 'a -> 'a tag -> t + val prj : t -> 'a tag -> 'a option + end + +end + +module Make () = struct +module Self : PreS = struct +(* Dynamics, programmed with DANGER !!! *) + +type 'a tag = int + +type t = Dyn : 'a tag * 'a -> t + +type any = Any : 'a tag -> any + +let dyntab = ref (Int.Map.empty : string Int.Map.t) +(** Instead of working with tags as strings, which are costly, we use their + hash. We ensure unicity of the hash in the [create] function. If ever a + collision occurs, which is unlikely, it is sufficient to tweak the offending + dynamic tag. *) + +let create (s : string) = + let hash = Hashtbl.hash s in + let () = + if Int.Map.mem hash !dyntab then + let old = Int.Map.find hash !dyntab in + let () = Printf.eprintf "Dynamic tag collision: %s vs. %s\n%!" s old in + assert false + in + let () = dyntab := Int.Map.add hash s !dyntab in + hash + +let eq : 'a 'b. 'a tag -> 'b tag -> ('a, 'b) CSig.eq option = + fun h1 h2 -> if Int.equal h1 h2 then Some (Obj.magic CSig.Refl) else None + +let repr s = + try Int.Map.find s !dyntab + with Not_found -> + let () = Printf.eprintf "Unknown dynamic tag %i\n%!" s in + assert false + +let name s = + let hash = Hashtbl.hash s in + if Int.Map.mem hash !dyntab then Some (Any hash) else None + +let dump () = Int.Map.bindings !dyntab + +module Map(M : TParam) = +struct +type t = Obj.t M.t Int.Map.t +type 'a obj = 'a M.t +type 'a key = 'a tag +let cast : 'a M.t -> 'b M.t = Obj.magic +let empty = Int.Map.empty +let add tag v m = Int.Map.add tag (cast v) m +let remove tag m = Int.Map.remove tag m +let find tag m = cast (Int.Map.find tag m) +let mem = Int.Map.mem + +type any = Any : 'a tag * 'a M.t -> any + +type map = { map : 'a. 'a tag -> 'a M.t -> 'a M.t } +let map f m = Int.Map.mapi f.map m + +let iter f m = Int.Map.iter (fun k v -> f (Any (k, v))) m +let fold f m accu = Int.Map.fold (fun k v accu -> f (Any (k, v)) accu) m accu +end + +end +include Self + +module Easy = struct + +(* now tags are opaque, we can do the trick *) +let make_dyn_tag (s : string) = + (fun (type a) (tag : a tag) -> + let infun : (a -> t) = fun x -> Dyn (tag, x) in + let outfun : (t -> a) = fun (Dyn (t, x)) -> + match eq tag t with + | None -> assert false + | Some CSig.Refl -> x + in + infun, outfun, tag) + (create s) + +let make_dyn (s : string) = + let inf, outf, _ = make_dyn_tag s in inf, outf + +let inj x tag = Dyn(tag,x) +let prj : type a. t -> a tag -> a option = + fun (Dyn(tag',x)) tag -> + match eq tag tag' with + | None -> None + | Some CSig.Refl -> Some x +end + +end + diff --git a/clib/dyn.mli b/clib/dyn.mli new file mode 100644 index 00000000..51d30914 --- /dev/null +++ b/clib/dyn.mli @@ -0,0 +1,68 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a obj -> t -> t + val remove : 'a key -> t -> t + val find : 'a key -> t -> 'a obj + val mem : 'a key -> t -> bool + + type any = Any : 'a key * 'a obj -> any + + type map = { map : 'a. 'a key -> 'a obj -> 'a obj } + val map : map -> t -> t + + val iter : (any -> unit) -> t -> unit + val fold : (any -> 'r -> 'r) -> t -> 'r -> 'r +end + +module type S = +sig +type 'a tag +type t = Dyn : 'a tag * 'a -> t + +val create : string -> 'a tag +val eq : 'a tag -> 'b tag -> ('a, 'b) CSig.eq option +val repr : 'a tag -> string + +type any = Any : 'a tag -> any + +val name : string -> any option + +module Map(M : TParam) : MapS with type 'a obj = 'a M.t with type 'a key = 'a tag + +val dump : unit -> (int * string) list + +module Easy : sig + + (* To create a dynamic type on the fly *) + val make_dyn_tag : string -> ('a -> t) * (t -> 'a) * 'a tag + val make_dyn : string -> ('a -> t) * (t -> 'a) + + (* For types declared with the [create] function above *) + val inj : 'a -> 'a tag -> t + val prj : t -> 'a tag -> 'a option +end + +end + +module Make () : S diff --git a/clib/exninfo.ml b/clib/exninfo.ml new file mode 100644 index 00000000..2d130498 --- /dev/null +++ b/clib/exninfo.ml @@ -0,0 +1,106 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a t +(** Create a new piece of information. *) + +val null : info +(** No information *) + +val add : info -> 'a t -> 'a -> info +(** Add information to an exception. *) + +val get : info -> 'a t -> 'a option +(** Get information worn by an exception. Returns [None] if undefined. *) + +val info : exn -> info +(** Retrieve the information of the last exception raised. *) + +val iraise : iexn -> 'a +(** Raise the given enriched exception. *) + +val raise : ?info:info -> exn -> 'a +(** Raise the given exception with additional information. *) diff --git a/clib/hMap.ml b/clib/hMap.ml new file mode 100644 index 00000000..37f867c6 --- /dev/null +++ b/clib/hMap.ml @@ -0,0 +1,416 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> int + val hash : t -> int +end + +module SetMake(M : HashedType) = +struct + (** Hash Sets use hashes to prevent doing too many comparison tests. They + associate to each hash the set of keys having that hash. + + Invariants: + + 1. There is no empty set in the intmap. + 2. All values in the same set have the same hash, which is the int to + which it is associated in the intmap. + *) + + module Set = Set.Make(M) + + type elt = M.t + + type t = Set.t Int.Map.t + + let empty = Int.Map.empty + + let is_empty = Int.Map.is_empty + + let mem x s = + let h = M.hash x in + try + let m = Int.Map.find h s in + Set.mem x m + with Not_found -> false + + let add x s = + let h = M.hash x in + try + let m = Int.Map.find h s in + let m = Set.add x m in + Int.Map.set h m s + with Not_found -> + let m = Set.singleton x in + Int.Map.add h m s + + let singleton x = + let h = M.hash x in + let m = Set.singleton x in + Int.Map.singleton h m + + let remove x s = + let h = M.hash x in + try + let m = Int.Map.find h s in + let m = Set.remove x m in + if Set.is_empty m then + Int.Map.remove h s + else + Int.Map.set h m s + with Not_found -> s + + let height s = Int.Map.height s + + let is_smaller s1 s2 = height s1 <= height s2 + 3 + + (** Assumes s1 << s2 *) + let fast_union s1 s2 = + let fold h s accu = + try Int.Map.modify h (fun _ s' -> Set.fold Set.add s s') accu + with Not_found -> Int.Map.add h s accu + in + Int.Map.fold fold s1 s2 + + let union s1 s2 = + if is_smaller s1 s2 then fast_union s1 s2 + else if is_smaller s2 s1 then fast_union s2 s1 + else + let fu _ m1 m2 = match m1, m2 with + | None, None -> None + | (Some _ as m), None | None, (Some _ as m) -> m + | Some m1, Some m2 -> Some (Set.union m1 m2) + in + Int.Map.merge fu s1 s2 + + (** Assumes s1 << s2 *) + let fast_inter s1 s2 = + let fold h s accu = + try + let s' = Int.Map.find h s2 in + let si = Set.filter (fun e -> Set.mem e s') s in + if Set.is_empty si then accu + else Int.Map.add h si accu + with Not_found -> accu + in + Int.Map.fold fold s1 Int.Map.empty + + let inter s1 s2 = + if is_smaller s1 s2 then fast_inter s1 s2 + else if is_smaller s2 s1 then fast_inter s2 s1 + else + let fu _ m1 m2 = match m1, m2 with + | None, None -> None + | Some _, None | None, Some _ -> None + | Some m1, Some m2 -> + let m = Set.inter m1 m2 in + if Set.is_empty m then None else Some m + in + Int.Map.merge fu s1 s2 + + (** Assumes s1 << s2 *) + let fast_diff_l s1 s2 = + let fold h s accu = + try + let s' = Int.Map.find h s2 in + let si = Set.filter (fun e -> not (Set.mem e s')) s in + if Set.is_empty si then accu + else Int.Map.add h si accu + with Not_found -> Int.Map.add h s accu + in + Int.Map.fold fold s1 Int.Map.empty + + (** Assumes s2 << s1 *) + let fast_diff_r s1 s2 = + let fold h s accu = + try + let s' = Int.Map.find h accu in + let si = Set.filter (fun e -> not (Set.mem e s)) s' in + if Set.is_empty si then Int.Map.remove h accu + else Int.Map.set h si accu + with Not_found -> accu + in + Int.Map.fold fold s2 s1 + + let diff s1 s2 = + if is_smaller s1 s2 then fast_diff_l s1 s2 + else if is_smaller s2 s2 then fast_diff_r s1 s2 + else + let fu _ m1 m2 = match m1, m2 with + | None, None -> None + | (Some _ as m), None -> m + | None, Some _ -> None + | Some m1, Some m2 -> + let m = Set.diff m1 m2 in + if Set.is_empty m then None else Some m + in + Int.Map.merge fu s1 s2 + + let compare s1 s2 = Int.Map.compare Set.compare s1 s2 + + let equal s1 s2 = Int.Map.equal Set.equal s1 s2 + + let subset s1 s2 = + let check h m1 = + let m2 = try Int.Map.find h s2 with Not_found -> Set.empty in + Set.subset m1 m2 + in + Int.Map.for_all check s1 + + let iter f s = + let fi _ m = Set.iter f m in + Int.Map.iter fi s + + let fold f s accu = + let ff _ m accu = Set.fold f m accu in + Int.Map.fold ff s accu + + let for_all f s = + let ff _ m = Set.for_all f m in + Int.Map.for_all ff s + + let exists f s = + let fe _ m = Set.exists f m in + Int.Map.exists fe s + + let filter f s = + let ff m = Set.filter f m in + let s = Int.Map.map ff s in + Int.Map.filter (fun _ m -> not (Set.is_empty m)) s + + let partition f s = + let fold h m (sl, sr) = + let (ml, mr) = Set.partition f m in + let sl = if Set.is_empty ml then sl else Int.Map.add h ml sl in + let sr = if Set.is_empty mr then sr else Int.Map.add h mr sr in + (sl, sr) + in + Int.Map.fold fold s (Int.Map.empty, Int.Map.empty) + + let cardinal s = + let fold _ m accu = accu + Set.cardinal m in + Int.Map.fold fold s 0 + + let elements s = + let fold _ m accu = Set.fold (fun x accu -> x :: accu) m accu in + Int.Map.fold fold s [] + + let min_elt _ = assert false (** Cannot be implemented efficiently *) + + let max_elt _ = assert false (** Cannot be implemented efficiently *) + + let choose s = + let (_, m) = Int.Map.choose s in + Set.choose m + + let split s x = assert false (** Cannot be implemented efficiently *) + +end + +module Make(M : HashedType) = +struct + (** This module is essentially the same as SetMake, except that we have maps + instead of sets in the intmap. Invariants are the same. *) + module Set = SetMake(M) + module Map = CMap.Make(M) + + type key = M.t + + type 'a t = 'a Map.t Int.Map.t + + let empty = Int.Map.empty + + let is_empty = Int.Map.is_empty + + let mem k s = + let h = M.hash k in + try + let m = Int.Map.find h s in + Map.mem k m + with Not_found -> false + + let add k x s = + let h = M.hash k in + try + let m = Int.Map.find h s in + let m = Map.add k x m in + Int.Map.set h m s + with Not_found -> + let m = Map.singleton k x in + Int.Map.add h m s + + (* when Coq requires OCaml 4.06 or later, the module type + CSig.MapS may include the signature of OCaml's "update", + requiring an implementation here, which could be just: + + let update k f s = assert false (* not implemented *) + + *) + + let singleton k x = + let h = M.hash k in + Int.Map.singleton h (Map.singleton k x) + + let remove k s = + let h = M.hash k in + try + let m = Int.Map.find h s in + let m = Map.remove k m in + if Map.is_empty m then + Int.Map.remove h s + else + Int.Map.set h m s + with Not_found -> s + + let merge f s1 s2 = + let fm h m1 m2 = match m1, m2 with + | None, None -> None + | Some m, None -> + let m = Map.merge f m Map.empty in + if Map.is_empty m then None + else Some m + | None, Some m -> + let m = Map.merge f Map.empty m in + if Map.is_empty m then None + else Some m + | Some m1, Some m2 -> + let m = Map.merge f m1 m2 in + if Map.is_empty m then None + else Some m + in + Int.Map.merge fm s1 s2 + + let compare f s1 s2 = + let fc m1 m2 = Map.compare f m1 m2 in + Int.Map.compare fc s1 s2 + + let equal f s1 s2 = + let fe m1 m2 = Map.equal f m1 m2 in + Int.Map.equal fe s1 s2 + + let iter f s = + let fi _ m = Map.iter f m in + Int.Map.iter fi s + + let fold f s accu = + let ff _ m accu = Map.fold f m accu in + Int.Map.fold ff s accu + + let for_all f s = + let ff _ m = Map.for_all f m in + Int.Map.for_all ff s + + let exists f s = + let fe _ m = Map.exists f m in + Int.Map.exists fe s + + let filter f s = + let ff m = Map.filter f m in + let s = Int.Map.map ff s in + Int.Map.filter (fun _ m -> not (Map.is_empty m)) s + + let partition f s = + let fold h m (sl, sr) = + let (ml, mr) = Map.partition f m in + let sl = if Map.is_empty ml then sl else Int.Map.add h ml sl in + let sr = if Map.is_empty mr then sr else Int.Map.add h mr sr in + (sl, sr) + in + Int.Map.fold fold s (Int.Map.empty, Int.Map.empty) + + let cardinal s = + let fold _ m accu = accu + Map.cardinal m in + Int.Map.fold fold s 0 + + let bindings s = + let fold _ m accu = Map.fold (fun k x accu -> (k, x) :: accu) m accu in + Int.Map.fold fold s [] + + let min_binding _ = assert false (** Cannot be implemented efficiently *) + + let max_binding _ = assert false (** Cannot be implemented efficiently *) + + let fold_left _ _ _ = assert false (** Cannot be implemented efficiently *) + + let fold_right _ _ _ = assert false (** Cannot be implemented efficiently *) + + let choose s = + let (_, m) = Int.Map.choose s in + Map.choose m + + let find k s = + let h = M.hash k in + let m = Int.Map.find h s in + Map.find k m + + let get k s = try find k s with Not_found -> assert false + + let split k s = assert false (** Cannot be implemented efficiently *) + + let map f s = + let fs m = Map.map f m in + Int.Map.map fs s + + let mapi f s = + let fs m = Map.mapi f m in + Int.Map.map fs s + + let modify k f s = + let h = M.hash k in + let m = Int.Map.find h s in + let m = Map.modify k f m in + Int.Map.set h m s + + let bind f s = + let fb m = Map.bind f m in + Int.Map.map fb s + + let domain s = Int.Map.map Map.domain s + + let set k x s = + let h = M.hash k in + let m = Int.Map.find h s in + let m = Map.set k x m in + Int.Map.set h m s + + let smartmap f s = + let fs m = Map.smartmap f m in + Int.Map.smartmap fs s + + let smartmapi f s = + let fs m = Map.smartmapi f m in + Int.Map.smartmap fs s + + let height s = Int.Map.height s + + module Unsafe = + struct + let map f s = + let fs m = Map.Unsafe.map f m in + Int.Map.map fs s + end + + module Monad(M : CMap.MonadS) = + struct + module IntM = Int.Map.Monad(M) + module ExtM = Map.Monad(M) + + let fold f s accu = + let ff _ m accu = ExtM.fold f m accu in + IntM.fold ff s accu + + let fold_left _ _ _ = assert false + let fold_right _ _ _ = assert false + end + +end diff --git a/clib/hMap.mli b/clib/hMap.mli new file mode 100644 index 00000000..b26d0e04 --- /dev/null +++ b/clib/hMap.mli @@ -0,0 +1,30 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> int + (** Total ordering *) + val hash : t -> int + (** Hashing function compatible with [compare], i.e. [compare x y = 0] implies + [hash x = hash y]. *) +end + +(** Hash maps are maps that take advantage of having a hash on keys. This is + essentially a hash table, except that it uses purely functional maps instead + of arrays. + + CAVEAT: order-related functions like [fold] or [iter] do not respect the + provided order anymore! It's your duty to do something sensible to prevent + this if you need it. In particular, [min_binding] and [max_binding] are now + made meaningless. +*) +module Make(M : HashedType) : CMap.ExtS with type key = M.t diff --git a/clib/hashcons.ml b/clib/hashcons.ml new file mode 100644 index 00000000..ec73c6d9 --- /dev/null +++ b/clib/hashcons.ml @@ -0,0 +1,188 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t1)*(t2->t2)*...). + * [hashcons u x] is a function that hash-cons the sub-structures of x using + * the hash-consing functions u provides. + * [eq] is a comparison function. It is allowed to use physical equality + * on the sub-terms hash-consed by the hashcons function. + * [hash] is the hash function given to the Hashtbl.Make function + * + * Note that this module type coerces to the argument of Hashtbl.Make. + *) + +module type HashconsedType = + sig + type t + type u + val hashcons : u -> t -> t + val eq : t -> t -> bool + val hash : t -> int + end + +(** The output is a function [generate] such that [generate args] creates a + hash-table of the hash-consed objects, together with [hcons], a function + taking a table and an object, and hashcons it. For simplicity of use, we use + the wrapper functions defined below. *) + +module type S = + sig + type t + type u + type table + val generate : u -> table + val hcons : table -> t -> t + val stats : table -> Hashset.statistics + end + +module Make (X : HashconsedType) : (S with type t = X.t and type u = X.u) = + struct + type t = X.t + type u = X.u + + (* We create the type of hashtables for t, with our comparison fun. + * An invariant is that the table never contains two entries equals + * w.r.t (=), although the equality on keys is X.eq. This is + * granted since we hcons the subterms before looking up in the table. + *) + module Htbl = Hashset.Make(X) + + type table = (Htbl.t * u) + + let generate u = + let tab = Htbl.create 97 in + (tab, u) + + let hcons (tab, u) x = + let y = X.hashcons u x in + Htbl.repr (X.hash y) y tab + + let stats (tab, _) = Htbl.stats tab + + end + +(* A few useful wrappers: + * takes as argument the function [generate] above and build a function of type + * u -> t -> t that creates a fresh table each time it is applied to the + * sub-hcons functions. *) + +(* For non-recursive types it is quite easy. *) +let simple_hcons h f u = + let table = h u in + fun x -> f table x + +(* For a recursive type T, we write the module of sig Comp with u equals + * to (T -> T) * u0 + * The first component will be used to hash-cons the recursive subterms + * The second one to hashcons the other sub-structures. + * We just have to take the fixpoint of h + *) +let recursive_hcons h f u = + let loop = ref (fun _ -> assert false) in + let self x = !loop x in + let table = h (self, u) in + let hrec x = f table x in + let () = loop := hrec in + hrec + +(* Basic hashcons modules for string and obj. Integers do not need be + hashconsed. *) + +module type HashedType = sig type t val hash : t -> int end + +(* list *) +module Hlist (D:HashedType) = + Make( + struct + type t = D.t list + type u = (t -> t) * (D.t -> D.t) + let hashcons (hrec,hdata) = function + | x :: l -> hdata x :: hrec l + | l -> l + let eq l1 l2 = + l1 == l2 || + match l1, l2 with + | [], [] -> true + | x1::l1, x2::l2 -> x1==x2 && l1==l2 + | _ -> false + let rec hash accu = function + | [] -> accu + | x :: l -> + let accu = Hashset.Combine.combine (D.hash x) accu in + hash accu l + let hash l = hash 0 l + end) + +(* string *) +module Hstring = Make( + struct + type t = string + type u = unit + let hashcons () s =(* incr accesstr;*) s + + [@@@ocaml.warning "-3"] (* [@@noalloc] since 4.03.0 GPR#240 *) + external eq : string -> string -> bool = "caml_string_equal" "noalloc" + [@@@ocaml.warning "+3"] + + (** Copy from CString *) + let rec hash len s i accu = + if i = len then accu + else + let c = Char.code (String.unsafe_get s i) in + hash len s (succ i) (accu * 19 + c) + + let hash s = + let len = String.length s in + hash len s 0 0 + end) + +(* Obj.t *) +exception NotEq + +(* From CAMLLIB/caml/mlvalues.h *) +let no_scan_tag = 251 +let tuple_p obj = Obj.is_block obj && (Obj.tag obj < no_scan_tag) + +let comp_obj o1 o2 = + if tuple_p o1 && tuple_p o2 then + let n1 = Obj.size o1 and n2 = Obj.size o2 in + if n1=n2 then + try + for i = 0 to pred n1 do + if not (Obj.field o1 i == Obj.field o2 i) then raise NotEq + done; true + with NotEq -> false + else false + else o1=o2 + +let hash_obj hrec o = + begin + if tuple_p o then + let n = Obj.size o in + for i = 0 to pred n do + Obj.set_field o i (hrec (Obj.field o i)) + done + end; + o + +module Hobj = Make( + struct + type t = Obj.t + type u = (Obj.t -> Obj.t) * unit + let hashcons (hrec,_) = hash_obj hrec + let eq = comp_obj + let hash = Hashtbl.hash + end) diff --git a/clib/hashcons.mli b/clib/hashcons.mli new file mode 100644 index 00000000..3e396ff2 --- /dev/null +++ b/clib/hashcons.mli @@ -0,0 +1,92 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> t + (** The actual hashconsing function, using its fist argument to recursively + hashcons substructures. It should be compatible with [eq], that is + [eq x (hashcons f x) = true]. *) + val eq : t -> t -> bool + (** A comparison function. It is allowed to use physical equality + on the sub-terms hashconsed by the [hashcons] function, but it should be + insensible to shallow copy of the compared object. *) + val hash : t -> int + (** A hash function passed to the underlying hashtable structure. [hash] + should be compatible with [eq], i.e. if [eq x y = true] then + [hash x = hash y]. *) + end + +module type S = + sig + type t + (** Type of objects to hashcons. *) + type u + (** Type of hashcons functions for the sub-structures contained in [t]. *) + type table + (** Type of hashconsing tables *) + val generate : u -> table + (** This create a hashtable of the hashconsed objects. *) + val hcons : table -> t -> t + (** Perform the hashconsing of the given object within the table. *) + val stats : table -> Hashset.statistics + (** Recover statistics of the hashconsing table. *) + end + +module Make (X : HashconsedType) : (S with type t = X.t and type u = X.u) +(** Create a new hashconsing, given canonicalization functions. *) + +(** {6 Wrappers} *) + +(** These are intended to be used together with instances of the [Make] + functor. *) + +val simple_hcons : ('u -> 'tab) -> ('tab -> 't -> 't) -> 'u -> 't -> 't +(** [simple_hcons f sub obj] creates a new table each time it is applied to any + sub-hash function [sub]. *) + +val recursive_hcons : (('t -> 't) * 'u -> 'tab) -> ('tab -> 't -> 't) -> ('u -> 't -> 't) +(** As [simple_hcons] but intended to be used with well-founded data structures. *) + +(** {6 Hashconsing of usual structures} *) + +module type HashedType = sig type t val hash : t -> int end + +module Hstring : (S with type t = string and type u = unit) +(** Hashconsing of strings. *) + +module Hlist (D:HashedType) : + (S with type t = D.t list and type u = (D.t list -> D.t list)*(D.t->D.t)) +(** Hashconsing of lists. *) + +module Hobj : (S with type t = Obj.t and type u = (Obj.t -> Obj.t) * unit) +(** Hashconsing of OCaml values. *) diff --git a/clib/hashset.ml b/clib/hashset.ml new file mode 100644 index 00000000..965cb67c --- /dev/null +++ b/clib/hashset.ml @@ -0,0 +1,231 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> bool +end + +type statistics = { + num_bindings: int; + num_buckets: int; + max_bucket_length: int; + bucket_histogram: int array +} + +module type S = sig + type elt + type t + val create : int -> t + val clear : t -> unit + val repr : int -> elt -> t -> elt + val stats : t -> statistics +end + +module Make (E : EqType) = + struct + + type elt = E.t + + let emptybucket = Weak.create 0 + + type t = { + mutable table : elt Weak.t array; + mutable hashes : int array array; + mutable limit : int; (* bucket size limit *) + mutable oversize : int; (* number of oversize buckets *) + mutable rover : int; (* for internal bookkeeping *) + } + + let get_index t h = (h land max_int) mod (Array.length t.table) + + let limit = 7 + let over_limit = 2 + + let create sz = + let sz = if sz < 7 then 7 else sz in + let sz = if sz > Sys.max_array_length then Sys.max_array_length else sz in + { + table = Array.make sz emptybucket; + hashes = Array.make sz [| |]; + limit = limit; + oversize = 0; + rover = 0; + } + + let clear t = + for i = 0 to Array.length t.table - 1 do + t.table.(i) <- emptybucket; + t.hashes.(i) <- [| |]; + done; + t.limit <- limit; + t.oversize <- 0 + + let iter_weak f t = + let rec iter_bucket i j b = + if i >= Weak.length b then () else + match Weak.check b i with + | true -> f b t.hashes.(j) i; iter_bucket (i+1) j b + | false -> iter_bucket (i+1) j b + in + for i = 0 to pred (Array.length t.table) do + iter_bucket 0 i (Array.unsafe_get t.table i) + done + + let rec count_bucket i b accu = + if i >= Weak.length b then accu else + count_bucket (i+1) b (accu + (if Weak.check b i then 1 else 0)) + + let min x y = if x - y < 0 then x else y + + let next_sz n = min (3 * n / 2 + 3) Sys.max_array_length + let prev_sz n = ((n - 3) * 2 + 2) / 3 + + let test_shrink_bucket t = + let bucket = t.table.(t.rover) in + let hbucket = t.hashes.(t.rover) in + let len = Weak.length bucket in + let prev_len = prev_sz len in + let live = count_bucket 0 bucket 0 in + if live <= prev_len then begin + let rec loop i j = + if j >= prev_len then begin + if Weak.check bucket i then loop (i + 1) j + else if Weak.check bucket j then begin + Weak.blit bucket j bucket i 1; + hbucket.(i) <- hbucket.(j); + loop (i + 1) (j - 1); + end else loop i (j - 1); + end; + in + loop 0 (Weak.length bucket - 1); + if prev_len = 0 then begin + t.table.(t.rover) <- emptybucket; + t.hashes.(t.rover) <- [| |]; + end else begin + Obj.truncate (Obj.repr bucket) (prev_len + 1); + Obj.truncate (Obj.repr hbucket) prev_len; + end; + if len > t.limit && prev_len <= t.limit then t.oversize <- t.oversize - 1; + end; + t.rover <- (t.rover + 1) mod (Array.length t.table) + + let rec resize t = + let oldlen = Array.length t.table in + let newlen = next_sz oldlen in + if newlen > oldlen then begin + let newt = create newlen in + let add_weak ob oh oi = + let setter nb ni _ = Weak.blit ob oi nb ni 1 in + let h = oh.(oi) in + add_aux newt setter None h (get_index newt h); + in + iter_weak add_weak t; + t.table <- newt.table; + t.hashes <- newt.hashes; + t.limit <- newt.limit; + t.oversize <- newt.oversize; + t.rover <- t.rover mod Array.length newt.table; + end else begin + t.limit <- max_int; (* maximum size already reached *) + t.oversize <- 0; + end + + and add_aux t setter d h index = + let bucket = t.table.(index) in + let hashes = t.hashes.(index) in + let sz = Weak.length bucket in + let rec loop i = + if i >= sz then begin + let newsz = min (3 * sz / 2 + 3) (Sys.max_array_length - 1) in + if newsz <= sz then failwith "Weak.Make: hash bucket cannot grow more"; + let newbucket = Weak.create newsz in + let newhashes = Array.make newsz 0 in + Weak.blit bucket 0 newbucket 0 sz; + Array.blit hashes 0 newhashes 0 sz; + setter newbucket sz d; + newhashes.(sz) <- h; + t.table.(index) <- newbucket; + t.hashes.(index) <- newhashes; + if sz <= t.limit && newsz > t.limit then begin + t.oversize <- t.oversize + 1; + for _i = 0 to over_limit do test_shrink_bucket t done; + end; + if t.oversize > Array.length t.table / over_limit then resize t + end else if Weak.check bucket i then begin + loop (i + 1) + end else begin + setter bucket i d; + hashes.(i) <- h + end + in + loop 0 + + let find_or h t d ifnotfound = + let index = get_index t h in + let bucket = t.table.(index) in + let hashes = t.hashes.(index) in + let sz = Weak.length bucket in + let rec loop i = + if i >= sz then ifnotfound index + else if Int.equal h hashes.(i) then begin + match Weak.get bucket i with + | Some v when E.eq v d -> v + | _ -> loop (i + 1) + end else loop (i + 1) + in + loop 0 + + let repr h d t = + let ifnotfound index = add_aux t Weak.set (Some d) h index; d in + find_or h t d ifnotfound + + let stats t = + let fold accu bucket = max (count_bucket 0 bucket 0) accu in + let max_length = Array.fold_left fold 0 t.table in + let histogram = Array.make (max_length + 1) 0 in + let iter bucket = + let len = count_bucket 0 bucket 0 in + histogram.(len) <- succ histogram.(len) + in + let () = Array.iter iter t.table in + let fold (num, len, i) k = (num + k * i, len + k, succ i) in + let (num, len, _) = Array.fold_left fold (0, 0, 0) histogram in + { + num_bindings = num; + num_buckets = len; + max_bucket_length = Array.length histogram; + bucket_histogram = histogram; + } + +end + +module Combine = struct + (* These are helper functions to combine the hash keys in a similar + way as [Hashtbl.hash] does. The constants [alpha] and [beta] must + be prime numbers. There were chosen empirically. Notice that the + problem of hashing trees is hard and there are plenty of study on + this topic. Therefore, there must be room for improvement here. *) + let alpha = 65599 + let beta = 7 + let combine x y = x * alpha + y + let combine3 x y z = combine x (combine y z) + let combine4 x y z t = combine x (combine3 y z t) + let combine5 x y z t u = combine x (combine4 y z t u) + let combinesmall x y = beta * x + y +end diff --git a/clib/hashset.mli b/clib/hashset.mli new file mode 100644 index 00000000..0699d4e8 --- /dev/null +++ b/clib/hashset.mli @@ -0,0 +1,58 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> bool +end + +type statistics = { + num_bindings: int; + num_buckets: int; + max_bucket_length: int; + bucket_histogram: int array +} + +module type S = sig + type elt + (** Type of hashsets elements. *) + type t + (** Type of hashsets. *) + val create : int -> t + (** [create n] creates a fresh hashset with initial size [n]. *) + val clear : t -> unit + (** Clear the contents of a hashset. *) + val repr : int -> elt -> t -> elt + (** [repr key constr set] uses [key] to look for [constr] + in the hashet [set]. If [constr] is in [set], returns the + specific representation that is stored in [set]. Otherwise, + [constr] is stored in [set] and will be used as the canonical + representation of this value in the future. *) + val stats : t -> statistics + (** Recover statistics on the table. *) +end + +module Make (E : EqType) : S with type elt = E.t + +module Combine : sig + val combine : int -> int -> int + val combinesmall : int -> int -> int + val combine3 : int -> int -> int -> int + val combine4 : int -> int -> int -> int -> int + val combine5 : int -> int -> int -> int -> int -> int +end diff --git a/clib/heap.ml b/clib/heap.ml new file mode 100644 index 00000000..49034bbc --- /dev/null +++ b/clib/heap.ml @@ -0,0 +1,136 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> int +end + +module type S =sig + + (* Type of functional heaps *) + type t + + (* Type of elements *) + type elt + + (* The empty heap *) + val empty : t + + (* [add x h] returns a new heap containing the elements of [h], plus [x]; + complexity $O(log(n))$ *) + val add : elt -> t -> t + + (* [maximum h] returns the maximum element of [h]; raises [EmptyHeap] + when [h] is empty; complexity $O(1)$ *) + val maximum : t -> elt + + (* [remove h] returns a new heap containing the elements of [h], except + the maximum of [h]; raises [EmptyHeap] when [h] is empty; + complexity $O(log(n))$ *) + val remove : t -> t + + (* usual iterators and combinators; elements are presented in + arbitrary order *) + val iter : (elt -> unit) -> t -> unit + + val fold : (elt -> 'a -> 'a) -> t -> 'a -> 'a + +end + +exception EmptyHeap + +(*s Functional implementation *) + +module Functional(X : Ordered) = struct + + (* Heaps are encoded as Braun trees, that are binary trees + where size r <= size l <= size r + 1 for each node Node (l, x, r) *) + + type t = + | Leaf + | Node of t * X.t * t + + type elt = X.t + + let empty = Leaf + + let rec add x = function + | Leaf -> + Node (Leaf, x, Leaf) + | Node (l, y, r) -> + if X.compare x y >= 0 then + Node (add y r, x, l) + else + Node (add x r, y, l) + + let rec extract = function + | Leaf -> + assert false + | Node (Leaf, y, r) -> + assert (r = Leaf); + y, Leaf + | Node (l, y, r) -> + let x, l = extract l in + x, Node (r, y, l) + + let is_above x = function + | Leaf -> true + | Node (_, y, _) -> X.compare x y >= 0 + + let rec replace_min x = function + | Node (l, _, r) when is_above x l && is_above x r -> + Node (l, x, r) + | Node ((Node (_, lx, _) as l), _, r) when is_above lx r -> + (* lx <= x, rx necessarily *) + Node (replace_min x l, lx, r) + | Node (l, _, (Node (_, rx, _) as r)) -> + (* rx <= x, lx necessarily *) + Node (l, rx, replace_min x r) + | Leaf | Node (Leaf, _, _) | Node (_, _, Leaf) -> + assert false + + (* merges two Braun trees [l] and [r], + with the assumption that [size r <= size l <= size r + 1] *) + let rec merge l r = match l, r with + | _, Leaf -> + l + | Node (ll, lx, lr), Node (_, ly, _) -> + if X.compare lx ly >= 0 then + Node (r, lx, merge ll lr) + else + let x, l = extract l in + Node (replace_min x r, ly, l) + | Leaf, _ -> + assert false (* contradicts the assumption *) + + let maximum = function + | Leaf -> raise EmptyHeap + | Node (_, x, _) -> x + + let remove = function + | Leaf -> + raise EmptyHeap + | Node (l, _, r) -> + merge l r + + let rec iter f = function + | Leaf -> () + | Node (l, x, r) -> iter f l; f x; iter f r + + let rec fold f h x0 = match h with + | Leaf -> + x0 + | Node (l, x, r) -> + fold f l (fold f r (f x x0)) + +end diff --git a/clib/heap.mli b/clib/heap.mli new file mode 100644 index 00000000..ab0864c7 --- /dev/null +++ b/clib/heap.mli @@ -0,0 +1,54 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> int +end + +module type S =sig + + (** Type of functional heaps *) + type t + + (** Type of elements *) + type elt + + (** The empty heap *) + val empty : t + + (** [add x h] returns a new heap containing the elements of [h], plus [x]; + complexity {% $ %}O(log(n)){% $ %} *) + val add : elt -> t -> t + + (** [maximum h] returns the maximum element of [h]; raises [EmptyHeap] + when [h] is empty; complexity {% $ %}O(1){% $ %} *) + val maximum : t -> elt + + (** [remove h] returns a new heap containing the elements of [h], except + the maximum of [h]; raises [EmptyHeap] when [h] is empty; + complexity {% $ %}O(log(n)){% $ %} *) + val remove : t -> t + + (** usual iterators and combinators; elements are presented in + arbitrary order *) + val iter : (elt -> unit) -> t -> unit + + val fold : (elt -> 'a -> 'a) -> t -> 'a -> 'a + +end + +exception EmptyHeap + +(** {6 Functional implementation. } *) + +module Functional(X: Ordered) : S with type elt=X.t diff --git a/clib/iStream.ml b/clib/iStream.ml new file mode 100644 index 00000000..8daf2279 --- /dev/null +++ b/clib/iStream.ml @@ -0,0 +1,92 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* Nil +| Cons (x,s) -> app_node (Lazy.force (f x)) (concat_map f s) + +and concat_map f l = lazy (concat_map_node f (Lazy.force l)) diff --git a/clib/iStream.mli b/clib/iStream.mli new file mode 100644 index 00000000..40d579be --- /dev/null +++ b/clib/iStream.mli @@ -0,0 +1,83 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a t -> 'a t +(** Append an element in front of a stream. *) + +val thunk : (unit -> ('a,'a t) u) -> 'a t +(** Internalize the lazyness of a stream. *) + +val make : ('a -> ('b, 'a) u) -> 'a -> 'b t +(** Coiteration constructor. *) + +(** {6 Destructors} *) + +val is_empty : 'a t -> bool +(** Whethere a stream is empty. *) + +val peek : 'a t -> ('a , 'a t) u +(** Return the head and the tail of a stream, if any. *) + +(** {6 Standard operations} + + All stream-returning functions are lazy. The other ones are eager. *) + +val app : 'a t -> 'a t -> 'a t +(** Append two streams. Not tail-rec. *) + +val map : ('a -> 'b) -> 'a t -> 'b t +(** Mapping of streams. Not tail-rec. *) + +val iter : ('a -> unit) -> 'a t -> unit +(** Iteration over streams. *) + +val fold : ('a -> 'b -> 'a) -> 'a -> 'b t -> 'a +(** Fold over streams. *) + +val concat : 'a t t -> 'a t +(** Appends recursively a stream of streams. *) + +val map_filter : ('a -> 'b option) -> 'a t -> 'b t +(** Mixing [map] and [filter]. Not tail-rec. *) + +val concat_map : ('a -> 'b t) -> 'a t -> 'b t +(** [concat_map f l] is the same as [concat (map f l)]. *) + +(** {6 Conversions} *) + +val of_list : 'a list -> 'a t +(** Convert a list into a stream. *) + +val to_list : 'a t -> 'a list +(** Convert a stream into a list. *) + +(** {6 Other}*) + +val force : 'a t -> 'a t +(** Forces the whole stream. *) diff --git a/clib/int.ml b/clib/int.ml new file mode 100644 index 00000000..3ae836ae --- /dev/null +++ b/clib/int.ml @@ -0,0 +1,239 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* int -> bool = "%eq" + +external compare : int -> int -> int = "caml_int_compare" + +let hash i = i land 0x3FFFFFFF + +module Self = +struct + type t = int + let compare = compare +end + +module Set = Set.Make(Self) +module Map = +struct + include CMap.Make(Self) + + type 'a map = 'a CMap.Make(Self).t + + type 'a _map = + | MEmpty + | MNode of 'a map * int * 'a * 'a map * int + + let map_prj : 'a map -> 'a _map = Obj.magic + + let rec find i s = match map_prj s with + | MEmpty -> raise Not_found + | MNode (l, k, v, r, h) -> + if i < k then find i l + else if i = k then v + else find i r +end + +module List = struct + let mem = List.memq + let assoc = List.assq + let mem_assoc = List.mem_assq + let remove_assoc = List.remove_assq +end + +let min (i : int) j = if i < j then i else j + +(** Utility function *) +let rec next from upto = + if from < upto then next (2 * from + 1) upto + else from + + +module PArray = +struct + + type 'a t = 'a data ref + and 'a data = + | Root of 'a option array + | DSet of int * 'a option * 'a t + + let empty n = ref (Root (Array.make n None)) + + let rec rerootk t k = match !t with + | Root _ -> k () + | DSet (i, v, t') -> + let next () = match !t' with + | Root a as n -> + let v' = Array.unsafe_get a i in + let () = Array.unsafe_set a i v in + let () = t := n in + let () = t' := DSet (i, v', t) in + k () + | DSet _ -> assert false + in + rerootk t' next + + let reroot t = rerootk t (fun () -> ()) + + let get t i = + let () = assert (0 <= i) in + match !t with + | Root a -> + if Array.length a <= i then None + else Array.unsafe_get a i + | DSet _ -> + let () = reroot t in + match !t with + | Root a -> + if Array.length a <= i then None + else Array.unsafe_get a i + | DSet _ -> assert false + + let set t i v = + let () = assert (0 <= i) in + let () = reroot t in + match !t with + | DSet _ -> assert false + | Root a as n -> + let len = Array.length a in + if i < len then + let old = Array.unsafe_get a i in + if old == v then t + else + let () = Array.unsafe_set a i v in + let res = ref n in + let () = t := DSet (i, old, res) in + res + else match v with + | None -> t (** Nothing to do! *) + | Some _ -> (** we must resize *) + let nlen = next len (succ i) in + let nlen = min nlen Sys.max_array_length in + let () = assert (i < nlen) in + let a' = Array.make nlen None in + let () = Array.blit a 0 a' 0 len in + let () = Array.unsafe_set a' i v in + let res = ref (Root a') in + let () = t := DSet (i, None, res) in + res + +end + +module PMap = +struct + + type key = int + + (** Invariants: + + 1. an empty map is always [Empty]. + 2. the set of the [Map] constructor remembers the present keys. + *) + type 'a t = Empty | Map of Set.t * 'a PArray.t + + let empty = Empty + + let is_empty = function + | Empty -> true + | Map _ -> false + + let singleton k x = + let len = next 19 (k + 1) in + let len = min Sys.max_array_length len in + let v = PArray.empty len in + let v = PArray.set v k (Some x) in + let s = Set.singleton k in + Map (s, v) + + let add k x = function + | Empty -> singleton k x + | Map (s, v) -> + let s = match PArray.get v k with + | None -> Set.add k s + | Some _ -> s + in + let v = PArray.set v k (Some x) in + Map (s, v) + + let remove k = function + | Empty -> Empty + | Map (s, v) -> + let s = Set.remove k s in + if Set.is_empty s then Empty + else + let v = PArray.set v k None in + Map (s, v) + + let mem k = function + | Empty -> false + | Map (_, v) -> + match PArray.get v k with + | None -> false + | Some _ -> true + + let find k = function + | Empty -> raise Not_found + | Map (_, v) -> + match PArray.get v k with + | None -> raise Not_found + | Some x -> x + + let iter f = function + | Empty -> () + | Map (s, v) -> + let iter k = match PArray.get v k with + | None -> () + | Some x -> f k x + in + Set.iter iter s + + let fold f m accu = match m with + | Empty -> accu + | Map (s, v) -> + let fold k accu = match PArray.get v k with + | None -> accu + | Some x -> f k x accu + in + Set.fold fold s accu + + let exists f m = match m with + | Empty -> false + | Map (s, v) -> + let exists k = match PArray.get v k with + | None -> false + | Some x -> f k x + in + Set.exists exists s + + let for_all f m = match m with + | Empty -> true + | Map (s, v) -> + let for_all k = match PArray.get v k with + | None -> true + | Some x -> f k x + in + Set.for_all for_all s + + let cast = function + | Empty -> Map.empty + | Map (s, v) -> + let bind k = match PArray.get v k with + | None -> assert false + | Some x -> x + in + Map.bind bind s + + let domain = function + | Empty -> Set.empty + | Map (s, _) -> s + +end diff --git a/clib/int.mli b/clib/int.mli new file mode 100644 index 00000000..76aecf05 --- /dev/null +++ b/clib/int.mli @@ -0,0 +1,81 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> bool = "%eq" + +external compare : t -> t -> int = "caml_int_compare" + +val hash : t -> int + +module Set : Set.S with type elt = t +module Map : CMap.ExtS with type key = t and module Set := Set + +module List : sig + val mem : int -> int list -> bool + val assoc : int -> (int * 'a) list -> 'a + val mem_assoc : int -> (int * 'a) list -> bool + val remove_assoc : int -> (int * 'a) list -> (int * 'a) list +end + +module PArray : +sig + type 'a t + (** Persistent, auto-resizable arrays. The [get] and [set] functions never + fail whenever the index is between [0] and [Sys.max_array_length - 1]. *) + val empty : int -> 'a t + (** The empty array, with a given starting size. *) + val get : 'a t -> int -> 'a option + (** Get a value at the given index. Returns [None] if undefined. *) + val set : 'a t -> int -> 'a option -> 'a t + (** Set/unset a value at the given index. *) +end + +module PMap : +sig + type key = int + type 'a t + val empty : 'a t + val is_empty : 'a t -> bool + val mem : key -> 'a t -> bool + val add : key -> 'a -> 'a t -> 'a t + val singleton : key -> 'a -> 'a t + val remove : key -> 'a t -> 'a t +(* val merge : (key -> 'a option -> 'b option -> 'c option) -> 'a t -> 'b t -> 'c t *) +(* val compare : ('a -> 'a -> int) -> 'a t -> 'a t -> int *) +(* val equal : ('a -> 'a -> bool) -> 'a t -> 'a t -> bool *) + val iter : (key -> 'a -> unit) -> 'a t -> unit + val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b + val for_all : (key -> 'a -> bool) -> 'a t -> bool + val exists : (key -> 'a -> bool) -> 'a t -> bool +(* val filter : (key -> 'a -> bool) -> 'a t -> 'a t *) +(* val partition : (key -> 'a -> bool) -> 'a t -> 'a t * 'a t *) +(* val cardinal : 'a t -> int *) +(* val bindings : 'a t -> (key * 'a) list *) +(* val min_binding : 'a t -> key * 'a *) +(* val max_binding : 'a t -> key * 'a *) +(* val choose : 'a t -> key * 'a *) +(* val split : key -> 'a t -> 'a t * 'a option * 'a t *) + val find : key -> 'a t -> 'a +(* val map : ('a -> 'b) -> 'a t -> 'b t *) +(* val mapi : (key -> 'a -> 'b) -> 'a t -> 'b t *) + val domain : 'a t -> Set.t + val cast : 'a t -> 'a Map.t +end +(** This is a (partial) implementation of a [Map] interface on integers, except + that it internally uses persistent arrays. This ensures O(1) accesses in + non-backtracking cases. It is thus better suited for zero-starting, + contiguous keys, or otherwise a lot of space will be empty. To keep track of + the present keys, a binary tree is also used, so that adding a key is + still logarithmic. It is therefore essential that most of the operations + are accesses and not add/removes. *) diff --git a/clib/minisys.ml b/clib/minisys.ml new file mode 100644 index 00000000..bbcf46b9 --- /dev/null +++ b/clib/minisys.ml @@ -0,0 +1,80 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* true | _ -> false + +(* Check directory can be opened *) + +let exists_dir dir = + (* See BZ#5391 on windows failing on a trailing (back)slash *) + let rec strip_trailing_slash dir = + let len = String.length dir in + if len > 0 && (dir.[len-1] = '/' || dir.[len-1] = '\\') + then strip_trailing_slash (String.sub dir 0 (len-1)) else dir in + let dir = if Sys.os_type = "Win32" then strip_trailing_slash dir else dir in + try Sys.is_directory dir with Sys_error _ -> false + +let apply_subdir f path name = + (* we avoid all files and subdirs starting by '.' (e.g. .svn) *) + (* as well as skipped files like CVS, ... *) + let base = try Filename.chop_extension name with Invalid_argument _ -> name in + if ok_dirname base then + let path = if path = "." then name else path//name in + match try (Unix.stat path).Unix.st_kind with Unix.Unix_error _ -> Unix.S_BLK with + | Unix.S_DIR when name = base -> f (FileDir (path,name)) + | Unix.S_REG -> f (FileRegular name) + | _ -> () + +let readdir dir = try Sys.readdir dir with any -> [||] + +let process_directory f path = + Array.iter (apply_subdir f path) (readdir path) + +let process_subdirectories f path = + let f = function FileDir (path,base) -> f path base | FileRegular _ -> () in + process_directory f path diff --git a/clib/monad.ml b/clib/monad.ml new file mode 100644 index 00000000..8740cae0 --- /dev/null +++ b/clib/monad.ml @@ -0,0 +1,170 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a t + val (>>=) : 'a t -> ('a -> 'b t) -> 'b t + val (>>) : unit t -> 'a t -> 'a t + val map : ('a -> 'b) -> 'a t -> 'b t + + (** The monadic laws must hold: + - [(x>>=f)>>=g] = [x>>=fun x' -> (f x'>>=g)] + - [return a >>= f] = [f a] + - [x>>=return] = [x] + + As well as the following identities: + - [x >> y] = [x >>= fun () -> y] + - [map f x] = [x >>= fun x' -> f x'] *) + +end + +module type ListS = sig + + type 'a t + + (** [List.map f l] maps [f] on the elements of [l] in left to right + order. *) + val map : ('a -> 'b t) -> 'a list -> 'b list t + + (** [List.map f l] maps [f] on the elements of [l] in right to left + order. *) + val map_right : ('a -> 'b t) -> 'a list -> 'b list t + + (** Like the regular [List.fold_right]. The monadic effects are + threaded right to left. + + Note: many monads behave poorly with right-to-left order. For + instance a failure monad would still have to traverse the + whole list in order to fail and failure needs to be propagated + through the rest of the list in binds which are now + spurious. It is also the worst case for substitution monads + (aka free monads), exposing the quadratic behaviour.*) + val fold_right : ('a -> 'b -> 'b t) -> 'a list -> 'b -> 'b t + + (** Like the regular [List.fold_left]. The monadic effects are + threaded left to right. It is tail-recursive if the [(>>=)] + operator calls its second argument in a tail position. *) + val fold_left : ('a -> 'b -> 'a t) -> 'a -> 'b list -> 'a t + + (** Like the regular [List.iter]. The monadic effects are threaded + left to right. It is tail-recurisve if the [>>] operator calls + its second argument in a tail position. *) + val iter : ('a -> unit t) -> 'a list -> unit t + + (** Like the regular {!CList.map_filter}. The monadic effects are threaded left*) + val map_filter : ('a -> 'b option t) -> 'a list -> 'b list t + + + (** {6 Two-list iterators} *) + + (** [fold_left2 r f s l1 l2] behaves like {!fold_left} but acts + simultaneously on two lists. Runs [r] (presumably an + exception-raising computation) if both lists do not have the + same length. *) + val fold_left2 : 'a t -> + ('a -> 'b -> 'c -> 'a t) -> 'a -> 'b list -> 'c list -> 'a t + +end + +module type S = sig + + include Def + + (** List combinators *) + module List : ListS with type 'a t := 'a t + +end + + +module Make (M:Def) : S with type +'a t = 'a M.t = struct + + include M + + module List = struct + + (* The combinators are loop-unrolled to spare a some monadic binds + (it is a common optimisation to treat the last of a list of + bind specially) and hopefully gain some efficiency using fewer + jump. *) + + let rec map f = function + | [] -> return [] + | [a] -> + M.map (fun a' -> [a']) (f a) + | a::b::l -> + f a >>= fun a' -> + f b >>= fun b' -> + M.map (fun l' -> a'::b'::l') (map f l) + + let rec map_right f = function + | [] -> return [] + | [a] -> + M.map (fun a' -> [a']) (f a) + | a::b::l -> + map_right f l >>= fun l' -> + f b >>= fun b' -> + M.map (fun a' -> a'::b'::l') (f a) + + let rec fold_right f l x = + match l with + | [] -> return x + | [a] -> f a x + | a::b::l -> + fold_right f l x >>= fun acc -> + f b acc >>= fun acc -> + f a acc + + let rec fold_left f x = function + | [] -> return x + | [a] -> f x a + | a::b::l -> + f x a >>= fun x' -> + f x' b >>= fun x'' -> + fold_left f x'' l + + let rec iter f = function + | [] -> return () + | [a] -> f a + | a::b::l -> f a >> f b >> iter f l + + + let rec map_filter f = function + | [] -> return [] + | a::l -> + f a >>= function + | None -> map_filter f l + | Some b -> + map_filter f l >>= fun filtered -> + return (b::filtered) + + let rec fold_left2 r f x l1 l2 = + match l1,l2 with + | [] , [] -> return x + | [a] , [b] -> f x a b + | a1::a2::l1 , b1::b2::l2 -> + f x a1 b1 >>= fun x' -> + f x' a2 b2 >>= fun x'' -> + fold_left2 r f x'' l1 l2 + | _ , _ -> r + + end + +end + + + diff --git a/clib/monad.mli b/clib/monad.mli new file mode 100644 index 00000000..d1d42eb8 --- /dev/null +++ b/clib/monad.mli @@ -0,0 +1,96 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a t + val (>>=) : 'a t -> ('a -> 'b t) -> 'b t + val (>>) : unit t -> 'a t -> 'a t + val map : ('a -> 'b) -> 'a t -> 'b t + +(** The monadic laws must hold: + - [(x>>=f)>>=g] = [x>>=fun x' -> (f x'>>=g)] + - [return a >>= f] = [f a] + - [x>>=return] = [x] + + As well as the following identities: + - [x >> y] = [x >>= fun () -> y] + - [map f x] = [x >>= fun x' -> f x'] *) + +end + + +(** List combinators *) +module type ListS = sig + + type 'a t + + (** [List.map f l] maps [f] on the elements of [l] in left to right + order. *) + val map : ('a -> 'b t) -> 'a list -> 'b list t + + (** [List.map f l] maps [f] on the elements of [l] in right to left + order. *) + val map_right : ('a -> 'b t) -> 'a list -> 'b list t + + (** Like the regular [List.fold_right]. The monadic effects are + threaded right to left. + + Note: many monads behave poorly with right-to-left order. For + instance a failure monad would still have to traverse the + whole list in order to fail and failure needs to be propagated + through the rest of the list in binds which are now + spurious. It is also the worst case for substitution monads + (aka free monads), exposing the quadratic behaviour.*) + val fold_right : ('a -> 'b -> 'b t) -> 'a list -> 'b -> 'b t + + (** Like the regular [List.fold_left]. The monadic effects are + threaded left to right. It is tail-recursive if the [(>>=)] + operator calls its second argument in a tail position. *) + val fold_left : ('a -> 'b -> 'a t) -> 'a -> 'b list -> 'a t + + (** Like the regular [List.iter]. The monadic effects are threaded + left to right. It is tail-recurisve if the [>>] operator calls + its second argument in a tail position. *) + val iter : ('a -> unit t) -> 'a list -> unit t + + (** Like the regular {!CList.map_filter}. The monadic effects are + threaded left to right. *) + val map_filter : ('a -> 'b option t) -> 'a list -> 'b list t + + + (** {6 Two-list iterators} *) + + (** [fold_left2 r f s l1 l2] behaves like {!fold_left} but acts + simultaneously on two lists. Runs [r] (presumably an + exception-raising computation) if both lists do not have the + same length. *) + val fold_left2 : 'a t -> + ('a -> 'b -> 'c -> 'a t) -> 'a -> 'b list -> 'c list -> 'a t + +end + +module type S = sig + + include Def + + module List : ListS with type 'a t := 'a t + +end + +(** Expands the monadic definition to extra combinators. *) +module Make (M:Def) : S with type +'a t = 'a M.t diff --git a/clib/option.ml b/clib/option.ml new file mode 100644 index 00000000..32fe2fc5 --- /dev/null +++ b/clib/option.ml @@ -0,0 +1,211 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* false + | _ -> true + +let is_empty = function + | None -> true + | Some _ -> false + +(** Lifting equality onto option types. *) +let equal f x y = match x, y with + | None, None -> true + | Some x, Some y -> f x y + | _, _ -> false + +let compare f x y = match x, y with + | None, None -> 0 + | Some x, Some y -> f x y + | None, Some _ -> -1 + | Some _, None -> 1 + +let hash f = function + | None -> 0 + | Some x -> f x + +exception IsNone + +(** [get x] returns [y] where [x] is [Some y]. + @raise IsNone if [x] equals [None]. *) +let get = function + | Some y -> y + | _ -> raise IsNone + +(** [make x] returns [Some x]. *) +let make x = Some x + +(** [bind x f] is [f y] if [x] is [Some y] and [None] otherwise *) +let bind x f = match x with Some y -> f y | None -> None + +(** [init b x] returns [Some x] if [b] is [true] and [None] otherwise. *) +let init b x = + if b then + Some x + else + None + +(** [flatten x] is [Some y] if [x] is [Some (Some y)] and [None] otherwise. *) +let flatten = function + | Some (Some y) -> Some y + | _ -> None + +(** [append x y] is the first element of the concatenation of [x] and + [y] seen as lists. *) +let append o1 o2 = + match o1 with + | Some _ -> o1 + | None -> o2 + + +(** {6 "Iterators"} ***) + +(** [iter f x] executes [f y] if [x] equals [Some y]. It does nothing + otherwise. *) +let iter f = function + | Some y -> f y + | _ -> () + + +exception Heterogeneous + +(** [iter2 f x y] executes [f z w] if [x] equals [Some z] and [y] equals + [Some w]. It does nothing if both [x] and [y] are [None]. And raises + [Heterogeneous] otherwise. *) +let iter2 f x y = + match x,y with + | Some z, Some w -> f z w + | None,None -> () + | _,_ -> raise Heterogeneous + +(** [map f x] is [None] if [x] is [None] and [Some (f y)] if [x] is [Some y]. *) +let map f = function + | Some y -> Some (f y) + | _ -> None + +(** [smartmap f x] does the same as [map f x] except that it tries to share + some memory. *) +let smartmap f = function + | Some y as x -> let y' = f y in if y' == y then x else Some y' + | _ -> None + +(** [fold_left f a x] is [f a y] if [x] is [Some y], and [a] otherwise. *) +let fold_left f a = function + | Some y -> f a y + | _ -> a + +(** [fold_left2 f a x y] is [f z w] if [x] is [Some z] and [y] is [Some w]. + It is [a] if both [x] and [y] are [None]. Otherwise it raises + [Heterogeneous]. *) +let fold_left2 f a x y = + match x,y with + | Some x, Some y -> f a x y + | None, None -> a + | _ -> raise Heterogeneous + +(** [fold_right f x a] is [f y a] if [x] is [Some y], and [a] otherwise. *) +let fold_right f x a = + match x with + | Some y -> f y a + | _ -> a + +(** [fold_left_map f a x] is [a, f y] if [x] is [Some y], and [a] otherwise. *) +let fold_left_map f a x = + match x with + | Some y -> let a, z = f a y in a, Some z + | _ -> a, None + +let fold_right_map f x a = + match x with + | Some y -> let z, a = f y a in Some z, a + | _ -> None, a + +let fold_map = fold_left_map + +(** [cata f a x] is [a] if [x] is [None] and [f y] if [x] is [Some y]. *) +let cata f a = function + | Some c -> f c + | None -> a + + +(** {6 More Specific operations} ***) + +(** [default a x] is [y] if [x] is [Some y] and [a] otherwise. *) +let default a = function + | Some y -> y + | _ -> a + +(** [lift f x] is the same as [map f x]. *) +let lift = map + +(** [lift_right f a x] is [Some (f a y)] if [x] is [Some y], and + [None] otherwise. *) +let lift_right f a = function + | Some y -> Some (f a y) + | _ -> None + +(** [lift_left f x a] is [Some (f y a)] if [x] is [Some y], and + [None] otherwise. *) +let lift_left f x a = + match x with + | Some y -> Some (f y a) + | _ -> None + +(** [lift2 f x y] is [Some (f z w)] if [x] equals [Some z] and [y] equals + [Some w]. It is [None] otherwise. *) +let lift2 f x y = + match x,y with + | Some z, Some w -> Some (f z w) + | _,_ -> None + + +(** {6 Operations with Lists} *) + +module List = + struct + (** [List.cons x l] equals [y::l] if [x] is [Some y] and [l] otherwise. *) + let cons x l = + match x with + | Some y -> y::l + | _ -> l + + (** [List.flatten l] is the list of all the [y]s such that [l] contains + [Some y] (in the same order). *) + let rec flatten = function + | x::l -> cons x (flatten l) + | [] -> [] + + let rec find f = function + | [] -> None + | h :: t -> match f h with + | None -> find f t + | x -> x + + let map f l = + let rec aux f l = match l with + | [] -> [] + | x :: l -> + match f x with + | None -> raise Exit + | Some y -> y :: aux f l + in + try Some (aux f l) with Exit -> None + +end diff --git a/clib/option.mli b/clib/option.mli new file mode 100644 index 00000000..14fa9da3 --- /dev/null +++ b/clib/option.mli @@ -0,0 +1,147 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* bool + +(** Negation of [has_some] *) +val is_empty : 'a option -> bool + +(** [equal f x y] lifts the equality predicate [f] to + option types. That is, if both [x] and [y] are [None] then + it returns [true], if they are both [Some _] then + [f] is called. Otherwise it returns [false]. *) +val equal : ('a -> 'a -> bool) -> 'a option -> 'a option -> bool + +(** Same as [equal], but with comparison. *) +val compare : ('a -> 'a -> int) -> 'a option -> 'a option -> int + +(** Lift a hash to option types. *) +val hash : ('a -> int) -> 'a option -> int + +(** [get x] returns [y] where [x] is [Some y]. + @raise IsNone if [x] equals [None]. *) +val get : 'a option -> 'a + +(** [make x] returns [Some x]. *) +val make : 'a -> 'a option + +(** [bind x f] is [f y] if [x] is [Some y] and [None] otherwise *) +val bind : 'a option -> ('a -> 'b option) -> 'b option + +(** [init b x] returns [Some x] if [b] is [true] and [None] otherwise. *) +val init : bool -> 'a -> 'a option + +(** [flatten x] is [Some y] if [x] is [Some (Some y)] and [None] otherwise. *) +val flatten : 'a option option -> 'a option + +(** [append x y] is the first element of the concatenation of [x] and + [y] seen as lists. In other words, [append (Some a) y] is [Some + a], [append None (Some b)] is [Some b], and [append None None] is + [None]. *) +val append : 'a option -> 'a option -> 'a option + + +(** {6 "Iterators"} *) + +(** [iter f x] executes [f y] if [x] equals [Some y]. It does nothing + otherwise. *) +val iter : ('a -> unit) -> 'a option -> unit + +exception Heterogeneous + +(** [iter2 f x y] executes [f z w] if [x] equals [Some z] and [y] equals + [Some w]. It does nothing if both [x] and [y] are [None]. + @raise Heterogeneous otherwise. *) +val iter2 : ('a -> 'b -> unit) -> 'a option -> 'b option -> unit + +(** [map f x] is [None] if [x] is [None] and [Some (f y)] if [x] is [Some y]. *) +val map : ('a -> 'b) -> 'a option -> 'b option + +(** [smartmap f x] does the same as [map f x] except that it tries to share + some memory. *) +val smartmap : ('a -> 'a) -> 'a option -> 'a option + +(** [fold_left f a x] is [f a y] if [x] is [Some y], and [a] otherwise. *) +val fold_left : ('b -> 'a -> 'b) -> 'b -> 'a option -> 'b + +(** [fold_left2 f a x y] is [f z w] if [x] is [Some z] and [y] is [Some w]. + It is [a] if both [x] and [y] are [None]. + @raise Heterogeneous otherwise. *) +val fold_left2 : ('a -> 'b -> 'c -> 'a) -> 'a -> 'b option -> 'c option -> 'a + +(** [fold_right f x a] is [f y a] if [x] is [Some y], and [a] otherwise. *) +val fold_right : ('a -> 'b -> 'b) -> 'a option -> 'b -> 'b + +(** [fold_left_map f a x] is [a, f y] if [x] is [Some y], and [a] otherwise. *) +val fold_left_map : ('a -> 'b -> 'a * 'c) -> 'a -> 'b option -> 'a * 'c option + +(** Same as [fold_left_map] on the right *) +val fold_right_map : ('b -> 'a -> 'c * 'a) -> 'b option -> 'a -> 'c option * 'a + +(** @deprecated Same as [fold_left_map] *) +val fold_map : ('a -> 'b -> 'a * 'c) -> 'a -> 'b option -> 'a * 'c option +[@@ocaml.deprecated "Same as [fold_left_map]"] + +(** [cata f e x] is [e] if [x] is [None] and [f a] if [x] is [Some a] *) +val cata : ('a -> 'b) -> 'b -> 'a option -> 'b + +(** {6 More Specific Operations} *) + +(** [default a x] is [y] if [x] is [Some y] and [a] otherwise. *) +val default : 'a -> 'a option -> 'a + +(** [lift] is the same as {!map}. *) +val lift : ('a -> 'b) -> 'a option -> 'b option + +(** [lift_right f a x] is [Some (f a y)] if [x] is [Some y], and + [None] otherwise. *) +val lift_right : ('a -> 'b -> 'c) -> 'a -> 'b option -> 'c option + +(** [lift_left f x a] is [Some (f y a)] if [x] is [Some y], and + [None] otherwise. *) +val lift_left : ('a -> 'b -> 'c) -> 'a option -> 'b -> 'c option + +(** [lift2 f x y] is [Some (f z w)] if [x] equals [Some z] and [y] equals + [Some w]. It is [None] otherwise. *) +val lift2 : ('a -> 'b -> 'c) -> 'a option -> 'b option -> 'c option + + +(** {6 Operations with Lists} *) + +module List : sig + (** [List.cons x l] equals [y::l] if [x] is [Some y] and [l] otherwise. *) + val cons : 'a option -> 'a list -> 'a list + + (** [List.flatten l] is the list of all the [y]s such that [l] contains + [Some y] (in the same order). *) + val flatten : 'a option list -> 'a list + + (** [List.find f l] is the first [f a] different from [None], + scrolling through elements [a] of [l] in left-to-right order; + it is [None] if no such element exists. *) + val find : ('a -> 'b option) -> 'a list -> 'b option + + (** [List.map f [a1;...;an]] is the list [Some [b1;...;bn]] if + for all i, there is a [bi] such that [f ai] is [Some bi]; it is + [None] if, for at least one i, [f ai] is [None]. *) + val map : ('a -> 'b option) -> 'a list -> 'b list option + +end diff --git a/clib/orderedType.ml b/clib/orderedType.ml new file mode 100644 index 00000000..922eb76a --- /dev/null +++ b/clib/orderedType.ml @@ -0,0 +1,35 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> int +end + +module Pair (M:S) (N:S) = struct + type t = M.t * N.t + + let compare (a,b) (a',b') = + let i = M.compare a a' in + if Int.equal i 0 then N.compare b b' + else i +end + +module UnorderedPair (M:S) = struct + type t = M.t * M.t + + let reorder (a,b as p) = + if M.compare a b <= 0 then p else (b,a) + + let compare p p' = + let p = reorder p and p' = reorder p' in + let module P = Pair(M)(M) in P.compare p p' +end diff --git a/clib/orderedType.mli b/clib/orderedType.mli new file mode 100644 index 00000000..3578ea0d --- /dev/null +++ b/clib/orderedType.mli @@ -0,0 +1,19 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t -> int +end + +module Pair (M:S) (N:S) : S with type t = M.t * N.t + +module UnorderedPair (M:S) : S with type t = M.t * M.t diff --git a/clib/predicate.ml b/clib/predicate.ml new file mode 100644 index 00000000..1aa7db6a --- /dev/null +++ b/clib/predicate.ml @@ -0,0 +1,98 @@ +(************************************************************************) +(* *) +(* Objective Caml *) +(* *) +(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) +(* *) +(* Copyright 1996 Institut National de Recherche en Informatique et *) +(* en Automatique. All rights reserved. This file is distributed *) +(* under the terms of the GNU Library General Public License. *) +(* *) +(************************************************************************) + +module type OrderedType = + sig + type t + val compare: t -> t -> int + end + +module type S = + sig + type elt + type t + val empty: t + val full: t + val is_empty: t -> bool + val is_full: t -> bool + val mem: elt -> t -> bool + val singleton: elt -> t + val add: elt -> t -> t + val remove: elt -> t -> t + val union: t -> t -> t + val inter: t -> t -> t + val diff: t -> t -> t + val complement: t -> t + val equal: t -> t -> bool + val subset: t -> t -> bool + val elements: t -> bool * elt list + end + +module Make(Ord: OrderedType) = + struct + module EltSet = Set.Make(Ord) + + type elt = Ord.t + + (* (false, s) represents a set which is equal to the set s + (true, s) represents a set which is equal to the complement of set s *) + type t = bool * EltSet.t + + let elements (b,s) = (b, EltSet.elements s) + + let empty = (false,EltSet.empty) + let full = (true,EltSet.empty) + + (* assumes the set is infinite *) + let is_empty (b,s) = not b && EltSet.is_empty s + let is_full (b,s) = b && EltSet.is_empty s + + let mem x (b,s) = + if b then not (EltSet.mem x s) else EltSet.mem x s + + let singleton x = (false,EltSet.singleton x) + + let add x (b,s) = + if b then (b,EltSet.remove x s) + else (b,EltSet.add x s) + + let remove x (b,s) = + if b then (b,EltSet.add x s) + else (b,EltSet.remove x s) + + let complement (b,s) = (not b, s) + + let union s1 s2 = + match (s1,s2) with + ((false,p1),(false,p2)) -> (false,EltSet.union p1 p2) + | ((true,n1),(true,n2)) -> (true,EltSet.inter n1 n2) + | ((false,p1),(true,n2)) -> (true,EltSet.diff n2 p1) + | ((true,n1),(false,p2)) -> (true,EltSet.diff n1 p2) + + let inter s1 s2 = + complement (union (complement s1) (complement s2)) + + let diff s1 s2 = inter s1 (complement s2) + + (* assumes the set is infinite *) + let subset s1 s2 = + match (s1,s2) with + ((false,p1),(false,p2)) -> EltSet.subset p1 p2 + | ((true,n1),(true,n2)) -> EltSet.subset n2 n1 + | ((false,p1),(true,n2)) -> EltSet.is_empty (EltSet.inter p1 n2) + | ((true,_),(false,_)) -> false + + (* assumes the set is infinite *) + let equal (b1,s1) (b2,s2) = + b1=b2 && EltSet.equal s1 s2 + + end diff --git a/clib/predicate.mli b/clib/predicate.mli new file mode 100644 index 00000000..cee3b0bd --- /dev/null +++ b/clib/predicate.mli @@ -0,0 +1,84 @@ +(** Infinite sets over a chosen [OrderedType]. + + All operations over sets are purely applicative (no side-effects). + *) + +(** Input signature of the functor [Make]. *) +module type OrderedType = + sig + type t + (** The type of the elements in the set. + + The chosen [t] {b must be infinite}. *) + + val compare : t -> t -> int + (** A total ordering function over the set elements. + This is a two-argument function [f] such that: + - [f e1 e2] is zero if the elements [e1] and [e2] are equal, + - [f e1 e2] is strictly negative if [e1] is smaller than [e2], + - and [f e1 e2] is strictly positive if [e1] is greater than [e2]. + *) + end + +module type S = + sig + type elt + (** The type of the elements in the set. *) + + type t + (** The type of sets. *) + + val empty: t + (** The empty set. *) + + val full: t + (** The set of all elements (of type [elm]). *) + + val is_empty: t -> bool + (** Test whether a set is empty or not. *) + + val is_full: t -> bool + (** Test whether a set contains the whole type or not. *) + + val mem: elt -> t -> bool + (** [mem x s] tests whether [x] belongs to the set [s]. *) + + val singleton: elt -> t + (** [singleton x] returns the one-element set containing only [x]. *) + + val add: elt -> t -> t + (** [add x s] returns a set containing all elements of [s], + plus [x]. If [x] was already in [s], then [s] is returned unchanged. *) + + val remove: elt -> t -> t + (** [remove x s] returns a set containing all elements of [s], + except [x]. If [x] was not in [s], then [s] is returned unchanged. *) + + val union: t -> t -> t + (** Set union. *) + + val inter: t -> t -> t + (** Set intersection. *) + + val diff: t -> t -> t + (** Set difference. *) + + val complement: t -> t + (** Set complement. *) + + val equal: t -> t -> bool + (** [equal s1 s2] tests whether the sets [s1] and [s2] are + equal, that is, contain equal elements. *) + + val subset: t -> t -> bool + (** [subset s1 s2] tests whether the set [s1] is a subset of + the set [s2]. *) + + val elements: t -> bool * elt list + (** Gives a finite representation of the predicate: if the + boolean is false, then the predicate is given in extension. + if it is true, then the complement is given *) + end + +(** The [Make] functor constructs an implementation for any [OrderedType]. *) +module Make (Ord : OrderedType) : (S with type elt = Ord.t) diff --git a/clib/range.ml b/clib/range.ml new file mode 100644 index 00000000..7271514f --- /dev/null +++ b/clib/range.ml @@ -0,0 +1,93 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* + if Int.equal h1 h2 then Cons (1 + h1 + h2, Node (x, t1, t2), rem) + else Cons (1, Leaf x, l) +| _ -> Cons (1, Leaf x, l) + +let is_empty = function +| Nil -> true +| _ -> false + +let rec tree_get h t i = match t with +| Leaf x -> + if i = 0 then x else oob () +| Node (x, t1, t2) -> + if i = 0 then x + else + let h = h / 2 in + if i <= h then tree_get h t1 (i - 1) else tree_get h t2 (i - h - 1) + +let rec get l i = match l with +| Nil -> oob () +| Cons (h, t, rem) -> + if i < h then tree_get h t i else get rem (i - h) + +let length l = + let rec length accu = function + | Nil -> accu + | Cons (h, _, l) -> length (h + accu) l + in + length 0 l + +let rec tree_map f = function +| Leaf x -> Leaf (f x) +| Node (x, t1, t2) -> Node (f x, tree_map f t1, tree_map f t2) + +let rec map f = function +| Nil -> Nil +| Cons (h, t, l) -> Cons (h, tree_map f t, map f l) + +let rec tree_fold_left f accu = function +| Leaf x -> f accu x +| Node (x, t1, t2) -> + tree_fold_left f (tree_fold_left f (f accu x) t1) t2 + +let rec fold_left f accu = function +| Nil -> accu +| Cons (_, t, l) -> fold_left f (tree_fold_left f accu t) l + +let rec tree_fold_right f t accu = match t with +| Leaf x -> f x accu +| Node (x, t1, t2) -> + f x (tree_fold_right f t1 (tree_fold_right f t2 accu)) + +let rec fold_right f l accu = match l with +| Nil -> accu +| Cons (_, t, l) -> tree_fold_right f t (fold_right f l accu) + +let hd = function +| Nil -> failwith "hd" +| Cons (_, Leaf x, _) -> x +| Cons (_, Node (x, _, _), _) -> x + +let tl = function +| Nil -> failwith "tl" +| Cons (_, Leaf _, l) -> l +| Cons (h, Node (_, t1, t2), l) -> + let h = h / 2 in + Cons (h, t1, Cons (h, t2, l)) + +let rec skipn n l = + if n = 0 then l + else if is_empty l then failwith "List.skipn" + else skipn (pred n) (tl l) diff --git a/clib/range.mli b/clib/range.mli new file mode 100644 index 00000000..c14b0cf5 --- /dev/null +++ b/clib/range.mli @@ -0,0 +1,39 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a t -> 'a t + +(** {5 List operations} *) + +val is_empty : 'a t -> bool +val length : 'a t -> int +val map : ('a -> 'b) -> 'a t -> 'b t +val fold_left : ('a -> 'b -> 'a) -> 'a -> 'b t -> 'a +val fold_right : ('a -> 'b -> 'b) -> 'a t -> 'b -> 'b +val hd : 'a t -> 'a +val tl : 'a t -> 'a t + +val skipn : int -> 'a t -> 'a t + +(** {5 Indexing operations} *) + +val get : 'a t -> int -> 'a diff --git a/clib/segmenttree.ml b/clib/segmenttree.ml new file mode 100644 index 00000000..24243b7a --- /dev/null +++ b/clib/segmenttree.ml @@ -0,0 +1,140 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* () + | x :: xs -> f i x; loop (i + 1) xs + in + loop 0 l + +let log2 x = log x /. log 2. + +let log2n x = int_of_float (ceil (log2 (float_of_int x))) + +(** We focus on integers but this module can be generalized. *) +type elt = int + +(** A value of type [domain] is interpreted differently given its position + in the tree. On internal nodes, a domain represents the set of + integers which are _not_ in the set of keys handled by the tree. On + leaves, a domain represents the st of integers which are in the set of + keys. *) +type domain = + (** On internal nodes, a domain [Interval (a, b)] represents + the interval [a + 1; b - 1]. On leaves, it represents [a; b]. + We always have [a] <= [b]. *) + | Interval of elt * elt + (** On internal node or root, a domain [Universe] represents all + the integers. When the tree is not a trivial root, + [Universe] has no interpretation on leaves. (The lookup + function should never reach the leaves.) *) + | Universe + +(** We use an array to store the almost complete tree. This array + contains at least one element. *) +type 'a t = (domain * 'a option) array + +(** The root is the first item of the array. *) + +(** Standard layout for left child. *) +let left_child i = 2 * i + 1 + +(** Standard layout for right child. *) +let right_child i = 2 * i + 2 + +(** Extract the annotation of a node, be it internal or a leaf. *) +let value_of i t = match t.(i) with (_, Some x) -> x | _ -> raise Not_found + +(** Initialize the array to store [n] leaves. *) +let create n init = + Array.make (1 lsl (log2n n + 1) - 1) init + +(** Make a complete interval tree from a list of disjoint segments. + Precondition : the segments must be sorted. *) +let make segments = + let nsegments = List.length segments in + let tree = create nsegments (Universe, None) in + let leaves_offset = (1 lsl (log2n nsegments)) - 1 in + + (** The algorithm proceeds in two steps using an intermediate tree + to store minimum and maximum of each subtree as annotation of + the node. *) + + (** We start from leaves: the last level of the tree is initialized + with the given segments... *) + list_iteri + (fun i ((start, stop), value) -> + let k = leaves_offset + i in + let i = Interval (start, stop) in + tree.(k) <- (i, Some i)) + segments; + (** ... the remaining leaves are initialized with neutral information. *) + for k = leaves_offset + nsegments to Array.length tree -1 do + tree.(k) <- (Universe, Some Universe) + done; + + (** We traverse the tree bottom-up and compute the interval and + annotation associated to each node from the annotations of its + children. *) + for k = leaves_offset - 1 downto 0 do + let node, annotation = + match value_of (left_child k) tree, value_of (right_child k) tree with + | Interval (left_min, left_max), Interval (right_min, right_max) -> + (Interval (left_max, right_min), Interval (left_min, right_max)) + | Interval (min, max), Universe -> + (Interval (max, max), Interval (min, max)) + | Universe, Universe -> Universe, Universe + | Universe, _ -> assert false + in + tree.(k) <- (node, Some annotation) + done; + + (** Finally, annotation are replaced with the image related to each leaf. *) + let final_tree = + Array.mapi (fun i (segment, value) -> (segment, None)) tree + in + list_iteri + (fun i ((start, stop), value) -> + final_tree.(leaves_offset + i) + <- (Interval (start, stop), Some value)) + segments; + final_tree + +(** [lookup k t] looks for an image for key [k] in the interval tree [t]. + Raise [Not_found] if it fails. *) +let lookup k t = + let i = ref 0 in + while (snd t.(!i) = None) do + match fst t.(!i) with + | Interval (start, stop) -> + if k <= start then i := left_child !i + else if k >= stop then i:= right_child !i + else raise Not_found + | Universe -> raise Not_found + done; + match fst t.(!i) with + | Interval (start, stop) -> + if k >= start && k <= stop then + match snd t.(!i) with + | Some v -> v + | None -> assert false + else + raise Not_found + | Universe -> assert false + + diff --git a/clib/segmenttree.mli b/clib/segmenttree.mli new file mode 100644 index 00000000..63c968f5 --- /dev/null +++ b/clib/segmenttree.mli @@ -0,0 +1,30 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a t + +(** [lookup k t] looks for an image for key [k] in the interval tree [t]. + Raise [Not_found] if it fails. *) +val lookup : int -> 'a t -> 'a + + diff --git a/clib/store.ml b/clib/store.ml new file mode 100644 index 00000000..1469358c --- /dev/null +++ b/clib/store.ml @@ -0,0 +1,89 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a field -> 'a -> t + val get : t -> 'a field -> 'a option + val remove : t -> 'a field -> t + val merge : t -> t -> t + val field : unit -> 'a field +end + +module Make () : S = +struct + + let next = + let count = ref 0 in fun () -> + let n = !count in + incr count; + n + + type t = Obj.t option array + (** Store are represented as arrays. For small values, which is typicial, + is slightly quicker than other implementations. *) + +type 'a field = int + +let allocate len : t = Array.make len None + +let empty : t = [||] + +let set (s : t) (i : 'a field) (v : 'a) : t = + let len = Array.length s in + let nlen = if i < len then len else succ i in + let () = assert (0 <= i) in + let ans = allocate nlen in + Array.blit s 0 ans 0 len; + Array.unsafe_set ans i (Some (Obj.repr v)); + ans + +let get (s : t) (i : 'a field) : 'a option = + let len = Array.length s in + if len <= i then None + else Obj.magic (Array.unsafe_get s i) + +let remove (s : t) (i : 'a field) = + let len = Array.length s in + let () = assert (0 <= i) in + let ans = allocate len in + Array.blit s 0 ans 0 len; + if i < len then Array.unsafe_set ans i None; + ans + +let merge (s1 : t) (s2 : t) : t = + let len1 = Array.length s1 in + let len2 = Array.length s2 in + let nlen = if len1 < len2 then len2 else len1 in + let ans = allocate nlen in + (** Important: No more allocation from here. *) + Array.blit s2 0 ans 0 len2; + for i = 0 to pred len1 do + let v = Array.unsafe_get s1 i in + match v with + | None -> () + | Some _ -> Array.unsafe_set ans i v + done; + ans + +let field () = next () + +end diff --git a/clib/store.mli b/clib/store.mli new file mode 100644 index 00000000..0c2b2e08 --- /dev/null +++ b/clib/store.mli @@ -0,0 +1,43 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 'a field -> 'a -> t + (** Set a field *) + + val get : t -> 'a field -> 'a option + (** Get the value of a field, if any *) + + val remove : t -> 'a field -> t + (** Unset the value of the field *) + + val merge : t -> t -> t + (** [merge s1 s2] adds all the fields of [s1] into [s2]. *) + + val field : unit -> 'a field + (** Create a new field *) + +end + +module Make () : S +(** Create a new store type. *) diff --git a/clib/terminal.ml b/clib/terminal.ml new file mode 100644 index 00000000..1d946813 --- /dev/null +++ b/clib/terminal.ml @@ -0,0 +1,300 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* o2 +| Some _ -> + match o2 with + | None -> o1 + | Some _ -> o2 + +let default = { + fg_color = None; + bg_color = None; + bold = None; + italic = None; + underline = None; + negative = None; + prefix = None; + suffix = None; +} + +let make ?fg_color ?bg_color ?bold ?italic ?underline ?negative ?style ?prefix ?suffix () = + let st = match style with + | None -> default + | Some st -> st + in + { + fg_color = set st.fg_color fg_color; + bg_color = set st.bg_color bg_color; + bold = set st.bold bold; + italic = set st.italic italic; + underline = set st.underline underline; + negative = set st.negative negative; + prefix = set st.prefix prefix; + suffix = set st.suffix suffix; + } + +let merge s1 s2 = + { + fg_color = set s1.fg_color s2.fg_color; + bg_color = set s1.bg_color s2.bg_color; + bold = set s1.bold s2.bold; + italic = set s1.italic s2.italic; + underline = set s1.underline s2.underline; + negative = set s1.negative s2.negative; + prefix = set s1.prefix s2.prefix; + suffix = set s1.suffix s2.suffix; + } + +let base_color = function +| `DEFAULT -> 9 +| `BLACK -> 0 +| `RED -> 1 +| `GREEN -> 2 +| `YELLOW -> 3 +| `BLUE -> 4 +| `MAGENTA -> 5 +| `CYAN -> 6 +| `WHITE -> 7 +| `LIGHT_BLACK -> 0 +| `LIGHT_RED -> 1 +| `LIGHT_GREEN -> 2 +| `LIGHT_YELLOW -> 3 +| `LIGHT_BLUE -> 4 +| `LIGHT_MAGENTA -> 5 +| `LIGHT_CYAN -> 6 +| `LIGHT_WHITE -> 7 +| _ -> invalid_arg "base_color" + +let extended_color off = function +| `INDEX i -> [off + 8; 5; i] +| `RGB (r, g, b) -> [off + 8; 2; r; g; b] +| _ -> invalid_arg "extended_color" + +let is_light = function +| `LIGHT_BLACK +| `LIGHT_RED +| `LIGHT_GREEN +| `LIGHT_YELLOW +| `LIGHT_BLUE +| `LIGHT_MAGENTA +| `LIGHT_CYAN +| `LIGHT_WHITE -> true +| _ -> false + +let is_extended = function +| `INDEX _ | `RGB _ -> true +| _ -> false + +let repr st = + let fg = match st.fg_color with + | None -> [] + | Some c -> + if is_light c then [90 + base_color c] + else if is_extended c then extended_color 30 c + else [30 + base_color c] + in + let bg = match st.bg_color with + | None -> [] + | Some c -> + if is_light c then [100 + base_color c] + else if is_extended c then extended_color 40 c + else [40 + base_color c] + in + let bold = match st.bold with + | None -> [] + | Some true -> [1] + | Some false -> [22] + in + let italic = match st.italic with + | None -> [] + | Some true -> [3] + | Some false -> [23] + in + let underline = match st.underline with + | None -> [] + | Some true -> [4] + | Some false -> [24] + in + let negative = match st.negative with + | None -> [] + | Some true -> [7] + | Some false -> [27] + in + fg @ bg @ bold @ italic @ underline @ negative + +let eval st = + let tags = repr st in + let tags = List.map string_of_int tags in + Printf.sprintf "\027[%sm" (String.concat ";" tags) + +let reset = "\027[0m" + +let reset_style = { + fg_color = Some `DEFAULT; + bg_color = Some `DEFAULT; + bold = Some false; + italic = Some false; + underline = Some false; + negative = Some false; + prefix = None; + suffix = None; +} + +let has_style t = + Unix.isatty t && Sys.os_type = "Unix" + +let split c s = + let len = String.length s in + let rec split n = + try + let pos = String.index_from s n c in + let dir = String.sub s n (pos-n) in + dir :: split (succ pos) + with + | Not_found -> [String.sub s n (len-n)] + in + if len = 0 then [] else split 0 + +let check_char i = if i < 0 || i > 255 then invalid_arg "check_char" + +let parse_color off rem = match off with +| 0 -> (`BLACK, rem) +| 1 -> (`RED, rem) +| 2 -> (`GREEN, rem) +| 3 -> (`YELLOW, rem) +| 4 -> (`BLUE, rem) +| 5 -> (`MAGENTA, rem) +| 6 -> (`CYAN, rem) +| 7 -> (`WHITE, rem) +| 9 -> (`DEFAULT, rem) +| 8 -> + begin match rem with + | 5 :: i :: rem -> + check_char i; + (`INDEX i, rem) + | 2 :: r :: g :: b :: rem -> + check_char r; + check_char g; + check_char b; + (`RGB (r, g, b), rem) + | _ -> invalid_arg "parse_color" + end +| _ -> invalid_arg "parse_color" + +let set_light = function +| `BLACK -> `LIGHT_BLACK +| `RED -> `LIGHT_RED +| `GREEN -> `LIGHT_GREEN +| `YELLOW -> `LIGHT_YELLOW +| `BLUE -> `LIGHT_BLUE +| `MAGENTA -> `LIGHT_MAGENTA +| `CYAN -> `LIGHT_CYAN +| `WHITE -> `LIGHT_WHITE +| _ -> invalid_arg "parse_color" + +let rec parse_style style = function +| [] -> style +| 0 :: rem -> + let style = merge style reset_style in + parse_style style rem +| 1 :: rem -> + let style = make ~style ~bold:true () in + parse_style style rem +| 3 :: rem -> + let style = make ~style ~italic:true () in + parse_style style rem +| 4 :: rem -> + let style = make ~style ~underline:true () in + parse_style style rem +| 7 :: rem -> + let style = make ~style ~negative:true () in + parse_style style rem +| 22 :: rem -> + let style = make ~style ~bold:false () in + parse_style style rem +| 23 :: rem -> + let style = make ~style ~italic:false () in + parse_style style rem +| 24 :: rem -> + let style = make ~style ~underline:false () in + parse_style style rem +| 27 :: rem -> + let style = make ~style ~negative:false () in + parse_style style rem +| code :: rem when (30 <= code && code < 40) -> + let color, rem = parse_color (code mod 10) rem in + let style = make ~style ~fg_color:color () in + parse_style style rem +| code :: rem when (40 <= code && code < 50) -> + let color, rem = parse_color (code mod 10) rem in + let style = make ~style ~bg_color:color () in + parse_style style rem +| code :: rem when (90 <= code && code < 100) -> + let color, rem = parse_color (code mod 10) rem in + let style = make ~style ~fg_color:(set_light color) () in + parse_style style rem +| code :: rem when (100 <= code && code < 110) -> + let color, rem = parse_color (code mod 10) rem in + let style = make ~style ~bg_color:(set_light color) () in + parse_style style rem +| _ :: rem -> parse_style style rem + +(** Parse LS_COLORS-like strings *) +let parse s = + let defs = split ':' s in + let fold accu s = match split '=' s with + | [name; attrs] -> + let attrs = split ';' attrs in + let accu = + try + let attrs = List.map int_of_string attrs in + let attrs = parse_style (make ()) attrs in + (name, attrs) :: accu + with _ -> accu + in + accu + | _ -> accu + in + List.fold_left fold [] defs diff --git a/clib/terminal.mli b/clib/terminal.mli new file mode 100644 index 00000000..dbf8d464 --- /dev/null +++ b/clib/terminal.mli @@ -0,0 +1,69 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* ?bg_color:color -> + ?bold:bool -> ?italic:bool -> ?underline:bool -> + ?negative:bool -> ?style:style -> + ?prefix:string -> ?suffix:string -> unit -> style +(** Create a style from the given flags. It is derived from the optional + [style] argument if given. *) + +val merge : style -> style -> style +(** [merge s1 s2] returns [s1] with all defined values of [s2] overwritten. *) + +val repr : style -> int list +(** Generate the ANSI code representing the given style. *) + +val eval : style -> string +(** Generate an escape sequence from a style. *) + +val reset : string +(** This escape sequence resets all attributes. *) + +val has_style : Unix.file_descr -> bool +(** Whether an output file descriptor handles styles. Very heuristic, only + checks it is a terminal. *) + +val parse : string -> (string * style) list +(** Parse strings describing terminal styles in the LS_COLORS syntax. For + robustness, ignore meaningless entries and drops undefined styles. *) diff --git a/clib/trie.ml b/clib/trie.ml new file mode 100644 index 00000000..ea43e9e0 --- /dev/null +++ b/clib/trie.ml @@ -0,0 +1,91 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* data + val next : t -> label -> t + val labels : t -> label list + val add : label list -> data -> t -> t + val remove : label list -> data -> t -> t + val iter : (label list -> data -> unit) -> t -> unit +end + +module type Grp = +sig + type t + val nil : t + val is_nil : t -> bool + val add : t -> t -> t + val sub : t -> t -> t +end + +module Make (Y : Map.OrderedType) (X : Grp) = +struct + +module T_codom = Map.Make(Y) + +type data = X.t +type label = Y.t +type t = Node of X.t * t T_codom.t + +let codom_for_all f m = + let fold key v accu = f v && accu in + T_codom.fold fold m true + +let empty = Node (X.nil, T_codom.empty) + +let next (Node (_,m)) lbl = T_codom.find lbl m + +let get (Node (hereset,_)) = hereset + +let labels (Node (_,m)) = + (** FIXME: this is order-dependent. Try to find a more robust presentation? *) + List.rev (T_codom.fold (fun x _ acc -> x::acc) m []) + +let is_empty_node (Node(a,b)) = (X.is_nil a) && (T_codom.is_empty b) + +let assure_arc m lbl = + if T_codom.mem lbl m then + m + else + T_codom.add lbl (Node (X.nil,T_codom.empty)) m + +let cleanse_arcs (Node (hereset,m)) = + let m = if codom_for_all is_empty_node m then T_codom.empty else m in + Node(hereset, m) + +let rec at_path f (Node (hereset,m)) = function + | [] -> + cleanse_arcs (Node(f hereset,m)) + | h::t -> + let m = assure_arc m h in + cleanse_arcs (Node(hereset, + T_codom.add h (at_path f (T_codom.find h m) t) m)) + +let add path v tm = + at_path (fun hereset -> X.add v hereset) tm path + +let remove path v tm = + at_path (fun hereset -> X.sub hereset v) tm path + +let iter f tlm = + let rec apprec pfx (Node(hereset,m)) = + let path = List.rev pfx in + f path hereset; + T_codom.iter (fun l tm -> apprec (l::pfx) tm) m + in + apprec [] tlm + +end diff --git a/clib/trie.mli b/clib/trie.mli new file mode 100644 index 00000000..dae346d3 --- /dev/null +++ b/clib/trie.mli @@ -0,0 +1,63 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* data + (** Get the data at the current node. *) + + val next : t -> label -> t + (** [next t lbl] returns the subtrie of [t] pointed by [lbl]. + @raise Not_found if there is none. *) + + val labels : t -> label list + (** Get the list of defined labels at the current node. *) + + val add : label list -> data -> t -> t + (** [add t path v] adds [v] at path [path] in [t]. *) + + val remove : label list -> data -> t -> t + (** [remove t path v] removes [v] from path [path] in [t]. *) + + val iter : (label list -> data -> unit) -> t -> unit + (** Apply a function to all contents. *) + +end + +module type Grp = +sig + type t + val nil : t + val is_nil : t -> bool + val add : t -> t -> t + val sub : t -> t -> t +end + +module Make (Label : Set.OrderedType) (Data : Grp) : S + with type label = Label.t and type data = Data.t +(** Generating functor, for a given type of labels and data. *) diff --git a/clib/unicode.ml b/clib/unicode.ml new file mode 100644 index 00000000..1e45c0d2 --- /dev/null +++ b/clib/unicode.ml @@ -0,0 +1,387 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* 1 lsl ((i land 7) * 3) (* 001 *) + | IdentPart -> 2 lsl ((i land 7) * 3) (* 010 *) + | Symbol -> 3 lsl ((i land 7) * 3) (* 011 *) + | IdentSep -> 4 lsl ((i land 7) * 3) (* 100 *) + | Unknown -> 0 lsl ((i land 7) * 3) (* 000 *) + +(* Helper to reset 3 bits in a word. *) +let reset_mask i = + lnot (7 lsl ((i land 7) * 3)) + +(* Initialize the lookup table from a list of segments, assigning + a status to every character of each segment. The order of these + assignments is relevant: it is possible to assign status [s] to + a segment [(c1, c2)] and later assign [s'] to [c] even if [c] is + between [c1] and [c2]. *) +let mk_lookup_table_from_unicode_tables_for status tables = + List.iter + (List.iter + (fun (c1, c2) -> + for i = c1 to c2 do + table.(i lsr 3) <- + (table.(i lsr 3) land (reset_mask i)) lor (mask i status) + done)) + tables + +(* Look up into the table and interpret the found pattern. *) +let lookup x = + let v = (table.(x lsr 3) lsr ((x land 7) * 3)) land 7 in + if v = 1 then Letter + else if v = 2 then IdentPart + else if v = 3 then Symbol + else if v = 4 then IdentSep + else Unknown + +(* [classify] discriminates between 5 different kinds of + symbols based on the standard unicode classification (extracted from + Camomile). *) +let classify = + let single c = [ (c, c) ] in + (* General tables. *) + mk_lookup_table_from_unicode_tables_for Symbol + [ + Unicodetable.sm; (* Symbol, maths. *) + Unicodetable.sc; (* Symbol, currency. *) + Unicodetable.so; (* Symbol, modifier. *) + Unicodetable.pd; (* Punctuation, dash. *) + Unicodetable.pc; (* Punctuation, connector. *) + Unicodetable.pe; (* Punctuation, open. *) + Unicodetable.ps; (* Punctution, close. *) + Unicodetable.pi; (* Punctuation, initial quote. *) + Unicodetable.pf; (* Punctuation, final quote. *) + Unicodetable.po; (* Punctuation, other. *) + ]; + mk_lookup_table_from_unicode_tables_for Letter + [ + Unicodetable.lu; (* Letter, uppercase. *) + Unicodetable.ll; (* Letter, lowercase. *) + Unicodetable.lt; (* Letter, titlecase. *) + Unicodetable.lo; (* Letter, others. *) + ]; + mk_lookup_table_from_unicode_tables_for IdentPart + [ + Unicodetable.nd; (* Number, decimal digits. *) + Unicodetable.nl; (* Number, letter. *) + Unicodetable.no; (* Number, other. *) + ]; + + (* Workaround. Some characters seems to be missing in + Camomile's category tables. We add them manually. *) + mk_lookup_table_from_unicode_tables_for Letter + [ + [(0x01D00, 0x01D7F)]; (* Phonetic Extensions. *) + [(0x01D80, 0x01DBF)]; (* Phonetic Extensions Suppl. *) + [(0x01DC0, 0x01DFF)]; (* Combining Diacritical Marks Suppl.*) + ]; + + (* Exceptions (from a previous version of this function). *) + mk_lookup_table_from_unicode_tables_for Symbol + [ + [(0x000B2, 0x000B3)]; (* Superscript 2-3. *) + single 0x000B9; (* Superscript 1. *) + single 0x02070; (* Superscript 0. *) + [(0x02074, 0x02079)]; (* Superscript 4-9. *) + single 0x0002E; (* Dot. *) + ]; + mk_lookup_table_from_unicode_tables_for IdentSep + [ + single 0x005F; (* Underscore. *) + single 0x00A0; (* Non breaking space. *) + ]; + mk_lookup_table_from_unicode_tables_for IdentPart + [ + single 0x0027; (* Single quote. *) + ]; + (* Lookup *) + lookup + +exception End_of_input + +let utf8_of_unicode n = + if n < 128 then + String.make 1 (Char.chr n) + else + let (m,s) = if n < 2048 then (2,192) else if n < 65536 then (3,224) else (4,240) in + String.init m (fun i -> + let j = (n lsr ((m - 1 - i) * 6)) land 63 in + Char.chr (j + if i = 0 then s else 128)) + +(* If [s] is some UTF-8 encoded string + and [i] is a position of some UTF-8 character within [s] + then [next_utf8 s i] returns [(j,n)] where: + - [j] indicates the position of the next UTF-8 character + - [n] represents the UTF-8 character at index [i] *) +let next_utf8 s i = + let err () = invalid_arg "utf8" in + let l = String.length s - i in + if l = 0 then raise End_of_input + else let a = Char.code s.[i] in if a <= 0x7F then + 1, a + else if a land 0x40 = 0 || l = 1 then err () + else let b = Char.code s.[i+1] in if b land 0xC0 <> 0x80 then err () + else if a land 0x20 = 0 then + 2, (a land 0x1F) lsl 6 + (b land 0x3F) + else if l = 2 then err () + else let c = Char.code s.[i+2] in if c land 0xC0 <> 0x80 then err () + else if a land 0x10 = 0 then + 3, (a land 0x0F) lsl 12 + (b land 0x3F) lsl 6 + (c land 0x3F) + else if l = 3 then err () + else let d = Char.code s.[i+3] in if d land 0xC0 <> 0x80 then err () + else if a land 0x08 = 0 then + 4, (a land 0x07) lsl 18 + (b land 0x3F) lsl 12 + + (c land 0x3F) lsl 6 + (d land 0x3F) + else err () + +let is_utf8 s = + let rec check i = + let (off, _) = next_utf8 s i in + check (i + off) + in + try check 0 with End_of_input -> true | Invalid_argument _ -> false + +(* Escape string if it contains non-utf8 characters *) + +let escaped_non_utf8 s = + let mk_escape x = Printf.sprintf "%%%X" x in + let buff = Buffer.create (String.length s * 3) in + let rec process_trailing_aux i j = + if i = j then i else + match String.unsafe_get s i with + | '\128'..'\191' -> process_trailing_aux (i+1) j + | _ -> i in + let process_trailing i n = + let j = if i+n-1 >= String.length s then i+1 else process_trailing_aux (i+1) (i+n) in + (if j = i+n then + Buffer.add_string buff (String.sub s i n) + else + let v = Array.init (j-i) (fun k -> mk_escape (Char.code s.[i+k])) in + Buffer.add_string buff (String.concat "" (Array.to_list v))); + j in + let rec process i = + if i >= String.length s then Buffer.contents buff else + let c = String.unsafe_get s i in + match c with + | '\000'..'\127' -> Buffer.add_char buff c; process (i+1) + | '\128'..'\191' | '\248'..'\255' -> Buffer.add_string buff (mk_escape (Char.code c)); process (i+1) + | '\192'..'\223' -> process (process_trailing i 2) + | '\224'..'\239' -> process (process_trailing i 3) + | '\240'..'\247' -> process (process_trailing i 4) + in + process 0 + +let escaped_if_non_utf8 s = + if is_utf8 s then s else escaped_non_utf8 s + +(* Check the well-formedness of an identifier *) + +let is_valid_ident_initial = function + | Letter | IdentSep -> true + | IdentPart | Symbol | Unknown -> false + +let initial_refutation j n s = + if is_valid_ident_initial (classify n) then None + else + let c = String.sub s 0 j in + Some (false, + "Invalid character '"^c^"' at beginning of identifier \""^s^"\".") + +let is_valid_ident_trailing = function + | Letter | IdentSep | IdentPart -> true + | Symbol | Unknown -> false + +let trailing_refutation i j n s = + if is_valid_ident_trailing (classify n) then None + else + let c = String.sub s i j in + Some (false, + "Invalid character '"^c^"' in identifier \""^s^"\".") + +let is_unknown = function + | Unknown -> true + | Letter | IdentSep | IdentPart | Symbol -> false + +let is_ident_part = function + | IdentPart -> true + | Letter | IdentSep | Symbol | Unknown -> false + +let is_ident_sep = function + | IdentSep -> true + | Letter | IdentPart | Symbol | Unknown -> false + +let ident_refutation s = + if s = ".." then None else try + let j, n = next_utf8 s 0 in + match initial_refutation j n s with + |None -> + begin try + let rec aux i = + let j, n = next_utf8 s i in + match trailing_refutation i j n s with + |None -> aux (i + j) + |x -> x + in aux j + with End_of_input -> None + end + |x -> x + with + | End_of_input -> Some (true,"The empty string is not an identifier.") + | Invalid_argument _ -> Some (true,escaped_non_utf8 s^": invalid utf8 sequence.") + +let lowercase_unicode = + let tree = Segmenttree.make Unicodetable.to_lower in + fun unicode -> + try + match Segmenttree.lookup unicode tree with + | `Abs c -> c + | `Delta d -> unicode + d + with Not_found -> unicode + +let lowercase_first_char s = + assert (s <> ""); + let j, n = next_utf8 s 0 in + utf8_of_unicode (lowercase_unicode n) + +let split_at_first_letter s = + let n, v = next_utf8 s 0 in + if ((* optim *) n = 1 && s.[0] != '_') || not (is_ident_sep (classify v)) then None + else begin + let n = ref n in + let p = ref 0 in + while !n < String.length s && + let n', v = next_utf8 s !n in + p := n'; + (* Test if not letter *) + ((* optim *) n' = 1 && (s.[!n] = '_' || s.[!n] = '\'')) + || let st = classify v in + is_ident_sep st || is_ident_part st + do n := !n + !p + done; + let s1 = String.sub s 0 !n in + let s2 = String.sub s !n (String.length s - !n) in + Some (s1,s2) + end + +(** For extraction, we need to encode unicode character into ascii ones *) + +let is_basic_ascii s = + let ok = ref true in + String.iter (fun c -> if Char.code c >= 128 then ok := false) s; + !ok + +let ascii_of_ident s = + let len = String.length s in + let has_UU i = + i+2 < len && s.[i]='_' && s.[i+1]='U' && s.[i+2]='U' + in + let i = ref 0 in + while !i < len && Char.code s.[!i] < 128 && not (has_UU !i) do + incr i + done; + if !i = len then s else + let out = Buffer.create (2*len) in + Buffer.add_substring out s 0 !i; + while !i < len do + let j, n = next_utf8 s !i in + if n >= 128 then + (Printf.bprintf out "_UU%04x_" n; i := !i + j) + else if has_UU !i then + (Buffer.add_string out "_UUU"; i := !i + 3) + else + (Buffer.add_char out s.[!i]; incr i) + done; + Buffer.contents out + +(* 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 *) + +(** FIXME: duplicate code with Pp *) + +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'..'\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 + +(* Variant of String.sub for UTF8 character positions *) +let utf8_sub s start_u len_u = + let len_b = String.length s + and end_u = start_u + len_u + and cnt = ref 0 + and nc = ref 0 + and p = ref 0 in + let start_b = ref len_b in + while !p < len_b && !cnt < end_u do + if !cnt <= start_u then start_b := !p ; + 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'..'\255' -> nc := 0 (* invalid byte *) + end ; + incr p ; + while !p < len_b && !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 ; + let end_b = !p in + String.sub s !start_b (end_b - !start_b) diff --git a/clib/unicode.mli b/clib/unicode.mli new file mode 100644 index 00000000..23e168cd --- /dev/null +++ b/clib/unicode.mli @@ -0,0 +1,60 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* status + +(** Return [None] if a given string can be used as a (Coq) identifier. + Return [Some (b,s)] otherwise, where [s] is an explanation and [b] is severity. *) +val ident_refutation : string -> (bool * string) option + +(** Tells if a valid initial character for an identifier *) +val is_valid_ident_initial : status -> bool + +(** Tells if a valid non-initial character for an identifier *) +val is_valid_ident_trailing : status -> bool + +(** Tells if a character is unclassified *) +val is_unknown : status -> bool + +(** First char of a string, converted to lowercase + @raise Assert_failure if the input string is empty. *) +val lowercase_first_char : string -> string + +(** Split a string supposed to be an ident at the first letter; + as an optimization, return None if the first character is a letter *) +val split_at_first_letter : string -> (string * string) option + +(** Return [true] if all UTF-8 characters in the input string are just plain + ASCII characters. Returns [false] otherwise. *) +val is_basic_ascii : string -> bool + +(** [ascii_of_ident s] maps UTF-8 string to a string composed solely from ASCII + characters. The non-ASCII characters are translated to ["_UUxxxx_"] where + {i xxxx} is the Unicode index of the character in hexadecimal (from four + to six hex digits). To avoid potential name clashes, any preexisting + substring ["_UU"] is turned into ["_UUU"]. *) +val ascii_of_ident : string -> string + +(** Validate an UTF-8 string *) +val is_utf8 : string -> bool + +(** Return the length of a valid UTF-8 string. *) +val utf8_length : string -> int + +(** Variant of {!String.sub} for UTF-8 strings. *) +val utf8_sub : string -> int -> int -> string + +(** Return a "%XX"-escaped string if it contains non UTF-8 characters. *) +val escaped_if_non_utf8 : string -> string diff --git a/clib/unicodetable.ml b/clib/unicodetable.ml new file mode 100644 index 00000000..b607058c --- /dev/null +++ b/clib/unicodetable.ml @@ -0,0 +1,7427 @@ +(** Unicode tables generated using UUCD. *) + +(* Letter, Uppercase *) +let lu = [ + (0x00041,0x0005A); + (0x000C0,0x000D6); + (0x000D8,0x000DE); + (0x00100,0x00100); + (0x00102,0x00102); + (0x00104,0x00104); + (0x00106,0x00106); + (0x00108,0x00108); + (0x0010A,0x0010A); + (0x0010C,0x0010C); + (0x0010E,0x0010E); + (0x00110,0x00110); + (0x00112,0x00112); + (0x00114,0x00114); + (0x00116,0x00116); + (0x00118,0x00118); + (0x0011A,0x0011A); + (0x0011C,0x0011C); + (0x0011E,0x0011E); + (0x00120,0x00120); + (0x00122,0x00122); + (0x00124,0x00124); + (0x00126,0x00126); + (0x00128,0x00128); + (0x0012A,0x0012A); + (0x0012C,0x0012C); + (0x0012E,0x0012E); + (0x00130,0x00130); + (0x00132,0x00132); + (0x00134,0x00134); + (0x00136,0x00136); + (0x00139,0x00139); + (0x0013B,0x0013B); + (0x0013D,0x0013D); + (0x0013F,0x0013F); + (0x00141,0x00141); + (0x00143,0x00143); + (0x00145,0x00145); + (0x00147,0x00147); + (0x0014A,0x0014A); + (0x0014C,0x0014C); + (0x0014E,0x0014E); + (0x00150,0x00150); + (0x00152,0x00152); + (0x00154,0x00154); + (0x00156,0x00156); + (0x00158,0x00158); + (0x0015A,0x0015A); + (0x0015C,0x0015C); + (0x0015E,0x0015E); + (0x00160,0x00160); + (0x00162,0x00162); + (0x00164,0x00164); + (0x00166,0x00166); + (0x00168,0x00168); + (0x0016A,0x0016A); + (0x0016C,0x0016C); + (0x0016E,0x0016E); + (0x00170,0x00170); + (0x00172,0x00172); + (0x00174,0x00174); + (0x00176,0x00176); + (0x00178,0x00179); + (0x0017B,0x0017B); + (0x0017D,0x0017D); + (0x00181,0x00182); + (0x00184,0x00184); + (0x00186,0x00187); + (0x00189,0x0018B); + (0x0018E,0x00191); + (0x00193,0x00194); + (0x00196,0x00198); + (0x0019C,0x0019D); + (0x0019F,0x001A0); + (0x001A2,0x001A2); + (0x001A4,0x001A4); + (0x001A6,0x001A7); + (0x001A9,0x001A9); + (0x001AC,0x001AC); + (0x001AE,0x001AF); + (0x001B1,0x001B3); + (0x001B5,0x001B5); + (0x001B7,0x001B8); + (0x001BC,0x001BC); + (0x001C4,0x001C4); + (0x001C7,0x001C7); + (0x001CA,0x001CA); + (0x001CD,0x001CD); + (0x001CF,0x001CF); + (0x001D1,0x001D1); + (0x001D3,0x001D3); + (0x001D5,0x001D5); + (0x001D7,0x001D7); + (0x001D9,0x001D9); + (0x001DB,0x001DB); + (0x001DE,0x001DE); + (0x001E0,0x001E0); + (0x001E2,0x001E2); + (0x001E4,0x001E4); + (0x001E6,0x001E6); + (0x001E8,0x001E8); + (0x001EA,0x001EA); + (0x001EC,0x001EC); + (0x001EE,0x001EE); + (0x001F1,0x001F1); + (0x001F4,0x001F4); + (0x001F6,0x001F8); + (0x001FA,0x001FA); + (0x001FC,0x001FC); + (0x001FE,0x001FE); + (0x00200,0x00200); + (0x00202,0x00202); + (0x00204,0x00204); + (0x00206,0x00206); + (0x00208,0x00208); + (0x0020A,0x0020A); + (0x0020C,0x0020C); + (0x0020E,0x0020E); + (0x00210,0x00210); + (0x00212,0x00212); + (0x00214,0x00214); + (0x00216,0x00216); + (0x00218,0x00218); + (0x0021A,0x0021A); + (0x0021C,0x0021C); + (0x0021E,0x0021E); + (0x00220,0x00220); + (0x00222,0x00222); + (0x00224,0x00224); + (0x00226,0x00226); + (0x00228,0x00228); + (0x0022A,0x0022A); + (0x0022C,0x0022C); + (0x0022E,0x0022E); + (0x00230,0x00230); + (0x00232,0x00232); + (0x0023A,0x0023B); + (0x0023D,0x0023E); + (0x00241,0x00241); + (0x00243,0x00246); + (0x00248,0x00248); + (0x0024A,0x0024A); + (0x0024C,0x0024C); + (0x0024E,0x0024E); + (0x00370,0x00370); + (0x00372,0x00372); + (0x00376,0x00376); + (0x0037F,0x0037F); + (0x00386,0x00386); + (0x00388,0x0038A); + (0x0038C,0x0038C); + (0x0038E,0x0038F); + (0x00391,0x003A1); + (0x003A3,0x003AB); + (0x003CF,0x003CF); + (0x003D2,0x003D4); + (0x003D8,0x003D8); + (0x003DA,0x003DA); + (0x003DC,0x003DC); + (0x003DE,0x003DE); + (0x003E0,0x003E0); + (0x003E2,0x003E2); + (0x003E4,0x003E4); + (0x003E6,0x003E6); + (0x003E8,0x003E8); + (0x003EA,0x003EA); + (0x003EC,0x003EC); + (0x003EE,0x003EE); + (0x003F4,0x003F4); + (0x003F7,0x003F7); + (0x003F9,0x003FA); + (0x003FD,0x0042F); + (0x00460,0x00460); + (0x00462,0x00462); + (0x00464,0x00464); + (0x00466,0x00466); + (0x00468,0x00468); + (0x0046A,0x0046A); + (0x0046C,0x0046C); + (0x0046E,0x0046E); + (0x00470,0x00470); + (0x00472,0x00472); + (0x00474,0x00474); + (0x00476,0x00476); + (0x00478,0x00478); + (0x0047A,0x0047A); + (0x0047C,0x0047C); + (0x0047E,0x0047E); + (0x00480,0x00480); + (0x0048A,0x0048A); + (0x0048C,0x0048C); + (0x0048E,0x0048E); + (0x00490,0x00490); + (0x00492,0x00492); + (0x00494,0x00494); + (0x00496,0x00496); + (0x00498,0x00498); + (0x0049A,0x0049A); + (0x0049C,0x0049C); + (0x0049E,0x0049E); + (0x004A0,0x004A0); + (0x004A2,0x004A2); + (0x004A4,0x004A4); + (0x004A6,0x004A6); + (0x004A8,0x004A8); + (0x004AA,0x004AA); + (0x004AC,0x004AC); + (0x004AE,0x004AE); + (0x004B0,0x004B0); + (0x004B2,0x004B2); + (0x004B4,0x004B4); + (0x004B6,0x004B6); + (0x004B8,0x004B8); + (0x004BA,0x004BA); + (0x004BC,0x004BC); + (0x004BE,0x004BE); + (0x004C0,0x004C1); + (0x004C3,0x004C3); + (0x004C5,0x004C5); + (0x004C7,0x004C7); + (0x004C9,0x004C9); + (0x004CB,0x004CB); + (0x004CD,0x004CD); + (0x004D0,0x004D0); + (0x004D2,0x004D2); + (0x004D4,0x004D4); + (0x004D6,0x004D6); + (0x004D8,0x004D8); + (0x004DA,0x004DA); + (0x004DC,0x004DC); + (0x004DE,0x004DE); + (0x004E0,0x004E0); + (0x004E2,0x004E2); + (0x004E4,0x004E4); + (0x004E6,0x004E6); + (0x004E8,0x004E8); + (0x004EA,0x004EA); + (0x004EC,0x004EC); + (0x004EE,0x004EE); + (0x004F0,0x004F0); + (0x004F2,0x004F2); + (0x004F4,0x004F4); + (0x004F6,0x004F6); + (0x004F8,0x004F8); + (0x004FA,0x004FA); + (0x004FC,0x004FC); + (0x004FE,0x004FE); + (0x00500,0x00500); + (0x00502,0x00502); + (0x00504,0x00504); + (0x00506,0x00506); + (0x00508,0x00508); + (0x0050A,0x0050A); + (0x0050C,0x0050C); + (0x0050E,0x0050E); + (0x00510,0x00510); + (0x00512,0x00512); + (0x00514,0x00514); + (0x00516,0x00516); + (0x00518,0x00518); + (0x0051A,0x0051A); + (0x0051C,0x0051C); + (0x0051E,0x0051E); + (0x00520,0x00520); + (0x00522,0x00522); + (0x00524,0x00524); + (0x00526,0x00526); + (0x00528,0x00528); + (0x0052A,0x0052A); + (0x0052C,0x0052C); + (0x0052E,0x0052E); + (0x00531,0x00556); + (0x010A0,0x010C5); + (0x010C7,0x010C7); + (0x010CD,0x010CD); + (0x013A0,0x013F5); + (0x01E00,0x01E00); + (0x01E02,0x01E02); + (0x01E04,0x01E04); + (0x01E06,0x01E06); + (0x01E08,0x01E08); + (0x01E0A,0x01E0A); + (0x01E0C,0x01E0C); + (0x01E0E,0x01E0E); + (0x01E10,0x01E10); + (0x01E12,0x01E12); + (0x01E14,0x01E14); + (0x01E16,0x01E16); + (0x01E18,0x01E18); + (0x01E1A,0x01E1A); + (0x01E1C,0x01E1C); + (0x01E1E,0x01E1E); + (0x01E20,0x01E20); + (0x01E22,0x01E22); + (0x01E24,0x01E24); + (0x01E26,0x01E26); + (0x01E28,0x01E28); + (0x01E2A,0x01E2A); + (0x01E2C,0x01E2C); + (0x01E2E,0x01E2E); + (0x01E30,0x01E30); + (0x01E32,0x01E32); + (0x01E34,0x01E34); + (0x01E36,0x01E36); + (0x01E38,0x01E38); + (0x01E3A,0x01E3A); + (0x01E3C,0x01E3C); + (0x01E3E,0x01E3E); + (0x01E40,0x01E40); + (0x01E42,0x01E42); + (0x01E44,0x01E44); + (0x01E46,0x01E46); + (0x01E48,0x01E48); + (0x01E4A,0x01E4A); + (0x01E4C,0x01E4C); + (0x01E4E,0x01E4E); + (0x01E50,0x01E50); + (0x01E52,0x01E52); + (0x01E54,0x01E54); + (0x01E56,0x01E56); + (0x01E58,0x01E58); + (0x01E5A,0x01E5A); + (0x01E5C,0x01E5C); + (0x01E5E,0x01E5E); + (0x01E60,0x01E60); + (0x01E62,0x01E62); + (0x01E64,0x01E64); + (0x01E66,0x01E66); + (0x01E68,0x01E68); + (0x01E6A,0x01E6A); + (0x01E6C,0x01E6C); + (0x01E6E,0x01E6E); + (0x01E70,0x01E70); + (0x01E72,0x01E72); + (0x01E74,0x01E74); + (0x01E76,0x01E76); + (0x01E78,0x01E78); + (0x01E7A,0x01E7A); + (0x01E7C,0x01E7C); + (0x01E7E,0x01E7E); + (0x01E80,0x01E80); + (0x01E82,0x01E82); + (0x01E84,0x01E84); + (0x01E86,0x01E86); + (0x01E88,0x01E88); + (0x01E8A,0x01E8A); + (0x01E8C,0x01E8C); + (0x01E8E,0x01E8E); + (0x01E90,0x01E90); + (0x01E92,0x01E92); + (0x01E94,0x01E94); + (0x01E9E,0x01E9E); + (0x01EA0,0x01EA0); + (0x01EA2,0x01EA2); + (0x01EA4,0x01EA4); + (0x01EA6,0x01EA6); + (0x01EA8,0x01EA8); + (0x01EAA,0x01EAA); + (0x01EAC,0x01EAC); + (0x01EAE,0x01EAE); + (0x01EB0,0x01EB0); + (0x01EB2,0x01EB2); + (0x01EB4,0x01EB4); + (0x01EB6,0x01EB6); + (0x01EB8,0x01EB8); + (0x01EBA,0x01EBA); + (0x01EBC,0x01EBC); + (0x01EBE,0x01EBE); + (0x01EC0,0x01EC0); + (0x01EC2,0x01EC2); + (0x01EC4,0x01EC4); + (0x01EC6,0x01EC6); + (0x01EC8,0x01EC8); + (0x01ECA,0x01ECA); + (0x01ECC,0x01ECC); + (0x01ECE,0x01ECE); + (0x01ED0,0x01ED0); + (0x01ED2,0x01ED2); + (0x01ED4,0x01ED4); + (0x01ED6,0x01ED6); + (0x01ED8,0x01ED8); + (0x01EDA,0x01EDA); + (0x01EDC,0x01EDC); + (0x01EDE,0x01EDE); + (0x01EE0,0x01EE0); + (0x01EE2,0x01EE2); + (0x01EE4,0x01EE4); + (0x01EE6,0x01EE6); + (0x01EE8,0x01EE8); + (0x01EEA,0x01EEA); + (0x01EEC,0x01EEC); + (0x01EEE,0x01EEE); + (0x01EF0,0x01EF0); + (0x01EF2,0x01EF2); + (0x01EF4,0x01EF4); + (0x01EF6,0x01EF6); + (0x01EF8,0x01EF8); + (0x01EFA,0x01EFA); + (0x01EFC,0x01EFC); + (0x01EFE,0x01EFE); + (0x01F08,0x01F0F); + (0x01F18,0x01F1D); + (0x01F28,0x01F2F); + (0x01F38,0x01F3F); + (0x01F48,0x01F4D); + (0x01F59,0x01F59); + (0x01F5B,0x01F5B); + (0x01F5D,0x01F5D); + (0x01F5F,0x01F5F); + (0x01F68,0x01F6F); + (0x01FB8,0x01FBB); + (0x01FC8,0x01FCB); + (0x01FD8,0x01FDB); + (0x01FE8,0x01FEC); + (0x01FF8,0x01FFB); + (0x02102,0x02102); + (0x02107,0x02107); + (0x0210B,0x0210D); + (0x02110,0x02112); + (0x02115,0x02115); + (0x02119,0x0211D); + (0x02124,0x02124); + (0x02126,0x02126); + (0x02128,0x02128); + (0x0212A,0x0212D); + (0x02130,0x02133); + (0x0213E,0x0213F); + (0x02145,0x02145); + (0x02183,0x02183); + (0x02C00,0x02C2E); + (0x02C60,0x02C60); + (0x02C62,0x02C64); + (0x02C67,0x02C67); + (0x02C69,0x02C69); + (0x02C6B,0x02C6B); + (0x02C6D,0x02C70); + (0x02C72,0x02C72); + (0x02C75,0x02C75); + (0x02C7E,0x02C80); + (0x02C82,0x02C82); + (0x02C84,0x02C84); + (0x02C86,0x02C86); + (0x02C88,0x02C88); + (0x02C8A,0x02C8A); + (0x02C8C,0x02C8C); + (0x02C8E,0x02C8E); + (0x02C90,0x02C90); + (0x02C92,0x02C92); + (0x02C94,0x02C94); + (0x02C96,0x02C96); + (0x02C98,0x02C98); + (0x02C9A,0x02C9A); + (0x02C9C,0x02C9C); + (0x02C9E,0x02C9E); + (0x02CA0,0x02CA0); + (0x02CA2,0x02CA2); + (0x02CA4,0x02CA4); + (0x02CA6,0x02CA6); + (0x02CA8,0x02CA8); + (0x02CAA,0x02CAA); + (0x02CAC,0x02CAC); + (0x02CAE,0x02CAE); + (0x02CB0,0x02CB0); + (0x02CB2,0x02CB2); + (0x02CB4,0x02CB4); + (0x02CB6,0x02CB6); + (0x02CB8,0x02CB8); + (0x02CBA,0x02CBA); + (0x02CBC,0x02CBC); + (0x02CBE,0x02CBE); + (0x02CC0,0x02CC0); + (0x02CC2,0x02CC2); + (0x02CC4,0x02CC4); + (0x02CC6,0x02CC6); + (0x02CC8,0x02CC8); + (0x02CCA,0x02CCA); + (0x02CCC,0x02CCC); + (0x02CCE,0x02CCE); + (0x02CD0,0x02CD0); + (0x02CD2,0x02CD2); + (0x02CD4,0x02CD4); + (0x02CD6,0x02CD6); + (0x02CD8,0x02CD8); + (0x02CDA,0x02CDA); + (0x02CDC,0x02CDC); + (0x02CDE,0x02CDE); + (0x02CE0,0x02CE0); + (0x02CE2,0x02CE2); + (0x02CEB,0x02CEB); + (0x02CED,0x02CED); + (0x02CF2,0x02CF2); + (0x0A640,0x0A640); + (0x0A642,0x0A642); + (0x0A644,0x0A644); + (0x0A646,0x0A646); + (0x0A648,0x0A648); + (0x0A64A,0x0A64A); + (0x0A64C,0x0A64C); + (0x0A64E,0x0A64E); + (0x0A650,0x0A650); + (0x0A652,0x0A652); + (0x0A654,0x0A654); + (0x0A656,0x0A656); + (0x0A658,0x0A658); + (0x0A65A,0x0A65A); + (0x0A65C,0x0A65C); + (0x0A65E,0x0A65E); + (0x0A660,0x0A660); + (0x0A662,0x0A662); + (0x0A664,0x0A664); + (0x0A666,0x0A666); + (0x0A668,0x0A668); + (0x0A66A,0x0A66A); + (0x0A66C,0x0A66C); + (0x0A680,0x0A680); + (0x0A682,0x0A682); + (0x0A684,0x0A684); + (0x0A686,0x0A686); + (0x0A688,0x0A688); + (0x0A68A,0x0A68A); + (0x0A68C,0x0A68C); + (0x0A68E,0x0A68E); + (0x0A690,0x0A690); + (0x0A692,0x0A692); + (0x0A694,0x0A694); + (0x0A696,0x0A696); + (0x0A698,0x0A698); + (0x0A69A,0x0A69A); + (0x0A722,0x0A722); + (0x0A724,0x0A724); + (0x0A726,0x0A726); + (0x0A728,0x0A728); + (0x0A72A,0x0A72A); + (0x0A72C,0x0A72C); + (0x0A72E,0x0A72E); + (0x0A732,0x0A732); + (0x0A734,0x0A734); + (0x0A736,0x0A736); + (0x0A738,0x0A738); + (0x0A73A,0x0A73A); + (0x0A73C,0x0A73C); + (0x0A73E,0x0A73E); + (0x0A740,0x0A740); + (0x0A742,0x0A742); + (0x0A744,0x0A744); + (0x0A746,0x0A746); + (0x0A748,0x0A748); + (0x0A74A,0x0A74A); + (0x0A74C,0x0A74C); + (0x0A74E,0x0A74E); + (0x0A750,0x0A750); + (0x0A752,0x0A752); + (0x0A754,0x0A754); + (0x0A756,0x0A756); + (0x0A758,0x0A758); + (0x0A75A,0x0A75A); + (0x0A75C,0x0A75C); + (0x0A75E,0x0A75E); + (0x0A760,0x0A760); + (0x0A762,0x0A762); + (0x0A764,0x0A764); + (0x0A766,0x0A766); + (0x0A768,0x0A768); + (0x0A76A,0x0A76A); + (0x0A76C,0x0A76C); + (0x0A76E,0x0A76E); + (0x0A779,0x0A779); + (0x0A77B,0x0A77B); + (0x0A77D,0x0A77E); + (0x0A780,0x0A780); + (0x0A782,0x0A782); + (0x0A784,0x0A784); + (0x0A786,0x0A786); + (0x0A78B,0x0A78B); + (0x0A78D,0x0A78D); + (0x0A790,0x0A790); + (0x0A792,0x0A792); + (0x0A796,0x0A796); + (0x0A798,0x0A798); + (0x0A79A,0x0A79A); + (0x0A79C,0x0A79C); + (0x0A79E,0x0A79E); + (0x0A7A0,0x0A7A0); + (0x0A7A2,0x0A7A2); + (0x0A7A4,0x0A7A4); + (0x0A7A6,0x0A7A6); + (0x0A7A8,0x0A7A8); + (0x0A7AA,0x0A7AE); + (0x0A7B0,0x0A7B4); + (0x0A7B6,0x0A7B6); + (0x0FF21,0x0FF3A); + (0x10400,0x10427); + (0x104B0,0x104D3); + (0x10C80,0x10CB2); + (0x118A0,0x118BF); + (0x1D400,0x1D419); + (0x1D434,0x1D44D); + (0x1D468,0x1D481); + (0x1D49C,0x1D49C); + (0x1D49E,0x1D49F); + (0x1D4A2,0x1D4A2); + (0x1D4A5,0x1D4A6); + (0x1D4A9,0x1D4AC); + (0x1D4AE,0x1D4B5); + (0x1D4D0,0x1D4E9); + (0x1D504,0x1D505); + (0x1D507,0x1D50A); + (0x1D50D,0x1D514); + (0x1D516,0x1D51C); + (0x1D538,0x1D539); + (0x1D53B,0x1D53E); + (0x1D540,0x1D544); + (0x1D546,0x1D546); + (0x1D54A,0x1D550); + (0x1D56C,0x1D585); + (0x1D5A0,0x1D5B9); + (0x1D5D4,0x1D5ED); + (0x1D608,0x1D621); + (0x1D63C,0x1D655); + (0x1D670,0x1D689); + (0x1D6A8,0x1D6C0); + (0x1D6E2,0x1D6FA); + (0x1D71C,0x1D734); + (0x1D756,0x1D76E); + (0x1D790,0x1D7A8); + (0x1D7CA,0x1D7CA) +] +(* Letter, Lowercase *) +let ll = [ + (0x00061,0x0007A); + (0x000B5,0x000B5); + (0x000DF,0x000F6); + (0x000F8,0x000FF); + (0x00101,0x00101); + (0x00103,0x00103); + (0x00105,0x00105); + (0x00107,0x00107); + (0x00109,0x00109); + (0x0010B,0x0010B); + (0x0010D,0x0010D); + (0x0010F,0x0010F); + (0x00111,0x00111); + (0x00113,0x00113); + (0x00115,0x00115); + (0x00117,0x00117); + (0x00119,0x00119); + (0x0011B,0x0011B); + (0x0011D,0x0011D); + (0x0011F,0x0011F); + (0x00121,0x00121); + (0x00123,0x00123); + (0x00125,0x00125); + (0x00127,0x00127); + (0x00129,0x00129); + (0x0012B,0x0012B); + (0x0012D,0x0012D); + (0x0012F,0x0012F); + (0x00131,0x00131); + (0x00133,0x00133); + (0x00135,0x00135); + (0x00137,0x00138); + (0x0013A,0x0013A); + (0x0013C,0x0013C); + (0x0013E,0x0013E); + (0x00140,0x00140); + (0x00142,0x00142); + (0x00144,0x00144); + (0x00146,0x00146); + (0x00148,0x00149); + (0x0014B,0x0014B); + (0x0014D,0x0014D); + (0x0014F,0x0014F); + (0x00151,0x00151); + (0x00153,0x00153); + (0x00155,0x00155); + (0x00157,0x00157); + (0x00159,0x00159); + (0x0015B,0x0015B); + (0x0015D,0x0015D); + (0x0015F,0x0015F); + (0x00161,0x00161); + (0x00163,0x00163); + (0x00165,0x00165); + (0x00167,0x00167); + (0x00169,0x00169); + (0x0016B,0x0016B); + (0x0016D,0x0016D); + (0x0016F,0x0016F); + (0x00171,0x00171); + (0x00173,0x00173); + (0x00175,0x00175); + (0x00177,0x00177); + (0x0017A,0x0017A); + (0x0017C,0x0017C); + (0x0017E,0x00180); + (0x00183,0x00183); + (0x00185,0x00185); + (0x00188,0x00188); + (0x0018C,0x0018D); + (0x00192,0x00192); + (0x00195,0x00195); + (0x00199,0x0019B); + (0x0019E,0x0019E); + (0x001A1,0x001A1); + (0x001A3,0x001A3); + (0x001A5,0x001A5); + (0x001A8,0x001A8); + (0x001AA,0x001AB); + (0x001AD,0x001AD); + (0x001B0,0x001B0); + (0x001B4,0x001B4); + (0x001B6,0x001B6); + (0x001B9,0x001BA); + (0x001BD,0x001BF); + (0x001C6,0x001C6); + (0x001C9,0x001C9); + (0x001CC,0x001CC); + (0x001CE,0x001CE); + (0x001D0,0x001D0); + (0x001D2,0x001D2); + (0x001D4,0x001D4); + (0x001D6,0x001D6); + (0x001D8,0x001D8); + (0x001DA,0x001DA); + (0x001DC,0x001DD); + (0x001DF,0x001DF); + (0x001E1,0x001E1); + (0x001E3,0x001E3); + (0x001E5,0x001E5); + (0x001E7,0x001E7); + (0x001E9,0x001E9); + (0x001EB,0x001EB); + (0x001ED,0x001ED); + (0x001EF,0x001F0); + (0x001F3,0x001F3); + (0x001F5,0x001F5); + (0x001F9,0x001F9); + (0x001FB,0x001FB); + (0x001FD,0x001FD); + (0x001FF,0x001FF); + (0x00201,0x00201); + (0x00203,0x00203); + (0x00205,0x00205); + (0x00207,0x00207); + (0x00209,0x00209); + (0x0020B,0x0020B); + (0x0020D,0x0020D); + (0x0020F,0x0020F); + (0x00211,0x00211); + (0x00213,0x00213); + (0x00215,0x00215); + (0x00217,0x00217); + (0x00219,0x00219); + (0x0021B,0x0021B); + (0x0021D,0x0021D); + (0x0021F,0x0021F); + (0x00221,0x00221); + (0x00223,0x00223); + (0x00225,0x00225); + (0x00227,0x00227); + (0x00229,0x00229); + (0x0022B,0x0022B); + (0x0022D,0x0022D); + (0x0022F,0x0022F); + (0x00231,0x00231); + (0x00233,0x00239); + (0x0023C,0x0023C); + (0x0023F,0x00240); + (0x00242,0x00242); + (0x00247,0x00247); + (0x00249,0x00249); + (0x0024B,0x0024B); + (0x0024D,0x0024D); + (0x0024F,0x00293); + (0x00295,0x002AF); + (0x00371,0x00371); + (0x00373,0x00373); + (0x00377,0x00377); + (0x0037B,0x0037D); + (0x00390,0x00390); + (0x003AC,0x003CE); + (0x003D0,0x003D1); + (0x003D5,0x003D7); + (0x003D9,0x003D9); + (0x003DB,0x003DB); + (0x003DD,0x003DD); + (0x003DF,0x003DF); + (0x003E1,0x003E1); + (0x003E3,0x003E3); + (0x003E5,0x003E5); + (0x003E7,0x003E7); + (0x003E9,0x003E9); + (0x003EB,0x003EB); + (0x003ED,0x003ED); + (0x003EF,0x003F3); + (0x003F5,0x003F5); + (0x003F8,0x003F8); + (0x003FB,0x003FC); + (0x00430,0x0045F); + (0x00461,0x00461); + (0x00463,0x00463); + (0x00465,0x00465); + (0x00467,0x00467); + (0x00469,0x00469); + (0x0046B,0x0046B); + (0x0046D,0x0046D); + (0x0046F,0x0046F); + (0x00471,0x00471); + (0x00473,0x00473); + (0x00475,0x00475); + (0x00477,0x00477); + (0x00479,0x00479); + (0x0047B,0x0047B); + (0x0047D,0x0047D); + (0x0047F,0x0047F); + (0x00481,0x00481); + (0x0048B,0x0048B); + (0x0048D,0x0048D); + (0x0048F,0x0048F); + (0x00491,0x00491); + (0x00493,0x00493); + (0x00495,0x00495); + (0x00497,0x00497); + (0x00499,0x00499); + (0x0049B,0x0049B); + (0x0049D,0x0049D); + (0x0049F,0x0049F); + (0x004A1,0x004A1); + (0x004A3,0x004A3); + (0x004A5,0x004A5); + (0x004A7,0x004A7); + (0x004A9,0x004A9); + (0x004AB,0x004AB); + (0x004AD,0x004AD); + (0x004AF,0x004AF); + (0x004B1,0x004B1); + (0x004B3,0x004B3); + (0x004B5,0x004B5); + (0x004B7,0x004B7); + (0x004B9,0x004B9); + (0x004BB,0x004BB); + (0x004BD,0x004BD); + (0x004BF,0x004BF); + (0x004C2,0x004C2); + (0x004C4,0x004C4); + (0x004C6,0x004C6); + (0x004C8,0x004C8); + (0x004CA,0x004CA); + (0x004CC,0x004CC); + (0x004CE,0x004CF); + (0x004D1,0x004D1); + (0x004D3,0x004D3); + (0x004D5,0x004D5); + (0x004D7,0x004D7); + (0x004D9,0x004D9); + (0x004DB,0x004DB); + (0x004DD,0x004DD); + (0x004DF,0x004DF); + (0x004E1,0x004E1); + (0x004E3,0x004E3); + (0x004E5,0x004E5); + (0x004E7,0x004E7); + (0x004E9,0x004E9); + (0x004EB,0x004EB); + (0x004ED,0x004ED); + (0x004EF,0x004EF); + (0x004F1,0x004F1); + (0x004F3,0x004F3); + (0x004F5,0x004F5); + (0x004F7,0x004F7); + (0x004F9,0x004F9); + (0x004FB,0x004FB); + (0x004FD,0x004FD); + (0x004FF,0x004FF); + (0x00501,0x00501); + (0x00503,0x00503); + (0x00505,0x00505); + (0x00507,0x00507); + (0x00509,0x00509); + (0x0050B,0x0050B); + (0x0050D,0x0050D); + (0x0050F,0x0050F); + (0x00511,0x00511); + (0x00513,0x00513); + (0x00515,0x00515); + (0x00517,0x00517); + (0x00519,0x00519); + (0x0051B,0x0051B); + (0x0051D,0x0051D); + (0x0051F,0x0051F); + (0x00521,0x00521); + (0x00523,0x00523); + (0x00525,0x00525); + (0x00527,0x00527); + (0x00529,0x00529); + (0x0052B,0x0052B); + (0x0052D,0x0052D); + (0x0052F,0x0052F); + (0x00561,0x00587); + (0x013F8,0x013FD); + (0x01C80,0x01C88); + (0x01D00,0x01D2B); + (0x01D6B,0x01D77); + (0x01D79,0x01D9A); + (0x01E01,0x01E01); + (0x01E03,0x01E03); + (0x01E05,0x01E05); + (0x01E07,0x01E07); + (0x01E09,0x01E09); + (0x01E0B,0x01E0B); + (0x01E0D,0x01E0D); + (0x01E0F,0x01E0F); + (0x01E11,0x01E11); + (0x01E13,0x01E13); + (0x01E15,0x01E15); + (0x01E17,0x01E17); + (0x01E19,0x01E19); + (0x01E1B,0x01E1B); + (0x01E1D,0x01E1D); + (0x01E1F,0x01E1F); + (0x01E21,0x01E21); + (0x01E23,0x01E23); + (0x01E25,0x01E25); + (0x01E27,0x01E27); + (0x01E29,0x01E29); + (0x01E2B,0x01E2B); + (0x01E2D,0x01E2D); + (0x01E2F,0x01E2F); + (0x01E31,0x01E31); + (0x01E33,0x01E33); + (0x01E35,0x01E35); + (0x01E37,0x01E37); + (0x01E39,0x01E39); + (0x01E3B,0x01E3B); + (0x01E3D,0x01E3D); + (0x01E3F,0x01E3F); + (0x01E41,0x01E41); + (0x01E43,0x01E43); + (0x01E45,0x01E45); + (0x01E47,0x01E47); + (0x01E49,0x01E49); + (0x01E4B,0x01E4B); + (0x01E4D,0x01E4D); + (0x01E4F,0x01E4F); + (0x01E51,0x01E51); + (0x01E53,0x01E53); + (0x01E55,0x01E55); + (0x01E57,0x01E57); + (0x01E59,0x01E59); + (0x01E5B,0x01E5B); + (0x01E5D,0x01E5D); + (0x01E5F,0x01E5F); + (0x01E61,0x01E61); + (0x01E63,0x01E63); + (0x01E65,0x01E65); + (0x01E67,0x01E67); + (0x01E69,0x01E69); + (0x01E6B,0x01E6B); + (0x01E6D,0x01E6D); + (0x01E6F,0x01E6F); + (0x01E71,0x01E71); + (0x01E73,0x01E73); + (0x01E75,0x01E75); + (0x01E77,0x01E77); + (0x01E79,0x01E79); + (0x01E7B,0x01E7B); + (0x01E7D,0x01E7D); + (0x01E7F,0x01E7F); + (0x01E81,0x01E81); + (0x01E83,0x01E83); + (0x01E85,0x01E85); + (0x01E87,0x01E87); + (0x01E89,0x01E89); + (0x01E8B,0x01E8B); + (0x01E8D,0x01E8D); + (0x01E8F,0x01E8F); + (0x01E91,0x01E91); + (0x01E93,0x01E93); + (0x01E95,0x01E9D); + (0x01E9F,0x01E9F); + (0x01EA1,0x01EA1); + (0x01EA3,0x01EA3); + (0x01EA5,0x01EA5); + (0x01EA7,0x01EA7); + (0x01EA9,0x01EA9); + (0x01EAB,0x01EAB); + (0x01EAD,0x01EAD); + (0x01EAF,0x01EAF); + (0x01EB1,0x01EB1); + (0x01EB3,0x01EB3); + (0x01EB5,0x01EB5); + (0x01EB7,0x01EB7); + (0x01EB9,0x01EB9); + (0x01EBB,0x01EBB); + (0x01EBD,0x01EBD); + (0x01EBF,0x01EBF); + (0x01EC1,0x01EC1); + (0x01EC3,0x01EC3); + (0x01EC5,0x01EC5); + (0x01EC7,0x01EC7); + (0x01EC9,0x01EC9); + (0x01ECB,0x01ECB); + (0x01ECD,0x01ECD); + (0x01ECF,0x01ECF); + (0x01ED1,0x01ED1); + (0x01ED3,0x01ED3); + (0x01ED5,0x01ED5); + (0x01ED7,0x01ED7); + (0x01ED9,0x01ED9); + (0x01EDB,0x01EDB); + (0x01EDD,0x01EDD); + (0x01EDF,0x01EDF); + (0x01EE1,0x01EE1); + (0x01EE3,0x01EE3); + (0x01EE5,0x01EE5); + (0x01EE7,0x01EE7); + (0x01EE9,0x01EE9); + (0x01EEB,0x01EEB); + (0x01EED,0x01EED); + (0x01EEF,0x01EEF); + (0x01EF1,0x01EF1); + (0x01EF3,0x01EF3); + (0x01EF5,0x01EF5); + (0x01EF7,0x01EF7); + (0x01EF9,0x01EF9); + (0x01EFB,0x01EFB); + (0x01EFD,0x01EFD); + (0x01EFF,0x01F07); + (0x01F10,0x01F15); + (0x01F20,0x01F27); + (0x01F30,0x01F37); + (0x01F40,0x01F45); + (0x01F50,0x01F57); + (0x01F60,0x01F67); + (0x01F70,0x01F7D); + (0x01F80,0x01F87); + (0x01F90,0x01F97); + (0x01FA0,0x01FA7); + (0x01FB0,0x01FB4); + (0x01FB6,0x01FB7); + (0x01FBE,0x01FBE); + (0x01FC2,0x01FC4); + (0x01FC6,0x01FC7); + (0x01FD0,0x01FD3); + (0x01FD6,0x01FD7); + (0x01FE0,0x01FE7); + (0x01FF2,0x01FF4); + (0x01FF6,0x01FF7); + (0x0210A,0x0210A); + (0x0210E,0x0210F); + (0x02113,0x02113); + (0x0212F,0x0212F); + (0x02134,0x02134); + (0x02139,0x02139); + (0x0213C,0x0213D); + (0x02146,0x02149); + (0x0214E,0x0214E); + (0x02184,0x02184); + (0x02C30,0x02C5E); + (0x02C61,0x02C61); + (0x02C65,0x02C66); + (0x02C68,0x02C68); + (0x02C6A,0x02C6A); + (0x02C6C,0x02C6C); + (0x02C71,0x02C71); + (0x02C73,0x02C74); + (0x02C76,0x02C7B); + (0x02C81,0x02C81); + (0x02C83,0x02C83); + (0x02C85,0x02C85); + (0x02C87,0x02C87); + (0x02C89,0x02C89); + (0x02C8B,0x02C8B); + (0x02C8D,0x02C8D); + (0x02C8F,0x02C8F); + (0x02C91,0x02C91); + (0x02C93,0x02C93); + (0x02C95,0x02C95); + (0x02C97,0x02C97); + (0x02C99,0x02C99); + (0x02C9B,0x02C9B); + (0x02C9D,0x02C9D); + (0x02C9F,0x02C9F); + (0x02CA1,0x02CA1); + (0x02CA3,0x02CA3); + (0x02CA5,0x02CA5); + (0x02CA7,0x02CA7); + (0x02CA9,0x02CA9); + (0x02CAB,0x02CAB); + (0x02CAD,0x02CAD); + (0x02CAF,0x02CAF); + (0x02CB1,0x02CB1); + (0x02CB3,0x02CB3); + (0x02CB5,0x02CB5); + (0x02CB7,0x02CB7); + (0x02CB9,0x02CB9); + (0x02CBB,0x02CBB); + (0x02CBD,0x02CBD); + (0x02CBF,0x02CBF); + (0x02CC1,0x02CC1); + (0x02CC3,0x02CC3); + (0x02CC5,0x02CC5); + (0x02CC7,0x02CC7); + (0x02CC9,0x02CC9); + (0x02CCB,0x02CCB); + (0x02CCD,0x02CCD); + (0x02CCF,0x02CCF); + (0x02CD1,0x02CD1); + (0x02CD3,0x02CD3); + (0x02CD5,0x02CD5); + (0x02CD7,0x02CD7); + (0x02CD9,0x02CD9); + (0x02CDB,0x02CDB); + (0x02CDD,0x02CDD); + (0x02CDF,0x02CDF); + (0x02CE1,0x02CE1); + (0x02CE3,0x02CE4); + (0x02CEC,0x02CEC); + (0x02CEE,0x02CEE); + (0x02CF3,0x02CF3); + (0x02D00,0x02D25); + (0x02D27,0x02D27); + (0x02D2D,0x02D2D); + (0x0A641,0x0A641); + (0x0A643,0x0A643); + (0x0A645,0x0A645); + (0x0A647,0x0A647); + (0x0A649,0x0A649); + (0x0A64B,0x0A64B); + (0x0A64D,0x0A64D); + (0x0A64F,0x0A64F); + (0x0A651,0x0A651); + (0x0A653,0x0A653); + (0x0A655,0x0A655); + (0x0A657,0x0A657); + (0x0A659,0x0A659); + (0x0A65B,0x0A65B); + (0x0A65D,0x0A65D); + (0x0A65F,0x0A65F); + (0x0A661,0x0A661); + (0x0A663,0x0A663); + (0x0A665,0x0A665); + (0x0A667,0x0A667); + (0x0A669,0x0A669); + (0x0A66B,0x0A66B); + (0x0A66D,0x0A66D); + (0x0A681,0x0A681); + (0x0A683,0x0A683); + (0x0A685,0x0A685); + (0x0A687,0x0A687); + (0x0A689,0x0A689); + (0x0A68B,0x0A68B); + (0x0A68D,0x0A68D); + (0x0A68F,0x0A68F); + (0x0A691,0x0A691); + (0x0A693,0x0A693); + (0x0A695,0x0A695); + (0x0A697,0x0A697); + (0x0A699,0x0A699); + (0x0A69B,0x0A69B); + (0x0A723,0x0A723); + (0x0A725,0x0A725); + (0x0A727,0x0A727); + (0x0A729,0x0A729); + (0x0A72B,0x0A72B); + (0x0A72D,0x0A72D); + (0x0A72F,0x0A731); + (0x0A733,0x0A733); + (0x0A735,0x0A735); + (0x0A737,0x0A737); + (0x0A739,0x0A739); + (0x0A73B,0x0A73B); + (0x0A73D,0x0A73D); + (0x0A73F,0x0A73F); + (0x0A741,0x0A741); + (0x0A743,0x0A743); + (0x0A745,0x0A745); + (0x0A747,0x0A747); + (0x0A749,0x0A749); + (0x0A74B,0x0A74B); + (0x0A74D,0x0A74D); + (0x0A74F,0x0A74F); + (0x0A751,0x0A751); + (0x0A753,0x0A753); + (0x0A755,0x0A755); + (0x0A757,0x0A757); + (0x0A759,0x0A759); + (0x0A75B,0x0A75B); + (0x0A75D,0x0A75D); + (0x0A75F,0x0A75F); + (0x0A761,0x0A761); + (0x0A763,0x0A763); + (0x0A765,0x0A765); + (0x0A767,0x0A767); + (0x0A769,0x0A769); + (0x0A76B,0x0A76B); + (0x0A76D,0x0A76D); + (0x0A76F,0x0A76F); + (0x0A771,0x0A778); + (0x0A77A,0x0A77A); + (0x0A77C,0x0A77C); + (0x0A77F,0x0A77F); + (0x0A781,0x0A781); + (0x0A783,0x0A783); + (0x0A785,0x0A785); + (0x0A787,0x0A787); + (0x0A78C,0x0A78C); + (0x0A78E,0x0A78E); + (0x0A791,0x0A791); + (0x0A793,0x0A795); + (0x0A797,0x0A797); + (0x0A799,0x0A799); + (0x0A79B,0x0A79B); + (0x0A79D,0x0A79D); + (0x0A79F,0x0A79F); + (0x0A7A1,0x0A7A1); + (0x0A7A3,0x0A7A3); + (0x0A7A5,0x0A7A5); + (0x0A7A7,0x0A7A7); + (0x0A7A9,0x0A7A9); + (0x0A7B5,0x0A7B5); + (0x0A7B7,0x0A7B7); + (0x0A7FA,0x0A7FA); + (0x0AB30,0x0AB5A); + (0x0AB60,0x0AB65); + (0x0AB70,0x0ABBF); + (0x0FB00,0x0FB06); + (0x0FB13,0x0FB17); + (0x0FF41,0x0FF5A); + (0x10428,0x1044F); + (0x104D8,0x104FB); + (0x10CC0,0x10CF2); + (0x118C0,0x118DF); + (0x1D41A,0x1D433); + (0x1D44E,0x1D454); + (0x1D456,0x1D467); + (0x1D482,0x1D49B); + (0x1D4B6,0x1D4B9); + (0x1D4BB,0x1D4BB); + (0x1D4BD,0x1D4C3); + (0x1D4C5,0x1D4CF); + (0x1D4EA,0x1D503); + (0x1D51E,0x1D537); + (0x1D552,0x1D56B); + (0x1D586,0x1D59F); + (0x1D5BA,0x1D5D3); + (0x1D5EE,0x1D607); + (0x1D622,0x1D63B); + (0x1D656,0x1D66F); + (0x1D68A,0x1D6A5); + (0x1D6C2,0x1D6DA); + (0x1D6DC,0x1D6E1); + (0x1D6FC,0x1D714); + (0x1D716,0x1D71B); + (0x1D736,0x1D74E); + (0x1D750,0x1D755); + (0x1D770,0x1D788); + (0x1D78A,0x1D78F); + (0x1D7AA,0x1D7C2); + (0x1D7C4,0x1D7C9); + (0x1D7CB,0x1D7CB) +] +(* Letter, Titlecase *) +let lt = [ + (0x001C5,0x001C5); + (0x001C8,0x001C8); + (0x001CB,0x001CB); + (0x001F2,0x001F2); + (0x01F88,0x01F8F); + (0x01F98,0x01F9F); + (0x01FA8,0x01FAF); + (0x01FBC,0x01FBC); + (0x01FCC,0x01FCC) +] +(* Mark, Non-Spacing *) +let mn = [ + (0x00300,0x0036F); + (0x00483,0x00487); + (0x00591,0x005BD); + (0x005BF,0x005BF); + (0x005C1,0x005C2); + (0x005C4,0x005C5); + (0x005C7,0x005C7); + (0x00610,0x0061A); + (0x0064B,0x0065F); + (0x00670,0x00670); + (0x006D6,0x006DC); + (0x006DF,0x006E4); + (0x006E7,0x006E8); + (0x006EA,0x006ED); + (0x00711,0x00711); + (0x00730,0x0074A); + (0x007A6,0x007B0); + (0x007EB,0x007F3); + (0x00816,0x00819); + (0x0081B,0x00823); + (0x00825,0x00827); + (0x00829,0x0082D); + (0x00859,0x0085B); + (0x008D4,0x008E1); + (0x008E3,0x00902); + (0x0093A,0x0093A); + (0x0093C,0x0093C); + (0x00941,0x00948); + (0x0094D,0x0094D); + (0x00951,0x00957); + (0x00962,0x00963); + (0x00981,0x00981); + (0x009BC,0x009BC); + (0x009C1,0x009C4); + (0x009CD,0x009CD); + (0x009E2,0x009E3); + (0x00A01,0x00A02); + (0x00A3C,0x00A3C); + (0x00A41,0x00A42); + (0x00A47,0x00A48); + (0x00A4B,0x00A4D); + (0x00A51,0x00A51); + (0x00A70,0x00A71); + (0x00A75,0x00A75); + (0x00A81,0x00A82); + (0x00ABC,0x00ABC); + (0x00AC1,0x00AC5); + (0x00AC7,0x00AC8); + (0x00ACD,0x00ACD); + (0x00AE2,0x00AE3); + (0x00B01,0x00B01); + (0x00B3C,0x00B3C); + (0x00B3F,0x00B3F); + (0x00B41,0x00B44); + (0x00B4D,0x00B4D); + (0x00B56,0x00B56); + (0x00B62,0x00B63); + (0x00B82,0x00B82); + (0x00BC0,0x00BC0); + (0x00BCD,0x00BCD); + (0x00C00,0x00C00); + (0x00C3E,0x00C40); + (0x00C46,0x00C48); + (0x00C4A,0x00C4D); + (0x00C55,0x00C56); + (0x00C62,0x00C63); + (0x00C81,0x00C81); + (0x00CBC,0x00CBC); + (0x00CBF,0x00CBF); + (0x00CC6,0x00CC6); + (0x00CCC,0x00CCD); + (0x00CE2,0x00CE3); + (0x00D01,0x00D01); + (0x00D41,0x00D44); + (0x00D4D,0x00D4D); + (0x00D62,0x00D63); + (0x00DCA,0x00DCA); + (0x00DD2,0x00DD4); + (0x00DD6,0x00DD6); + (0x00E31,0x00E31); + (0x00E34,0x00E3A); + (0x00E47,0x00E4E); + (0x00EB1,0x00EB1); + (0x00EB4,0x00EB9); + (0x00EBB,0x00EBC); + (0x00EC8,0x00ECD); + (0x00F18,0x00F19); + (0x00F35,0x00F35); + (0x00F37,0x00F37); + (0x00F39,0x00F39); + (0x00F71,0x00F7E); + (0x00F80,0x00F84); + (0x00F86,0x00F87); + (0x00F8D,0x00F97); + (0x00F99,0x00FBC); + (0x00FC6,0x00FC6); + (0x0102D,0x01030); + (0x01032,0x01037); + (0x01039,0x0103A); + (0x0103D,0x0103E); + (0x01058,0x01059); + (0x0105E,0x01060); + (0x01071,0x01074); + (0x01082,0x01082); + (0x01085,0x01086); + (0x0108D,0x0108D); + (0x0109D,0x0109D); + (0x0135D,0x0135F); + (0x01712,0x01714); + (0x01732,0x01734); + (0x01752,0x01753); + (0x01772,0x01773); + (0x017B4,0x017B5); + (0x017B7,0x017BD); + (0x017C6,0x017C6); + (0x017C9,0x017D3); + (0x017DD,0x017DD); + (0x0180B,0x0180D); + (0x01885,0x01886); + (0x018A9,0x018A9); + (0x01920,0x01922); + (0x01927,0x01928); + (0x01932,0x01932); + (0x01939,0x0193B); + (0x01A17,0x01A18); + (0x01A1B,0x01A1B); + (0x01A56,0x01A56); + (0x01A58,0x01A5E); + (0x01A60,0x01A60); + (0x01A62,0x01A62); + (0x01A65,0x01A6C); + (0x01A73,0x01A7C); + (0x01A7F,0x01A7F); + (0x01AB0,0x01ABD); + (0x01B00,0x01B03); + (0x01B34,0x01B34); + (0x01B36,0x01B3A); + (0x01B3C,0x01B3C); + (0x01B42,0x01B42); + (0x01B6B,0x01B73); + (0x01B80,0x01B81); + (0x01BA2,0x01BA5); + (0x01BA8,0x01BA9); + (0x01BAB,0x01BAD); + (0x01BE6,0x01BE6); + (0x01BE8,0x01BE9); + (0x01BED,0x01BED); + (0x01BEF,0x01BF1); + (0x01C2C,0x01C33); + (0x01C36,0x01C37); + (0x01CD0,0x01CD2); + (0x01CD4,0x01CE0); + (0x01CE2,0x01CE8); + (0x01CED,0x01CED); + (0x01CF4,0x01CF4); + (0x01CF8,0x01CF9); + (0x01DC0,0x01DF5); + (0x01DFB,0x01DFF); + (0x020D0,0x020DC); + (0x020E1,0x020E1); + (0x020E5,0x020F0); + (0x02CEF,0x02CF1); + (0x02D7F,0x02D7F); + (0x02DE0,0x02DFF); + (0x0302A,0x0302D); + (0x03099,0x0309A); + (0x0A66F,0x0A66F); + (0x0A674,0x0A67D); + (0x0A69E,0x0A69F); + (0x0A6F0,0x0A6F1); + (0x0A802,0x0A802); + (0x0A806,0x0A806); + (0x0A80B,0x0A80B); + (0x0A825,0x0A826); + (0x0A8C4,0x0A8C5); + (0x0A8E0,0x0A8F1); + (0x0A926,0x0A92D); + (0x0A947,0x0A951); + (0x0A980,0x0A982); + (0x0A9B3,0x0A9B3); + (0x0A9B6,0x0A9B9); + (0x0A9BC,0x0A9BC); + (0x0A9E5,0x0A9E5); + (0x0AA29,0x0AA2E); + (0x0AA31,0x0AA32); + (0x0AA35,0x0AA36); + (0x0AA43,0x0AA43); + (0x0AA4C,0x0AA4C); + (0x0AA7C,0x0AA7C); + (0x0AAB0,0x0AAB0); + (0x0AAB2,0x0AAB4); + (0x0AAB7,0x0AAB8); + (0x0AABE,0x0AABF); + (0x0AAC1,0x0AAC1); + (0x0AAEC,0x0AAED); + (0x0AAF6,0x0AAF6); + (0x0ABE5,0x0ABE5); + (0x0ABE8,0x0ABE8); + (0x0ABED,0x0ABED); + (0x0FB1E,0x0FB1E); + (0x0FE00,0x0FE0F); + (0x0FE20,0x0FE2F); + (0x101FD,0x101FD); + (0x102E0,0x102E0); + (0x10376,0x1037A); + (0x10A01,0x10A03); + (0x10A05,0x10A06); + (0x10A0C,0x10A0F); + (0x10A38,0x10A3A); + (0x10A3F,0x10A3F); + (0x10AE5,0x10AE6); + (0x11001,0x11001); + (0x11038,0x11046); + (0x1107F,0x11081); + (0x110B3,0x110B6); + (0x110B9,0x110BA); + (0x11100,0x11102); + (0x11127,0x1112B); + (0x1112D,0x11134); + (0x11173,0x11173); + (0x11180,0x11181); + (0x111B6,0x111BE); + (0x111CA,0x111CC); + (0x1122F,0x11231); + (0x11234,0x11234); + (0x11236,0x11237); + (0x1123E,0x1123E); + (0x112DF,0x112DF); + (0x112E3,0x112EA); + (0x11300,0x11301); + (0x1133C,0x1133C); + (0x11340,0x11340); + (0x11366,0x1136C); + (0x11370,0x11374); + (0x11438,0x1143F); + (0x11442,0x11444); + (0x11446,0x11446); + (0x114B3,0x114B8); + (0x114BA,0x114BA); + (0x114BF,0x114C0); + (0x114C2,0x114C3); + (0x115B2,0x115B5); + (0x115BC,0x115BD); + (0x115BF,0x115C0); + (0x115DC,0x115DD); + (0x11633,0x1163A); + (0x1163D,0x1163D); + (0x1163F,0x11640); + (0x116AB,0x116AB); + (0x116AD,0x116AD); + (0x116B0,0x116B5); + (0x116B7,0x116B7); + (0x1171D,0x1171F); + (0x11722,0x11725); + (0x11727,0x1172B); + (0x11C30,0x11C36); + (0x11C38,0x11C3D); + (0x11C3F,0x11C3F); + (0x11C92,0x11CA7); + (0x11CAA,0x11CB0); + (0x11CB2,0x11CB3); + (0x11CB5,0x11CB6); + (0x16AF0,0x16AF4); + (0x16B30,0x16B36); + (0x16F8F,0x16F92); + (0x1BC9D,0x1BC9E); + (0x1D167,0x1D169); + (0x1D17B,0x1D182); + (0x1D185,0x1D18B); + (0x1D1AA,0x1D1AD); + (0x1D242,0x1D244); + (0x1DA00,0x1DA36); + (0x1DA3B,0x1DA6C); + (0x1DA75,0x1DA75); + (0x1DA84,0x1DA84); + (0x1DA9B,0x1DA9F); + (0x1DAA1,0x1DAAF); + (0x1E000,0x1E006); + (0x1E008,0x1E018); + (0x1E01B,0x1E021); + (0x1E023,0x1E024); + (0x1E026,0x1E02A); + (0x1E8D0,0x1E8D6); + (0x1E944,0x1E94A) +] +(* Mark, Spacing Combining *) +let mc = [ + (0x00903,0x00903); + (0x0093B,0x0093B); + (0x0093E,0x00940); + (0x00949,0x0094C); + (0x0094E,0x0094F); + (0x00982,0x00983); + (0x009BE,0x009C0); + (0x009C7,0x009C8); + (0x009CB,0x009CC); + (0x009D7,0x009D7); + (0x00A03,0x00A03); + (0x00A3E,0x00A40); + (0x00A83,0x00A83); + (0x00ABE,0x00AC0); + (0x00AC9,0x00AC9); + (0x00ACB,0x00ACC); + (0x00B02,0x00B03); + (0x00B3E,0x00B3E); + (0x00B40,0x00B40); + (0x00B47,0x00B48); + (0x00B4B,0x00B4C); + (0x00B57,0x00B57); + (0x00BBE,0x00BBF); + (0x00BC1,0x00BC2); + (0x00BC6,0x00BC8); + (0x00BCA,0x00BCC); + (0x00BD7,0x00BD7); + (0x00C01,0x00C03); + (0x00C41,0x00C44); + (0x00C82,0x00C83); + (0x00CBE,0x00CBE); + (0x00CC0,0x00CC4); + (0x00CC7,0x00CC8); + (0x00CCA,0x00CCB); + (0x00CD5,0x00CD6); + (0x00D02,0x00D03); + (0x00D3E,0x00D40); + (0x00D46,0x00D48); + (0x00D4A,0x00D4C); + (0x00D57,0x00D57); + (0x00D82,0x00D83); + (0x00DCF,0x00DD1); + (0x00DD8,0x00DDF); + (0x00DF2,0x00DF3); + (0x00F3E,0x00F3F); + (0x00F7F,0x00F7F); + (0x0102B,0x0102C); + (0x01031,0x01031); + (0x01038,0x01038); + (0x0103B,0x0103C); + (0x01056,0x01057); + (0x01062,0x01064); + (0x01067,0x0106D); + (0x01083,0x01084); + (0x01087,0x0108C); + (0x0108F,0x0108F); + (0x0109A,0x0109C); + (0x017B6,0x017B6); + (0x017BE,0x017C5); + (0x017C7,0x017C8); + (0x01923,0x01926); + (0x01929,0x0192B); + (0x01930,0x01931); + (0x01933,0x01938); + (0x01A19,0x01A1A); + (0x01A55,0x01A55); + (0x01A57,0x01A57); + (0x01A61,0x01A61); + (0x01A63,0x01A64); + (0x01A6D,0x01A72); + (0x01B04,0x01B04); + (0x01B35,0x01B35); + (0x01B3B,0x01B3B); + (0x01B3D,0x01B41); + (0x01B43,0x01B44); + (0x01B82,0x01B82); + (0x01BA1,0x01BA1); + (0x01BA6,0x01BA7); + (0x01BAA,0x01BAA); + (0x01BE7,0x01BE7); + (0x01BEA,0x01BEC); + (0x01BEE,0x01BEE); + (0x01BF2,0x01BF3); + (0x01C24,0x01C2B); + (0x01C34,0x01C35); + (0x01CE1,0x01CE1); + (0x01CF2,0x01CF3); + (0x0302E,0x0302F); + (0x0A823,0x0A824); + (0x0A827,0x0A827); + (0x0A880,0x0A881); + (0x0A8B4,0x0A8C3); + (0x0A952,0x0A953); + (0x0A983,0x0A983); + (0x0A9B4,0x0A9B5); + (0x0A9BA,0x0A9BB); + (0x0A9BD,0x0A9C0); + (0x0AA2F,0x0AA30); + (0x0AA33,0x0AA34); + (0x0AA4D,0x0AA4D); + (0x0AA7B,0x0AA7B); + (0x0AA7D,0x0AA7D); + (0x0AAEB,0x0AAEB); + (0x0AAEE,0x0AAEF); + (0x0AAF5,0x0AAF5); + (0x0ABE3,0x0ABE4); + (0x0ABE6,0x0ABE7); + (0x0ABE9,0x0ABEA); + (0x0ABEC,0x0ABEC); + (0x11000,0x11000); + (0x11002,0x11002); + (0x11082,0x11082); + (0x110B0,0x110B2); + (0x110B7,0x110B8); + (0x1112C,0x1112C); + (0x11182,0x11182); + (0x111B3,0x111B5); + (0x111BF,0x111C0); + (0x1122C,0x1122E); + (0x11232,0x11233); + (0x11235,0x11235); + (0x112E0,0x112E2); + (0x11302,0x11303); + (0x1133E,0x1133F); + (0x11341,0x11344); + (0x11347,0x11348); + (0x1134B,0x1134D); + (0x11357,0x11357); + (0x11362,0x11363); + (0x11435,0x11437); + (0x11440,0x11441); + (0x11445,0x11445); + (0x114B0,0x114B2); + (0x114B9,0x114B9); + (0x114BB,0x114BE); + (0x114C1,0x114C1); + (0x115AF,0x115B1); + (0x115B8,0x115BB); + (0x115BE,0x115BE); + (0x11630,0x11632); + (0x1163B,0x1163C); + (0x1163E,0x1163E); + (0x116AC,0x116AC); + (0x116AE,0x116AF); + (0x116B6,0x116B6); + (0x11720,0x11721); + (0x11726,0x11726); + (0x11C2F,0x11C2F); + (0x11C3E,0x11C3E); + (0x11CA9,0x11CA9); + (0x11CB1,0x11CB1); + (0x11CB4,0x11CB4); + (0x16F51,0x16F7E); + (0x1D165,0x1D166) +] +(* Mark, Enclosing *) +let me = [ + (0x00488,0x00489); + (0x01ABE,0x01ABE); + (0x020DD,0x020E0); + (0x020E2,0x020E4) +] +(* Number, Decimal Digit *) +let nd = [ + (0x00030,0x00039); + (0x00660,0x00669); + (0x006F0,0x006F9); + (0x007C0,0x007C9); + (0x00966,0x0096F); + (0x009E6,0x009EF); + (0x00A66,0x00A6F); + (0x00AE6,0x00AEF); + (0x00B66,0x00B6F); + (0x00BE6,0x00BEF); + (0x00C66,0x00C6F); + (0x00CE6,0x00CEF); + (0x00D66,0x00D6F); + (0x00DE6,0x00DEF); + (0x00E50,0x00E59); + (0x00ED0,0x00ED9); + (0x00F20,0x00F29); + (0x01040,0x01049); + (0x01090,0x01099); + (0x017E0,0x017E9); + (0x01810,0x01819); + (0x01946,0x0194F); + (0x019D0,0x019D9); + (0x01A80,0x01A89); + (0x01A90,0x01A99); + (0x01B50,0x01B59); + (0x01BB0,0x01BB9); + (0x01C40,0x01C49); + (0x01C50,0x01C59); + (0x0A620,0x0A629); + (0x0A8D0,0x0A8D9); + (0x0A900,0x0A909); + (0x0A9D0,0x0A9D9); + (0x0A9F0,0x0A9F9); + (0x0AA50,0x0AA59); + (0x0ABF0,0x0ABF9); + (0x0FF10,0x0FF19); + (0x104A0,0x104A9); + (0x11066,0x1106F); + (0x110F0,0x110F9); + (0x11136,0x1113F); + (0x111D0,0x111D9); + (0x112F0,0x112F9); + (0x11450,0x11459); + (0x114D0,0x114D9); + (0x11650,0x11659); + (0x116C0,0x116C9); + (0x11730,0x11739); + (0x118E0,0x118E9); + (0x11C50,0x11C59); + (0x16A60,0x16A69); + (0x16B50,0x16B59); + (0x1D7CE,0x1D7FF) +] +(* Number, Letter *) +let nl = [ + (0x016EE,0x016F0); + (0x02160,0x02182); + (0x02185,0x02188); + (0x03007,0x03007); + (0x03021,0x03029); + (0x03038,0x0303A); + (0x0A6E6,0x0A6EF); + (0x10140,0x10174); + (0x10341,0x10341); + (0x1034A,0x1034A); + (0x103D1,0x103D5) +] +(* Number, Other *) +let no = [ + (0x000B2,0x000B3); + (0x000B9,0x000B9); + (0x000BC,0x000BE); + (0x009F4,0x009F9); + (0x00B72,0x00B77); + (0x00BF0,0x00BF2); + (0x00C78,0x00C7E); + (0x00D58,0x00D5E); + (0x00D70,0x00D78); + (0x00F2A,0x00F33); + (0x01369,0x0137C); + (0x017F0,0x017F9); + (0x019DA,0x019DA); + (0x02070,0x02070); + (0x02074,0x02079); + (0x02080,0x02089); + (0x02150,0x0215F); + (0x02189,0x02189); + (0x02460,0x0249B); + (0x024EA,0x024FF); + (0x02776,0x02793); + (0x02CFD,0x02CFD); + (0x03192,0x03195); + (0x03220,0x03229); + (0x03248,0x0324F); + (0x03251,0x0325F); + (0x03280,0x03289); + (0x032B1,0x032BF); + (0x0A830,0x0A835); + (0x10107,0x10133); + (0x10175,0x10178); + (0x1018A,0x1018B); + (0x102E1,0x102FB); + (0x10320,0x10323); + (0x10858,0x1085F); + (0x10879,0x1087F); + (0x108A7,0x108AF); + (0x108FB,0x108FF); + (0x10916,0x1091B); + (0x109BC,0x109BD); + (0x109C0,0x109CF); + (0x109D2,0x109FF); + (0x10A40,0x10A47); + (0x10A7D,0x10A7E); + (0x10A9D,0x10A9F); + (0x10AEB,0x10AEF); + (0x10B58,0x10B5F); + (0x10B78,0x10B7F); + (0x10BA9,0x10BAF); + (0x10CFA,0x10CFF); + (0x10E60,0x10E7E); + (0x11052,0x11065); + (0x111E1,0x111F4); + (0x1173A,0x1173B); + (0x118EA,0x118F2); + (0x11C5A,0x11C6C); + (0x16B5B,0x16B61); + (0x1D360,0x1D371); + (0x1E8C7,0x1E8CF) +] +(* Separator, Space *) +let zs = [ + (0x00020,0x00020); + (0x000A0,0x000A0); + (0x01680,0x01680); + (0x02000,0x0200A); + (0x0202F,0x0202F); + (0x0205F,0x0205F) +] +(* Separator, Line *) +let zl = [ + +] +(* Separator, Paragraph *) +let zp = [ + +] +(* Other, Control *) +let cc = [ + (0x00000,0x0001F) +] +(* Other, Format *) +let cf = [ + (0x000AD,0x000AD); + (0x00600,0x00605); + (0x0061C,0x0061C); + (0x006DD,0x006DD); + (0x0070F,0x0070F); + (0x008E2,0x008E2); + (0x0180E,0x0180E); + (0x0200B,0x0200F); + (0x0202A,0x0202E); + (0x02060,0x02064); + (0x02066,0x0206F); + (0x0FEFF,0x0FEFF); + (0x0FFF9,0x0FFFB); + (0x110BD,0x110BD); + (0x1BCA0,0x1BCA3); + (0x1D173,0x1D17A); + (0xE0001,0xE0001) +] +(* Other, Surrogate *) +let cs = [ + +] +(* Other, Private Use *) +let co = [ + (0x0E000,0x0F8FF); + (0xF0000,0xFFFFD) +] +(* Other, Not Assigned *) +let cn = [ + (0x00378,0x00379); + (0x00380,0x00383); + (0x0038B,0x0038B); + (0x0038D,0x0038D); + (0x003A2,0x003A2); + (0x00530,0x00530); + (0x00557,0x00558); + (0x00560,0x00560); + (0x00588,0x00588); + (0x0058B,0x0058C); + (0x00590,0x00590); + (0x005C8,0x005CF); + (0x005EB,0x005EF); + (0x005F5,0x005FF); + (0x0061D,0x0061D); + (0x0070E,0x0070E); + (0x0074B,0x0074C); + (0x007B2,0x007BF); + (0x007FB,0x007FF); + (0x0082E,0x0082F); + (0x0083F,0x0083F); + (0x0085C,0x0085D); + (0x0085F,0x0089F); + (0x008B5,0x008B5); + (0x008BE,0x008D3); + (0x00984,0x00984); + (0x0098D,0x0098E); + (0x00991,0x00992); + (0x009A9,0x009A9); + (0x009B1,0x009B1); + (0x009B3,0x009B5); + (0x009BA,0x009BB); + (0x009C5,0x009C6); + (0x009C9,0x009CA); + (0x009CF,0x009D6); + (0x009D8,0x009DB); + (0x009DE,0x009DE); + (0x009E4,0x009E5); + (0x009FC,0x00A00); + (0x00A04,0x00A04); + (0x00A0B,0x00A0E); + (0x00A11,0x00A12); + (0x00A29,0x00A29); + (0x00A31,0x00A31); + (0x00A34,0x00A34); + (0x00A37,0x00A37); + (0x00A3A,0x00A3B); + (0x00A3D,0x00A3D); + (0x00A43,0x00A46); + (0x00A49,0x00A4A); + (0x00A4E,0x00A50); + (0x00A52,0x00A58); + (0x00A5D,0x00A5D); + (0x00A5F,0x00A65); + (0x00A76,0x00A80); + (0x00A84,0x00A84); + (0x00A8E,0x00A8E); + (0x00A92,0x00A92); + (0x00AA9,0x00AA9); + (0x00AB1,0x00AB1); + (0x00AB4,0x00AB4); + (0x00ABA,0x00ABB); + (0x00AC6,0x00AC6); + (0x00ACA,0x00ACA); + (0x00ACE,0x00ACF); + (0x00AD1,0x00ADF); + (0x00AE4,0x00AE5); + (0x00AF2,0x00AF8); + (0x00AFA,0x00B00); + (0x00B04,0x00B04); + (0x00B0D,0x00B0E); + (0x00B11,0x00B12); + (0x00B29,0x00B29); + (0x00B31,0x00B31); + (0x00B34,0x00B34); + (0x00B3A,0x00B3B); + (0x00B45,0x00B46); + (0x00B49,0x00B4A); + (0x00B4E,0x00B55); + (0x00B58,0x00B5B); + (0x00B5E,0x00B5E); + (0x00B64,0x00B65); + (0x00B78,0x00B81); + (0x00B84,0x00B84); + (0x00B8B,0x00B8D); + (0x00B91,0x00B91); + (0x00B96,0x00B98); + (0x00B9B,0x00B9B); + (0x00B9D,0x00B9D); + (0x00BA0,0x00BA2); + (0x00BA5,0x00BA7); + (0x00BAB,0x00BAD); + (0x00BBA,0x00BBD); + (0x00BC3,0x00BC5); + (0x00BC9,0x00BC9); + (0x00BCE,0x00BCF); + (0x00BD1,0x00BD6); + (0x00BD8,0x00BE5); + (0x00BFB,0x00BFF); + (0x00C04,0x00C04); + (0x00C0D,0x00C0D); + (0x00C11,0x00C11); + (0x00C29,0x00C29); + (0x00C3A,0x00C3C); + (0x00C45,0x00C45); + (0x00C49,0x00C49); + (0x00C4E,0x00C54); + (0x00C57,0x00C57); + (0x00C5B,0x00C5F); + (0x00C64,0x00C65); + (0x00C70,0x00C77); + (0x00C84,0x00C84); + (0x00C8D,0x00C8D); + (0x00C91,0x00C91); + (0x00CA9,0x00CA9); + (0x00CB4,0x00CB4); + (0x00CBA,0x00CBB); + (0x00CC5,0x00CC5); + (0x00CC9,0x00CC9); + (0x00CCE,0x00CD4); + (0x00CD7,0x00CDD); + (0x00CDF,0x00CDF); + (0x00CE4,0x00CE5); + (0x00CF0,0x00CF0); + (0x00CF3,0x00D00); + (0x00D04,0x00D04); + (0x00D0D,0x00D0D); + (0x00D11,0x00D11); + (0x00D3B,0x00D3C); + (0x00D45,0x00D45); + (0x00D49,0x00D49); + (0x00D50,0x00D53); + (0x00D64,0x00D65); + (0x00D80,0x00D81); + (0x00D84,0x00D84); + (0x00D97,0x00D99); + (0x00DB2,0x00DB2); + (0x00DBC,0x00DBC); + (0x00DBE,0x00DBF); + (0x00DC7,0x00DC9); + (0x00DCB,0x00DCE); + (0x00DD5,0x00DD5); + (0x00DD7,0x00DD7); + (0x00DE0,0x00DE5); + (0x00DF0,0x00DF1); + (0x00DF5,0x00E00); + (0x00E3B,0x00E3E); + (0x00E5C,0x00E80); + (0x00E83,0x00E83); + (0x00E85,0x00E86); + (0x00E89,0x00E89); + (0x00E8B,0x00E8C); + (0x00E8E,0x00E93); + (0x00E98,0x00E98); + (0x00EA0,0x00EA0); + (0x00EA4,0x00EA4); + (0x00EA6,0x00EA6); + (0x00EA8,0x00EA9); + (0x00EAC,0x00EAC); + (0x00EBA,0x00EBA); + (0x00EBE,0x00EBF); + (0x00EC5,0x00EC5); + (0x00EC7,0x00EC7); + (0x00ECE,0x00ECF); + (0x00EDA,0x00EDB); + (0x00EE0,0x00EFF); + (0x00F48,0x00F48); + (0x00F6D,0x00F70); + (0x00F98,0x00F98); + (0x00FBD,0x00FBD); + (0x00FCD,0x00FCD); + (0x00FDB,0x00FFF); + (0x010C6,0x010C6); + (0x010C8,0x010CC); + (0x010CE,0x010CF); + (0x01249,0x01249); + (0x0124E,0x0124F); + (0x01257,0x01257); + (0x01259,0x01259); + (0x0125E,0x0125F); + (0x01289,0x01289); + (0x0128E,0x0128F); + (0x012B1,0x012B1); + (0x012B6,0x012B7); + (0x012BF,0x012BF); + (0x012C1,0x012C1); + (0x012C6,0x012C7); + (0x012D7,0x012D7); + (0x01311,0x01311); + (0x01316,0x01317); + (0x0135B,0x0135C); + (0x0137D,0x0137F); + (0x0139A,0x0139F); + (0x013F6,0x013F7); + (0x013FE,0x013FF); + (0x0169D,0x0169F); + (0x016F9,0x016FF); + (0x0170D,0x0170D); + (0x01715,0x0171F); + (0x01737,0x0173F); + (0x01754,0x0175F); + (0x0176D,0x0176D); + (0x01771,0x01771); + (0x01774,0x0177F); + (0x017DE,0x017DF); + (0x017EA,0x017EF); + (0x017FA,0x017FF); + (0x0180F,0x0180F); + (0x0181A,0x0181F); + (0x01878,0x0187F); + (0x018AB,0x018AF); + (0x018F6,0x018FF); + (0x0191F,0x0191F); + (0x0192C,0x0192F); + (0x0193C,0x0193F); + (0x01941,0x01943); + (0x0196E,0x0196F); + (0x01975,0x0197F); + (0x019AC,0x019AF); + (0x019CA,0x019CF); + (0x019DB,0x019DD); + (0x01A1C,0x01A1D); + (0x01A5F,0x01A5F); + (0x01A7D,0x01A7E); + (0x01A8A,0x01A8F); + (0x01A9A,0x01A9F); + (0x01AAE,0x01AAF); + (0x01ABF,0x01AFF); + (0x01B4C,0x01B4F); + (0x01B7D,0x01B7F); + (0x01BF4,0x01BFB); + (0x01C38,0x01C3A); + (0x01C4A,0x01C4C); + (0x01C89,0x01CBF); + (0x01CC8,0x01CCF); + (0x01CF7,0x01CF7); + (0x01CFA,0x01CFF); + (0x01DF6,0x01DFA); + (0x01F16,0x01F17); + (0x01F1E,0x01F1F); + (0x01F46,0x01F47); + (0x01F4E,0x01F4F); + (0x01F58,0x01F58); + (0x01F5A,0x01F5A); + (0x01F5C,0x01F5C); + (0x01F5E,0x01F5E); + (0x01F7E,0x01F7F); + (0x01FB5,0x01FB5); + (0x01FC5,0x01FC5); + (0x01FD4,0x01FD5); + (0x01FDC,0x01FDC); + (0x01FF0,0x01FF1); + (0x01FF5,0x01FF5); + (0x01FFF,0x01FFF); + (0x02065,0x02065); + (0x02072,0x02073); + (0x0208F,0x0208F); + (0x0209D,0x0209F); + (0x020BF,0x020CF); + (0x020F1,0x020FF); + (0x0218C,0x0218F); + (0x023FF,0x023FF); + (0x02427,0x0243F); + (0x0244B,0x0245F); + (0x02B74,0x02B75); + (0x02B96,0x02B97); + (0x02BBA,0x02BBC); + (0x02BC9,0x02BC9); + (0x02BD2,0x02BEB); + (0x02BF0,0x02BFF); + (0x02C2F,0x02C2F); + (0x02C5F,0x02C5F); + (0x02CF4,0x02CF8); + (0x02D26,0x02D26); + (0x02D28,0x02D2C); + (0x02D2E,0x02D2F); + (0x02D68,0x02D6E); + (0x02D71,0x02D7E); + (0x02D97,0x02D9F); + (0x02DA7,0x02DA7); + (0x02DAF,0x02DAF); + (0x02DB7,0x02DB7); + (0x02DBF,0x02DBF); + (0x02DC7,0x02DC7); + (0x02DCF,0x02DCF); + (0x02DD7,0x02DD7); + (0x02DDF,0x02DDF); + (0x02E45,0x02E7F); + (0x02E9A,0x02E9A); + (0x02EF4,0x02EFF); + (0x02FD6,0x02FEF); + (0x02FFC,0x02FFF); + (0x03040,0x03040); + (0x03097,0x03098); + (0x03100,0x03104); + (0x0312E,0x03130); + (0x0318F,0x0318F); + (0x031BB,0x031BF); + (0x031E4,0x031EF); + (0x0321F,0x0321F); + (0x032FF,0x032FF); + (0x04DB6,0x04DBF); + (0x09FD6,0x09FFF); + (0x0A48D,0x0A48F); + (0x0A4C7,0x0A4CF); + (0x0A62C,0x0A63F); + (0x0A6F8,0x0A6FF); + (0x0A7AF,0x0A7AF); + (0x0A7B8,0x0A7F6); + (0x0A82C,0x0A82F); + (0x0A83A,0x0A83F); + (0x0A878,0x0A87F); + (0x0A8C6,0x0A8CD); + (0x0A8DA,0x0A8DF); + (0x0A8FE,0x0A8FF); + (0x0A954,0x0A95E); + (0x0A97D,0x0A97F); + (0x0A9CE,0x0A9CE); + (0x0A9DA,0x0A9DD); + (0x0A9FF,0x0A9FF); + (0x0AA37,0x0AA3F); + (0x0AA4E,0x0AA4F); + (0x0AA5A,0x0AA5B); + (0x0AAC3,0x0AADA); + (0x0AAF7,0x0AB00); + (0x0AB07,0x0AB08); + (0x0AB0F,0x0AB10); + (0x0AB17,0x0AB1F); + (0x0AB27,0x0AB27); + (0x0AB2F,0x0AB2F); + (0x0AB66,0x0AB6F); + (0x0ABEE,0x0ABEF); + (0x0ABFA,0x0ABFF); + (0x0D7A4,0x0D7AF); + (0x0D7C7,0x0D7CA); + (0x0D7FC,0x0D7FF); + (0x0FA6E,0x0FA6F); + (0x0FADA,0x0FAFF); + (0x0FB07,0x0FB12); + (0x0FB18,0x0FB1C); + (0x0FB37,0x0FB37); + (0x0FB3D,0x0FB3D); + (0x0FB3F,0x0FB3F); + (0x0FB42,0x0FB42); + (0x0FB45,0x0FB45); + (0x0FBC2,0x0FBD2); + (0x0FD40,0x0FD4F); + (0x0FD90,0x0FD91); + (0x0FDC8,0x0FDEF); + (0x0FDFE,0x0FDFF); + (0x0FE1A,0x0FE1F); + (0x0FE53,0x0FE53); + (0x0FE67,0x0FE67); + (0x0FE6C,0x0FE6F); + (0x0FE75,0x0FE75); + (0x0FEFD,0x0FEFE); + (0x0FF00,0x0FF00); + (0x0FFBF,0x0FFC1); + (0x0FFC8,0x0FFC9); + (0x0FFD0,0x0FFD1); + (0x0FFD8,0x0FFD9); + (0x0FFDD,0x0FFDF); + (0x0FFE7,0x0FFE7); + (0x0FFEF,0x0FFF8); + (0x0FFFE,0x0FFFF); + (0x1000C,0x1000C); + (0x10027,0x10027); + (0x1003B,0x1003B); + (0x1003E,0x1003E); + (0x1004E,0x1004F); + (0x1005E,0x1007F); + (0x100FB,0x100FF); + (0x10103,0x10106); + (0x10134,0x10136); + (0x1018F,0x1018F); + (0x1019C,0x1019F); + (0x101A1,0x101CF); + (0x101FE,0x1027F); + (0x1029D,0x1029F); + (0x102D1,0x102DF); + (0x102FC,0x102FF); + (0x10324,0x1032F); + (0x1034B,0x1034F); + (0x1037B,0x1037F); + (0x1039E,0x1039E); + (0x103C4,0x103C7); + (0x103D6,0x103FF); + (0x1049E,0x1049F); + (0x104AA,0x104AF); + (0x104D4,0x104D7); + (0x104FC,0x104FF); + (0x10528,0x1052F); + (0x10564,0x1056E); + (0x10570,0x105FF); + (0x10737,0x1073F); + (0x10756,0x1075F); + (0x10768,0x107FF); + (0x10806,0x10807); + (0x10809,0x10809); + (0x10836,0x10836); + (0x10839,0x1083B); + (0x1083D,0x1083E); + (0x10856,0x10856); + (0x1089F,0x108A6); + (0x108B0,0x108DF); + (0x108F3,0x108F3); + (0x108F6,0x108FA); + (0x1091C,0x1091E); + (0x1093A,0x1093E); + (0x10940,0x1097F); + (0x109B8,0x109BB); + (0x109D0,0x109D1); + (0x10A04,0x10A04); + (0x10A07,0x10A0B); + (0x10A14,0x10A14); + (0x10A18,0x10A18); + (0x10A34,0x10A37); + (0x10A3B,0x10A3E); + (0x10A48,0x10A4F); + (0x10A59,0x10A5F); + (0x10AA0,0x10ABF); + (0x10AE7,0x10AEA); + (0x10AF7,0x10AFF); + (0x10B36,0x10B38); + (0x10B56,0x10B57); + (0x10B73,0x10B77); + (0x10B92,0x10B98); + (0x10B9D,0x10BA8); + (0x10BB0,0x10BFF); + (0x10C49,0x10C7F); + (0x10CB3,0x10CBF); + (0x10CF3,0x10CF9); + (0x10D00,0x10E5F); + (0x10E7F,0x10FFF); + (0x1104E,0x11051); + (0x11070,0x1107E); + (0x110C2,0x110CF); + (0x110E9,0x110EF); + (0x110FA,0x110FF); + (0x11135,0x11135); + (0x11144,0x1114F); + (0x11177,0x1117F); + (0x111CE,0x111CF); + (0x111E0,0x111E0); + (0x111F5,0x111FF); + (0x11212,0x11212); + (0x1123F,0x1127F); + (0x11287,0x11287); + (0x11289,0x11289); + (0x1128E,0x1128E); + (0x1129E,0x1129E); + (0x112AA,0x112AF); + (0x112EB,0x112EF); + (0x112FA,0x112FF); + (0x11304,0x11304); + (0x1130D,0x1130E); + (0x11311,0x11312); + (0x11329,0x11329); + (0x11331,0x11331); + (0x11334,0x11334); + (0x1133A,0x1133B); + (0x11345,0x11346); + (0x11349,0x1134A); + (0x1134E,0x1134F); + (0x11351,0x11356); + (0x11358,0x1135C); + (0x11364,0x11365); + (0x1136D,0x1136F); + (0x11375,0x113FF); + (0x1145A,0x1145A); + (0x1145C,0x1145C); + (0x1145E,0x1147F); + (0x114C8,0x114CF); + (0x114DA,0x1157F); + (0x115B6,0x115B7); + (0x115DE,0x115FF); + (0x11645,0x1164F); + (0x1165A,0x1165F); + (0x1166D,0x1167F); + (0x116B8,0x116BF); + (0x116CA,0x116FF); + (0x1171A,0x1171C); + (0x1172C,0x1172F); + (0x11740,0x1189F); + (0x118F3,0x118FE); + (0x11900,0x11ABF); + (0x11AF9,0x11BFF); + (0x11C09,0x11C09); + (0x11C37,0x11C37); + (0x11C46,0x11C4F); + (0x11C6D,0x11C6F); + (0x11C90,0x11C91); + (0x11CA8,0x11CA8); + (0x11CB7,0x11FFF); + (0x1239A,0x123FF); + (0x1246F,0x1246F); + (0x12475,0x1247F); + (0x12544,0x12FFF); + (0x1342F,0x143FF); + (0x14647,0x167FF); + (0x16A39,0x16A3F); + (0x16A5F,0x16A5F); + (0x16A6A,0x16A6D); + (0x16A70,0x16ACF); + (0x16AEE,0x16AEF); + (0x16AF6,0x16AFF); + (0x16B46,0x16B4F); + (0x16B5A,0x16B5A); + (0x16B62,0x16B62); + (0x16B78,0x16B7C); + (0x16B90,0x16EFF); + (0x16F45,0x16F4F); + (0x16F7F,0x16F8E); + (0x16FA0,0x16FDF); + (0x16FE1,0x16FFF); + (0x187ED,0x187FF); + (0x18AF3,0x1AFFF); + (0x1B002,0x1BBFF); + (0x1BC6B,0x1BC6F); + (0x1BC7D,0x1BC7F); + (0x1BC89,0x1BC8F); + (0x1BC9A,0x1BC9B); + (0x1BCA4,0x1CFFF); + (0x1D0F6,0x1D0FF); + (0x1D127,0x1D128); + (0x1D1E9,0x1D1FF); + (0x1D246,0x1D2FF); + (0x1D357,0x1D35F); + (0x1D372,0x1D3FF); + (0x1D455,0x1D455); + (0x1D49D,0x1D49D); + (0x1D4A0,0x1D4A1); + (0x1D4A3,0x1D4A4); + (0x1D4A7,0x1D4A8); + (0x1D4AD,0x1D4AD); + (0x1D4BA,0x1D4BA); + (0x1D4BC,0x1D4BC); + (0x1D4C4,0x1D4C4); + (0x1D506,0x1D506); + (0x1D50B,0x1D50C); + (0x1D515,0x1D515); + (0x1D51D,0x1D51D); + (0x1D53A,0x1D53A); + (0x1D53F,0x1D53F); + (0x1D545,0x1D545); + (0x1D547,0x1D549); + (0x1D551,0x1D551); + (0x1D6A6,0x1D6A7); + (0x1D7CC,0x1D7CD); + (0x1DA8C,0x1DA9A); + (0x1DAA0,0x1DAA0); + (0x1DAB0,0x1DFFF); + (0x1E007,0x1E007); + (0x1E019,0x1E01A); + (0x1E022,0x1E022); + (0x1E025,0x1E025); + (0x1E02B,0x1E7FF); + (0x1E8C5,0x1E8C6); + (0x1E8D7,0x1E8FF); + (0x1E94B,0x1E94F); + (0x1E95A,0x1E95D); + (0x1E960,0x1EDFF); + (0x1EE04,0x1EE04); + (0x1EE20,0x1EE20); + (0x1EE23,0x1EE23); + (0x1EE25,0x1EE26); + (0x1EE28,0x1EE28); + (0x1EE33,0x1EE33); + (0x1EE38,0x1EE38); + (0x1EE3A,0x1EE3A); + (0x1EE3C,0x1EE41); + (0x1EE43,0x1EE46); + (0x1EE48,0x1EE48); + (0x1EE4A,0x1EE4A); + (0x1EE4C,0x1EE4C); + (0x1EE50,0x1EE50); + (0x1EE53,0x1EE53); + (0x1EE55,0x1EE56); + (0x1EE58,0x1EE58); + (0x1EE5A,0x1EE5A); + (0x1EE5C,0x1EE5C); + (0x1EE5E,0x1EE5E); + (0x1EE60,0x1EE60); + (0x1EE63,0x1EE63); + (0x1EE65,0x1EE66); + (0x1EE6B,0x1EE6B); + (0x1EE73,0x1EE73); + (0x1EE78,0x1EE78); + (0x1EE7D,0x1EE7D); + (0x1EE7F,0x1EE7F); + (0x1EE8A,0x1EE8A); + (0x1EE9C,0x1EEA0); + (0x1EEA4,0x1EEA4); + (0x1EEAA,0x1EEAA); + (0x1EEBC,0x1EEEF); + (0x1EEF2,0x1EFFF); + (0x1F02C,0x1F02F); + (0x1F094,0x1F09F); + (0x1F0AF,0x1F0B0); + (0x1F0C0,0x1F0C0); + (0x1F0D0,0x1F0D0); + (0x1F0F6,0x1F0FF); + (0x1F10D,0x1F10F); + (0x1F12F,0x1F12F); + (0x1F16C,0x1F16F); + (0x1F1AD,0x1F1E5); + (0x1F203,0x1F20F); + (0x1F23C,0x1F23F); + (0x1F249,0x1F24F); + (0x1F252,0x1F2FF); + (0x1F6D3,0x1F6DF); + (0x1F6ED,0x1F6EF); + (0x1F6F7,0x1F6FF); + (0x1F774,0x1F77F); + (0x1F7D5,0x1F7FF); + (0x1F80C,0x1F80F); + (0x1F848,0x1F84F); + (0x1F85A,0x1F85F); + (0x1F888,0x1F88F); + (0x1F8AE,0x1F90F); + (0x1F91F,0x1F91F); + (0x1F928,0x1F92F); + (0x1F931,0x1F932); + (0x1F93F,0x1F93F); + (0x1F94C,0x1F94F); + (0x1F95F,0x1F97F); + (0x1F992,0x1F9BF); + (0x1F9C1,0x1FFFF); + (0x2A6D7,0x2A6FF); + (0x2B735,0x2B73F); + (0x2B81E,0x2B81F); + (0x2CEA2,0x2F7FF); + (0x2FA1E,0xE0000); + (0xE0002,0xE001F); + (0xE0080,0xE00FF); + (0xE01F0,0xEFFFF); + (0xFFFFE,0xFFFFF) +] +(* Letter, Modifier *) +let lm = [ + (0x002B0,0x002C1); + (0x002C6,0x002D1); + (0x002E0,0x002E4); + (0x002EC,0x002EC); + (0x002EE,0x002EE); + (0x00374,0x00374); + (0x0037A,0x0037A); + (0x00559,0x00559); + (0x00640,0x00640); + (0x006E5,0x006E6); + (0x007F4,0x007F5); + (0x007FA,0x007FA); + (0x0081A,0x0081A); + (0x00824,0x00824); + (0x00828,0x00828); + (0x00971,0x00971); + (0x00E46,0x00E46); + (0x00EC6,0x00EC6); + (0x010FC,0x010FC); + (0x017D7,0x017D7); + (0x01843,0x01843); + (0x01AA7,0x01AA7); + (0x01C78,0x01C7D); + (0x01D2C,0x01D6A); + (0x01D78,0x01D78); + (0x01D9B,0x01DBF); + (0x02071,0x02071); + (0x0207F,0x0207F); + (0x02090,0x0209C); + (0x02C7C,0x02C7D); + (0x02D6F,0x02D6F); + (0x02E2F,0x02E2F); + (0x03005,0x03005); + (0x03031,0x03035); + (0x0303B,0x0303B); + (0x0309D,0x0309E); + (0x030FC,0x030FE); + (0x0A015,0x0A015); + (0x0A4F8,0x0A4FD); + (0x0A60C,0x0A60C); + (0x0A67F,0x0A67F); + (0x0A69C,0x0A69D); + (0x0A717,0x0A71F); + (0x0A770,0x0A770); + (0x0A788,0x0A788); + (0x0A7F8,0x0A7F9); + (0x0A9CF,0x0A9CF); + (0x0A9E6,0x0A9E6); + (0x0AA70,0x0AA70); + (0x0AADD,0x0AADD); + (0x0AAF3,0x0AAF4); + (0x0AB5C,0x0AB5F); + (0x0FF70,0x0FF70); + (0x0FF9E,0x0FF9F); + (0x16B40,0x16B43); + (0x16F93,0x16F9F) +] +(* Letter, Other *) +let lo = [ + (0x000AA,0x000AA); + (0x000BA,0x000BA); + (0x001BB,0x001BB); + (0x001C0,0x001C3); + (0x00294,0x00294); + (0x005D0,0x005EA); + (0x005F0,0x005F2); + (0x00620,0x0063F); + (0x00641,0x0064A); + (0x0066E,0x0066F); + (0x00671,0x006D3); + (0x006D5,0x006D5); + (0x006EE,0x006EF); + (0x006FA,0x006FC); + (0x006FF,0x006FF); + (0x00710,0x00710); + (0x00712,0x0072F); + (0x0074D,0x007A5); + (0x007B1,0x007B1); + (0x007CA,0x007EA); + (0x00800,0x00815); + (0x00840,0x00858); + (0x008A0,0x008B4); + (0x008B6,0x008BD); + (0x00904,0x00939); + (0x0093D,0x0093D); + (0x00950,0x00950); + (0x00958,0x00961); + (0x00972,0x00980); + (0x00985,0x0098C); + (0x0098F,0x00990); + (0x00993,0x009A8); + (0x009AA,0x009B0); + (0x009B2,0x009B2); + (0x009B6,0x009B9); + (0x009BD,0x009BD); + (0x009CE,0x009CE); + (0x009DC,0x009DD); + (0x009DF,0x009E1); + (0x009F0,0x009F1); + (0x00A05,0x00A0A); + (0x00A0F,0x00A10); + (0x00A13,0x00A28); + (0x00A2A,0x00A30); + (0x00A32,0x00A33); + (0x00A35,0x00A36); + (0x00A38,0x00A39); + (0x00A59,0x00A5C); + (0x00A5E,0x00A5E); + (0x00A72,0x00A74); + (0x00A85,0x00A8D); + (0x00A8F,0x00A91); + (0x00A93,0x00AA8); + (0x00AAA,0x00AB0); + (0x00AB2,0x00AB3); + (0x00AB5,0x00AB9); + (0x00ABD,0x00ABD); + (0x00AD0,0x00AD0); + (0x00AE0,0x00AE1); + (0x00AF9,0x00AF9); + (0x00B05,0x00B0C); + (0x00B0F,0x00B10); + (0x00B13,0x00B28); + (0x00B2A,0x00B30); + (0x00B32,0x00B33); + (0x00B35,0x00B39); + (0x00B3D,0x00B3D); + (0x00B5C,0x00B5D); + (0x00B5F,0x00B61); + (0x00B71,0x00B71); + (0x00B83,0x00B83); + (0x00B85,0x00B8A); + (0x00B8E,0x00B90); + (0x00B92,0x00B95); + (0x00B99,0x00B9A); + (0x00B9C,0x00B9C); + (0x00B9E,0x00B9F); + (0x00BA3,0x00BA4); + (0x00BA8,0x00BAA); + (0x00BAE,0x00BB9); + (0x00BD0,0x00BD0); + (0x00C05,0x00C0C); + (0x00C0E,0x00C10); + (0x00C12,0x00C28); + (0x00C2A,0x00C39); + (0x00C3D,0x00C3D); + (0x00C58,0x00C5A); + (0x00C60,0x00C61); + (0x00C80,0x00C80); + (0x00C85,0x00C8C); + (0x00C8E,0x00C90); + (0x00C92,0x00CA8); + (0x00CAA,0x00CB3); + (0x00CB5,0x00CB9); + (0x00CBD,0x00CBD); + (0x00CDE,0x00CDE); + (0x00CE0,0x00CE1); + (0x00CF1,0x00CF2); + (0x00D05,0x00D0C); + (0x00D0E,0x00D10); + (0x00D12,0x00D3A); + (0x00D3D,0x00D3D); + (0x00D4E,0x00D4E); + (0x00D54,0x00D56); + (0x00D5F,0x00D61); + (0x00D7A,0x00D7F); + (0x00D85,0x00D96); + (0x00D9A,0x00DB1); + (0x00DB3,0x00DBB); + (0x00DBD,0x00DBD); + (0x00DC0,0x00DC6); + (0x00E01,0x00E30); + (0x00E32,0x00E33); + (0x00E40,0x00E45); + (0x00E81,0x00E82); + (0x00E84,0x00E84); + (0x00E87,0x00E88); + (0x00E8A,0x00E8A); + (0x00E8D,0x00E8D); + (0x00E94,0x00E97); + (0x00E99,0x00E9F); + (0x00EA1,0x00EA3); + (0x00EA5,0x00EA5); + (0x00EA7,0x00EA7); + (0x00EAA,0x00EAB); + (0x00EAD,0x00EB0); + (0x00EB2,0x00EB3); + (0x00EBD,0x00EBD); + (0x00EC0,0x00EC4); + (0x00EDC,0x00EDF); + (0x00F00,0x00F00); + (0x00F40,0x00F47); + (0x00F49,0x00F6C); + (0x00F88,0x00F8C); + (0x01000,0x0102A); + (0x0103F,0x0103F); + (0x01050,0x01055); + (0x0105A,0x0105D); + (0x01061,0x01061); + (0x01065,0x01066); + (0x0106E,0x01070); + (0x01075,0x01081); + (0x0108E,0x0108E); + (0x010D0,0x010FA); + (0x010FD,0x01248); + (0x0124A,0x0124D); + (0x01250,0x01256); + (0x01258,0x01258); + (0x0125A,0x0125D); + (0x01260,0x01288); + (0x0128A,0x0128D); + (0x01290,0x012B0); + (0x012B2,0x012B5); + (0x012B8,0x012BE); + (0x012C0,0x012C0); + (0x012C2,0x012C5); + (0x012C8,0x012D6); + (0x012D8,0x01310); + (0x01312,0x01315); + (0x01318,0x0135A); + (0x01380,0x0138F); + (0x01401,0x0166C); + (0x0166F,0x0167F); + (0x01681,0x0169A); + (0x016A0,0x016EA); + (0x016F1,0x016F8); + (0x01700,0x0170C); + (0x0170E,0x01711); + (0x01720,0x01731); + (0x01740,0x01751); + (0x01760,0x0176C); + (0x0176E,0x01770); + (0x01780,0x017B3); + (0x017DC,0x017DC); + (0x01820,0x01842); + (0x01844,0x01877); + (0x01880,0x01884); + (0x01887,0x018A8); + (0x018AA,0x018AA); + (0x018B0,0x018F5); + (0x01900,0x0191E); + (0x01950,0x0196D); + (0x01970,0x01974); + (0x01980,0x019AB); + (0x019B0,0x019C9); + (0x01A00,0x01A16); + (0x01A20,0x01A54); + (0x01B05,0x01B33); + (0x01B45,0x01B4B); + (0x01B83,0x01BA0); + (0x01BAE,0x01BAF); + (0x01BBA,0x01BE5); + (0x01C00,0x01C23); + (0x01C4D,0x01C4F); + (0x01C5A,0x01C77); + (0x01CE9,0x01CEC); + (0x01CEE,0x01CF1); + (0x01CF5,0x01CF6); + (0x02135,0x02138); + (0x02D30,0x02D67); + (0x02D80,0x02D96); + (0x02DA0,0x02DA6); + (0x02DA8,0x02DAE); + (0x02DB0,0x02DB6); + (0x02DB8,0x02DBE); + (0x02DC0,0x02DC6); + (0x02DC8,0x02DCE); + (0x02DD0,0x02DD6); + (0x02DD8,0x02DDE); + (0x03006,0x03006); + (0x0303C,0x0303C); + (0x03041,0x03096); + (0x0309F,0x0309F); + (0x030A1,0x030FA); + (0x030FF,0x030FF); + (0x03105,0x0312D); + (0x03131,0x0318E); + (0x031A0,0x031BA); + (0x031F0,0x031FF); + (0x03400,0x04DB5); + (0x04E00,0x09FD5); + (0x0A000,0x0A014); + (0x0A016,0x0A48C); + (0x0A4D0,0x0A4F7); + (0x0A500,0x0A60B); + (0x0A610,0x0A61F); + (0x0A62A,0x0A62B); + (0x0A66E,0x0A66E); + (0x0A6A0,0x0A6E5); + (0x0A78F,0x0A78F); + (0x0A7F7,0x0A7F7); + (0x0A7FB,0x0A801); + (0x0A803,0x0A805); + (0x0A807,0x0A80A); + (0x0A80C,0x0A822); + (0x0A840,0x0A873); + (0x0A882,0x0A8B3); + (0x0A8F2,0x0A8F7); + (0x0A8FB,0x0A8FB); + (0x0A8FD,0x0A8FD); + (0x0A90A,0x0A925); + (0x0A930,0x0A946); + (0x0A960,0x0A97C); + (0x0A984,0x0A9B2); + (0x0A9E0,0x0A9E4); + (0x0A9E7,0x0A9EF); + (0x0A9FA,0x0A9FE); + (0x0AA00,0x0AA28); + (0x0AA40,0x0AA42); + (0x0AA44,0x0AA4B); + (0x0AA60,0x0AA6F); + (0x0AA71,0x0AA76); + (0x0AA7A,0x0AA7A); + (0x0AA7E,0x0AAAF); + (0x0AAB1,0x0AAB1); + (0x0AAB5,0x0AAB6); + (0x0AAB9,0x0AABD); + (0x0AAC0,0x0AAC0); + (0x0AAC2,0x0AAC2); + (0x0AADB,0x0AADC); + (0x0AAE0,0x0AAEA); + (0x0AAF2,0x0AAF2); + (0x0AB01,0x0AB06); + (0x0AB09,0x0AB0E); + (0x0AB11,0x0AB16); + (0x0AB20,0x0AB26); + (0x0AB28,0x0AB2E); + (0x0ABC0,0x0ABE2); + (0x0AC00,0x0D7A3); + (0x0D7B0,0x0D7C6); + (0x0D7CB,0x0D7FB); + (0x0F900,0x0FA6D); + (0x0FA70,0x0FAD9); + (0x0FB1D,0x0FB1D); + (0x0FB1F,0x0FB28); + (0x0FB2A,0x0FB36); + (0x0FB38,0x0FB3C); + (0x0FB3E,0x0FB3E); + (0x0FB40,0x0FB41); + (0x0FB43,0x0FB44); + (0x0FB46,0x0FBB1); + (0x0FBD3,0x0FD3D); + (0x0FD50,0x0FD8F); + (0x0FD92,0x0FDC7); + (0x0FDF0,0x0FDFB); + (0x0FE70,0x0FE74); + (0x0FE76,0x0FEFC); + (0x0FF66,0x0FF6F); + (0x0FF71,0x0FF9D); + (0x0FFA0,0x0FFBE); + (0x0FFC2,0x0FFC7); + (0x0FFCA,0x0FFCF); + (0x0FFD2,0x0FFD7); + (0x0FFDA,0x0FFDC); + (0x10000,0x1000B); + (0x1000D,0x10026); + (0x10028,0x1003A); + (0x1003C,0x1003D); + (0x1003F,0x1004D); + (0x10050,0x1005D); + (0x10080,0x100FA); + (0x10280,0x1029C); + (0x102A0,0x102D0); + (0x10300,0x1031F); + (0x10330,0x10340); + (0x10342,0x10349); + (0x10350,0x10375); + (0x10380,0x1039D); + (0x103A0,0x103C3); + (0x103C8,0x103CF); + (0x10450,0x1049D); + (0x10500,0x10527); + (0x10530,0x10563); + (0x10600,0x10736); + (0x10740,0x10755); + (0x10760,0x10767); + (0x10800,0x10805); + (0x10808,0x10808); + (0x1080A,0x10835); + (0x10837,0x10838); + (0x1083C,0x1083C); + (0x1083F,0x10855); + (0x10860,0x10876); + (0x10880,0x1089E); + (0x108E0,0x108F2); + (0x108F4,0x108F5); + (0x10900,0x10915); + (0x10920,0x10939); + (0x10980,0x109B7); + (0x109BE,0x109BF); + (0x10A00,0x10A00); + (0x10A10,0x10A13); + (0x10A15,0x10A17); + (0x10A19,0x10A33); + (0x10A60,0x10A7C); + (0x10A80,0x10A9C); + (0x10AC0,0x10AC7); + (0x10AC9,0x10AE4); + (0x10B00,0x10B35); + (0x10B40,0x10B55); + (0x10B60,0x10B72); + (0x10B80,0x10B91); + (0x10C00,0x10C48); + (0x11003,0x11037); + (0x11083,0x110AF); + (0x110D0,0x110E8); + (0x11103,0x11126); + (0x11150,0x11172); + (0x11176,0x11176); + (0x11183,0x111B2); + (0x111C1,0x111C4); + (0x111DA,0x111DA); + (0x111DC,0x111DC); + (0x11200,0x11211); + (0x11213,0x1122B); + (0x11280,0x11286); + (0x11288,0x11288); + (0x1128A,0x1128D); + (0x1128F,0x1129D); + (0x1129F,0x112A8); + (0x112B0,0x112DE); + (0x11305,0x1130C); + (0x1130F,0x11310); + (0x11313,0x11328); + (0x1132A,0x11330); + (0x11332,0x11333); + (0x11335,0x11339); + (0x1133D,0x1133D); + (0x11350,0x11350); + (0x1135D,0x11361); + (0x11400,0x11434); + (0x11447,0x1144A); + (0x11480,0x114AF); + (0x114C4,0x114C5); + (0x114C7,0x114C7); + (0x11580,0x115AE); + (0x115D8,0x115DB); + (0x11600,0x1162F); + (0x11644,0x11644); + (0x11680,0x116AA); + (0x11700,0x11719); + (0x118FF,0x118FF); + (0x11AC0,0x11AF8); + (0x11C00,0x11C08); + (0x11C0A,0x11C2E); + (0x11C40,0x11C40); + (0x11C72,0x11C8F); + (0x12000,0x12399); + (0x12480,0x12543); + (0x13000,0x1342E); + (0x14400,0x14646); + (0x16800,0x16A38); + (0x16A40,0x16A5E); + (0x16AD0,0x16AED); + (0x16B00,0x16B2F); + (0x16B63,0x16B77); + (0x16B7D,0x16B8F); + (0x16F00,0x16F44); + (0x16F50,0x16F50); + (0x17000,0x187EC); + (0x18800,0x18AF2); + (0x1B000,0x1B001); + (0x1BC00,0x1BC6A); + (0x1BC70,0x1BC7C); + (0x1BC80,0x1BC88); + (0x1BC90,0x1BC99); + (0x1E800,0x1E8C4); + (0x1EE00,0x1EE03); + (0x1EE05,0x1EE1F); + (0x1EE21,0x1EE22); + (0x1EE24,0x1EE24); + (0x1EE27,0x1EE27); + (0x1EE29,0x1EE32); + (0x1EE34,0x1EE37); + (0x1EE39,0x1EE39); + (0x1EE3B,0x1EE3B); + (0x1EE42,0x1EE42); + (0x1EE47,0x1EE47); + (0x1EE49,0x1EE49); + (0x1EE4B,0x1EE4B); + (0x1EE4D,0x1EE4F); + (0x1EE51,0x1EE52); + (0x1EE54,0x1EE54); + (0x1EE57,0x1EE57); + (0x1EE59,0x1EE59); + (0x1EE5B,0x1EE5B); + (0x1EE5D,0x1EE5D); + (0x1EE5F,0x1EE5F); + (0x1EE61,0x1EE62); + (0x1EE64,0x1EE64); + (0x1EE67,0x1EE6A); + (0x1EE6C,0x1EE72); + (0x1EE74,0x1EE77); + (0x1EE79,0x1EE7C); + (0x1EE7E,0x1EE7E); + (0x1EE80,0x1EE89); + (0x1EE8B,0x1EE9B); + (0x1EEA1,0x1EEA3); + (0x1EEA5,0x1EEA9); + (0x1EEAB,0x1EEBB); + (0x20000,0x2A6D6); + (0x2A700,0x2B734); + (0x2B740,0x2B81D); + (0x2B820,0x2CEA1) +] +(* Punctuation, Connector *) +let pc = [ + (0x0005F,0x0005F); + (0x0203F,0x02040); + (0x02054,0x02054); + (0x0FE33,0x0FE34); + (0x0FE4D,0x0FE4F) +] +(* Punctuation, Dash *) +let pd = [ + (0x0002D,0x0002D); + (0x0058A,0x0058A); + (0x005BE,0x005BE); + (0x01400,0x01400); + (0x01806,0x01806); + (0x02010,0x02015); + (0x02E17,0x02E17); + (0x02E1A,0x02E1A); + (0x02E3A,0x02E3B); + (0x02E40,0x02E40); + (0x0301C,0x0301C); + (0x03030,0x03030); + (0x030A0,0x030A0); + (0x0FE31,0x0FE32); + (0x0FE58,0x0FE58); + (0x0FE63,0x0FE63) +] +(* Punctuation, Open *) +let ps = [ + (0x00028,0x00028); + (0x0005B,0x0005B); + (0x0007B,0x0007B); + (0x00F3A,0x00F3A); + (0x00F3C,0x00F3C); + (0x0169B,0x0169B); + (0x0201A,0x0201A); + (0x0201E,0x0201E); + (0x02045,0x02045); + (0x0207D,0x0207D); + (0x0208D,0x0208D); + (0x02308,0x02308); + (0x0230A,0x0230A); + (0x02329,0x02329); + (0x02768,0x02768); + (0x0276A,0x0276A); + (0x0276C,0x0276C); + (0x0276E,0x0276E); + (0x02770,0x02770); + (0x02772,0x02772); + (0x02774,0x02774); + (0x027C5,0x027C5); + (0x027E6,0x027E6); + (0x027E8,0x027E8); + (0x027EA,0x027EA); + (0x027EC,0x027EC); + (0x027EE,0x027EE); + (0x02983,0x02983); + (0x02985,0x02985); + (0x02987,0x02987); + (0x02989,0x02989); + (0x0298B,0x0298B); + (0x0298D,0x0298D); + (0x0298F,0x0298F); + (0x02991,0x02991); + (0x02993,0x02993); + (0x02995,0x02995); + (0x02997,0x02997); + (0x029D8,0x029D8); + (0x029DA,0x029DA); + (0x029FC,0x029FC); + (0x02E22,0x02E22); + (0x02E24,0x02E24); + (0x02E26,0x02E26); + (0x02E28,0x02E28); + (0x02E42,0x02E42); + (0x03008,0x03008); + (0x0300A,0x0300A); + (0x0300C,0x0300C); + (0x0300E,0x0300E); + (0x03010,0x03010); + (0x03014,0x03014); + (0x03016,0x03016); + (0x03018,0x03018); + (0x0301A,0x0301A); + (0x0301D,0x0301D); + (0x0FD3F,0x0FD3F); + (0x0FE17,0x0FE17); + (0x0FE35,0x0FE35); + (0x0FE37,0x0FE37); + (0x0FE39,0x0FE39); + (0x0FE3B,0x0FE3B); + (0x0FE3D,0x0FE3D); + (0x0FE3F,0x0FE3F); + (0x0FE41,0x0FE41); + (0x0FE43,0x0FE43); + (0x0FE47,0x0FE47); + (0x0FE59,0x0FE59); + (0x0FE5B,0x0FE5B); + (0x0FE5D,0x0FE5D); + (0x0FF08,0x0FF08); + (0x0FF3B,0x0FF3B); + (0x0FF5B,0x0FF5B); + (0x0FF5F,0x0FF5F) +] +(* Punctuation, Close *) +let pe = [ + (0x00029,0x00029); + (0x0005D,0x0005D); + (0x0007D,0x0007D); + (0x00F3B,0x00F3B); + (0x00F3D,0x00F3D); + (0x0169C,0x0169C); + (0x02046,0x02046); + (0x0207E,0x0207E); + (0x0208E,0x0208E); + (0x02309,0x02309); + (0x0230B,0x0230B); + (0x0232A,0x0232A); + (0x02769,0x02769); + (0x0276B,0x0276B); + (0x0276D,0x0276D); + (0x0276F,0x0276F); + (0x02771,0x02771); + (0x02773,0x02773); + (0x02775,0x02775); + (0x027C6,0x027C6); + (0x027E7,0x027E7); + (0x027E9,0x027E9); + (0x027EB,0x027EB); + (0x027ED,0x027ED); + (0x027EF,0x027EF); + (0x02984,0x02984); + (0x02986,0x02986); + (0x02988,0x02988); + (0x0298A,0x0298A); + (0x0298C,0x0298C); + (0x0298E,0x0298E); + (0x02990,0x02990); + (0x02992,0x02992); + (0x02994,0x02994); + (0x02996,0x02996); + (0x02998,0x02998); + (0x029D9,0x029D9); + (0x029DB,0x029DB); + (0x029FD,0x029FD); + (0x02E23,0x02E23); + (0x02E25,0x02E25); + (0x02E27,0x02E27); + (0x02E29,0x02E29); + (0x03009,0x03009); + (0x0300B,0x0300B); + (0x0300D,0x0300D); + (0x0300F,0x0300F); + (0x03011,0x03011); + (0x03015,0x03015); + (0x03017,0x03017); + (0x03019,0x03019); + (0x0301B,0x0301B); + (0x0301E,0x0301F); + (0x0FD3E,0x0FD3E); + (0x0FE18,0x0FE18); + (0x0FE36,0x0FE36); + (0x0FE38,0x0FE38); + (0x0FE3A,0x0FE3A); + (0x0FE3C,0x0FE3C); + (0x0FE3E,0x0FE3E); + (0x0FE40,0x0FE40); + (0x0FE42,0x0FE42); + (0x0FE44,0x0FE44); + (0x0FE48,0x0FE48); + (0x0FE5A,0x0FE5A); + (0x0FE5C,0x0FE5C); + (0x0FE5E,0x0FE5E); + (0x0FF09,0x0FF09); + (0x0FF3D,0x0FF3D); + (0x0FF5D,0x0FF5D); + (0x0FF60,0x0FF60) +] +(* Punctuation, Initial quote *) +let pi = [ + (0x000AB,0x000AB); + (0x02018,0x02018); + (0x0201B,0x0201C); + (0x0201F,0x0201F); + (0x02039,0x02039); + (0x02E02,0x02E02); + (0x02E04,0x02E04); + (0x02E09,0x02E09); + (0x02E0C,0x02E0C); + (0x02E1C,0x02E1C) +] +(* Punctuation, Final quote *) +let pf = [ + (0x000BB,0x000BB); + (0x02019,0x02019); + (0x0201D,0x0201D); + (0x0203A,0x0203A); + (0x02E03,0x02E03); + (0x02E05,0x02E05); + (0x02E0A,0x02E0A); + (0x02E0D,0x02E0D); + (0x02E1D,0x02E1D) +] +(* Punctuation, Other *) +let po = [ + (0x00021,0x00023); + (0x00025,0x00027); + (0x0002A,0x0002A); + (0x0002C,0x0002C); + (0x0002E,0x0002F); + (0x0003A,0x0003B); + (0x0003F,0x00040); + (0x0005C,0x0005C); + (0x000A1,0x000A1); + (0x000A7,0x000A7); + (0x000B6,0x000B7); + (0x000BF,0x000BF); + (0x0037E,0x0037E); + (0x00387,0x00387); + (0x0055A,0x0055F); + (0x00589,0x00589); + (0x005C0,0x005C0); + (0x005C3,0x005C3); + (0x005C6,0x005C6); + (0x005F3,0x005F4); + (0x00609,0x0060A); + (0x0060C,0x0060D); + (0x0061B,0x0061B); + (0x0061E,0x0061F); + (0x0066A,0x0066D); + (0x006D4,0x006D4); + (0x00700,0x0070D); + (0x007F7,0x007F9); + (0x00830,0x0083E); + (0x0085E,0x0085E); + (0x00964,0x00965); + (0x00970,0x00970); + (0x00AF0,0x00AF0); + (0x00DF4,0x00DF4); + (0x00E4F,0x00E4F); + (0x00E5A,0x00E5B); + (0x00F04,0x00F12); + (0x00F14,0x00F14); + (0x00F85,0x00F85); + (0x00FD0,0x00FD4); + (0x00FD9,0x00FDA); + (0x0104A,0x0104F); + (0x010FB,0x010FB); + (0x01360,0x01368); + (0x0166D,0x0166E); + (0x016EB,0x016ED); + (0x01735,0x01736); + (0x017D4,0x017D6); + (0x017D8,0x017DA); + (0x01800,0x01805); + (0x01807,0x0180A); + (0x01944,0x01945); + (0x01A1E,0x01A1F); + (0x01AA0,0x01AA6); + (0x01AA8,0x01AAD); + (0x01B5A,0x01B60); + (0x01BFC,0x01BFF); + (0x01C3B,0x01C3F); + (0x01C7E,0x01C7F); + (0x01CC0,0x01CC7); + (0x01CD3,0x01CD3); + (0x02016,0x02017); + (0x02020,0x02027); + (0x02030,0x02038); + (0x0203B,0x0203E); + (0x02041,0x02043); + (0x02047,0x02051); + (0x02053,0x02053); + (0x02055,0x0205E); + (0x02CF9,0x02CFC); + (0x02CFE,0x02CFF); + (0x02D70,0x02D70); + (0x02E00,0x02E01); + (0x02E06,0x02E08); + (0x02E0B,0x02E0B); + (0x02E0E,0x02E16); + (0x02E18,0x02E19); + (0x02E1B,0x02E1B); + (0x02E1E,0x02E1F); + (0x02E2A,0x02E2E); + (0x02E30,0x02E39); + (0x02E3C,0x02E3F); + (0x02E41,0x02E41); + (0x02E43,0x02E44); + (0x03001,0x03003); + (0x0303D,0x0303D); + (0x030FB,0x030FB); + (0x0A4FE,0x0A4FF); + (0x0A60D,0x0A60F); + (0x0A673,0x0A673); + (0x0A67E,0x0A67E); + (0x0A6F2,0x0A6F7); + (0x0A874,0x0A877); + (0x0A8CE,0x0A8CF); + (0x0A8F8,0x0A8FA); + (0x0A8FC,0x0A8FC); + (0x0A92E,0x0A92F); + (0x0A95F,0x0A95F); + (0x0A9C1,0x0A9CD); + (0x0A9DE,0x0A9DF); + (0x0AA5C,0x0AA5F); + (0x0AADE,0x0AADF); + (0x0AAF0,0x0AAF1); + (0x0ABEB,0x0ABEB); + (0x0FE10,0x0FE16); + (0x0FE19,0x0FE19); + (0x0FE30,0x0FE30); + (0x0FE45,0x0FE46); + (0x0FE49,0x0FE4C); + (0x0FE50,0x0FE52); + (0x0FE54,0x0FE57); + (0x0FE5F,0x0FE61); + (0x0FE68,0x0FE68); + (0x0FE6A,0x0FE6B); + (0x0FF01,0x0FF03); + (0x0FF05,0x0FF07); + (0x0FF0A,0x0FF0A); + (0x0FF0C,0x0FF0C); + (0x0FF0E,0x0FF0F); + (0x0FF1A,0x0FF1B); + (0x0FF1F,0x0FF20); + (0x0FF3C,0x0FF3C); + (0x0FF61,0x0FF61); + (0x0FF64,0x0FF65); + (0x10100,0x10102); + (0x1039F,0x1039F); + (0x103D0,0x103D0); + (0x1056F,0x1056F); + (0x10857,0x10857); + (0x1091F,0x1091F); + (0x1093F,0x1093F); + (0x10A50,0x10A58); + (0x10A7F,0x10A7F); + (0x10AF0,0x10AF6); + (0x10B39,0x10B3F); + (0x10B99,0x10B9C); + (0x11047,0x1104D); + (0x110BB,0x110BC); + (0x110BE,0x110C1); + (0x11140,0x11143); + (0x11174,0x11175); + (0x111C5,0x111C9); + (0x111CD,0x111CD); + (0x111DB,0x111DB); + (0x111DD,0x111DF); + (0x11238,0x1123D); + (0x112A9,0x112A9); + (0x1144B,0x1144F); + (0x1145B,0x1145B); + (0x1145D,0x1145D); + (0x114C6,0x114C6); + (0x115C1,0x115D7); + (0x11641,0x11643); + (0x11660,0x1166C); + (0x1173C,0x1173E); + (0x11C41,0x11C45); + (0x11C70,0x11C71); + (0x12470,0x12474); + (0x16A6E,0x16A6F); + (0x16AF5,0x16AF5); + (0x16B37,0x16B3B); + (0x16B44,0x16B44); + (0x1BC9F,0x1BC9F); + (0x1DA87,0x1DA8B) +] +(* Symbol, Math *) +let sm = [ + (0x0002B,0x0002B); + (0x0003C,0x0003E); + (0x0007C,0x0007C); + (0x0007E,0x0007E); + (0x000AC,0x000AC); + (0x000B1,0x000B1); + (0x000D7,0x000D7); + (0x000F7,0x000F7); + (0x003F6,0x003F6); + (0x00606,0x00608); + (0x02044,0x02044); + (0x02052,0x02052); + (0x0207A,0x0207C); + (0x0208A,0x0208C); + (0x02118,0x02118); + (0x02140,0x02144); + (0x0214B,0x0214B); + (0x02190,0x02194); + (0x0219A,0x0219B); + (0x021A0,0x021A0); + (0x021A3,0x021A3); + (0x021A6,0x021A6); + (0x021AE,0x021AE); + (0x021CE,0x021CF); + (0x021D2,0x021D2); + (0x021D4,0x021D4); + (0x021F4,0x022FF); + (0x02320,0x02321); + (0x0237C,0x0237C); + (0x0239B,0x023B3); + (0x023DC,0x023E1); + (0x025B7,0x025B7); + (0x025C1,0x025C1); + (0x025F8,0x025FF); + (0x0266F,0x0266F); + (0x027C0,0x027C4); + (0x027C7,0x027E5); + (0x027F0,0x027FF); + (0x02900,0x02982); + (0x02999,0x029D7); + (0x029DC,0x029FB); + (0x029FE,0x02AFF); + (0x02B30,0x02B44); + (0x02B47,0x02B4C); + (0x0FB29,0x0FB29); + (0x0FE62,0x0FE62); + (0x0FE64,0x0FE66); + (0x0FF0B,0x0FF0B); + (0x0FF1C,0x0FF1E); + (0x0FF5C,0x0FF5C); + (0x0FF5E,0x0FF5E); + (0x0FFE2,0x0FFE2); + (0x0FFE9,0x0FFEC); + (0x1D6C1,0x1D6C1); + (0x1D6DB,0x1D6DB); + (0x1D6FB,0x1D6FB); + (0x1D715,0x1D715); + (0x1D735,0x1D735); + (0x1D74F,0x1D74F); + (0x1D76F,0x1D76F); + (0x1D789,0x1D789); + (0x1D7A9,0x1D7A9); + (0x1D7C3,0x1D7C3) +] +(* Symbol, Currency *) +let sc = [ + (0x00024,0x00024); + (0x000A2,0x000A5); + (0x0058F,0x0058F); + (0x0060B,0x0060B); + (0x009F2,0x009F3); + (0x009FB,0x009FB); + (0x00AF1,0x00AF1); + (0x00BF9,0x00BF9); + (0x00E3F,0x00E3F); + (0x017DB,0x017DB); + (0x020A0,0x020BE); + (0x0A838,0x0A838); + (0x0FDFC,0x0FDFC); + (0x0FE69,0x0FE69); + (0x0FF04,0x0FF04); + (0x0FFE0,0x0FFE1) +] +(* Symbol, Modifier *) +let sk = [ + (0x0005E,0x0005E); + (0x00060,0x00060); + (0x000A8,0x000A8); + (0x000AF,0x000AF); + (0x000B4,0x000B4); + (0x000B8,0x000B8); + (0x002C2,0x002C5); + (0x002D2,0x002DF); + (0x002E5,0x002EB); + (0x002ED,0x002ED); + (0x002EF,0x002FF); + (0x00375,0x00375); + (0x00384,0x00385); + (0x01FBD,0x01FBD); + (0x01FBF,0x01FC1); + (0x01FCD,0x01FCF); + (0x01FDD,0x01FDF); + (0x01FED,0x01FEF); + (0x01FFD,0x01FFE); + (0x0309B,0x0309C); + (0x0A700,0x0A716); + (0x0A720,0x0A721); + (0x0A789,0x0A78A); + (0x0AB5B,0x0AB5B); + (0x0FBB2,0x0FBC1); + (0x0FF3E,0x0FF3E); + (0x0FF40,0x0FF40); + (0x0FFE3,0x0FFE3) +] +(* Symbol, Other *) +let so = [ + (0x000A6,0x000A6); + (0x000A9,0x000A9); + (0x000AE,0x000AE); + (0x000B0,0x000B0); + (0x00482,0x00482); + (0x0058D,0x0058E); + (0x0060E,0x0060F); + (0x006DE,0x006DE); + (0x006E9,0x006E9); + (0x006FD,0x006FE); + (0x007F6,0x007F6); + (0x009FA,0x009FA); + (0x00B70,0x00B70); + (0x00BF3,0x00BF8); + (0x00BFA,0x00BFA); + (0x00C7F,0x00C7F); + (0x00D4F,0x00D4F); + (0x00D79,0x00D79); + (0x00F01,0x00F03); + (0x00F13,0x00F13); + (0x00F15,0x00F17); + (0x00F1A,0x00F1F); + (0x00F34,0x00F34); + (0x00F36,0x00F36); + (0x00F38,0x00F38); + (0x00FBE,0x00FC5); + (0x00FC7,0x00FCC); + (0x00FCE,0x00FCF); + (0x00FD5,0x00FD8); + (0x0109E,0x0109F); + (0x01390,0x01399); + (0x01940,0x01940); + (0x019DE,0x019FF); + (0x01B61,0x01B6A); + (0x01B74,0x01B7C); + (0x02100,0x02101); + (0x02103,0x02106); + (0x02108,0x02109); + (0x02114,0x02114); + (0x02116,0x02117); + (0x0211E,0x02123); + (0x02125,0x02125); + (0x02127,0x02127); + (0x02129,0x02129); + (0x0212E,0x0212E); + (0x0213A,0x0213B); + (0x0214A,0x0214A); + (0x0214C,0x0214D); + (0x0214F,0x0214F); + (0x0218A,0x0218B); + (0x02195,0x02199); + (0x0219C,0x0219F); + (0x021A1,0x021A2); + (0x021A4,0x021A5); + (0x021A7,0x021AD); + (0x021AF,0x021CD); + (0x021D0,0x021D1); + (0x021D3,0x021D3); + (0x021D5,0x021F3); + (0x02300,0x02307); + (0x0230C,0x0231F); + (0x02322,0x02328); + (0x0232B,0x0237B); + (0x0237D,0x0239A); + (0x023B4,0x023DB); + (0x023E2,0x023FE); + (0x02400,0x02426); + (0x02440,0x0244A); + (0x0249C,0x024E9); + (0x02500,0x025B6); + (0x025B8,0x025C0); + (0x025C2,0x025F7); + (0x02600,0x0266E); + (0x02670,0x02767); + (0x02794,0x027BF); + (0x02800,0x028FF); + (0x02B00,0x02B2F); + (0x02B45,0x02B46); + (0x02B4D,0x02B73); + (0x02B76,0x02B95); + (0x02B98,0x02BB9); + (0x02BBD,0x02BC8); + (0x02BCA,0x02BD1); + (0x02BEC,0x02BEF); + (0x02CE5,0x02CEA); + (0x02E80,0x02E99); + (0x02E9B,0x02EF3); + (0x02F00,0x02FD5); + (0x02FF0,0x02FFB); + (0x03004,0x03004); + (0x03012,0x03013); + (0x03020,0x03020); + (0x03036,0x03037); + (0x0303E,0x0303F); + (0x03190,0x03191); + (0x03196,0x0319F); + (0x031C0,0x031E3); + (0x03200,0x0321E); + (0x0322A,0x03247); + (0x03250,0x03250); + (0x03260,0x0327F); + (0x0328A,0x032B0); + (0x032C0,0x032FE); + (0x03300,0x033FF); + (0x04DC0,0x04DFF); + (0x0A490,0x0A4C6); + (0x0A828,0x0A82B); + (0x0A836,0x0A837); + (0x0A839,0x0A839); + (0x0AA77,0x0AA79); + (0x0FDFD,0x0FDFD); + (0x0FFE4,0x0FFE4); + (0x0FFE8,0x0FFE8); + (0x0FFED,0x0FFEE); + (0x0FFFC,0x0FFFD); + (0x10137,0x1013F); + (0x10179,0x10189); + (0x1018C,0x1018E); + (0x10190,0x1019B); + (0x101A0,0x101A0); + (0x101D0,0x101FC); + (0x10877,0x10878); + (0x10AC8,0x10AC8); + (0x1173F,0x1173F); + (0x16B3C,0x16B3F); + (0x16B45,0x16B45); + (0x1BC9C,0x1BC9C); + (0x1D000,0x1D0F5); + (0x1D100,0x1D126); + (0x1D129,0x1D164); + (0x1D16A,0x1D16C); + (0x1D183,0x1D184); + (0x1D18C,0x1D1A9); + (0x1D1AE,0x1D1E8); + (0x1D200,0x1D241); + (0x1D245,0x1D245); + (0x1D300,0x1D356); + (0x1D800,0x1D9FF); + (0x1DA37,0x1DA3A); + (0x1DA6D,0x1DA74); + (0x1DA76,0x1DA83); + (0x1DA85,0x1DA86); + (0x1F000,0x1F02B); + (0x1F030,0x1F093); + (0x1F0A0,0x1F0AE); + (0x1F0B1,0x1F0BF); + (0x1F0C1,0x1F0CF); + (0x1F0D1,0x1F0F5); + (0x1F110,0x1F12E); + (0x1F130,0x1F16B); + (0x1F170,0x1F1AC); + (0x1F1E6,0x1F202); + (0x1F210,0x1F23B); + (0x1F240,0x1F248); + (0x1F250,0x1F251); + (0x1F300,0x1F3FA); + (0x1F400,0x1F6D2); + (0x1F6E0,0x1F6EC); + (0x1F6F0,0x1F6F6); + (0x1F700,0x1F773); + (0x1F780,0x1F7D4); + (0x1F800,0x1F80B); + (0x1F810,0x1F847); + (0x1F850,0x1F859); + (0x1F860,0x1F887); + (0x1F890,0x1F8AD); + (0x1F910,0x1F91E); + (0x1F920,0x1F927); + (0x1F930,0x1F930); + (0x1F933,0x1F93E); + (0x1F940,0x1F94B); + (0x1F950,0x1F95E); + (0x1F980,0x1F991) +] +let to_lower = [ + (0x00041,0x0005A), `Delta (32); + (0x000C0,0x000D6), `Delta (32); + (0x000D8,0x000DE), `Delta (32); + (0x00100,0x00100), `Abs (0x00101); + (0x00102,0x00102), `Abs (0x00103); + (0x00104,0x00104), `Abs (0x00105); + (0x00106,0x00106), `Abs (0x00107); + (0x00108,0x00108), `Abs (0x00109); + (0x0010A,0x0010A), `Abs (0x0010B); + (0x0010C,0x0010C), `Abs (0x0010D); + (0x0010E,0x0010E), `Abs (0x0010F); + (0x00110,0x00110), `Abs (0x00111); + (0x00112,0x00112), `Abs (0x00113); + (0x00114,0x00114), `Abs (0x00115); + (0x00116,0x00116), `Abs (0x00117); + (0x00118,0x00118), `Abs (0x00119); + (0x0011A,0x0011A), `Abs (0x0011B); + (0x0011C,0x0011C), `Abs (0x0011D); + (0x0011E,0x0011E), `Abs (0x0011F); + (0x00120,0x00120), `Abs (0x00121); + (0x00122,0x00122), `Abs (0x00123); + (0x00124,0x00124), `Abs (0x00125); + (0x00126,0x00126), `Abs (0x00127); + (0x00128,0x00128), `Abs (0x00129); + (0x0012A,0x0012A), `Abs (0x0012B); + (0x0012C,0x0012C), `Abs (0x0012D); + (0x0012E,0x0012E), `Abs (0x0012F); + (0x00130,0x00130), `Abs (0x00069); + (0x00132,0x00132), `Abs (0x00133); + (0x00134,0x00134), `Abs (0x00135); + (0x00136,0x00136), `Abs (0x00137); + (0x00139,0x00139), `Abs (0x0013A); + (0x0013B,0x0013B), `Abs (0x0013C); + (0x0013D,0x0013D), `Abs (0x0013E); + (0x0013F,0x0013F), `Abs (0x00140); + (0x00141,0x00141), `Abs (0x00142); + (0x00143,0x00143), `Abs (0x00144); + (0x00145,0x00145), `Abs (0x00146); + (0x00147,0x00147), `Abs (0x00148); + (0x0014A,0x0014A), `Abs (0x0014B); + (0x0014C,0x0014C), `Abs (0x0014D); + (0x0014E,0x0014E), `Abs (0x0014F); + (0x00150,0x00150), `Abs (0x00151); + (0x00152,0x00152), `Abs (0x00153); + (0x00154,0x00154), `Abs (0x00155); + (0x00156,0x00156), `Abs (0x00157); + (0x00158,0x00158), `Abs (0x00159); + (0x0015A,0x0015A), `Abs (0x0015B); + (0x0015C,0x0015C), `Abs (0x0015D); + (0x0015E,0x0015E), `Abs (0x0015F); + (0x00160,0x00160), `Abs (0x00161); + (0x00162,0x00162), `Abs (0x00163); + (0x00164,0x00164), `Abs (0x00165); + (0x00166,0x00166), `Abs (0x00167); + (0x00168,0x00168), `Abs (0x00169); + (0x0016A,0x0016A), `Abs (0x0016B); + (0x0016C,0x0016C), `Abs (0x0016D); + (0x0016E,0x0016E), `Abs (0x0016F); + (0x00170,0x00170), `Abs (0x00171); + (0x00172,0x00172), `Abs (0x00173); + (0x00174,0x00174), `Abs (0x00175); + (0x00176,0x00176), `Abs (0x00177); + (0x00178,0x00178), `Abs (0x000FF); + (0x00179,0x00179), `Abs (0x0017A); + (0x0017B,0x0017B), `Abs (0x0017C); + (0x0017D,0x0017D), `Abs (0x0017E); + (0x00181,0x00181), `Abs (0x00253); + (0x00182,0x00182), `Abs (0x00183); + (0x00184,0x00184), `Abs (0x00185); + (0x00186,0x00186), `Abs (0x00254); + (0x00187,0x00187), `Abs (0x00188); + (0x00189,0x0018A), `Delta (205); + (0x0018B,0x0018B), `Abs (0x0018C); + (0x0018E,0x0018E), `Abs (0x001DD); + (0x0018F,0x0018F), `Abs (0x00259); + (0x00190,0x00190), `Abs (0x0025B); + (0x00191,0x00191), `Abs (0x00192); + (0x00193,0x00193), `Abs (0x00260); + (0x00194,0x00194), `Abs (0x00263); + (0x00196,0x00196), `Abs (0x00269); + (0x00197,0x00197), `Abs (0x00268); + (0x00198,0x00198), `Abs (0x00199); + (0x0019C,0x0019C), `Abs (0x0026F); + (0x0019D,0x0019D), `Abs (0x00272); + (0x0019F,0x0019F), `Abs (0x00275); + (0x001A0,0x001A0), `Abs (0x001A1); + (0x001A2,0x001A2), `Abs (0x001A3); + (0x001A4,0x001A4), `Abs (0x001A5); + (0x001A6,0x001A6), `Abs (0x00280); + (0x001A7,0x001A7), `Abs (0x001A8); + (0x001A9,0x001A9), `Abs (0x00283); + (0x001AC,0x001AC), `Abs (0x001AD); + (0x001AE,0x001AE), `Abs (0x00288); + (0x001AF,0x001AF), `Abs (0x001B0); + (0x001B1,0x001B2), `Delta (217); + (0x001B3,0x001B3), `Abs (0x001B4); + (0x001B5,0x001B5), `Abs (0x001B6); + (0x001B7,0x001B7), `Abs (0x00292); + (0x001B8,0x001B8), `Abs (0x001B9); + (0x001BC,0x001BC), `Abs (0x001BD); + (0x001C4,0x001C4), `Abs (0x001C6); + (0x001C7,0x001C7), `Abs (0x001C9); + (0x001CA,0x001CA), `Abs (0x001CC); + (0x001CD,0x001CD), `Abs (0x001CE); + (0x001CF,0x001CF), `Abs (0x001D0); + (0x001D1,0x001D1), `Abs (0x001D2); + (0x001D3,0x001D3), `Abs (0x001D4); + (0x001D5,0x001D5), `Abs (0x001D6); + (0x001D7,0x001D7), `Abs (0x001D8); + (0x001D9,0x001D9), `Abs (0x001DA); + (0x001DB,0x001DB), `Abs (0x001DC); + (0x001DE,0x001DE), `Abs (0x001DF); + (0x001E0,0x001E0), `Abs (0x001E1); + (0x001E2,0x001E2), `Abs (0x001E3); + (0x001E4,0x001E4), `Abs (0x001E5); + (0x001E6,0x001E6), `Abs (0x001E7); + (0x001E8,0x001E8), `Abs (0x001E9); + (0x001EA,0x001EA), `Abs (0x001EB); + (0x001EC,0x001EC), `Abs (0x001ED); + (0x001EE,0x001EE), `Abs (0x001EF); + (0x001F1,0x001F1), `Abs (0x001F3); + (0x001F4,0x001F4), `Abs (0x001F5); + (0x001F6,0x001F6), `Abs (0x00195); + (0x001F7,0x001F7), `Abs (0x001BF); + (0x001F8,0x001F8), `Abs (0x001F9); + (0x001FA,0x001FA), `Abs (0x001FB); + (0x001FC,0x001FC), `Abs (0x001FD); + (0x001FE,0x001FE), `Abs (0x001FF); + (0x00200,0x00200), `Abs (0x00201); + (0x00202,0x00202), `Abs (0x00203); + (0x00204,0x00204), `Abs (0x00205); + (0x00206,0x00206), `Abs (0x00207); + (0x00208,0x00208), `Abs (0x00209); + (0x0020A,0x0020A), `Abs (0x0020B); + (0x0020C,0x0020C), `Abs (0x0020D); + (0x0020E,0x0020E), `Abs (0x0020F); + (0x00210,0x00210), `Abs (0x00211); + (0x00212,0x00212), `Abs (0x00213); + (0x00214,0x00214), `Abs (0x00215); + (0x00216,0x00216), `Abs (0x00217); + (0x00218,0x00218), `Abs (0x00219); + (0x0021A,0x0021A), `Abs (0x0021B); + (0x0021C,0x0021C), `Abs (0x0021D); + (0x0021E,0x0021E), `Abs (0x0021F); + (0x00220,0x00220), `Abs (0x0019E); + (0x00222,0x00222), `Abs (0x00223); + (0x00224,0x00224), `Abs (0x00225); + (0x00226,0x00226), `Abs (0x00227); + (0x00228,0x00228), `Abs (0x00229); + (0x0022A,0x0022A), `Abs (0x0022B); + (0x0022C,0x0022C), `Abs (0x0022D); + (0x0022E,0x0022E), `Abs (0x0022F); + (0x00230,0x00230), `Abs (0x00231); + (0x00232,0x00232), `Abs (0x00233); + (0x0023A,0x0023A), `Abs (0x02C65); + (0x0023B,0x0023B), `Abs (0x0023C); + (0x0023D,0x0023D), `Abs (0x0019A); + (0x0023E,0x0023E), `Abs (0x02C66); + (0x00241,0x00241), `Abs (0x00242); + (0x00243,0x00243), `Abs (0x00180); + (0x00244,0x00244), `Abs (0x00289); + (0x00245,0x00245), `Abs (0x0028C); + (0x00246,0x00246), `Abs (0x00247); + (0x00248,0x00248), `Abs (0x00249); + (0x0024A,0x0024A), `Abs (0x0024B); + (0x0024C,0x0024C), `Abs (0x0024D); + (0x0024E,0x0024E), `Abs (0x0024F); + (0x00370,0x00370), `Abs (0x00371); + (0x00372,0x00372), `Abs (0x00373); + (0x00376,0x00376), `Abs (0x00377); + (0x0037F,0x0037F), `Abs (0x003F3); + (0x00386,0x00386), `Abs (0x003AC); + (0x00388,0x0038A), `Delta (37); + (0x0038C,0x0038C), `Abs (0x003CC); + (0x0038E,0x0038F), `Delta (63); + (0x00391,0x003A1), `Delta (32); + (0x003A3,0x003AB), `Delta (32); + (0x003CF,0x003CF), `Abs (0x003D7); + (0x003D2,0x003D4), `Delta (0); + (0x003D8,0x003D8), `Abs (0x003D9); + (0x003DA,0x003DA), `Abs (0x003DB); + (0x003DC,0x003DC), `Abs (0x003DD); + (0x003DE,0x003DE), `Abs (0x003DF); + (0x003E0,0x003E0), `Abs (0x003E1); + (0x003E2,0x003E2), `Abs (0x003E3); + (0x003E4,0x003E4), `Abs (0x003E5); + (0x003E6,0x003E6), `Abs (0x003E7); + (0x003E8,0x003E8), `Abs (0x003E9); + (0x003EA,0x003EA), `Abs (0x003EB); + (0x003EC,0x003EC), `Abs (0x003ED); + (0x003EE,0x003EE), `Abs (0x003EF); + (0x003F4,0x003F4), `Abs (0x003B8); + (0x003F7,0x003F7), `Abs (0x003F8); + (0x003F9,0x003F9), `Abs (0x003F2); + (0x003FA,0x003FA), `Abs (0x003FB); + (0x003FD,0x003FF), `Delta (-130); + (0x00400,0x0040F), `Delta (80); + (0x00410,0x0042F), `Delta (32); + (0x00460,0x00460), `Abs (0x00461); + (0x00462,0x00462), `Abs (0x00463); + (0x00464,0x00464), `Abs (0x00465); + (0x00466,0x00466), `Abs (0x00467); + (0x00468,0x00468), `Abs (0x00469); + (0x0046A,0x0046A), `Abs (0x0046B); + (0x0046C,0x0046C), `Abs (0x0046D); + (0x0046E,0x0046E), `Abs (0x0046F); + (0x00470,0x00470), `Abs (0x00471); + (0x00472,0x00472), `Abs (0x00473); + (0x00474,0x00474), `Abs (0x00475); + (0x00476,0x00476), `Abs (0x00477); + (0x00478,0x00478), `Abs (0x00479); + (0x0047A,0x0047A), `Abs (0x0047B); + (0x0047C,0x0047C), `Abs (0x0047D); + (0x0047E,0x0047E), `Abs (0x0047F); + (0x00480,0x00480), `Abs (0x00481); + (0x0048A,0x0048A), `Abs (0x0048B); + (0x0048C,0x0048C), `Abs (0x0048D); + (0x0048E,0x0048E), `Abs (0x0048F); + (0x00490,0x00490), `Abs (0x00491); + (0x00492,0x00492), `Abs (0x00493); + (0x00494,0x00494), `Abs (0x00495); + (0x00496,0x00496), `Abs (0x00497); + (0x00498,0x00498), `Abs (0x00499); + (0x0049A,0x0049A), `Abs (0x0049B); + (0x0049C,0x0049C), `Abs (0x0049D); + (0x0049E,0x0049E), `Abs (0x0049F); + (0x004A0,0x004A0), `Abs (0x004A1); + (0x004A2,0x004A2), `Abs (0x004A3); + (0x004A4,0x004A4), `Abs (0x004A5); + (0x004A6,0x004A6), `Abs (0x004A7); + (0x004A8,0x004A8), `Abs (0x004A9); + (0x004AA,0x004AA), `Abs (0x004AB); + (0x004AC,0x004AC), `Abs (0x004AD); + (0x004AE,0x004AE), `Abs (0x004AF); + (0x004B0,0x004B0), `Abs (0x004B1); + (0x004B2,0x004B2), `Abs (0x004B3); + (0x004B4,0x004B4), `Abs (0x004B5); + (0x004B6,0x004B6), `Abs (0x004B7); + (0x004B8,0x004B8), `Abs (0x004B9); + (0x004BA,0x004BA), `Abs (0x004BB); + (0x004BC,0x004BC), `Abs (0x004BD); + (0x004BE,0x004BE), `Abs (0x004BF); + (0x004C0,0x004C0), `Abs (0x004CF); + (0x004C1,0x004C1), `Abs (0x004C2); + (0x004C3,0x004C3), `Abs (0x004C4); + (0x004C5,0x004C5), `Abs (0x004C6); + (0x004C7,0x004C7), `Abs (0x004C8); + (0x004C9,0x004C9), `Abs (0x004CA); + (0x004CB,0x004CB), `Abs (0x004CC); + (0x004CD,0x004CD), `Abs (0x004CE); + (0x004D0,0x004D0), `Abs (0x004D1); + (0x004D2,0x004D2), `Abs (0x004D3); + (0x004D4,0x004D4), `Abs (0x004D5); + (0x004D6,0x004D6), `Abs (0x004D7); + (0x004D8,0x004D8), `Abs (0x004D9); + (0x004DA,0x004DA), `Abs (0x004DB); + (0x004DC,0x004DC), `Abs (0x004DD); + (0x004DE,0x004DE), `Abs (0x004DF); + (0x004E0,0x004E0), `Abs (0x004E1); + (0x004E2,0x004E2), `Abs (0x004E3); + (0x004E4,0x004E4), `Abs (0x004E5); + (0x004E6,0x004E6), `Abs (0x004E7); + (0x004E8,0x004E8), `Abs (0x004E9); + (0x004EA,0x004EA), `Abs (0x004EB); + (0x004EC,0x004EC), `Abs (0x004ED); + (0x004EE,0x004EE), `Abs (0x004EF); + (0x004F0,0x004F0), `Abs (0x004F1); + (0x004F2,0x004F2), `Abs (0x004F3); + (0x004F4,0x004F4), `Abs (0x004F5); + (0x004F6,0x004F6), `Abs (0x004F7); + (0x004F8,0x004F8), `Abs (0x004F9); + (0x004FA,0x004FA), `Abs (0x004FB); + (0x004FC,0x004FC), `Abs (0x004FD); + (0x004FE,0x004FE), `Abs (0x004FF); + (0x00500,0x00500), `Abs (0x00501); + (0x00502,0x00502), `Abs (0x00503); + (0x00504,0x00504), `Abs (0x00505); + (0x00506,0x00506), `Abs (0x00507); + (0x00508,0x00508), `Abs (0x00509); + (0x0050A,0x0050A), `Abs (0x0050B); + (0x0050C,0x0050C), `Abs (0x0050D); + (0x0050E,0x0050E), `Abs (0x0050F); + (0x00510,0x00510), `Abs (0x00511); + (0x00512,0x00512), `Abs (0x00513); + (0x00514,0x00514), `Abs (0x00515); + (0x00516,0x00516), `Abs (0x00517); + (0x00518,0x00518), `Abs (0x00519); + (0x0051A,0x0051A), `Abs (0x0051B); + (0x0051C,0x0051C), `Abs (0x0051D); + (0x0051E,0x0051E), `Abs (0x0051F); + (0x00520,0x00520), `Abs (0x00521); + (0x00522,0x00522), `Abs (0x00523); + (0x00524,0x00524), `Abs (0x00525); + (0x00526,0x00526), `Abs (0x00527); + (0x00528,0x00528), `Abs (0x00529); + (0x0052A,0x0052A), `Abs (0x0052B); + (0x0052C,0x0052C), `Abs (0x0052D); + (0x0052E,0x0052E), `Abs (0x0052F); + (0x00531,0x00556), `Delta (48); + (0x010A0,0x010C5), `Delta (7264); + (0x010C7,0x010C7), `Abs (0x02D27); + (0x010CD,0x010CD), `Abs (0x02D2D); + (0x013A0,0x013EF), `Delta (38864); + (0x013F0,0x013F5), `Delta (8); + (0x01E00,0x01E00), `Abs (0x01E01); + (0x01E02,0x01E02), `Abs (0x01E03); + (0x01E04,0x01E04), `Abs (0x01E05); + (0x01E06,0x01E06), `Abs (0x01E07); + (0x01E08,0x01E08), `Abs (0x01E09); + (0x01E0A,0x01E0A), `Abs (0x01E0B); + (0x01E0C,0x01E0C), `Abs (0x01E0D); + (0x01E0E,0x01E0E), `Abs (0x01E0F); + (0x01E10,0x01E10), `Abs (0x01E11); + (0x01E12,0x01E12), `Abs (0x01E13); + (0x01E14,0x01E14), `Abs (0x01E15); + (0x01E16,0x01E16), `Abs (0x01E17); + (0x01E18,0x01E18), `Abs (0x01E19); + (0x01E1A,0x01E1A), `Abs (0x01E1B); + (0x01E1C,0x01E1C), `Abs (0x01E1D); + (0x01E1E,0x01E1E), `Abs (0x01E1F); + (0x01E20,0x01E20), `Abs (0x01E21); + (0x01E22,0x01E22), `Abs (0x01E23); + (0x01E24,0x01E24), `Abs (0x01E25); + (0x01E26,0x01E26), `Abs (0x01E27); + (0x01E28,0x01E28), `Abs (0x01E29); + (0x01E2A,0x01E2A), `Abs (0x01E2B); + (0x01E2C,0x01E2C), `Abs (0x01E2D); + (0x01E2E,0x01E2E), `Abs (0x01E2F); + (0x01E30,0x01E30), `Abs (0x01E31); + (0x01E32,0x01E32), `Abs (0x01E33); + (0x01E34,0x01E34), `Abs (0x01E35); + (0x01E36,0x01E36), `Abs (0x01E37); + (0x01E38,0x01E38), `Abs (0x01E39); + (0x01E3A,0x01E3A), `Abs (0x01E3B); + (0x01E3C,0x01E3C), `Abs (0x01E3D); + (0x01E3E,0x01E3E), `Abs (0x01E3F); + (0x01E40,0x01E40), `Abs (0x01E41); + (0x01E42,0x01E42), `Abs (0x01E43); + (0x01E44,0x01E44), `Abs (0x01E45); + (0x01E46,0x01E46), `Abs (0x01E47); + (0x01E48,0x01E48), `Abs (0x01E49); + (0x01E4A,0x01E4A), `Abs (0x01E4B); + (0x01E4C,0x01E4C), `Abs (0x01E4D); + (0x01E4E,0x01E4E), `Abs (0x01E4F); + (0x01E50,0x01E50), `Abs (0x01E51); + (0x01E52,0x01E52), `Abs (0x01E53); + (0x01E54,0x01E54), `Abs (0x01E55); + (0x01E56,0x01E56), `Abs (0x01E57); + (0x01E58,0x01E58), `Abs (0x01E59); + (0x01E5A,0x01E5A), `Abs (0x01E5B); + (0x01E5C,0x01E5C), `Abs (0x01E5D); + (0x01E5E,0x01E5E), `Abs (0x01E5F); + (0x01E60,0x01E60), `Abs (0x01E61); + (0x01E62,0x01E62), `Abs (0x01E63); + (0x01E64,0x01E64), `Abs (0x01E65); + (0x01E66,0x01E66), `Abs (0x01E67); + (0x01E68,0x01E68), `Abs (0x01E69); + (0x01E6A,0x01E6A), `Abs (0x01E6B); + (0x01E6C,0x01E6C), `Abs (0x01E6D); + (0x01E6E,0x01E6E), `Abs (0x01E6F); + (0x01E70,0x01E70), `Abs (0x01E71); + (0x01E72,0x01E72), `Abs (0x01E73); + (0x01E74,0x01E74), `Abs (0x01E75); + (0x01E76,0x01E76), `Abs (0x01E77); + (0x01E78,0x01E78), `Abs (0x01E79); + (0x01E7A,0x01E7A), `Abs (0x01E7B); + (0x01E7C,0x01E7C), `Abs (0x01E7D); + (0x01E7E,0x01E7E), `Abs (0x01E7F); + (0x01E80,0x01E80), `Abs (0x01E81); + (0x01E82,0x01E82), `Abs (0x01E83); + (0x01E84,0x01E84), `Abs (0x01E85); + (0x01E86,0x01E86), `Abs (0x01E87); + (0x01E88,0x01E88), `Abs (0x01E89); + (0x01E8A,0x01E8A), `Abs (0x01E8B); + (0x01E8C,0x01E8C), `Abs (0x01E8D); + (0x01E8E,0x01E8E), `Abs (0x01E8F); + (0x01E90,0x01E90), `Abs (0x01E91); + (0x01E92,0x01E92), `Abs (0x01E93); + (0x01E94,0x01E94), `Abs (0x01E95); + (0x01E9E,0x01E9E), `Abs (0x000DF); + (0x01EA0,0x01EA0), `Abs (0x01EA1); + (0x01EA2,0x01EA2), `Abs (0x01EA3); + (0x01EA4,0x01EA4), `Abs (0x01EA5); + (0x01EA6,0x01EA6), `Abs (0x01EA7); + (0x01EA8,0x01EA8), `Abs (0x01EA9); + (0x01EAA,0x01EAA), `Abs (0x01EAB); + (0x01EAC,0x01EAC), `Abs (0x01EAD); + (0x01EAE,0x01EAE), `Abs (0x01EAF); + (0x01EB0,0x01EB0), `Abs (0x01EB1); + (0x01EB2,0x01EB2), `Abs (0x01EB3); + (0x01EB4,0x01EB4), `Abs (0x01EB5); + (0x01EB6,0x01EB6), `Abs (0x01EB7); + (0x01EB8,0x01EB8), `Abs (0x01EB9); + (0x01EBA,0x01EBA), `Abs (0x01EBB); + (0x01EBC,0x01EBC), `Abs (0x01EBD); + (0x01EBE,0x01EBE), `Abs (0x01EBF); + (0x01EC0,0x01EC0), `Abs (0x01EC1); + (0x01EC2,0x01EC2), `Abs (0x01EC3); + (0x01EC4,0x01EC4), `Abs (0x01EC5); + (0x01EC6,0x01EC6), `Abs (0x01EC7); + (0x01EC8,0x01EC8), `Abs (0x01EC9); + (0x01ECA,0x01ECA), `Abs (0x01ECB); + (0x01ECC,0x01ECC), `Abs (0x01ECD); + (0x01ECE,0x01ECE), `Abs (0x01ECF); + (0x01ED0,0x01ED0), `Abs (0x01ED1); + (0x01ED2,0x01ED2), `Abs (0x01ED3); + (0x01ED4,0x01ED4), `Abs (0x01ED5); + (0x01ED6,0x01ED6), `Abs (0x01ED7); + (0x01ED8,0x01ED8), `Abs (0x01ED9); + (0x01EDA,0x01EDA), `Abs (0x01EDB); + (0x01EDC,0x01EDC), `Abs (0x01EDD); + (0x01EDE,0x01EDE), `Abs (0x01EDF); + (0x01EE0,0x01EE0), `Abs (0x01EE1); + (0x01EE2,0x01EE2), `Abs (0x01EE3); + (0x01EE4,0x01EE4), `Abs (0x01EE5); + (0x01EE6,0x01EE6), `Abs (0x01EE7); + (0x01EE8,0x01EE8), `Abs (0x01EE9); + (0x01EEA,0x01EEA), `Abs (0x01EEB); + (0x01EEC,0x01EEC), `Abs (0x01EED); + (0x01EEE,0x01EEE), `Abs (0x01EEF); + (0x01EF0,0x01EF0), `Abs (0x01EF1); + (0x01EF2,0x01EF2), `Abs (0x01EF3); + (0x01EF4,0x01EF4), `Abs (0x01EF5); + (0x01EF6,0x01EF6), `Abs (0x01EF7); + (0x01EF8,0x01EF8), `Abs (0x01EF9); + (0x01EFA,0x01EFA), `Abs (0x01EFB); + (0x01EFC,0x01EFC), `Abs (0x01EFD); + (0x01EFE,0x01EFE), `Abs (0x01EFF); + (0x01F08,0x01F0F), `Delta (-8); + (0x01F18,0x01F1D), `Delta (-8); + (0x01F28,0x01F2F), `Delta (-8); + (0x01F38,0x01F3F), `Delta (-8); + (0x01F48,0x01F4D), `Delta (-8); + (0x01F59,0x01F59), `Abs (0x01F51); + (0x01F5B,0x01F5B), `Abs (0x01F53); + (0x01F5D,0x01F5D), `Abs (0x01F55); + (0x01F5F,0x01F5F), `Abs (0x01F57); + (0x01F68,0x01F6F), `Delta (-8); + (0x01FB8,0x01FB9), `Delta (-8); + (0x01FBA,0x01FBB), `Delta (-74); + (0x01FC8,0x01FCB), `Delta (-86); + (0x01FD8,0x01FD9), `Delta (-8); + (0x01FDA,0x01FDB), `Delta (-100); + (0x01FE8,0x01FE9), `Delta (-8); + (0x01FEA,0x01FEB), `Delta (-112); + (0x01FEC,0x01FEC), `Abs (0x01FE5); + (0x01FF8,0x01FF9), `Delta (-128); + (0x01FFA,0x01FFB), `Delta (-126); + (0x02102,0x02102), `Abs (0x02102); + (0x02107,0x02107), `Abs (0x02107); + (0x0210B,0x0210D), `Delta (0); + (0x02110,0x02112), `Delta (0); + (0x02115,0x02115), `Abs (0x02115); + (0x02119,0x0211D), `Delta (0); + (0x02124,0x02124), `Abs (0x02124); + (0x02126,0x02126), `Abs (0x003C9); + (0x02128,0x02128), `Abs (0x02128); + (0x0212A,0x0212A), `Abs (0x0006B); + (0x0212B,0x0212B), `Abs (0x000E5); + (0x0212C,0x0212D), `Delta (0); + (0x02130,0x02131), `Delta (0); + (0x02132,0x02132), `Abs (0x0214E); + (0x02133,0x02133), `Abs (0x02133); + (0x0213E,0x0213F), `Delta (0); + (0x02145,0x02145), `Abs (0x02145); + (0x02183,0x02183), `Abs (0x02184); + (0x02C00,0x02C2E), `Delta (48); + (0x02C60,0x02C60), `Abs (0x02C61); + (0x02C62,0x02C62), `Abs (0x0026B); + (0x02C63,0x02C63), `Abs (0x01D7D); + (0x02C64,0x02C64), `Abs (0x0027D); + (0x02C67,0x02C67), `Abs (0x02C68); + (0x02C69,0x02C69), `Abs (0x02C6A); + (0x02C6B,0x02C6B), `Abs (0x02C6C); + (0x02C6D,0x02C6D), `Abs (0x00251); + (0x02C6E,0x02C6E), `Abs (0x00271); + (0x02C6F,0x02C6F), `Abs (0x00250); + (0x02C70,0x02C70), `Abs (0x00252); + (0x02C72,0x02C72), `Abs (0x02C73); + (0x02C75,0x02C75), `Abs (0x02C76); + (0x02C7E,0x02C7F), `Delta (-10815); + (0x02C80,0x02C80), `Abs (0x02C81); + (0x02C82,0x02C82), `Abs (0x02C83); + (0x02C84,0x02C84), `Abs (0x02C85); + (0x02C86,0x02C86), `Abs (0x02C87); + (0x02C88,0x02C88), `Abs (0x02C89); + (0x02C8A,0x02C8A), `Abs (0x02C8B); + (0x02C8C,0x02C8C), `Abs (0x02C8D); + (0x02C8E,0x02C8E), `Abs (0x02C8F); + (0x02C90,0x02C90), `Abs (0x02C91); + (0x02C92,0x02C92), `Abs (0x02C93); + (0x02C94,0x02C94), `Abs (0x02C95); + (0x02C96,0x02C96), `Abs (0x02C97); + (0x02C98,0x02C98), `Abs (0x02C99); + (0x02C9A,0x02C9A), `Abs (0x02C9B); + (0x02C9C,0x02C9C), `Abs (0x02C9D); + (0x02C9E,0x02C9E), `Abs (0x02C9F); + (0x02CA0,0x02CA0), `Abs (0x02CA1); + (0x02CA2,0x02CA2), `Abs (0x02CA3); + (0x02CA4,0x02CA4), `Abs (0x02CA5); + (0x02CA6,0x02CA6), `Abs (0x02CA7); + (0x02CA8,0x02CA8), `Abs (0x02CA9); + (0x02CAA,0x02CAA), `Abs (0x02CAB); + (0x02CAC,0x02CAC), `Abs (0x02CAD); + (0x02CAE,0x02CAE), `Abs (0x02CAF); + (0x02CB0,0x02CB0), `Abs (0x02CB1); + (0x02CB2,0x02CB2), `Abs (0x02CB3); + (0x02CB4,0x02CB4), `Abs (0x02CB5); + (0x02CB6,0x02CB6), `Abs (0x02CB7); + (0x02CB8,0x02CB8), `Abs (0x02CB9); + (0x02CBA,0x02CBA), `Abs (0x02CBB); + (0x02CBC,0x02CBC), `Abs (0x02CBD); + (0x02CBE,0x02CBE), `Abs (0x02CBF); + (0x02CC0,0x02CC0), `Abs (0x02CC1); + (0x02CC2,0x02CC2), `Abs (0x02CC3); + (0x02CC4,0x02CC4), `Abs (0x02CC5); + (0x02CC6,0x02CC6), `Abs (0x02CC7); + (0x02CC8,0x02CC8), `Abs (0x02CC9); + (0x02CCA,0x02CCA), `Abs (0x02CCB); + (0x02CCC,0x02CCC), `Abs (0x02CCD); + (0x02CCE,0x02CCE), `Abs (0x02CCF); + (0x02CD0,0x02CD0), `Abs (0x02CD1); + (0x02CD2,0x02CD2), `Abs (0x02CD3); + (0x02CD4,0x02CD4), `Abs (0x02CD5); + (0x02CD6,0x02CD6), `Abs (0x02CD7); + (0x02CD8,0x02CD8), `Abs (0x02CD9); + (0x02CDA,0x02CDA), `Abs (0x02CDB); + (0x02CDC,0x02CDC), `Abs (0x02CDD); + (0x02CDE,0x02CDE), `Abs (0x02CDF); + (0x02CE0,0x02CE0), `Abs (0x02CE1); + (0x02CE2,0x02CE2), `Abs (0x02CE3); + (0x02CEB,0x02CEB), `Abs (0x02CEC); + (0x02CED,0x02CED), `Abs (0x02CEE); + (0x02CF2,0x02CF2), `Abs (0x02CF3); + (0x0A640,0x0A640), `Abs (0x0A641); + (0x0A642,0x0A642), `Abs (0x0A643); + (0x0A644,0x0A644), `Abs (0x0A645); + (0x0A646,0x0A646), `Abs (0x0A647); + (0x0A648,0x0A648), `Abs (0x0A649); + (0x0A64A,0x0A64A), `Abs (0x0A64B); + (0x0A64C,0x0A64C), `Abs (0x0A64D); + (0x0A64E,0x0A64E), `Abs (0x0A64F); + (0x0A650,0x0A650), `Abs (0x0A651); + (0x0A652,0x0A652), `Abs (0x0A653); + (0x0A654,0x0A654), `Abs (0x0A655); + (0x0A656,0x0A656), `Abs (0x0A657); + (0x0A658,0x0A658), `Abs (0x0A659); + (0x0A65A,0x0A65A), `Abs (0x0A65B); + (0x0A65C,0x0A65C), `Abs (0x0A65D); + (0x0A65E,0x0A65E), `Abs (0x0A65F); + (0x0A660,0x0A660), `Abs (0x0A661); + (0x0A662,0x0A662), `Abs (0x0A663); + (0x0A664,0x0A664), `Abs (0x0A665); + (0x0A666,0x0A666), `Abs (0x0A667); + (0x0A668,0x0A668), `Abs (0x0A669); + (0x0A66A,0x0A66A), `Abs (0x0A66B); + (0x0A66C,0x0A66C), `Abs (0x0A66D); + (0x0A680,0x0A680), `Abs (0x0A681); + (0x0A682,0x0A682), `Abs (0x0A683); + (0x0A684,0x0A684), `Abs (0x0A685); + (0x0A686,0x0A686), `Abs (0x0A687); + (0x0A688,0x0A688), `Abs (0x0A689); + (0x0A68A,0x0A68A), `Abs (0x0A68B); + (0x0A68C,0x0A68C), `Abs (0x0A68D); + (0x0A68E,0x0A68E), `Abs (0x0A68F); + (0x0A690,0x0A690), `Abs (0x0A691); + (0x0A692,0x0A692), `Abs (0x0A693); + (0x0A694,0x0A694), `Abs (0x0A695); + (0x0A696,0x0A696), `Abs (0x0A697); + (0x0A698,0x0A698), `Abs (0x0A699); + (0x0A69A,0x0A69A), `Abs (0x0A69B); + (0x0A722,0x0A722), `Abs (0x0A723); + (0x0A724,0x0A724), `Abs (0x0A725); + (0x0A726,0x0A726), `Abs (0x0A727); + (0x0A728,0x0A728), `Abs (0x0A729); + (0x0A72A,0x0A72A), `Abs (0x0A72B); + (0x0A72C,0x0A72C), `Abs (0x0A72D); + (0x0A72E,0x0A72E), `Abs (0x0A72F); + (0x0A732,0x0A732), `Abs (0x0A733); + (0x0A734,0x0A734), `Abs (0x0A735); + (0x0A736,0x0A736), `Abs (0x0A737); + (0x0A738,0x0A738), `Abs (0x0A739); + (0x0A73A,0x0A73A), `Abs (0x0A73B); + (0x0A73C,0x0A73C), `Abs (0x0A73D); + (0x0A73E,0x0A73E), `Abs (0x0A73F); + (0x0A740,0x0A740), `Abs (0x0A741); + (0x0A742,0x0A742), `Abs (0x0A743); + (0x0A744,0x0A744), `Abs (0x0A745); + (0x0A746,0x0A746), `Abs (0x0A747); + (0x0A748,0x0A748), `Abs (0x0A749); + (0x0A74A,0x0A74A), `Abs (0x0A74B); + (0x0A74C,0x0A74C), `Abs (0x0A74D); + (0x0A74E,0x0A74E), `Abs (0x0A74F); + (0x0A750,0x0A750), `Abs (0x0A751); + (0x0A752,0x0A752), `Abs (0x0A753); + (0x0A754,0x0A754), `Abs (0x0A755); + (0x0A756,0x0A756), `Abs (0x0A757); + (0x0A758,0x0A758), `Abs (0x0A759); + (0x0A75A,0x0A75A), `Abs (0x0A75B); + (0x0A75C,0x0A75C), `Abs (0x0A75D); + (0x0A75E,0x0A75E), `Abs (0x0A75F); + (0x0A760,0x0A760), `Abs (0x0A761); + (0x0A762,0x0A762), `Abs (0x0A763); + (0x0A764,0x0A764), `Abs (0x0A765); + (0x0A766,0x0A766), `Abs (0x0A767); + (0x0A768,0x0A768), `Abs (0x0A769); + (0x0A76A,0x0A76A), `Abs (0x0A76B); + (0x0A76C,0x0A76C), `Abs (0x0A76D); + (0x0A76E,0x0A76E), `Abs (0x0A76F); + (0x0A779,0x0A779), `Abs (0x0A77A); + (0x0A77B,0x0A77B), `Abs (0x0A77C); + (0x0A77D,0x0A77D), `Abs (0x01D79); + (0x0A77E,0x0A77E), `Abs (0x0A77F); + (0x0A780,0x0A780), `Abs (0x0A781); + (0x0A782,0x0A782), `Abs (0x0A783); + (0x0A784,0x0A784), `Abs (0x0A785); + (0x0A786,0x0A786), `Abs (0x0A787); + (0x0A78B,0x0A78B), `Abs (0x0A78C); + (0x0A78D,0x0A78D), `Abs (0x00265); + (0x0A790,0x0A790), `Abs (0x0A791); + (0x0A792,0x0A792), `Abs (0x0A793); + (0x0A796,0x0A796), `Abs (0x0A797); + (0x0A798,0x0A798), `Abs (0x0A799); + (0x0A79A,0x0A79A), `Abs (0x0A79B); + (0x0A79C,0x0A79C), `Abs (0x0A79D); + (0x0A79E,0x0A79E), `Abs (0x0A79F); + (0x0A7A0,0x0A7A0), `Abs (0x0A7A1); + (0x0A7A2,0x0A7A2), `Abs (0x0A7A3); + (0x0A7A4,0x0A7A4), `Abs (0x0A7A5); + (0x0A7A6,0x0A7A6), `Abs (0x0A7A7); + (0x0A7A8,0x0A7A8), `Abs (0x0A7A9); + (0x0A7AA,0x0A7AA), `Abs (0x00266); + (0x0A7AB,0x0A7AB), `Abs (0x0025C); + (0x0A7AC,0x0A7AC), `Abs (0x00261); + (0x0A7AD,0x0A7AD), `Abs (0x0026C); + (0x0A7AE,0x0A7AE), `Abs (0x0026A); + (0x0A7B0,0x0A7B0), `Abs (0x0029E); + (0x0A7B1,0x0A7B1), `Abs (0x00287); + (0x0A7B2,0x0A7B2), `Abs (0x0029D); + (0x0A7B3,0x0A7B3), `Abs (0x0AB53); + (0x0A7B4,0x0A7B4), `Abs (0x0A7B5); + (0x0A7B6,0x0A7B6), `Abs (0x0A7B7); + (0x0FF21,0x0FF3A), `Delta (32); + (0x10400,0x10427), `Delta (40); + (0x104B0,0x104D3), `Delta (40); + (0x10C80,0x10CB2), `Delta (64); + (0x118A0,0x118BF), `Delta (32); + (0x1D400,0x1D419), `Delta (0); + (0x1D434,0x1D44D), `Delta (0); + (0x1D468,0x1D481), `Delta (0); + (0x1D49C,0x1D49C), `Abs (0x1D49C); + (0x1D49E,0x1D49F), `Delta (0); + (0x1D4A2,0x1D4A2), `Abs (0x1D4A2); + (0x1D4A5,0x1D4A6), `Delta (0); + (0x1D4A9,0x1D4AC), `Delta (0); + (0x1D4AE,0x1D4B5), `Delta (0); + (0x1D4D0,0x1D4E9), `Delta (0); + (0x1D504,0x1D505), `Delta (0); + (0x1D507,0x1D50A), `Delta (0); + (0x1D50D,0x1D514), `Delta (0); + (0x1D516,0x1D51C), `Delta (0); + (0x1D538,0x1D539), `Delta (0); + (0x1D53B,0x1D53E), `Delta (0); + (0x1D540,0x1D544), `Delta (0); + (0x1D546,0x1D546), `Abs (0x1D546); + (0x1D54A,0x1D550), `Delta (0); + (0x1D56C,0x1D585), `Delta (0); + (0x1D5A0,0x1D5B9), `Delta (0); + (0x1D5D4,0x1D5ED), `Delta (0); + (0x1D608,0x1D621), `Delta (0); + (0x1D63C,0x1D655), `Delta (0); + (0x1D670,0x1D689), `Delta (0); + (0x1D6A8,0x1D6C0), `Delta (0); + (0x1D6E2,0x1D6FA), `Delta (0); + (0x1D71C,0x1D734), `Delta (0); + (0x1D756,0x1D76E), `Delta (0); + (0x1D790,0x1D7A8), `Delta (0); + (0x1D7CA,0x1D7CA), `Abs (0x1D7CA); + (0x1E900,0x1E921), `Delta (34); + (0x00061,0x0007A), `Delta (0); + (0x000B5,0x000B5), `Abs (0x000B5); + (0x000DF,0x000F6), `Delta (0); + (0x000F8,0x000FF), `Delta (0); + (0x00101,0x00101), `Abs (0x00101); + (0x00103,0x00103), `Abs (0x00103); + (0x00105,0x00105), `Abs (0x00105); + (0x00107,0x00107), `Abs (0x00107); + (0x00109,0x00109), `Abs (0x00109); + (0x0010B,0x0010B), `Abs (0x0010B); + (0x0010D,0x0010D), `Abs (0x0010D); + (0x0010F,0x0010F), `Abs (0x0010F); + (0x00111,0x00111), `Abs (0x00111); + (0x00113,0x00113), `Abs (0x00113); + (0x00115,0x00115), `Abs (0x00115); + (0x00117,0x00117), `Abs (0x00117); + (0x00119,0x00119), `Abs (0x00119); + (0x0011B,0x0011B), `Abs (0x0011B); + (0x0011D,0x0011D), `Abs (0x0011D); + (0x0011F,0x0011F), `Abs (0x0011F); + (0x00121,0x00121), `Abs (0x00121); + (0x00123,0x00123), `Abs (0x00123); + (0x00125,0x00125), `Abs (0x00125); + (0x00127,0x00127), `Abs (0x00127); + (0x00129,0x00129), `Abs (0x00129); + (0x0012B,0x0012B), `Abs (0x0012B); + (0x0012D,0x0012D), `Abs (0x0012D); + (0x0012F,0x0012F), `Abs (0x0012F); + (0x00131,0x00131), `Abs (0x00131); + (0x00133,0x00133), `Abs (0x00133); + (0x00135,0x00135), `Abs (0x00135); + (0x00137,0x00138), `Delta (0); + (0x0013A,0x0013A), `Abs (0x0013A); + (0x0013C,0x0013C), `Abs (0x0013C); + (0x0013E,0x0013E), `Abs (0x0013E); + (0x00140,0x00140), `Abs (0x00140); + (0x00142,0x00142), `Abs (0x00142); + (0x00144,0x00144), `Abs (0x00144); + (0x00146,0x00146), `Abs (0x00146); + (0x00148,0x00149), `Delta (0); + (0x0014B,0x0014B), `Abs (0x0014B); + (0x0014D,0x0014D), `Abs (0x0014D); + (0x0014F,0x0014F), `Abs (0x0014F); + (0x00151,0x00151), `Abs (0x00151); + (0x00153,0x00153), `Abs (0x00153); + (0x00155,0x00155), `Abs (0x00155); + (0x00157,0x00157), `Abs (0x00157); + (0x00159,0x00159), `Abs (0x00159); + (0x0015B,0x0015B), `Abs (0x0015B); + (0x0015D,0x0015D), `Abs (0x0015D); + (0x0015F,0x0015F), `Abs (0x0015F); + (0x00161,0x00161), `Abs (0x00161); + (0x00163,0x00163), `Abs (0x00163); + (0x00165,0x00165), `Abs (0x00165); + (0x00167,0x00167), `Abs (0x00167); + (0x00169,0x00169), `Abs (0x00169); + (0x0016B,0x0016B), `Abs (0x0016B); + (0x0016D,0x0016D), `Abs (0x0016D); + (0x0016F,0x0016F), `Abs (0x0016F); + (0x00171,0x00171), `Abs (0x00171); + (0x00173,0x00173), `Abs (0x00173); + (0x00175,0x00175), `Abs (0x00175); + (0x00177,0x00177), `Abs (0x00177); + (0x0017A,0x0017A), `Abs (0x0017A); + (0x0017C,0x0017C), `Abs (0x0017C); + (0x0017E,0x00180), `Delta (0); + (0x00183,0x00183), `Abs (0x00183); + (0x00185,0x00185), `Abs (0x00185); + (0x00188,0x00188), `Abs (0x00188); + (0x0018C,0x0018D), `Delta (0); + (0x00192,0x00192), `Abs (0x00192); + (0x00195,0x00195), `Abs (0x00195); + (0x00199,0x0019B), `Delta (0); + (0x0019E,0x0019E), `Abs (0x0019E); + (0x001A1,0x001A1), `Abs (0x001A1); + (0x001A3,0x001A3), `Abs (0x001A3); + (0x001A5,0x001A5), `Abs (0x001A5); + (0x001A8,0x001A8), `Abs (0x001A8); + (0x001AA,0x001AB), `Delta (0); + (0x001AD,0x001AD), `Abs (0x001AD); + (0x001B0,0x001B0), `Abs (0x001B0); + (0x001B4,0x001B4), `Abs (0x001B4); + (0x001B6,0x001B6), `Abs (0x001B6); + (0x001B9,0x001BA), `Delta (0); + (0x001BD,0x001BF), `Delta (0); + (0x001C6,0x001C6), `Abs (0x001C6); + (0x001C9,0x001C9), `Abs (0x001C9); + (0x001CC,0x001CC), `Abs (0x001CC); + (0x001CE,0x001CE), `Abs (0x001CE); + (0x001D0,0x001D0), `Abs (0x001D0); + (0x001D2,0x001D2), `Abs (0x001D2); + (0x001D4,0x001D4), `Abs (0x001D4); + (0x001D6,0x001D6), `Abs (0x001D6); + (0x001D8,0x001D8), `Abs (0x001D8); + (0x001DA,0x001DA), `Abs (0x001DA); + (0x001DC,0x001DD), `Delta (0); + (0x001DF,0x001DF), `Abs (0x001DF); + (0x001E1,0x001E1), `Abs (0x001E1); + (0x001E3,0x001E3), `Abs (0x001E3); + (0x001E5,0x001E5), `Abs (0x001E5); + (0x001E7,0x001E7), `Abs (0x001E7); + (0x001E9,0x001E9), `Abs (0x001E9); + (0x001EB,0x001EB), `Abs (0x001EB); + (0x001ED,0x001ED), `Abs (0x001ED); + (0x001EF,0x001F0), `Delta (0); + (0x001F3,0x001F3), `Abs (0x001F3); + (0x001F5,0x001F5), `Abs (0x001F5); + (0x001F9,0x001F9), `Abs (0x001F9); + (0x001FB,0x001FB), `Abs (0x001FB); + (0x001FD,0x001FD), `Abs (0x001FD); + (0x001FF,0x001FF), `Abs (0x001FF); + (0x00201,0x00201), `Abs (0x00201); + (0x00203,0x00203), `Abs (0x00203); + (0x00205,0x00205), `Abs (0x00205); + (0x00207,0x00207), `Abs (0x00207); + (0x00209,0x00209), `Abs (0x00209); + (0x0020B,0x0020B), `Abs (0x0020B); + (0x0020D,0x0020D), `Abs (0x0020D); + (0x0020F,0x0020F), `Abs (0x0020F); + (0x00211,0x00211), `Abs (0x00211); + (0x00213,0x00213), `Abs (0x00213); + (0x00215,0x00215), `Abs (0x00215); + (0x00217,0x00217), `Abs (0x00217); + (0x00219,0x00219), `Abs (0x00219); + (0x0021B,0x0021B), `Abs (0x0021B); + (0x0021D,0x0021D), `Abs (0x0021D); + (0x0021F,0x0021F), `Abs (0x0021F); + (0x00221,0x00221), `Abs (0x00221); + (0x00223,0x00223), `Abs (0x00223); + (0x00225,0x00225), `Abs (0x00225); + (0x00227,0x00227), `Abs (0x00227); + (0x00229,0x00229), `Abs (0x00229); + (0x0022B,0x0022B), `Abs (0x0022B); + (0x0022D,0x0022D), `Abs (0x0022D); + (0x0022F,0x0022F), `Abs (0x0022F); + (0x00231,0x00231), `Abs (0x00231); + (0x00233,0x00239), `Delta (0); + (0x0023C,0x0023C), `Abs (0x0023C); + (0x0023F,0x00240), `Delta (0); + (0x00242,0x00242), `Abs (0x00242); + (0x00247,0x00247), `Abs (0x00247); + (0x00249,0x00249), `Abs (0x00249); + (0x0024B,0x0024B), `Abs (0x0024B); + (0x0024D,0x0024D), `Abs (0x0024D); + (0x0024F,0x00293), `Delta (0); + (0x00295,0x002AF), `Delta (0); + (0x00371,0x00371), `Abs (0x00371); + (0x00373,0x00373), `Abs (0x00373); + (0x00377,0x00377), `Abs (0x00377); + (0x0037B,0x0037D), `Delta (0); + (0x00390,0x00390), `Abs (0x00390); + (0x003AC,0x003CE), `Delta (0); + (0x003D0,0x003D1), `Delta (0); + (0x003D5,0x003D7), `Delta (0); + (0x003D9,0x003D9), `Abs (0x003D9); + (0x003DB,0x003DB), `Abs (0x003DB); + (0x003DD,0x003DD), `Abs (0x003DD); + (0x003DF,0x003DF), `Abs (0x003DF); + (0x003E1,0x003E1), `Abs (0x003E1); + (0x003E3,0x003E3), `Abs (0x003E3); + (0x003E5,0x003E5), `Abs (0x003E5); + (0x003E7,0x003E7), `Abs (0x003E7); + (0x003E9,0x003E9), `Abs (0x003E9); + (0x003EB,0x003EB), `Abs (0x003EB); + (0x003ED,0x003ED), `Abs (0x003ED); + (0x003EF,0x003F3), `Delta (0); + (0x003F5,0x003F5), `Abs (0x003F5); + (0x003F8,0x003F8), `Abs (0x003F8); + (0x003FB,0x003FC), `Delta (0); + (0x00430,0x0045F), `Delta (0); + (0x00461,0x00461), `Abs (0x00461); + (0x00463,0x00463), `Abs (0x00463); + (0x00465,0x00465), `Abs (0x00465); + (0x00467,0x00467), `Abs (0x00467); + (0x00469,0x00469), `Abs (0x00469); + (0x0046B,0x0046B), `Abs (0x0046B); + (0x0046D,0x0046D), `Abs (0x0046D); + (0x0046F,0x0046F), `Abs (0x0046F); + (0x00471,0x00471), `Abs (0x00471); + (0x00473,0x00473), `Abs (0x00473); + (0x00475,0x00475), `Abs (0x00475); + (0x00477,0x00477), `Abs (0x00477); + (0x00479,0x00479), `Abs (0x00479); + (0x0047B,0x0047B), `Abs (0x0047B); + (0x0047D,0x0047D), `Abs (0x0047D); + (0x0047F,0x0047F), `Abs (0x0047F); + (0x00481,0x00481), `Abs (0x00481); + (0x0048B,0x0048B), `Abs (0x0048B); + (0x0048D,0x0048D), `Abs (0x0048D); + (0x0048F,0x0048F), `Abs (0x0048F); + (0x00491,0x00491), `Abs (0x00491); + (0x00493,0x00493), `Abs (0x00493); + (0x00495,0x00495), `Abs (0x00495); + (0x00497,0x00497), `Abs (0x00497); + (0x00499,0x00499), `Abs (0x00499); + (0x0049B,0x0049B), `Abs (0x0049B); + (0x0049D,0x0049D), `Abs (0x0049D); + (0x0049F,0x0049F), `Abs (0x0049F); + (0x004A1,0x004A1), `Abs (0x004A1); + (0x004A3,0x004A3), `Abs (0x004A3); + (0x004A5,0x004A5), `Abs (0x004A5); + (0x004A7,0x004A7), `Abs (0x004A7); + (0x004A9,0x004A9), `Abs (0x004A9); + (0x004AB,0x004AB), `Abs (0x004AB); + (0x004AD,0x004AD), `Abs (0x004AD); + (0x004AF,0x004AF), `Abs (0x004AF); + (0x004B1,0x004B1), `Abs (0x004B1); + (0x004B3,0x004B3), `Abs (0x004B3); + (0x004B5,0x004B5), `Abs (0x004B5); + (0x004B7,0x004B7), `Abs (0x004B7); + (0x004B9,0x004B9), `Abs (0x004B9); + (0x004BB,0x004BB), `Abs (0x004BB); + (0x004BD,0x004BD), `Abs (0x004BD); + (0x004BF,0x004BF), `Abs (0x004BF); + (0x004C2,0x004C2), `Abs (0x004C2); + (0x004C4,0x004C4), `Abs (0x004C4); + (0x004C6,0x004C6), `Abs (0x004C6); + (0x004C8,0x004C8), `Abs (0x004C8); + (0x004CA,0x004CA), `Abs (0x004CA); + (0x004CC,0x004CC), `Abs (0x004CC); + (0x004CE,0x004CF), `Delta (0); + (0x004D1,0x004D1), `Abs (0x004D1); + (0x004D3,0x004D3), `Abs (0x004D3); + (0x004D5,0x004D5), `Abs (0x004D5); + (0x004D7,0x004D7), `Abs (0x004D7); + (0x004D9,0x004D9), `Abs (0x004D9); + (0x004DB,0x004DB), `Abs (0x004DB); + (0x004DD,0x004DD), `Abs (0x004DD); + (0x004DF,0x004DF), `Abs (0x004DF); + (0x004E1,0x004E1), `Abs (0x004E1); + (0x004E3,0x004E3), `Abs (0x004E3); + (0x004E5,0x004E5), `Abs (0x004E5); + (0x004E7,0x004E7), `Abs (0x004E7); + (0x004E9,0x004E9), `Abs (0x004E9); + (0x004EB,0x004EB), `Abs (0x004EB); + (0x004ED,0x004ED), `Abs (0x004ED); + (0x004EF,0x004EF), `Abs (0x004EF); + (0x004F1,0x004F1), `Abs (0x004F1); + (0x004F3,0x004F3), `Abs (0x004F3); + (0x004F5,0x004F5), `Abs (0x004F5); + (0x004F7,0x004F7), `Abs (0x004F7); + (0x004F9,0x004F9), `Abs (0x004F9); + (0x004FB,0x004FB), `Abs (0x004FB); + (0x004FD,0x004FD), `Abs (0x004FD); + (0x004FF,0x004FF), `Abs (0x004FF); + (0x00501,0x00501), `Abs (0x00501); + (0x00503,0x00503), `Abs (0x00503); + (0x00505,0x00505), `Abs (0x00505); + (0x00507,0x00507), `Abs (0x00507); + (0x00509,0x00509), `Abs (0x00509); + (0x0050B,0x0050B), `Abs (0x0050B); + (0x0050D,0x0050D), `Abs (0x0050D); + (0x0050F,0x0050F), `Abs (0x0050F); + (0x00511,0x00511), `Abs (0x00511); + (0x00513,0x00513), `Abs (0x00513); + (0x00515,0x00515), `Abs (0x00515); + (0x00517,0x00517), `Abs (0x00517); + (0x00519,0x00519), `Abs (0x00519); + (0x0051B,0x0051B), `Abs (0x0051B); + (0x0051D,0x0051D), `Abs (0x0051D); + (0x0051F,0x0051F), `Abs (0x0051F); + (0x00521,0x00521), `Abs (0x00521); + (0x00523,0x00523), `Abs (0x00523); + (0x00525,0x00525), `Abs (0x00525); + (0x00527,0x00527), `Abs (0x00527); + (0x00529,0x00529), `Abs (0x00529); + (0x0052B,0x0052B), `Abs (0x0052B); + (0x0052D,0x0052D), `Abs (0x0052D); + (0x0052F,0x0052F), `Abs (0x0052F); + (0x00561,0x00587), `Delta (0); + (0x013F8,0x013FD), `Delta (0); + (0x01C80,0x01C88), `Delta (0); + (0x01D00,0x01D2B), `Delta (0); + (0x01D6B,0x01D77), `Delta (0); + (0x01D79,0x01D9A), `Delta (0); + (0x01E01,0x01E01), `Abs (0x01E01); + (0x01E03,0x01E03), `Abs (0x01E03); + (0x01E05,0x01E05), `Abs (0x01E05); + (0x01E07,0x01E07), `Abs (0x01E07); + (0x01E09,0x01E09), `Abs (0x01E09); + (0x01E0B,0x01E0B), `Abs (0x01E0B); + (0x01E0D,0x01E0D), `Abs (0x01E0D); + (0x01E0F,0x01E0F), `Abs (0x01E0F); + (0x01E11,0x01E11), `Abs (0x01E11); + (0x01E13,0x01E13), `Abs (0x01E13); + (0x01E15,0x01E15), `Abs (0x01E15); + (0x01E17,0x01E17), `Abs (0x01E17); + (0x01E19,0x01E19), `Abs (0x01E19); + (0x01E1B,0x01E1B), `Abs (0x01E1B); + (0x01E1D,0x01E1D), `Abs (0x01E1D); + (0x01E1F,0x01E1F), `Abs (0x01E1F); + (0x01E21,0x01E21), `Abs (0x01E21); + (0x01E23,0x01E23), `Abs (0x01E23); + (0x01E25,0x01E25), `Abs (0x01E25); + (0x01E27,0x01E27), `Abs (0x01E27); + (0x01E29,0x01E29), `Abs (0x01E29); + (0x01E2B,0x01E2B), `Abs (0x01E2B); + (0x01E2D,0x01E2D), `Abs (0x01E2D); + (0x01E2F,0x01E2F), `Abs (0x01E2F); + (0x01E31,0x01E31), `Abs (0x01E31); + (0x01E33,0x01E33), `Abs (0x01E33); + (0x01E35,0x01E35), `Abs (0x01E35); + (0x01E37,0x01E37), `Abs (0x01E37); + (0x01E39,0x01E39), `Abs (0x01E39); + (0x01E3B,0x01E3B), `Abs (0x01E3B); + (0x01E3D,0x01E3D), `Abs (0x01E3D); + (0x01E3F,0x01E3F), `Abs (0x01E3F); + (0x01E41,0x01E41), `Abs (0x01E41); + (0x01E43,0x01E43), `Abs (0x01E43); + (0x01E45,0x01E45), `Abs (0x01E45); + (0x01E47,0x01E47), `Abs (0x01E47); + (0x01E49,0x01E49), `Abs (0x01E49); + (0x01E4B,0x01E4B), `Abs (0x01E4B); + (0x01E4D,0x01E4D), `Abs (0x01E4D); + (0x01E4F,0x01E4F), `Abs (0x01E4F); + (0x01E51,0x01E51), `Abs (0x01E51); + (0x01E53,0x01E53), `Abs (0x01E53); + (0x01E55,0x01E55), `Abs (0x01E55); + (0x01E57,0x01E57), `Abs (0x01E57); + (0x01E59,0x01E59), `Abs (0x01E59); + (0x01E5B,0x01E5B), `Abs (0x01E5B); + (0x01E5D,0x01E5D), `Abs (0x01E5D); + (0x01E5F,0x01E5F), `Abs (0x01E5F); + (0x01E61,0x01E61), `Abs (0x01E61); + (0x01E63,0x01E63), `Abs (0x01E63); + (0x01E65,0x01E65), `Abs (0x01E65); + (0x01E67,0x01E67), `Abs (0x01E67); + (0x01E69,0x01E69), `Abs (0x01E69); + (0x01E6B,0x01E6B), `Abs (0x01E6B); + (0x01E6D,0x01E6D), `Abs (0x01E6D); + (0x01E6F,0x01E6F), `Abs (0x01E6F); + (0x01E71,0x01E71), `Abs (0x01E71); + (0x01E73,0x01E73), `Abs (0x01E73); + (0x01E75,0x01E75), `Abs (0x01E75); + (0x01E77,0x01E77), `Abs (0x01E77); + (0x01E79,0x01E79), `Abs (0x01E79); + (0x01E7B,0x01E7B), `Abs (0x01E7B); + (0x01E7D,0x01E7D), `Abs (0x01E7D); + (0x01E7F,0x01E7F), `Abs (0x01E7F); + (0x01E81,0x01E81), `Abs (0x01E81); + (0x01E83,0x01E83), `Abs (0x01E83); + (0x01E85,0x01E85), `Abs (0x01E85); + (0x01E87,0x01E87), `Abs (0x01E87); + (0x01E89,0x01E89), `Abs (0x01E89); + (0x01E8B,0x01E8B), `Abs (0x01E8B); + (0x01E8D,0x01E8D), `Abs (0x01E8D); + (0x01E8F,0x01E8F), `Abs (0x01E8F); + (0x01E91,0x01E91), `Abs (0x01E91); + (0x01E93,0x01E93), `Abs (0x01E93); + (0x01E95,0x01E9D), `Delta (0); + (0x01E9F,0x01E9F), `Abs (0x01E9F); + (0x01EA1,0x01EA1), `Abs (0x01EA1); + (0x01EA3,0x01EA3), `Abs (0x01EA3); + (0x01EA5,0x01EA5), `Abs (0x01EA5); + (0x01EA7,0x01EA7), `Abs (0x01EA7); + (0x01EA9,0x01EA9), `Abs (0x01EA9); + (0x01EAB,0x01EAB), `Abs (0x01EAB); + (0x01EAD,0x01EAD), `Abs (0x01EAD); + (0x01EAF,0x01EAF), `Abs (0x01EAF); + (0x01EB1,0x01EB1), `Abs (0x01EB1); + (0x01EB3,0x01EB3), `Abs (0x01EB3); + (0x01EB5,0x01EB5), `Abs (0x01EB5); + (0x01EB7,0x01EB7), `Abs (0x01EB7); + (0x01EB9,0x01EB9), `Abs (0x01EB9); + (0x01EBB,0x01EBB), `Abs (0x01EBB); + (0x01EBD,0x01EBD), `Abs (0x01EBD); + (0x01EBF,0x01EBF), `Abs (0x01EBF); + (0x01EC1,0x01EC1), `Abs (0x01EC1); + (0x01EC3,0x01EC3), `Abs (0x01EC3); + (0x01EC5,0x01EC5), `Abs (0x01EC5); + (0x01EC7,0x01EC7), `Abs (0x01EC7); + (0x01EC9,0x01EC9), `Abs (0x01EC9); + (0x01ECB,0x01ECB), `Abs (0x01ECB); + (0x01ECD,0x01ECD), `Abs (0x01ECD); + (0x01ECF,0x01ECF), `Abs (0x01ECF); + (0x01ED1,0x01ED1), `Abs (0x01ED1); + (0x01ED3,0x01ED3), `Abs (0x01ED3); + (0x01ED5,0x01ED5), `Abs (0x01ED5); + (0x01ED7,0x01ED7), `Abs (0x01ED7); + (0x01ED9,0x01ED9), `Abs (0x01ED9); + (0x01EDB,0x01EDB), `Abs (0x01EDB); + (0x01EDD,0x01EDD), `Abs (0x01EDD); + (0x01EDF,0x01EDF), `Abs (0x01EDF); + (0x01EE1,0x01EE1), `Abs (0x01EE1); + (0x01EE3,0x01EE3), `Abs (0x01EE3); + (0x01EE5,0x01EE5), `Abs (0x01EE5); + (0x01EE7,0x01EE7), `Abs (0x01EE7); + (0x01EE9,0x01EE9), `Abs (0x01EE9); + (0x01EEB,0x01EEB), `Abs (0x01EEB); + (0x01EED,0x01EED), `Abs (0x01EED); + (0x01EEF,0x01EEF), `Abs (0x01EEF); + (0x01EF1,0x01EF1), `Abs (0x01EF1); + (0x01EF3,0x01EF3), `Abs (0x01EF3); + (0x01EF5,0x01EF5), `Abs (0x01EF5); + (0x01EF7,0x01EF7), `Abs (0x01EF7); + (0x01EF9,0x01EF9), `Abs (0x01EF9); + (0x01EFB,0x01EFB), `Abs (0x01EFB); + (0x01EFD,0x01EFD), `Abs (0x01EFD); + (0x01EFF,0x01F07), `Delta (0); + (0x01F10,0x01F15), `Delta (0); + (0x01F20,0x01F27), `Delta (0); + (0x01F30,0x01F37), `Delta (0); + (0x01F40,0x01F45), `Delta (0); + (0x01F50,0x01F57), `Delta (0); + (0x01F60,0x01F67), `Delta (0); + (0x01F70,0x01F7D), `Delta (0); + (0x01F80,0x01F87), `Delta (0); + (0x01F90,0x01F97), `Delta (0); + (0x01FA0,0x01FA7), `Delta (0); + (0x01FB0,0x01FB4), `Delta (0); + (0x01FB6,0x01FB7), `Delta (0); + (0x01FBE,0x01FBE), `Abs (0x01FBE); + (0x01FC2,0x01FC4), `Delta (0); + (0x01FC6,0x01FC7), `Delta (0); + (0x01FD0,0x01FD3), `Delta (0); + (0x01FD6,0x01FD7), `Delta (0); + (0x01FE0,0x01FE7), `Delta (0); + (0x01FF2,0x01FF4), `Delta (0); + (0x01FF6,0x01FF7), `Delta (0); + (0x0210A,0x0210A), `Abs (0x0210A); + (0x0210E,0x0210F), `Delta (0); + (0x02113,0x02113), `Abs (0x02113); + (0x0212F,0x0212F), `Abs (0x0212F); + (0x02134,0x02134), `Abs (0x02134); + (0x02139,0x02139), `Abs (0x02139); + (0x0213C,0x0213D), `Delta (0); + (0x02146,0x02149), `Delta (0); + (0x0214E,0x0214E), `Abs (0x0214E); + (0x02184,0x02184), `Abs (0x02184); + (0x02C30,0x02C5E), `Delta (0); + (0x02C61,0x02C61), `Abs (0x02C61); + (0x02C65,0x02C66), `Delta (0); + (0x02C68,0x02C68), `Abs (0x02C68); + (0x02C6A,0x02C6A), `Abs (0x02C6A); + (0x02C6C,0x02C6C), `Abs (0x02C6C); + (0x02C71,0x02C71), `Abs (0x02C71); + (0x02C73,0x02C74), `Delta (0); + (0x02C76,0x02C7B), `Delta (0); + (0x02C81,0x02C81), `Abs (0x02C81); + (0x02C83,0x02C83), `Abs (0x02C83); + (0x02C85,0x02C85), `Abs (0x02C85); + (0x02C87,0x02C87), `Abs (0x02C87); + (0x02C89,0x02C89), `Abs (0x02C89); + (0x02C8B,0x02C8B), `Abs (0x02C8B); + (0x02C8D,0x02C8D), `Abs (0x02C8D); + (0x02C8F,0x02C8F), `Abs (0x02C8F); + (0x02C91,0x02C91), `Abs (0x02C91); + (0x02C93,0x02C93), `Abs (0x02C93); + (0x02C95,0x02C95), `Abs (0x02C95); + (0x02C97,0x02C97), `Abs (0x02C97); + (0x02C99,0x02C99), `Abs (0x02C99); + (0x02C9B,0x02C9B), `Abs (0x02C9B); + (0x02C9D,0x02C9D), `Abs (0x02C9D); + (0x02C9F,0x02C9F), `Abs (0x02C9F); + (0x02CA1,0x02CA1), `Abs (0x02CA1); + (0x02CA3,0x02CA3), `Abs (0x02CA3); + (0x02CA5,0x02CA5), `Abs (0x02CA5); + (0x02CA7,0x02CA7), `Abs (0x02CA7); + (0x02CA9,0x02CA9), `Abs (0x02CA9); + (0x02CAB,0x02CAB), `Abs (0x02CAB); + (0x02CAD,0x02CAD), `Abs (0x02CAD); + (0x02CAF,0x02CAF), `Abs (0x02CAF); + (0x02CB1,0x02CB1), `Abs (0x02CB1); + (0x02CB3,0x02CB3), `Abs (0x02CB3); + (0x02CB5,0x02CB5), `Abs (0x02CB5); + (0x02CB7,0x02CB7), `Abs (0x02CB7); + (0x02CB9,0x02CB9), `Abs (0x02CB9); + (0x02CBB,0x02CBB), `Abs (0x02CBB); + (0x02CBD,0x02CBD), `Abs (0x02CBD); + (0x02CBF,0x02CBF), `Abs (0x02CBF); + (0x02CC1,0x02CC1), `Abs (0x02CC1); + (0x02CC3,0x02CC3), `Abs (0x02CC3); + (0x02CC5,0x02CC5), `Abs (0x02CC5); + (0x02CC7,0x02CC7), `Abs (0x02CC7); + (0x02CC9,0x02CC9), `Abs (0x02CC9); + (0x02CCB,0x02CCB), `Abs (0x02CCB); + (0x02CCD,0x02CCD), `Abs (0x02CCD); + (0x02CCF,0x02CCF), `Abs (0x02CCF); + (0x02CD1,0x02CD1), `Abs (0x02CD1); + (0x02CD3,0x02CD3), `Abs (0x02CD3); + (0x02CD5,0x02CD5), `Abs (0x02CD5); + (0x02CD7,0x02CD7), `Abs (0x02CD7); + (0x02CD9,0x02CD9), `Abs (0x02CD9); + (0x02CDB,0x02CDB), `Abs (0x02CDB); + (0x02CDD,0x02CDD), `Abs (0x02CDD); + (0x02CDF,0x02CDF), `Abs (0x02CDF); + (0x02CE1,0x02CE1), `Abs (0x02CE1); + (0x02CE3,0x02CE4), `Delta (0); + (0x02CEC,0x02CEC), `Abs (0x02CEC); + (0x02CEE,0x02CEE), `Abs (0x02CEE); + (0x02CF3,0x02CF3), `Abs (0x02CF3); + (0x02D00,0x02D25), `Delta (0); + (0x02D27,0x02D27), `Abs (0x02D27); + (0x02D2D,0x02D2D), `Abs (0x02D2D); + (0x0A641,0x0A641), `Abs (0x0A641); + (0x0A643,0x0A643), `Abs (0x0A643); + (0x0A645,0x0A645), `Abs (0x0A645); + (0x0A647,0x0A647), `Abs (0x0A647); + (0x0A649,0x0A649), `Abs (0x0A649); + (0x0A64B,0x0A64B), `Abs (0x0A64B); + (0x0A64D,0x0A64D), `Abs (0x0A64D); + (0x0A64F,0x0A64F), `Abs (0x0A64F); + (0x0A651,0x0A651), `Abs (0x0A651); + (0x0A653,0x0A653), `Abs (0x0A653); + (0x0A655,0x0A655), `Abs (0x0A655); + (0x0A657,0x0A657), `Abs (0x0A657); + (0x0A659,0x0A659), `Abs (0x0A659); + (0x0A65B,0x0A65B), `Abs (0x0A65B); + (0x0A65D,0x0A65D), `Abs (0x0A65D); + (0x0A65F,0x0A65F), `Abs (0x0A65F); + (0x0A661,0x0A661), `Abs (0x0A661); + (0x0A663,0x0A663), `Abs (0x0A663); + (0x0A665,0x0A665), `Abs (0x0A665); + (0x0A667,0x0A667), `Abs (0x0A667); + (0x0A669,0x0A669), `Abs (0x0A669); + (0x0A66B,0x0A66B), `Abs (0x0A66B); + (0x0A66D,0x0A66D), `Abs (0x0A66D); + (0x0A681,0x0A681), `Abs (0x0A681); + (0x0A683,0x0A683), `Abs (0x0A683); + (0x0A685,0x0A685), `Abs (0x0A685); + (0x0A687,0x0A687), `Abs (0x0A687); + (0x0A689,0x0A689), `Abs (0x0A689); + (0x0A68B,0x0A68B), `Abs (0x0A68B); + (0x0A68D,0x0A68D), `Abs (0x0A68D); + (0x0A68F,0x0A68F), `Abs (0x0A68F); + (0x0A691,0x0A691), `Abs (0x0A691); + (0x0A693,0x0A693), `Abs (0x0A693); + (0x0A695,0x0A695), `Abs (0x0A695); + (0x0A697,0x0A697), `Abs (0x0A697); + (0x0A699,0x0A699), `Abs (0x0A699); + (0x0A69B,0x0A69B), `Abs (0x0A69B); + (0x0A723,0x0A723), `Abs (0x0A723); + (0x0A725,0x0A725), `Abs (0x0A725); + (0x0A727,0x0A727), `Abs (0x0A727); + (0x0A729,0x0A729), `Abs (0x0A729); + (0x0A72B,0x0A72B), `Abs (0x0A72B); + (0x0A72D,0x0A72D), `Abs (0x0A72D); + (0x0A72F,0x0A731), `Delta (0); + (0x0A733,0x0A733), `Abs (0x0A733); + (0x0A735,0x0A735), `Abs (0x0A735); + (0x0A737,0x0A737), `Abs (0x0A737); + (0x0A739,0x0A739), `Abs (0x0A739); + (0x0A73B,0x0A73B), `Abs (0x0A73B); + (0x0A73D,0x0A73D), `Abs (0x0A73D); + (0x0A73F,0x0A73F), `Abs (0x0A73F); + (0x0A741,0x0A741), `Abs (0x0A741); + (0x0A743,0x0A743), `Abs (0x0A743); + (0x0A745,0x0A745), `Abs (0x0A745); + (0x0A747,0x0A747), `Abs (0x0A747); + (0x0A749,0x0A749), `Abs (0x0A749); + (0x0A74B,0x0A74B), `Abs (0x0A74B); + (0x0A74D,0x0A74D), `Abs (0x0A74D); + (0x0A74F,0x0A74F), `Abs (0x0A74F); + (0x0A751,0x0A751), `Abs (0x0A751); + (0x0A753,0x0A753), `Abs (0x0A753); + (0x0A755,0x0A755), `Abs (0x0A755); + (0x0A757,0x0A757), `Abs (0x0A757); + (0x0A759,0x0A759), `Abs (0x0A759); + (0x0A75B,0x0A75B), `Abs (0x0A75B); + (0x0A75D,0x0A75D), `Abs (0x0A75D); + (0x0A75F,0x0A75F), `Abs (0x0A75F); + (0x0A761,0x0A761), `Abs (0x0A761); + (0x0A763,0x0A763), `Abs (0x0A763); + (0x0A765,0x0A765), `Abs (0x0A765); + (0x0A767,0x0A767), `Abs (0x0A767); + (0x0A769,0x0A769), `Abs (0x0A769); + (0x0A76B,0x0A76B), `Abs (0x0A76B); + (0x0A76D,0x0A76D), `Abs (0x0A76D); + (0x0A76F,0x0A76F), `Abs (0x0A76F); + (0x0A771,0x0A778), `Delta (0); + (0x0A77A,0x0A77A), `Abs (0x0A77A); + (0x0A77C,0x0A77C), `Abs (0x0A77C); + (0x0A77F,0x0A77F), `Abs (0x0A77F); + (0x0A781,0x0A781), `Abs (0x0A781); + (0x0A783,0x0A783), `Abs (0x0A783); + (0x0A785,0x0A785), `Abs (0x0A785); + (0x0A787,0x0A787), `Abs (0x0A787); + (0x0A78C,0x0A78C), `Abs (0x0A78C); + (0x0A78E,0x0A78E), `Abs (0x0A78E); + (0x0A791,0x0A791), `Abs (0x0A791); + (0x0A793,0x0A795), `Delta (0); + (0x0A797,0x0A797), `Abs (0x0A797); + (0x0A799,0x0A799), `Abs (0x0A799); + (0x0A79B,0x0A79B), `Abs (0x0A79B); + (0x0A79D,0x0A79D), `Abs (0x0A79D); + (0x0A79F,0x0A79F), `Abs (0x0A79F); + (0x0A7A1,0x0A7A1), `Abs (0x0A7A1); + (0x0A7A3,0x0A7A3), `Abs (0x0A7A3); + (0x0A7A5,0x0A7A5), `Abs (0x0A7A5); + (0x0A7A7,0x0A7A7), `Abs (0x0A7A7); + (0x0A7A9,0x0A7A9), `Abs (0x0A7A9); + (0x0A7B5,0x0A7B5), `Abs (0x0A7B5); + (0x0A7B7,0x0A7B7), `Abs (0x0A7B7); + (0x0A7FA,0x0A7FA), `Abs (0x0A7FA); + (0x0AB30,0x0AB5A), `Delta (0); + (0x0AB60,0x0AB65), `Delta (0); + (0x0AB70,0x0ABBF), `Delta (0); + (0x0FB00,0x0FB06), `Delta (0); + (0x0FB13,0x0FB17), `Delta (0); + (0x0FF41,0x0FF5A), `Delta (0); + (0x10428,0x1044F), `Delta (0); + (0x104D8,0x104FB), `Delta (0); + (0x10CC0,0x10CF2), `Delta (0); + (0x118C0,0x118DF), `Delta (0); + (0x1D41A,0x1D433), `Delta (0); + (0x1D44E,0x1D454), `Delta (0); + (0x1D456,0x1D467), `Delta (0); + (0x1D482,0x1D49B), `Delta (0); + (0x1D4B6,0x1D4B9), `Delta (0); + (0x1D4BB,0x1D4BB), `Abs (0x1D4BB); + (0x1D4BD,0x1D4C3), `Delta (0); + (0x1D4C5,0x1D4CF), `Delta (0); + (0x1D4EA,0x1D503), `Delta (0); + (0x1D51E,0x1D537), `Delta (0); + (0x1D552,0x1D56B), `Delta (0); + (0x1D586,0x1D59F), `Delta (0); + (0x1D5BA,0x1D5D3), `Delta (0); + (0x1D5EE,0x1D607), `Delta (0); + (0x1D622,0x1D63B), `Delta (0); + (0x1D656,0x1D66F), `Delta (0); + (0x1D68A,0x1D6A5), `Delta (0); + (0x1D6C2,0x1D6DA), `Delta (0); + (0x1D6DC,0x1D6E1), `Delta (0); + (0x1D6FC,0x1D714), `Delta (0); + (0x1D716,0x1D71B), `Delta (0); + (0x1D736,0x1D74E), `Delta (0); + (0x1D750,0x1D755), `Delta (0); + (0x1D770,0x1D788), `Delta (0); + (0x1D78A,0x1D78F), `Delta (0); + (0x1D7AA,0x1D7C2), `Delta (0); + (0x1D7C4,0x1D7C9), `Delta (0); + (0x1D7CB,0x1D7CB), `Abs (0x1D7CB); + (0x1E922,0x1E943), `Delta (0); + (0x001C5,0x001C5), `Abs (0x001C6); + (0x001C8,0x001C8), `Abs (0x001C9); + (0x001CB,0x001CB), `Abs (0x001CC); + (0x001F2,0x001F2), `Abs (0x001F3); + (0x01F88,0x01F8F), `Delta (-8); + (0x01F98,0x01F9F), `Delta (-8); + (0x01FA8,0x01FAF), `Delta (-8); + (0x01FBC,0x01FBC), `Abs (0x01FB3); + (0x01FCC,0x01FCC), `Abs (0x01FC3); + (0x01FFC,0x01FFC), `Abs (0x01FF3); + (0x00300,0x0036F), `Delta (0); + (0x00483,0x00487), `Delta (0); + (0x00591,0x005BD), `Delta (0); + (0x005BF,0x005BF), `Abs (0x005BF); + (0x005C1,0x005C2), `Delta (0); + (0x005C4,0x005C5), `Delta (0); + (0x005C7,0x005C7), `Abs (0x005C7); + (0x00610,0x0061A), `Delta (0); + (0x0064B,0x0065F), `Delta (0); + (0x00670,0x00670), `Abs (0x00670); + (0x006D6,0x006DC), `Delta (0); + (0x006DF,0x006E4), `Delta (0); + (0x006E7,0x006E8), `Delta (0); + (0x006EA,0x006ED), `Delta (0); + (0x00711,0x00711), `Abs (0x00711); + (0x00730,0x0074A), `Delta (0); + (0x007A6,0x007B0), `Delta (0); + (0x007EB,0x007F3), `Delta (0); + (0x00816,0x00819), `Delta (0); + (0x0081B,0x00823), `Delta (0); + (0x00825,0x00827), `Delta (0); + (0x00829,0x0082D), `Delta (0); + (0x00859,0x0085B), `Delta (0); + (0x008D4,0x008E1), `Delta (0); + (0x008E3,0x00902), `Delta (0); + (0x0093A,0x0093A), `Abs (0x0093A); + (0x0093C,0x0093C), `Abs (0x0093C); + (0x00941,0x00948), `Delta (0); + (0x0094D,0x0094D), `Abs (0x0094D); + (0x00951,0x00957), `Delta (0); + (0x00962,0x00963), `Delta (0); + (0x00981,0x00981), `Abs (0x00981); + (0x009BC,0x009BC), `Abs (0x009BC); + (0x009C1,0x009C4), `Delta (0); + (0x009CD,0x009CD), `Abs (0x009CD); + (0x009E2,0x009E3), `Delta (0); + (0x00A01,0x00A02), `Delta (0); + (0x00A3C,0x00A3C), `Abs (0x00A3C); + (0x00A41,0x00A42), `Delta (0); + (0x00A47,0x00A48), `Delta (0); + (0x00A4B,0x00A4D), `Delta (0); + (0x00A51,0x00A51), `Abs (0x00A51); + (0x00A70,0x00A71), `Delta (0); + (0x00A75,0x00A75), `Abs (0x00A75); + (0x00A81,0x00A82), `Delta (0); + (0x00ABC,0x00ABC), `Abs (0x00ABC); + (0x00AC1,0x00AC5), `Delta (0); + (0x00AC7,0x00AC8), `Delta (0); + (0x00ACD,0x00ACD), `Abs (0x00ACD); + (0x00AE2,0x00AE3), `Delta (0); + (0x00B01,0x00B01), `Abs (0x00B01); + (0x00B3C,0x00B3C), `Abs (0x00B3C); + (0x00B3F,0x00B3F), `Abs (0x00B3F); + (0x00B41,0x00B44), `Delta (0); + (0x00B4D,0x00B4D), `Abs (0x00B4D); + (0x00B56,0x00B56), `Abs (0x00B56); + (0x00B62,0x00B63), `Delta (0); + (0x00B82,0x00B82), `Abs (0x00B82); + (0x00BC0,0x00BC0), `Abs (0x00BC0); + (0x00BCD,0x00BCD), `Abs (0x00BCD); + (0x00C00,0x00C00), `Abs (0x00C00); + (0x00C3E,0x00C40), `Delta (0); + (0x00C46,0x00C48), `Delta (0); + (0x00C4A,0x00C4D), `Delta (0); + (0x00C55,0x00C56), `Delta (0); + (0x00C62,0x00C63), `Delta (0); + (0x00C81,0x00C81), `Abs (0x00C81); + (0x00CBC,0x00CBC), `Abs (0x00CBC); + (0x00CBF,0x00CBF), `Abs (0x00CBF); + (0x00CC6,0x00CC6), `Abs (0x00CC6); + (0x00CCC,0x00CCD), `Delta (0); + (0x00CE2,0x00CE3), `Delta (0); + (0x00D01,0x00D01), `Abs (0x00D01); + (0x00D41,0x00D44), `Delta (0); + (0x00D4D,0x00D4D), `Abs (0x00D4D); + (0x00D62,0x00D63), `Delta (0); + (0x00DCA,0x00DCA), `Abs (0x00DCA); + (0x00DD2,0x00DD4), `Delta (0); + (0x00DD6,0x00DD6), `Abs (0x00DD6); + (0x00E31,0x00E31), `Abs (0x00E31); + (0x00E34,0x00E3A), `Delta (0); + (0x00E47,0x00E4E), `Delta (0); + (0x00EB1,0x00EB1), `Abs (0x00EB1); + (0x00EB4,0x00EB9), `Delta (0); + (0x00EBB,0x00EBC), `Delta (0); + (0x00EC8,0x00ECD), `Delta (0); + (0x00F18,0x00F19), `Delta (0); + (0x00F35,0x00F35), `Abs (0x00F35); + (0x00F37,0x00F37), `Abs (0x00F37); + (0x00F39,0x00F39), `Abs (0x00F39); + (0x00F71,0x00F7E), `Delta (0); + (0x00F80,0x00F84), `Delta (0); + (0x00F86,0x00F87), `Delta (0); + (0x00F8D,0x00F97), `Delta (0); + (0x00F99,0x00FBC), `Delta (0); + (0x00FC6,0x00FC6), `Abs (0x00FC6); + (0x0102D,0x01030), `Delta (0); + (0x01032,0x01037), `Delta (0); + (0x01039,0x0103A), `Delta (0); + (0x0103D,0x0103E), `Delta (0); + (0x01058,0x01059), `Delta (0); + (0x0105E,0x01060), `Delta (0); + (0x01071,0x01074), `Delta (0); + (0x01082,0x01082), `Abs (0x01082); + (0x01085,0x01086), `Delta (0); + (0x0108D,0x0108D), `Abs (0x0108D); + (0x0109D,0x0109D), `Abs (0x0109D); + (0x0135D,0x0135F), `Delta (0); + (0x01712,0x01714), `Delta (0); + (0x01732,0x01734), `Delta (0); + (0x01752,0x01753), `Delta (0); + (0x01772,0x01773), `Delta (0); + (0x017B4,0x017B5), `Delta (0); + (0x017B7,0x017BD), `Delta (0); + (0x017C6,0x017C6), `Abs (0x017C6); + (0x017C9,0x017D3), `Delta (0); + (0x017DD,0x017DD), `Abs (0x017DD); + (0x0180B,0x0180D), `Delta (0); + (0x01885,0x01886), `Delta (0); + (0x018A9,0x018A9), `Abs (0x018A9); + (0x01920,0x01922), `Delta (0); + (0x01927,0x01928), `Delta (0); + (0x01932,0x01932), `Abs (0x01932); + (0x01939,0x0193B), `Delta (0); + (0x01A17,0x01A18), `Delta (0); + (0x01A1B,0x01A1B), `Abs (0x01A1B); + (0x01A56,0x01A56), `Abs (0x01A56); + (0x01A58,0x01A5E), `Delta (0); + (0x01A60,0x01A60), `Abs (0x01A60); + (0x01A62,0x01A62), `Abs (0x01A62); + (0x01A65,0x01A6C), `Delta (0); + (0x01A73,0x01A7C), `Delta (0); + (0x01A7F,0x01A7F), `Abs (0x01A7F); + (0x01AB0,0x01ABD), `Delta (0); + (0x01B00,0x01B03), `Delta (0); + (0x01B34,0x01B34), `Abs (0x01B34); + (0x01B36,0x01B3A), `Delta (0); + (0x01B3C,0x01B3C), `Abs (0x01B3C); + (0x01B42,0x01B42), `Abs (0x01B42); + (0x01B6B,0x01B73), `Delta (0); + (0x01B80,0x01B81), `Delta (0); + (0x01BA2,0x01BA5), `Delta (0); + (0x01BA8,0x01BA9), `Delta (0); + (0x01BAB,0x01BAD), `Delta (0); + (0x01BE6,0x01BE6), `Abs (0x01BE6); + (0x01BE8,0x01BE9), `Delta (0); + (0x01BED,0x01BED), `Abs (0x01BED); + (0x01BEF,0x01BF1), `Delta (0); + (0x01C2C,0x01C33), `Delta (0); + (0x01C36,0x01C37), `Delta (0); + (0x01CD0,0x01CD2), `Delta (0); + (0x01CD4,0x01CE0), `Delta (0); + (0x01CE2,0x01CE8), `Delta (0); + (0x01CED,0x01CED), `Abs (0x01CED); + (0x01CF4,0x01CF4), `Abs (0x01CF4); + (0x01CF8,0x01CF9), `Delta (0); + (0x01DC0,0x01DF5), `Delta (0); + (0x01DFB,0x01DFF), `Delta (0); + (0x020D0,0x020DC), `Delta (0); + (0x020E1,0x020E1), `Abs (0x020E1); + (0x020E5,0x020F0), `Delta (0); + (0x02CEF,0x02CF1), `Delta (0); + (0x02D7F,0x02D7F), `Abs (0x02D7F); + (0x02DE0,0x02DFF), `Delta (0); + (0x0302A,0x0302D), `Delta (0); + (0x03099,0x0309A), `Delta (0); + (0x0A66F,0x0A66F), `Abs (0x0A66F); + (0x0A674,0x0A67D), `Delta (0); + (0x0A69E,0x0A69F), `Delta (0); + (0x0A6F0,0x0A6F1), `Delta (0); + (0x0A802,0x0A802), `Abs (0x0A802); + (0x0A806,0x0A806), `Abs (0x0A806); + (0x0A80B,0x0A80B), `Abs (0x0A80B); + (0x0A825,0x0A826), `Delta (0); + (0x0A8C4,0x0A8C5), `Delta (0); + (0x0A8E0,0x0A8F1), `Delta (0); + (0x0A926,0x0A92D), `Delta (0); + (0x0A947,0x0A951), `Delta (0); + (0x0A980,0x0A982), `Delta (0); + (0x0A9B3,0x0A9B3), `Abs (0x0A9B3); + (0x0A9B6,0x0A9B9), `Delta (0); + (0x0A9BC,0x0A9BC), `Abs (0x0A9BC); + (0x0A9E5,0x0A9E5), `Abs (0x0A9E5); + (0x0AA29,0x0AA2E), `Delta (0); + (0x0AA31,0x0AA32), `Delta (0); + (0x0AA35,0x0AA36), `Delta (0); + (0x0AA43,0x0AA43), `Abs (0x0AA43); + (0x0AA4C,0x0AA4C), `Abs (0x0AA4C); + (0x0AA7C,0x0AA7C), `Abs (0x0AA7C); + (0x0AAB0,0x0AAB0), `Abs (0x0AAB0); + (0x0AAB2,0x0AAB4), `Delta (0); + (0x0AAB7,0x0AAB8), `Delta (0); + (0x0AABE,0x0AABF), `Delta (0); + (0x0AAC1,0x0AAC1), `Abs (0x0AAC1); + (0x0AAEC,0x0AAED), `Delta (0); + (0x0AAF6,0x0AAF6), `Abs (0x0AAF6); + (0x0ABE5,0x0ABE5), `Abs (0x0ABE5); + (0x0ABE8,0x0ABE8), `Abs (0x0ABE8); + (0x0ABED,0x0ABED), `Abs (0x0ABED); + (0x0FB1E,0x0FB1E), `Abs (0x0FB1E); + (0x0FE00,0x0FE0F), `Delta (0); + (0x0FE20,0x0FE2F), `Delta (0); + (0x101FD,0x101FD), `Abs (0x101FD); + (0x102E0,0x102E0), `Abs (0x102E0); + (0x10376,0x1037A), `Delta (0); + (0x10A01,0x10A03), `Delta (0); + (0x10A05,0x10A06), `Delta (0); + (0x10A0C,0x10A0F), `Delta (0); + (0x10A38,0x10A3A), `Delta (0); + (0x10A3F,0x10A3F), `Abs (0x10A3F); + (0x10AE5,0x10AE6), `Delta (0); + (0x11001,0x11001), `Abs (0x11001); + (0x11038,0x11046), `Delta (0); + (0x1107F,0x11081), `Delta (0); + (0x110B3,0x110B6), `Delta (0); + (0x110B9,0x110BA), `Delta (0); + (0x11100,0x11102), `Delta (0); + (0x11127,0x1112B), `Delta (0); + (0x1112D,0x11134), `Delta (0); + (0x11173,0x11173), `Abs (0x11173); + (0x11180,0x11181), `Delta (0); + (0x111B6,0x111BE), `Delta (0); + (0x111CA,0x111CC), `Delta (0); + (0x1122F,0x11231), `Delta (0); + (0x11234,0x11234), `Abs (0x11234); + (0x11236,0x11237), `Delta (0); + (0x1123E,0x1123E), `Abs (0x1123E); + (0x112DF,0x112DF), `Abs (0x112DF); + (0x112E3,0x112EA), `Delta (0); + (0x11300,0x11301), `Delta (0); + (0x1133C,0x1133C), `Abs (0x1133C); + (0x11340,0x11340), `Abs (0x11340); + (0x11366,0x1136C), `Delta (0); + (0x11370,0x11374), `Delta (0); + (0x11438,0x1143F), `Delta (0); + (0x11442,0x11444), `Delta (0); + (0x11446,0x11446), `Abs (0x11446); + (0x114B3,0x114B8), `Delta (0); + (0x114BA,0x114BA), `Abs (0x114BA); + (0x114BF,0x114C0), `Delta (0); + (0x114C2,0x114C3), `Delta (0); + (0x115B2,0x115B5), `Delta (0); + (0x115BC,0x115BD), `Delta (0); + (0x115BF,0x115C0), `Delta (0); + (0x115DC,0x115DD), `Delta (0); + (0x11633,0x1163A), `Delta (0); + (0x1163D,0x1163D), `Abs (0x1163D); + (0x1163F,0x11640), `Delta (0); + (0x116AB,0x116AB), `Abs (0x116AB); + (0x116AD,0x116AD), `Abs (0x116AD); + (0x116B0,0x116B5), `Delta (0); + (0x116B7,0x116B7), `Abs (0x116B7); + (0x1171D,0x1171F), `Delta (0); + (0x11722,0x11725), `Delta (0); + (0x11727,0x1172B), `Delta (0); + (0x11C30,0x11C36), `Delta (0); + (0x11C38,0x11C3D), `Delta (0); + (0x11C3F,0x11C3F), `Abs (0x11C3F); + (0x11C92,0x11CA7), `Delta (0); + (0x11CAA,0x11CB0), `Delta (0); + (0x11CB2,0x11CB3), `Delta (0); + (0x11CB5,0x11CB6), `Delta (0); + (0x16AF0,0x16AF4), `Delta (0); + (0x16B30,0x16B36), `Delta (0); + (0x16F8F,0x16F92), `Delta (0); + (0x1BC9D,0x1BC9E), `Delta (0); + (0x1D167,0x1D169), `Delta (0); + (0x1D17B,0x1D182), `Delta (0); + (0x1D185,0x1D18B), `Delta (0); + (0x1D1AA,0x1D1AD), `Delta (0); + (0x1D242,0x1D244), `Delta (0); + (0x1DA00,0x1DA36), `Delta (0); + (0x1DA3B,0x1DA6C), `Delta (0); + (0x1DA75,0x1DA75), `Abs (0x1DA75); + (0x1DA84,0x1DA84), `Abs (0x1DA84); + (0x1DA9B,0x1DA9F), `Delta (0); + (0x1DAA1,0x1DAAF), `Delta (0); + (0x1E000,0x1E006), `Delta (0); + (0x1E008,0x1E018), `Delta (0); + (0x1E01B,0x1E021), `Delta (0); + (0x1E023,0x1E024), `Delta (0); + (0x1E026,0x1E02A), `Delta (0); + (0x1E8D0,0x1E8D6), `Delta (0); + (0x1E944,0x1E94A), `Delta (0); + (0xE0100,0xE01EF), `Delta (0); + (0x00903,0x00903), `Abs (0x00903); + (0x0093B,0x0093B), `Abs (0x0093B); + (0x0093E,0x00940), `Delta (0); + (0x00949,0x0094C), `Delta (0); + (0x0094E,0x0094F), `Delta (0); + (0x00982,0x00983), `Delta (0); + (0x009BE,0x009C0), `Delta (0); + (0x009C7,0x009C8), `Delta (0); + (0x009CB,0x009CC), `Delta (0); + (0x009D7,0x009D7), `Abs (0x009D7); + (0x00A03,0x00A03), `Abs (0x00A03); + (0x00A3E,0x00A40), `Delta (0); + (0x00A83,0x00A83), `Abs (0x00A83); + (0x00ABE,0x00AC0), `Delta (0); + (0x00AC9,0x00AC9), `Abs (0x00AC9); + (0x00ACB,0x00ACC), `Delta (0); + (0x00B02,0x00B03), `Delta (0); + (0x00B3E,0x00B3E), `Abs (0x00B3E); + (0x00B40,0x00B40), `Abs (0x00B40); + (0x00B47,0x00B48), `Delta (0); + (0x00B4B,0x00B4C), `Delta (0); + (0x00B57,0x00B57), `Abs (0x00B57); + (0x00BBE,0x00BBF), `Delta (0); + (0x00BC1,0x00BC2), `Delta (0); + (0x00BC6,0x00BC8), `Delta (0); + (0x00BCA,0x00BCC), `Delta (0); + (0x00BD7,0x00BD7), `Abs (0x00BD7); + (0x00C01,0x00C03), `Delta (0); + (0x00C41,0x00C44), `Delta (0); + (0x00C82,0x00C83), `Delta (0); + (0x00CBE,0x00CBE), `Abs (0x00CBE); + (0x00CC0,0x00CC4), `Delta (0); + (0x00CC7,0x00CC8), `Delta (0); + (0x00CCA,0x00CCB), `Delta (0); + (0x00CD5,0x00CD6), `Delta (0); + (0x00D02,0x00D03), `Delta (0); + (0x00D3E,0x00D40), `Delta (0); + (0x00D46,0x00D48), `Delta (0); + (0x00D4A,0x00D4C), `Delta (0); + (0x00D57,0x00D57), `Abs (0x00D57); + (0x00D82,0x00D83), `Delta (0); + (0x00DCF,0x00DD1), `Delta (0); + (0x00DD8,0x00DDF), `Delta (0); + (0x00DF2,0x00DF3), `Delta (0); + (0x00F3E,0x00F3F), `Delta (0); + (0x00F7F,0x00F7F), `Abs (0x00F7F); + (0x0102B,0x0102C), `Delta (0); + (0x01031,0x01031), `Abs (0x01031); + (0x01038,0x01038), `Abs (0x01038); + (0x0103B,0x0103C), `Delta (0); + (0x01056,0x01057), `Delta (0); + (0x01062,0x01064), `Delta (0); + (0x01067,0x0106D), `Delta (0); + (0x01083,0x01084), `Delta (0); + (0x01087,0x0108C), `Delta (0); + (0x0108F,0x0108F), `Abs (0x0108F); + (0x0109A,0x0109C), `Delta (0); + (0x017B6,0x017B6), `Abs (0x017B6); + (0x017BE,0x017C5), `Delta (0); + (0x017C7,0x017C8), `Delta (0); + (0x01923,0x01926), `Delta (0); + (0x01929,0x0192B), `Delta (0); + (0x01930,0x01931), `Delta (0); + (0x01933,0x01938), `Delta (0); + (0x01A19,0x01A1A), `Delta (0); + (0x01A55,0x01A55), `Abs (0x01A55); + (0x01A57,0x01A57), `Abs (0x01A57); + (0x01A61,0x01A61), `Abs (0x01A61); + (0x01A63,0x01A64), `Delta (0); + (0x01A6D,0x01A72), `Delta (0); + (0x01B04,0x01B04), `Abs (0x01B04); + (0x01B35,0x01B35), `Abs (0x01B35); + (0x01B3B,0x01B3B), `Abs (0x01B3B); + (0x01B3D,0x01B41), `Delta (0); + (0x01B43,0x01B44), `Delta (0); + (0x01B82,0x01B82), `Abs (0x01B82); + (0x01BA1,0x01BA1), `Abs (0x01BA1); + (0x01BA6,0x01BA7), `Delta (0); + (0x01BAA,0x01BAA), `Abs (0x01BAA); + (0x01BE7,0x01BE7), `Abs (0x01BE7); + (0x01BEA,0x01BEC), `Delta (0); + (0x01BEE,0x01BEE), `Abs (0x01BEE); + (0x01BF2,0x01BF3), `Delta (0); + (0x01C24,0x01C2B), `Delta (0); + (0x01C34,0x01C35), `Delta (0); + (0x01CE1,0x01CE1), `Abs (0x01CE1); + (0x01CF2,0x01CF3), `Delta (0); + (0x0302E,0x0302F), `Delta (0); + (0x0A823,0x0A824), `Delta (0); + (0x0A827,0x0A827), `Abs (0x0A827); + (0x0A880,0x0A881), `Delta (0); + (0x0A8B4,0x0A8C3), `Delta (0); + (0x0A952,0x0A953), `Delta (0); + (0x0A983,0x0A983), `Abs (0x0A983); + (0x0A9B4,0x0A9B5), `Delta (0); + (0x0A9BA,0x0A9BB), `Delta (0); + (0x0A9BD,0x0A9C0), `Delta (0); + (0x0AA2F,0x0AA30), `Delta (0); + (0x0AA33,0x0AA34), `Delta (0); + (0x0AA4D,0x0AA4D), `Abs (0x0AA4D); + (0x0AA7B,0x0AA7B), `Abs (0x0AA7B); + (0x0AA7D,0x0AA7D), `Abs (0x0AA7D); + (0x0AAEB,0x0AAEB), `Abs (0x0AAEB); + (0x0AAEE,0x0AAEF), `Delta (0); + (0x0AAF5,0x0AAF5), `Abs (0x0AAF5); + (0x0ABE3,0x0ABE4), `Delta (0); + (0x0ABE6,0x0ABE7), `Delta (0); + (0x0ABE9,0x0ABEA), `Delta (0); + (0x0ABEC,0x0ABEC), `Abs (0x0ABEC); + (0x11000,0x11000), `Abs (0x11000); + (0x11002,0x11002), `Abs (0x11002); + (0x11082,0x11082), `Abs (0x11082); + (0x110B0,0x110B2), `Delta (0); + (0x110B7,0x110B8), `Delta (0); + (0x1112C,0x1112C), `Abs (0x1112C); + (0x11182,0x11182), `Abs (0x11182); + (0x111B3,0x111B5), `Delta (0); + (0x111BF,0x111C0), `Delta (0); + (0x1122C,0x1122E), `Delta (0); + (0x11232,0x11233), `Delta (0); + (0x11235,0x11235), `Abs (0x11235); + (0x112E0,0x112E2), `Delta (0); + (0x11302,0x11303), `Delta (0); + (0x1133E,0x1133F), `Delta (0); + (0x11341,0x11344), `Delta (0); + (0x11347,0x11348), `Delta (0); + (0x1134B,0x1134D), `Delta (0); + (0x11357,0x11357), `Abs (0x11357); + (0x11362,0x11363), `Delta (0); + (0x11435,0x11437), `Delta (0); + (0x11440,0x11441), `Delta (0); + (0x11445,0x11445), `Abs (0x11445); + (0x114B0,0x114B2), `Delta (0); + (0x114B9,0x114B9), `Abs (0x114B9); + (0x114BB,0x114BE), `Delta (0); + (0x114C1,0x114C1), `Abs (0x114C1); + (0x115AF,0x115B1), `Delta (0); + (0x115B8,0x115BB), `Delta (0); + (0x115BE,0x115BE), `Abs (0x115BE); + (0x11630,0x11632), `Delta (0); + (0x1163B,0x1163C), `Delta (0); + (0x1163E,0x1163E), `Abs (0x1163E); + (0x116AC,0x116AC), `Abs (0x116AC); + (0x116AE,0x116AF), `Delta (0); + (0x116B6,0x116B6), `Abs (0x116B6); + (0x11720,0x11721), `Delta (0); + (0x11726,0x11726), `Abs (0x11726); + (0x11C2F,0x11C2F), `Abs (0x11C2F); + (0x11C3E,0x11C3E), `Abs (0x11C3E); + (0x11CA9,0x11CA9), `Abs (0x11CA9); + (0x11CB1,0x11CB1), `Abs (0x11CB1); + (0x11CB4,0x11CB4), `Abs (0x11CB4); + (0x16F51,0x16F7E), `Delta (0); + (0x1D165,0x1D166), `Delta (0); + (0x1D16D,0x1D172), `Delta (0); + (0x00488,0x00489), `Delta (0); + (0x01ABE,0x01ABE), `Abs (0x01ABE); + (0x020DD,0x020E0), `Delta (0); + (0x020E2,0x020E4), `Delta (0); + (0x0A670,0x0A672), `Delta (0); + (0x00030,0x00039), `Delta (0); + (0x00660,0x00669), `Delta (0); + (0x006F0,0x006F9), `Delta (0); + (0x007C0,0x007C9), `Delta (0); + (0x00966,0x0096F), `Delta (0); + (0x009E6,0x009EF), `Delta (0); + (0x00A66,0x00A6F), `Delta (0); + (0x00AE6,0x00AEF), `Delta (0); + (0x00B66,0x00B6F), `Delta (0); + (0x00BE6,0x00BEF), `Delta (0); + (0x00C66,0x00C6F), `Delta (0); + (0x00CE6,0x00CEF), `Delta (0); + (0x00D66,0x00D6F), `Delta (0); + (0x00DE6,0x00DEF), `Delta (0); + (0x00E50,0x00E59), `Delta (0); + (0x00ED0,0x00ED9), `Delta (0); + (0x00F20,0x00F29), `Delta (0); + (0x01040,0x01049), `Delta (0); + (0x01090,0x01099), `Delta (0); + (0x017E0,0x017E9), `Delta (0); + (0x01810,0x01819), `Delta (0); + (0x01946,0x0194F), `Delta (0); + (0x019D0,0x019D9), `Delta (0); + (0x01A80,0x01A89), `Delta (0); + (0x01A90,0x01A99), `Delta (0); + (0x01B50,0x01B59), `Delta (0); + (0x01BB0,0x01BB9), `Delta (0); + (0x01C40,0x01C49), `Delta (0); + (0x01C50,0x01C59), `Delta (0); + (0x0A620,0x0A629), `Delta (0); + (0x0A8D0,0x0A8D9), `Delta (0); + (0x0A900,0x0A909), `Delta (0); + (0x0A9D0,0x0A9D9), `Delta (0); + (0x0A9F0,0x0A9F9), `Delta (0); + (0x0AA50,0x0AA59), `Delta (0); + (0x0ABF0,0x0ABF9), `Delta (0); + (0x0FF10,0x0FF19), `Delta (0); + (0x104A0,0x104A9), `Delta (0); + (0x11066,0x1106F), `Delta (0); + (0x110F0,0x110F9), `Delta (0); + (0x11136,0x1113F), `Delta (0); + (0x111D0,0x111D9), `Delta (0); + (0x112F0,0x112F9), `Delta (0); + (0x11450,0x11459), `Delta (0); + (0x114D0,0x114D9), `Delta (0); + (0x11650,0x11659), `Delta (0); + (0x116C0,0x116C9), `Delta (0); + (0x11730,0x11739), `Delta (0); + (0x118E0,0x118E9), `Delta (0); + (0x11C50,0x11C59), `Delta (0); + (0x16A60,0x16A69), `Delta (0); + (0x16B50,0x16B59), `Delta (0); + (0x1D7CE,0x1D7FF), `Delta (0); + (0x1E950,0x1E959), `Delta (0); + (0x016EE,0x016F0), `Delta (0); + (0x02160,0x0216F), `Delta (16); + (0x02170,0x02182), `Delta (0); + (0x02185,0x02188), `Delta (0); + (0x03007,0x03007), `Abs (0x03007); + (0x03021,0x03029), `Delta (0); + (0x03038,0x0303A), `Delta (0); + (0x0A6E6,0x0A6EF), `Delta (0); + (0x10140,0x10174), `Delta (0); + (0x10341,0x10341), `Abs (0x10341); + (0x1034A,0x1034A), `Abs (0x1034A); + (0x103D1,0x103D5), `Delta (0); + (0x12400,0x1246E), `Delta (0); + (0x000B2,0x000B3), `Delta (0); + (0x000B9,0x000B9), `Abs (0x000B9); + (0x000BC,0x000BE), `Delta (0); + (0x009F4,0x009F9), `Delta (0); + (0x00B72,0x00B77), `Delta (0); + (0x00BF0,0x00BF2), `Delta (0); + (0x00C78,0x00C7E), `Delta (0); + (0x00D58,0x00D5E), `Delta (0); + (0x00D70,0x00D78), `Delta (0); + (0x00F2A,0x00F33), `Delta (0); + (0x01369,0x0137C), `Delta (0); + (0x017F0,0x017F9), `Delta (0); + (0x019DA,0x019DA), `Abs (0x019DA); + (0x02070,0x02070), `Abs (0x02070); + (0x02074,0x02079), `Delta (0); + (0x02080,0x02089), `Delta (0); + (0x02150,0x0215F), `Delta (0); + (0x02189,0x02189), `Abs (0x02189); + (0x02460,0x0249B), `Delta (0); + (0x024EA,0x024FF), `Delta (0); + (0x02776,0x02793), `Delta (0); + (0x02CFD,0x02CFD), `Abs (0x02CFD); + (0x03192,0x03195), `Delta (0); + (0x03220,0x03229), `Delta (0); + (0x03248,0x0324F), `Delta (0); + (0x03251,0x0325F), `Delta (0); + (0x03280,0x03289), `Delta (0); + (0x032B1,0x032BF), `Delta (0); + (0x0A830,0x0A835), `Delta (0); + (0x10107,0x10133), `Delta (0); + (0x10175,0x10178), `Delta (0); + (0x1018A,0x1018B), `Delta (0); + (0x102E1,0x102FB), `Delta (0); + (0x10320,0x10323), `Delta (0); + (0x10858,0x1085F), `Delta (0); + (0x10879,0x1087F), `Delta (0); + (0x108A7,0x108AF), `Delta (0); + (0x108FB,0x108FF), `Delta (0); + (0x10916,0x1091B), `Delta (0); + (0x109BC,0x109BD), `Delta (0); + (0x109C0,0x109CF), `Delta (0); + (0x109D2,0x109FF), `Delta (0); + (0x10A40,0x10A47), `Delta (0); + (0x10A7D,0x10A7E), `Delta (0); + (0x10A9D,0x10A9F), `Delta (0); + (0x10AEB,0x10AEF), `Delta (0); + (0x10B58,0x10B5F), `Delta (0); + (0x10B78,0x10B7F), `Delta (0); + (0x10BA9,0x10BAF), `Delta (0); + (0x10CFA,0x10CFF), `Delta (0); + (0x10E60,0x10E7E), `Delta (0); + (0x11052,0x11065), `Delta (0); + (0x111E1,0x111F4), `Delta (0); + (0x1173A,0x1173B), `Delta (0); + (0x118EA,0x118F2), `Delta (0); + (0x11C5A,0x11C6C), `Delta (0); + (0x16B5B,0x16B61), `Delta (0); + (0x1D360,0x1D371), `Delta (0); + (0x1E8C7,0x1E8CF), `Delta (0); + (0x1F100,0x1F10C), `Delta (0); + (0x00020,0x00020), `Abs (0x00020); + (0x000A0,0x000A0), `Abs (0x000A0); + (0x01680,0x01680), `Abs (0x01680); + (0x02000,0x0200A), `Delta (0); + (0x0202F,0x0202F), `Abs (0x0202F); + (0x0205F,0x0205F), `Abs (0x0205F); + (0x03000,0x03000), `Abs (0x03000); + (0x02028,0x02029), `Delta (0); + (0x00001,0x0001F), `Delta (0); + (0x0007F,0x0009F), `Delta (0); + (0x000AD,0x000AD), `Abs (0x000AD); + (0x00600,0x00605), `Delta (0); + (0x0061C,0x0061C), `Abs (0x0061C); + (0x006DD,0x006DD), `Abs (0x006DD); + (0x0070F,0x0070F), `Abs (0x0070F); + (0x008E2,0x008E2), `Abs (0x008E2); + (0x0180E,0x0180E), `Abs (0x0180E); + (0x0200B,0x0200F), `Delta (0); + (0x0202A,0x0202E), `Delta (0); + (0x02060,0x02064), `Delta (0); + (0x02066,0x0206F), `Delta (0); + (0x0FEFF,0x0FEFF), `Abs (0x0FEFF); + (0x0FFF9,0x0FFFB), `Delta (0); + (0x110BD,0x110BD), `Abs (0x110BD); + (0x1BCA0,0x1BCA3), `Delta (0); + (0x1D173,0x1D17A), `Delta (0); + (0xE0001,0xE0001), `Abs (0xE0001); + (0xE0020,0xE007F), `Delta (0); + (0x0D800,0x0F8FF), `Delta (0); + (0xF0000,0xFFFFD), `Delta (0); + (0x100000,0x10FFFD), `Delta (0); + (0x00378,0x00379), `Delta (0); + (0x00380,0x00383), `Delta (0); + (0x0038B,0x0038B), `Abs (0x0038B); + (0x0038D,0x0038D), `Abs (0x0038D); + (0x003A2,0x003A2), `Abs (0x003A2); + (0x00530,0x00530), `Abs (0x00530); + (0x00557,0x00558), `Delta (0); + (0x00560,0x00560), `Abs (0x00560); + (0x00588,0x00588), `Abs (0x00588); + (0x0058B,0x0058C), `Delta (0); + (0x00590,0x00590), `Abs (0x00590); + (0x005C8,0x005CF), `Delta (0); + (0x005EB,0x005EF), `Delta (0); + (0x005F5,0x005FF), `Delta (0); + (0x0061D,0x0061D), `Abs (0x0061D); + (0x0070E,0x0070E), `Abs (0x0070E); + (0x0074B,0x0074C), `Delta (0); + (0x007B2,0x007BF), `Delta (0); + (0x007FB,0x007FF), `Delta (0); + (0x0082E,0x0082F), `Delta (0); + (0x0083F,0x0083F), `Abs (0x0083F); + (0x0085C,0x0085D), `Delta (0); + (0x0085F,0x0089F), `Delta (0); + (0x008B5,0x008B5), `Abs (0x008B5); + (0x008BE,0x008D3), `Delta (0); + (0x00984,0x00984), `Abs (0x00984); + (0x0098D,0x0098E), `Delta (0); + (0x00991,0x00992), `Delta (0); + (0x009A9,0x009A9), `Abs (0x009A9); + (0x009B1,0x009B1), `Abs (0x009B1); + (0x009B3,0x009B5), `Delta (0); + (0x009BA,0x009BB), `Delta (0); + (0x009C5,0x009C6), `Delta (0); + (0x009C9,0x009CA), `Delta (0); + (0x009CF,0x009D6), `Delta (0); + (0x009D8,0x009DB), `Delta (0); + (0x009DE,0x009DE), `Abs (0x009DE); + (0x009E4,0x009E5), `Delta (0); + (0x009FC,0x00A00), `Delta (0); + (0x00A04,0x00A04), `Abs (0x00A04); + (0x00A0B,0x00A0E), `Delta (0); + (0x00A11,0x00A12), `Delta (0); + (0x00A29,0x00A29), `Abs (0x00A29); + (0x00A31,0x00A31), `Abs (0x00A31); + (0x00A34,0x00A34), `Abs (0x00A34); + (0x00A37,0x00A37), `Abs (0x00A37); + (0x00A3A,0x00A3B), `Delta (0); + (0x00A3D,0x00A3D), `Abs (0x00A3D); + (0x00A43,0x00A46), `Delta (0); + (0x00A49,0x00A4A), `Delta (0); + (0x00A4E,0x00A50), `Delta (0); + (0x00A52,0x00A58), `Delta (0); + (0x00A5D,0x00A5D), `Abs (0x00A5D); + (0x00A5F,0x00A65), `Delta (0); + (0x00A76,0x00A80), `Delta (0); + (0x00A84,0x00A84), `Abs (0x00A84); + (0x00A8E,0x00A8E), `Abs (0x00A8E); + (0x00A92,0x00A92), `Abs (0x00A92); + (0x00AA9,0x00AA9), `Abs (0x00AA9); + (0x00AB1,0x00AB1), `Abs (0x00AB1); + (0x00AB4,0x00AB4), `Abs (0x00AB4); + (0x00ABA,0x00ABB), `Delta (0); + (0x00AC6,0x00AC6), `Abs (0x00AC6); + (0x00ACA,0x00ACA), `Abs (0x00ACA); + (0x00ACE,0x00ACF), `Delta (0); + (0x00AD1,0x00ADF), `Delta (0); + (0x00AE4,0x00AE5), `Delta (0); + (0x00AF2,0x00AF8), `Delta (0); + (0x00AFA,0x00B00), `Delta (0); + (0x00B04,0x00B04), `Abs (0x00B04); + (0x00B0D,0x00B0E), `Delta (0); + (0x00B11,0x00B12), `Delta (0); + (0x00B29,0x00B29), `Abs (0x00B29); + (0x00B31,0x00B31), `Abs (0x00B31); + (0x00B34,0x00B34), `Abs (0x00B34); + (0x00B3A,0x00B3B), `Delta (0); + (0x00B45,0x00B46), `Delta (0); + (0x00B49,0x00B4A), `Delta (0); + (0x00B4E,0x00B55), `Delta (0); + (0x00B58,0x00B5B), `Delta (0); + (0x00B5E,0x00B5E), `Abs (0x00B5E); + (0x00B64,0x00B65), `Delta (0); + (0x00B78,0x00B81), `Delta (0); + (0x00B84,0x00B84), `Abs (0x00B84); + (0x00B8B,0x00B8D), `Delta (0); + (0x00B91,0x00B91), `Abs (0x00B91); + (0x00B96,0x00B98), `Delta (0); + (0x00B9B,0x00B9B), `Abs (0x00B9B); + (0x00B9D,0x00B9D), `Abs (0x00B9D); + (0x00BA0,0x00BA2), `Delta (0); + (0x00BA5,0x00BA7), `Delta (0); + (0x00BAB,0x00BAD), `Delta (0); + (0x00BBA,0x00BBD), `Delta (0); + (0x00BC3,0x00BC5), `Delta (0); + (0x00BC9,0x00BC9), `Abs (0x00BC9); + (0x00BCE,0x00BCF), `Delta (0); + (0x00BD1,0x00BD6), `Delta (0); + (0x00BD8,0x00BE5), `Delta (0); + (0x00BFB,0x00BFF), `Delta (0); + (0x00C04,0x00C04), `Abs (0x00C04); + (0x00C0D,0x00C0D), `Abs (0x00C0D); + (0x00C11,0x00C11), `Abs (0x00C11); + (0x00C29,0x00C29), `Abs (0x00C29); + (0x00C3A,0x00C3C), `Delta (0); + (0x00C45,0x00C45), `Abs (0x00C45); + (0x00C49,0x00C49), `Abs (0x00C49); + (0x00C4E,0x00C54), `Delta (0); + (0x00C57,0x00C57), `Abs (0x00C57); + (0x00C5B,0x00C5F), `Delta (0); + (0x00C64,0x00C65), `Delta (0); + (0x00C70,0x00C77), `Delta (0); + (0x00C84,0x00C84), `Abs (0x00C84); + (0x00C8D,0x00C8D), `Abs (0x00C8D); + (0x00C91,0x00C91), `Abs (0x00C91); + (0x00CA9,0x00CA9), `Abs (0x00CA9); + (0x00CB4,0x00CB4), `Abs (0x00CB4); + (0x00CBA,0x00CBB), `Delta (0); + (0x00CC5,0x00CC5), `Abs (0x00CC5); + (0x00CC9,0x00CC9), `Abs (0x00CC9); + (0x00CCE,0x00CD4), `Delta (0); + (0x00CD7,0x00CDD), `Delta (0); + (0x00CDF,0x00CDF), `Abs (0x00CDF); + (0x00CE4,0x00CE5), `Delta (0); + (0x00CF0,0x00CF0), `Abs (0x00CF0); + (0x00CF3,0x00D00), `Delta (0); + (0x00D04,0x00D04), `Abs (0x00D04); + (0x00D0D,0x00D0D), `Abs (0x00D0D); + (0x00D11,0x00D11), `Abs (0x00D11); + (0x00D3B,0x00D3C), `Delta (0); + (0x00D45,0x00D45), `Abs (0x00D45); 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+ (0x00EBA,0x00EBA), `Abs (0x00EBA); + (0x00EBE,0x00EBF), `Delta (0); + (0x00EC5,0x00EC5), `Abs (0x00EC5); + (0x00EC7,0x00EC7), `Abs (0x00EC7); + (0x00ECE,0x00ECF), `Delta (0); + (0x00EDA,0x00EDB), `Delta (0); + (0x00EE0,0x00EFF), `Delta (0); + (0x00F48,0x00F48), `Abs (0x00F48); + (0x00F6D,0x00F70), `Delta (0); + (0x00F98,0x00F98), `Abs (0x00F98); + (0x00FBD,0x00FBD), `Abs (0x00FBD); + (0x00FCD,0x00FCD), `Abs (0x00FCD); + (0x00FDB,0x00FFF), `Delta (0); + (0x010C6,0x010C6), `Abs (0x010C6); + (0x010C8,0x010CC), `Delta (0); + (0x010CE,0x010CF), `Delta (0); + (0x01249,0x01249), `Abs (0x01249); + (0x0124E,0x0124F), `Delta (0); + (0x01257,0x01257), `Abs (0x01257); + (0x01259,0x01259), `Abs (0x01259); + (0x0125E,0x0125F), `Delta (0); + (0x01289,0x01289), `Abs (0x01289); + (0x0128E,0x0128F), `Delta (0); + (0x012B1,0x012B1), `Abs (0x012B1); + (0x012B6,0x012B7), `Delta (0); + (0x012BF,0x012BF), `Abs (0x012BF); + (0x012C1,0x012C1), `Abs (0x012C1); + (0x012C6,0x012C7), `Delta (0); + (0x012D7,0x012D7), `Abs (0x012D7); 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+ (0x01FC5,0x01FC5), `Abs (0x01FC5); + (0x01FD4,0x01FD5), `Delta (0); + (0x01FDC,0x01FDC), `Abs (0x01FDC); + (0x01FF0,0x01FF1), `Delta (0); + (0x01FF5,0x01FF5), `Abs (0x01FF5); + (0x01FFF,0x01FFF), `Abs (0x01FFF); + (0x02065,0x02065), `Abs (0x02065); + (0x02072,0x02073), `Delta (0); + (0x0208F,0x0208F), `Abs (0x0208F); + (0x0209D,0x0209F), `Delta (0); + (0x020BF,0x020CF), `Delta (0); + (0x020F1,0x020FF), `Delta (0); + (0x0218C,0x0218F), `Delta (0); + (0x023FF,0x023FF), `Abs (0x023FF); + (0x02427,0x0243F), `Delta (0); + (0x0244B,0x0245F), `Delta (0); + (0x02B74,0x02B75), `Delta (0); + (0x02B96,0x02B97), `Delta (0); + (0x02BBA,0x02BBC), `Delta (0); + (0x02BC9,0x02BC9), `Abs (0x02BC9); + (0x02BD2,0x02BEB), `Delta (0); + (0x02BF0,0x02BFF), `Delta (0); + (0x02C2F,0x02C2F), `Abs (0x02C2F); + (0x02C5F,0x02C5F), `Abs (0x02C5F); + (0x02CF4,0x02CF8), `Delta (0); + (0x02D26,0x02D26), `Abs (0x02D26); + (0x02D28,0x02D2C), `Delta (0); + (0x02D2E,0x02D2F), `Delta (0); + (0x02D68,0x02D6E), `Delta (0); + (0x02D71,0x02D7E), `Delta (0); + (0x02D97,0x02D9F), `Delta (0); + (0x02DA7,0x02DA7), `Abs (0x02DA7); + (0x02DAF,0x02DAF), `Abs (0x02DAF); + (0x02DB7,0x02DB7), `Abs (0x02DB7); + (0x02DBF,0x02DBF), `Abs (0x02DBF); + (0x02DC7,0x02DC7), `Abs (0x02DC7); + (0x02DCF,0x02DCF), `Abs (0x02DCF); + (0x02DD7,0x02DD7), `Abs (0x02DD7); + (0x02DDF,0x02DDF), `Abs (0x02DDF); + (0x02E45,0x02E7F), `Delta (0); + (0x02E9A,0x02E9A), `Abs (0x02E9A); + (0x02EF4,0x02EFF), `Delta (0); + (0x02FD6,0x02FEF), `Delta (0); + (0x02FFC,0x02FFF), `Delta (0); + (0x03040,0x03040), `Abs (0x03040); + (0x03097,0x03098), `Delta (0); + (0x03100,0x03104), `Delta (0); + (0x0312E,0x03130), `Delta (0); + (0x0318F,0x0318F), `Abs (0x0318F); + (0x031BB,0x031BF), `Delta (0); + (0x031E4,0x031EF), `Delta (0); + (0x0321F,0x0321F), `Abs (0x0321F); + (0x032FF,0x032FF), `Abs (0x032FF); + (0x04DB6,0x04DBF), `Delta (0); + (0x09FD6,0x09FFF), `Delta (0); + (0x0A48D,0x0A48F), `Delta (0); + (0x0A4C7,0x0A4CF), `Delta (0); + (0x0A62C,0x0A63F), `Delta (0); + (0x0A6F8,0x0A6FF), `Delta (0); + (0x0A7AF,0x0A7AF), `Abs (0x0A7AF); + (0x0A7B8,0x0A7F6), `Delta (0); + (0x0A82C,0x0A82F), `Delta (0); + (0x0A83A,0x0A83F), `Delta (0); + (0x0A878,0x0A87F), `Delta (0); + (0x0A8C6,0x0A8CD), `Delta (0); + (0x0A8DA,0x0A8DF), `Delta (0); + (0x0A8FE,0x0A8FF), `Delta (0); + (0x0A954,0x0A95E), `Delta (0); + (0x0A97D,0x0A97F), `Delta (0); + (0x0A9CE,0x0A9CE), `Abs (0x0A9CE); + (0x0A9DA,0x0A9DD), `Delta (0); + (0x0A9FF,0x0A9FF), `Abs (0x0A9FF); + (0x0AA37,0x0AA3F), `Delta (0); + (0x0AA4E,0x0AA4F), `Delta (0); + (0x0AA5A,0x0AA5B), `Delta (0); + (0x0AAC3,0x0AADA), `Delta (0); + (0x0AAF7,0x0AB00), `Delta (0); + (0x0AB07,0x0AB08), `Delta (0); + (0x0AB0F,0x0AB10), `Delta (0); + (0x0AB17,0x0AB1F), `Delta (0); + (0x0AB27,0x0AB27), `Abs (0x0AB27); + (0x0AB2F,0x0AB2F), `Abs (0x0AB2F); + (0x0AB66,0x0AB6F), `Delta (0); + (0x0ABEE,0x0ABEF), `Delta (0); + (0x0ABFA,0x0ABFF), `Delta (0); + (0x0D7A4,0x0D7AF), `Delta (0); + (0x0D7C7,0x0D7CA), `Delta (0); + (0x0D7FC,0x0D7FF), `Delta (0); + (0x0FA6E,0x0FA6F), `Delta (0); + (0x0FADA,0x0FAFF), `Delta (0); + (0x0FB07,0x0FB12), `Delta (0); + (0x0FB18,0x0FB1C), `Delta (0); + (0x0FB37,0x0FB37), `Abs (0x0FB37); + (0x0FB3D,0x0FB3D), `Abs (0x0FB3D); + (0x0FB3F,0x0FB3F), `Abs (0x0FB3F); + (0x0FB42,0x0FB42), `Abs (0x0FB42); + (0x0FB45,0x0FB45), `Abs (0x0FB45); + (0x0FBC2,0x0FBD2), `Delta (0); + (0x0FD40,0x0FD4F), `Delta (0); + (0x0FD90,0x0FD91), `Delta (0); + (0x0FDC8,0x0FDEF), `Delta (0); + (0x0FDFE,0x0FDFF), `Delta (0); + (0x0FE1A,0x0FE1F), `Delta (0); + (0x0FE53,0x0FE53), `Abs (0x0FE53); + (0x0FE67,0x0FE67), `Abs (0x0FE67); + (0x0FE6C,0x0FE6F), `Delta (0); + (0x0FE75,0x0FE75), `Abs (0x0FE75); + (0x0FEFD,0x0FEFE), `Delta (0); + (0x0FF00,0x0FF00), `Abs (0x0FF00); + (0x0FFBF,0x0FFC1), `Delta (0); + (0x0FFC8,0x0FFC9), `Delta (0); + (0x0FFD0,0x0FFD1), `Delta (0); + (0x0FFD8,0x0FFD9), `Delta (0); + (0x0FFDD,0x0FFDF), `Delta (0); + (0x0FFE7,0x0FFE7), `Abs (0x0FFE7); + (0x0FFEF,0x0FFF8), `Delta (0); + (0x0FFFE,0x0FFFF), `Delta (0); + (0x1000C,0x1000C), `Abs (0x1000C); + (0x10027,0x10027), `Abs (0x10027); + (0x1003B,0x1003B), `Abs (0x1003B); + (0x1003E,0x1003E), `Abs (0x1003E); + (0x1004E,0x1004F), `Delta (0); + (0x1005E,0x1007F), `Delta (0); + (0x100FB,0x100FF), `Delta (0); + (0x10103,0x10106), `Delta (0); + (0x10134,0x10136), `Delta (0); + (0x1018F,0x1018F), `Abs (0x1018F); + (0x1019C,0x1019F), `Delta (0); + (0x101A1,0x101CF), `Delta (0); + (0x101FE,0x1027F), `Delta (0); + (0x1029D,0x1029F), `Delta (0); + (0x102D1,0x102DF), `Delta (0); + (0x102FC,0x102FF), `Delta (0); + (0x10324,0x1032F), `Delta (0); + (0x1034B,0x1034F), `Delta (0); + (0x1037B,0x1037F), `Delta (0); + (0x1039E,0x1039E), `Abs (0x1039E); + (0x103C4,0x103C7), `Delta (0); + (0x103D6,0x103FF), `Delta (0); + (0x1049E,0x1049F), `Delta (0); + (0x104AA,0x104AF), `Delta (0); + (0x104D4,0x104D7), `Delta (0); + (0x104FC,0x104FF), `Delta (0); + (0x10528,0x1052F), `Delta (0); + (0x10564,0x1056E), `Delta (0); + (0x10570,0x105FF), `Delta (0); + (0x10737,0x1073F), `Delta (0); + (0x10756,0x1075F), `Delta (0); + (0x10768,0x107FF), `Delta (0); + (0x10806,0x10807), `Delta (0); + (0x10809,0x10809), `Abs (0x10809); + (0x10836,0x10836), `Abs (0x10836); + (0x10839,0x1083B), `Delta (0); + (0x1083D,0x1083E), `Delta (0); + (0x10856,0x10856), `Abs (0x10856); + (0x1089F,0x108A6), `Delta (0); + (0x108B0,0x108DF), `Delta (0); + (0x108F3,0x108F3), `Abs (0x108F3); + (0x108F6,0x108FA), `Delta (0); + (0x1091C,0x1091E), `Delta (0); + (0x1093A,0x1093E), `Delta (0); + (0x10940,0x1097F), `Delta (0); + (0x109B8,0x109BB), `Delta (0); + (0x109D0,0x109D1), `Delta (0); + (0x10A04,0x10A04), `Abs (0x10A04); + (0x10A07,0x10A0B), `Delta (0); + (0x10A14,0x10A14), `Abs (0x10A14); + (0x10A18,0x10A18), `Abs (0x10A18); + (0x10A34,0x10A37), `Delta (0); + (0x10A3B,0x10A3E), `Delta (0); + (0x10A48,0x10A4F), `Delta (0); + (0x10A59,0x10A5F), `Delta (0); + (0x10AA0,0x10ABF), `Delta (0); + (0x10AE7,0x10AEA), `Delta (0); + (0x10AF7,0x10AFF), `Delta (0); + (0x10B36,0x10B38), `Delta (0); + (0x10B56,0x10B57), `Delta (0); + (0x10B73,0x10B77), `Delta (0); + (0x10B92,0x10B98), `Delta (0); + (0x10B9D,0x10BA8), `Delta (0); + (0x10BB0,0x10BFF), `Delta (0); + (0x10C49,0x10C7F), `Delta (0); + (0x10CB3,0x10CBF), `Delta (0); + (0x10CF3,0x10CF9), `Delta (0); + (0x10D00,0x10E5F), `Delta (0); + (0x10E7F,0x10FFF), `Delta (0); + (0x1104E,0x11051), `Delta (0); + (0x11070,0x1107E), `Delta (0); + (0x110C2,0x110CF), `Delta (0); + (0x110E9,0x110EF), `Delta (0); + (0x110FA,0x110FF), `Delta (0); + (0x11135,0x11135), `Abs (0x11135); + (0x11144,0x1114F), `Delta (0); + (0x11177,0x1117F), `Delta (0); + (0x111CE,0x111CF), `Delta (0); + (0x111E0,0x111E0), `Abs (0x111E0); + (0x111F5,0x111FF), `Delta (0); + (0x11212,0x11212), `Abs (0x11212); + (0x1123F,0x1127F), `Delta (0); + (0x11287,0x11287), `Abs (0x11287); + (0x11289,0x11289), `Abs (0x11289); + (0x1128E,0x1128E), `Abs (0x1128E); + (0x1129E,0x1129E), `Abs (0x1129E); + (0x112AA,0x112AF), `Delta (0); + (0x112EB,0x112EF), `Delta (0); + (0x112FA,0x112FF), `Delta (0); + (0x11304,0x11304), `Abs (0x11304); + (0x1130D,0x1130E), `Delta (0); + (0x11311,0x11312), `Delta (0); + (0x11329,0x11329), `Abs (0x11329); + (0x11331,0x11331), `Abs (0x11331); + (0x11334,0x11334), `Abs (0x11334); + (0x1133A,0x1133B), `Delta (0); + (0x11345,0x11346), `Delta (0); + (0x11349,0x1134A), `Delta (0); + (0x1134E,0x1134F), `Delta (0); + (0x11351,0x11356), `Delta (0); + (0x11358,0x1135C), `Delta (0); + (0x11364,0x11365), `Delta (0); + (0x1136D,0x1136F), `Delta (0); + (0x11375,0x113FF), `Delta (0); + (0x1145A,0x1145A), `Abs (0x1145A); + (0x1145C,0x1145C), `Abs (0x1145C); + (0x1145E,0x1147F), `Delta (0); + (0x114C8,0x114CF), `Delta (0); + (0x114DA,0x1157F), `Delta (0); + (0x115B6,0x115B7), `Delta (0); + (0x115DE,0x115FF), `Delta (0); + (0x11645,0x1164F), `Delta (0); + (0x1165A,0x1165F), `Delta (0); + (0x1166D,0x1167F), `Delta (0); + (0x116B8,0x116BF), `Delta (0); + (0x116CA,0x116FF), `Delta (0); + (0x1171A,0x1171C), `Delta (0); + (0x1172C,0x1172F), `Delta (0); + (0x11740,0x1189F), `Delta (0); + (0x118F3,0x118FE), `Delta (0); + (0x11900,0x11ABF), `Delta (0); + (0x11AF9,0x11BFF), `Delta (0); + (0x11C09,0x11C09), `Abs (0x11C09); + (0x11C37,0x11C37), `Abs (0x11C37); + (0x11C46,0x11C4F), `Delta (0); + (0x11C6D,0x11C6F), `Delta (0); + (0x11C90,0x11C91), `Delta (0); + (0x11CA8,0x11CA8), `Abs (0x11CA8); + (0x11CB7,0x11FFF), `Delta (0); + (0x1239A,0x123FF), `Delta (0); + (0x1246F,0x1246F), `Abs (0x1246F); + (0x12475,0x1247F), `Delta (0); + (0x12544,0x12FFF), `Delta (0); + (0x1342F,0x143FF), `Delta (0); + (0x14647,0x167FF), `Delta (0); + (0x16A39,0x16A3F), `Delta (0); + (0x16A5F,0x16A5F), `Abs (0x16A5F); + (0x16A6A,0x16A6D), `Delta (0); + (0x16A70,0x16ACF), `Delta (0); + (0x16AEE,0x16AEF), `Delta (0); + (0x16AF6,0x16AFF), `Delta (0); + (0x16B46,0x16B4F), `Delta (0); + (0x16B5A,0x16B5A), `Abs (0x16B5A); + (0x16B62,0x16B62), `Abs (0x16B62); + (0x16B78,0x16B7C), `Delta (0); + (0x16B90,0x16EFF), `Delta (0); + (0x16F45,0x16F4F), `Delta (0); + (0x16F7F,0x16F8E), `Delta (0); + (0x16FA0,0x16FDF), `Delta (0); + (0x16FE1,0x16FFF), `Delta (0); + (0x187ED,0x187FF), `Delta (0); + (0x18AF3,0x1AFFF), `Delta (0); + (0x1B002,0x1BBFF), `Delta (0); + (0x1BC6B,0x1BC6F), `Delta (0); + (0x1BC7D,0x1BC7F), `Delta (0); + (0x1BC89,0x1BC8F), `Delta (0); + (0x1BC9A,0x1BC9B), `Delta (0); + (0x1BCA4,0x1CFFF), `Delta (0); + (0x1D0F6,0x1D0FF), `Delta (0); + (0x1D127,0x1D128), `Delta (0); + (0x1D1E9,0x1D1FF), `Delta (0); + (0x1D246,0x1D2FF), `Delta (0); + (0x1D357,0x1D35F), `Delta (0); + (0x1D372,0x1D3FF), `Delta (0); + (0x1D455,0x1D455), `Abs (0x1D455); + (0x1D49D,0x1D49D), `Abs (0x1D49D); + (0x1D4A0,0x1D4A1), `Delta (0); + (0x1D4A3,0x1D4A4), `Delta (0); + (0x1D4A7,0x1D4A8), `Delta (0); + (0x1D4AD,0x1D4AD), `Abs (0x1D4AD); + (0x1D4BA,0x1D4BA), `Abs (0x1D4BA); + (0x1D4BC,0x1D4BC), `Abs (0x1D4BC); + (0x1D4C4,0x1D4C4), `Abs (0x1D4C4); + (0x1D506,0x1D506), `Abs (0x1D506); + (0x1D50B,0x1D50C), `Delta (0); + (0x1D515,0x1D515), `Abs (0x1D515); + (0x1D51D,0x1D51D), `Abs (0x1D51D); + (0x1D53A,0x1D53A), `Abs (0x1D53A); + (0x1D53F,0x1D53F), `Abs (0x1D53F); + (0x1D545,0x1D545), `Abs (0x1D545); + (0x1D547,0x1D549), `Delta (0); + (0x1D551,0x1D551), `Abs (0x1D551); + (0x1D6A6,0x1D6A7), `Delta (0); + (0x1D7CC,0x1D7CD), `Delta (0); + (0x1DA8C,0x1DA9A), `Delta (0); + (0x1DAA0,0x1DAA0), `Abs (0x1DAA0); + (0x1DAB0,0x1DFFF), `Delta (0); + (0x1E007,0x1E007), `Abs (0x1E007); + (0x1E019,0x1E01A), `Delta (0); + (0x1E022,0x1E022), `Abs (0x1E022); + (0x1E025,0x1E025), `Abs (0x1E025); + (0x1E02B,0x1E7FF), `Delta (0); + (0x1E8C5,0x1E8C6), `Delta (0); + (0x1E8D7,0x1E8FF), `Delta (0); + (0x1E94B,0x1E94F), `Delta (0); + (0x1E95A,0x1E95D), `Delta (0); + (0x1E960,0x1EDFF), `Delta (0); + (0x1EE04,0x1EE04), `Abs (0x1EE04); + (0x1EE20,0x1EE20), `Abs (0x1EE20); + (0x1EE23,0x1EE23), `Abs (0x1EE23); + (0x1EE25,0x1EE26), `Delta (0); + (0x1EE28,0x1EE28), `Abs (0x1EE28); + (0x1EE33,0x1EE33), `Abs (0x1EE33); + (0x1EE38,0x1EE38), `Abs (0x1EE38); + (0x1EE3A,0x1EE3A), `Abs (0x1EE3A); + (0x1EE3C,0x1EE41), `Delta (0); + (0x1EE43,0x1EE46), `Delta (0); + (0x1EE48,0x1EE48), `Abs (0x1EE48); + (0x1EE4A,0x1EE4A), `Abs (0x1EE4A); + (0x1EE4C,0x1EE4C), `Abs (0x1EE4C); + (0x1EE50,0x1EE50), `Abs (0x1EE50); + (0x1EE53,0x1EE53), `Abs (0x1EE53); + (0x1EE55,0x1EE56), `Delta (0); + (0x1EE58,0x1EE58), `Abs (0x1EE58); + (0x1EE5A,0x1EE5A), `Abs (0x1EE5A); + (0x1EE5C,0x1EE5C), `Abs (0x1EE5C); + (0x1EE5E,0x1EE5E), `Abs (0x1EE5E); + (0x1EE60,0x1EE60), `Abs (0x1EE60); + (0x1EE63,0x1EE63), `Abs (0x1EE63); + (0x1EE65,0x1EE66), `Delta (0); + (0x1EE6B,0x1EE6B), `Abs (0x1EE6B); + (0x1EE73,0x1EE73), `Abs (0x1EE73); + (0x1EE78,0x1EE78), `Abs (0x1EE78); + (0x1EE7D,0x1EE7D), `Abs (0x1EE7D); + (0x1EE7F,0x1EE7F), `Abs (0x1EE7F); + (0x1EE8A,0x1EE8A), `Abs (0x1EE8A); + (0x1EE9C,0x1EEA0), `Delta (0); + (0x1EEA4,0x1EEA4), `Abs (0x1EEA4); + (0x1EEAA,0x1EEAA), `Abs (0x1EEAA); + (0x1EEBC,0x1EEEF), `Delta (0); + (0x1EEF2,0x1EFFF), `Delta (0); + (0x1F02C,0x1F02F), `Delta (0); + (0x1F094,0x1F09F), `Delta (0); + (0x1F0AF,0x1F0B0), `Delta (0); + (0x1F0C0,0x1F0C0), `Abs (0x1F0C0); + (0x1F0D0,0x1F0D0), `Abs (0x1F0D0); + (0x1F0F6,0x1F0FF), `Delta (0); + (0x1F10D,0x1F10F), `Delta (0); + (0x1F12F,0x1F12F), `Abs (0x1F12F); + (0x1F16C,0x1F16F), `Delta (0); + (0x1F1AD,0x1F1E5), `Delta (0); + (0x1F203,0x1F20F), `Delta (0); + (0x1F23C,0x1F23F), `Delta (0); + (0x1F249,0x1F24F), `Delta (0); + (0x1F252,0x1F2FF), `Delta (0); + (0x1F6D3,0x1F6DF), `Delta (0); + (0x1F6ED,0x1F6EF), `Delta (0); + (0x1F6F7,0x1F6FF), `Delta (0); + (0x1F774,0x1F77F), `Delta (0); + (0x1F7D5,0x1F7FF), `Delta (0); + (0x1F80C,0x1F80F), `Delta (0); + (0x1F848,0x1F84F), `Delta (0); + (0x1F85A,0x1F85F), `Delta (0); + (0x1F888,0x1F88F), `Delta (0); + (0x1F8AE,0x1F90F), `Delta (0); + (0x1F91F,0x1F91F), `Abs (0x1F91F); + (0x1F928,0x1F92F), `Delta (0); + (0x1F931,0x1F932), `Delta (0); + (0x1F93F,0x1F93F), `Abs (0x1F93F); + (0x1F94C,0x1F94F), `Delta (0); + (0x1F95F,0x1F97F), `Delta (0); + (0x1F992,0x1F9BF), `Delta (0); + (0x1F9C1,0x1FFFF), `Delta (0); + (0x2A6D7,0x2A6FF), `Delta (0); + (0x2B735,0x2B73F), `Delta (0); + (0x2B81E,0x2B81F), `Delta (0); + (0x2CEA2,0x2F7FF), `Delta (0); + (0x2FA1E,0xE0000), `Delta (0); + (0xE0002,0xE001F), `Delta (0); + (0xE0080,0xE00FF), `Delta (0); + (0xE01F0,0xEFFFF), `Delta (0); + (0xFFFFE,0xFFFFF), `Delta (0); + (0x10FFFE,0x10FFFF), `Delta (0); + (0x002B0,0x002C1), `Delta (0); + (0x002C6,0x002D1), `Delta (0); + (0x002E0,0x002E4), `Delta (0); + (0x002EC,0x002EC), `Abs (0x002EC); + (0x002EE,0x002EE), `Abs (0x002EE); + (0x00374,0x00374), `Abs (0x00374); + (0x0037A,0x0037A), `Abs (0x0037A); + (0x00559,0x00559), `Abs (0x00559); + (0x00640,0x00640), `Abs (0x00640); + (0x006E5,0x006E6), `Delta (0); + (0x007F4,0x007F5), `Delta (0); + (0x007FA,0x007FA), `Abs (0x007FA); + (0x0081A,0x0081A), `Abs (0x0081A); + (0x00824,0x00824), `Abs (0x00824); + (0x00828,0x00828), `Abs (0x00828); + (0x00971,0x00971), `Abs (0x00971); + (0x00E46,0x00E46), `Abs (0x00E46); + (0x00EC6,0x00EC6), `Abs (0x00EC6); + (0x010FC,0x010FC), `Abs (0x010FC); + (0x017D7,0x017D7), `Abs (0x017D7); + (0x01843,0x01843), `Abs (0x01843); + (0x01AA7,0x01AA7), `Abs (0x01AA7); + (0x01C78,0x01C7D), `Delta (0); 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+ (0x0A882,0x0A8B3), `Delta (0); + (0x0A8F2,0x0A8F7), `Delta (0); + (0x0A8FB,0x0A8FB), `Abs (0x0A8FB); + (0x0A8FD,0x0A8FD), `Abs (0x0A8FD); + (0x0A90A,0x0A925), `Delta (0); + (0x0A930,0x0A946), `Delta (0); + (0x0A960,0x0A97C), `Delta (0); + (0x0A984,0x0A9B2), `Delta (0); + (0x0A9E0,0x0A9E4), `Delta (0); + (0x0A9E7,0x0A9EF), `Delta (0); + (0x0A9FA,0x0A9FE), `Delta (0); + (0x0AA00,0x0AA28), `Delta (0); + (0x0AA40,0x0AA42), `Delta (0); + (0x0AA44,0x0AA4B), `Delta (0); + (0x0AA60,0x0AA6F), `Delta (0); + (0x0AA71,0x0AA76), `Delta (0); + (0x0AA7A,0x0AA7A), `Abs (0x0AA7A); + (0x0AA7E,0x0AAAF), `Delta (0); + (0x0AAB1,0x0AAB1), `Abs (0x0AAB1); + (0x0AAB5,0x0AAB6), `Delta (0); + (0x0AAB9,0x0AABD), `Delta (0); + (0x0AAC0,0x0AAC0), `Abs (0x0AAC0); + (0x0AAC2,0x0AAC2), `Abs (0x0AAC2); + (0x0AADB,0x0AADC), `Delta (0); + (0x0AAE0,0x0AAEA), `Delta (0); + (0x0AAF2,0x0AAF2), `Abs (0x0AAF2); + (0x0AB01,0x0AB06), `Delta (0); + (0x0AB09,0x0AB0E), `Delta (0); + (0x0AB11,0x0AB16), `Delta (0); + (0x0AB20,0x0AB26), `Delta (0); + (0x0AB28,0x0AB2E), `Delta (0); + (0x0ABC0,0x0ABE2), `Delta (0); + (0x0AC00,0x0D7A3), `Delta (0); + (0x0D7B0,0x0D7C6), `Delta (0); + (0x0D7CB,0x0D7FB), `Delta (0); + (0x0F900,0x0FA6D), `Delta (0); + (0x0FA70,0x0FAD9), `Delta (0); + (0x0FB1D,0x0FB1D), `Abs (0x0FB1D); + (0x0FB1F,0x0FB28), `Delta (0); + (0x0FB2A,0x0FB36), `Delta (0); + (0x0FB38,0x0FB3C), `Delta (0); + (0x0FB3E,0x0FB3E), `Abs (0x0FB3E); + (0x0FB40,0x0FB41), `Delta (0); + (0x0FB43,0x0FB44), `Delta (0); + (0x0FB46,0x0FBB1), `Delta (0); + (0x0FBD3,0x0FD3D), `Delta (0); + (0x0FD50,0x0FD8F), `Delta (0); + (0x0FD92,0x0FDC7), `Delta (0); + (0x0FDF0,0x0FDFB), `Delta (0); + (0x0FE70,0x0FE74), `Delta (0); + (0x0FE76,0x0FEFC), `Delta (0); + (0x0FF66,0x0FF6F), `Delta (0); + (0x0FF71,0x0FF9D), `Delta (0); + (0x0FFA0,0x0FFBE), `Delta (0); + (0x0FFC2,0x0FFC7), `Delta (0); + (0x0FFCA,0x0FFCF), `Delta (0); + (0x0FFD2,0x0FFD7), `Delta (0); + (0x0FFDA,0x0FFDC), `Delta (0); + (0x10000,0x1000B), `Delta (0); + (0x1000D,0x10026), `Delta (0); + (0x10028,0x1003A), `Delta (0); + (0x1003C,0x1003D), `Delta (0); + (0x1003F,0x1004D), `Delta (0); + (0x10050,0x1005D), `Delta (0); + (0x10080,0x100FA), `Delta (0); + (0x10280,0x1029C), `Delta (0); + (0x102A0,0x102D0), `Delta (0); + (0x10300,0x1031F), `Delta (0); + (0x10330,0x10340), `Delta (0); + (0x10342,0x10349), `Delta (0); + (0x10350,0x10375), `Delta (0); + (0x10380,0x1039D), `Delta (0); + (0x103A0,0x103C3), `Delta (0); + (0x103C8,0x103CF), `Delta (0); + (0x10450,0x1049D), `Delta (0); + (0x10500,0x10527), `Delta (0); + (0x10530,0x10563), `Delta (0); + (0x10600,0x10736), `Delta (0); + (0x10740,0x10755), `Delta (0); + (0x10760,0x10767), `Delta (0); + (0x10800,0x10805), `Delta (0); + (0x10808,0x10808), `Abs (0x10808); + (0x1080A,0x10835), `Delta (0); + (0x10837,0x10838), `Delta (0); + (0x1083C,0x1083C), `Abs (0x1083C); + (0x1083F,0x10855), `Delta (0); + (0x10860,0x10876), `Delta (0); + (0x10880,0x1089E), `Delta (0); + (0x108E0,0x108F2), `Delta (0); + (0x108F4,0x108F5), `Delta (0); + (0x10900,0x10915), `Delta (0); + (0x10920,0x10939), `Delta (0); + (0x10980,0x109B7), `Delta (0); + (0x109BE,0x109BF), `Delta (0); + (0x10A00,0x10A00), `Abs (0x10A00); + (0x10A10,0x10A13), `Delta (0); + (0x10A15,0x10A17), `Delta (0); + (0x10A19,0x10A33), `Delta (0); + (0x10A60,0x10A7C), `Delta (0); + (0x10A80,0x10A9C), `Delta (0); + (0x10AC0,0x10AC7), `Delta (0); + (0x10AC9,0x10AE4), `Delta (0); + (0x10B00,0x10B35), `Delta (0); + (0x10B40,0x10B55), `Delta (0); + (0x10B60,0x10B72), `Delta (0); + (0x10B80,0x10B91), `Delta (0); + (0x10C00,0x10C48), `Delta (0); + (0x11003,0x11037), `Delta (0); + (0x11083,0x110AF), `Delta (0); + (0x110D0,0x110E8), `Delta (0); + (0x11103,0x11126), `Delta (0); + (0x11150,0x11172), `Delta (0); + (0x11176,0x11176), `Abs (0x11176); + (0x11183,0x111B2), `Delta (0); + (0x111C1,0x111C4), `Delta (0); + (0x111DA,0x111DA), `Abs (0x111DA); + (0x111DC,0x111DC), `Abs (0x111DC); + (0x11200,0x11211), `Delta (0); + (0x11213,0x1122B), `Delta (0); + (0x11280,0x11286), `Delta (0); + (0x11288,0x11288), `Abs (0x11288); + (0x1128A,0x1128D), `Delta (0); + (0x1128F,0x1129D), `Delta (0); + (0x1129F,0x112A8), `Delta (0); + (0x112B0,0x112DE), `Delta (0); + (0x11305,0x1130C), `Delta (0); + (0x1130F,0x11310), `Delta (0); + (0x11313,0x11328), `Delta (0); + (0x1132A,0x11330), `Delta (0); + (0x11332,0x11333), `Delta (0); + (0x11335,0x11339), `Delta (0); + (0x1133D,0x1133D), `Abs (0x1133D); + (0x11350,0x11350), `Abs (0x11350); + (0x1135D,0x11361), `Delta (0); + (0x11400,0x11434), `Delta (0); + (0x11447,0x1144A), `Delta (0); + (0x11480,0x114AF), `Delta (0); + (0x114C4,0x114C5), `Delta (0); + (0x114C7,0x114C7), `Abs (0x114C7); + (0x11580,0x115AE), `Delta (0); + (0x115D8,0x115DB), `Delta (0); + (0x11600,0x1162F), `Delta (0); + (0x11644,0x11644), `Abs (0x11644); + (0x11680,0x116AA), `Delta (0); + (0x11700,0x11719), `Delta (0); + (0x118FF,0x118FF), `Abs (0x118FF); + (0x11AC0,0x11AF8), `Delta (0); + (0x11C00,0x11C08), `Delta (0); + (0x11C0A,0x11C2E), `Delta (0); + (0x11C40,0x11C40), `Abs (0x11C40); + (0x11C72,0x11C8F), `Delta (0); + (0x12000,0x12399), `Delta (0); + (0x12480,0x12543), `Delta (0); + (0x13000,0x1342E), `Delta (0); + (0x14400,0x14646), `Delta (0); + (0x16800,0x16A38), `Delta (0); + (0x16A40,0x16A5E), `Delta (0); + (0x16AD0,0x16AED), `Delta (0); + (0x16B00,0x16B2F), `Delta (0); + (0x16B63,0x16B77), `Delta (0); + (0x16B7D,0x16B8F), `Delta (0); + (0x16F00,0x16F44), `Delta (0); + (0x16F50,0x16F50), `Abs (0x16F50); + (0x17000,0x187EC), `Delta (0); + (0x18800,0x18AF2), `Delta (0); + (0x1B000,0x1B001), `Delta (0); + (0x1BC00,0x1BC6A), `Delta (0); + (0x1BC70,0x1BC7C), `Delta (0); + (0x1BC80,0x1BC88), `Delta (0); + (0x1BC90,0x1BC99), `Delta (0); + (0x1E800,0x1E8C4), `Delta (0); + (0x1EE00,0x1EE03), `Delta (0); + (0x1EE05,0x1EE1F), `Delta (0); + (0x1EE21,0x1EE22), `Delta (0); + (0x1EE24,0x1EE24), `Abs (0x1EE24); + (0x1EE27,0x1EE27), `Abs (0x1EE27); + (0x1EE29,0x1EE32), `Delta (0); + (0x1EE34,0x1EE37), `Delta (0); + (0x1EE39,0x1EE39), `Abs (0x1EE39); + (0x1EE3B,0x1EE3B), `Abs (0x1EE3B); + (0x1EE42,0x1EE42), `Abs (0x1EE42); + (0x1EE47,0x1EE47), `Abs (0x1EE47); + (0x1EE49,0x1EE49), `Abs (0x1EE49); + (0x1EE4B,0x1EE4B), `Abs (0x1EE4B); + (0x1EE4D,0x1EE4F), `Delta (0); + (0x1EE51,0x1EE52), `Delta (0); + (0x1EE54,0x1EE54), `Abs (0x1EE54); + (0x1EE57,0x1EE57), `Abs (0x1EE57); + (0x1EE59,0x1EE59), `Abs (0x1EE59); + (0x1EE5B,0x1EE5B), `Abs (0x1EE5B); + (0x1EE5D,0x1EE5D), `Abs (0x1EE5D); + (0x1EE5F,0x1EE5F), `Abs (0x1EE5F); + (0x1EE61,0x1EE62), `Delta (0); + (0x1EE64,0x1EE64), `Abs (0x1EE64); + (0x1EE67,0x1EE6A), `Delta (0); + (0x1EE6C,0x1EE72), `Delta (0); + (0x1EE74,0x1EE77), `Delta (0); + (0x1EE79,0x1EE7C), `Delta (0); + (0x1EE7E,0x1EE7E), `Abs (0x1EE7E); + (0x1EE80,0x1EE89), `Delta (0); + (0x1EE8B,0x1EE9B), `Delta (0); + (0x1EEA1,0x1EEA3), `Delta (0); + (0x1EEA5,0x1EEA9), `Delta (0); + (0x1EEAB,0x1EEBB), `Delta (0); + (0x20000,0x2A6D6), `Delta (0); + (0x2A700,0x2B734), `Delta (0); + (0x2B740,0x2B81D), `Delta (0); + (0x2B820,0x2CEA1), `Delta (0); + (0x2F800,0x2FA1D), `Delta (0); + (0x0005F,0x0005F), `Abs (0x0005F); + (0x0203F,0x02040), `Delta (0); + (0x02054,0x02054), `Abs (0x02054); + (0x0FE33,0x0FE34), `Delta (0); + (0x0FE4D,0x0FE4F), `Delta (0); + (0x0FF3F,0x0FF3F), `Abs (0x0FF3F); + (0x0002D,0x0002D), `Abs (0x0002D); + (0x0058A,0x0058A), `Abs (0x0058A); + (0x005BE,0x005BE), `Abs (0x005BE); + (0x01400,0x01400), `Abs (0x01400); + (0x01806,0x01806), `Abs (0x01806); + (0x02010,0x02015), `Delta (0); + (0x02E17,0x02E17), `Abs (0x02E17); + (0x02E1A,0x02E1A), `Abs (0x02E1A); + (0x02E3A,0x02E3B), `Delta (0); + (0x02E40,0x02E40), `Abs (0x02E40); + (0x0301C,0x0301C), `Abs (0x0301C); + (0x03030,0x03030), `Abs (0x03030); + (0x030A0,0x030A0), `Abs (0x030A0); + (0x0FE31,0x0FE32), `Delta (0); + (0x0FE58,0x0FE58), `Abs (0x0FE58); + (0x0FE63,0x0FE63), `Abs (0x0FE63); + (0x0FF0D,0x0FF0D), `Abs (0x0FF0D); + (0x00028,0x00028), `Abs (0x00028); + (0x0005B,0x0005B), `Abs (0x0005B); + (0x0007B,0x0007B), `Abs (0x0007B); + (0x00F3A,0x00F3A), `Abs (0x00F3A); + (0x00F3C,0x00F3C), `Abs (0x00F3C); + (0x0169B,0x0169B), `Abs (0x0169B); + (0x0201A,0x0201A), `Abs (0x0201A); + (0x0201E,0x0201E), `Abs (0x0201E); + (0x02045,0x02045), `Abs (0x02045); + (0x0207D,0x0207D), `Abs (0x0207D); + (0x0208D,0x0208D), `Abs (0x0208D); + (0x02308,0x02308), `Abs (0x02308); + (0x0230A,0x0230A), `Abs (0x0230A); + (0x02329,0x02329), `Abs (0x02329); + (0x02768,0x02768), `Abs (0x02768); + (0x0276A,0x0276A), `Abs (0x0276A); + (0x0276C,0x0276C), `Abs (0x0276C); + (0x0276E,0x0276E), `Abs (0x0276E); + (0x02770,0x02770), `Abs (0x02770); + (0x02772,0x02772), `Abs (0x02772); + (0x02774,0x02774), `Abs (0x02774); + (0x027C5,0x027C5), `Abs (0x027C5); + (0x027E6,0x027E6), `Abs (0x027E6); + (0x027E8,0x027E8), `Abs (0x027E8); + (0x027EA,0x027EA), `Abs (0x027EA); + (0x027EC,0x027EC), `Abs (0x027EC); + (0x027EE,0x027EE), `Abs (0x027EE); + (0x02983,0x02983), `Abs (0x02983); + (0x02985,0x02985), `Abs (0x02985); + (0x02987,0x02987), `Abs (0x02987); + (0x02989,0x02989), `Abs (0x02989); + (0x0298B,0x0298B), `Abs (0x0298B); + (0x0298D,0x0298D), `Abs (0x0298D); + (0x0298F,0x0298F), `Abs (0x0298F); + (0x02991,0x02991), `Abs (0x02991); + (0x02993,0x02993), `Abs (0x02993); + (0x02995,0x02995), `Abs (0x02995); + (0x02997,0x02997), `Abs (0x02997); + (0x029D8,0x029D8), `Abs (0x029D8); + (0x029DA,0x029DA), `Abs (0x029DA); + (0x029FC,0x029FC), `Abs (0x029FC); + (0x02E22,0x02E22), `Abs (0x02E22); + (0x02E24,0x02E24), `Abs (0x02E24); + (0x02E26,0x02E26), `Abs (0x02E26); + (0x02E28,0x02E28), `Abs (0x02E28); + (0x02E42,0x02E42), `Abs (0x02E42); + (0x03008,0x03008), `Abs (0x03008); + (0x0300A,0x0300A), `Abs (0x0300A); + (0x0300C,0x0300C), `Abs (0x0300C); + (0x0300E,0x0300E), `Abs (0x0300E); + (0x03010,0x03010), `Abs (0x03010); + (0x03014,0x03014), `Abs (0x03014); + (0x03016,0x03016), `Abs (0x03016); + (0x03018,0x03018), `Abs (0x03018); + (0x0301A,0x0301A), `Abs (0x0301A); + (0x0301D,0x0301D), `Abs (0x0301D); + (0x0FD3F,0x0FD3F), `Abs (0x0FD3F); + (0x0FE17,0x0FE17), `Abs (0x0FE17); + (0x0FE35,0x0FE35), `Abs (0x0FE35); + (0x0FE37,0x0FE37), `Abs (0x0FE37); + (0x0FE39,0x0FE39), `Abs (0x0FE39); + (0x0FE3B,0x0FE3B), `Abs (0x0FE3B); + (0x0FE3D,0x0FE3D), `Abs (0x0FE3D); + (0x0FE3F,0x0FE3F), `Abs (0x0FE3F); + (0x0FE41,0x0FE41), `Abs (0x0FE41); + (0x0FE43,0x0FE43), `Abs (0x0FE43); + (0x0FE47,0x0FE47), `Abs (0x0FE47); + (0x0FE59,0x0FE59), `Abs (0x0FE59); + (0x0FE5B,0x0FE5B), `Abs (0x0FE5B); + (0x0FE5D,0x0FE5D), `Abs (0x0FE5D); + (0x0FF08,0x0FF08), `Abs (0x0FF08); + (0x0FF3B,0x0FF3B), `Abs (0x0FF3B); + (0x0FF5B,0x0FF5B), `Abs (0x0FF5B); + (0x0FF5F,0x0FF5F), `Abs (0x0FF5F); + (0x0FF62,0x0FF62), `Abs (0x0FF62); + (0x00029,0x00029), `Abs (0x00029); + (0x0005D,0x0005D), `Abs (0x0005D); + (0x0007D,0x0007D), `Abs (0x0007D); + (0x00F3B,0x00F3B), `Abs (0x00F3B); + (0x00F3D,0x00F3D), `Abs (0x00F3D); + (0x0169C,0x0169C), `Abs (0x0169C); + (0x02046,0x02046), `Abs (0x02046); + (0x0207E,0x0207E), `Abs (0x0207E); + (0x0208E,0x0208E), `Abs (0x0208E); + (0x02309,0x02309), `Abs (0x02309); + (0x0230B,0x0230B), `Abs (0x0230B); + (0x0232A,0x0232A), `Abs (0x0232A); + (0x02769,0x02769), `Abs (0x02769); + (0x0276B,0x0276B), `Abs (0x0276B); + (0x0276D,0x0276D), `Abs (0x0276D); + (0x0276F,0x0276F), `Abs (0x0276F); + (0x02771,0x02771), `Abs (0x02771); + (0x02773,0x02773), `Abs (0x02773); + (0x02775,0x02775), `Abs (0x02775); + (0x027C6,0x027C6), `Abs (0x027C6); + (0x027E7,0x027E7), `Abs (0x027E7); + (0x027E9,0x027E9), `Abs (0x027E9); + (0x027EB,0x027EB), `Abs (0x027EB); + (0x027ED,0x027ED), `Abs (0x027ED); + (0x027EF,0x027EF), `Abs (0x027EF); + (0x02984,0x02984), `Abs (0x02984); + (0x02986,0x02986), `Abs (0x02986); + (0x02988,0x02988), `Abs (0x02988); + (0x0298A,0x0298A), `Abs (0x0298A); + (0x0298C,0x0298C), `Abs (0x0298C); + (0x0298E,0x0298E), `Abs (0x0298E); + (0x02990,0x02990), `Abs (0x02990); + (0x02992,0x02992), `Abs (0x02992); + (0x02994,0x02994), `Abs (0x02994); + (0x02996,0x02996), `Abs (0x02996); + (0x02998,0x02998), `Abs (0x02998); + (0x029D9,0x029D9), `Abs (0x029D9); + (0x029DB,0x029DB), `Abs (0x029DB); + (0x029FD,0x029FD), `Abs (0x029FD); + (0x02E23,0x02E23), `Abs (0x02E23); + (0x02E25,0x02E25), `Abs (0x02E25); + (0x02E27,0x02E27), `Abs (0x02E27); + (0x02E29,0x02E29), `Abs (0x02E29); + (0x03009,0x03009), `Abs (0x03009); + (0x0300B,0x0300B), `Abs (0x0300B); + (0x0300D,0x0300D), `Abs (0x0300D); + (0x0300F,0x0300F), `Abs (0x0300F); + (0x03011,0x03011), `Abs (0x03011); + (0x03015,0x03015), `Abs (0x03015); + (0x03017,0x03017), `Abs (0x03017); + (0x03019,0x03019), `Abs (0x03019); + (0x0301B,0x0301B), `Abs (0x0301B); + (0x0301E,0x0301F), `Delta (0); + (0x0FD3E,0x0FD3E), `Abs (0x0FD3E); + (0x0FE18,0x0FE18), `Abs (0x0FE18); + (0x0FE36,0x0FE36), `Abs (0x0FE36); + (0x0FE38,0x0FE38), `Abs (0x0FE38); + (0x0FE3A,0x0FE3A), `Abs (0x0FE3A); + (0x0FE3C,0x0FE3C), `Abs (0x0FE3C); + (0x0FE3E,0x0FE3E), `Abs (0x0FE3E); + (0x0FE40,0x0FE40), `Abs (0x0FE40); + (0x0FE42,0x0FE42), `Abs (0x0FE42); + (0x0FE44,0x0FE44), `Abs (0x0FE44); + (0x0FE48,0x0FE48), `Abs (0x0FE48); + (0x0FE5A,0x0FE5A), `Abs (0x0FE5A); + (0x0FE5C,0x0FE5C), `Abs (0x0FE5C); + (0x0FE5E,0x0FE5E), `Abs (0x0FE5E); + (0x0FF09,0x0FF09), `Abs (0x0FF09); + (0x0FF3D,0x0FF3D), `Abs (0x0FF3D); + (0x0FF5D,0x0FF5D), `Abs (0x0FF5D); + (0x0FF60,0x0FF60), `Abs (0x0FF60); + (0x0FF63,0x0FF63), `Abs (0x0FF63); + (0x000AB,0x000AB), `Abs (0x000AB); + (0x02018,0x02018), `Abs (0x02018); + (0x0201B,0x0201C), `Delta (0); + (0x0201F,0x0201F), `Abs (0x0201F); + (0x02039,0x02039), `Abs (0x02039); + (0x02E02,0x02E02), `Abs (0x02E02); + (0x02E04,0x02E04), `Abs (0x02E04); + (0x02E09,0x02E09), `Abs (0x02E09); + (0x02E0C,0x02E0C), `Abs (0x02E0C); + (0x02E1C,0x02E1C), `Abs (0x02E1C); + (0x02E20,0x02E20), `Abs (0x02E20); + (0x000BB,0x000BB), `Abs (0x000BB); + (0x02019,0x02019), `Abs (0x02019); + (0x0201D,0x0201D), `Abs (0x0201D); + (0x0203A,0x0203A), `Abs (0x0203A); + (0x02E03,0x02E03), `Abs (0x02E03); + (0x02E05,0x02E05), `Abs (0x02E05); + (0x02E0A,0x02E0A), `Abs (0x02E0A); + (0x02E0D,0x02E0D), `Abs (0x02E0D); + (0x02E1D,0x02E1D), `Abs (0x02E1D); + (0x02E21,0x02E21), `Abs (0x02E21); + (0x00021,0x00023), `Delta (0); + (0x00025,0x00027), `Delta (0); + (0x0002A,0x0002A), `Abs (0x0002A); + (0x0002C,0x0002C), `Abs (0x0002C); + (0x0002E,0x0002F), `Delta (0); + (0x0003A,0x0003B), `Delta (0); + (0x0003F,0x00040), `Delta (0); + (0x0005C,0x0005C), `Abs (0x0005C); + (0x000A1,0x000A1), `Abs (0x000A1); + (0x000A7,0x000A7), `Abs (0x000A7); + (0x000B6,0x000B7), `Delta (0); + (0x000BF,0x000BF), `Abs (0x000BF); + (0x0037E,0x0037E), `Abs (0x0037E); + (0x00387,0x00387), `Abs (0x00387); + (0x0055A,0x0055F), `Delta (0); + (0x00589,0x00589), `Abs (0x00589); + (0x005C0,0x005C0), `Abs (0x005C0); + (0x005C3,0x005C3), `Abs (0x005C3); + (0x005C6,0x005C6), `Abs (0x005C6); + (0x005F3,0x005F4), `Delta (0); + (0x00609,0x0060A), `Delta (0); + (0x0060C,0x0060D), `Delta (0); + (0x0061B,0x0061B), `Abs (0x0061B); + (0x0061E,0x0061F), `Delta (0); + (0x0066A,0x0066D), `Delta (0); + (0x006D4,0x006D4), `Abs (0x006D4); + (0x00700,0x0070D), `Delta (0); + (0x007F7,0x007F9), `Delta (0); + (0x00830,0x0083E), `Delta (0); + (0x0085E,0x0085E), `Abs (0x0085E); + (0x00964,0x00965), `Delta (0); + (0x00970,0x00970), `Abs (0x00970); + (0x00AF0,0x00AF0), `Abs (0x00AF0); + (0x00DF4,0x00DF4), `Abs (0x00DF4); + (0x00E4F,0x00E4F), `Abs (0x00E4F); + (0x00E5A,0x00E5B), `Delta (0); + (0x00F04,0x00F12), `Delta (0); + (0x00F14,0x00F14), `Abs (0x00F14); + (0x00F85,0x00F85), `Abs (0x00F85); + (0x00FD0,0x00FD4), `Delta (0); + (0x00FD9,0x00FDA), `Delta (0); + (0x0104A,0x0104F), `Delta (0); + (0x010FB,0x010FB), `Abs (0x010FB); + (0x01360,0x01368), `Delta (0); + (0x0166D,0x0166E), `Delta (0); + (0x016EB,0x016ED), `Delta (0); + (0x01735,0x01736), `Delta (0); + (0x017D4,0x017D6), `Delta (0); + (0x017D8,0x017DA), `Delta (0); + (0x01800,0x01805), `Delta (0); + (0x01807,0x0180A), `Delta (0); + (0x01944,0x01945), `Delta (0); + (0x01A1E,0x01A1F), `Delta (0); + (0x01AA0,0x01AA6), `Delta (0); + (0x01AA8,0x01AAD), `Delta (0); + (0x01B5A,0x01B60), `Delta (0); + (0x01BFC,0x01BFF), `Delta (0); + (0x01C3B,0x01C3F), `Delta (0); + (0x01C7E,0x01C7F), `Delta (0); + (0x01CC0,0x01CC7), `Delta (0); + (0x01CD3,0x01CD3), `Abs (0x01CD3); + (0x02016,0x02017), `Delta (0); + (0x02020,0x02027), `Delta (0); + (0x02030,0x02038), `Delta (0); + (0x0203B,0x0203E), `Delta (0); + (0x02041,0x02043), `Delta (0); + (0x02047,0x02051), `Delta (0); + (0x02053,0x02053), `Abs (0x02053); + (0x02055,0x0205E), `Delta (0); + (0x02CF9,0x02CFC), `Delta (0); + (0x02CFE,0x02CFF), `Delta (0); + (0x02D70,0x02D70), `Abs (0x02D70); + (0x02E00,0x02E01), `Delta (0); + (0x02E06,0x02E08), `Delta (0); + (0x02E0B,0x02E0B), `Abs (0x02E0B); + (0x02E0E,0x02E16), `Delta (0); + (0x02E18,0x02E19), `Delta (0); + (0x02E1B,0x02E1B), `Abs (0x02E1B); + (0x02E1E,0x02E1F), `Delta (0); + (0x02E2A,0x02E2E), `Delta (0); + (0x02E30,0x02E39), `Delta (0); + (0x02E3C,0x02E3F), `Delta (0); + (0x02E41,0x02E41), `Abs (0x02E41); + (0x02E43,0x02E44), `Delta (0); + (0x03001,0x03003), `Delta (0); + (0x0303D,0x0303D), `Abs (0x0303D); + (0x030FB,0x030FB), `Abs (0x030FB); + (0x0A4FE,0x0A4FF), `Delta (0); + (0x0A60D,0x0A60F), `Delta (0); + (0x0A673,0x0A673), `Abs (0x0A673); + (0x0A67E,0x0A67E), `Abs (0x0A67E); + (0x0A6F2,0x0A6F7), `Delta (0); + (0x0A874,0x0A877), `Delta (0); + (0x0A8CE,0x0A8CF), `Delta (0); + (0x0A8F8,0x0A8FA), `Delta (0); + (0x0A8FC,0x0A8FC), `Abs (0x0A8FC); + (0x0A92E,0x0A92F), `Delta (0); + (0x0A95F,0x0A95F), `Abs (0x0A95F); + (0x0A9C1,0x0A9CD), `Delta (0); + (0x0A9DE,0x0A9DF), `Delta (0); + (0x0AA5C,0x0AA5F), `Delta (0); + (0x0AADE,0x0AADF), `Delta (0); + (0x0AAF0,0x0AAF1), `Delta (0); + (0x0ABEB,0x0ABEB), `Abs (0x0ABEB); + (0x0FE10,0x0FE16), `Delta (0); + (0x0FE19,0x0FE19), `Abs (0x0FE19); + (0x0FE30,0x0FE30), `Abs (0x0FE30); + (0x0FE45,0x0FE46), `Delta (0); + (0x0FE49,0x0FE4C), `Delta (0); + (0x0FE50,0x0FE52), `Delta (0); + (0x0FE54,0x0FE57), `Delta (0); + (0x0FE5F,0x0FE61), `Delta (0); + (0x0FE68,0x0FE68), `Abs (0x0FE68); + (0x0FE6A,0x0FE6B), `Delta (0); + (0x0FF01,0x0FF03), `Delta (0); + (0x0FF05,0x0FF07), `Delta (0); + (0x0FF0A,0x0FF0A), `Abs (0x0FF0A); + (0x0FF0C,0x0FF0C), `Abs (0x0FF0C); + (0x0FF0E,0x0FF0F), `Delta (0); + (0x0FF1A,0x0FF1B), `Delta (0); + (0x0FF1F,0x0FF20), `Delta (0); + (0x0FF3C,0x0FF3C), `Abs (0x0FF3C); + (0x0FF61,0x0FF61), `Abs (0x0FF61); + (0x0FF64,0x0FF65), `Delta (0); + (0x10100,0x10102), `Delta (0); + (0x1039F,0x1039F), `Abs (0x1039F); + (0x103D0,0x103D0), `Abs (0x103D0); + (0x1056F,0x1056F), `Abs (0x1056F); + (0x10857,0x10857), `Abs (0x10857); + (0x1091F,0x1091F), `Abs (0x1091F); + (0x1093F,0x1093F), `Abs (0x1093F); + (0x10A50,0x10A58), `Delta (0); + (0x10A7F,0x10A7F), `Abs (0x10A7F); + (0x10AF0,0x10AF6), `Delta (0); + (0x10B39,0x10B3F), `Delta (0); + (0x10B99,0x10B9C), `Delta (0); + (0x11047,0x1104D), `Delta (0); + (0x110BB,0x110BC), `Delta (0); + (0x110BE,0x110C1), `Delta (0); + (0x11140,0x11143), `Delta (0); + (0x11174,0x11175), `Delta (0); + (0x111C5,0x111C9), `Delta (0); + (0x111CD,0x111CD), `Abs (0x111CD); + (0x111DB,0x111DB), `Abs (0x111DB); + (0x111DD,0x111DF), `Delta (0); + (0x11238,0x1123D), `Delta (0); + (0x112A9,0x112A9), `Abs (0x112A9); + (0x1144B,0x1144F), `Delta (0); + (0x1145B,0x1145B), `Abs (0x1145B); + (0x1145D,0x1145D), `Abs (0x1145D); + (0x114C6,0x114C6), `Abs (0x114C6); + (0x115C1,0x115D7), `Delta (0); + (0x11641,0x11643), `Delta (0); + (0x11660,0x1166C), `Delta (0); + (0x1173C,0x1173E), `Delta (0); + (0x11C41,0x11C45), `Delta (0); + (0x11C70,0x11C71), `Delta (0); + (0x12470,0x12474), `Delta (0); + (0x16A6E,0x16A6F), `Delta (0); + (0x16AF5,0x16AF5), `Abs (0x16AF5); + (0x16B37,0x16B3B), `Delta (0); + (0x16B44,0x16B44), `Abs (0x16B44); + (0x1BC9F,0x1BC9F), `Abs (0x1BC9F); + (0x1DA87,0x1DA8B), `Delta (0); + (0x1E95E,0x1E95F), `Delta (0); + (0x0002B,0x0002B), `Abs (0x0002B); + (0x0003C,0x0003E), `Delta (0); + (0x0007C,0x0007C), `Abs (0x0007C); + (0x0007E,0x0007E), `Abs (0x0007E); + (0x000AC,0x000AC), `Abs (0x000AC); + (0x000B1,0x000B1), `Abs (0x000B1); + (0x000D7,0x000D7), `Abs (0x000D7); + (0x000F7,0x000F7), `Abs (0x000F7); + (0x003F6,0x003F6), `Abs (0x003F6); + (0x00606,0x00608), `Delta (0); + (0x02044,0x02044), `Abs (0x02044); + (0x02052,0x02052), `Abs (0x02052); + (0x0207A,0x0207C), `Delta (0); + (0x0208A,0x0208C), `Delta (0); + (0x02118,0x02118), `Abs (0x02118); + (0x02140,0x02144), `Delta (0); + (0x0214B,0x0214B), `Abs (0x0214B); + (0x02190,0x02194), `Delta (0); + (0x0219A,0x0219B), `Delta (0); + (0x021A0,0x021A0), `Abs (0x021A0); + (0x021A3,0x021A3), `Abs (0x021A3); + (0x021A6,0x021A6), `Abs (0x021A6); + (0x021AE,0x021AE), `Abs (0x021AE); + (0x021CE,0x021CF), `Delta (0); + (0x021D2,0x021D2), `Abs (0x021D2); + (0x021D4,0x021D4), `Abs (0x021D4); + (0x021F4,0x022FF), `Delta (0); + (0x02320,0x02321), `Delta (0); + (0x0237C,0x0237C), `Abs (0x0237C); + (0x0239B,0x023B3), `Delta (0); + (0x023DC,0x023E1), `Delta (0); + (0x025B7,0x025B7), `Abs (0x025B7); + (0x025C1,0x025C1), `Abs (0x025C1); + (0x025F8,0x025FF), `Delta (0); + (0x0266F,0x0266F), `Abs (0x0266F); + (0x027C0,0x027C4), `Delta (0); + (0x027C7,0x027E5), `Delta (0); + (0x027F0,0x027FF), `Delta (0); + (0x02900,0x02982), `Delta (0); + (0x02999,0x029D7), `Delta (0); + (0x029DC,0x029FB), `Delta (0); + (0x029FE,0x02AFF), `Delta (0); + (0x02B30,0x02B44), `Delta (0); + (0x02B47,0x02B4C), `Delta (0); + (0x0FB29,0x0FB29), `Abs (0x0FB29); + (0x0FE62,0x0FE62), `Abs (0x0FE62); + (0x0FE64,0x0FE66), `Delta (0); + (0x0FF0B,0x0FF0B), `Abs (0x0FF0B); + (0x0FF1C,0x0FF1E), `Delta (0); + (0x0FF5C,0x0FF5C), `Abs (0x0FF5C); + (0x0FF5E,0x0FF5E), `Abs (0x0FF5E); + (0x0FFE2,0x0FFE2), `Abs (0x0FFE2); + (0x0FFE9,0x0FFEC), `Delta (0); + (0x1D6C1,0x1D6C1), `Abs (0x1D6C1); + (0x1D6DB,0x1D6DB), `Abs (0x1D6DB); + (0x1D6FB,0x1D6FB), `Abs (0x1D6FB); + (0x1D715,0x1D715), `Abs (0x1D715); + (0x1D735,0x1D735), `Abs (0x1D735); + (0x1D74F,0x1D74F), `Abs (0x1D74F); + (0x1D76F,0x1D76F), `Abs (0x1D76F); + (0x1D789,0x1D789), `Abs (0x1D789); + (0x1D7A9,0x1D7A9), `Abs (0x1D7A9); + (0x1D7C3,0x1D7C3), `Abs (0x1D7C3); + (0x1EEF0,0x1EEF1), `Delta (0); + (0x00024,0x00024), `Abs (0x00024); + (0x000A2,0x000A5), `Delta (0); + (0x0058F,0x0058F), `Abs (0x0058F); + (0x0060B,0x0060B), `Abs (0x0060B); + (0x009F2,0x009F3), `Delta (0); + (0x009FB,0x009FB), `Abs (0x009FB); + (0x00AF1,0x00AF1), `Abs (0x00AF1); + (0x00BF9,0x00BF9), `Abs (0x00BF9); + (0x00E3F,0x00E3F), `Abs (0x00E3F); + (0x017DB,0x017DB), `Abs (0x017DB); + (0x020A0,0x020BE), `Delta (0); + (0x0A838,0x0A838), `Abs (0x0A838); + (0x0FDFC,0x0FDFC), `Abs (0x0FDFC); + (0x0FE69,0x0FE69), `Abs (0x0FE69); + (0x0FF04,0x0FF04), `Abs (0x0FF04); + (0x0FFE0,0x0FFE1), `Delta (0); + (0x0FFE5,0x0FFE6), `Delta (0); + (0x0005E,0x0005E), `Abs (0x0005E); + (0x00060,0x00060), `Abs (0x00060); + (0x000A8,0x000A8), `Abs (0x000A8); + (0x000AF,0x000AF), `Abs (0x000AF); + (0x000B4,0x000B4), `Abs (0x000B4); + (0x000B8,0x000B8), `Abs (0x000B8); + (0x002C2,0x002C5), `Delta (0); + (0x002D2,0x002DF), `Delta (0); + (0x002E5,0x002EB), `Delta (0); + (0x002ED,0x002ED), `Abs (0x002ED); + (0x002EF,0x002FF), `Delta (0); + (0x00375,0x00375), `Abs (0x00375); + (0x00384,0x00385), `Delta (0); + (0x01FBD,0x01FBD), `Abs (0x01FBD); + (0x01FBF,0x01FC1), `Delta (0); + (0x01FCD,0x01FCF), `Delta (0); + (0x01FDD,0x01FDF), `Delta (0); + (0x01FED,0x01FEF), `Delta (0); + (0x01FFD,0x01FFE), `Delta (0); + (0x0309B,0x0309C), `Delta (0); + (0x0A700,0x0A716), `Delta (0); + (0x0A720,0x0A721), `Delta (0); + (0x0A789,0x0A78A), `Delta (0); + (0x0AB5B,0x0AB5B), `Abs (0x0AB5B); + (0x0FBB2,0x0FBC1), `Delta (0); + (0x0FF3E,0x0FF3E), `Abs (0x0FF3E); + (0x0FF40,0x0FF40), `Abs (0x0FF40); + (0x0FFE3,0x0FFE3), `Abs (0x0FFE3); + (0x1F3FB,0x1F3FF), `Delta (0); + (0x000A6,0x000A6), `Abs (0x000A6); + (0x000A9,0x000A9), `Abs (0x000A9); + (0x000AE,0x000AE), `Abs (0x000AE); + (0x000B0,0x000B0), `Abs (0x000B0); + (0x00482,0x00482), `Abs (0x00482); + (0x0058D,0x0058E), `Delta (0); + (0x0060E,0x0060F), `Delta (0); + (0x006DE,0x006DE), `Abs (0x006DE); + (0x006E9,0x006E9), `Abs (0x006E9); + (0x006FD,0x006FE), `Delta (0); + (0x007F6,0x007F6), `Abs (0x007F6); + (0x009FA,0x009FA), `Abs (0x009FA); + (0x00B70,0x00B70), `Abs (0x00B70); + (0x00BF3,0x00BF8), `Delta (0); + (0x00BFA,0x00BFA), `Abs (0x00BFA); + (0x00C7F,0x00C7F), `Abs (0x00C7F); + (0x00D4F,0x00D4F), `Abs (0x00D4F); + (0x00D79,0x00D79), `Abs (0x00D79); + (0x00F01,0x00F03), `Delta (0); + (0x00F13,0x00F13), `Abs (0x00F13); + (0x00F15,0x00F17), `Delta (0); + (0x00F1A,0x00F1F), `Delta (0); + (0x00F34,0x00F34), `Abs (0x00F34); + (0x00F36,0x00F36), `Abs (0x00F36); + (0x00F38,0x00F38), `Abs (0x00F38); + (0x00FBE,0x00FC5), `Delta (0); + (0x00FC7,0x00FCC), `Delta (0); + (0x00FCE,0x00FCF), `Delta (0); + (0x00FD5,0x00FD8), `Delta (0); + (0x0109E,0x0109F), `Delta (0); + (0x01390,0x01399), `Delta (0); + (0x01940,0x01940), `Abs (0x01940); + (0x019DE,0x019FF), `Delta (0); + (0x01B61,0x01B6A), `Delta (0); + (0x01B74,0x01B7C), `Delta (0); + (0x02100,0x02101), `Delta (0); + (0x02103,0x02106), `Delta (0); + (0x02108,0x02109), `Delta (0); + (0x02114,0x02114), `Abs (0x02114); + (0x02116,0x02117), `Delta (0); + (0x0211E,0x02123), `Delta (0); + (0x02125,0x02125), `Abs (0x02125); + (0x02127,0x02127), `Abs (0x02127); + (0x02129,0x02129), `Abs (0x02129); + (0x0212E,0x0212E), `Abs (0x0212E); + (0x0213A,0x0213B), `Delta (0); + (0x0214A,0x0214A), `Abs (0x0214A); + (0x0214C,0x0214D), `Delta (0); + (0x0214F,0x0214F), `Abs (0x0214F); + (0x0218A,0x0218B), `Delta (0); + (0x02195,0x02199), `Delta (0); + (0x0219C,0x0219F), `Delta (0); + (0x021A1,0x021A2), `Delta (0); + (0x021A4,0x021A5), `Delta (0); + (0x021A7,0x021AD), `Delta (0); + (0x021AF,0x021CD), `Delta (0); + (0x021D0,0x021D1), `Delta (0); + (0x021D3,0x021D3), `Abs (0x021D3); + (0x021D5,0x021F3), `Delta (0); + (0x02300,0x02307), `Delta (0); + (0x0230C,0x0231F), `Delta (0); + (0x02322,0x02328), `Delta (0); + (0x0232B,0x0237B), `Delta (0); + (0x0237D,0x0239A), `Delta (0); + (0x023B4,0x023DB), `Delta (0); + (0x023E2,0x023FE), `Delta (0); + (0x02400,0x02426), `Delta (0); + (0x02440,0x0244A), `Delta (0); + (0x0249C,0x024B5), `Delta (0); + (0x024B6,0x024CF), `Delta (26); + (0x024D0,0x024E9), `Delta (0); + (0x02500,0x025B6), `Delta (0); + (0x025B8,0x025C0), `Delta (0); + (0x025C2,0x025F7), `Delta (0); + (0x02600,0x0266E), `Delta (0); + (0x02670,0x02767), `Delta (0); + (0x02794,0x027BF), `Delta (0); + (0x02800,0x028FF), `Delta (0); + (0x02B00,0x02B2F), `Delta (0); + (0x02B45,0x02B46), `Delta (0); + (0x02B4D,0x02B73), `Delta (0); + (0x02B76,0x02B95), `Delta (0); + (0x02B98,0x02BB9), `Delta (0); + (0x02BBD,0x02BC8), `Delta (0); + (0x02BCA,0x02BD1), `Delta (0); + (0x02BEC,0x02BEF), `Delta (0); + (0x02CE5,0x02CEA), `Delta (0); + (0x02E80,0x02E99), `Delta (0); + (0x02E9B,0x02EF3), `Delta (0); + (0x02F00,0x02FD5), `Delta (0); + (0x02FF0,0x02FFB), `Delta (0); + (0x03004,0x03004), `Abs (0x03004); + (0x03012,0x03013), `Delta (0); + (0x03020,0x03020), `Abs (0x03020); + (0x03036,0x03037), `Delta (0); + (0x0303E,0x0303F), `Delta (0); + (0x03190,0x03191), `Delta (0); + (0x03196,0x0319F), `Delta (0); + (0x031C0,0x031E3), `Delta (0); + (0x03200,0x0321E), `Delta (0); + (0x0322A,0x03247), `Delta (0); + (0x03250,0x03250), `Abs (0x03250); + (0x03260,0x0327F), `Delta (0); + (0x0328A,0x032B0), `Delta (0); + (0x032C0,0x032FE), `Delta (0); + (0x03300,0x033FF), `Delta (0); + (0x04DC0,0x04DFF), `Delta (0); + (0x0A490,0x0A4C6), `Delta (0); + (0x0A828,0x0A82B), `Delta (0); + (0x0A836,0x0A837), `Delta (0); + (0x0A839,0x0A839), `Abs (0x0A839); + (0x0AA77,0x0AA79), `Delta (0); + (0x0FDFD,0x0FDFD), `Abs (0x0FDFD); + (0x0FFE4,0x0FFE4), `Abs (0x0FFE4); + (0x0FFE8,0x0FFE8), `Abs (0x0FFE8); + (0x0FFED,0x0FFEE), `Delta (0); + (0x0FFFC,0x0FFFD), `Delta (0); + (0x10137,0x1013F), `Delta (0); + (0x10179,0x10189), `Delta (0); + (0x1018C,0x1018E), `Delta (0); + (0x10190,0x1019B), `Delta (0); + (0x101A0,0x101A0), `Abs (0x101A0); + (0x101D0,0x101FC), `Delta (0); + (0x10877,0x10878), `Delta (0); + (0x10AC8,0x10AC8), `Abs (0x10AC8); + (0x1173F,0x1173F), `Abs (0x1173F); + (0x16B3C,0x16B3F), `Delta (0); + (0x16B45,0x16B45), `Abs (0x16B45); + (0x1BC9C,0x1BC9C), `Abs (0x1BC9C); + (0x1D000,0x1D0F5), `Delta (0); + (0x1D100,0x1D126), `Delta (0); + (0x1D129,0x1D164), `Delta (0); + (0x1D16A,0x1D16C), `Delta (0); + (0x1D183,0x1D184), `Delta (0); + (0x1D18C,0x1D1A9), `Delta (0); + (0x1D1AE,0x1D1E8), `Delta (0); + (0x1D200,0x1D241), `Delta (0); + (0x1D245,0x1D245), `Abs (0x1D245); + (0x1D300,0x1D356), `Delta (0); + (0x1D800,0x1D9FF), `Delta (0); + (0x1DA37,0x1DA3A), `Delta (0); + (0x1DA6D,0x1DA74), `Delta (0); + (0x1DA76,0x1DA83), `Delta (0); + (0x1DA85,0x1DA86), `Delta (0); + (0x1F000,0x1F02B), `Delta (0); + (0x1F030,0x1F093), `Delta (0); + (0x1F0A0,0x1F0AE), `Delta (0); + (0x1F0B1,0x1F0BF), `Delta (0); + (0x1F0C1,0x1F0CF), `Delta (0); + (0x1F0D1,0x1F0F5), `Delta (0); + (0x1F110,0x1F12E), `Delta (0); + (0x1F130,0x1F16B), `Delta (0); + (0x1F170,0x1F1AC), `Delta (0); + (0x1F1E6,0x1F202), `Delta (0); + (0x1F210,0x1F23B), `Delta (0); + (0x1F240,0x1F248), `Delta (0); + (0x1F250,0x1F251), `Delta (0); + (0x1F300,0x1F3FA), `Delta (0); + (0x1F400,0x1F6D2), `Delta (0); + (0x1F6E0,0x1F6EC), `Delta (0); + (0x1F6F0,0x1F6F6), `Delta (0); + (0x1F700,0x1F773), `Delta (0); + (0x1F780,0x1F7D4), `Delta (0); + (0x1F800,0x1F80B), `Delta (0); + (0x1F810,0x1F847), `Delta (0); + (0x1F850,0x1F859), `Delta (0); + (0x1F860,0x1F887), `Delta (0); + (0x1F890,0x1F8AD), `Delta (0); + (0x1F910,0x1F91E), `Delta (0); + (0x1F920,0x1F927), `Delta (0); + (0x1F930,0x1F930), `Abs (0x1F930); + (0x1F933,0x1F93E), `Delta (0); + (0x1F940,0x1F94B), `Delta (0); + (0x1F950,0x1F95E), `Delta (0); + (0x1F980,0x1F991), `Delta (0) +];; diff --git a/clib/unionfind.ml b/clib/unionfind.ml new file mode 100644 index 00000000..980064a6 --- /dev/null +++ b/clib/unionfind.ml @@ -0,0 +1,138 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t + + (** Add (in place) an element in the partition, or do nothing + if the element is already in the partition. *) + val add : elt -> t -> unit + + (** Find the canonical representative of an element. + Raise [not_found] if the element isn't known yet. *) + val find : elt -> t -> elt + + (** Merge (in place) the equivalence classes of two elements. + This will add the elements in the partition if necessary. *) + val union : elt -> elt -> t -> unit + + (** Merge (in place) the equivalence classes of many elements. *) + val union_set : set -> t -> unit + + (** Listing the different components of the partition *) + val partition : t -> set list + +end + +module type SetS = +sig + type t + type elt + val singleton : elt -> t + val union : t -> t -> t + val choose : t -> elt + val iter : (elt -> unit) -> t -> unit +end + +module type MapS = +sig + type key + type +'a t + val empty : 'a t + val find : key -> 'a t -> 'a + val add : key -> 'a -> 'a t -> 'a t + val mem : key -> 'a t -> bool + val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b +end + +module Make (S:SetS)(M:MapS with type key = S.elt) = struct + + type elt = S.elt + type set = S.t + + type node = + | Canon of set + | Equiv of elt + + type t = node ref M.t ref + + let create () = ref (M.empty : node ref M.t) + + let fresh x p = + let node = ref (Canon (S.singleton x)) in + p := M.add x node !p; + x, node + + let rec lookup x p = + let node = M.find x !p in + match !node with + | Canon _ -> x, node + | Equiv y -> + let ((z,_) as res) = lookup y p in + if not (z == y) then node := Equiv z; + res + + let add x p = if not (M.mem x !p) then ignore (fresh x p) + + let find x p = fst (lookup x p) + + let canonical x p = try lookup x p with Not_found -> fresh x p + + let union x y p = + let ((x,_) as xcan) = canonical x p in + let ((y,_) as ycan) = canonical y p in + if x = y then () + else + let xcan, ycan = if x < y then xcan, ycan else ycan, xcan in + let x,xnode = xcan and y,ynode = ycan in + match !xnode, !ynode with + | Canon lx, Canon ly -> + xnode := Canon (S.union lx ly); + ynode := Equiv x; + | _ -> assert false + + let union_set s p = + try + let x = S.choose s in + S.iter (fun y -> union x y p) s + with Not_found -> () + + let partition p = + List.rev (M.fold + (fun x node acc -> match !node with + | Equiv _ -> acc + | Canon lx -> lx::acc) + !p []) + +end diff --git a/clib/unionfind.mli b/clib/unionfind.mli new file mode 100644 index 00000000..e5a3a438 --- /dev/null +++ b/clib/unionfind.mli @@ -0,0 +1,82 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* t + + (** Add (in place) an element in the partition, or do nothing + if the element is already in the partition. *) + val add : elt -> t -> unit + + (** Find the canonical representative of an element. + Raise [not_found] if the element isn't known yet. *) + val find : elt -> t -> elt + + (** Merge (in place) the equivalence classes of two elements. + This will add the elements in the partition if necessary. *) + val union : elt -> elt -> t -> unit + + (** Merge (in place) the equivalence classes of many elements. *) + val union_set : set -> t -> unit + + (** Listing the different components of the partition *) + val partition : t -> set list + +end + +module type SetS = +sig + type t + type elt + val singleton : elt -> t + val union : t -> t -> t + val choose : t -> elt + val iter : (elt -> unit) -> t -> unit +end +(** Minimal interface for sets, subtype of stdlib's Set. *) + +module type MapS = +sig + type key + type +'a t + val empty : 'a t + val find : key -> 'a t -> 'a + val add : key -> 'a -> 'a t -> 'a t + val mem : key -> 'a t -> bool + val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b +end +(** Minimal interface for maps, subtype of stdlib's Map. *) + +module Make : + functor (S:SetS) -> + functor (M:MapS with type key = S.elt) -> + PartitionSig with type elt = S.elt and type set = S.t -- cgit v1.2.3