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(**************************************************************************)
(* *)
(* SMTCoq *)
(* Copyright (C) 2011 - 2022 *)
(* *)
(* See file "AUTHORS" for the list of authors *)
(* *)
(* This file is distributed under the terms of the CeCILL-C licence *)
(* *)
(**************************************************************************)
(** Sharing of coq Int *)
let cInt_tbl = Hashtbl.create 17
let mkInt i =
try Hashtbl.find cInt_tbl i
with Not_found ->
let ci = CoqInterface.mkInt i in
Hashtbl.add cInt_tbl i ci;
ci
(** Generic representation of shared object *)
type 'a gen_hashed = { index : int; mutable hval : 'a }
(** Functions over constr *)
let mklApp f args = CoqInterface.mkApp (Lazy.force f, args)
let string_of_name_def d n = try CoqInterface.string_of_name n with | _ -> d
let string_coq_constr t =
let rec fix rf x = rf (fix rf) x in
let pr = fix
Ppconstr.modular_constr_pr Pp.mt CoqInterface.ppconstr_lsimpleconstr in
Pp.string_of_ppcmds (pr (CoqInterface.constrextern_extern_constr t))
(** Logics *)
type logic_item =
| LUF
| LLia
| LBitvectors
| LArrays
module SL = Set.Make (struct
type t = logic_item
let compare = Stdlib.compare
end)
type logic = SL.t
(** Utils *)
let rec filter_map f = function
| [] -> []
| x::xs -> match f x with Some x -> x::(filter_map f xs) | None -> filter_map f xs
(** Lexing *)
let char_for_backslash = function
| 'n' -> '\010'
| 'r' -> '\013'
| 'b' -> '\008'
| 't' -> '\009'
| c -> c
let lf = '\010'
let dec_code c1 c2 c3 =
100 * (Char.code c1 - 48) + 10 * (Char.code c2 - 48) + (Char.code c3 - 48)
let hex_code c1 c2 =
let d1 = Char.code c1 in
let val1 =
if d1 >= 97 then d1 - 87
else if d1 >= 65 then d1 - 55
else d1 - 48 in
let d2 = Char.code c2 in
let val2 =
if d2 >= 97 then d2 - 87
else if d2 >= 65 then d2 - 55
else d2 - 48 in
val1 * 16 + val2
let found_newline (lexbuf:Lexing.lexbuf) diff =
lexbuf.Lexing.lex_curr_p <-
{
lexbuf.Lexing.lex_curr_p with
Lexing.pos_lnum = lexbuf.Lexing.lex_curr_p.Lexing.pos_lnum + 1;
Lexing.pos_bol = lexbuf.Lexing.lex_curr_p.Lexing.pos_cnum - diff;
}
(* same length computation as in [Lexing.lexeme] *)
let lexeme_len { Lexing.lex_start_pos; Lexing.lex_curr_pos; _ } = lex_curr_pos - lex_start_pos
let main_failure lexbuf msg =
let { Lexing.pos_lnum; Lexing.pos_bol; Lexing.pos_cnum; Lexing.pos_fname = _ } = Lexing.lexeme_start_p lexbuf in
let msg =
Printf.sprintf
"Sexplib.Lexer.main: %s at line %d char %d"
msg pos_lnum (pos_cnum - pos_bol)
in
failwith msg
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