src/HOL/Tools/Sledgehammer/sledgehammer_proof_reconstruct.ML
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proof reconstruction for full FOF terms
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(*  Title:      HOL/Tools/Sledgehammer/sledgehammer_proof_reconstruct.ML
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    Author:     Lawrence C Paulson and Claire Quigley, Cambridge University Computer Laboratory
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    Author:     Jasmin Blanchette, TU Muenchen
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Transfer of proofs from external provers.
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*)
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signature SLEDGEHAMMER_PROOF_RECONSTRUCT =
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sig
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  type minimize_command = string list -> string
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  val metis_line: bool -> int -> int -> string list -> string
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  val metis_proof_text:
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    bool * minimize_command * string * string vector * thm * int
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    -> string * string list
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  val isar_proof_text:
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    string Symtab.table * bool * int * Proof.context * int list list
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    -> bool * minimize_command * string * string vector * thm * int
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    -> string * string list
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  val proof_text:
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    bool -> string Symtab.table * bool * int * Proof.context * int list list
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    -> bool * minimize_command * string * string vector * thm * int
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    -> string * string list
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end;
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structure Sledgehammer_Proof_Reconstruct : SLEDGEHAMMER_PROOF_RECONSTRUCT =
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struct
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open Metis_Clauses
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open Sledgehammer_Util
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open Sledgehammer_Fact_Filter
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open Sledgehammer_TPTP_Format
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type minimize_command = string list -> string
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fun mk_anot phi = AConn (ANot, [phi])
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fun mk_aconn c (phi1, phi2) = AConn (c, [phi1, phi2])
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val index_in_shape : int -> int list list -> int =
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  find_index o exists o curry (op =)
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fun is_axiom_clause_number thm_names num =
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  num > 0 andalso num <= Vector.length thm_names andalso
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  Vector.sub (thm_names, num - 1) <> ""
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fun is_conjecture_clause_number conjecture_shape num =
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  index_in_shape num conjecture_shape >= 0
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fun smart_lambda v t =
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  Abs (case v of
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         Const (s, _) =>
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         List.last (space_explode skolem_infix (Long_Name.base_name s))
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       | Var ((s, _), _) => s
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       | Free (s, _) => s
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       | _ => "", fastype_of v, abstract_over (v, t))
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fun forall_of v t = HOLogic.all_const (fastype_of v) $ smart_lambda v t
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fun negate_term (Const (@{const_name All}, T) $ Abs (s, T', t')) =
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    Const (@{const_name Ex}, T) $ Abs (s, T', negate_term t')
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  | negate_term (Const (@{const_name Ex}, T) $ Abs (s, T', t')) =
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    Const (@{const_name All}, T) $ Abs (s, T', negate_term t')
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  | negate_term (@{const "op -->"} $ t1 $ t2) =
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    @{const "op &"} $ t1 $ negate_term t2
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  | negate_term (@{const "op &"} $ t1 $ t2) =
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    @{const "op |"} $ negate_term t1 $ negate_term t2
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  | negate_term (@{const "op |"} $ t1 $ t2) =
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    @{const "op &"} $ negate_term t1 $ negate_term t2
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  | negate_term (@{const Not} $ t) = t
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  | negate_term t = @{const Not} $ t
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datatype ('a, 'b, 'c, 'd, 'e) raw_step =
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  Definition of 'a * 'b * 'c |
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  Inference of 'a * 'd * 'e list
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(**** PARSING OF TSTP FORMAT ****)
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datatype int_or_string = Str of string | Int of int
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(*Strings enclosed in single quotes, e.g. filenames*)
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val scan_quoted = $$ "'" |-- Scan.repeat (~$$ "'") --| $$ "'" >> implode;
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val scan_dollar_name =
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  Scan.repeat ($$ "$") -- Symbol.scan_id >> (fn (ss, s) => implode ss ^ s)
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(* needed for SPASS's output format *)
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fun repair_name _ "$true" = "c_True"
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  | repair_name _ "$false" = "c_False"
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  | repair_name _ "$$e" = "c_equal" (* seen in Vampire 11 proofs *)
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  | repair_name _ "equal" = "c_equal" (* probably not needed *)
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  | repair_name pool s = Symtab.lookup pool s |> the_default s
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(* Generalized first-order terms, which include file names, numbers, etc. *)
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(* The "x" argument is not strictly necessary, but without it Poly/ML loops
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   forever at compile time. *)
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fun parse_generalized_term x =
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  (scan_quoted >> (fn s => ATerm (Str s, []))
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   || scan_dollar_name
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      -- Scan.optional ($$ "(" |-- parse_generalized_terms --| $$ ")") []
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      >> (fn (s, gs) => ATerm (Str s, gs))
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   || scan_integer >> (fn k => ATerm (Int k, []))
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   || $$ "(" |-- parse_generalized_term --| $$ ")"
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   || $$ "[" |-- Scan.optional parse_generalized_terms [] --| $$ "]"
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      >> curry ATerm (Str "list")) x
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and parse_generalized_terms x =
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  (parse_generalized_term ::: Scan.repeat ($$ "," |-- parse_generalized_term)) x
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fun parse_term pool x =
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  ((scan_dollar_name >> repair_name pool)
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    -- Scan.optional ($$ "(" |-- parse_terms pool --| $$ ")") [] >> ATerm) x
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and parse_terms pool x =
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  (parse_term pool ::: Scan.repeat ($$ "," |-- parse_term pool)) x
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fun parse_predicate_term pool =
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  parse_term pool -- Scan.option (Scan.option ($$ "!") --| $$ "="
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                                  -- parse_term pool)
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  >> (fn (u, NONE) => APred u
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       | (u1, SOME (NONE, u2)) => APred (ATerm ("c_equal", [u1, u2]))
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       | (u1, SOME (SOME _, u2)) =>
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         mk_anot (APred (ATerm ("c_equal", [u1, u2]))))
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fun fo_term_head (ATerm (s, _)) = s
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(* TPTP formulas are fully parenthesized, so we don't need to worry about
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   operator precedence. *)
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fun parse_formula pool x =
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  (($$ "(" |-- parse_formula pool --| $$ ")"
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    || ($$ "!" >> K AForall || $$ "?" >> K AExists)
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       --| $$ "[" -- parse_terms pool --| $$ "]" --| $$ ":"
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       -- parse_formula pool
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       >> (fn ((q, ts), phi) => AQuant (q, map fo_term_head ts, phi))
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    || $$ "~" |-- parse_formula pool >> mk_anot
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    || parse_predicate_term pool)
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   -- Scan.option ((Scan.this_string "=>" >> K AImplies
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                    || Scan.this_string "<=>" >> K AIff
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                    || Scan.this_string "<~>" >> K ANotIff
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                    || Scan.this_string "<=" >> K AIf
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                    || $$ "|" >> K AOr || $$ "&" >> K AAnd)
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                   -- parse_formula pool)
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   >> (fn (phi1, NONE) => phi1
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        | (phi1, SOME (c, phi2)) => mk_aconn c (phi1, phi2))) x
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fun ints_of_generalized_term (ATerm (label, gs)) =
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  fold ints_of_generalized_term gs #> (case label of Int k => cons k | _ => I)
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val parse_tstp_annotations =
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  Scan.optional ($$ "," |-- parse_generalized_term
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                   --| Scan.option ($$ "," |-- parse_generalized_terms)
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                 >> (fn g => ints_of_generalized_term g [])) []
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(* Syntax: (fof|cnf)\(<num>, <formula_role>, <cnf_formula> <annotations>\).
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   The <num> could be an identifier, but we assume integers. *)
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 fun parse_tstp_line pool =
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   ((Scan.this_string "fof" || Scan.this_string "cnf") -- $$ "(")
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     |-- scan_integer --| $$ "," -- Symbol.scan_id --| $$ ","
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     -- parse_formula pool -- parse_tstp_annotations --| $$ ")" --| $$ "."
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    >> (fn (((num, role), phi), deps) =>
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           case role of
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             "definition" =>
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             (case phi of
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                AConn (AIff, [phi1, phi2]) => Definition (num, phi1, phi2)
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              | _ => raise Fail "malformed definition")
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           | _ => Inference (num, phi, deps))
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(**** PARSING OF SPASS OUTPUT ****)
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(* SPASS returns clause references of the form "x.y". We ignore "y", whose role
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   is not clear anyway. *)
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val parse_dot_name = scan_integer --| $$ "." --| scan_integer
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val parse_spass_annotations =
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  Scan.optional ($$ ":" |-- Scan.repeat (parse_dot_name
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                                         --| Scan.option ($$ ","))) []
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(* It is not clear why some literals are followed by sequences of stars and/or
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   pluses. We ignore them. *)
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fun parse_decorated_predicate_term pool =
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  parse_predicate_term pool --| Scan.repeat ($$ "*" || $$ "+" || $$ " ")
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fun mk_horn ([], []) = APred (ATerm ("c_False", []))
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  | mk_horn ([], pos_lits) = foldr1 (mk_aconn AOr) pos_lits
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  | mk_horn (neg_lits, []) = mk_anot (foldr1 (mk_aconn AAnd) neg_lits)
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  | mk_horn (neg_lits, pos_lits) =
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    mk_aconn AImplies (foldr1 (mk_aconn AAnd) neg_lits,
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                       foldr1 (mk_aconn AOr) pos_lits)
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fun parse_horn_clause pool =
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  Scan.repeat (parse_decorated_predicate_term pool) --| $$ "|" --| $$ "|"
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    -- Scan.repeat (parse_decorated_predicate_term pool) --| $$ "-" --| $$ ">"
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    -- Scan.repeat (parse_decorated_predicate_term pool)
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  >> (mk_horn o apfst (op @))
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(* Syntax: <num>[0:<inference><annotations>]
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   <cnf_formulas> || <cnf_formulas> -> <cnf_formulas>. *)
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fun parse_spass_line pool =
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  scan_integer --| $$ "[" --| $$ "0" --| $$ ":" --| Symbol.scan_id
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  -- parse_spass_annotations --| $$ "]" -- parse_horn_clause pool --| $$ "."
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  >> (fn ((num, deps), u) => Inference (num, u, deps))
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fun parse_line pool = parse_tstp_line pool || parse_spass_line pool
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fun parse_lines pool = Scan.repeat1 (parse_line pool)
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fun parse_proof pool =
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  fst o Scan.finite Symbol.stopper
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            (Scan.error (!! (fn _ => raise Fail "unrecognized ATP output")
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                            (parse_lines pool)))
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  o explode o strip_spaces
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(**** INTERPRETATION OF TSTP SYNTAX TREES ****)
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exception FO_TERM of string fo_term list
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exception FORMULA of string formula list
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exception SAME of unit
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(* Type variables are given the basic sort "HOL.type". Some will later be
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   constrained by information from type literals, or by type inference. *)
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fun type_from_fo_term tfrees (u as ATerm (a, us)) =
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  let val Ts = map (type_from_fo_term tfrees) us in
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    case strip_prefix_and_undo_ascii type_const_prefix a of
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      SOME b => Type (invert_const b, Ts)
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    | NONE =>
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      if not (null us) then
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        raise FO_TERM [u]  (* only "tconst"s have type arguments *)
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      else case strip_prefix_and_undo_ascii tfree_prefix a of
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        SOME b =>
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        let val s = "'" ^ b in
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          TFree (s, AList.lookup (op =) tfrees s |> the_default HOLogic.typeS)
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        end
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      | NONE =>
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        case strip_prefix_and_undo_ascii tvar_prefix a of
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          SOME b => TVar (("'" ^ b, 0), HOLogic.typeS)
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        | NONE =>
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          (* Variable from the ATP, say "X1" *)
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          Type_Infer.param 0 (a, HOLogic.typeS)
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  end
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fun fix_atp_variable_name s =
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  let
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    fun subscript_name s n = s ^ nat_subscript n
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    val s = String.map Char.toLower s
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  in
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    case space_explode "_" s of
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      [_] => (case take_suffix Char.isDigit (String.explode s) of
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                (cs1 as _ :: _, cs2 as _ :: _) =>
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                subscript_name (String.implode cs1)
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                               (the (Int.fromString (String.implode cs2)))
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              | (_, _) => s)
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    | [s1, s2] => (case Int.fromString s2 of
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                     SOME n => subscript_name s1 n
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                   | NONE => s)
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    | _ => s
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  end
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(* First-order translation. No types are known for variables. "HOLogic.typeT"
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   should allow them to be inferred.*)
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fun term_from_fo_term thy full_types tfrees opt_T =
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  let
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    fun aux opt_T extra_us u =
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      case u of
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        ATerm ("hBOOL", [u1]) => aux (SOME @{typ bool}) [] u1
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      | ATerm ("hAPP", [u1, u2]) => aux opt_T (u2 :: extra_us) u1
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      | ATerm (a, us) =>
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        if a = type_wrapper_name then
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          case us of
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            [typ_u, term_u] =>
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            aux (SOME (type_from_fo_term tfrees typ_u)) extra_us term_u
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          | _ => raise FO_TERM us
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        else case strip_prefix_and_undo_ascii const_prefix a of
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          SOME "equal" =>
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          list_comb (Const (@{const_name "op ="}, HOLogic.typeT),
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                     map (aux NONE []) us)
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        | SOME b =>
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          let
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            val c = invert_const b
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            val num_type_args = num_type_args thy c
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            val (type_us, term_us) =
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              chop (if full_types then 0 else num_type_args) us
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            (* Extra args from "hAPP" come after any arguments given directly to
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               the constant. *)
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            val term_ts = map (aux NONE []) term_us
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            val extra_ts = map (aux NONE []) extra_us
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            val t =
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              Const (c, if full_types then
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                          case opt_T of
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                            SOME T => map fastype_of term_ts ---> T
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                          | NONE =>
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                            if num_type_args = 0 then
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                              Sign.const_instance thy (c, [])
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                            else
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                              raise Fail ("no type information for " ^ quote c)
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                        else
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                          if String.isPrefix skolem_theory_name c then
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                            map fastype_of term_ts ---> HOLogic.typeT
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                          else
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                            Sign.const_instance thy (c,
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                                map (type_from_fo_term tfrees) type_us))
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          in list_comb (t, term_ts @ extra_ts) end
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        | NONE => (* a free or schematic variable *)
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          let
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            val ts = map (aux NONE []) (us @ extra_us)
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            val T = map fastype_of ts ---> HOLogic.typeT
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            val t =
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              case strip_prefix_and_undo_ascii fixed_var_prefix a of
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                SOME b => Free (b, T)
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              | NONE =>
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                case strip_prefix_and_undo_ascii schematic_var_prefix a of
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                  SOME b => Var ((b, 0), T)
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                | NONE =>
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                  (* Variable from the ATP, say "X1" *)
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                  Var ((fix_atp_variable_name a, 0), T)
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          in list_comb (t, ts) end
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  in aux opt_T [] end
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(* Type class literal applied to a type. Returns triple of polarity, class,
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   type. *)
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fun type_constraint_from_formula pos tfrees (AConn (ANot, [u])) =
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    type_constraint_from_formula (not pos) tfrees u
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  | type_constraint_from_formula pos tfrees (phi as APred (ATerm (a, us))) =
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    (case (strip_prefix_and_undo_ascii class_prefix a,
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           map (type_from_fo_term tfrees) us) of
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       (SOME b, [T]) => (pos, b, T)
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     | _ => raise FORMULA [phi])
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  | type_constraint_from_formula _ _ phi = raise FORMULA [phi]
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(** Accumulate type constraints in a clause: negative type literals **)
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fun add_var (key, z)  = Vartab.map_default (key, []) (cons z)
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fun add_type_constraint (false, cl, TFree (a ,_)) = add_var ((a, ~1), cl)
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  | add_type_constraint (false, cl, TVar (ix, _)) = add_var (ix, cl)
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  | add_type_constraint _ = I
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fun is_positive_literal (@{const Not} $ _) = false
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  | is_positive_literal _ = true
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(* ### FIXME: remove once Skolemization is left to ATPs *)
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fun unskolemize_term t =
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  Term.add_consts t []
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  |> filter (is_skolem_const_name o fst) |> map Const
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  |> rpair t |-> fold forall_of
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val combinator_table =
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  [(@{const_name COMBI}, @{thm COMBI_def_raw}),
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   (@{const_name COMBK}, @{thm COMBK_def_raw}),
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   (@{const_name COMBB}, @{thm COMBB_def_raw}),
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   (@{const_name COMBC}, @{thm COMBC_def_raw}),
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   (@{const_name COMBS}, @{thm COMBS_def_raw})]
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fun uncombine_term (t1 $ t2) = betapply (pairself uncombine_term (t1, t2))
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  | uncombine_term (Abs (s, T, t')) = Abs (s, T, uncombine_term t')
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  | uncombine_term (t as Const (x as (s, _))) =
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    (case AList.lookup (op =) combinator_table s of
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       SOME thm => thm |> prop_of |> specialize_type @{theory} x |> Logic.dest_equals |> snd
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     | NONE => t)
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  | uncombine_term t = t
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fun disjuncts (AConn (AOr, phis)) = maps disjuncts phis
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  | disjuncts phi = [phi]
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(* Update schematic type variables with detected sort constraints. It's not
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   totally clear when this code is necessary. *)
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fun repair_tvar_sorts (tvar_tab, t) =
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  let
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    fun do_type (Type (a, Ts)) = Type (a, map do_type Ts)
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      | do_type (TVar (xi, s)) =
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        TVar (xi, the_default s (Vartab.lookup tvar_tab xi))
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      | do_type (TFree z) = TFree z
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    fun do_term (Const (a, T)) = Const (a, do_type T)
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      | do_term (Free (a, T)) = Free (a, do_type T)
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      | do_term (Var (xi, T)) = Var (xi, do_type T)
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      | do_term (t as Bound _) = t
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      | do_term (Abs (a, T, t)) = Abs (a, do_type T, do_term t)
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      | do_term (t1 $ t2) = do_term t1 $ do_term t2
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  in t |> not (Vartab.is_empty tvar_tab) ? do_term end
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fun s_disj (t1, @{const False}) = t1
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  | s_disj p = HOLogic.mk_disj p
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fun quantify_over_free quant_s free_s body_t =
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  case Term.add_frees body_t [] |> filter (curry (op =) free_s o fst) of
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    [] => body_t
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  | frees as (_, free_T) :: _ =>
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    Abs (free_s, free_T, fold (curry abstract_over) (map Free frees) body_t)
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 (* Interpret a list of syntax trees as a clause, given by "real" literals and
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   sort constraints. Accumulates sort constraints in "tvar_tab", with "real"
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   literals in "lits". *)
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fun prop_from_formula thy full_types tfrees =
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   let
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    val do_sort_constraint =
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      add_type_constraint o type_constraint_from_formula true tfrees
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    fun do_real_literal phi =
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      case phi of
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        AQuant (_, [], phi) => do_real_literal phi
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      | AQuant (q, x :: xs, phi') =>
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        let
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          val body = do_real_literal (AQuant (q, xs, phi'))
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          val quant_s = case q of
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                          AForall => @{const_name All}
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                        | AExists => @{const_name Ex}
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        in quantify_over_free quant_s x body end
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      | AConn (ANot, [phi']) => HOLogic.mk_not (do_real_literal phi')
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      | AConn (c, [phi1, phi2]) =>
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        (phi1, phi2)
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        |> pairself do_real_literal
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        |> (case c of
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              AAnd => HOLogic.mk_conj
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            | AOr => HOLogic.mk_disj
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            | AImplies => HOLogic.mk_imp
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            | AIff => (fn (t1, t2) => HOLogic.eq_const HOLogic.boolT $ t1 $ t2))
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      | APred tm =>
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        term_from_fo_term thy full_types tfrees (SOME @{typ bool}) tm
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      | _ => raise FORMULA [phi]
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    fun do_literals (tvar_tab, t) [] = (tvar_tab, t)
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      | do_literals (tvar_tab, t) (u :: us) =
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        (do_literals (tvar_tab |> do_sort_constraint u, t) us
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         handle FO_TERM _ => raise SAME ()
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              | FORMULA _ => raise SAME ())
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        handle SAME () =>
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               do_literals (tvar_tab, s_disj (do_real_literal u, t)) us
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  in
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    repair_tvar_sorts o do_literals (Vartab.empty, HOLogic.false_const)
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    o disjuncts
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  end
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fun check_formula ctxt =
37145
01aa36932739 renamed structure TypeInfer to Type_Infer, keeping the old name as legacy alias for some time;
wenzelm
parents: 36968
diff changeset
   420
  Type_Infer.constrain @{typ bool}
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   421
  #> Syntax.check_term (ProofContext.set_mode ProofContext.mode_schematic ctxt)
21978
72c21698a055 Contains old Tools/ATP/AtpCommunication.ML, plus proof reconstruction
paulson
parents:
diff changeset
   422
72c21698a055 Contains old Tools/ATP/AtpCommunication.ML, plus proof reconstruction
paulson
parents:
diff changeset
   423
72c21698a055 Contains old Tools/ATP/AtpCommunication.ML, plus proof reconstruction
paulson
parents:
diff changeset
   424
(**** Translation of TSTP files to Isar Proofs ****)
72c21698a055 Contains old Tools/ATP/AtpCommunication.ML, plus proof reconstruction
paulson
parents:
diff changeset
   425
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   426
fun unvarify_term (Var ((s, 0), T)) = Free (s, T)
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   427
  | unvarify_term t = raise TERM ("unvarify_term: non-Var", [t])
21978
72c21698a055 Contains old Tools/ATP/AtpCommunication.ML, plus proof reconstruction
paulson
parents:
diff changeset
   428
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   429
fun decode_line full_types tfrees (Definition (num, phi1, phi2)) ctxt =
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   430
    let
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   431
      val thy = ProofContext.theory_of ctxt
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   432
      val t1 = prop_from_formula thy full_types tfrees phi1
36551
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   433
      val vars = snd (strip_comb t1)
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   434
      val frees = map unvarify_term vars
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   435
      val unvarify_args = subst_atomic (vars ~~ frees)
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   436
      val t2 = prop_from_formula thy full_types tfrees phi2
36551
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   437
      val (t1, t2) =
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   438
        HOLogic.eq_const HOLogic.typeT $ t1 $ t2
36556
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   439
        |> unvarify_args |> uncombine_term |> check_formula ctxt
36555
8ff45c2076da expand combinators in Isar proofs constructed by Sledgehammer;
blanchet
parents: 36551
diff changeset
   440
        |> HOLogic.dest_eq
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   441
    in
36551
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   442
      (Definition (num, t1, t2),
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   443
       fold Variable.declare_term (maps OldTerm.term_frees [t1, t2]) ctxt)
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   444
    end
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   445
  | decode_line full_types tfrees (Inference (num, u, deps)) ctxt =
36551
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   446
    let
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   447
      val thy = ProofContext.theory_of ctxt
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   448
      val t = u |> prop_from_formula thy full_types tfrees
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   449
                |> unskolemize_term |> uncombine_term |> check_formula ctxt
36551
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   450
    in
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   451
      (Inference (num, t, deps),
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   452
       fold Variable.declare_term (OldTerm.term_frees t) ctxt)
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   453
    end
36967
3c804030474b fix bug in Isar proof reconstruction step relabeling + don't try to infer the sorts of TVars, since this often fails miserably
blanchet
parents: 36924
diff changeset
   454
fun decode_lines ctxt full_types tfrees lines =
3c804030474b fix bug in Isar proof reconstruction step relabeling + don't try to infer the sorts of TVars, since this often fails miserably
blanchet
parents: 36924
diff changeset
   455
  fst (fold_map (decode_line full_types tfrees) lines ctxt)
21978
72c21698a055 Contains old Tools/ATP/AtpCommunication.ML, plus proof reconstruction
paulson
parents:
diff changeset
   456
37323
2f2f0d246d0f handle Vampire's definitions smoothly
blanchet
parents: 37322
diff changeset
   457
fun aint_actual_inference _ (Definition _) = true
2f2f0d246d0f handle Vampire's definitions smoothly
blanchet
parents: 37322
diff changeset
   458
  | aint_actual_inference t (Inference (_, t', _)) = not (t aconv t')
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   459
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   460
(* No "real" literals means only type information (tfree_tcs, clsrel, or
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   461
   clsarity). *)
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   462
val is_only_type_information = curry (op aconv) HOLogic.true_const
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   463
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   464
fun replace_one_dep (old, new) dep = if dep = old then new else [dep]
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   465
fun replace_deps_in_line _ (line as Definition _) = line
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   466
  | replace_deps_in_line p (Inference (num, t, deps)) =
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   467
    Inference (num, t, fold (union (op =) o replace_one_dep p) deps [])
21978
72c21698a055 Contains old Tools/ATP/AtpCommunication.ML, plus proof reconstruction
paulson
parents:
diff changeset
   468
22491
535fbed859da Numerous bug fixes. Type clauses distinguished from empty clauses. Working proof reduction.
paulson
parents: 22470
diff changeset
   469
(*Discard axioms; consolidate adjacent lines that prove the same clause, since they differ
535fbed859da Numerous bug fixes. Type clauses distinguished from empty clauses. Working proof reduction.
paulson
parents: 22470
diff changeset
   470
  only in type information.*)
36551
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   471
fun add_line _ _ (line as Definition _) lines = line :: lines
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   472
  | add_line conjecture_shape thm_names (Inference (num, t, [])) lines =
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   473
    (* No dependencies: axiom, conjecture clause, or internal axioms or
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   474
       definitions (Vampire). *)
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   475
    if is_axiom_clause_number thm_names num then
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   476
      (* Axioms are not proof lines. *)
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   477
      if is_only_type_information t then
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   478
        map (replace_deps_in_line (num, [])) lines
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   479
      (* Is there a repetition? If so, replace later line by earlier one. *)
37323
2f2f0d246d0f handle Vampire's definitions smoothly
blanchet
parents: 37322
diff changeset
   480
      else case take_prefix (aint_actual_inference t) lines of
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   481
        (_, []) => lines (*no repetition of proof line*)
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   482
      | (pre, Inference (num', _, _) :: post) =>
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   483
        pre @ map (replace_deps_in_line (num', [num])) post
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   484
    else if is_conjecture_clause_number conjecture_shape num then
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   485
      Inference (num, t, []) :: lines
36551
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   486
    else
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   487
      map (replace_deps_in_line (num, [])) lines
36551
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   488
  | add_line _ _ (Inference (num, t, deps)) lines =
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   489
    (* Type information will be deleted later; skip repetition test. *)
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   490
    if is_only_type_information t then
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   491
      Inference (num, t, deps) :: lines
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   492
    (* Is there a repetition? If so, replace later line by earlier one. *)
37323
2f2f0d246d0f handle Vampire's definitions smoothly
blanchet
parents: 37322
diff changeset
   493
    else case take_prefix (aint_actual_inference t) lines of
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   494
      (* FIXME: Doesn't this code risk conflating proofs involving different
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   495
         types?? *)
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   496
       (_, []) => Inference (num, t, deps) :: lines
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   497
     | (pre, Inference (num', t', _) :: post) =>
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   498
       Inference (num, t', deps) ::
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   499
       pre @ map (replace_deps_in_line (num', [num])) post
22044
6c0702a96076 More compact proof reconstruction: lines having fewer than !min_deps dependences are folded
paulson
parents: 22012
diff changeset
   500
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   501
(* Recursively delete empty lines (type information) from the proof. *)
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   502
fun add_nontrivial_line (Inference (num, t, [])) lines =
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   503
    if is_only_type_information t then delete_dep num lines
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   504
    else Inference (num, t, []) :: lines
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   505
  | add_nontrivial_line line lines = line :: lines
36395
e73923451f6f cosmetics
blanchet
parents: 36393
diff changeset
   506
and delete_dep num lines =
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   507
  fold_rev add_nontrivial_line (map (replace_deps_in_line (num, [])) lines) []
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   508
37323
2f2f0d246d0f handle Vampire's definitions smoothly
blanchet
parents: 37322
diff changeset
   509
(* ATPs sometimes reuse free variable names in the strangest ways. Removing
2f2f0d246d0f handle Vampire's definitions smoothly
blanchet
parents: 37322
diff changeset
   510
   offending lines often does the trick. *)
36560
45c1870f234f fixed definition of "bad frees" so that it actually works
blanchet
parents: 36559
diff changeset
   511
fun is_bad_free frees (Free x) = not (member (op =) frees x)
45c1870f234f fixed definition of "bad frees" so that it actually works
blanchet
parents: 36559
diff changeset
   512
  | is_bad_free _ _ = false
22470
0d52e5157124 No label on "show"; tries to remove dependencies more cleanly
paulson
parents: 22428
diff changeset
   513
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   514
(* Vampire is keen on producing these. *)
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   515
fun is_trivial_formula (@{const Not} $ (Const (@{const_name "op ="}, _)
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   516
                                        $ t1 $ t2)) = (t1 aconv t2)
37498
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   517
  | is_trivial_formula _ = false
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   518
37498
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   519
fun add_desired_line _ _ _ _ (line as Definition (num, _, _)) (j, lines) =
37323
2f2f0d246d0f handle Vampire's definitions smoothly
blanchet
parents: 37322
diff changeset
   520
    (j, line :: map (replace_deps_in_line (num, [])) lines)
37498
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   521
  | add_desired_line isar_shrink_factor conjecture_shape thm_names frees
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   522
                     (Inference (num, t, deps)) (j, lines) =
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   523
    (j + 1,
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   524
     if is_axiom_clause_number thm_names num orelse
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   525
        is_conjecture_clause_number conjecture_shape num orelse
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   526
        (not (is_only_type_information t) andalso
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   527
         null (Term.add_tvars t []) andalso
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   528
         not (exists_subterm (is_bad_free frees) t) andalso
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   529
         not (is_trivial_formula t) andalso
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   530
         (null lines orelse (* last line must be kept *)
36924
ff01d3ae9ad4 renamed options
blanchet
parents: 36909
diff changeset
   531
          (length deps >= 2 andalso j mod isar_shrink_factor = 0))) then
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   532
       Inference (num, t, deps) :: lines  (* keep line *)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   533
     else
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   534
       map (replace_deps_in_line (num, deps)) lines)  (* drop line *)
21978
72c21698a055 Contains old Tools/ATP/AtpCommunication.ML, plus proof reconstruction
paulson
parents:
diff changeset
   535
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   536
(** EXTRACTING LEMMAS **)
21979
80e10f181c46 Improvements to proof reconstruction. Now "fixes" is inserted
paulson
parents: 21978
diff changeset
   537
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   538
(* A list consisting of the first number in each line is returned. For TSTP,
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   539
   interesting lines have the form "fof(108, axiom, ...)", where the number
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   540
   (108) is extracted. For SPASS, lines have the form "108[0:Inp] ...", where
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   541
   the first number (108) is extracted. *)
37961
6a48c85a211a first step in using "fof" rather than "cnf" in TPTP problems
blanchet
parents: 37926
diff changeset
   542
fun extract_formula_numbers_in_atp_proof atp_proof =
35865
2f8fb5242799 more Sledgehammer refactoring
blanchet
parents: 35826
diff changeset
   543
  let
37962
d7dbe01f48d7 keep track of clause numbers for SPASS now that we generate FOF rather than CNF problems;
blanchet
parents: 37961
diff changeset
   544
    val tokens_of = String.tokens (not o Char.isAlphaNum)
37961
6a48c85a211a first step in using "fof" rather than "cnf" in TPTP problems
blanchet
parents: 37926
diff changeset
   545
    fun extract_num ("fof" :: num :: "axiom" :: _) = Int.fromString num
36395
e73923451f6f cosmetics
blanchet
parents: 36393
diff changeset
   546
      | extract_num (num :: "0" :: "Inp" :: _) = Int.fromString num
e73923451f6f cosmetics
blanchet
parents: 36393
diff changeset
   547
      | extract_num _ = NONE
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   548
  in atp_proof |> split_lines |> map_filter (extract_num o tokens_of) end
37399
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   549
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   550
val indent_size = 2
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   551
val no_label = ("", ~1)
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   552
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   553
val raw_prefix = "X"
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   554
val assum_prefix = "A"
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   555
val fact_prefix = "F"
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   556
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   557
fun string_for_label (s, num) = s ^ string_of_int num
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   558
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   559
fun metis_using [] = ""
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   560
  | metis_using ls =
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   561
    "using " ^ space_implode " " (map string_for_label ls) ^ " "
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   562
fun metis_apply _ 1 = "by "
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   563
  | metis_apply 1 _ = "apply "
34f080a12063 proper polymorphic Skolemization of uncached facts + synchronization of caching and relevance filter
blanchet
parents: 37324
diff changeset
   564
  | metis_apply i _ = "prefer " ^ string_of_int i ^ " apply "
37479
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   565
fun metis_name full_types = if full_types then "metisFT" else "metis"
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   566
fun metis_call full_types [] = metis_name full_types
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   567
  | metis_call full_types ss =
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   568
    "(" ^ metis_name full_types ^ " " ^ space_implode " " ss ^ ")"
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   569
fun metis_command full_types i n (ls, ss) =
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   570
  metis_using ls ^ metis_apply i n ^ metis_call full_types ss
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   571
fun metis_line full_types i n ss =
36063
cdc6855a6387 make Sledgehammer output "by" vs. "apply", "qed" vs. "next", and any necessary "prefer"
blanchet
parents: 36001
diff changeset
   572
  "Try this command: " ^
37479
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   573
  Markup.markup Markup.sendback (metis_command full_types i n ([], ss)) ^ ".\n"
36281
dbbf4d5d584d pass relevant options from "sledgehammer" to "sledgehammer minimize";
blanchet
parents: 36231
diff changeset
   574
fun minimize_line _ [] = ""
dbbf4d5d584d pass relevant options from "sledgehammer" to "sledgehammer minimize";
blanchet
parents: 36231
diff changeset
   575
  | minimize_line minimize_command facts =
dbbf4d5d584d pass relevant options from "sledgehammer" to "sledgehammer minimize";
blanchet
parents: 36231
diff changeset
   576
    case minimize_command facts of
dbbf4d5d584d pass relevant options from "sledgehammer" to "sledgehammer minimize";
blanchet
parents: 36231
diff changeset
   577
      "" => ""
dbbf4d5d584d pass relevant options from "sledgehammer" to "sledgehammer minimize";
blanchet
parents: 36231
diff changeset
   578
    | command =>
36065
3fc077c4780a fixed layout of Sledgehammer output
blanchet
parents: 36064
diff changeset
   579
      "To minimize the number of lemmas, try this command: " ^
36281
dbbf4d5d584d pass relevant options from "sledgehammer" to "sledgehammer minimize";
blanchet
parents: 36231
diff changeset
   580
      Markup.markup Markup.sendback command ^ ".\n"
31840
beeaa1ed1f47 check if conjectures have been used in proof
immler@in.tum.de
parents: 31479
diff changeset
   581
37171
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   582
val unprefix_chained = perhaps (try (unprefix chained_prefix))
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   583
37479
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   584
fun metis_proof_text (full_types, minimize_command, atp_proof, thm_names, goal,
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   585
                      i) =
36063
cdc6855a6387 make Sledgehammer output "by" vs. "apply", "qed" vs. "next", and any necessary "prefer"
blanchet
parents: 36001
diff changeset
   586
  let
37171
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   587
    val raw_lemmas =
37961
6a48c85a211a first step in using "fof" rather than "cnf" in TPTP problems
blanchet
parents: 37926
diff changeset
   588
      atp_proof |> extract_formula_numbers_in_atp_proof
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   589
                |> filter (is_axiom_clause_number thm_names)
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   590
                |> map (fn i => Vector.sub (thm_names, i - 1))
37171
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   591
    val (chained_lemmas, other_lemmas) =
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   592
      raw_lemmas |> List.partition (String.isPrefix chained_prefix)
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   593
                 |>> map (unprefix chained_prefix)
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   594
                 |> pairself (sort_distinct string_ord)
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   595
    val lemmas = other_lemmas @ chained_lemmas
36063
cdc6855a6387 make Sledgehammer output "by" vs. "apply", "qed" vs. "next", and any necessary "prefer"
blanchet
parents: 36001
diff changeset
   596
    val n = Logic.count_prems (prop_of goal)
37171
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   597
  in
37479
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   598
    (metis_line full_types i n other_lemmas ^
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   599
     minimize_line minimize_command lemmas, lemmas)
37171
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   600
  end
31037
ac8669134e7a added Philipp Meyer's implementation of AtpMinimal
immler@in.tum.de
parents: 30874
diff changeset
   601
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   602
(** Isar proof construction and manipulation **)
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   603
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   604
fun merge_fact_sets (ls1, ss1) (ls2, ss2) =
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   605
  (union (op =) ls1 ls2, union (op =) ss1 ss2)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   606
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   607
type label = string * int
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   608
type facts = label list * string list
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   609
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   610
datatype qualifier = Show | Then | Moreover | Ultimately
36291
b4c2043cc96c added Isar proof reconstruction support for SPASS -- which means all provers can now yield Isar proofs;
blanchet
parents: 36288
diff changeset
   611
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   612
datatype step =
36478
1aba777a367f fix types of "fix" variables to help proof reconstruction and aid readability
blanchet
parents: 36477
diff changeset
   613
  Fix of (string * typ) list |
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   614
  Let of term * term |
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   615
  Assume of label * term |
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   616
  Have of qualifier list * label * term * byline
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   617
and byline =
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   618
  ByMetis of facts |
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   619
  CaseSplit of step list list * facts
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   620
36574
870dfa6d00ce eliminate trivial case splits from Isar proofs
blanchet
parents: 36570
diff changeset
   621
fun smart_case_split [] facts = ByMetis facts
870dfa6d00ce eliminate trivial case splits from Isar proofs
blanchet
parents: 36570
diff changeset
   622
  | smart_case_split proofs facts = CaseSplit (proofs, facts)
870dfa6d00ce eliminate trivial case splits from Isar proofs
blanchet
parents: 36570
diff changeset
   623
36475
05209b869a6b new Isar proof construction code: stringfy axiom names correctly
blanchet
parents: 36474
diff changeset
   624
fun add_fact_from_dep thm_names num =
05209b869a6b new Isar proof construction code: stringfy axiom names correctly
blanchet
parents: 36474
diff changeset
   625
  if is_axiom_clause_number thm_names num then
36480
1e01a7162435 polish Isar proofs: don't mention facts twice, and don't show one-liner "structured" proofs
blanchet
parents: 36479
diff changeset
   626
    apsnd (insert (op =) (Vector.sub (thm_names, num - 1)))
36475
05209b869a6b new Isar proof construction code: stringfy axiom names correctly
blanchet
parents: 36474
diff changeset
   627
  else
36480
1e01a7162435 polish Isar proofs: don't mention facts twice, and don't show one-liner "structured" proofs
blanchet
parents: 36479
diff changeset
   628
    apfst (insert (op =) (raw_prefix, num))
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   629
36491
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   630
fun forall_vars t = fold_rev forall_of (map Var (Term.add_vars t [])) t
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   631
37498
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   632
fun step_for_line _ _ (Definition (_, t1, t2)) = Let (t1, t2)
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   633
  | step_for_line _ _ (Inference (num, t, [])) = Assume ((raw_prefix, num), t)
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   634
  | step_for_line thm_names j (Inference (num, t, deps)) =
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   635
    Have (if j = 1 then [Show] else [], (raw_prefix, num),
36491
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   636
          forall_vars t,
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   637
          ByMetis (fold (add_fact_from_dep thm_names) deps ([], [])))
36291
b4c2043cc96c added Isar proof reconstruction support for SPASS -- which means all provers can now yield Isar proofs;
blanchet
parents: 36288
diff changeset
   638
36967
3c804030474b fix bug in Isar proof reconstruction step relabeling + don't try to infer the sorts of TVars, since this often fails miserably
blanchet
parents: 36924
diff changeset
   639
fun proof_from_atp_proof pool ctxt full_types tfrees isar_shrink_factor
3c804030474b fix bug in Isar proof reconstruction step relabeling + don't try to infer the sorts of TVars, since this often fails miserably
blanchet
parents: 36924
diff changeset
   640
                         atp_proof conjecture_shape thm_names params frees =
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   641
  let
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   642
    val lines =
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   643
      atp_proof ^ "$" (* the $ sign acts as a sentinel (FIXME: pick it up) *)
36548
a8a6d7172c8c try out Vampire 11 and parse its output correctly;
blanchet
parents: 36492
diff changeset
   644
      |> parse_proof pool
36967
3c804030474b fix bug in Isar proof reconstruction step relabeling + don't try to infer the sorts of TVars, since this often fails miserably
blanchet
parents: 36924
diff changeset
   645
      |> decode_lines ctxt full_types tfrees
36551
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   646
      |> rpair [] |-> fold_rev (add_line conjecture_shape thm_names)
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   647
      |> rpair [] |-> fold_rev add_nontrivial_line
37498
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   648
      |> rpair (0, []) |-> fold_rev (add_desired_line isar_shrink_factor
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   649
                                               conjecture_shape thm_names frees)
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   650
      |> snd
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   651
  in
36909
7d5587f6d5f7 made Sledgehammer's full-typed proof reconstruction work for the first time;
blanchet
parents: 36607
diff changeset
   652
    (if null params then [] else [Fix params]) @
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   653
    map2 (step_for_line thm_names) (length lines downto 1) lines
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   654
  end
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   655
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   656
(* When redirecting proofs, we keep information about the labels seen so far in
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   657
   the "backpatches" data structure. The first component indicates which facts
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   658
   should be associated with forthcoming proof steps. The second component is a
37322
0347b1a16682 fix bug in direct Isar proofs, which was exhibited by the "BigO" example
blanchet
parents: 37319
diff changeset
   659
   pair ("assum_ls", "drop_ls"), where "assum_ls" are the labels that should
0347b1a16682 fix bug in direct Isar proofs, which was exhibited by the "BigO" example
blanchet
parents: 37319
diff changeset
   660
   become assumptions and "drop_ls" are the labels that should be dropped in a
0347b1a16682 fix bug in direct Isar proofs, which was exhibited by the "BigO" example
blanchet
parents: 37319
diff changeset
   661
   case split. *)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   662
type backpatches = (label * facts) list * (label list * label list)
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   663
36556
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   664
fun used_labels_of_step (Have (_, _, _, by)) =
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   665
    (case by of
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   666
       ByMetis (ls, _) => ls
36556
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   667
     | CaseSplit (proofs, (ls, _)) =>
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   668
       fold (union (op =) o used_labels_of) proofs ls)
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   669
  | used_labels_of_step _ = []
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   670
and used_labels_of proof = fold (union (op =) o used_labels_of_step) proof []
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   671
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   672
fun new_labels_of_step (Fix _) = []
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   673
  | new_labels_of_step (Let _) = []
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   674
  | new_labels_of_step (Assume (l, _)) = [l]
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   675
  | new_labels_of_step (Have (_, l, _, _)) = [l]
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   676
val new_labels_of = maps new_labels_of_step
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   677
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   678
val join_proofs =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   679
  let
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   680
    fun aux _ [] = NONE
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   681
      | aux proof_tail (proofs as (proof1 :: _)) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   682
        if exists null proofs then
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   683
          NONE
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   684
        else if forall (curry (op =) (hd proof1) o hd) (tl proofs) then
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   685
          aux (hd proof1 :: proof_tail) (map tl proofs)
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   686
        else case hd proof1 of
37498
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   687
          Have ([], l, t, _) => (* FIXME: should we really ignore the "by"? *)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   688
          if forall (fn Have ([], l', t', _) :: _ => (l, t) = (l', t')
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   689
                      | _ => false) (tl proofs) andalso
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   690
             not (exists (member (op =) (maps new_labels_of proofs))
36556
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   691
                         (used_labels_of proof_tail)) then
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   692
            SOME (l, t, map rev proofs, proof_tail)
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   693
          else
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   694
            NONE
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   695
        | _ => NONE
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   696
  in aux [] o map rev end
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   697
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   698
fun case_split_qualifiers proofs =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   699
  case length proofs of
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   700
    0 => []
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   701
  | 1 => [Then]
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   702
  | _ => [Ultimately]
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   703
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   704
fun redirect_proof conjecture_shape hyp_ts concl_t proof =
33310
44f9665c2091 proper header;
wenzelm
parents: 33243
diff changeset
   705
  let
37324
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   706
    (* The first pass outputs those steps that are independent of the negated
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   707
       conjecture. The second pass flips the proof by contradiction to obtain a
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   708
       direct proof, introducing case splits when an inference depends on
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   709
       several facts that depend on the negated conjecture. *)
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   710
    fun find_hyp num = nth hyp_ts (index_in_shape num conjecture_shape)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   711
    val concl_ls = map (pair raw_prefix) (List.last conjecture_shape)
37324
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   712
    val canonicalize_labels =
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   713
      map (fn l => if member (op =) concl_ls l then hd concl_ls else l)
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   714
      #> distinct (op =)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   715
    fun first_pass ([], contra) = ([], contra)
36491
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   716
      | first_pass ((step as Fix _) :: proof, contra) =
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   717
        first_pass (proof, contra) |>> cons step
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   718
      | first_pass ((step as Let _) :: proof, contra) =
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   719
        first_pass (proof, contra) |>> cons step
37498
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   720
      | first_pass ((step as Assume (l as (_, num), _)) :: proof, contra) =
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   721
        if member (op =) concl_ls l then
37324
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   722
          first_pass (proof, contra ||> l = hd concl_ls ? cons step)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   723
        else
36551
cc42df660808 improve unskolemization
blanchet
parents: 36548
diff changeset
   724
          first_pass (proof, contra) |>> cons (Assume (l, find_hyp num))
37324
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   725
      | first_pass (Have (qs, l, t, ByMetis (ls, ss)) :: proof, contra) =
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   726
        let
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   727
          val ls = canonicalize_labels ls
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   728
          val step = Have (qs, l, t, ByMetis (ls, ss))
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   729
        in
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   730
          if exists (member (op =) (fst contra)) ls then
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   731
            first_pass (proof, contra |>> cons l ||> cons step)
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   732
          else
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   733
            first_pass (proof, contra) |>> cons step
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   734
        end
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   735
      | first_pass _ = raise Fail "malformed proof"
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   736
    val (proof_top, (contra_ls, contra_proof)) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   737
      first_pass (proof, (concl_ls, []))
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   738
    val backpatch_label = the_default ([], []) oo AList.lookup (op =) o fst
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   739
    fun backpatch_labels patches ls =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   740
      fold merge_fact_sets (map (backpatch_label patches) ls) ([], [])
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   741
    fun second_pass end_qs ([], assums, patches) =
37324
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   742
        ([Have (end_qs, no_label, concl_t,
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   743
                ByMetis (backpatch_labels patches (map snd assums)))], patches)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   744
      | second_pass end_qs (Assume (l, t) :: proof, assums, patches) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   745
        second_pass end_qs (proof, (t, l) :: assums, patches)
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   746
      | second_pass end_qs (Have (qs, l, t, ByMetis (ls, ss)) :: proof, assums,
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   747
                            patches) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   748
        if member (op =) (snd (snd patches)) l andalso
37322
0347b1a16682 fix bug in direct Isar proofs, which was exhibited by the "BigO" example
blanchet
parents: 37319
diff changeset
   749
           not (member (op =) (fst (snd patches)) l) andalso
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   750
           not (AList.defined (op =) (fst patches) l) then
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   751
          second_pass end_qs (proof, assums, patches ||> apsnd (append ls))
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   752
        else
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   753
          (case List.partition (member (op =) contra_ls) ls of
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   754
             ([contra_l], co_ls) =>
37322
0347b1a16682 fix bug in direct Isar proofs, which was exhibited by the "BigO" example
blanchet
parents: 37319
diff changeset
   755
             if member (op =) qs Show then
0347b1a16682 fix bug in direct Isar proofs, which was exhibited by the "BigO" example
blanchet
parents: 37319
diff changeset
   756
               second_pass end_qs (proof, assums,
0347b1a16682 fix bug in direct Isar proofs, which was exhibited by the "BigO" example
blanchet
parents: 37319
diff changeset
   757
                                   patches |>> cons (contra_l, (co_ls, ss)))
0347b1a16682 fix bug in direct Isar proofs, which was exhibited by the "BigO" example
blanchet
parents: 37319
diff changeset
   758
             else
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   759
               second_pass end_qs
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   760
                           (proof, assums,
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   761
                            patches |>> cons (contra_l, (l :: co_ls, ss)))
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   762
               |>> cons (if member (op =) (fst (snd patches)) l then
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   763
                           Assume (l, negate_term t)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   764
                         else
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   765
                           Have (qs, l, negate_term t,
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   766
                                 ByMetis (backpatch_label patches l)))
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   767
           | (contra_ls as _ :: _, co_ls) =>
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   768
             let
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   769
               val proofs =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   770
                 map_filter
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   771
                     (fn l =>
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   772
                         if member (op =) concl_ls l then
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   773
                           NONE
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   774
                         else
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   775
                           let
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   776
                             val drop_ls = filter (curry (op <>) l) contra_ls
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   777
                           in
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   778
                             second_pass []
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   779
                                 (proof, assums,
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   780
                                  patches ||> apfst (insert (op =) l)
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   781
                                          ||> apsnd (union (op =) drop_ls))
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   782
                             |> fst |> SOME
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   783
                           end) contra_ls
37324
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   784
               val (assumes, facts) =
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   785
                 if member (op =) (fst (snd patches)) l then
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   786
                   ([Assume (l, negate_term t)], (l :: co_ls, ss))
37324
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   787
                 else
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   788
                   ([], (co_ls, ss))
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   789
             in
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   790
               (case join_proofs proofs of
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   791
                  SOME (l, t, proofs, proof_tail) =>
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   792
                  Have (case_split_qualifiers proofs @
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   793
                        (if null proof_tail then end_qs else []), l, t,
36574
870dfa6d00ce eliminate trivial case splits from Isar proofs
blanchet
parents: 36570
diff changeset
   794
                        smart_case_split proofs facts) :: proof_tail
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   795
                | NONE =>
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   796
                  [Have (case_split_qualifiers proofs @ end_qs, no_label,
36574
870dfa6d00ce eliminate trivial case splits from Isar proofs
blanchet
parents: 36570
diff changeset
   797
                         concl_t, smart_case_split proofs facts)],
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   798
                patches)
37324
d77250dd2416 fix bugs in Sledgehammer's Isar proof "redirection" code
blanchet
parents: 37323
diff changeset
   799
               |>> append assumes
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   800
             end
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   801
           | _ => raise Fail "malformed proof")
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   802
       | second_pass _ _ = raise Fail "malformed proof"
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   803
    val proof_bottom =
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   804
      second_pass [Show] (contra_proof, [], ([], ([], []))) |> fst
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   805
  in proof_top @ proof_bottom end
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   806
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   807
val kill_duplicate_assumptions_in_proof =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   808
  let
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   809
    fun relabel_facts subst =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   810
      apfst (map (fn l => AList.lookup (op =) subst l |> the_default l))
36491
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   811
    fun do_step (step as Assume (l, t)) (proof, subst, assums) =
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   812
        (case AList.lookup (op aconv) assums t of
36967
3c804030474b fix bug in Isar proof reconstruction step relabeling + don't try to infer the sorts of TVars, since this often fails miserably
blanchet
parents: 36924
diff changeset
   813
           SOME l' => (proof, (l, l') :: subst, assums)
36491
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   814
         | NONE => (step :: proof, subst, (t, l) :: assums))
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   815
      | do_step (Have (qs, l, t, by)) (proof, subst, assums) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   816
        (Have (qs, l, t,
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   817
               case by of
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   818
                 ByMetis facts => ByMetis (relabel_facts subst facts)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   819
               | CaseSplit (proofs, facts) =>
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   820
                 CaseSplit (map do_proof proofs, relabel_facts subst facts)) ::
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   821
         proof, subst, assums)
36491
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   822
      | do_step step (proof, subst, assums) = (step :: proof, subst, assums)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   823
    and do_proof proof = fold do_step proof ([], [], []) |> #1 |> rev
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   824
  in do_proof end
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   825
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   826
val then_chain_proof =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   827
  let
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   828
    fun aux _ [] = []
36491
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   829
      | aux _ ((step as Assume (l, _)) :: proof) = step :: aux l proof
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   830
      | aux l' (Have (qs, l, t, by) :: proof) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   831
        (case by of
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   832
           ByMetis (ls, ss) =>
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   833
           Have (if member (op =) ls l' then
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   834
                   (Then :: qs, l, t,
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   835
                    ByMetis (filter_out (curry (op =) l') ls, ss))
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   836
                 else
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   837
                   (qs, l, t, ByMetis (ls, ss)))
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   838
         | CaseSplit (proofs, facts) =>
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   839
           Have (qs, l, t, CaseSplit (map (aux no_label) proofs, facts))) ::
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   840
        aux l proof
36491
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   841
      | aux _ (step :: proof) = step :: aux no_label proof
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   842
  in aux no_label end
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   843
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   844
fun kill_useless_labels_in_proof proof =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   845
  let
36556
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   846
    val used_ls = used_labels_of proof
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   847
    fun do_label l = if member (op =) used_ls l then l else no_label
36556
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   848
    fun do_step (Assume (l, t)) = Assume (do_label l, t)
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   849
      | do_step (Have (qs, l, t, by)) =
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   850
        Have (qs, do_label l, t,
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   851
              case by of
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   852
                CaseSplit (proofs, facts) =>
36556
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   853
                CaseSplit (map (map do_step) proofs, facts)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   854
              | _ => by)
36556
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   855
      | do_step step = step
81dc2c20f052 use readable names in "debug" mode for type vars + don't pipe facts using "using" but rather give them directly to metis (works better with type variables)
blanchet
parents: 36555
diff changeset
   856
  in map do_step proof end
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   857
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   858
fun prefix_for_depth n = replicate_string (n + 1)
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   859
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   860
val relabel_proof =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   861
  let
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   862
    fun aux _ _ _ [] = []
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   863
      | aux subst depth (next_assum, next_fact) (Assume (l, t) :: proof) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   864
        if l = no_label then
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   865
          Assume (l, t) :: aux subst depth (next_assum, next_fact) proof
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   866
        else
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   867
          let val l' = (prefix_for_depth depth assum_prefix, next_assum) in
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   868
            Assume (l', t) ::
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   869
            aux ((l, l') :: subst) depth (next_assum + 1, next_fact) proof
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   870
          end
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   871
      | aux subst depth (next_assum, next_fact) (Have (qs, l, t, by) :: proof) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   872
        let
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   873
          val (l', subst, next_fact) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   874
            if l = no_label then
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   875
              (l, subst, next_fact)
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   876
            else
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   877
              let
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   878
                val l' = (prefix_for_depth depth fact_prefix, next_fact)
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   879
              in (l', (l, l') :: subst, next_fact + 1) end
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   880
          val relabel_facts =
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   881
            apfst (map (fn l =>
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   882
                           case AList.lookup (op =) subst l of
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   883
                             SOME l' => l'
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   884
                           | NONE => raise Fail ("unknown label " ^
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   885
                                                 quote (string_for_label l))))
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   886
          val by =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   887
            case by of
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   888
              ByMetis facts => ByMetis (relabel_facts facts)
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   889
            | CaseSplit (proofs, facts) =>
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   890
              CaseSplit (map (aux subst (depth + 1) (1, 1)) proofs,
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   891
                         relabel_facts facts)
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   892
        in
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   893
          Have (qs, l', t, by) ::
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   894
          aux subst depth (next_assum, next_fact) proof
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   895
        end
36491
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   896
      | aux subst depth nextp (step :: proof) =
6769f8eacaac unskolemize formulas in proof reconstruction + detect newer SPASS versions to avoid truncating identifiers if not necessary (truncating confuses proof reconstruction)
blanchet
parents: 36488
diff changeset
   897
        step :: aux subst depth nextp proof
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   898
  in aux [] 0 (1, 1) end
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   899
37479
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   900
fun string_for_proof ctxt full_types i n =
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   901
  let
37319
42268dc7d6c4 show types in Isar proofs, but not for free variables;
blanchet
parents: 37172
diff changeset
   902
    fun fix_print_mode f x =
42268dc7d6c4 show types in Isar proofs, but not for free variables;
blanchet
parents: 37172
diff changeset
   903
      setmp_CRITICAL show_no_free_types true
42268dc7d6c4 show types in Isar proofs, but not for free variables;
blanchet
parents: 37172
diff changeset
   904
          (setmp_CRITICAL show_types true
42268dc7d6c4 show types in Isar proofs, but not for free variables;
blanchet
parents: 37172
diff changeset
   905
               (Print_Mode.setmp (filter (curry (op =) Symbol.xsymbolsN)
42268dc7d6c4 show types in Isar proofs, but not for free variables;
blanchet
parents: 37172
diff changeset
   906
                                         (print_mode_value ())) f)) x
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   907
    fun do_indent ind = replicate_string (ind * indent_size) " "
36478
1aba777a367f fix types of "fix" variables to help proof reconstruction and aid readability
blanchet
parents: 36477
diff changeset
   908
    fun do_free (s, T) =
1aba777a367f fix types of "fix" variables to help proof reconstruction and aid readability
blanchet
parents: 36477
diff changeset
   909
      maybe_quote s ^ " :: " ^
1aba777a367f fix types of "fix" variables to help proof reconstruction and aid readability
blanchet
parents: 36477
diff changeset
   910
      maybe_quote (fix_print_mode (Syntax.string_of_typ ctxt) T)
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   911
    fun do_label l = if l = no_label then "" else string_for_label l ^ ": "
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   912
    fun do_have qs =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   913
      (if member (op =) qs Moreover then "moreover " else "") ^
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   914
      (if member (op =) qs Ultimately then "ultimately " else "") ^
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   915
      (if member (op =) qs Then then
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   916
         if member (op =) qs Show then "thus" else "hence"
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   917
       else
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   918
         if member (op =) qs Show then "show" else "have")
36478
1aba777a367f fix types of "fix" variables to help proof reconstruction and aid readability
blanchet
parents: 36477
diff changeset
   919
    val do_term = maybe_quote o fix_print_mode (Syntax.string_of_term ctxt)
36570
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   920
    fun do_facts (ls, ss) =
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   921
      let
9bebcb40599f identify axioms/conjectures more reliably in ATP proofs (an empty dependency list doesn't always indicate an axiom or conjecture!)
blanchet
parents: 36567
diff changeset
   922
        val ls = ls |> sort_distinct (prod_ord string_ord int_ord)
37171
fc1e20373e6a make sure chained facts appear in Isar proofs generated by Sledgehammer -- otherwise the proof won't work
blanchet
parents: 36968
diff changeset
   923
        val ss = ss |> map unprefix_chained |> sort_distinct string_ord
37479
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   924
      in metis_command full_types 1 1 (ls, ss) end
36478
1aba777a367f fix types of "fix" variables to help proof reconstruction and aid readability
blanchet
parents: 36477
diff changeset
   925
    and do_step ind (Fix xs) =
1aba777a367f fix types of "fix" variables to help proof reconstruction and aid readability
blanchet
parents: 36477
diff changeset
   926
        do_indent ind ^ "fix " ^ space_implode " and " (map do_free xs) ^ "\n"
36486
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   927
      | do_step ind (Let (t1, t2)) =
c2d7e2dff59e support Vampire definitions of constants as "let" constructs in Isar proofs
blanchet
parents: 36485
diff changeset
   928
        do_indent ind ^ "let " ^ do_term t1 ^ " = " ^ do_term t2 ^ "\n"
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   929
      | do_step ind (Assume (l, t)) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   930
        do_indent ind ^ "assume " ^ do_label l ^ do_term t ^ "\n"
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   931
      | do_step ind (Have (qs, l, t, ByMetis facts)) =
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   932
        do_indent ind ^ do_have qs ^ " " ^
36479
fcbf412c560f reintroduce missing "gen_all_vars" call
blanchet
parents: 36478
diff changeset
   933
        do_label l ^ do_term t ^ " " ^ do_facts facts ^ "\n"
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   934
      | do_step ind (Have (qs, l, t, CaseSplit (proofs, facts))) =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   935
        space_implode (do_indent ind ^ "moreover\n")
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   936
                      (map (do_block ind) proofs) ^
36479
fcbf412c560f reintroduce missing "gen_all_vars" call
blanchet
parents: 36478
diff changeset
   937
        do_indent ind ^ do_have qs ^ " " ^ do_label l ^ do_term t ^ " " ^
36478
1aba777a367f fix types of "fix" variables to help proof reconstruction and aid readability
blanchet
parents: 36477
diff changeset
   938
        do_facts facts ^ "\n"
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   939
    and do_steps prefix suffix ind steps =
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   940
      let val s = implode (map (do_step ind) steps) in
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   941
        replicate_string (ind * indent_size - size prefix) " " ^ prefix ^
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   942
        String.extract (s, ind * indent_size,
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   943
                        SOME (size s - ind * indent_size - 1)) ^
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   944
        suffix ^ "\n"
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   945
      end
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   946
    and do_block ind proof = do_steps "{ " " }" (ind + 1) proof
36564
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   947
    (* One-step proofs are pointless; better use the Metis one-liner
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   948
       directly. *)
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   949
    and do_proof [Have (_, _, _, ByMetis _)] = ""
96f767f546e7 be more discriminate: some one-line Isar proofs are silly
blanchet
parents: 36563
diff changeset
   950
      | do_proof proof =
36480
1e01a7162435 polish Isar proofs: don't mention facts twice, and don't show one-liner "structured" proofs
blanchet
parents: 36479
diff changeset
   951
        (if i <> 1 then "prefer " ^ string_of_int i ^ "\n" else "") ^
1e01a7162435 polish Isar proofs: don't mention facts twice, and don't show one-liner "structured" proofs
blanchet
parents: 36479
diff changeset
   952
        do_indent 0 ^ "proof -\n" ^
1e01a7162435 polish Isar proofs: don't mention facts twice, and don't show one-liner "structured" proofs
blanchet
parents: 36479
diff changeset
   953
        do_steps "" "" 1 proof ^
1e01a7162435 polish Isar proofs: don't mention facts twice, and don't show one-liner "structured" proofs
blanchet
parents: 36479
diff changeset
   954
        do_indent 0 ^ (if n <> 1 then "next" else "qed") ^ "\n"
36488
32c92af68ec9 remove Sledgehammer's "sorts" option to annotate variables with sorts in proof;
blanchet
parents: 36486
diff changeset
   955
  in do_proof end
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   956
37498
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   957
fun strip_subgoal goal i =
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   958
  let
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   959
    val (t, frees) = Logic.goal_params (prop_of goal) i
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   960
    val hyp_ts = t |> Logic.strip_assums_hyp |> map (curry subst_bounds frees)
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   961
    val concl_t = t |> Logic.strip_assums_concl |> curry subst_bounds frees
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   962
  in (rev (map dest_Free frees), hyp_ts, concl_t) end
b426cbdb5a23 removed Sledgehammer's support for the DFG syntax;
blanchet
parents: 37479
diff changeset
   963
37479
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   964
fun isar_proof_text (pool, debug, isar_shrink_factor, ctxt, conjecture_shape)
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   965
                    (other_params as (full_types, _, atp_proof, thm_names, goal,
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   966
                                      i)) =
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   967
  let
36909
7d5587f6d5f7 made Sledgehammer's full-typed proof reconstruction work for the first time;
blanchet
parents: 36607
diff changeset
   968
    val (params, hyp_ts, concl_t) = strip_subgoal goal i
7d5587f6d5f7 made Sledgehammer's full-typed proof reconstruction work for the first time;
blanchet
parents: 36607
diff changeset
   969
    val frees = fold Term.add_frees (concl_t :: hyp_ts) []
36967
3c804030474b fix bug in Isar proof reconstruction step relabeling + don't try to infer the sorts of TVars, since this often fails miserably
blanchet
parents: 36924
diff changeset
   970
    val tfrees = fold Term.add_tfrees (concl_t :: hyp_ts) []
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   971
    val n = Logic.count_prems (prop_of goal)
37479
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   972
    val (one_line_proof, lemma_names) = metis_proof_text other_params
36283
25e69e93954d failure of reconstructing the Isar proof (e.g., exception) should not prevent Sledgehammer from showing the short one-liner proof -- but in "debug" mode we do want to know what the exception is
blanchet
parents: 36281
diff changeset
   973
    fun isar_proof_for () =
36967
3c804030474b fix bug in Isar proof reconstruction step relabeling + don't try to infer the sorts of TVars, since this often fails miserably
blanchet
parents: 36924
diff changeset
   974
      case proof_from_atp_proof pool ctxt full_types tfrees isar_shrink_factor
36924
ff01d3ae9ad4 renamed options
blanchet
parents: 36909
diff changeset
   975
                                atp_proof conjecture_shape thm_names params
ff01d3ae9ad4 renamed options
blanchet
parents: 36909
diff changeset
   976
                                frees
37991
3093ab32f1e7 proof reconstruction for full FOF terms
blanchet
parents: 37962
diff changeset
   977
           |> redirect_proof conjecture_shape hyp_ts concl_t
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   978
           |> kill_duplicate_assumptions_in_proof
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   979
           |> then_chain_proof
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   980
           |> kill_useless_labels_in_proof
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   981
           |> relabel_proof
37479
f6b1ee5b420b try to improve Sledgehammer/Metis's behavior in full_types mode, e.g. by handing True, False, and If better
blanchet
parents: 37410
diff changeset
   982
           |> string_for_proof ctxt full_types i n of
36283
25e69e93954d failure of reconstructing the Isar proof (e.g., exception) should not prevent Sledgehammer from showing the short one-liner proof -- but in "debug" mode we do want to know what the exception is
blanchet
parents: 36281
diff changeset
   983
        "" => ""
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   984
      | proof => "\nStructured proof:\n" ^ Markup.markup Markup.sendback proof
35868
491a97039ce1 renamed "e_full" and "vampire_full" to "e_isar" and "vampire_isar";
blanchet
parents: 35865
diff changeset
   985
    val isar_proof =
36402
1b20805974c7 introduced direct proof reconstruction code, eliminating the need for the "neg_clausify" method;
blanchet
parents: 36396
diff changeset
   986
      if debug then
36283
25e69e93954d failure of reconstructing the Isar proof (e.g., exception) should not prevent Sledgehammer from showing the short one-liner proof -- but in "debug" mode we do want to know what the exception is
blanchet
parents: 36281
diff changeset
   987
        isar_proof_for ()
25e69e93954d failure of reconstructing the Isar proof (e.g., exception) should not prevent Sledgehammer from showing the short one-liner proof -- but in "debug" mode we do want to know what the exception is
blanchet
parents: 36281
diff changeset
   988
      else
25e69e93954d failure of reconstructing the Isar proof (e.g., exception) should not prevent Sledgehammer from showing the short one-liner proof -- but in "debug" mode we do want to know what the exception is
blanchet
parents: 36281
diff changeset
   989
        try isar_proof_for ()
36287
96f45c5ffb36 if Isar proof reconstruction is not supported, tell the user so they don't wonder why their "isar_proof" option did nothing
blanchet
parents: 36285
diff changeset
   990
        |> the_default "Warning: The Isar proof construction failed.\n"
36283
25e69e93954d failure of reconstructing the Isar proof (e.g., exception) should not prevent Sledgehammer from showing the short one-liner proof -- but in "debug" mode we do want to know what the exception is
blanchet
parents: 36281
diff changeset
   991
  in (one_line_proof ^ isar_proof, lemma_names) end
21978
72c21698a055 Contains old Tools/ATP/AtpCommunication.ML, plus proof reconstruction
paulson
parents:
diff changeset
   992
36557
3c2438efe224 make SML/NJ happy, take 2
blanchet
parents: 36556
diff changeset
   993
fun proof_text isar_proof isar_params other_params =
3c2438efe224 make SML/NJ happy, take 2
blanchet
parents: 36556
diff changeset
   994
  (if isar_proof then isar_proof_text isar_params else metis_proof_text)
3c2438efe224 make SML/NJ happy, take 2
blanchet
parents: 36556
diff changeset
   995
      other_params
36223
217ca1273786 make Sledgehammer's minimizer also minimize Isar proofs
blanchet
parents: 36140
diff changeset
   996
31038
immler@in.tum.de
parents: 31037
diff changeset
   997
end;