else
`MutualDefinition
in
- (loc, N.Theorem(flavour, name, ty, Some (N.LetRec (ind_kind, defs, body))))
+ (loc, N.Theorem(flavour, name, ty, Some (N.LetRec (ind_kind, defs, body)), `Regular))
let nmk_rec_corec ind_kind defs loc =
let loc,t = mk_rec_corec ind_kind defs loc in
using: [ [ using = OPT [ IDENT "using"; t = tactic_term -> t ] -> using ] ];
ntactic: [
[ IDENT "napply"; t = tactic_term -> G.NApply (loc, t)
+ | IDENT "napplyS"; t = tactic_term -> G.NSmartApply (loc, t)
| IDENT "nassert";
seqs = LIST0 [
hyps = LIST0
concl = tactic_term -> (List.rev hyps,concl) ] ->
G.NAssert (loc, seqs)
| IDENT "nauto"; params = auto_params -> G.NAuto (loc, params)
+ | SYMBOL "/"; num = OPT NUMBER ; SYMBOL "/" ->
+ let depth = match num with Some n -> n | None -> "1" in
+ G.NAuto (loc, ([],["slir","";"depth",depth]))
| IDENT "ncases"; what = tactic_term ; where = pattern_spec ->
G.NCases (loc, what, where)
| IDENT "nchange"; what = pattern_spec; "with"; with_what = tactic_term ->
G.NConstructor (loc,
(match num with None -> None | Some x -> Some (int_of_string x)),l)
| IDENT "ncut"; t = tactic_term -> G.NCut (loc, t)
+(* | IDENT "ndiscriminate"; t = tactic_term -> G.NDiscriminate (loc, t)
+ | IDENT "nsubst"; t = tactic_term -> G.NSubst (loc, t) *)
+ | IDENT "ndestruct" -> G.NDestruct loc
| IDENT "nelim"; what = tactic_term ; where = pattern_spec ->
G.NElim (loc, what, where)
| IDENT "ngeneralize"; p=pattern_spec ->
];
auto_fixed_param: [
[ IDENT "paramodulation"
+ | IDENT "fast_paramod"
+ | IDENT "paramod"
+ | IDENT "slir"
| IDENT "depth"
| IDENT "width"
| IDENT "size"
| SYMBOL "|" -> G.NShift loc
| i = LIST1 int SEP SYMBOL ","; SYMBOL ":" -> G.NPos (loc, i)
| SYMBOL "*"; SYMBOL ":" -> G.NWildcard loc
+ | name = IDENT; SYMBOL ":" -> G.NPosbyname (loc, name)
| SYMBOL "]" -> G.NMerge loc
| SYMBOL ";" -> G.NSemicolon loc
| SYMBOL "." -> G.NDot loc
IDENT "nqed" -> G.NQed loc
| nflavour = ntheorem_flavour; name = IDENT; SYMBOL ":"; typ = term;
body = OPT [ SYMBOL <:unicode<def>> (* ≝ *); body = term -> body ] ->
- G.NObj (loc, N.Theorem (nflavour, name, typ, body))
+ G.NObj (loc, N.Theorem (nflavour, name, typ, body,`Regular))
| nflavour = ntheorem_flavour; name = IDENT; SYMBOL <:unicode<def>> (* ≝ *);
body = term ->
- G.NObj (loc, N.Theorem (nflavour, name, N.Implicit `JustOne, Some body))
+ G.NObj (loc, N.Theorem (nflavour, name, N.Implicit `JustOne, Some body,`Regular))
| IDENT "naxiom"; name = IDENT; SYMBOL ":"; typ = term ->
- G.NObj (loc, N.Theorem (`Axiom, name, typ, None))
+ G.NObj (loc, N.Theorem (`Axiom, name, typ, None, `Regular))
+ | IDENT "ndiscriminator" ; indty = tactic_term -> G.NDiscriminator (loc,indty)
| IDENT "ninverter"; name = IDENT; IDENT "for" ; indty = tactic_term ;
paramspec = OPT inverter_param_list ;
outsort = OPT [ SYMBOL ":" ; outsort = term -> outsort ] ->
typ = term; SYMBOL <:unicode<def>> ; newname = IDENT ->
G.Obj (loc,
N.Theorem
- (`Variant,name,typ,Some (N.Ident (newname, None))))
+ (`Variant,name,typ,Some (N.Ident (newname, None)), `Regular))
| flavour = theorem_flavour; name = IDENT; SYMBOL ":"; typ = term;
body = OPT [ SYMBOL <:unicode<def>> (* ≝ *); body = term -> body ] ->
- G.Obj (loc, N.Theorem (flavour, name, typ, body))
+ G.Obj (loc, N.Theorem (flavour, name, typ, body,`Regular))
| flavour = theorem_flavour; name = IDENT; SYMBOL <:unicode<def>> (* ≝ *);
body = term ->
G.Obj (loc,
- N.Theorem (flavour, name, N.Implicit `JustOne, Some body))
+ N.Theorem (flavour, name, N.Implicit `JustOne, Some body,`Regular))
| IDENT "axiom"; name = IDENT; SYMBOL ":"; typ = term ->
- G.Obj (loc, N.Theorem (`Axiom, name, typ, None))
+ G.Obj (loc, N.Theorem (`Axiom, name, typ, None, `Regular))
| LETCOREC ; defs = let_defs ->
mk_rec_corec `CoInductive defs loc
| LETREC ; defs = let_defs ->