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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2011 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*i camlp4use: "pa_extend.cmo" i*)
(* $Id: g_tactic.ml4 14641 2011-11-06 11:59:10Z herbelin $ *)
open Pp
open Pcoq
open Util
open Tacexpr
open Rawterm
open Genarg
open Topconstr
open Libnames
open Termops
let all_with delta = make_red_flag [FBeta;FIota;FZeta;delta]
let tactic_kw = [ "->"; "<-" ; "by" ]
let _ = List.iter (fun s -> Lexer.add_token("",s)) tactic_kw
(* Hack to parse "(x:=t)" as an explicit argument without conflicts with the *)
(* admissible notation "(x t)" *)
let test_lpar_id_coloneq =
Gram.Entry.of_parser "lpar_id_coloneq"
(fun strm ->
match Stream.npeek 1 strm with
| [("","(")] ->
(match Stream.npeek 2 strm with
| [_; ("IDENT",s)] ->
(match Stream.npeek 3 strm with
| [_; _; ("", ":=")] -> ()
| _ -> raise Stream.Failure)
| _ -> raise Stream.Failure)
| _ -> raise Stream.Failure)
(* idem for (x:=t) and (1:=t) *)
let test_lpar_idnum_coloneq =
Gram.Entry.of_parser "test_lpar_idnum_coloneq"
(fun strm ->
match Stream.npeek 1 strm with
| [("","(")] ->
(match Stream.npeek 2 strm with
| [_; (("IDENT"|"INT"),_)] ->
(match Stream.npeek 3 strm with
| [_; _; ("", ":=")] -> ()
| _ -> raise Stream.Failure)
| _ -> raise Stream.Failure)
| _ -> raise Stream.Failure)
(* idem for (x:t) *)
let test_lpar_id_colon =
Gram.Entry.of_parser "lpar_id_colon"
(fun strm ->
match Stream.npeek 1 strm with
| [("","(")] ->
(match Stream.npeek 2 strm with
| [_; ("IDENT",id)] ->
(match Stream.npeek 3 strm with
| [_; _; ("", ":")] -> ()
| _ -> raise Stream.Failure)
| _ -> raise Stream.Failure)
| _ -> raise Stream.Failure)
(* idem for (x1..xn:t) [n^2 complexity but exceptional use] *)
let check_for_coloneq =
Gram.Entry.of_parser "lpar_id_colon"
(fun strm ->
let rec skip_to_rpar p n =
match list_last (Stream.npeek n strm) with
| ("","(") -> skip_to_rpar (p+1) (n+1)
| ("",")") -> if p=0 then n+1 else skip_to_rpar (p-1) (n+1)
| ("",".") -> raise Stream.Failure
| _ -> skip_to_rpar p (n+1) in
let rec skip_names n =
match list_last (Stream.npeek n strm) with
| ("IDENT",_) | ("","_") -> skip_names (n+1)
| ("",":") -> skip_to_rpar 0 (n+1) (* skip a constr *)
| _ -> raise Stream.Failure in
let rec skip_binders n =
match list_last (Stream.npeek n strm) with
| ("","(") -> skip_binders (skip_names (n+1))
| ("IDENT",_) | ("","_") -> skip_binders (n+1)
| ("",":=") -> ()
| _ -> raise Stream.Failure in
match Stream.npeek 1 strm with
| [("","(")] -> skip_binders 2
| _ -> raise Stream.Failure)
let guess_lpar_ipat s strm =
match Stream.npeek 1 strm with
| [("","(")] ->
(match Stream.npeek 2 strm with
| [_; ("",("("|"["))] -> ()
| [_; ("IDENT",_)] ->
(match Stream.npeek 3 strm with
| [_; _; ("", s')] when s = s' -> ()
| _ -> raise Stream.Failure)
| _ -> raise Stream.Failure)
| _ -> raise Stream.Failure
let guess_lpar_coloneq =
Gram.Entry.of_parser "guess_lpar_coloneq" (guess_lpar_ipat ":=")
let guess_lpar_colon =
Gram.Entry.of_parser "guess_lpar_colon" (guess_lpar_ipat ":")
let lookup_at_as_coma =
Gram.Entry.of_parser "lookup_at_as_coma"
(fun strm ->
match Stream.npeek 1 strm with
| [("",(","|"at"|"as"))] -> ()
| _ -> raise Stream.Failure)
open Constr
open Prim
open Tactic
let mk_fix_tac (loc,id,bl,ann,ty) =
let n =
match bl,ann with
[([_],_,_)], None -> 1
| _, Some x ->
let ids = List.map snd (List.flatten (List.map pi1 bl)) in
(try list_index (snd x) ids
with Not_found -> error "No such fix variable.")
| _ -> error "Cannot guess decreasing argument of fix." in
(id,n,CProdN(loc,bl,ty))
let mk_cofix_tac (loc,id,bl,ann,ty) =
let _ = Option.map (fun (aloc,_) ->
Util.user_err_loc
(aloc,"Constr:mk_cofix_tac",
Pp.str"Annotation forbidden in cofix expression.")) ann in
(id,CProdN(loc,bl,ty))
(* Functions overloaded by quotifier *)
let induction_arg_of_constr (c,lbind as clbind) =
if lbind = NoBindings then
try ElimOnIdent (constr_loc c,snd(coerce_to_id c))
with _ -> ElimOnConstr clbind
else ElimOnConstr clbind
let mkTacCase with_evar = function
| [([ElimOnConstr cl],None,(None,None))],None ->
TacCase (with_evar,cl)
(* Reinterpret numbers as a notation for terms *)
| [([(ElimOnAnonHyp n)],None,(None,None))],None ->
TacCase (with_evar,
(CPrim (dummy_loc, Numeral (Bigint.of_string (string_of_int n))),
NoBindings))
(* Reinterpret ident as notations for variables in the context *)
(* because we don't know if they are quantified or not *)
| [([ElimOnIdent id],None,(None,None))],None ->
TacCase (with_evar,(CRef (Ident id),NoBindings))
| ic ->
if List.exists (fun (cl,a,b) ->
List.exists (function ElimOnAnonHyp _ -> true | _ -> false) cl)
(fst ic)
then
error "Use of numbers as direct arguments of 'case' is not supported.";
TacInductionDestruct (false,with_evar,ic)
let rec mkCLambdaN_simple_loc loc bll c =
match bll with
| ((loc1,_)::_ as idl,bk,t) :: bll ->
CLambdaN (loc,[idl,bk,t],mkCLambdaN_simple_loc (join_loc loc1 loc) bll c)
| ([],_,_) :: bll -> mkCLambdaN_simple_loc loc bll c
| [] -> c
let mkCLambdaN_simple bl c =
if bl=[] then c
else
let loc = join_loc (fst (List.hd (pi1 (List.hd bl)))) (constr_loc c) in
mkCLambdaN_simple_loc loc bl c
let loc_of_ne_list l = join_loc (fst (List.hd l)) (fst (list_last l))
let map_int_or_var f = function
| Rawterm.ArgArg x -> Rawterm.ArgArg (f x)
| Rawterm.ArgVar _ as y -> y
let all_concl_occs_clause = { onhyps=Some[]; concl_occs=all_occurrences_expr }
let has_no_specified_occs cl =
(cl.onhyps = None ||
List.for_all (fun ((occs,_),_) -> occs = all_occurrences_expr)
(Option.get cl.onhyps))
&& (cl.concl_occs = all_occurrences_expr
|| cl.concl_occs = no_occurrences_expr)
let merge_occurrences loc cl = function
| None ->
if has_no_specified_occs cl then (None, cl)
else
user_err_loc (loc,"",str "Found an \"at\" clause without \"with\" clause.")
| Some (occs,p) ->
(Some p,
if occs = all_occurrences_expr then cl
else if cl = all_concl_occs_clause then { onhyps=Some[]; concl_occs=occs }
else match cl.onhyps with
| Some [(occs',id),l] when
occs' = all_occurrences_expr && cl.concl_occs = no_occurrences_expr ->
{ cl with onhyps=Some[(occs,id),l] }
| _ ->
if has_no_specified_occs cl then
user_err_loc (loc,"",str "Unable to interpret the \"at\" clause; move it in the \"in\" clause.")
else
user_err_loc (loc,"",str "Cannot use clause \"at\" twice."))
(* Auxiliary grammar rules *)
GEXTEND Gram
GLOBAL: simple_tactic constr_with_bindings quantified_hypothesis
bindings red_expr int_or_var open_constr casted_open_constr
simple_intropattern;
int_or_var:
[ [ n = integer -> Rawterm.ArgArg n
| id = identref -> Rawterm.ArgVar id ] ]
;
nat_or_var:
[ [ n = natural -> Rawterm.ArgArg n
| id = identref -> Rawterm.ArgVar id ] ]
;
(* An identifier or a quotation meta-variable *)
id_or_meta:
[ [ id = identref -> AI id
(* This is used in quotations *)
| id = METAIDENT -> MetaId (loc,id) ] ]
;
(* A number or a quotation meta-variable *)
num_or_meta:
[ [ n = integer -> AI n
| id = METAIDENT -> MetaId (loc,id)
] ]
;
open_constr:
[ [ c = constr -> ((),c) ] ]
;
casted_open_constr:
[ [ c = constr -> ((),c) ] ]
;
induction_arg:
[ [ n = natural -> ElimOnAnonHyp n
| c = constr_with_bindings -> induction_arg_of_constr c
] ]
;
quantified_hypothesis:
[ [ id = ident -> NamedHyp id
| n = natural -> AnonHyp n ] ]
;
conversion:
[ [ c = constr -> (None, c)
| c1 = constr; "with"; c2 = constr -> (Some (all_occurrences_expr,c1),c2)
| c1 = constr; "at"; occs = occs_nums; "with"; c2 = constr ->
(Some (occs,c1), c2) ] ]
;
occs_nums:
[ [ nl = LIST1 nat_or_var -> no_occurrences_expr_but nl
| "-"; n = nat_or_var; nl = LIST0 int_or_var ->
(* have used int_or_var instead of nat_or_var for compatibility *)
all_occurrences_expr_but (List.map (map_int_or_var abs) (n::nl)) ] ]
;
occs:
[ [ "at"; occs = occs_nums -> occs | -> all_occurrences_expr ] ]
;
pattern_occ:
[ [ c = constr; nl = occs -> (nl,c) ] ]
;
unfold_occ:
[ [ c = smart_global; nl = occs -> (nl,c) ] ]
;
intropatterns:
[ [ l = LIST0 simple_intropattern -> l ]]
;
disjunctive_intropattern:
[ [ "["; tc = LIST1 intropatterns SEP "|"; "]" -> loc,IntroOrAndPattern tc
| "()" -> loc,IntroOrAndPattern [[]]
| "("; si = simple_intropattern; ")" -> loc,IntroOrAndPattern [[si]]
| "("; si = simple_intropattern; ",";
tc = LIST1 simple_intropattern SEP "," ; ")" ->
loc,IntroOrAndPattern [si::tc]
| "("; si = simple_intropattern; "&";
tc = LIST1 simple_intropattern SEP "&" ; ")" ->
(* (A & B & C) is translated into (A,(B,C)) *)
let rec pairify = function
| ([]|[_]|[_;_]) as l -> IntroOrAndPattern [l]
| t::q -> IntroOrAndPattern [[t;(loc_of_ne_list q,pairify q)]]
in loc,pairify (si::tc) ] ]
;
naming_intropattern:
[ [ prefix = pattern_ident -> loc, IntroFresh prefix
| "?" -> loc, IntroAnonymous
| id = ident -> loc, IntroIdentifier id
| "*" -> loc, IntroForthcoming true
| "**" -> loc, IntroForthcoming false ] ]
;
intropattern_modifier:
[ [ IDENT "_eqn";
id = [ ":"; id = naming_intropattern -> id | -> loc, IntroAnonymous ]
-> id ] ]
;
simple_intropattern:
[ [ pat = disjunctive_intropattern -> pat
| pat = naming_intropattern -> pat
| "_" -> loc, IntroWildcard
| "->" -> loc, IntroRewrite true
| "<-" -> loc, IntroRewrite false ] ]
;
simple_binding:
[ [ "("; id = ident; ":="; c = lconstr; ")" -> (loc, NamedHyp id, c)
| "("; n = natural; ":="; c = lconstr; ")" -> (loc, AnonHyp n, c) ] ]
;
bindings:
[ [ test_lpar_idnum_coloneq; bl = LIST1 simple_binding ->
ExplicitBindings bl
| bl = LIST1 constr -> ImplicitBindings bl ] ]
;
opt_bindings:
[ [ bl = bindings -> bl | -> NoBindings ] ]
;
constr_with_bindings:
[ [ c = constr; l = with_bindings -> (c, l) ] ]
;
with_bindings:
[ [ "with"; bl = bindings -> bl | -> NoBindings ] ]
;
red_flag:
[ [ IDENT "beta" -> FBeta
| IDENT "iota" -> FIota
| IDENT "zeta" -> FZeta
| IDENT "delta"; d = delta_flag -> d
] ]
;
delta_flag:
[ [ "-"; "["; idl = LIST1 smart_global; "]" -> FDeltaBut idl
| "["; idl = LIST1 smart_global; "]" -> FConst idl
| -> FDeltaBut []
] ]
;
strategy_flag:
[ [ s = LIST1 red_flag -> make_red_flag s
| d = delta_flag -> all_with d
] ]
;
red_tactic:
[ [ IDENT "red" -> Red false
| IDENT "hnf" -> Hnf
| IDENT "simpl"; po = OPT pattern_occ -> Simpl po
| IDENT "cbv"; s = strategy_flag -> Cbv s
| IDENT "lazy"; s = strategy_flag -> Lazy s
| IDENT "compute"; delta = delta_flag -> Cbv (all_with delta)
| IDENT "vm_compute" -> CbvVm
| IDENT "unfold"; ul = LIST1 unfold_occ SEP "," -> Unfold ul
| IDENT "fold"; cl = LIST1 constr -> Fold cl
| IDENT "pattern"; pl = LIST1 pattern_occ SEP"," -> Pattern pl ] ]
;
(* This is [red_tactic] including possible extensions *)
red_expr:
[ [ IDENT "red" -> Red false
| IDENT "hnf" -> Hnf
| IDENT "simpl"; po = OPT pattern_occ -> Simpl po
| IDENT "cbv"; s = strategy_flag -> Cbv s
| IDENT "lazy"; s = strategy_flag -> Lazy s
| IDENT "compute"; delta = delta_flag -> Cbv (all_with delta)
| IDENT "vm_compute" -> CbvVm
| IDENT "unfold"; ul = LIST1 unfold_occ -> Unfold ul
| IDENT "fold"; cl = LIST1 constr -> Fold cl
| IDENT "pattern"; pl = LIST1 pattern_occ SEP"," -> Pattern pl
| s = IDENT -> ExtraRedExpr s ] ]
;
hypident:
[ [ id = id_or_meta ->
id,InHyp
| "("; IDENT "type"; IDENT "of"; id = id_or_meta; ")" ->
id,InHypTypeOnly
| "("; IDENT "value"; IDENT "of"; id = id_or_meta; ")" ->
id,InHypValueOnly
] ]
;
hypident_occ:
[ [ (id,l)=hypident; occs=occs -> ((occs,id),l) ] ]
;
in_clause:
[ [ "*"; occs=occs ->
{onhyps=None; concl_occs=occs}
| "*"; "|-"; occs=concl_occ ->
{onhyps=None; concl_occs=occs}
| hl=LIST0 hypident_occ SEP","; "|-"; occs=concl_occ ->
{onhyps=Some hl; concl_occs=occs}
| hl=LIST0 hypident_occ SEP"," ->
{onhyps=Some hl; concl_occs=no_occurrences_expr} ] ]
;
clause_dft_concl:
[ [ "in"; cl = in_clause -> cl
| occs=occs -> {onhyps=Some[]; concl_occs=occs}
| -> all_concl_occs_clause ] ]
;
clause_dft_all:
[ [ "in"; cl = in_clause -> cl
| -> {onhyps=None; concl_occs=all_occurrences_expr} ] ]
;
opt_clause:
[ [ "in"; cl = in_clause -> Some cl | -> None ] ]
;
concl_occ:
[ [ "*"; occs = occs -> occs
| -> no_occurrences_expr ] ]
;
in_hyp_list:
[ [ "in"; idl = LIST1 id_or_meta -> idl
| -> [] ] ]
;
in_hyp_as:
[ [ "in"; id = id_or_meta; ipat = as_ipat -> Some (id,ipat)
| -> None ] ]
;
orient:
[ [ "->" -> true
| "<-" -> false
| -> true ]]
;
simple_binder:
[ [ na=name -> ([na],Default Explicit,CHole (loc, None))
| "("; nal=LIST1 name; ":"; c=lconstr; ")" -> (nal,Default Explicit,c)
] ]
;
fixdecl:
[ [ "("; id = ident; bl=LIST0 simple_binder; ann=fixannot;
":"; ty=lconstr; ")" -> (loc,id,bl,ann,ty) ] ]
;
fixannot:
[ [ "{"; IDENT "struct"; id=name; "}" -> Some id
| -> None ] ]
;
cofixdecl:
[ [ "("; id = ident; bl=LIST0 simple_binder; ":"; ty=lconstr; ")" ->
(loc,id,bl,None,ty) ] ]
;
bindings_with_parameters:
[ [ check_for_coloneq; "("; id = ident; bl = LIST0 simple_binder;
":="; c = lconstr; ")" -> (id, mkCLambdaN_simple bl c) ] ]
;
hintbases:
[ [ "with"; "*" -> None
| "with"; l = LIST1 IDENT -> Some l
| -> Some [] ] ]
;
auto_using:
[ [ "using"; l = LIST1 constr SEP "," -> l
| -> [] ] ]
;
eliminator:
[ [ "using"; el = constr_with_bindings -> el ] ]
;
as_ipat:
[ [ "as"; ipat = simple_intropattern -> Some ipat
| -> None ] ]
;
with_inversion_names:
[ [ "as"; ipat = simple_intropattern -> Some ipat
| -> None ] ]
;
with_induction_names:
[ [ "as"; ipat = simple_intropattern; eq = OPT intropattern_modifier
-> (eq,Some ipat)
| -> (None,None) ] ]
;
as_name:
[ [ "as"; id = ident -> Names.Name id | -> Names.Anonymous ] ]
;
by_tactic:
[ [ "by"; tac = tactic_expr LEVEL "3" -> TacComplete tac
| -> TacId [] ] ]
;
opt_by_tactic:
[ [ "by"; tac = tactic_expr LEVEL "3" -> Some tac
| -> None ] ]
;
rename :
[ [ id1 = id_or_meta; IDENT "into"; id2 = id_or_meta -> (id1,id2) ] ]
;
rewriter :
[ [ "!"; c = constr_with_bindings -> (RepeatPlus,c)
| ["?"| LEFTQMARK]; c = constr_with_bindings -> (RepeatStar,c)
| n = natural; "!"; c = constr_with_bindings -> (Precisely n,c)
| n = natural; ["?" | LEFTQMARK]; c = constr_with_bindings -> (UpTo n,c)
| n = natural; c = constr_with_bindings -> (Precisely n,c)
| c = constr_with_bindings -> (Precisely 1, c)
] ]
;
oriented_rewriter :
[ [ b = orient; p = rewriter -> let (m,c) = p in (b,m,c) ] ]
;
induction_clause:
[ [ lc = LIST1 induction_arg; ipats = with_induction_names;
el = OPT eliminator -> (lc,el,ipats) ] ]
;
one_induction_clause:
[ [ ic = induction_clause; cl = opt_clause -> ([ic],cl) ] ]
;
induction_clause_list:
[ [ ic = LIST1 induction_clause SEP ","; cl = opt_clause -> (ic,cl) ] ]
;
move_location:
[ [ IDENT "after"; id = id_or_meta -> MoveAfter id
| IDENT "before"; id = id_or_meta -> MoveBefore id
| "at"; IDENT "bottom" -> MoveToEnd true
| "at"; IDENT "top" -> MoveToEnd false ] ]
;
simple_tactic:
[ [
(* Basic tactics *)
IDENT "intros"; IDENT "until"; id = quantified_hypothesis ->
TacIntrosUntil id
| IDENT "intros"; pl = intropatterns -> TacIntroPattern pl
| IDENT "intro"; id = ident; hto = move_location ->
TacIntroMove (Some id, hto)
| IDENT "intro"; hto = move_location -> TacIntroMove (None, hto)
| IDENT "intro"; id = ident -> TacIntroMove (Some id, no_move)
| IDENT "intro" -> TacIntroMove (None, no_move)
| IDENT "assumption" -> TacAssumption
| IDENT "exact"; c = constr -> TacExact c
| IDENT "exact_no_check"; c = constr -> TacExactNoCheck c
| IDENT "vm_cast_no_check"; c = constr -> TacVmCastNoCheck c
| IDENT "apply"; cl = LIST1 constr_with_bindings SEP ",";
inhyp = in_hyp_as -> TacApply (true,false,cl,inhyp)
| IDENT "eapply"; cl = LIST1 constr_with_bindings SEP ",";
inhyp = in_hyp_as -> TacApply (true,true,cl,inhyp)
| IDENT "simple"; IDENT "apply"; cl = LIST1 constr_with_bindings SEP ",";
inhyp = in_hyp_as -> TacApply (false,false,cl,inhyp)
| IDENT "simple"; IDENT "eapply"; cl = LIST1 constr_with_bindings SEP",";
inhyp = in_hyp_as -> TacApply (false,true,cl,inhyp)
| IDENT "elim"; cl = constr_with_bindings; el = OPT eliminator ->
TacElim (false,cl,el)
| IDENT "eelim"; cl = constr_with_bindings; el = OPT eliminator ->
TacElim (true,cl,el)
| IDENT "elimtype"; c = constr -> TacElimType c
| IDENT "case"; icl = induction_clause_list -> mkTacCase false icl
| IDENT "ecase"; icl = induction_clause_list -> mkTacCase true icl
| IDENT "casetype"; c = constr -> TacCaseType c
| "fix"; n = natural -> TacFix (None,n)
| "fix"; id = ident; n = natural -> TacFix (Some id,n)
| "fix"; id = ident; n = natural; "with"; fd = LIST1 fixdecl ->
TacMutualFix (false,id,n,List.map mk_fix_tac fd)
| "cofix" -> TacCofix None
| "cofix"; id = ident -> TacCofix (Some id)
| "cofix"; id = ident; "with"; fd = LIST1 cofixdecl ->
TacMutualCofix (false,id,List.map mk_cofix_tac fd)
| IDENT "pose"; (id,b) = bindings_with_parameters ->
TacLetTac (Names.Name id,b,nowhere,true)
| IDENT "pose"; b = constr; na = as_name ->
TacLetTac (na,b,nowhere,true)
| IDENT "set"; (id,c) = bindings_with_parameters; p = clause_dft_concl ->
TacLetTac (Names.Name id,c,p,true)
| IDENT "set"; c = constr; na = as_name; p = clause_dft_concl ->
TacLetTac (na,c,p,true)
| IDENT "remember"; c = constr; na = as_name; p = clause_dft_all ->
TacLetTac (na,c,p,false)
(* Begin compatibility *)
| IDENT "assert"; test_lpar_id_coloneq; "("; (loc,id) = identref; ":=";
c = lconstr; ")" ->
TacAssert (None,Some (loc,IntroIdentifier id),c)
| IDENT "assert"; test_lpar_id_colon; "("; (loc,id) = identref; ":";
c = lconstr; ")"; tac=by_tactic ->
TacAssert (Some tac,Some (loc,IntroIdentifier id),c)
(* End compatibility *)
| IDENT "assert"; c = constr; ipat = as_ipat; tac = by_tactic ->
TacAssert (Some tac,ipat,c)
| IDENT "pose"; IDENT "proof"; c = lconstr; ipat = as_ipat ->
TacAssert (None,ipat,c)
| IDENT "cut"; c = constr -> TacCut c
| IDENT "generalize"; c = constr ->
TacGeneralize [((all_occurrences_expr,c),Names.Anonymous)]
| IDENT "generalize"; c = constr; l = LIST1 constr ->
let gen_everywhere c = ((all_occurrences_expr,c),Names.Anonymous) in
TacGeneralize (List.map gen_everywhere (c::l))
| IDENT "generalize"; c = constr; lookup_at_as_coma; nl = occs;
na = as_name;
l = LIST0 [","; c = pattern_occ; na = as_name -> (c,na)] ->
TacGeneralize (((nl,c),na)::l)
| IDENT "generalize"; IDENT "dependent"; c = constr -> TacGeneralizeDep c
| IDENT "specialize"; n = OPT natural; lcb = constr_with_bindings ->
TacSpecialize (n,lcb)
| IDENT "lapply"; c = constr -> TacLApply c
(* Derived basic tactics *)
| IDENT "simple"; IDENT"induction"; h = quantified_hypothesis ->
TacSimpleInductionDestruct (true,h)
| IDENT "induction"; ic = one_induction_clause ->
TacInductionDestruct (true,false,ic)
| IDENT "einduction"; ic = one_induction_clause ->
TacInductionDestruct(true,true,ic)
| IDENT "double"; IDENT "induction"; h1 = quantified_hypothesis;
h2 = quantified_hypothesis -> TacDoubleInduction (h1,h2)
| IDENT "simple"; IDENT "destruct"; h = quantified_hypothesis ->
TacSimpleInductionDestruct (false,h)
| IDENT "destruct"; icl = induction_clause_list ->
TacInductionDestruct(false,false,icl)
| IDENT "edestruct"; icl = induction_clause_list ->
TacInductionDestruct(false,true,icl)
| IDENT "decompose"; IDENT "record" ; c = constr -> TacDecomposeAnd c
| IDENT "decompose"; IDENT "sum"; c = constr -> TacDecomposeOr c
| IDENT "decompose"; "["; l = LIST1 smart_global; "]"; c = constr
-> TacDecompose (l,c)
(* Automation tactic *)
| IDENT "trivial"; lems = auto_using; db = hintbases ->
TacTrivial (lems,db)
| IDENT "auto"; n = OPT int_or_var; lems = auto_using; db = hintbases ->
TacAuto (n,lems,db)
(* Obsolete since V8.0
| IDENT "autotdb"; n = OPT natural -> TacAutoTDB n
| IDENT "cdhyp"; id = identref -> TacDestructHyp (true,id)
| IDENT "dhyp"; id = identref -> TacDestructHyp (false,id)
| IDENT "dconcl" -> TacDestructConcl
| IDENT "superauto"; l = autoargs -> TacSuperAuto l
*)
| IDENT "auto"; IDENT "decomp"; p = OPT natural;
lems = auto_using -> TacDAuto (None,p,lems)
| IDENT "auto"; n = OPT int_or_var; IDENT "decomp"; p = OPT natural;
lems = auto_using -> TacDAuto (n,p,lems)
(* Context management *)
| IDENT "clear"; "-"; l = LIST1 id_or_meta -> TacClear (true, l)
| IDENT "clear"; l = LIST0 id_or_meta -> TacClear (l=[], l)
| IDENT "clearbody"; l = LIST1 id_or_meta -> TacClearBody l
| IDENT "move"; hfrom = id_or_meta; hto = move_location ->
TacMove (true,hfrom,hto)
| IDENT "rename"; l = LIST1 rename SEP "," -> TacRename l
| IDENT "revert"; l = LIST1 id_or_meta -> TacRevert l
(* Constructors *)
| IDENT "left"; bl = with_bindings -> TacLeft (false,bl)
| IDENT "eleft"; bl = with_bindings -> TacLeft (true,bl)
| IDENT "right"; bl = with_bindings -> TacRight (false,bl)
| IDENT "eright"; bl = with_bindings -> TacRight (true,bl)
| IDENT "split"; bl = with_bindings -> TacSplit (false,false,[bl])
| IDENT "esplit"; bl = with_bindings -> TacSplit (true,false,[bl])
| "exists"; bll = LIST1 opt_bindings SEP "," -> TacSplit (false,true,bll)
| IDENT "eexists"; bll = LIST1 opt_bindings SEP "," ->
TacSplit (true,true,bll)
| IDENT "constructor"; n = num_or_meta; l = with_bindings ->
TacConstructor (false,n,l)
| IDENT "econstructor"; n = num_or_meta; l = with_bindings ->
TacConstructor (true,n,l)
| IDENT "constructor"; t = OPT tactic -> TacAnyConstructor (false,t)
| IDENT "econstructor"; t = OPT tactic -> TacAnyConstructor (true,t)
(* Equivalence relations *)
| IDENT "reflexivity" -> TacReflexivity
| IDENT "symmetry"; cl = clause_dft_concl -> TacSymmetry cl
| IDENT "transitivity"; c = constr -> TacTransitivity (Some c)
| IDENT "etransitivity" -> TacTransitivity None
(* Equality and inversion *)
| IDENT "rewrite"; l = LIST1 oriented_rewriter SEP ",";
cl = clause_dft_concl; t=opt_by_tactic -> TacRewrite (false,l,cl,t)
| IDENT "erewrite"; l = LIST1 oriented_rewriter SEP ",";
cl = clause_dft_concl; t=opt_by_tactic -> TacRewrite (true,l,cl,t)
| IDENT "dependent"; k =
[ IDENT "simple"; IDENT "inversion" -> SimpleInversion
| IDENT "inversion" -> FullInversion
| IDENT "inversion_clear" -> FullInversionClear ];
hyp = quantified_hypothesis;
ids = with_inversion_names; co = OPT ["with"; c = constr -> c] ->
TacInversion (DepInversion (k,co,ids),hyp)
| IDENT "simple"; IDENT "inversion";
hyp = quantified_hypothesis; ids = with_inversion_names;
cl = in_hyp_list ->
TacInversion (NonDepInversion (SimpleInversion, cl, ids), hyp)
| IDENT "inversion";
hyp = quantified_hypothesis; ids = with_inversion_names;
cl = in_hyp_list ->
TacInversion (NonDepInversion (FullInversion, cl, ids), hyp)
| IDENT "inversion_clear";
hyp = quantified_hypothesis; ids = with_inversion_names;
cl = in_hyp_list ->
TacInversion (NonDepInversion (FullInversionClear, cl, ids), hyp)
| IDENT "inversion"; hyp = quantified_hypothesis;
"using"; c = constr; cl = in_hyp_list ->
TacInversion (InversionUsing (c,cl), hyp)
(* Conversion *)
| r = red_tactic; cl = clause_dft_concl -> TacReduce (r, cl)
(* Change ne doit pas s'appliquer dans un Definition t := Eval ... *)
| IDENT "change"; (oc,c) = conversion; cl = clause_dft_concl ->
let p,cl = merge_occurrences loc cl oc in
TacChange (p,c,cl)
] ]
;
END;;
|