From a0cfa4f118023d35b767a999d5a2ac4b082857b4 Mon Sep 17 00:00:00 2001 From: Samuel Mimram Date: Fri, 25 Jul 2008 15:12:53 +0200 Subject: Imported Upstream version 8.2~beta3+dfsg --- kernel/closure.ml | 149 +++++------------------------------------------------- 1 file changed, 13 insertions(+), 136 deletions(-) (limited to 'kernel/closure.ml') diff --git a/kernel/closure.ml b/kernel/closure.ml index 41fe8750..b85be204 100644 --- a/kernel/closure.ml +++ b/kernel/closure.ml @@ -6,7 +6,7 @@ (* * GNU Lesser General Public License Version 2.1 *) (************************************************************************) -(* $Id: closure.ml 9215 2006-10-05 15:40:31Z herbelin $ *) +(* $Id: closure.ml 10819 2008-04-20 18:14:44Z msozeau $ *) open Util open Pp @@ -165,143 +165,15 @@ let betadeltaiotanolet = mkflags [fBETA;fDELTA;fIOTA] let betaiota = mkflags [fBETA;fIOTA] let beta = mkflags [fBETA] let betaiotazeta = mkflags [fBETA;fIOTA;fZETA] + +(* Removing fZETA for finer behaviour would break many developments *) +let unfold_side_flags = [fBETA;fIOTA;fZETA] +let unfold_side_red = mkflags [fBETA;fIOTA;fZETA] let unfold_red kn = let flag = match kn with | EvalVarRef id -> fVAR id - | EvalConstRef kn -> fCONST kn - in (* Remove fZETA for finer behaviour ? *) - mkflags [fBETA;flag;fIOTA;fZETA] - -(************************* Obsolète -(* [r_const=(true,cl)] means all constants but those in [cl] *) -(* [r_const=(false,cl)] means only those in [cl] *) -type reds = { - r_beta : bool; - r_const : bool * constant_path list * identifier list; - r_zeta : bool; - r_evar : bool; - r_iota : bool } - -let betadeltaiota_red = { - r_beta = true; - r_const = true,[],[]; - r_zeta = true; - r_evar = true; - r_iota = true } - -let betaiota_red = { - r_beta = true; - r_const = false,[],[]; - r_zeta = false; - r_evar = false; - r_iota = true } - -let beta_red = { - r_beta = true; - r_const = false,[],[]; - r_zeta = false; - r_evar = false; - r_iota = false } - -let no_red = { - r_beta = false; - r_const = false,[],[]; - r_zeta = false; - r_evar = false; - r_iota = false } - -let betaiotazeta_red = { - r_beta = true; - r_const = false,[],[]; - r_zeta = true; - r_evar = false; - r_iota = true } - -let unfold_red kn = - let c = match kn with - | EvalVarRef id -> false,[],[id] - | EvalConstRef kn -> false,[kn],[] - in { - r_beta = true; - r_const = c; - r_zeta = true; (* false for finer behaviour ? *) - r_evar = false; - r_iota = true } - -(* Sets of reduction kinds. - Main rule: delta implies all consts (both global (= by - kernel_name) and local (= by Rel or Var)), all evars, and zeta (= letin's). - Rem: reduction of a Rel/Var bound to a term is Delta, but reduction of - a LetIn expression is Letin reduction *) - -type red_kind = - BETA | DELTA | ZETA | IOTA - | CONST of constant_path list | CONSTBUT of constant_path list - | VAR of identifier | VARBUT of identifier - -let rec red_add red = function - | BETA -> { red with r_beta = true } - | DELTA -> - (match red.r_const with - | _,_::_,[] | _,[],_::_ -> error "Conflict in the reduction flags" - | _ -> { red with r_const = true,[],[]; r_zeta = true; r_evar = true }) - | CONST cl -> - (match red.r_const with - | true,_,_ -> error "Conflict in the reduction flags" - | _,l1,l2 -> { red with r_const = false, list_union cl l1, l2 }) - | CONSTBUT cl -> - (match red.r_const with - | false,_::_,_ | false,_,_::_ -> - error "Conflict in the reduction flags" - | _,l1,l2 -> - { red with r_const = true, list_union cl l1, l2; - r_zeta = true; r_evar = true }) - | IOTA -> { red with r_iota = true } - | ZETA -> { red with r_zeta = true } - | VAR id -> - (match red.r_const with - | true,_,_ -> error "Conflict in the reduction flags" - | _,l1,l2 -> { red with r_const = false, l1, list_union [id] l2 }) - | VARBUT cl -> - (match red.r_const with - | false,_::_,_ | false,_,_::_ -> - error "Conflict in the reduction flags" - | _,l1,l2 -> - { red with r_const = true, l1, list_union [cl] l2; - r_zeta = true; r_evar = true }) - -let red_delta_set red = - let b,_,_ = red.r_const in b - -let red_local_const = red_delta_set - -(* to know if a redex is allowed, only a subset of red_kind is used ... *) -let red_set red = function - | BETA -> incr_cnt red.r_beta beta - | CONST [kn] -> - let (b,l,_) = red.r_const in - let c = List.mem kn l in - incr_cnt ((b & not c) or (c & not b)) delta - | VAR id -> (* En attendant d'avoir des kn pour les Var *) - let (b,_,l) = red.r_const in - let c = List.mem id l in - incr_cnt ((b & not c) or (c & not b)) delta - | ZETA -> incr_cnt red.r_zeta zeta - | EVAR -> incr_cnt red.r_zeta evar - | IOTA -> incr_cnt red.r_iota iota - | DELTA -> red_delta_set red (*Used for Rel/Var defined in context*) - (* Not for internal use *) - | CONST _ | CONSTBUT _ | VAR _ | VARBUT _ -> failwith "not implemented" - -(* Gives the constant list *) -let red_get_const red = - let b,l1,l2 = red.r_const in - let l1' = List.map (fun x -> EvalConstRef x) l1 in - let l2' = List.map (fun x -> EvalVarRef x) l2 in - b, l1' @ l2' -fin obsolète **************) -(* specification of the reduction function *) - + | EvalConstRef kn -> fCONST kn in + mkflags (flag::unfold_side_flags) (* Flags of reduction and cache of constants: 'a is a type that may be * mapped to constr. 'a infos implements a cache for constants and @@ -980,7 +852,7 @@ and knht e t stk = (************************************************************************) -(* Computes a normal form from the result of knh. *) +(* Computes a weak head normal form from the result of knh. *) let rec knr info m stk = match m.term with | FLambda(n,tys,f,e) when red_set info.i_flags fBETA -> @@ -1082,6 +954,11 @@ and norm_head info m = let fbds = Array.map (mk_clos (subs_liftn (Array.length na) e)) bds in mkCoFix(n,(na, Array.map (kl info) ftys, Array.map (kl info) fbds)) + | FFix((n,(na,tys,bds)),e) -> + let ftys = Array.map (mk_clos e) tys in + let fbds = + Array.map (mk_clos (subs_liftn (Array.length na) e)) bds in + mkFix(n,(na, Array.map (kl info) ftys, Array.map (kl info) fbds)) | FEvar(i,args) -> mkEvar(i, Array.map (kl info) args) | t -> term_of_fconstr m -- cgit v1.2.3