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FoNets.sml
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FoNets.sml
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(* ========================================================================= *)
(* *)
(* First-order matching and nets. *)
(* *)
(* (c) Copyright, Vincent Aravantinos, 2012-2013 *)
(* Analysis and Design of Dependable Systems *)
(* fortiss GmbH, Munich, Germany *)
(* *)
(* Formerly: Hardware Verification Group, *)
(* Concordia University *)
(* *)
(* Contact: <vincent.aravantinos@fortiss.org> *)
(* *)
(* HOL4 already has several implementations of net, it seemed to me easier *)
(* to just port my HOL Light version rather than investigating deeply which *)
(* HOL4 one was good for my needs... *)
(* Basically, these nets have the two following features: *)
(* - first-order (like HOL4 Nets, but if I understood well not like Ho_nets) *)
(* Note that this is on purpose: higher-order implicational rewriting *)
(* generally rewrites too much... *)
(* - given a theorem [x=0] |- x = 0, does not match x with anything else *)
(* x (like Ho_nets, but unlike Nets, if I understood well). *)
(* *)
(* ========================================================================= *)
structure FoNets =
struct
open HolKernel Parse boolLib bossLib;
datatype term_label =
Vnet of int
|Lcnet of string * int
|Cnet of string * int
|Lnet of int
datatype 'a t = Netnode of (term_label * 'a t) list * 'a list
fun exists_subterm p t =
(ignore (find_term p t);true) handle HOL_ERR _ => false;
val empty_net = Netnode([],[])
fun label_to_store lcs t =
let
val (opr,args) = strip_comb t
val nargs = length args
in
case dest_term opr of
CONST{Name = n,...} => (Cnet(n,nargs),args)
|LAMB(v,b) =>
let val b' = if mem v lcs then subst [v|->genvar(type_of v)] b else b in
(Lnet nargs,b'::args)
end
|VAR(n,_) =>
if mem opr lcs then (Lcnet(n,nargs),args) else (Vnet nargs,args)
|_ => fail()
end
fun net_update _ elem (Netnode(edges,tips)) [] =
Netnode(edges,elem::tips)
| net_update lcs elem (Netnode(edges,tips)) (t::rts) =
let
val (label,nts) = label_to_store lcs t
val (child,others) =
let val ((_,n),edges') = (pluck (fn (x,y) => x = label) edges) in
(n,edges')
end
handle HOL_ERR _ => (empty_net,edges)
val new_child = net_update lcs elem child (nts@rts)
in
Netnode ((label,new_child)::others,tips)
end
fun enter lcs (t,elem) net = net_update lcs elem net [t]
fun label_for_lookup t =
let
val (opr,args) = strip_comb t
val nargs = length args
in
case dest_term opr of
CONST{Name = n,...} => (Cnet(n,nargs),args)
|LAMB(_,b) => (Lnet nargs,b::args)
|VAR(n,_) => (Lcnet(n,nargs),args)
|COMB _ => fail()
end
fun follow (Netnode(_,tips)) [] = tips
| follow (Netnode(edges,tips)) (t::rts) =
let
val (label,nts) = label_for_lookup t
val collection =
follow (assoc label edges) (nts@rts) handle HOL_ERR _ => []
(* HERE is the major difference: *)
fun support [] = [(0,rts)]
| support (t::ts) =
(case support ts of
res as ((k,nts')::res') => (k+1,(t::nts'))::res
|[] => fail ())
fun f (k,nts) =
follow (assoc (Vnet k) edges) nts handle HOL_ERR _ => []
val follows = map f (support nts)
in
collection @ flatten follows
end;
fun lookup t net = follow net [t]
fun filter p (Netnode(edges,tips)) =
Netnode(map (fn (l,n) => (l,filter p n)) edges, List.filter p tips)
end;