(* Title: Pure/Isar/rule_cases.ML
ID: $Id$
Author: Markus Wenzel, TU Muenchen
Manage local contexts of rules.
*)
signature RULE_CASES =
sig
val consumes: int -> 'a attribute
val consumes_default: int -> 'a attribute
val name: string list -> thm -> thm
val case_names: string list -> 'a attribute
val save: thm -> thm -> thm
val get: thm -> string list * int
val add: thm -> thm * (string list * int)
type T
val empty: T
val make: bool -> term option -> Sign.sg * term -> string list -> (string * T) list
val rename_params: string list list -> thm -> thm
val params: string list list -> 'a attribute
end;
structure RuleCases: RULE_CASES =
struct
(* names *)
val consumes_tagN = "consumes";
val cases_tagN = "cases";
val case_conclN = "case";
(* number of consumed facts *)
fun lookup_consumes thm =
let fun err () = raise THM ("Malformed 'consumes' tag of theorem", 0, [thm]) in
(case Library.assoc (Thm.tags_of_thm thm, consumes_tagN) of
None => None
| Some [s] => (case Syntax.read_nat s of Some n => Some n | _ => err ())
| _ => err ())
end;
fun put_consumes None th = th
| put_consumes (Some n) th = th
|> Drule.untag_rule consumes_tagN
|> Drule.tag_rule (consumes_tagN, [Library.string_of_int n]);
val save_consumes = put_consumes o lookup_consumes;
fun consumes n x = Drule.rule_attribute (K (put_consumes (Some n))) x;
fun consumes_default n x = if Library.is_some (lookup_consumes (#2 x)) then x else consumes n x;
(* case names *)
fun put_case_names None thm = thm
| put_case_names (Some names) thm =
thm
|> Drule.untag_rule cases_tagN
|> Drule.tag_rule (cases_tagN, names);
fun lookup_case_names thm = Library.assoc (Thm.tags_of_thm thm, cases_tagN);
val save_case_names = put_case_names o lookup_case_names;
val name = put_case_names o Some;
fun case_names ss = Drule.rule_attribute (K (name ss));
(* access hints *)
fun save thm = save_case_names thm o save_consumes thm;
fun get thm =
let
val n = if_none (lookup_consumes thm) 0;
val ss =
(case lookup_case_names thm of
None => map Library.string_of_int (1 upto (Thm.nprems_of thm - n))
| Some ss => ss);
in (ss, n) end;
fun add thm = (thm, get thm);
(* prepare cases *)
type T =
{fixes: (string * typ) list,
assumes: (string * term list) list,
binds: (indexname * term option) list};
val hypsN = "hyps";
val premsN = "prems";
val empty = {fixes = [], assumes = [], binds = []};
fun nth_subgoal(i,prop) =
hd (#1 (Logic.strip_prems (i, [], prop)));
fun prep_case is_open split sg prop name i =
let
val Bi = Drule.norm_hhf sg (nth_subgoal(i,prop));
val all_xs = Logic.strip_params Bi
val n = (case split of None => length all_xs
| Some t => length (Logic.strip_params(nth_subgoal(i,t))))
val (ind_xs, goal_xs) = splitAt(n,all_xs)
val rename = if is_open then I else apfst Syntax.internal
val xs = map rename ind_xs @ goal_xs
val asms = map (curry Term.list_abs xs) (Logic.strip_assums_hyp Bi);
val named_asms =
(case split of None => [("", asms)]
| Some t =>
let val h = length (Logic.strip_assums_hyp(nth_subgoal(i,t)))
val (ps,qs) = splitAt(h, asms)
in [(hypsN, ps), (premsN, qs)] end);
val concl = Term.list_abs (xs, Logic.strip_assums_concl Bi);
val bind = ((case_conclN, 0), Some (ObjectLogic.drop_judgment sg concl));
in (name, {fixes = xs, assumes = named_asms, binds = [bind]}) end;
fun make is_open split (sg, prop) names =
let val nprems = Logic.count_prems (prop, 0) in
foldr (fn (name, (cases, i)) => (prep_case is_open split sg prop name i :: cases, i - 1))
(Library.drop (length names - nprems, names), ([], length names)) |> #1
end;
(* params *)
fun rename_params xss thm = foldln Thm.rename_params_rule xss thm
|> save thm;
fun params xss = Drule.rule_attribute (K (rename_params xss));
end;