proper Pattern.match and corresponding Envir.subst_term, instead of Envir.norm_term of unify-family;
(* Title: HOL/Eisbach/method_closure.ML
Author: Daniel Matichuk, NICTA/UNSW
Facilities for treating method syntax as a closure, with abstraction
over terms, facts and other methods.
The 'method' command allows to define new proof methods by combining
existing ones with their usual syntax.
*)
signature METHOD_CLOSURE =
sig
val read: Proof.context -> Token.src -> Method.text
val read_closure: Proof.context -> Token.src -> Method.text * Token.src
val read_closure_input: Proof.context -> Input.source -> Method.text * Token.src
val method_text: Method.text context_parser
val method_evaluate: Method.text -> Proof.context -> Method.method
val apply_method: Proof.context -> string -> term list -> thm list list ->
(Proof.context -> Method.method) list -> Proof.context -> thm list -> context_tactic
val method: binding -> (binding * typ option * mixfix) list -> binding list ->
binding list -> binding list -> Token.src -> local_theory -> string * local_theory
val method_cmd: binding -> (binding * string option * mixfix) list -> binding list ->
binding list -> binding list -> Token.src -> local_theory -> string * local_theory
end;
structure Method_Closure: METHOD_CLOSURE =
struct
(* auxiliary data for method definition *)
structure Method_Definition = Proof_Data
(
type T =
(Proof.context -> Method.method) Symtab.table * (*dynamic methods*)
(term list -> Proof.context -> Method.method) (*recursive method*);
fun init _ : T = (Symtab.empty, fn _ => fn _ => Method.fail);
);
fun lookup_dynamic_method ctxt full_name =
(case Symtab.lookup (#1 (Method_Definition.get ctxt)) full_name of
SOME m => m ctxt
| NONE => error ("Illegal use of internal Eisbach method: " ^ quote full_name));
val update_dynamic_method = Method_Definition.map o apfst o Symtab.update;
fun get_recursive_method ts ctxt = #2 (Method_Definition.get ctxt) ts ctxt;
val put_recursive_method = Method_Definition.map o apsnd o K;
(* stored method closures *)
type closure = {vars: term list, named_thms: string list, methods: string list, body: Method.text};
structure Data = Generic_Data
(
type T = closure Symtab.table;
val empty: T = Symtab.empty;
val extend = I;
fun merge data : T = Symtab.merge (K true) data;
);
fun get_closure ctxt name =
(case Symtab.lookup (Data.get (Context.Proof ctxt)) name of
SOME closure => closure
| NONE => error ("Unknown Eisbach method: " ^ quote name));
fun put_closure binding (closure: closure) lthy =
let
val name = Local_Theory.full_name lthy binding;
in
lthy |> Local_Theory.declaration {syntax = false, pervasive = true} (fn phi =>
Data.map
(Symtab.update (name,
{vars = map (Morphism.term phi) (#vars closure),
named_thms = #named_thms closure,
methods = #methods closure,
body = (Method.map_source o map) (Token.transform phi) (#body closure)})))
end;
(* read method text *)
fun read ctxt src =
(case Scan.read Token.stopper (Parse.!!! (Method.parser 0 --| Scan.ahead Parse.eof)) src of
SOME (text, range) =>
if Method.checked_text text then text
else (Method.report (text, range); Method.check_text ctxt text)
| NONE =>
error ("Failed to parse method" ^ Position.here (Position.set_range (Token.range_of src))));
fun read_closure ctxt src0 =
let
val src1 = map Token.init_assignable src0;
val text = read ctxt src1 |> Method.map_source (Method.method_closure ctxt);
val src2 = map Token.closure src1;
in (text, src2) end;
fun read_closure_input ctxt =
Input.source_explode #>
Token.read_no_commands (Thy_Header.get_keywords' ctxt) (Scan.one Token.not_eof) #>
read_closure ctxt;
val method_text =
Args.context -- Scan.lift (Parse.token Parse.text) >> (fn (ctxt, tok) =>
(case Token.get_value tok of
SOME (Token.Source src) => read ctxt src
| _ =>
let
val (text, src) = read_closure_input ctxt (Token.input_of tok);
val _ = Token.assign (SOME (Token.Source src)) tok;
in text end));
(* evaluate method text *)
fun method_evaluate text ctxt =
let
val text' =
text |> (Method.map_source o map o Token.map_facts)
(fn SOME name =>
(case Proof_Context.lookup_fact ctxt name of
SOME (false, ths) => K ths
| _ => I)
| NONE => I);
val ctxt' = Config.put Method.closure false ctxt;
in fn facts => Method.RUNTIME (fn st => Method.evaluate text' ctxt' facts st) end;
fun method_instantiate vars body ts ctxt =
let
val thy = Proof_Context.theory_of ctxt;
val subst = fold (Pattern.match thy) (vars ~~ ts) (Vartab.empty, Vartab.empty);
val morphism = Morphism.term_morphism "method_instantiate" (Envir.subst_term subst);
val body' = (Method.map_source o map) (Token.transform morphism) body;
in method_evaluate body' ctxt end;
(** apply method closure **)
fun recursive_method vars body ts =
let val m = method_instantiate vars body
in put_recursive_method m #> m ts end;
fun apply_method ctxt method_name terms facts methods =
let
fun declare_facts (name :: names) (fact :: facts) =
fold (Context.proof_map o Named_Theorems.add_thm name) fact
#> declare_facts names facts
| declare_facts _ [] = I
| declare_facts [] (_ :: _) = error ("Excessive facts for method " ^ quote method_name);
val {vars, named_thms, methods = method_args, body} = get_closure ctxt method_name;
in
declare_facts named_thms facts
#> fold update_dynamic_method (method_args ~~ methods)
#> recursive_method vars body terms
end;
(** define method closure **)
local
fun setup_local_method binding lthy =
let
val full_name = Local_Theory.full_name lthy binding;
fun dynamic_method ctxt = lookup_dynamic_method ctxt full_name;
in
lthy
|> update_dynamic_method (full_name, K Method.fail)
|> Method.local_setup binding (Scan.succeed dynamic_method) "(internal)"
end;
fun check_named_thm ctxt binding =
let
val bname = Binding.name_of binding;
val pos = Binding.pos_of binding;
val full_name = Named_Theorems.check ctxt (bname, pos);
val parser: Method.modifier parser =
Args.$$$ bname -- Args.colon
>> K {init = I, attribute = Named_Theorems.add full_name, pos = pos};
in (full_name, parser) end;
fun dummy_named_thm named_thm =
Context.proof_map
(Named_Theorems.clear named_thm
#> Named_Theorems.add_thm named_thm Drule.free_dummy_thm);
fun parse_term_args args =
Args.context :|-- (fn ctxt =>
let
val ctxt' = Proof_Context.set_mode (Proof_Context.mode_schematic) ctxt;
fun parse T =
(if T = propT then Syntax.parse_prop ctxt' else Syntax.parse_term ctxt')
#> Type.constraint (Type_Infer.paramify_vars T);
fun do_parse' T =
Parse_Tools.name_term >> Parse_Tools.parse_val_cases (parse T);
fun do_parse (Var (_, T)) = do_parse' T
| do_parse (Free (_, T)) = do_parse' T
| do_parse t = error ("Unexpected method parameter: " ^ Syntax.string_of_term ctxt' t);
fun rep [] x = Scan.succeed [] x
| rep (t :: ts) x = (do_parse t ::: rep ts) x;
fun check ts =
let
val (ts, fs) = split_list ts;
val ts' = Syntax.check_terms ctxt' ts |> Variable.polymorphic ctxt';
val _ = ListPair.app (fn (f, t) => f t) (fs, ts');
in ts' end;
in Scan.lift (rep args) >> check end);
fun parse_method_args method_args =
let
fun bind_method (name, text) ctxt =
let
val method = method_evaluate text;
val inner_update = method o update_dynamic_method (name, K (method ctxt));
in update_dynamic_method (name, inner_update) ctxt end;
fun rep [] x = Scan.succeed [] x
| rep (m :: ms) x = ((method_text >> pair m) ::: rep ms) x;
in rep method_args >> fold bind_method end;
fun gen_method add_fixes name vars uses declares methods source lthy =
let
val (uses_internal, lthy1) = lthy
|> Proof_Context.concealed
|> Local_Theory.open_target |-> Proof_Context.private_scope
|> Local_Theory.map_background_naming (Name_Space.add_path (Binding.name_of name))
|> Config.put Method.old_section_parser true
|> fold setup_local_method methods
|> fold_map (fn b => Named_Theorems.declare b "") uses;
val (term_args, lthy2) = lthy1
|> add_fixes vars |-> fold_map Proof_Context.inferred_param |>> map Free;
val (named_thms, modifiers) = map (check_named_thm lthy2) (declares @ uses) |> split_list;
val method_args = map (Local_Theory.full_name lthy2) methods;
fun parser args meth =
apfst (Config.put_generic Method.old_section_parser true) #>
(parse_term_args args --
parse_method_args method_args --|
(Scan.depend (fn context =>
Scan.succeed (fold Named_Theorems.clear uses_internal context, ())) --
Method.sections modifiers)) >> (fn (ts, decl) => meth ts o decl);
val lthy3 = lthy2
|> fold dummy_named_thm named_thms
|> Method.local_setup (Binding.make (Binding.name_of name, Position.none))
(parser term_args get_recursive_method) "(internal)";
val (text, src) = read_closure lthy3 source;
val morphism =
Variable.export_morphism lthy3
(lthy
|> Proof_Context.transfer (Proof_Context.theory_of lthy3)
|> fold Token.declare_maxidx src
|> Variable.declare_maxidx (Variable.maxidx_of lthy3));
val text' = (Method.map_source o map) (Token.transform morphism) text;
val term_args' = map (Morphism.term morphism) term_args;
in
lthy3
|> Local_Theory.close_target
|> Proof_Context.restore_naming lthy
|> put_closure name
{vars = term_args', named_thms = named_thms, methods = method_args, body = text'}
|> Method.local_setup name (parser term_args' (recursive_method term_args' text'))
"(defined in Eisbach)"
|> pair (Local_Theory.full_name lthy name)
end;
in
val method = gen_method Proof_Context.add_fixes;
val method_cmd = gen_method Proof_Context.add_fixes_cmd;
end;
val _ =
Outer_Syntax.local_theory @{command_keyword method} "Eisbach method definition"
(Parse.binding -- Parse.for_fixes --
((Scan.optional (@{keyword "methods"} |-- Parse.!!! (Scan.repeat1 Parse.binding)) []) --
(Scan.optional (@{keyword "uses"} |-- Parse.!!! (Scan.repeat1 Parse.binding)) [])) --
(Scan.optional (@{keyword "declares"} |-- Parse.!!! (Scan.repeat1 Parse.binding)) []) --
Parse.!!! (@{keyword "="} |-- Parse.args1 (K true)) >>
(fn ((((name, vars), (methods, uses)), declares), src) =>
#2 o method_cmd name vars uses declares methods src));
end;