1 (* Copyright (C) 2005, HELM Team.
3 * This file is part of HELM, an Hypertextual, Electronic
4 * Library of Mathematics, developed at the Computer Science
5 * Department, University of Bologna, Italy.
7 * HELM is free software; you can redistribute it and/or
8 * modify it under the terms of the GNU General Public License
9 * as published by the Free Software Foundation; either version 2
10 * of the License, or (at your option) any later version.
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13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 * GNU General Public License for more details.
17 * You should have received a copy of the GNU General Public License
18 * along with HELM; if not, write to the Free Software
19 * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
22 * For details, see the HELM World-Wide-Web page,
23 * http://helm.cs.unibo.it/
30 module Ast = CicNotationPt
31 module Env = CicNotationEnv
32 module Pp = CicNotationPp
33 module Util = CicNotationUtil
36 let subterms = ref [] in
38 subterms := t :: !subterms ;
41 let rec aux t = CicNotationUtil.visit_ast ~special_k map_term t
42 and special_k = function
43 | Ast.AttributedTerm (_, t) -> aux t
46 let term_mask = aux term0 in
47 let tag = Hashtbl.hash term_mask in
48 tag, List.rev !subterms
54 type pattern_t = Ast.term
55 type term_t = Ast.term
56 let rec classify = function
57 | Ast.AttributedTerm (_, t) -> classify t
58 | Ast.Variable _ -> PatternMatcher.Variable
61 | Ast.Literal _ -> assert false
62 | _ -> PatternMatcher.Constructor
63 let tag_of_pattern = get_tag
64 let tag_of_term t = get_tag t
65 let string_of_term = CicNotationPp.pp_term
66 let string_of_pattern = CicNotationPp.pp_term
69 module M = PatternMatcher.Matcher (Pattern21)
71 let extract_magic term =
72 let magic_map = ref [] in
74 let name = Util.fresh_name () in
75 magic_map := (name, m) :: !magic_map;
76 Ast.Variable (Ast.TermVar (name,Ast.Level 0))
78 let rec aux = function
79 | Ast.AttributedTerm (_, t) -> assert false
81 | Ast.Layout _ -> assert false
82 | Ast.Variable v -> Ast.Variable v
83 | Ast.Magic m -> add_magic m
84 | t -> Util.visit_ast aux t
86 let term' = aux term in
89 let env_of_matched pl tl =
94 | Ast.Variable (Ast.TermVar (name,(Ast.Self l|Ast.Level l))), _ ->
95 name, (Env.TermType l, Env.TermValue t)
96 | Ast.Variable (Ast.NumVar name), (Ast.Num (s, _)) ->
97 name, (Env.NumType, Env.NumValue s)
98 | Ast.Variable (Ast.IdentVar name), (Ast.Ident (s, None)) ->
99 name, (Env.StringType, Env.StringValue s)
102 with Invalid_argument _ -> assert false
104 let rec compiler rows =
105 let rows', magic_maps =
109 let p', map = extract_magic p in
110 (p', pid), (pid, map))
113 let magichecker map =
116 let m_checker = compile_magic m in
118 match m_checker (Env.lookup_term env name) env ctors with
120 | Some (env, ctors) -> f env ctors))
121 (fun env ctors -> Some (env, ctors))
124 let magichooser candidates =
126 (fun f (pid, pl, checker) ->
127 (fun matched_terms constructors ->
128 let env = env_of_matched pl matched_terms in
129 match checker env constructors with
130 | None -> f matched_terms constructors
131 | Some (env, ctors') ->
133 try List.assoc pid magic_maps with Not_found -> assert false
135 let env' = Env.remove_names env (List.map fst magic_map) in
136 Some (env', ctors', pid)))
138 (List.rev candidates)
145 try List.assoc pid magic_maps with Not_found -> assert false
147 pid, pl, magichecker magic_map)
150 magichooser candidates
152 M.compiler rows' match_cb (fun _ -> None)
154 and compile_magic = function
155 | Ast.Fold (kind, p_base, names, p_rec) ->
156 let p_rec_decls = Env.declarations_of_term p_rec in
157 (* LUCA: p_rec_decls should not contain "names" *)
158 let acc_name = try List.hd names with Failure _ -> assert false in
159 let compiled_base = compiler [p_base, 0]
160 and compiled_rec = compiler [p_rec, 0] in
161 (fun term env ctors ->
163 match compiled_base term with
165 | Some (env', ctors', _) -> Some (env', ctors', [])
168 match compiled_rec term with
169 | None -> aux_base term
170 | Some (env', ctors', _) ->
172 let acc = Env.lookup_term env' acc_name in
173 let env'' = Env.remove_name env' acc_name in
175 | None -> aux_base term
176 | Some (base_env, ctors', rec_envl) ->
177 let ctors'' = ctors' @ ctors in
178 Some (base_env, ctors'',env'' :: rec_envl)
183 | Some (base_env, ctors, rec_envl) ->
185 base_env @ Env.coalesce_env p_rec_decls rec_envl @ env
190 | Ast.Default (p_some, p_none) -> (* p_none can't bound names *)
191 let p_some_decls = Env.declarations_of_term p_some in
192 let p_none_decls = Env.declarations_of_term p_none in
195 (fun decl -> not (List.mem decl p_none_decls))
198 let none_env = List.map Env.opt_binding_of_name p_opt_decls in
199 let compiled = compiler [p_some, 0] in
200 (fun term env ctors ->
201 match compiled term with
202 | None -> Some (none_env, ctors) (* LUCA: @ env ??? *)
203 | Some (env', ctors', 0) ->
206 (fun (name, (ty, v)) as binding ->
207 if List.exists (fun (name', _) -> name = name') p_opt_decls
208 then Env.opt_binding_some binding
212 Some (env' @ env, ctors' @ ctors)
215 | Ast.If (p_test, p_true, p_false) ->
216 let compiled_test = compiler [p_test, 0]
217 and compiled_true = compiler [p_true, 0]
218 and compiled_false = compiler [p_false, 0] in
219 (fun term env ctors ->
221 match compiled_test term with
222 | None -> compiled_false
223 | Some _ -> compiled_true
225 match branch term with
227 | Some (env', ctors', _) -> Some (env' @ env, ctors' @ ctors))
229 | Ast.Fail -> (fun _ _ _ -> None)