1 (* elements of calculations.
2 they are partially held in association lists as ref's for
3 switching language levels (meta-string, object-values).
4 in order to keep these ref's during re-evaluation of code,
5 they are defined here at the beginning of the code.
6 Author: Walther Neuper 2003
7 (c) copyright due to lincense terms
14 val linefeed = (curry op^) "\n";
15 type authors = string list;
18 val empty_cterm' = "empty_cterm'";
22 Thm (string, thm): (a) needs string to identify sym_thmID for handling in front-end;
23 (b) investigate if ""RS sym" attaches a [.]" still occurs: string_of_thmI
24 thmID : type for data from user input + program
25 thmDeriv : type for thy_hierarchy ONLY
26 obsolete types : thm' (SEE "ad thm'"), thm''.
27 revise funs : id_of_thm, thm_of_thm, rep_thm_G', eq_thmI, eq_thmI', thm'_of_thm thm.
28 activate : thmID_of_derivation_name'
30 type thmID = string; (* identifier for a thm (the shortest possible identifier) *)
31 type thmDeriv = string; (* WN120524 deprecated
32 thyID ^"."^ xxx ^"."^ thmID, see fun thmID_of_derivation_name
33 WN120524: dont use Thm.derivation_name, this is destroyed by num_str;
34 Thm.get_name_hint survives num_str and seems perfectly reliable *)
36 type thm' = thmID * cterm';(*WN060610 deprecated in favour of thm''*)
37 type thm'' = thmID * term;
40 (*.a 'guh'='globally unique handle' is a string unique for each element
41 of isac's KEStore and persistent over time
42 (in particular under shifts within the respective hierarchy);
44 # guh NOT resistant agains shifts from one thy to another
45 (which is the price for Isabelle's design: thy's overwrite ids of subthy's)
46 # requirement for matchTheory: induce guh from tac + current thy
47 (see 'fun thy_containing_thm', 'fun thy_containing_rls' etc.)
48 TODO: introduce to pbl, met.*)
50 val e_guh = "e_guh":guh;
54 (* eval function calling sml code during rewriting.
55 Unifying "type cal" and "type calc" would make Lucas-Interpretation more efficient,
56 see "fun rule2stac": instead of
57 Calc: calID * eval_fn -> rule
59 Calc: prog_calcID * (calID * eval_fn)) -> rule*)
60 type eval_fn = (string -> term -> theory -> (string * term) option);
61 fun e_evalfn (_:'a) (_:term) (_:theory) = NONE:(string * term) option;
62 (*. op in isa-term 'Const(op,_)' .*)
66 type cal = (calID * eval_fn);
67 (*. fun calculate_ fetches the evaluation-function via this list. *)
68 type prog_calcID = string;
69 type calc = (prog_calcID * cal);
71 prog_calcID * (* a simple identifier used in programs *)
72 (calID * (* a long identifier used in Const *)
73 eval_fn) (* an ML function *)
74 fun calc_eq ((pi1, (ci1, _)) : calc_elem, (pi2, (ci2, _)) : calc_elem) =
76 then if ci1 = ci2 then true else error ("calc_eq: " ^ ci1 ^ " <> " ^ ci2)
80 type subs' = (cterm' * cterm') list; (*16.11.00 for FE-KE*)
81 type subst = (term * term) list; (*here for ets2str*)
82 val e_subst = []:(term * term) list;
84 (*TODO.WN060610 make use of "type rew_ord" total*)
85 type rew_ord' = string;
86 val e_rew_ord' = "e_rew_ord" : rew_ord';
87 type rew_ord_ = subst -> Term.term * Term.term -> bool;
88 fun dummy_ord (_:subst) (_:term,_:term) = true;
89 val e_rew_ord_ = dummy_ord;
90 type rew_ord = rew_ord' * rew_ord_;
91 val e_rew_ord = dummy_ord; (* TODO.WN071231 clarify identifiers..e_rew_ordX*)
92 val e_rew_ordX = (e_rew_ord', e_rew_ord_) : rew_ord;
94 (* error patterns and fill patterns *)
95 type errpatID = string
97 errpatID (* one identifier for a list of patterns
98 DESIGN ?TODO: errpatID list for hierarchy of errpats ? *)
99 * term list (* error patterns *)
100 * thm list (* thms related to error patterns; note that respective lhs
101 do not match (which reflects student's error).
102 fillpatterns are stored with these thms. *)
104 (* for (at least) 2 kinds of access:
105 (1) given an errpatID, find the respective fillpats (e.g. in fun find_fill_pats)
106 (2) given a thm, find respective fillpats *)
107 type fillpatID = string
109 fillpatID (* DESIGN ?TODO: give an order w.r.t difficulty ? *)
110 * term (* the pattern with fill-in gaps *)
111 * errpatID; (* which the fillpat would be a help for
112 DESIGN ?TODO: list for several patterns ? *)
115 Erule (*.the empty rule .*)
116 | Thm of (string * Basic_Thm.thm) (* see TODO CLEANUP Thm *)
117 | Calc of string * (*.sml-code manipulating a (sub)term .*)
119 | Cal1 of string * (*.sml-code applied only to whole term
120 or left/right-hand-side of eqality .*)
122 | Rls_ of rls (*.ie. rule sets may be nested.*)
125 | Prog of term (* for met *)
126 | Rfuns of (* for Rrls, usage see rational.sml ----- reverse rewrite ----- *)
127 {init_state : (* initialise for reverse rewriting by the Interpreter *)
128 term -> (* for this the rrlsstate is initialised: *)
129 term * (* the current formula: goes locate_gen -> next_tac via istate *)
130 term * (* the final formula *)
131 rule list (* of reverse rewrite set (#1#) *)
132 list * (* may be serveral, eg. in norm_rational *)
133 ( rule * (* Thm (+ Thm generated from Calc) resulting in ... *)
134 (term * (* ... rewrite with ... *)
135 term list)) (* ... assumptions *)
136 list, (* derivation from given term to normalform
137 in reverse order with sym_thm;
138 (#1#) could be extracted from here #1 *)
139 normal_form: (* the function which drives the Rrls ##############################*)
140 term -> (term * term list) option,
141 locate_rule: (* checks a rule R for being a cancel-rule, and if it is,
142 then return the list of rules (+ the terms they are rewriting to)
143 which need to be applied before R should be applied.
144 precondition: the rule is applicable to the argument-term. *)
145 rule list list -> (* the reverse rule list *)
146 term -> (* ... to which the rule shall be applied *)
147 rule -> (* ... to be applied to term *)
148 ( rule * (* value: a rule rewriting to ... *)
149 (term * (* ... the resulting term ... *)
150 term list)) (* ... with the assumptions ( //#0) *)
151 list, (* there may be several such rules; the list is empty,
152 if the rule has nothing to do with e.g. cancelation *)
153 next_rule: (* for a given term return the next rules to be done for cancelling *)
154 rule list list->(* the reverse rule list *)
155 term -> (* the term for which ... *)
156 rule option, (* ... this rule is appropriate for cancellation;
157 there may be no such rule (if the term is eg.canceled already*)
158 attach_form: (* checks an input term TI, if it may belong to e.g. a current
159 cancellation, by trying to derive it from the given term TG.
162 term -> (* TG, the last one agreed upon by user + math-eng *)
163 term -> (* TI, the next one input by the user *)
164 ( rule * (* the rule to be applied in order to reach TI *)
165 (term * (* ... obtained by applying the rule ... *)
166 term list)) (* ... and the respective assumptions *)
167 list} (* there may be several such rules; the list is empty, if the
168 users term does not belong to e.g. a cancellation of the term
171 Erls (*for init e_rls*)
173 | Rls of (*a confluent and terminating ruleset, in general *)
174 {id : string, (*for trace_rewrite:=true *)
175 preconds : term list, (*unused WN020820 *)
176 (*WN060616 for efficiency...
177 bdvs : false, (*set in prep_rls' for get_bdvs *)*)
178 rew_ord : rew_ord, (*for rules*)
179 erls : rls, (*for the conditions in rules *)
180 srls : rls, (*for evaluation of list_fns in script *)
181 calc : calc list, (*for Calculate in scr, set by prep_rls' *)
183 errpatts : errpatID list,(*dialog-authoring in Build_Thydata.thy*)
184 scr : scr} (*Prog term: generating intermed.steps *)
185 | Seq of (*a sequence of rules to be tried only once *)
186 {id : string, (*for trace_rewrite:=true *)
187 preconds : term list, (*unused 20.8.02 *)
188 (*WN060616 for efficiency...
189 bdvs : false, (*set in prep_rls' for get_bdvs *)*)
190 rew_ord : rew_ord, (*for rules *)
191 erls : rls, (*for the conditions in rules *)
192 srls : rls, (*for evaluation of list_fns in script *)
193 calc : calc list, (*for Calculate in scr, set by prep_rls' *)
195 errpatts : errpatID list,(*dialog-authoring in Build_Thydata.thy*)
196 scr : scr} (*Prog term (how to restrict type ???)*)
198 (*Rrls call SML-code and simulate an rls
199 difference: there is always _ONE_ redex rewritten in 1 call,
200 thus wrap Rrls by: Rls (Rls_ ...)*)
201 | Rrls of (* SML-functions within rewriting; step-wise execution provided;
203 difference: there is always _ONE_ redex rewritten in 1 call,
204 thus wrap Rrls by: Rls (Rls_ ...) *)
205 {id : string, (* for trace_rewrite := true *)
206 prepat : (term list *(* preconds, eval with subst from pattern;
207 if [@{term True}], match decides alone *)
208 term ) (* pattern matched with current (sub)term *)
209 list, (* meta-conjunction is or *)
210 rew_ord : rew_ord, (* for rules *)
211 erls : rls, (* for the conditions in rules and preconds *)
212 calc : calc list, (* for Calculate in scr, set automatic.in prep_rls' *)
213 errpatts : errpatID list,(*dialog-authoring in Build_Thydata.thy*)
214 scr : scr}; (* Rfuns {...} (how to restrict type ???) *)
217 there are two kinds of theorems ...
218 (1) known by isabelle
219 (2) not known, eg. calc_thm, instantiated rls
220 the latter have a thmid "#..."
221 and thus outside isa we ALWAYS transport both (thmID, string_of_thmI)
222 and have a special assoc_thm / assoc_rls in this interface *)
223 type theory' = string; (* = domID ^".thy" WN.101011 ABOLISH !*)
224 type domID = string; (* domID ^".thy" = theory' WN.101011 replace by thyID*)
225 type thyID = string; (*WN.3.11.03 TODO: replace domID with thyID*)
227 fun term_to_string' ctxt t =
229 val ctxt' = Config.put show_markup false ctxt
230 in Print_Mode.setmp [] (Syntax.string_of_term ctxt') t end;
231 fun term_to_string'' (thyID : thyID) t =
233 val ctxt' = Config.put show_markup false (Proof_Context.init_global (Thy_Info.get_theory thyID))
234 in Print_Mode.setmp [] (Syntax.string_of_term ctxt') t end;
235 fun term_to_string''' thy t =
237 val ctxt' = Config.put show_markup false (Proof_Context.init_global thy)
238 in Print_Mode.setmp [] (Syntax.string_of_term ctxt') t end;
240 fun thy2ctxt' thy' = Proof_Context.init_global (Thy_Info.get_theory thy');(*FIXXXME thy-ctxt*)
241 fun thy2ctxt thy = Proof_Context.init_global thy;(*FIXXXME thy-ctxt*)
243 fun term2str t = term_to_string' (thy2ctxt' "Isac") t;
244 fun terms2strs ts = map term2str ts;
245 (*terms2strs [t1,t2] = ["1 + 2", "abc"];*)
246 val terms2str = strs2str o terms2strs;
247 (*terms2str [t1,t2] = "[\"1 + 2\",\"abc\"]";*)
248 val terms2str' = strs2str' o terms2strs;
249 (*terms2str' [t1,t2] = "[1 + 2,abc]";*)
251 fun termopt2str (SOME t) = "(SOME " ^ term2str t ^ ")"
252 | termopt2str NONE = "NONE";
254 fun type_to_string' ctxt t =
256 val ctxt' = Config.put show_markup false ctxt
257 in Print_Mode.setmp [] (Syntax.string_of_typ ctxt') t end;
258 fun type_to_string'' (thyID : thyID) t =
260 val ctxt' = Config.put show_markup false (Proof_Context.init_global (Thy_Info.get_theory thyID))
261 in Print_Mode.setmp [] (Syntax.string_of_typ ctxt') t end;
262 fun type_to_string''' thy t =
264 val ctxt' = Config.put show_markup false (Proof_Context.init_global thy)
265 in Print_Mode.setmp [] (Syntax.string_of_typ ctxt') t end;
267 fun type2str typ = type_to_string'' "Isac" typ; (*legacy*)
268 val string_of_typ = type2str; (*legacy*)
269 fun string_of_typ_thy thy typ = type_to_string'' thy typ; (*legacy*)
271 fun Isac _ = Proof_Context.theory_of (thy2ctxt' "Isac"); (*@{theory "Isac"}*)
273 val e_rule = Thm ("refl", @{thm refl});
274 fun id_of_thm (Thm (id, _)) = id
275 | id_of_thm _ = error "error id_of_thm";
276 fun thm_of_thm (Thm (_, thm)) = thm
277 | thm_of_thm _ = error "error thm_of_thm";
278 fun rep_thm_G' (Thm (thmid, thm)) = (thmid, thm);
280 fun thmID_of_derivation_name dn = last_elem (space_explode "." dn);
281 fun thmID_of_derivation_name' thm = (thmID_of_derivation_name o Thm.get_name_hint) thm
282 fun thyID_of_derivation_name dn = hd (space_explode "." dn);
284 fun eq_thmI ((thmid1 : thmID, _ : thm), (thmid2 : thmID, _ : thm)) =
285 (strip_thy thmid1) = (strip_thy thmid2);
286 (*WN120201 weakened*)
287 fun eq_thmI ((thmid1 : thmID, _ : thm), (thmid2 : thmID, _)) = thmid1 = thmid2;
288 (*version typed weaker WN100910*)
289 fun eq_thmI' ((thmid1, _), (thmid2, _)) =
290 (thmID_of_derivation_name thmid1) = (thmID_of_derivation_name thmid2);
293 (*check for [.] as caused by "fun assoc_thm'"*)
294 fun string_of_thm thm = term_to_string' (thy2ctxt' "Isac") (prop_of thm)
295 fun string_of_thmI thm =
297 val str = (de_quote o string_of_thm) thm
298 val (a, b) = split_nlast (5, Symbol.explode str)
301 [" ", " ","[", ".", "]"] => implode a
305 fun thm'_of_thm thm =
306 ((thmID_of_derivation_name o Thm.get_name_hint) thm, string_of_thmI thm): thm'
308 (*.id requested for all, Rls,Seq,Rrls.*)
309 fun id_rls Erls = "e_rls" (*WN060714 quick and dirty: recursive defs!*)
310 | id_rls (Rls {id,...}) = id
311 | id_rls (Seq {id,...}) = id
312 | id_rls (Rrls {id,...}) = id;
313 val rls2str = id_rls;
314 fun id_rule (Thm (id, _)) = id
315 | id_rule (Calc (id, _)) = id
316 | id_rule (Rls_ rls) = id_rls rls;
318 fun get_rules (Rls {rules,...}) = rules
319 | get_rules (Seq {rules,...}) = rules
320 | get_rules (Rrls _) = [];
322 fun rule2str Erule = "Erule"
323 | rule2str (Thm (str, thm)) = "Thm (\""^str^"\","^(string_of_thmI thm)^")"
324 | rule2str (Calc (str,f)) = "Calc (\""^str^"\",fn)"
325 | rule2str (Cal1 (str,f)) = "Cal1 (\""^str^"\",fn)"
326 | rule2str (Rls_ rls) = "Rls_ (\""^id_rls rls^"\")";
327 fun rule2str' Erule = "Erule"
328 | rule2str' (Thm (str, thm)) = "Thm (\""^str^"\",\"\")"
329 | rule2str' (Calc (str,f)) = "Calc (\""^str^"\",fn)"
330 | rule2str' (Cal1 (str,f)) = "Cal1 (\""^str^"\",fn)"
331 | rule2str' (Rls_ rls) = "Rls_ (\""^id_rls rls^"\")";
333 (*WN080102 compare eq_rule ?!?*)
334 fun eqrule (Thm (id1,_), Thm (id2,_)) = id1 = id2
335 | eqrule (Calc (id1,_), Calc (id2,_)) = id1 = id2
336 | eqrule (Cal1 (id1,_), Cal1 (id2,_)) = id1 = id2
337 | eqrule (Rls_ _, Rls_ _) = false (*{id=id1}{id=id2} = id1 = id2 FIXXME*)
340 type rrlsstate = (* state for reverse rewriting, comments see type rule and scr | Rfuns *)
341 (term * term * rule list list * (rule * (term * term list)) list);
343 val e_type = Type("empty",[]);
344 val a_type = TFree("'a",[]);
345 val e_term = Const("empty",e_type);
346 val a_term = Free("empty",a_type);
347 val e_rrlsstate = (e_term,e_term,[[e_rule]],[(e_rule,(e_term,[]))]):rrlsstate;
349 val e_term = Const("empty", Type("'a", []));
350 val e_scr = Prog e_term;
352 fun string_of_thy thy = Context.theory_name thy: theory';
353 val theory2domID = string_of_thy;
354 val theory2thyID = (get_thy o string_of_thy) : theory -> thyID;
355 val theory2theory' = string_of_thy;
356 val theory2str = string_of_thy; (*WN050903 ..most consistent naming*)
357 val theory2str' = implode o (drop_last_n 4) o Symbol.explode o string_of_thy;
358 (* fun theory'2theory = fun thyID2thy ... see fun assoc_thy (...Thy_Info.get_theory string);
359 al it = "Isac" : string
362 fun thyID2theory' (thyID:thyID) = thyID;
364 let val ss = Symbol.explode thyID
365 val ext = implode (takelast (4, ss))
366 in if ext = ".thy" then thyID : theory' (*disarm abuse of thyID*)
370 (* thyID2theory' "Isac" (*ok*);
371 val it = "Isac" : theory'
372 > thyID2theory' "Isac" (*abuse, goes ok...*);
373 val it = "Isac" : theory'
376 fun theory'2thyID (theory':theory') = theory';
378 let val ss = Symbol.explode theory'
379 val ext = implode (takelast (4, ss))
380 in if ext = ".thy" then ((implode o (drop_last_n 4)) ss) : thyID
381 else theory' (*disarm abuse of theory'*)
384 (* theory'2thyID "Isac";
385 val it = "Isac" : thyID
386 > theory'2thyID "Isac";
387 val it = "Isac" : thyID*)
390 (*. WN0509 discussion:
391 #############################################################################
392 # How to manage theorys in subproblems wrt. the requirement, #
393 # that scripts should be re-usable ? #
394 #############################################################################
396 eg. 'Script Solve_rat_equation' calls 'SubProblem (RatEq',..'
397 which would not allow to 'solve (y'' = -M_b / EI, M_b)' by this script
398 because Biegelinie.thy is subthy of RatEq.thy and thus Biegelinie.M_b
399 is unknown in RatEq.thy and M_b cannot be parsed into the scripts guard
402 Preliminary solution:
403 # the thy in 'SubProblem (thy', pbl, arglist)' is not taken automatically,
404 # instead the 'maxthy (rootthy pt) thy' is taken for each subpbl
405 # however, a thy specified by the user in the rootpbl may lead to
406 errors in far-off subpbls (which are not yet reported properly !!!)
407 and interactively specifiying thys in subpbl is not very relevant.
409 Other solutions possible:
410 # always parse and type-check with Thy_Info.get_theory "Isac"
411 (rejected tue to the vague idea eg. to re-use equations for R in C etc.)
412 # regard the subthy-relation in specifying thys of subpbls
413 # specifically handle 'SubProblem (undefined, pbl, arglist)'
416 (*WN0509 TODO "ProtoPure" ... would be more consistent
417 with assoc_thy <--> theory2theory' +FIXME assoc_thy "e_domID" -> Script.thy*)
418 val e_domID = "e_domID":domID;
420 (*the key into the hierarchy ob theory elements*)
421 type theID = string list;
422 val e_theID = ["e_theID"];
423 val theID2str = strs2str;
424 (*theID eg. is ["IsacKnowledge", "Test", "Rulesets", "ac_plus_times"]*)
425 fun theID2thyID (theID:theID) =
426 if length theID >= 3 then (last_elem o (drop_last_n 2)) theID : thyID
427 else error ("theID2thyID called with "^ theID2str theID);
429 (*the key into the hierarchy ob problems*)
430 type pblID = string list; (* domID::...*)
431 val e_pblID = ["e_pblID"]:pblID;
432 val pblID2str = strs2str;
434 (*the key into the hierarchy ob methods*)
435 type metID = string list;
436 val e_metID = ["e_metID"]:metID;
437 val metID2str = strs2str;
440 domID * (*WN.12.03: is replaced by thy from get_met ?FIXME? in:
441 specify (Init_Proof..), nxt_specify_init_calc,
442 assod (.SubProblem...), stac2tac (.SubProblem...)*)
446 fun spec2str ((dom,pbl,met)(*:spec*)) =
447 "(" ^ (quote dom) ^ ", " ^ (strs2str pbl) ^
448 ", " ^ (strs2str met) ^ ")";
449 (*> spec2str empty_spec;
450 val it = "(\"\", [], (\"\", \"\"))" : string *)
451 val empty_spec = (e_domID,e_pblID,e_metID):spec;
452 val e_spec = empty_spec;
454 (*.association list with cas-commands, for generating a complete calc-head.*)
456 (term list -> (* the arguments of the cas-command, eg. (x+1=2, x) *)
457 (term * (* description of an element *)
458 term list) (* value of the element (always put into a list) *)
459 list) (* of elements in the formalization *)
461 (term * (* cas-command, eg. 'solve' *)
462 (spec * (* theory, problem, method *)
464 fun cas_eq ((t1, (_, _)) : cas_elem, (t2, (_, _)) : cas_elem) = t1 = t2
466 (*either theID or pblID or metID*)
467 type kestoreID = string list;
468 val e_kestoreID = ["e_kestoreID"];
469 val kestoreID2str = strs2str;
471 (*for distinction of contexts WN130621: disambiguate with Isabelle's Context !*)
472 datatype ketype = Exp_ | Thy_ | Pbl_ | Met_;
473 fun ketype2str Exp_ = "Exp_"
474 | ketype2str Thy_ = "Thy_"
475 | ketype2str Pbl_ = "Pbl_"
476 | ketype2str Met_ = "Met_";
477 fun ketype2str' Exp_ = "Example"
478 | ketype2str' Thy_ = "Theory"
479 | ketype2str' Pbl_ = "Problem"
480 | ketype2str' Met_ = "Method";
482 (*rewrite orders, also stored in 'type met' and type 'and rls'
483 The association list is required for 'rewrite.."rew_ord"..'
484 WN0509 tests not well-organized: see smltest/Knowledge/termorder.sml*)
485 val rew_ord' = Unsynchronized.ref
486 ([]:(rew_ord' * (*the key for the association list *)
487 (subst (*the bound variables - they get high order*)
488 -> (term * term) (*(t1, t2) to be compared *)
489 -> bool)) (*if t1 <= t2 then true else false *)
490 list); (*association list *)
492 rew_ord' := overwritel (!rew_ord', [("e_rew_ord", e_rew_ord),
493 ("dummy_ord", dummy_ord)]);
496 (* A tree for storing data defined in different theories
497 for access from the Interpreter and from dialogue authoring
498 using a string list as key.
499 'a is for pbt | met | thydata; after WN030424 naming became inappropriate *)
501 Ptyp of string * (* element of the key *)
502 'a list * (* several pbts with different domIDs/thy TODO: select by subthy (isaref.p.69)
503 presently only _ONE_ elem FOR ALL KINDS OF CONTENT pbt | met | thydata *)
504 ('a ptyp) list;(* the children nodes *)
506 (*.datatype for collecting thydata for hierarchy.*)
507 (*WN060720 more consistent naming would be 'type thyelem' or 'thelem'*)
508 (*WN0606 Htxt contains html which does not belong to the sml-kernel*)
509 datatype thydata = Html of {guh: guh,
510 coursedesign: authors,
511 mathauthors: authors,
512 html: string} (*html; for demos before database*)
514 coursedesign: authors,
515 mathauthors: authors,
516 fillpats: fillpat list,
517 thm: thm} (* here no sym_thm, thus no thmID required *)
519 coursedesign: authors,
520 mathauthors: authors,
521 thy_rls: (thyID * rls)}
523 coursedesign: authors,
524 mathauthors: authors,
527 coursedesign: authors,
528 mathauthors: authors,
529 ord: (subst -> (term * term) -> bool)};
530 val e_thydata = Html {guh="e_guh", coursedesign=[], mathauthors=[], html=""};
531 fun the2str (Html {guh, coursedesign, mathauthors, html}) = guh : string
532 | the2str (Hthm {guh, coursedesign, mathauthors, fillpats, thm}) = guh
533 | the2str (Hrls {guh, coursedesign, mathauthors, thy_rls}) = guh
534 | the2str (Hcal {guh, coursedesign, mathauthors, calc}) = guh
535 | the2str (Hord {guh, coursedesign, mathauthors, ord}) = guh
536 fun thes2str thes = map the2str thes |> list2str;
538 (* notes on thehier concerning sym_thmID theorems (created in derivations, reverse rewriting)
539 (a): thehier does not contain sym_thmID theorems
540 (b): lookup for sym_thmID directly from Isabelle using sym_thm
541 (within math-engine NO lookup in thehier -- within java in *.xml only!)
542 TODO (c): export from thehier to xml
543 TODO (c1) creates one entry for "thmID" (and NONE for "sym_thmID") in the hierarchy
544 TODO (c2) creates 2 files "thy_*-thm-thmID.xml" and "thy_*-thm-sym_thmID.xml"
545 TODO (d): 1 entry in the MiniBrowser's hierarchy (generated from xml)
546 stands for both, "thmID" and "sym_thmID"
547 TODO (d1) lookup from calctxt
548 TODO (d1) lookup from from rule set in MiniBrowser *)
549 type thehier = (thydata ptyp) list;
550 (* required to determine sequence of main nodes of thehier in KEStore.thy *)
551 fun part2guh ([str]:theID) =
553 "Isabelle" => "thy_isab_" ^ str ^ "-part" : guh
554 | "IsacScripts" => "thy_scri_" ^ str ^ "-part"
555 | "IsacKnowledge" => "thy_isac_" ^ str ^ "-part"
556 | str => error ("thy2guh: called with '"^str^"'"))
557 | part2guh theID = error ("part2guh called with theID = " ^ theID2str theID);
559 fun thy2guh ([part, thyID] : theID) = (case part of
560 "Isabelle" => "thy_isab_" ^ thyID : guh
561 | "IsacScripts" => "thy_scri_" ^ thyID
562 | "IsacKnowledge" => "thy_isac_" ^ thyID
563 | str => error ("thy2guh: called with '" ^ str ^ "'"))
564 | thy2guh theID = error ("thy2guh called with '" ^ strs2str' theID ^ "'");
566 fun thypart2guh ([part, thyID, thypart] : theID) = case part of
567 "Isabelle" => "thy_isab_" ^ thyID ^ "-" ^ thypart : guh
568 | "IsacScripts" => "thy_scri_" ^ thyID ^ "-" ^ thypart
569 | "IsacKnowledge" => "thy_isac_" ^ thyID ^ "-" ^ thypart
570 | str => error ("thypart2guh: called with '" ^ str ^ "'");
572 (* convert the data got via contextToThy to a globally unique handle
573 there is another way to get the guh out of the 'theID' in the hierarchy *)
574 fun thm2guh (isa, thyID:thyID) (thmID:thmID) = case isa of
575 "Isabelle" => "thy_isab_" ^ theory'2thyID thyID ^ "-thm-" ^ strip_thy thmID : guh
576 | "IsacKnowledge" => "thy_isac_" ^ theory'2thyID thyID ^ "-thm-" ^ strip_thy thmID
577 | "IsacScripts" => "thy_scri_" ^ theory'2thyID thyID ^ "-thm-" ^ strip_thy thmID
578 | str => error ("thm2guh called with isa = '" ^ isa ^ "' for thm = " ^ thmID ^ "'");
580 fun rls2guh (isa, thyID:thyID) (rls':rls') = case isa of
581 "Isabelle" => "thy_isab_" ^ theory'2thyID thyID ^ "-rls-" ^ rls' : guh
582 | "IsacKnowledge" => "thy_isac_" ^ theory'2thyID thyID ^ "-rls-" ^ rls'
583 | "IsacScripts" => "thy_scri_" ^ theory'2thyID thyID ^ "-rls-" ^ rls'
584 | str => error ("rls2guh called with isa = '" ^ isa ^ "' for rls = '" ^ rls' ^ "'");
586 fun cal2guh (isa, thyID:thyID) calID = case isa of
587 "Isabelle" => "thy_isab_" ^ theory'2thyID thyID ^ "-cal-" ^ calID : guh
588 | "IsacKnowledge" => "thy_isac_" ^ theory'2thyID thyID ^ "-cal-" ^ calID
589 | "IsacScripts" => "thy_scri_" ^ theory'2thyID thyID ^ "-cal-" ^ calID
590 | str => error ("cal2guh called with isa = '" ^ isa ^ "' for cal = '" ^ calID ^ "'");
592 fun ord2guh (isa, thyID:thyID) (rew_ord':rew_ord') = case isa of
593 "Isabelle" => "thy_isab_" ^ theory'2thyID thyID ^ "-ord-" ^ rew_ord' : guh
594 | "IsacKnowledge" => "thy_isac_" ^ theory'2thyID thyID ^ "-ord-" ^ rew_ord'
595 | "IsacScripts" => "thy_scri_" ^ theory'2thyID thyID ^ "-ord-" ^ rew_ord'
596 | str => error ("ord2guh called with isa = '" ^ isa ^ "' for ord = '" ^ rew_ord' ^ "'");
598 (* not only for thydata, but also for thy's etc *)
599 fun theID2guh (theID : theID) = case length theID of
600 0 => error ("theID2guh: called with theID = " ^ strs2str' theID)
601 | 1 => part2guh theID
603 | 3 => thypart2guh theID
605 let val [isa, thyID, typ, elemID] = theID
607 "Theorems" => thm2guh (isa, thyID) elemID
608 | "Rulesets" => rls2guh (isa, thyID) elemID
609 | "Calculations" => cal2guh (isa, thyID) elemID
610 | "Orders" => ord2guh (isa, thyID) elemID
611 | "Theorems" => thy2guh [isa, thyID]
612 | str => error ("theID2guh: called with theID = " ^ strs2str' theID)
614 | n => error ("theID2guh called with theID = " ^ strs2str' theID);
617 type filename = string;
619 (*val xxx = fn: a b => (a,b); ??? fun-definition ???*)
621 fun ii (_:term) = e_rrlsstate;
622 fun no (_:term) = SOME (e_term,[e_term]);
623 fun lo (_:rule list list) (_:term) (_:rule) = [(e_rule,(e_term,[e_term]))];
624 fun ne (_:rule list list) (_:term) = SOME e_rule;
625 fun fo (_:rule list list) (_:term) (_:term) = [(e_rule,(e_term,[e_term]))];
627 val e_rfuns = Rfuns {init_state=ii,normal_form=no,locate_rule=lo,
628 next_rule=ne,attach_form=fo};
632 Rls {id = "e_rls", preconds = [], rew_ord = ("dummy_ord", dummy_ord), erls = Erls,
633 srls = Erls, calc = [], rules = [], errpatts = [], scr = EmptyScr}: rls;
635 Rrls {id = "e_rrls", prepat = [], rew_ord = ("dummy_ord", dummy_ord), erls = Erls,
636 calc = [], errpatts = [], scr=e_rfuns}:rls;
638 fun rep_rls (Rls {id,preconds,rew_ord,erls,srls,calc,errpatts,rules,scr}) =
639 {id=id,preconds=preconds,rew_ord=rew_ord,erls=erls,srls=srls,calc=calc,
640 (*asm_thm=asm_thm,*)rules=rules,scr=scr}
641 | rep_rls (Seq {id,preconds,rew_ord,erls,srls,calc,errpatts,rules,scr}) =
642 {id=id,preconds=preconds,rew_ord=rew_ord,erls=erls,srls=srls,calc=calc,
643 (*asm_thm=asm_thm,*)rules=rules,scr=scr}
644 | rep_rls Erls = rep_rls e_rls
645 | rep_rls (Rrls {id,...}) = rep_rls e_rls
646 (*error("rep_rls doesn't take apart reverse-rewrite-rule-sets: "^id)*);
647 (*| rep_rls (Seq {id,...}) =
648 error("rep_rls doesn't take apart reverse-rewrite-rule-sets: "^id);
650 fun rep_rrls (Rrls {id, calc, erls, prepat, rew_ord, errpatts,
651 scr = Rfuns {attach_form, init_state, locate_rule, next_rule, normal_form}}) =
652 {id=id, calc=calc, erls=erls, prepat=prepat,
653 rew_ord=rew_ord, errpatts=errpatts, attach_form=attach_form, init_state=init_state,
654 locate_rule=locate_rule, next_rule=next_rule, normal_form=normal_form}
655 | rep_rrls (Rls {id,...}) =
656 error ("rep_rrls doesn't take apart (normal) rule-sets: "^id)
657 | rep_rrls (Seq {id,...}) =
658 error ("rep_rrls doesn't take apart (normal) rule-sets: "^id);
660 fun append_rls id (Rls {id=_,preconds=pc,rew_ord=ro,erls=er,srls=sr,calc=ca,
661 rules =rs, errpatts=errpatts, scr=sc}) r =
662 (Rls{id=id,preconds=pc,rew_ord=ro,erls=er,srls=sr,calc=ca,
663 rules = rs @ r, errpatts=errpatts, scr=sc}:rls)
664 | append_rls id (Seq {id=_,preconds=pc,rew_ord=ro,erls=er,srls=sr,calc=ca,
665 rules =rs, errpatts=errpatts, scr=sc}) r =
666 (Seq{id=id,preconds=pc,rew_ord=ro,erls=er,srls=sr,calc=ca,
667 rules = rs @ r, errpatts=errpatts, scr=sc}:rls)
668 | append_rls id (Rrls _) _ =
669 error ("append_rls: not for reverse-rewrite-rule-set "^id);
671 (*. are _atomic_ rules equal ?.*)
672 (*WN080102 compare eqrule ?!?*)
673 fun eq_rule (Thm (thm1,_), Thm (thm2,_)) = thm1 = thm2
674 | eq_rule (Calc (id1,_), Calc (id2,_)) = id1 = id2
675 | eq_rule (Rls_ rls1, Rls_ rls2) = id_rls rls1 = id_rls rls2
676 (*id_rls checks for Rls, Seq, Rrls*)
679 fun merge_ids rls1 rls2 =
681 val id1 = (#id o rep_rls) rls1
682 val id2 = (#id o rep_rls) rls2
684 if id1 = id2 then id1
685 else "merged_" ^ id1 ^ "_" ^ id2
687 fun merge_rls _ Erls rls = rls
688 | merge_rls _ rls Erls = rls
689 | merge_rls _ (Rrls x) _ = Rrls x (* required for merging Theory_Data *)
690 | merge_rls _ _ (Rrls x) = Rrls x
692 (Rls {preconds = pc1, rew_ord = ro1, erls = er1, srls = sr1, calc = ca1,
693 rules = rs1, errpatts = eps1, scr = sc1, ...})
694 (Rls {preconds = pc2, erls = er2, srls = sr2, calc = ca2,
695 rules = rs2, errpatts = eps2, ...})
697 (Rls {id = id, rew_ord = ro1, scr = sc1,
698 preconds = union (op =) pc1 pc2,
699 erls = merge_rls (merge_ids er1 er2) er1 er2,
700 srls = merge_rls (merge_ids sr1 sr2) sr1 sr2,
701 calc = union calc_eq ca1 ca2,
702 rules = union eq_rule rs1 rs2,
703 errpatts = union (op =) eps1 eps2} : rls)
705 (Seq {preconds = pc1, rew_ord = ro1, erls = er1, srls = sr1, calc = ca1,
706 rules = rs1, errpatts = eps1, scr = sc1, ...})
707 (Seq {preconds = pc2, erls = er2, srls = sr2, calc = ca2,
708 rules = rs2, errpatts = eps2, ...})
710 (Seq {id = id, rew_ord = ro1, scr = sc1,
711 preconds = union (op =) pc1 pc2,
712 erls = merge_rls (merge_ids er1 er2) er1 er2,
713 srls = merge_rls (merge_ids sr1 sr2) sr1 sr2,
714 calc = union calc_eq ca1 ca2,
715 rules = union eq_rule rs1 rs2,
716 errpatts = union (op =) eps1 eps2} : rls)
717 | merge_rls id _ _ = error ("merge_rls: \"" ^ id ^
718 "\"; not for reverse-rewrite-rule-sets and not for mixed Rls -- Seq");
720 fun remove_rls id (Rls {id=_,preconds=pc,rew_ord=ro,erls=er,srls=sr,calc=ca,
721 rules=rs, errpatts=eps, scr=sc}) r =
722 (Rls{id=id,preconds=pc,rew_ord=ro,erls=er,srls=sr,calc=ca,
723 rules = gen_rems eq_rule (rs, r),
724 errpatts = eps(*gen_rems op= (eps, TODO)*),
726 | remove_rls id (Seq {id=_,preconds=pc,rew_ord=ro,erls=er,srls=sr,calc=ca,
727 rules =rs, errpatts=eps, scr=sc}) r =
728 (Seq{id=id,preconds=pc,rew_ord=ro,erls=er,srls=sr,calc=ca,
729 rules = gen_rems eq_rule (rs, r),
730 errpatts = eps(*gen_rems op= (eps, TODO)*),
732 | remove_rls id (Rrls _) _ = error
733 ("remove_rls: not for reverse-rewrite-rule-set "^id);
735 (* datastructure for KEStore_Elems, intermediate for thehier *)
737 (rls' * (* identifier unique within Isac *)
738 (theory' * (* just for assignment in thehier, not appropriate for parsing etc *)
739 rls)) (* ((#id o rep_rls) rls) = rls' by coding discipline *)
740 fun rls_eq ((id1, (_, _)), (id2, (_, _))) = id1 = id2
742 fun insert_merge_rls (re as (id, (thyID, r1)) : rlss_elem) ys =
743 case get_index (fn y => if curry rls_eq re y then SOME y else NONE) ys of
745 | SOME (i, (_, (_, r2))) =>
747 val r12 = merge_rls id r1 r2
748 in list_update ys i (id, (thyID, r12)) end
750 fun merge_rlss (s1, s2) = fold insert_merge_rls s1 s2;
753 fun memrls r (Rls {rules,...}) = gen_mem eqrule (r, rules)
754 | memrls r (Seq {rules,...}) = gen_mem eqrule (r, rules)
755 | memrls r _ = error ("memrls: incomplete impl. r= "^(rule2str r));
757 fun assoc' ([], key) = error ("ME_Isa: '"^key^"' not known")
758 | assoc' ((keyi, xi) :: pairs, key) =
759 if key = keyi then SOME xi else assoc' (pairs, key);
761 fun assoc_thy (thy:theory') =
762 if thy = "e_domID" then (Thy_Info.get_theory "Script") (*lower bound of Knowledge*)
763 else (Thy_Info.get_theory thy)
764 handle _ => error ("ME_Isa: thy '" ^ thy ^ "' not in system");
766 (*.overwrite an element in an association list and pair it with a thyID
767 in order to create the thy_hierarchy;
768 overwrites existing rls' even if they are defined in a different thy;
769 this is related to assoc_rls, TODO.WN060120: assoc_rew_ord, assoc_calc;.*)
770 (*WN060120 ...these are NOT compatible to "fun assoc_thm'" in that
771 they do NOT handle overlays by re-using an identifier in different thys;
772 "thyID.rlsID" would be a good solution, if the "." would be possible
774 actually a hack to get alltogether run again with minimal effort*)
775 fun insthy thy' (rls', rls) = (rls', (thy', rls));
776 fun overwritelthy thy (al, bl:(rls' * rls) list) =
777 let val bl' = map (insthy ((get_thy o theory2theory') thy)) bl
778 in overwritel (al, bl') end;
780 fun assoc_rew_ord ro = ((the o assoc') (!rew_ord',ro))
781 handle _ => error ("ME_Isa: rew_ord '"^ro^"' not in system");
782 (*get the string for stac from rule*)
784 fun subst2str (s:subst) =
786 (map (linefeed o pair2str o
788 (apfst term2str)))) s;
789 fun subst2str' (s:subst) =
793 (apfst term2str)))) s;
794 (*> subst2str' [(str2term "bdv", str2term "x"),
795 (str2term "bdv_2", str2term "y")];
796 val it = "[(bdv, x)]" : string
798 val env2str = subst2str;
802 fun scr2str (Prog s) = "Prog " ^ term2str s
803 | scr2str (Rfuns _) = "Rfuns";
806 fun maxthy thy1 thy2 = if Theory.subthy (thy1, thy2) then thy2 else thy1;
809 (*.trace internal steps of isac's rewriter*)
810 val trace_rewrite = Unsynchronized.ref false;
811 (*.depth of recursion in traces of the rewriter, if trace_rewrite:=true.*)
812 val depth = Unsynchronized.ref 99999;
813 (*.no of rewrites exceeding this int -> NO rewrite.*)
814 (*WN060829 still unused...*)
815 val lim_rewrite = Unsynchronized.ref 99999;
816 (*.no of derivation-elements exceeding this int -> SOME derivation-elements.*)
817 val lim_deriv = Unsynchronized.ref 100;
818 (*.switch for checking guhs unique before storing a pbl or met;
819 set true at startup (done at begin of ROOT.ML)
820 set false for editing IsacKnowledge (done at end of ROOT.ML).*)
821 val check_guhs_unique = Unsynchronized.ref true;
824 datatype lrd = (*elements of a path (=loc_) into an Isabelle term*)
826 | R (*go right at $*)
827 | D; (*go down at Abs*)
828 type loc_ = lrd list;
832 fun loc_2str (k:loc_) = (strs2str' o (map ldr2str)) k;
835 (* the pattern for an item of a problems model or a methods guard *)
837 (string * (* field *)
838 (term * (* description *)
839 term)) (* id | arbitrary term *);
840 fun pat2str ((field, (dsc, id)) : pat) =
841 pair2str (field, pair2str (term2str dsc, term2str id))
842 fun pats2str pats = (strs2str o (map pat2str)) pats
844 (* types for problems models (TODO rename to specification models) *)
846 (string * (* field "#Given",..*)(*deprecated due to 'type pat'*)
847 (term * (* description *)
848 term)); (* id | struct-var *)
849 val e_pbt_ = ("#Undef", (e_term, e_term)) : pbt_
851 {guh : guh, (* unique within this isac-knowledge *)
852 mathauthors : string list, (* copyright *)
853 init : pblID, (* to start refinement with *)
854 thy : theory, (* which allows to compile that pbt
855 TODO: search generalized for subthy (ref.p.69*)
856 (*^^^ WN050912 NOT used during application of the problem,
857 because applied terms may be from 'subthy' as well as from super;
858 thus we take 'maxthy'; see match_ags !*)
859 cas : term option, (* 'CAS-command'*)
860 prls : rls, (* for preds in where_*)
861 where_ : term list, (* where - predicates*)
862 ppc : pat list, (* this is the model-pattern;
863 it contains "#Given","#Where","#Find","#Relate"-patterns
864 for constraints on identifiers see "fun cpy_nam" *)
865 met : metID list} (* methods solving the pbt*)
867 val e_pbt = {guh = "pbl_empty", mathauthors = [], init = e_pblID, thy = Thy_Info.get_theory "Pure",
868 cas = NONE, prls = Erls, where_ = [], ppc = [], met = []} : pbt
870 ({cas = cas', guh = guh', init = init', mathauthors = ma', met = met', ppc = ppc',
871 prls = prls', thy = thy', where_ = w'} : pbt) =
872 "{cas = " ^ (termopt2str cas') ^ ", guh = \"" ^ guh' ^ "\", init = "
873 ^ (strs2str init') ^ ", mathauthors = " ^ (strs2str ma' |> quote) ^ ", met = "
874 ^ (strslist2strs met') ^ ", ppc = " ^ pats2str ppc' ^ ", prls = "
875 ^ (rls2str prls' |> quote) ^ ", thy = {" ^ (theory2str thy') ^ "}, where_ = "
876 ^ (terms2str w') ^ "}" |> linefeed;
877 fun pbts2str pbts = map pbt2str pbts |> list2str;
879 val e_Ptyp = Ptyp ("e_pblID",[e_pbt],[])
880 type ptyps = (pbt ptyp) list
882 fun coll_pblguhs pbls =
883 let fun node coll (Ptyp (_,[n],ns)) =
884 [(#guh : pbt -> guh) n] @ (nodes coll ns)
885 and nodes coll [] = coll
886 | nodes coll (n::ns) = (node coll n) @ (nodes coll ns);
887 in nodes [] pbls end;
888 fun check_pblguh_unique (guh:guh) (pbls: (pbt ptyp) list) =
889 if member op = (coll_pblguhs pbls) guh
890 then error ("check_guh_unique failed with '"^guh^"';\n"^
891 "use 'sort_pblguhs()' for a list of guhs;\n"^
892 "consider setting 'check_guhs_unique := false'")
895 fun insrt _ pbt [k] [] = [Ptyp (k, [pbt], [])]
896 | insrt d pbt [k] ((Ptyp (k', [p], ps)) :: pys) =
897 ((*writeln ("### insert 1: ks = " ^ strs2str [k] ^ " k'= " ^ k');*)
899 then ((Ptyp (k', [pbt], ps)) :: pys)
900 else ((Ptyp (k', [p], ps)) :: (insrt d pbt [k] pys))
902 | insrt d pbt (k::ks) ((Ptyp (k', [p], ps))::pys) =
903 ((*writeln ("### insert 2: ks = "^(strs2str (k::ks))^" k'= "^k');*)
905 then ((Ptyp (k', [p], insrt d pbt ks ps)) :: pys)
908 then error ("insert: not found " ^ (strs2str (d : pblID)))
909 else ((Ptyp (k', [p], ps)) :: (insrt d pbt (k :: ks) pys))
912 fun update_ptyps ID _ _ [] =
913 error ("update_ptyps: " ^ strs2str' ID ^ " does not exist")
914 | update_ptyps ID [i] data ((py as Ptyp (key, _, pys)) :: pyss) =
918 then ((Ptyp (key, [data], [])) :: pyss)
919 else error ("update_ptyps: " ^ strs2str' ID ^ " has descendants")
920 else py :: update_ptyps ID [i] data pyss
921 | update_ptyps ID (i :: is) data ((py as Ptyp (key, d, pys)) :: pyss) =
923 then ((Ptyp (key, d, update_ptyps ID is data pys)) :: pyss)
924 else (py :: (update_ptyps ID (i :: is) data pyss))
926 (* this function only works wrt. the way Isabelle evaluates Theories and is not a general merge
927 function for trees / ptyps *)
928 fun merge_ptyps ([], pt) = pt
929 | merge_ptyps (pt, []) = pt
930 | merge_ptyps ((x' as Ptyp (k, x, ps)) :: xs, (xs' as Ptyp (k', y, ps') :: ys)) =
932 then Ptyp (k, y, merge_ptyps (ps, ps')) :: merge_ptyps (xs, ys)
933 else x' :: merge_ptyps (xs, xs');
934 fun merge_ptyps' pt1 pt2 = merge_ptyps (pt1, pt2)
936 (* data for methods stored in 'methods'-database*)
938 {guh : guh, (*unique within this isac-knowledge *)
939 mathauthors: string list,(*copyright *)
940 init : pblID, (*WN060721 introduced mistakenly--TODO.REMOVE!*)
941 rew_ord' : rew_ord', (*for rules in Detail
942 TODO.WN0509 store fun itself, see 'type pbt'*)
943 erls : rls, (*the eval_rls for cond. in rules FIXME "rls'
944 instead erls in "fun prep_met" *)
945 srls : rls, (*for evaluating list expressions in scr *)
946 prls : rls, (*for evaluating predicates in modelpattern *)
947 crls : rls, (*for check_elementwise, ie. formulae in calc.*)
948 nrls : rls, (*canonical simplifier specific for this met *)
949 errpats : errpat list,(*error patterns expected in this method *)
950 calc : calc list, (*Theory_Data in fun prep_met *)
951 (*branch : TransitiveB set in append_problem at generation ob pblobj
952 FIXXXME.0308: set branch from met in Apply_Method ? *)
953 ppc : pat list, (*.items in given, find, relate;
954 items (in "#Find") which need not occur in the arg-list of a SubProblem
955 are 'copy-named' with an identifier "*'.'".
956 copy-named items are 'generating' if they are NOT "*'''" ?WN120516??
957 see ME/calchead.sml 'fun is_copy_named'. *)
958 pre : term list, (*preconditions in where *)
959 scr : scr (*prep_met gets progam or string "empty_script"*)
961 val e_met = {guh="met_empty",mathauthors=[],init=e_metID,
962 rew_ord' = "e_rew_ord'": rew_ord',
963 erls = e_rls, srls = e_rls, prls = e_rls,
964 calc = [], crls = e_rls, errpats = [], nrls= e_rls,
965 ppc = []: (string * (term * term)) list,
967 scr = EmptyScr: scr}:met;
970 val e_Mets = Ptyp ("e_metID",[e_met],[]);
972 type mets = (met ptyp) list;
974 fun coll_metguhs mets =
975 let fun node coll (Ptyp (_,[n],ns)) =
976 [(#guh : met -> guh) n] @ (nodes coll ns)
977 and nodes coll [] = coll
978 | nodes coll (n::ns) = (node coll n) @ (nodes coll ns);
979 in nodes [] mets end;
981 fun check_metguh_unique (guh:guh) (mets: (met ptyp) list) =
982 if member op = (coll_metguhs mets) guh
983 then error ("check_guh_unique failed with '"^guh^"';\n"^
984 "use 'sort_metguhs()' for a list of guhs;\n"^
985 "consider setting 'check_guhs_unique := false'")
988 fun Html_default exist = (Html {guh = theID2guh exist,
989 coursedesign = ["isac team 2006"], mathauthors = [], html = ""})
991 fun fill_parents (exist, [i]) thydata = Ptyp (i, [thydata], [])
992 | fill_parents (exist, i :: is) thydata =
993 Ptyp (i, [Html_default (exist @ [i])], [fill_parents (exist @ [i], is) thydata])
994 | fill_parents _ _ = error "Html_default: avoid ML warning: Matches are not exhaustive"
996 fun add_thydata (exist, is) thydata [] = [fill_parents (exist, is) thydata]
997 | add_thydata (exist, [i]) data (pys as (py as Ptyp (key, _, _)) :: pyss) =
999 then pys (* preserve existing thydata *)
1000 else py :: add_thydata (exist, [i]) data pyss
1001 | add_thydata (exist, iss as (i :: is)) data ((py as Ptyp (key, d, pys)) :: pyss) =
1005 then Ptyp (key, d, [fill_parents (exist @ [i], is) data]) :: pyss
1006 else Ptyp (key, d, add_thydata (exist @ [i], is) data pys) :: pyss
1007 else py :: add_thydata (exist, iss) data pyss
1008 | add_thydata _ _ _ = error "add_thydata: avoid ML warning: Matches are not exhaustive"
1010 fun update_hthm (Hthm {guh, coursedesign, mathauthors, thm, ...}) fillpats' =
1011 Hthm {guh = guh, coursedesign = coursedesign, mathauthors = mathauthors,
1012 fillpats = fillpats', thm = thm}
1013 | update_hthm _ _ = raise ERROR "wrong data";
1015 (* for interface for dialog-authoring *)
1016 fun update_hrls (Hrls {guh, coursedesign, mathauthors, thy_rls = (thyID, rls)}) errpatIDs =
1020 Rls {id, preconds, rew_ord, erls, srls, calc, rules, scr, ...} =>
1021 Rls {id = id, preconds = preconds, rew_ord = rew_ord, erls = erls, srls = srls,
1022 calc = calc, rules = rules, scr = scr, errpatts = errpatIDs}
1023 | Seq {id, preconds, rew_ord, erls, srls, calc, rules, scr, ...} =>
1024 Seq {id = id, preconds = preconds, rew_ord = rew_ord, erls = erls, srls = srls,
1025 calc = calc, rules = rules, scr = scr, errpatts = errpatIDs}
1026 | Rrls {id, prepat, rew_ord, erls, calc, scr, ...} =>
1027 Rrls {id = id, prepat = prepat, rew_ord = rew_ord, erls = erls, calc = calc,
1028 scr = scr, errpatts = errpatIDs}
1031 Hrls {guh = guh, coursedesign = coursedesign, mathauthors = mathauthors,
1032 thy_rls = (thyID, rls')}
1034 | update_hrls _ _ = raise ERROR "wrong data";
1036 fun app_py p f (d:pblID) (k(*:pblRD*)) = let
1038 error ("app_py: not found: " ^ (strs2str d));
1039 fun app_py' _ [] = py_err ()
1040 | app_py' [] _ = py_err ()
1041 | app_py' [k0] ((p' as Ptyp (k', _, _ ))::ps) =
1042 if k0 = k' then f p' else app_py' [k0] ps
1043 | app_py' (k' as (k0::ks)) (Ptyp (k'', _, ps)::ps') =
1044 if k0 = k'' then app_py' ks ps else app_py' k' ps';
1048 fun extract_py (Ptyp (_, [py], _)) = py
1049 | extract_py _ = error ("extract_py: Ptyp has wrong format.");
1050 in app_py p extract_py end;
1052 fun (*KEStore_Elems.*)insert_fillpats th fis = (* for tests bypassing setup KEStore_Elems *)
1054 fun update_elem th (theID, fillpats) =
1056 val hthm = get_py th theID theID
1057 val hthm' = update_hthm hthm fillpats
1058 handle ERROR _ => error ("insert_fillpats: " ^ strs2str theID ^ "must address a theorem")
1059 in update_ptyps theID theID hthm' end
1060 in fold (update_elem th) fis end
1062 (* group the theories defined in Isac, compare Build_Thydata:
1063 section "Get and group the theories defined in Isac" *)
1064 fun isabthys () = (*["Complex_Main", "Taylor", .., "Pure"]*)
1066 val allthys = Theory.ancestors_of (Thy_Info.get_theory "Build_Thydata")
1068 drop ((find_index (curry Theory.eq_thy (Thy_Info.get_theory "Complex_Main")) allthys), allthys)
1070 fun knowthys () = (*["Isac", .., "Descript", "Delete"]*)
1072 fun isacthys () = (* ["Isac", .., "KEStore"] without Build_Isac thys: "Interpret" etc *)
1074 val allthys = filter_out (member Theory.eq_thy
1075 [(*Thy_Info.get_theory "ProgLang",*) Thy_Info.get_theory "Interpret",
1076 Thy_Info.get_theory "xmlsrc", Thy_Info.get_theory "Frontend"])
1077 (Theory.ancestors_of (Thy_Info.get_theory "Build_Thydata"))
1079 take ((find_index (curry Theory.eq_thy (Thy_Info.get_theory "Complex_Main")) allthys),
1082 val isacthys' = isacthys ()
1083 val proglang_parent = Thy_Info.get_theory "ProgLang"
1085 take ((find_index (curry Theory.eq_thy proglang_parent) isacthys'), isacthys')
1087 fun progthys () = (*["Isac", .., "Descript", "Delete"]*)
1089 fun isacthys () = (* ["Isac", .., "KEStore"] without Build_Isac thys: "Interpret" etc *)
1091 val allthys = filter_out (member Theory.eq_thy
1092 [(*Thy_Info.get_theory "ProgLang",*) Thy_Info.get_theory "Interpret",
1093 Thy_Info.get_theory "xmlsrc", Thy_Info.get_theory "Frontend"])
1094 (Theory.ancestors_of (Thy_Info.get_theory "Build_Thydata"))
1096 take ((find_index (curry Theory.eq_thy (Thy_Info.get_theory "Complex_Main")) allthys),
1099 val isacthys' = isacthys ()
1100 val proglang_parent = Thy_Info.get_theory "ProgLang"
1102 drop ((find_index (curry Theory.eq_thy proglang_parent) isacthys') + 1(*ProgLang*), isacthys')
1106 if member Theory.eq_thy (knowthys ()) thy then "IsacKnowledge"
1107 else if member Theory.eq_thy (progthys ()) thy then "IsacScripts"
1108 else if member Theory.eq_thy (isabthys ()) thy then "Isabelle"
1109 else error ("closure of thys in Isac is broken by " ^ string_of_thy thy)
1110 fun partID' (thy' : theory') = partID (Thy_Info.get_theory thy')