!7 extend BEAObject { bool canReactWith(BEAObject o) { ret isInstanceOfAny(o, (Cl) reactableWithClasses()); } Cl> reactableWithClasses() { ret singleArgumentMethodTypesSubclassing(this, "reactWith", BEAObject); } } beaConcept BInput { S text; toString { ret "[\*id*/] Input " + quote(text); } } beaConcept BOutput { S text; toString { ret "[\*id*/] Output " + quote(text); } } beaConcept BPattern { S text; toString { ret "[\*id*/] " + shortDynName(this) + " " + quote(text); } void reactWith(BInput input) {} @Override Map _fieldMigrations() { ret litmap(pattern := new FieldMigration("text")); } } beaConcept BStarPattern > BPattern { void reactWith(BInput input) { LS mapping = matchesToStringList(flexMatchIC_first(text, input.text)); if (mapping == null) ret; uniqPeer BEAObject(this, type := "match", +input, pattern := this, +mapping); } } beaConcept BAngleVarPattern > BPattern { void reactWith(BInput input) { SS mapping = flexMatchAngleBracketVarsIC_first(text, input.text); if (mapping == null) ret; uniqPeer BEAObject(this, type := "match", +input, pattern := this, +mapping); } } beaConcept BMatch { new Ref pattern; SS mapping; } beaConcept BMatchToScenario { void reactWith(BMatch match) { uniqPeer(BEAObject, this, /*fromReaction_1 := this, fromReaction_2 := match,*/ fromReaction := ll(this, match), type := "scenario", text := mapToLines(match.mapping, (a, b) -> b + " is a " + a)); } } beaConcept BScenarioToOutput { bool canReactWith(BEAObject o) { ret o.typeIs("scenario"); } void reactWith(BEAObject scenario) { uniqPeer(BOutput, this, fromReaction := ll(this, scenario), type := "Output", text := getString text(scenario)); } } cmodule2 > DynCRUD_v2 { transient Map> beaClasses = calcBEAClasses(); start { print(+beaClasses); crud.humanizeFieldNames = false; crud.showBackRefs = true; crud.specialFieldsForItem = a -> { MapSO map = litorderedmap(crud.hID, str(a.id)); S j = crud.javaClassDescForItem(a); mapPut(map, "Class/Type", joinUniqueNemptiesCI("/", j, a.type())); ret map; }; thread { uniq BMatchToScenario(); uniq BScenarioToOutput(); uniq BInput(text := "UBports community delivers 'second-largest release of Ubuntu Touch ever'"); //uniq BPattern(text := "* delivers *"); uniq BAngleVarPattern(text := " delivers "); } } afterVisualize { tablePopupMenuFirst(table(), (menu, row) -> { BEAObject o = getItem(row); print("Item: " + o); if (o == null) ret; Class targetClass = defaultCustomClass(o); print(+targetClass); if (targetClass != null && targetClass != _getClass(o)) pcall-short { migrateConceptToClass(targetClass, o); addMenuItem(menu, "Convert to " + shortName(targetClass), r { replaceConceptAndUpdateRefs(o, migrateConceptToClass(targetClass, o)); }); } pcall { L partners = filter(list(BEAObject), partner -> o.canReactWith(partner)); if (nempty(partners)) addScrollingSubMenu(menu, "React with", menu2 -> { for (BEAObject p : partners) addMenuItem(menu2, str(p), rThread { call(o, 'reactWith, p); }); }); } }); } // e.g. "Input" => BInput Map> calcBEAClasses() { ret ciMapToKeys(c -> dropPrefix("B", shortClassName(c)), listMinusItem(BEAObject, myNonAbstractClassesImplementing(BEAObject))); } Class defaultCustomClass(BEAObject o) { ret beaClasses.get(o.type()); } A migrateConceptToClass(Class c, BEAObject in) { A out = unlisted(c); for (S field : conceptFields(in)) try { continue if eq(field, "type"); cset(out, field, cget(in, field)); // TODO: check Ref types } catch e { fail("Can't convert field " + field, e); } ret out; } }