@Override public String printObject() { try { final LispThread thread = LispThread.currentThread(); // FIXME if (typep(Symbol.RESTART) != NIL) { Symbol PRINT_RESTART = PACKAGE_SYS.intern("PRINT-RESTART"); LispObject fun = PRINT_RESTART.getSymbolFunction(); StringOutputStream stream = new StringOutputStream(); thread.execute(fun, this, stream); return stream.getString().getStringValue(); } if (_PRINT_STRUCTURE_.symbolValue(thread) == NIL) return unreadableString(structureClass.getName().printObject()); int maxLevel = Integer.MAX_VALUE; LispObject printLevel = Symbol.PRINT_LEVEL.symbolValue(thread); if (printLevel instanceof Fixnum) maxLevel = ((Fixnum) printLevel).value; LispObject currentPrintLevel = _CURRENT_PRINT_LEVEL_.symbolValue(thread); int currentLevel = Fixnum.getValue(currentPrintLevel); if (currentLevel >= maxLevel && slots.length > 0) return "#"; StringBuilder sb = new StringBuilder("#S("); sb.append(structureClass.getName().printObject()); if (currentLevel < maxLevel) { LispObject effectiveSlots = structureClass.getSlotDefinitions(); LispObject[] effectiveSlotsArray = effectiveSlots.copyToArray(); Debug.assertTrue(effectiveSlotsArray.length == slots.length); final LispObject printLength = Symbol.PRINT_LENGTH.symbolValue(thread); final int limit; if (printLength instanceof Fixnum) limit = Math.min(slots.length, ((Fixnum) printLength).value); else limit = slots.length; final boolean printCircle = (Symbol.PRINT_CIRCLE.symbolValue(thread) != NIL); for (int i = 0; i < limit; i++) { sb.append(' '); SimpleVector slotDefinition = (SimpleVector) effectiveSlotsArray[i]; // FIXME AREF(1) LispObject slotName = slotDefinition.AREF(1); Debug.assertTrue(slotName instanceof Symbol); sb.append(':'); sb.append(((Symbol) slotName).name.getStringValue()); sb.append(' '); if (printCircle) { StringOutputStream stream = new StringOutputStream(); thread.execute(Symbol.OUTPUT_OBJECT.getSymbolFunction(), slots[i], stream); sb.append(stream.getString().getStringValue()); } else sb.append(slots[i].printObject()); } if (limit < slots.length) sb.append(" ..."); } sb.append(')'); return sb.toString(); } catch (StackOverflowError e) { error(new StorageCondition("Stack overflow.")); return null; // Not reached. } }
protected int getSlotIndex(LispObject slotName) { LispObject effectiveSlots = structureClass.getSlotDefinitions(); LispObject[] effectiveSlotsArray = effectiveSlots.copyToArray(); for (int i = 0; i < slots.length; i++) { SimpleVector slotDefinition = (SimpleVector) effectiveSlotsArray[i]; LispObject candidateSlotName = slotDefinition.AREF(1); if (slotName == candidateSlotName) { return i; } } return -1; }
@Override public LispObject getParts() { LispObject result = NIL; result = result.push(new Cons("class", structureClass)); LispObject effectiveSlots = structureClass.getSlotDefinitions(); LispObject[] effectiveSlotsArray = effectiveSlots.copyToArray(); Debug.assertTrue(effectiveSlotsArray.length == slots.length); for (int i = 0; i < slots.length; i++) { SimpleVector slotDefinition = (SimpleVector) effectiveSlotsArray[i]; LispObject slotName = slotDefinition.AREF(1); result = result.push(new Cons(slotName, slots[i])); } return result.nreverse(); }
@Override public LispObject execute(LispObject first, LispObject second) { return new StructureObject(checkSymbol(first), second.copyToArray()); }