use of pcgen.cdom.base.ConcretePersistentTransitionChoice in project pcgen by PCGen.
the class ClassSkillsLevelTokenTest method testUnparseSingleRanked.
@Test
public void testUnparseSingleRanked() throws PersistenceLayerException {
List<CDOMReference<Skill>> refs = new ArrayList<>();
addSingleRef(refs, "TestWP1");
ReferenceChoiceSet<Skill> rcs = new ReferenceChoiceSet<>(refs);
ChoiceSet<Skill> cs = new ChoiceSet<>(getSubToken().getTokenName(), rcs);
PersistentTransitionChoice<Skill> tc = new ConcretePersistentTransitionChoice<>(cs, FormulaFactory.ONE);
primaryProf.addToListFor(ListKey.ADD, tc);
tc.setChoiceActor(new ClassSkillChoiceActor(fighter, 3));
String[] unparsed = getToken().unparse(primaryContext, primaryProf);
expectSingle(unparsed, getSubTokenName() + '|' + "TestWP1,AUTORANK=3");
}
use of pcgen.cdom.base.ConcretePersistentTransitionChoice in project pcgen by PCGen.
the class ClassSkillsLevelTokenTest method testUnparseExclusive.
@Test
public void testUnparseExclusive() throws PersistenceLayerException {
List<CDOMReference<Skill>> refs = new ArrayList<>();
ObjectMatchingReference<Skill, Boolean> omr = new ObjectMatchingReference<>("EXCLUSIVE", Skill.class, getAllRef(), ObjectKey.EXCLUSIVE, Boolean.TRUE);
omr.returnIncludesNulls(true);
refs.add(omr);
ReferenceChoiceSet<Skill> rcs = new ReferenceChoiceSet<>(refs);
ChoiceSet<Skill> cs = new ChoiceSet<>(getSubToken().getTokenName(), rcs);
PersistentTransitionChoice<Skill> tc = new ConcretePersistentTransitionChoice<>(cs, FormulaFactory.ONE);
primaryProf.addToListFor(ListKey.ADD, tc);
tc.setChoiceActor(new ClassSkillChoiceActor(fighter, null));
String[] unparsed = getToken().unparse(primaryContext, primaryProf);
expectSingle(unparsed, getSubTokenName() + '|' + "EXCLUSIVE");
}
use of pcgen.cdom.base.ConcretePersistentTransitionChoice in project pcgen by PCGen.
the class ClassSkillsLevelTokenTest method testUnparseUntrained.
@Test
public void testUnparseUntrained() throws PersistenceLayerException {
List<CDOMReference<Skill>> refs = new ArrayList<>();
ObjectMatchingReference<Skill, Boolean> omr = new ObjectMatchingReference<>("UNTRAINED", Skill.class, getAllRef(), ObjectKey.USE_UNTRAINED, Boolean.TRUE);
omr.returnIncludesNulls(true);
refs.add(omr);
ReferenceChoiceSet<Skill> rcs = new ReferenceChoiceSet<>(refs);
ChoiceSet<Skill> cs = new ChoiceSet<>(getSubToken().getTokenName(), rcs);
PersistentTransitionChoice<Skill> tc = new ConcretePersistentTransitionChoice<>(cs, FormulaFactory.ONE);
primaryProf.addToListFor(ListKey.ADD, tc);
tc.setChoiceActor(new ClassSkillChoiceActor(fighter, null));
String[] unparsed = getToken().unparse(primaryContext, primaryProf);
expectSingle(unparsed, getSubTokenName() + '|' + "UNTRAINED");
}
use of pcgen.cdom.base.ConcretePersistentTransitionChoice in project pcgen by PCGen.
the class ClassSkillsTokenTest method testUnparseUntrained.
@Test
public void testUnparseUntrained() throws PersistenceLayerException {
List<CDOMReference<Skill>> refs = new ArrayList<>();
ObjectMatchingReference<Skill, Boolean> omr = new ObjectMatchingReference<>("UNTRAINED", Skill.class, getAllRef(), ObjectKey.USE_UNTRAINED, Boolean.TRUE);
omr.returnIncludesNulls(true);
refs.add(omr);
ReferenceChoiceSet<Skill> rcs = new ReferenceChoiceSet<>(refs);
ChoiceSet<Skill> cs = new ChoiceSet<>(getSubToken().getTokenName(), rcs);
PersistentTransitionChoice<Skill> tc = new ConcretePersistentTransitionChoice<>(cs, FormulaFactory.ONE);
primaryProf.addToListFor(ListKey.ADD, tc);
tc.setChoiceActor(new ClassSkillChoiceActor(fighter, null));
String[] unparsed = getToken().unparse(primaryContext, primaryProf);
expectSingle(unparsed, getSubTokenName() + '|' + "UNTRAINED");
}
use of pcgen.cdom.base.ConcretePersistentTransitionChoice in project pcgen by PCGen.
the class ClassSkillsLevelToken method parseNonEmptyToken.
@Override
protected ParseResult parseNonEmptyToken(LoadContext context, PCClassLevel obj, String value) {
ParsingSeparator sep = new ParsingSeparator(value, '|');
sep.addGroupingPair('[', ']');
sep.addGroupingPair('(', ')');
String activeValue = sep.next();
Formula count;
if (!sep.hasNext()) {
count = FormulaFactory.ONE;
} else {
count = FormulaFactory.getFormulaFor(activeValue);
if (!count.isValid()) {
return new ParseResult.Fail("Count in " + getTokenName() + " was not valid: " + count.toString(), context);
}
if (count.isStatic() && count.resolveStatic().doubleValue() <= 0) {
return new ParseResult.Fail("Count in " + getFullName() + " must be > 0", context);
}
activeValue = sep.next();
}
if (sep.hasNext()) {
return new ParseResult.Fail(getFullName() + " had too many pipe separated items: " + value, context);
}
ParseResult pr = checkSeparatorsAndNonEmpty(',', activeValue);
if (!pr.passed()) {
return pr;
}
List<CDOMReference<Skill>> refs = new ArrayList<>();
StringTokenizer tok = new StringTokenizer(activeValue, Constants.COMMA);
CDOMGroupRef<Skill> allRef = context.getReferenceContext().getCDOMAllReference(SKILL_CLASS);
Integer autoRank = null;
while (tok.hasMoreTokens()) {
String tokText = tok.nextToken();
if (Constants.LST_ALL.equals(tokText) || Constants.LST_ANY.equals(tokText)) {
refs.add(allRef);
} else {
if (Constants.LST_UNTRAINED.equals(tokText)) {
ObjectMatchingReference<Skill, Boolean> omr = new ObjectMatchingReference<>(tokText, SKILL_CLASS, allRef, ObjectKey.USE_UNTRAINED, Boolean.TRUE);
omr.returnIncludesNulls(true);
refs.add(omr);
} else if (Constants.LST_TRAINED.equals(tokText)) {
refs.add(new ObjectMatchingReference<>(tokText, SKILL_CLASS, allRef, ObjectKey.USE_UNTRAINED, Boolean.FALSE));
} else if (Constants.LST_EXCLUSIVE.equals(tokText)) {
refs.add(new ObjectMatchingReference<>(tokText, SKILL_CLASS, allRef, ObjectKey.EXCLUSIVE, Boolean.TRUE));
} else if (Constants.LST_NONEXCLUSIVE.equals(tokText) || Constants.LST_CROSS_CLASS.equals(tokText)) {
ObjectMatchingReference<Skill, Boolean> omr = new ObjectMatchingReference<>(tokText, SKILL_CLASS, allRef, ObjectKey.EXCLUSIVE, Boolean.FALSE);
omr.returnIncludesNulls(true);
refs.add(omr);
} else if (tokText.startsWith("AUTORANK=")) {
if (autoRank != null) {
return new ParseResult.Fail("Cannot have two " + "AUTORANK= items in " + getFullName() + ": " + value, context);
}
String rankString = tokText.substring(9);
try {
autoRank = Integer.decode(rankString);
if (autoRank <= 0) {
return new ParseResult.Fail("Expected AUTORANK= to be" + " greater than zero, found: " + autoRank, context);
}
} catch (NumberFormatException e) {
return new ParseResult.Fail("Expected AUTORANK= to have" + " an integer value, found: " + rankString, context);
}
} else {
CDOMReference<Skill> skref = TokenUtilities.getTypeOrPrimitive(context, SKILL_CLASS, tokText);
if (skref == null) {
return new ParseResult.Fail(" Error was encountered while parsing " + getFullName() + ": " + value + " had an invalid reference: " + tokText, context);
}
refs.add(skref);
}
}
}
if (refs.isEmpty()) {
return new ParseResult.Fail("Non-sensical " + getFullName() + ": Contains no skill reference: " + value, context);
}
ReferenceChoiceSet<Skill> rcs = new ReferenceChoiceSet<>(refs);
if (!rcs.getGroupingState().isValid()) {
return new ParseResult.Fail("Non-sensical " + getFullName() + ": Contains ANY and a specific reference: " + value, context);
}
ChoiceSet<Skill> cs = new ChoiceSet<>(getTokenName(), rcs, true);
PersistentTransitionChoice<Skill> tc = new ConcretePersistentTransitionChoice<>(cs, count);
// TODO This is a hack, to get this to work pre-CDOM
PCClass parent = (PCClass) obj.get(ObjectKey.TOKEN_PARENT);
ClassSkillChoiceActor actor = new ClassSkillChoiceActor(parent, autoRank);
tc.setChoiceActor(actor);
context.getObjectContext().addToList(obj, ListKey.ADD, tc);
return ParseResult.SUCCESS;
}
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