"rotatez", "perspective")); TermList list = tf.createList();
@SuppressWarnings("unused") private boolean processTransform(Declaration d, Map<String, CSSProperty> properties, Map<String, Term<?>> values) { // just a simple value (e.g. "none") if (d.size() == 1 && genericOneIdent(Transform.class, d, properties)) { return true; } else { TermList list = tf.createList(); for (Term<?> t : d.asList()) { if (t instanceof TermFunction.TransformFunction) list.add(t); else return false; } // there is nothing in list after parsing if (list.isEmpty()) return false; properties.put("transform", Transform.list_values); values.put("transform", list); return true; } }
if (d.size() == 0) return false; TermList list = tf.createList(); for (Term<?> t : d) { list.add(t);
@SuppressWarnings("unused") private boolean processUnicodeRange(Declaration d, Map<String, CSSProperty> properties, Map<String, Term<?>> values) { if (d.size() > 0) { TermList list = tf.createList(); for (int i = 0; i < d.size(); i++) { Term<?> term = d.get(i); if (term instanceof TermUnicodeRange && ((i == 0 && term.getOperator() == null) || (i != 0 && term.getOperator() == Operator.COMMA))) { list.add(term); } else { return false; } } properties.put("unicode-range", UnicodeRange.list_values); values.put("unicode-range", list); return true; } else return false; }
@SuppressWarnings("unused") private boolean processUnicodeRange(Declaration d, Map<String, CSSProperty> properties, Map<String, Term<?>> values) { if (d.size() > 0) { TermList list = tf.createList(); for (int i = 0; i < d.size(); i++) { Term<?> term = d.get(i); if (term instanceof TermUnicodeRange && ((i == 0 && term.getOperator() == null) || (i != 0 && term.getOperator() == Operator.COMMA))) { list.add(term); } else { return false; } } properties.put("unicode-range", UnicodeRange.list_values); values.put("unicode-range", list); return true; } else return false; }
@SuppressWarnings("unused") private boolean processBackdropFilter(Declaration d, Map<String, CSSProperty> properties, Map<String, Term<?>> values) { // single ident: none, or global ones if (d.size() == 1 && genericOneIdent(BackdropFilter.class, d, properties)) { return true; } else { //list of uri() or <filter-function> expected TermList list = tf.createList(); for (Term<?> t : d.asList()) { if (t instanceof TermFunction.FilterFunction) list.add(t); else if (t instanceof TermURI) list.add(t); else return false; } // there is nothing in list after parsing if (list.isEmpty()) return false; properties.put("backdrop-filter", BackdropFilter.list_values); values.put("backdrop-filter", list); return true; } }
@SuppressWarnings("unused") private boolean processFilter(Declaration d, Map<String, CSSProperty> properties, Map<String, Term<?>> values) { // single ident: none, or global ones if (d.size() == 1 && genericOneIdent(Filter.class, d, properties)) { return true; } else { //list of uri() or <filter-function> expected TermList list = tf.createList(); for (Term<?> t : d.asList()) { if (t instanceof TermFunction.FilterFunction) list.add(t); else if (t instanceof TermURI) list.add(t); else return false; } // there is nothing in list after parsing if (list.isEmpty()) return false; properties.put("filter", Filter.list_values); values.put("filter", list); return true; } }
TermList list = tf.createList(); TextDecoration dec = null; for (Term<?> term : d.asList()) {
TermList list = tf.createList(); TextDecoration dec = null; for (Term<?> term : d.asList()) {
TermList list = tf.createList(); TextDecoration dec = null; for (Term<?> term : d.asList()) {
TermList list = tf.createList(); TextDecoration dec = null; for (Term<?> term : d.asList()) {
@SuppressWarnings("unused") private boolean processQuotes(Declaration d, Map<String, CSSProperty> properties, Map<String, Term<?>> values) { if (d.size() == 1 && genericTermIdent(Quotes.class, d.get(0), ALLOW_INH, "quotes", properties)) { return true; } else { TermList list = tf.createList(); for (Term<?> term : d.asList()) { if (term instanceof TermString) list.add(term); else return false; } // there are pairs of quotes if (!list.isEmpty() && list.size() % 2 == 0) { properties.put("quotes", Quotes.list_values); values.put("quotes", list); return true; } return false; } }
@SuppressWarnings("unused") private boolean processQuotes(Declaration d, Map<String, CSSProperty> properties, Map<String, Term<?>> values) { if (d.size() == 1 && genericTermIdent(Quotes.class, d.get(0), ALLOW_INH, "quotes", properties)) { return true; } else { TermList list = tf.createList(); for (Term<?> term : d.asList()) { if (term instanceof TermString) list.add(term); else return false; } // there are pairs of quotes if (!list.isEmpty() && list.size() % 2 == 0) { properties.put("quotes", Quotes.list_values); values.put("quotes", list); return true; } return false; } }
@SuppressWarnings("unused") private boolean processQuotes(Declaration d, Map<String, CSSProperty> properties, Map<String, Term<?>> values) { if (d.size() == 1 && genericTermIdent(Quotes.class, d.get(0), ALLOW_INH, "quotes", properties)) { return true; } else { TermList list = tf.createList(); for (Term<?> term : d.asList()) { if (term instanceof TermString) list.add(term); else return false; } // there are pairs of quotes if (!list.isEmpty() && list.size() % 2 == 0) { properties.put("quotes", Quotes.list_values); values.put("quotes", list); return true; } return false; } }
@SuppressWarnings("unused") private boolean processQuotes(Declaration d, Map<String, CSSProperty> properties, Map<String, Term<?>> values) { if (d.size() == 1 && genericTermIdent(Quotes.class, d.get(0), ALLOW_INH, "quotes", properties)) { return true; } else { TermList list = tf.createList(); for (Term<?> term : d.asList()) { if (term instanceof TermString) list.add(term); else return false; } // there are pairs of quotes if (!list.isEmpty() && list.size() % 2 == 0) { properties.put("quotes", Quotes.list_values); values.put("quotes", list); return true; } return false; } }
.of(Cursor.INHERIT)); TermList list = tf.createList(); Cursor cur = null; for (Term<?> term : d.asList()) {
.of(Cursor.INHERIT)); TermList list = tf.createList(); Cursor cur = null; for (Term<?> term : d.asList()) {
.of(Cursor.INHERIT)); TermList list = tf.createList(); Cursor cur = null; for (Term<?> term : d.asList()) {
return true; TermList list = tf.createList(); int areasInRow = 0; String[][] map = new String[d.size()][];
TermList list = tf.createList(); for (int i = 0; i < d.size(); i++) { Term t = d.get(i);