public void visitFieldExpression(FieldExpression expression) { if (!expression.getField().isSynthetic()) { assertValidIdentifier(expression.getFieldName(), "field name", expression); } super.visitFieldExpression(expression); }
if ((fNode.isStatic() && !includeStatic) || fNode.isSynthetic() || cNode.getProperty(fNode.getName()) != null || names.contains(fNode.getName())) { continue;
if (!fieldNode.isSynthetic() && fieldNode.isStatic() && fieldNode.getType() != node) { explicitStaticPropsInEnum.add(fieldNode.getName());
boolean hasStatic = false; for (FieldNode field : cNode.getFields()) { if (!"metaClass".equals(field.getName()) && (!field.isSynthetic() || field.getName().indexOf('$') < 0)) { fields.add(field); fieldNames.add(field.getName());
boolean swapInitRequired = false; for (FieldNode fn : node.getFields()) { if (!fn.isStatic() || !fn.isSynthetic() || !fn.getName().startsWith("$const$")) continue; if (fn.getInitialExpression() == null) continue; final FieldExpression fe = new FieldExpression(fn);
if (pn != null && pn.getField().isSynthetic()) { classNode.getFields().remove(pn.getField()); pn.setField(fieldNode);
@Override public void visitField(FieldNode node) { // we don't want synthetic fields duplicating property initial expressions if (!node.isSynthetic() && isInside(node, line, column)) { super.visitField(node); } }
private void genField(FieldNode fieldNode, PrintWriter out) { // <netbeans> if (fieldNode.isSynthetic() || "metaClass".equals(fieldNode.getName())) { // NOI18N return; } // </netbeans> if ((fieldNode.getModifiers() & Opcodes.ACC_PRIVATE) != 0) { return; } printModifiers(out, fieldNode.getModifiers()); printType(fieldNode.getType(), out); out.print(" "); out.print(fieldNode.getName()); out.println(";"); }
public void visitFieldExpression(FieldExpression expression) { if (!expression.getField().isSynthetic()) { assertValidIdentifier(expression.getFieldName(), "field name", expression); } super.visitFieldExpression(expression); }
public void visitFieldExpression(FieldExpression expression) { if (!expression.getField().isSynthetic()) { assertValidIdentifier(expression.getFieldName(), "field name", expression); } super.visitFieldExpression(expression); }
public void visitFieldExpression(FieldExpression expression) { if (!expression.getField().isSynthetic()) { assertValidIdentifier(expression.getFieldName(), "field name", expression); } super.visitFieldExpression(expression); }
public void visitFieldExpression(FieldExpression expression) { if (!expression.getField().isSynthetic()) { assertValidIdentifier(expression.getFieldName(), "field name", expression); } super.visitFieldExpression(expression); }
if(!fieldNode.isSynthetic() && fieldNode.isStatic() && fieldNode.getType() != node) { explicitStaticPropsInEnum.add(fieldNode.getName());
if (fieldNode.isSynthetic() && expression instanceof ConstantExpression) { staticList.add(0, statement); } else {
if (fieldNode.isSynthetic() && expression instanceof ConstantExpression) { staticList.add(0, statement); } else {
if (!fieldNode.isSynthetic() && fieldNode.isStatic() && fieldNode.getType() != node) { explicitStaticPropsInEnum.add(fieldNode.getName());
if (pn!=null && pn.getField().isSynthetic()) { classNode.getFields().remove(pn.getField()); pn.setField(fieldNode);
if (pn!=null && pn.getField().isSynthetic()) { classNode.getFields().remove(pn.getField()); pn.setField(fieldNode);
if (!fn.isStatic() || !fn.isSynthetic() || !fn.getName().startsWith("$const$")) continue; if (fn.getInitialExpression()==null) continue; final FieldExpression fe = new FieldExpression(fn);
if (pn != null && pn.getField().isSynthetic()) { classNode.getFields().remove(pn.getField()); pn.setField(fieldNode);