/** * Gets array of all "FeatureType" elements */ public net.opengis.wfs.FeatureTypeType[] getFeatureTypeArray() { synchronized (monitor()) { check_orphaned(); java.util.List targetList = new java.util.ArrayList(); get_store().find_all_element_users(FEATURETYPE$2, targetList); net.opengis.wfs.FeatureTypeType[] result = new net.opengis.wfs.FeatureTypeType[targetList.size()]; targetList.toArray(result); return result; } }
/** * Sets array of all "FeatureType" element */ public void setFeatureTypeArray(net.opengis.wfs.FeatureTypeType[] featureTypeArray) { synchronized (monitor()) { check_orphaned(); arraySetterHelper(featureTypeArray, FEATURETYPE$2); } }
/** * True if has "Operations" element */ public boolean isSetOperations() { synchronized (monitor()) { check_orphaned(); return get_store().count_elements(OPERATIONS$0) != 0; } }
/** * Gets ith "FeatureType" element */ public net.opengis.wfs.FeatureTypeType getFeatureTypeArray(int i) { synchronized (monitor()) { check_orphaned(); net.opengis.wfs.FeatureTypeType target = null; target = (net.opengis.wfs.FeatureTypeType)get_store().find_element_user(FEATURETYPE$2, i); if (target == null) { throw new IndexOutOfBoundsException(); } return target; } }
/** * Removes the ith "FeatureType" element */ public void removeFeatureType(int i) { synchronized (monitor()) { check_orphaned(); get_store().remove_element(FEATURETYPE$2, i); } } }
/** * Unsets the "Operations" element */ public void unsetOperations() { synchronized (monitor()) { check_orphaned(); get_store().remove_element(OPERATIONS$0, 0); } }
/** * Returns number of "FeatureType" element */ public int sizeOfFeatureTypeArray() { synchronized (monitor()) { check_orphaned(); return get_store().count_elements(FEATURETYPE$2); } }
/** * Appends and returns a new empty value (as xml) as the last "FeatureType" element */ public net.opengis.wfs.FeatureTypeType addNewFeatureType() { synchronized (monitor()) { check_orphaned(); net.opengis.wfs.FeatureTypeType target = null; target = (net.opengis.wfs.FeatureTypeType)get_store().add_element_user(FEATURETYPE$2); return target; } }
/** * Appends and returns a new empty "Operations" element */ public net.opengis.wfs.OperationsType addNewOperations() { synchronized (monitor()) { check_orphaned(); net.opengis.wfs.OperationsType target = null; target = (net.opengis.wfs.OperationsType)get_store().add_element_user(OPERATIONS$0); return target; } }
/** * Inserts and returns a new empty value (as xml) as the ith "FeatureType" element */ public net.opengis.wfs.FeatureTypeType insertNewFeatureType(int i) { synchronized (monitor()) { check_orphaned(); net.opengis.wfs.FeatureTypeType target = null; target = (net.opengis.wfs.FeatureTypeType)get_store().insert_element_user(FEATURETYPE$2, i); return target; } }
/** * Sets ith "FeatureType" element */ public void setFeatureTypeArray(int i, net.opengis.wfs.FeatureTypeType featureType) { synchronized (monitor()) { check_orphaned(); net.opengis.wfs.FeatureTypeType target = null; target = (net.opengis.wfs.FeatureTypeType)get_store().find_element_user(FEATURETYPE$2, i); if (target == null) { throw new IndexOutOfBoundsException(); } target.set(featureType); } }
/** * Gets the "Operations" element */ public net.opengis.wfs.OperationsType getOperations() { synchronized (monitor()) { check_orphaned(); net.opengis.wfs.OperationsType target = null; target = (net.opengis.wfs.OperationsType)get_store().find_element_user(OPERATIONS$0, 0); if (target == null) { return null; } return target; } }
/** * Sets the "Operations" element */ public void setOperations(net.opengis.wfs.OperationsType operations) { synchronized (monitor()) { check_orphaned(); net.opengis.wfs.OperationsType target = null; target = (net.opengis.wfs.OperationsType)get_store().find_element_user(OPERATIONS$0, 0); if (target == null) { target = (net.opengis.wfs.OperationsType)get_store().add_element_user(OPERATIONS$0); } target.set(operations); } }