/** * <p> * The number of unused private IPv4 addresses in the subnet. The IPv4 addresses for any stopped instances are * considered unavailable. * </p> * * @param availableIpAddressCount * The number of unused private IPv4 addresses in the subnet. The IPv4 addresses for any stopped instances * are considered unavailable. * @return Returns a reference to this object so that method calls can be chained together. */ public Subnet withAvailableIpAddressCount(Integer availableIpAddressCount) { setAvailableIpAddressCount(availableIpAddressCount); return this; }
subnet.setAvailableIpAddressCount(IntegerStaxUnmarshaller.getInstance().unmarshall(context)); continue;
/** * <p> * The number of unused private IPv4 addresses in the subnet. The IPv4 addresses for any stopped instances are * considered unavailable. * </p> * * @param availableIpAddressCount * The number of unused private IPv4 addresses in the subnet. The IPv4 addresses for any stopped instances * are considered unavailable. * @return Returns a reference to this object so that method calls can be chained together. */ public Subnet withAvailableIpAddressCount(Integer availableIpAddressCount) { setAvailableIpAddressCount(availableIpAddressCount); return this; }
subnet.setAvailableIpAddressCount(IntegerStaxUnmarshaller.getInstance().unmarshall(context)); continue;
/** * Converts this object into an AWS equivalent object. * * @return A new equivalent AWS object */ public Subnet toAwsObject() { Subnet subnet = new Subnet(); subnet.setSubnetId(subnetId); subnet.setAvailabilityZone(availabilityZone); subnet.setAvailableIpAddressCount(availableIpAddressCount); return subnet; }
subnet.setAvailableIpAddressCount(IntegerStaxUnmarshaller.getInstance().unmarshall(context)); continue;