You use an abstract class when a portion of your functionality is known, but a portion is variable.
public abstract class Channel {
private Response response;
public abstract void connect();
public abstract void sendMessage(Message message);
public abstract Response awaitResponse();
public abstract void disconnect();
public void send(Message message) {
connect();
sendMessage(message);
response = awaitResponse();
disconnect();
}
public Response getResponse() {
return response;
}
}
now you have a "communications channel" which you know you can send messages on, but have absolutely no idea of what the protocol is, how it connects, or how it handles the response.
To give an example of how far one might twist this idea. Let's explore "email" channels.
public class EmailChannel extends Channel {
public void connect() {
... open a SMTP socket to the email server ...
... open a HTTP socket for the response channel ...
}
public void sendMessage(Message message) {
... create a URL with encoding for the "response link" ...
... negotiate SMTP protocol ELHO, etc...
... send an email message with the "message" contents ...
... append the embedded HTTP "response link" ...
... close the SMTP socket ...
}
public Response awaitResponse() {
... wait till expected "GET" occurs on the HTTP socket ...
... return new Response(... details ...)
}
public void disconnect() {
... close the HTTP socket ...
}
}
There are of course many actual issues with the code above, but it is an example of the Template pattern, and a decent example of why one might want to write an abstract class.
Abstract classes become even more valuable when you have more implementations of them. To stretch our slapdash example just a bit further, imagine a system which offers a choice of protocols.
Contact "John Doe" by
1) email
2) SMS
3) chat
which would be backed by a
public Channel getChannelForInput(int value) {
switch (value) {
case 1: return new EmailChannel();
case 2: return new SMSChannel();
case 3: return new ChatChannel();
default: throw new IllegalArgumentException("value cannot be " + value);
}
}
and that backing would fit into something like
...
Channel channel = getChannelForInput(value);
channel.send(message);
displayResponse(channel.getResponse());
...
Hopefully now you can see how it might be useful to have a type that guarantees certain behaviors while leaving some of the details unspecified.
AbstractList
comes to mind. It could be helpful to look at what they provide, and how sublasses use them.