the compiler can't enforce method call ordering, since in many cases it cannot determine statically what the call order is. For example:
public void whichOrder(boolean b)
if (b) call1();
if (!b) call2();
if (b) call2();
if (!b) call1();
If it's necessary that the methods are called in the correct order, you have a few choices:
- document the call order, so that callers know what to do. This doesn't enforce the order, but at least makes coders aware of it.
- add state to your object to remember which method was called last, and validate the current called method is allowed next. This enforces the method check at runtime.
- Use a mock framework (e.g. Moq) to unit test your clients. This checks at build time that the order is correct.
Which approach you choose depends on how critical the correct ordering is, and the consequences of calling the methods in the wrong order.
An alternative is to rework your design so that method ordering doesn't become an issue. For example, wrap both methods up in a third, call3() that invokes call1() and call2() in the correct order. Or perhaps, have call2() invoke call1() if it has not already been executed, and have call1() check if it's already run, and return silently if it doesn't need to run. If clients invoke call2() then call1(), you still internally get the effect of call1() first (from call2()'s internal call to call1()) and the client's call to call1() results in a no op.
public void call3()
public void call2()
// rest of call2's logic
private boolean call1Called = false;
pubic void call1()