Obviously code like this should never actually occur. It's horrendous. I don't think you should spend too much time worrying about why it gives 7, but it's actually not too hard to see why.
The first field value to be evaluated is
InterfaceA.A, so the VM starts to initialize
InterfaceA. That requires
InterfaceB.B, so it starts to initialize
InterfaceB. That requires
InterfaceC.C, so it starts to initialize
InterfaceC.C refers to
InterfaceA.A, the VM is already initializing
InterfaceA, so it just proceeds regardless (as per section 12.4.2 of the JLS):
If the Class object for C indicates that initialization is in progress for C by the current thread, then this must be a recursive request for initialization. Release LC and complete normally.
InterfaceA.A is still 0 (we're still trying to work out what value it should have, and 0 is the default value for
InterfaceC.C gets a value of 1 (0 + 1). Then
InterfaceB.B gets a value of 2 (1 + 1), and
InterfaceA.A gets a value of 4 (2 * 2).
Sum all of those field values, and you end up with 7.
If you use a different expression, you'll get a different value because you'll see a different interface being initialized last, although it only depends on the first field which you refer to:
A + B + C = 7 (A = 4, B = 2, C = 1)
A + C + B = 7 (A = 4, B = 2, C = 1)
B + A + C = 3 (A = 0, B = 2, C = 1)
B + C + A = 3 (A = 0, B = 2, C = 1)
C + A + B = 6 (A = 2, B = 1, C = 3)
C + B + A = 6 (A = 2, B = 1, C = 3)
(You have to replace the existing line of code of course, as this is about type initialization - if you just add more
System.out.println lines you'll get the same answer for all the above expressions.)