Your logic is close, but not quite right. The order of evaluation is Left to Right for the + operator. t1 comes before the binary op, LHS and then the increment is on the RHS of that binary op. The LHS is executed first.

```
t2 = t1 + (++t1);
t2 = 5 + 6; // t1 becomes 6 here as a side effect before being read on the RHS
t2 = 11;
```

Visualised as a tree you have,

```
+
/ \
t1 ++t1
```

*Precedence Order*

When two operators share an operand the operator with the higher precedence goes first. For example, 1 + 2 * 3 is treated as 1 + (2 * 3), whereas 1 * 2 + 3 is treated as (1 * 2) + 3 since multiplication has a higher precedence than addition.

*Associativity*

When two operators with the same precedence the expression is evaluated according to its associativity. For example x = y = z = 17 is treated as x = (y = (z = 17)), leaving all three variables with the value 17, since the = operator has right-to-left associativity (and an assignment statement evaluates to the value on the right hand side). On the other hand, 72 / 2 / 3 is treated as (72 / 2) / 3 since the / operator has left-to-right associativity.

`++/--`

in compound expressions. While this behavior is well-defined in Java, it produces different results (ie. 12) in perl and results in undefined-behavior in C/C++. Plus, it often makes the expression harder to quickly analyze.. (case in point, perhaps)