Operator precedence and associativity does not tell you what happens *before* and what happens *after*. Operator precedence/associativity has nothing to do with it. In C language temporal relationships like "before" or "after" are defined by so called *sequence points* and *only* by sequence points (and that's a totally separate story).

Operator precedence/associativity simply tells you which operands belong to which operators. For example, the expression `a = b++`

can be formally interpreted as `(a = b)++`

and as `a = (b++)`

. Operator precedence/associativity is this case simply tells you that the latter interpretation is correct and the former is incorrect (i.e. `++`

applies to `b`

and not to the result of `a = b`

).

That, once again, does not mean that `b`

should be incremented first. Operator precedence/associativity, once again, has noting to do with what happens "first" and what happens "next". It simply tells you that the result of `b++`

expression is assigned to `a`

. By definition, the result of `b++`

(postfix increment) is the *original* value of `b`

. This is why `a`

will get the *original* value of `b`

, which is 1. When the variable `b`

will get incremented is completely irrelevant, as long as `a`

gets assigned `b`

's *original* value. The compiler is allowed to evaluate this expression in any order and increment `b`

at any time: anything goes, as long as `a`

somehow gets the *original* value of `b`

(and nobody really cares how that "somehow" works internally).

For example, the compiler can evaluate `a = b++`

as the following sequence of elementary operations

```
(1) a := b
(2) b := b + 1
```

or it can evaluate it as follows

```
(1) b := b + 1
(2) a = b - 1
```

Note that in the first case `b`

is actually incremented at the end, while in the second case `b`

is incremented first. But in both cases `a`

gets the same correct value - the original value of `b`

, which is what it should get.

But I have to reiterate that the above two examples are here just for illustrative purposes. In reality, expressions like `a = ++b`

and `a = b++`

have no sequence points inside, which means that from your point of view everything in these expressions happens *simultaneously*. There's no "before", "after", "first", "next" or "last". Such expressions are "atomic" in a sense that they cannot be meaningfully decomposed into a sequence of smaller steps.