I have studied in lectures that post-fix and prefix operators increment value only after getting a semicolon.
Send your lecturer to me so that I can
take a baseball bat to him politely point out his mistake.
Exactly when the side effect of either pre- or postfix
-- is applied is unspecified, apart from the requirement that it happen before the next sequence point. In an expression like
x = a++ * b
a may be updated immediately after
a++ has been evaluated, or the update may be deferred until
a++ * b has been evaluated and the result assigned to
x, or anywhere in between.
This is why expressions like
i++ * i++ and
printf("%d %d", c++, c) and
a[i++] = i and a host of others are all bad juju. You will get different results based on the compiler, optimization settings, surrounding code, etc. The language standard explicitly leaves the behavior undefined so that the compiler is under no obligation to "do the right thing", whatever the right thing may be. Remember, the definition for undefined behavior is
1 undeﬁned behavior
behavior, upon use of a nonportable or erroneous program construct or of erroneous data,
for which this International Standard imposes no requirements
2 NOTE Possible undeﬁned behavior ranges from ignoring the situation completely with unpredictable
results, to behaving during translation or program execution in a documented manner characteristic of the
environment (with or without the issuance of a diagnostic message), to terminating a translation or
execution (with the issuance of a diagnostic message).
3 EXAMPLE An example of undeﬁned behavior is the behavior on integer overﬂow.
This is a deliberate design decision - the rationale for leaving the order of these operations unspecified is to give the implementation freedom to rearrange the evaluation order for optimization purposes. However, in exchange for this freedom, certain operations will not have well-defined results.
Note that a compiler is free to try to detect these cases and issue a diagnostic;
printf("%d %d", c++, c); would be easy enough to catch, but this would be a bugger to detect in the general case. Imagine if that had been written
printf("%d %d", (*p)++, c); if
p points to
c, then the behavior is undefined, otherwise it's okay. If
p is assigned in a different translation unit, then there's no way to know at compile time whether this is a problem or not.
This concept is not difficult to understand, yet it is one of the most consistently misunderstood (and mis-taught) aspects of the C language. No doubt this is why the Java and C# language specifications force a specific evaluation order for everything (all operands are evaluated left-to-right, and all side effects are applied immediately).