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Expression is:

foo = *p++

I am looking for a guide/reference with examples that can explain these things.

I understand postfix ++ has higher precedence than indirection *, so the expression is parsed as


But I am trying to get more clarity on the statement in GNU C reference manual Pg 40, that says:

Here p is incremented as a side effect of the expression, but foo takes the value of *(p++) rather than (*p)++, since the unary operators bind right to left.

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That says what you say you already understand, as far as I can tell. It's not clear what sort of clarification you are looking for, can you elaborate? –  hvd Jun 29 '14 at 22:21
@hvd The statement that I quoted was misleading for me. But looks like you have a different opinion on that. I am looking to hear from you further. –  abc Jun 29 '14 at 22:26
Having read Oli Charlesworth's answer, I do think I understand your question a bit better now. It wasn't clear to me that your question was about the reason why *p++ means *(p++), I read it as asking only for clarification on whether *p++ means *(p++). By now, I have nothing to add that isn't already part of the answers. :) –  hvd Jun 29 '14 at 22:32
@abc: You cited a paragraph referred to "side effects". This could be the source of some kind of confussion. Please, take a look to my answer and tell me if it is the kind of answer you need. –  pablo1977 Jun 29 '14 at 23:23
@pablo1977 Thanks for your answer is. Please see my comments below. –  abc Jun 29 '14 at 23:37

4 Answers 4

up vote 2 down vote accepted

The OP asked "how is evaluated" the expression *p++.

One thing is precedence and another different thing is evaluation.
The expression p++ increments the value of the variable p, but the value of the expression is he "old" value that p had.

For example, consider that p is char pointer used to analyze a string:

   char s[] = "0123456789!";
   char *p = s;
   char q;
   p = s;  //  Here *p == '0'
   q = *p++ // Here q == '0' but *p == '1'

Although the precedence rules imply that *p++ is the same that *(p++), the value of *p++ is s[0], in despite of p == &s[1].
To be more precise, the value of the expression is the same as of *p.

In this case, the "side effects" are referring to the operations that are done over the objects, in this case we have the objects p and q in the expression q = *p++.

"Operation over objects" are not walking in the same path that "evaluation of expressions".

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It's true that "evaluation" is a distinct concept, but it's also clear from the OP's post that he/she is really talking about "parsing". –  Oliver Charlesworth Jun 29 '14 at 23:20
@OliCharlesworth: (S)He cited a paragraph that talks about "side effects". –  pablo1977 Jun 29 '14 at 23:21
@pablo1977 I was under the assumption that q will have s[1]. I wrote a program confirming that its not. Why doesn't q get the value of expression as it is parsed and evaluated ? And is there a general rule to understand such things ? –  abc Jun 29 '14 at 23:34
@OliCharlesworth I was under (incorrect) assumption that "evaluation" result in this case will be determined by parsing result. But (to my surprise) it is not the case? How to understand these things? Is there a general rule ? –  abc Jun 29 '14 at 23:35
@abc: Otherwise, there would be no difference between prefix and postfix ++. –  Oliver Charlesworth Jun 29 '14 at 23:41

In C/C++, precedence of Prefix ++ (or Prefix –) and dereference (*) operators is same, and precedence of Postfix ++ (or Postfix –) is higher than both Prefix ++ and *.

If p is a pointer then *p++ is equivalent to *(p++) (because postfix has higher precedence)

++*p is equivalent to ++(*p) (both Prefix ++ and * are right associative).

*++p is equivalent to *(++p) (both Prefix ++ and * are right associative).

You can see the below 2 programs to clarify your doubt.

Program 1

int main()
      char arr[] = "overflow";
      char *p = arr;
      printf(" %c", *p);
      return 0;
Output: p

Program 2

int main()
  char arr[] = "overflow";
  char *p = arr;
  printf(" %c", *p);
  return 0;
Output: v
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Your answer is good but Oli actually answered my question. I did not down vote your answer. –  abc Jun 29 '14 at 22:40
I think that my answer was more appropriate. But as you may feel :) –  Jerky Jun 29 '14 at 22:41
How to do you explain the behavior in pablo's answer? Any thoughts ? –  abc Jun 29 '14 at 23:50

The GNU quote is misleading (IMHO); from a language point-of-view it's nothing to do with left-to-right (or vice versa).*

The C language standard doesn't define things in terms of precedence or associativity (left-to-right or right-to-left); these are merely implied by the defined grammar. Postfix ++ is classified as a postfix-expression rather than a unary-expression:

    postfix-expression ++
    postfix-expression --

    ++ unary-expression
    -- unary-expression
    unary-operator cast-expression

    & * + - ~ !

The interaction of the above production rules mean that your example is interpreted as *(p++).

In non-standardese, though, the reason is due to precedence, not associativity (which makes little sense for unary operators).

* In fact, the postfix operators are effectively left-to-right, which is the opposite of what's claimed.

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I disagree here SIR.Why left to right precedence doesn't matter here? –  shekhar suman Jun 29 '14 at 22:22
@shekharsuman: Why do you think it matters? –  Oliver Charlesworth Jun 29 '14 at 22:22
The GNU quote isn't misleading, it simply isn't using standardese. It's using "unary operator" in its ordinary English meaning, where it means "operator with a single operand". –  hvd Jun 29 '14 at 22:23
@hvd: Perhaps. But the stuff about "right to left" is simply not the reason. –  Oliver Charlesworth Jun 29 '14 at 22:23
@JohannesSchaub-litb: Of course not! I'm saying that "right to left" is a coincidence of the way the grammar is defined, not something that's explicit. Postfix operators have higher precedence, and are necessarily on the right; thus by coincidence, it's as if the whole thing is evaluated right-to-left. –  Oliver Charlesworth Jun 29 '14 at 22:32

Saying that postfix and unary operators are right-associative (bind right to left) is just another way to express the fact that postfix operators have higher precedence in C than unary operators.

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Is it? Precedence and associativity are largely orthogonal, right? –  Oliver Charlesworth Jun 29 '14 at 22:30
@OliCharlesworth For binary operators, sure, it's a bit more complicated than this answer suggests, but for unary operators (and this question is about two unary operators), the effect is exactly the same. –  hvd Jun 29 '14 at 22:34
@hvd: But the postfix operators themselves are effectively left-to-right; p++[5] means (p++)[5]. –  Oliver Charlesworth Jun 29 '14 at 22:42
@abc: Take a * b - c - d as an example. Precedence explains why it's interpreted as (a * b) - c - d. Associativity explains why that is then interpreted as ((a * b) - c) - d (instead of (a * b) - (c - d)). The two are separate concepts. –  Oliver Charlesworth Jun 29 '14 at 22:44
@abc: Yes, agreed. –  Oliver Charlesworth Jun 29 '14 at 22:52

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