# Why is the integer not incremented in this code?

Can anyone explain what I'm doing wrong here to not get 11 as my output?

``````void foo {
int *n = malloc(sizeof(int));
*n = 10;
n++;
printf("%d", *n)
}
``````
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you're also leaking the pointer. –  Stephen Jun 19 '10 at 2:06
@Stephen, not only leaking the pointer but doing it in a sort of interesting way. :) –  BobbyShaftoe Jun 19 '10 at 4:29
Well, `n++` is defined as it's just past the end of an allocated object, so you could do `n--` and get the pointer back. –  Artelius Jun 20 '10 at 7:37

`n++` increments the pointer `n`, not the integer pointed to by `n`. To increment the integer, you need to dereference the pointer and then increment the result of that:

``````(*n)++;
``````
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Suggest you change the wording slightly: "To dereference the integer" -> "To increment the integer" –  Matt Curtis Jun 19 '10 at 2:15
@Matt: Yes; I just saw that. There must have been a bus error between my brain and fingers. :-) Thanks. –  James McNellis Jun 19 '10 at 2:15

If we call the malloc'ed variable `x`, then your program does this:

``````                                      n     x
int *n = malloc(sizeof(int));        &x     ?
*n = 10;                             &x    10
n++;                                &x+1   10
``````

You want to do this:

``````                                      n     x
int *n = malloc(sizeof(int));        &x     ?
*n = 10;                             &x    10
(*n)++;                              &x    11
``````
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`++` has higher precedence than the unary `*`, so parentheses are needed in order to perform the dereference before the increment. –  James McNellis Jun 19 '10 at 1:58
@James: K&R says the same precedence, but associativity right-to-left, so parentheses still needed. –  dmckee Jun 19 '10 at 2:02
Of course it is. Edit reflects this. –  Artelius Jun 19 '10 at 2:02
@dmckee: The postfix `++` has higher precedence than both the prefix `++` and unary `*` (the prefix `++` and unary `*` have the same precedence, as you say). –  James McNellis Jun 19 '10 at 2:06
+1 for the nice illustration –  Matt Curtis Jun 19 '10 at 2:14
show 2 more comments

You set n[0] to 10, and then you print n[1]. malloc() does not initialize the memory that it gives you, so what gets printed is unpredictable - it's whatever garbage happened to be in n[1].

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Except, of course, that there is no `n[1]`, so you are reading from beyond the end of the allocated memory, the behavior of which is undefined. –  James McNellis Jun 19 '10 at 2:53
Absolutely right! I hadn't noticed that he used malloc to allocate a single int. –  rettops Jun 19 '10 at 3:25

You can get 11 as your output with this code:

``````void foo {
int *n = malloc(sizeof(int));
*n = 10;
(*n)++;
printf("%d", *n)
}
``````
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