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I have a unsigned char pointer which contains a structure.Now I want to do the following

unsigned char buffer[24];

//code to fill the buffer with the relevant information.

int len = ntohs((record_t*)buffer->len);

where record_t structure contains a field called len.I am not able to do so and am getting the error.

error: request for member ‘len’ in something not a structure or union.

Then I tried:

int len = ntohs(((record_t*)buffer)->len);

so as to get the operator precedence right.that gave me the warning. dereferencing type-punned pointer will break strict-aliasing rulesd.

then I declared

record_t *rec = null;

rec = (record_t*)

what am I doing wrong here?

share|improve this question
What are your compiler options? Also, focus on the problem at hand, and don't tell us about previous syntax errors you encountered. –  Kerrek SB Oct 3 '11 at 0:26
In C, it's NULL, not null. –  Chris Lutz Oct 3 '11 at 1:01

4 Answers 4

up vote 10 down vote accepted

According to the C and C++ standards, it is undefined behaviour to access a variable of a given type through a pointer to another type. Example:

int a;
float * p = (float*)&a;  // #1
float b = *p;            // #2

Here #2 causes undefined behaviour. The assignment at #1 is called "type punning". The term "aliasing" refers to the idea that several different pointer variables may be pointing at the same data -- in this case, p aliases the data a. Legal aliasing is a problem for optimization (which is one of the main reasons for Fortran's superior performance in certain situations), but what we have here is flat-out illegal aliasing.

Your situation is no different; you're accessing data at buffer through a pointer to a different type (i.e. a pointer that isn't char *). This is simply not allowed.

The upshot is: You should never have had data at buffer in the first place.

But how to solve it? Make sure you have a valid pointer! There is one exception to type punning, namely accessing data through a pointer to char, which is allowed. So we can write this:

record_t data;
record_t * p = &data;          // good pointer
char * buffer = (char*)&data;  // this is allowed!

return p->len;                 // access through correct pointer!

The crucial difference is that we store the real data in a variable of the correct type, and only after having allocated that variable do we treat the variable as an array of chars (which is allowed). The moral here is that the character array always comes second, and the real data type comes first.

share|improve this answer
+1 for not just telling OP what's wrong but showing the right way to do this! –  R.. Oct 3 '11 at 3:21
No, no, you are exagerating and missing the point. Accessing an object through another type may be undefined behavior, if this results e.g in a trap representation or misalignment, but it mustn't necessarily. The point of aliasing is completely different. This is because the standard allows the compiler to assume that pointers of different type will not alias each other and that he may thus perform more agressif optimizations, which then can go wrong if in reallity these point to the same object. –  Jens Gustedt Oct 3 '11 at 6:39
@JensGustedt: I don't think alignment plays a role in the rules. You can cast back and forth, that's OK (like T * p = &x; S * q = (S*)p; T * r = (T*)q; T y = *r;), but otherwise it's just undefined behaviour (which may behave as expected). Aliasing is a broad concept (e.g. consider the "vector adder" add(float * a, float * b, float * c) where it's useful to know if a or b alias c), but the "strict aliasing rule" says that pointers of different types can never alias one another. –  Kerrek SB Oct 3 '11 at 10:16

You're getting that warning because you're breaking strict-aliasing by having two pointers of different types pointing to the same location.

One way to get around that is to use unions:

    unsigned char buffer[24];
    record_t record_part;

//code to fill the buffer with the relavent information.

int len = ntohs(record_part.len);


Strictly speaking, this isn't much safer than your original code, but it doesn't violate strict-aliasing.

share|improve this answer
Accessing a union out of order is undefined behaviour. You're not "getting around" anything (but a direct route to the grave). –  Kerrek SB Oct 3 '11 at 0:34
@Kerrek SB: Can you explain what you mean by the "out-of-order"? Yes I know that the union approach is also undefined, but that's the case with the original code as well. –  Mysticial Oct 3 '11 at 0:37
It's only allowed to read the same union member that was last written to. Reading a different member would almost certainly be necessary for your solution, though. There's no way to weasel around invalid type punning; you really have to start with a variable of the correct type (see my answer). –  Kerrek SB Oct 3 '11 at 0:40
@Mystical, it should probably be: int len = ntohs(record_part.len); –  Jim Rhodes Oct 3 '11 at 0:41
@AndreyT - C99 TC3 makes it legal to perform type-punning with unions. (I can't cite it, but check stackoverflow.com/questions/7411233/… for some people who agree with me.) –  Chris Lutz Oct 3 '11 at 1:22

You might try this:

unsigned char buffer[sizeof(record_t)];
record_t rec;
int len;

// code to fill in buffer goes here...

memcpy(&rec, buffer, sizeof(rec));
len = ntohs(rec.len);
share|improve this answer
This is actually the correct way to do it (casts to void * are unnecessary though). The proper way to reinterpret data of one type as data of another type is to copy that data between objects by using memcpy (instead of direct pointer-based reinterpretation or union-based reinterpretation). –  AnT Oct 3 '11 at 1:17
I agree this is correct (and I gave it a +1), but it would be better never to use unsigned char[] to begin with and read the data directly into a variable of the right type. –  R.. Oct 3 '11 at 3:24

You probably have a warning level set that includes strict aliasing warnings (it used to not be default, but at one point gcc flipped the default). try -Wno-strict-aliasing or -fno-strict-aliasing -- then gcc should not generate the warnings

A reasonably good explanation (based on cursory glance) is What is the strict aliasing rule?

share|improve this answer
Warning or not, the OP's code is possibly undefined behaviour, and that shouldn't be ignored. –  Kerrek SB Oct 3 '11 at 0:34
I'm debating whether to -1 this. Giving OP advice on how to disable warnings for dangerous UB and add options to let the code with UB work "as expected" seems non-constructive. Especially since the code also has other UB due to alignment issues which are not being caught and will not be solved by the options. It will happily work on x86 and then crash later on other archs... –  R.. Oct 3 '11 at 3:23
@R. There are many idioms which explicitly use this behavior (especially in networking code), and for a long time gcc disabled the warning by default specifically so that networking code wouldn't yield a slew of warnings :) Given that we are talking about networking code (assumed based on the ntohs call), it makes sense to at least mention this fact. –  Foo Bah Oct 3 '11 at 4:01
As I've pointed out, such code is almost surely wrong for reasons gcc cannot work around: misalignment. Reading into a char buffer then trying to interpret that buffer as another type is just fundamentally wrong, and it shows that the author of the code does not understand how to pass a void pointer to the actual object of the proper type to read/recv (or in the case of larger buffering, how to use memcpy...) –  R.. Oct 3 '11 at 4:46
+1 because you give a link explaining what is going on –  Jens Gustedt Oct 3 '11 at 6:42

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