7

I want to create a union in which the biggest member is a 32 bit integer. This is what will be mainly written to. Then there are four 8 bit variables, probably char types that will each refer to a different section of the 32 bit integer kind of like:

   union {
   int32 myint;
   char char1 [7:0];
   char char2 [15:8];
   char char3 [23:16];
   char char4 [31:24];
   }

But I am not sure how to do this in C++.

8
  • 3
    Is this for C++ or C?
    – Tas
    Jan 11, 2016 at 23:07
  • 1
    Why char? Bitfields already are based on int. Jan 11, 2016 at 23:07
  • what I wrote is not correct C++. Could you elabore what you mean by bit field? Are you trying to say that if I use int for char1 to char4 then the above union is syntactically correct?
    – quantum231
    Jan 11, 2016 at 23:13
  • If I recall correctly, it is illegal to in c++ to assign to one member of an union and read from another. What exactly are you trying to achieve and are you writing c or c++ code? The rules for unions are different between the two languages
    – MikeMB
    Jan 11, 2016 at 23:35
  • MikeMB, my question was related to C++. In my understanding the rules should be the same between the two languages but since I am not an expert I accept what you are saying. Anyway, from the answers given below I have found my solution. Thanks.
    – quantum231
    Jan 11, 2016 at 23:38

4 Answers 4

8

This may work:

union {
   int32 myint;
   char chars[4];
};
1
  • 3
    While better than the accepted answer, char is problematic, as it is not defined to be an octet. Also it can be signed or unsigned. Jan 12, 2016 at 8:13
6

I didn't understand if you wanted one 32bits interger AND 4 8bits variables or one 32bits interger split in 4 8bits variables, but anyway you should try something like this :

union yourUnion {
    int32 yourInt;
    struct {
        int32 var1 : 8;
        int32 var2 : 8;
        int32 var3 : 8;
        int32 var4 : 8;
    } yourSplitInterger;
};

Hope it helps.

4
  • yes, I was going to split it up. This will be sufficient.
    – quantum231
    Jan 11, 2016 at 23:20
  • There is no guarantee the bitfields will be stored in a single int32. Also each field is signed. Jan 12, 2016 at 8:12
  • According to cppreference, bit fileds are usually packed together, so no, indeed, there is no guarantee they will be stored in a single int32 but I think it's the best practice for what OP wants to do. Also, I'm not sure the fact that the fields are signed really matters considering that OP will problably write char into those bit fileds.
    – Maxattak
    Jan 12, 2016 at 15:45
  • 1) please use @name to address a comment. Otherwise it likely goes unnoticed (like yours did) 2) "usually" is quite a weak foundation. 3) cppreference is not authoritative. There is a standard for both, C and C++. Much better basis. 3) No, it is not. Because the single fields will be signed now, which is very likely not what he wants. 4) Why not just use an array of uint8_t. That is guaranteed to have no padding. 5) All such approaches are still implementation dependent, as they do not respect endianess. Jan 12, 2016 at 18:35
5

You can use this:

union myUnion {
    int32   myint;
    struct {
        char char1;
        char char2;
        char char3;
        char char4;
    } myChars;
};

or with uint8_t:

union myUnion {
    uint32_t  myint;
    struct {
        uint8_t b1;
        uint8_t b2;
        uint8_t b3;
        uint8_t b4; // or number them in reverse order
    } myBytes;
};

See here.

2
  • 4
    : 8 is superfluous Jan 11, 2016 at 23:01
  • @CaptainObvlious - Euh.. yes of course - was thinking about bit fields.
    – Danny_ds
    Jan 11, 2016 at 23:04
2
union intBytes {
    int32   myInt;
    struct {
        char char1;
        char char2;
        char char3;
        char char4;
    };
    char charArray[4];
};

intBytes dummy;

Above you see that the struct wrapping char1-char4 is not assigned a name. This is called an anonymous struct. The members of an annonymous struct are directly accessible inside the scope sourrounding the struct.

Without the struct char1 - char4 would overlap inside the union and all would refer to the first byte of myInt. The annonymous struct ensures that char1 - char get layed out sequentially.

C has anonymous structs and unions. C++ (pre C++11) does NOT allow anonymous structs, only anonymous unions are defined. However, most C++ compilers (llvm, gcc) allow anonymous struct/unions.

Anonymous structs were added to C++ in C++11.

This allows you to access dummy.char4 while usually you would have to type dummy.nameOfCharStruct.char4. Since this is not standard conformant c++ (I believe it was changed in a post C++03 Standatd), you might be better of adding the name of the struct or using the array approach.

4
  • 1
    Anonymous structs and unions are part of the C standard. Not sure if C++ allows them, too. Jan 12, 2016 at 8:14
  • 1
    @Olaf: I guess 'C and most C++ Compilers' is to subtle, but some research shows that C++ does not allow anonymous structs while anonymous unions are ok. Here is a reference (I do not agree with all points though) stackoverflow.com/a/12785369/258418
    – ted
    Jan 12, 2016 at 14:59
  • I do not care about C++. For C, I provided a clear reference. But I would be careful with "most C compilers". There are still many C90-only or otherwise non-standard compilers, like MSVC. But any standard compliant C compiler has to support them. The standard lists both, anonymous structs and unions as a new featrure, so likely C99 did not support any (the linked answer seems to be wrong here; also note its date). gcc did support them for longer time as an extension, though. Jan 12, 2016 at 15:03
  • @Olaf: I hope the clarified answer removes any confusion
    – ted
    Jan 12, 2016 at 17:55

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