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I'm trying to declare a C++ variable that takes up zero bytes. Its in a union, and I started with the type as int[0]. I don't know if that is actually zero bytes (although sizeof(int[0]) was 0). I need a better way to declare a 0 byte type, and hopefully one that can be typedefed to something like nullType or emptyType. The variable is in a union, so in the end memory is reserved anyway. I tried void on the off chance it would work, but C++ complained. I'm using Ubuntu 10.10, with a current version of the kernel, and an up-to-date GCC. Here's the union:

union RandomArgumentTypesFirst
    uint uintVal;
    nullType nullVal;

And here is the typedef:

typedef int[0] nullType;

The compiler says this about the typedef:

error: variable or field ‘nullVal’ declared voidmake[2]:

When I typed in int[0], it worked. Any suggestions?

EDIT: As @fefe said in the comments, the int[0] may be provided as an extension by the compiler. GCC's website says that the compiler has many extensions by default.

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Please post your code that you have – Adrian Cornish Nov 25 '11 at 16:13
Types don't take any bytes, instances of types do. What are you trying to accomplish? – Eric J. Nov 25 '11 at 16:15
I'm trying to standradize the function signatures of a set of functions using unions. I have a blog post on it here: Mining for PotatoGems--C++ Unions and Function Pointers – Linuxios Nov 25 '11 at 17:05

5 Answers 5

up vote 3 down vote accepted

The typedef is misspelled:

typedef int nullType[0];

As others have pointed out, you cannot have an object of size 0; However, compilers can (and frequently do) provide the Empty Base Class optimization.

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Thanks for the help with the typedef!! – Linuxios Nov 25 '11 at 16:30

The standard explicitly prohibits the existence of an instance of a type with size 0, the reason is that if an object could have size 0, then two different objects could be located at the exact same address. An empty struct, for example, will be forced to have size > 0 to comply with that requirement even if when used as base of a different type, the compiler can have it have size == 0.

What is it that you want to do with an empty class?

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precisely. apart from the syntax confusion, there is no use for null-sized type, really :) – sehe Nov 25 '11 at 16:21
I'm using unions to standardize function signatures. Because some of the functions I'm working with don't take a third argument, but others take an int, or int*, I've created a union of all the third argument types. I want the function that doesn't take a third argument to take this null type so it can not receive data through it. – Linuxios Nov 25 '11 at 16:29 So basically you are working your way into breaking type safety but in doing so you want to also use some features not defined in the language? – David Rodríguez - dribeas Nov 26 '11 at 0:24
Basically. But I suggest you read the blog post above--it will clarify what I mean. I'm not just bypassing type-safety for the heck of it, I'm trying to do something fancy with function pointers. Read the post above. – Linuxios Nov 26 '11 at 19:53 I have read the article, and I still find that it breaks type safety and don't like it. How do you know after calling such a function pointer whether the result can be found in the returned object or in the last argument (as per the example in the article)? I would hate to see that in production code (I would actually remove that from production code) there are other alternatives that can be done (type erasure on the function pointer, as to provide a unique signature, for example) – David Rodríguez - dribeas Nov 27 '11 at 10:35

You cannot instantiate any data type in C++ that takes up zero bytes. The Standard dictates than an empty class, such as:

class Empty {};

...will result in the following being true:

Empty emp;
assert( sizeof(emp) != 0 );

The reason for this is so that you can take the address of the object.

EDIT: I originally said the sizeof would be 1, but per @Als' comment, I have found the relevant passage in the Standard, and it is indeed simply non-zero:

[Classes] §9/3

Complete objects and member subobjects of class type shall have nonzero size

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Standard only dictates that an empty class shall have non zero size. – Alok Save Nov 25 '11 at 16:21
I'm looking for the reference. I thought it said specifically one. – John Dibling Nov 25 '11 at 16:25
@Als: do you happen to have the reference at hand? – John Dibling Nov 25 '11 at 16:26
\@JohnDibling: I don't have reference, but @Als is right. – Nawaz Nov 25 '11 at 16:27
@Als: Found it, please see my edit. – John Dibling Nov 25 '11 at 16:29

A variable in C++ can never take zero bytes. Every object must have unique address, which is not possible if the size is zero.

By the way,int[0] is illegal in Standard C++. If you're using GCC, compile it with -pedantic option, you will get this warning:

warning: ISO C++ forbids zero-size array 'x' [-pedantic]

Also, the syntax for typedef should be this:

  typedef int array[100]; //zero cannot be size - illegal!
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Really? GCC compiled it without a blink. Not a warning, nothing. I was compiling with C++11 on, so does that change anything? – Linuxios Nov 25 '11 at 16:30 Use -pedantic option. For example, g++ filename.cpp -pedantic. Then you will see warning. If you use g++ filename.cpp -pedantic -Werror, then you will see warning turned into error. – Nawaz Nov 25 '11 at 16:32
Ok. I'm just compiling with: g++ -o main *.cpp. – Linuxios Nov 25 '11 at 16:41
Also, it is possible that because my 'null' type is in a union that involves an unsigned int. That means that the union has 4 bytes allocated anyway, so GCC might just be seeing that knowing that there is addressable memory there anyway. – Linuxios Nov 25 '11 at 16:44

The C++ standard demands explicitly that every type have size at least 1. This is intimately tied to the requirement that each object have a unique address (consider Foo x[10] if Foo had size zero).

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