struct x {
    char a[10];
    char b[20];
    int i;
    char *c;
    char *d[10];

I am filling this struct and then using the values. On the next iteration, I want to reset all the fields to 0 or null before I start reusing it.

How can I do that? Can I use memset or I have to go through all the members and then do it individually?

up vote 89 down vote accepted

Define a const static instance of the struct with the initial values and then simply assign this value to your variable whenever you want to reset it.

For example:

static const struct x EmptyStruct;

Here I am relying on static initialization to set my initial values, but you could use a struct initializer if you want different initial values.

Then, each time round the loop you can write:

myStructVariable = EmptyStruct;
  • @David Heffernan: is this better than using memset if I only want to reset everything to 0?? – hari Jul 31 '11 at 19:31
  • 7
    @hari I'd prefer this approch myself. Using memset makes me feel dirty. I prefer to let the compiler worry about memory layout wherever possible. Strictly speaking such use of memset is non-portable but in practice I'd be astounded if you ever compiled your code anywhere that mattered. So, you can likely use memset safely if you prefer it. – David Heffernan Jul 31 '11 at 19:33
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    @hari, it is conceptually better, as you provide a default initialization values (something like a object factory pattern.) – Diego Sevilla Jul 31 '11 at 19:34
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    @cnicutar I know this. Note that my answer recommends not using memset. Note also the comment about where I point out the non-portability of using memset as a means to assign null values. My previous comment just points out the reality that 0 bits invariably does correspond to floating point zeros. – David Heffernan Jul 31 '11 at 20:19
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    @kp11 citation please – David Heffernan Oct 15 '14 at 5:25

The way to do such a thing when you have modern C (C99) is to use a compound literal.

a = (const struct x){ 0 };

This is somewhat similar to David's solution, only that you don't have to worry to declare an the empty structure or whether to declare it static. If you use the const as I did, the compiler is free to allocate the compound literal statically in read-only storage if appropriate.

  • Does that create an instance of x on the stack to then copy it to a? For big structures/small stacks that could be a problem. – Étienne Jun 17 '14 at 11:37
  • Like all optimizations, this is completely compiler dependent, so you'd have to check what your compiler produces. "Usually" on modern compilers it doesn't, these can trace initializations very well and only do what is necessary, not more. (And don't think that such things are problems before you measure a real slow down. They usually aren't.) – Jens Gustedt Jun 17 '14 at 11:59
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    "missing initializer" warnings are really bogus. The C standard prescribes exactly what has to happen than, and forsees the { 0 } as the default initializer. Switch that warning off, it is spurious false alarm. – Jens Gustedt Apr 5 '15 at 16:00
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    @JensGustedt Does this typecasting really needed? Can't I write it like this? struct x a = (const){0}; – Patrick Feb 18 '17 at 14:11
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    @Patrick, although the syntax is similar this is not a cast but a "compound literal". And you are mixing up initialization and assignment. – Jens Gustedt Feb 18 '17 at 20:31

Better than all above is ever to use Standard C specification for struct initialization:

struct StructType structVar = {0};

Here are all bits zero (ever).

  • 11
    I don't think you can do that each time around a loop though – David Heffernan Jul 31 '11 at 19:35
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    This is indeed suppose to work. But unfortunately, gcc & g++ complain about it. gcc generates warnings, while g++ generate an error. I know that gcc & g++ are at fault on this (they are supposed to follow Standard C specification), but nonetheless, for good portability, it is mandatory to take such limitation in consideration. – Cyan Mar 10 '15 at 13:00
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    @Cyan You can use {} in C++. The gcc devs seem unsure whether C++ is supposed to support {0} and I'm not familiar with that part of the standard myself. – Matthew Read Mar 24 '15 at 16:37
  • @Matthew : Yes, actually, I ended up using memset(), because there were too many portability issues with {0} or {}. Not sure if the C & C++ standards are clear and in sync on this issue, but apparently, compilers are not. – Cyan Mar 25 '15 at 7:27
  • will this work in such a case? struct StructType structVar = malloc (sizeof(StructType)); structVar ={0} – Sam Thomas Jun 13 at 19:03

In C, it is a common idiom to zero out the memory for a struct using memset:

struct x myStruct;
memset(&myStruct, 0, sizeof(myStruct));

Technically speaking, I don't believe that this is portable because it assumes that the NULL pointer on a machine is represented by the integer value 0, but it's used widely because on most machines this is the case.

If you move from C to C++, be careful not to use this technique on every object. C++ only makes this legal on objects with no member functions and no inheritance.

  • 2
    The C standard states that NULL is always 0. If the machine is designed such that a predetermined invalid address is not literally 0, the compiler for that architecture must adjust during compilation. – Kevin M Aug 1 '11 at 5:42
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    @KevinM Yes, the symbol "0" always correspond to the the NULL pointer even if it is all-zero; but there is nothing the compiler can do if you set the bits to zero using memset. – Adrian Ratnapala Nov 30 '12 at 7:37

If you have a C99 compliant compiler, you can use

mystruct = (struct x){0};

otherwise you should do what David Heffernan wrote, i.e. declare:

struct x empty = {0};

And in the loop:

mystruct = empty;

You can use memset with the size of the struct:

struct x x_instance;
memset (&x_instance, 0, sizeof(x_instance));
  • 1
    I don't think the cast is necessary here. Is it? – templatetypedef Jul 31 '11 at 19:24
  • Well, I'm so used to C++ that... well, it will work also in C++, so I don't see it as a burden. – Diego Sevilla Jul 31 '11 at 19:25
  • Any pointer type is implicitly convertible to void*. – Marcus Borkenhagen Jul 31 '11 at 19:58
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    @Fritschy Except member function pointers. – Kevin M Aug 1 '11 at 6:06
  • Yeah, I wasn't specific enough. It's any pointer to cv qualified T can be converted to cv qualified void*. Any data pointer, function pointers are a different matter altogether. Kudos @Kevin – Marcus Borkenhagen Aug 1 '11 at 6:14

I believe you can just assign the empty set ({}) to your variable.

struct x instance;

for(i = 0; i < n; i++) {
    instance = {};
    /* Do Calculations */
 struct x myX;
 memset(&x, 0, sizeof(myX));
  • 3
    I think OP knows how to call memset, but rather the issue is whether or not doing so is wise – David Heffernan Jul 31 '11 at 19:47

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