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I know I can do new char[n] to create an array of n chars. This works even when n is not a compile time constant.

But lets say I wanted a size variable followed by n chars:

My first attempt at this is the following:

struct Test
  std::size_t size;
  char a[];

However it seems new Test[n] doesn't do what I expect, and instead allocates n sizes.

I've also found that sizeof(std::string) is 4 at ideone, so it seems it can allocate both the size and the char array in one block.

Is there a way I can achieve what I described (presumably what std::string already does)?

share|improve this question
If you are using VLAs this is not C++. OK, I see title has misled me. – David Heffernan Oct 3 '11 at 23:23
I think we have a serial downvoter on this question's answers... – Adam Maras Oct 3 '11 at 23:26
What about a vector? Or a string member? – Loki Astari Oct 3 '11 at 23:44
Easy enough to cook up your own class that allocates a dynamic array, but what's wrong with just using string or vector<char>? – Kerrek SB Oct 3 '11 at 23:58

While you can do this (and it was often used in C as a workaround of sorts) it's not recommended to do so. However, if that's really what you want to do... here's a way to do it with most compilers (including those that don't play nicely with C99 enhancements).

#define TEST_SIZE(x) (sizeof(Test) + (sizeof(char) * ((x) - 1)))

typedef struct tagTest
    size_t size;
    char a[1];
} Test;

int elements = 10; // or however many elements you want
Test *myTest = (Test *)malloc(TEST_SIZE(elements));

The C specifications prior to C99 do not allow a zero-length array within a structure. To work around this, an array with a single element is created, and one less than the requested element count is added to the size of the actual structure (the size and the first element) to create the intended size.

share|improve this answer
I'd sure love an explanation for the downvote. – Adam Maras Oct 3 '11 at 23:25
I could see how this would work in this case, but wouldn't this be an issue if change size_t with short, and char to long, resulting in all the longs being not aligned correctly (or alternatively, not allocating enough space)? – Clinton Oct 3 '11 at 23:33
Unless you use compiler directives to manually set the packing of the structure, if you had a short as a first member and defined the array as long, the compiler would start the short at byte 0 (through byte 1), skip bytes 2 through 7, and then start the long at byte 8 (keeping it properly aligned). Then, each long allocated/accessed after that would be on an 8-byte alignment. – Adam Maras Oct 3 '11 at 23:42
Adam: Ah yes, I see now. – Clinton Oct 3 '11 at 23:43
This works because sizeof(Test) will resolve to 8 (per my above comment) because the size of the structure will include the empty bytes used for alignment. If you tried to allocate using sizeof(short) + (sizeof(long) * x), you would inevitably allocate too little space. – Adam Maras Oct 3 '11 at 23:44

You can also use the "Length 1 Array" trick. This is in C:

struct Test {
    size_t size;
    char a[1];

int want_len = 2039;
struct Test *test = malloc(sizeof(struct Test) + (want_len - 1));
test->size = want_len;

GCC also supports "0 length" arrays for exactly this purpose:

share|improve this answer
This is known as the "struct hack". – Keith Thompson Oct 4 '11 at 3:38

You can use placement new:

#include <new>

struct Test {
    size_t size;
    char a[1];

    static Test* create(size_t size)
        char* buf = new char[sizeof(Test) + size - 1];
        return ::new (buf) Test(size); 

    Test(size_t s) : size(s)

    void destroy()
        delete[] (char*)this;

int main(int argc, char* argv[]) {
    Test* t = Test::create(23);
    // do whatever you want with t
share|improve this answer
Miguel: as you're allocating a char array with new, couldn't there be potential issues with alignment when you use it to store a Test? Is there anyway to force alignment on new? – Clinton Oct 4 '11 at 4:01
I don't think there will be any alignment problems. If the compiler inserts padding in the struct then sizeof() will report it, so the padding will be counted in the memory allocated with new. I think you could end up allocating a few extra bytes with this algorithm, but never less. – Miguel Oct 4 '11 at 4:17
@Clinton: new[] allocates storage properly aligned for any type with size equal or less than the requested size, so that's not an issue here. However, accessing an array index greater than or equal to its size is undefined behaviour. Make of that what you will. – R. Martinho Fernandes Oct 4 '11 at 13:05

Let's keep things short and sweet in C++ using std::vector.

struct Test
   std::size_t size;
   char *a;  // Modified to pointer

   Test( int size ): size(size), a(new char[size+1])

std::vector<Test> objects(numberOfObjectsRequired,argumentToTheConstructor);
share|improve this answer
Doesn't this allocate multiple sizes, not just one? – Clinton Oct 3 '11 at 23:27
Well, some one is on down voting spree. – Mahesh Oct 3 '11 at 23:28
sizeof(size) is always the same, so I don't think a(new sizeof(size)) is what you meant (even if you fixed the syntax). – ildjarn Oct 3 '11 at 23:35
@ildjarn - I see what you say. I just made such a simple foolish mistake. – Mahesh Oct 4 '11 at 2:05

If I understand correctly, you want a class that stores a single pointer to a dynamically allocated length-prefixed string. You can do that by taking advantage of the fact that char* can safely alias anything.

A simplistic implementation, just to show how it can be done:

class LPS
    char* ptr;

    LPS() noexcept : ptr(nullptr) {} // empty string without allocation
    explicit LPS(std::size_t len) {
        // Allocate everything in one go
        // new[] gives storage aligned for objects of the requested size or less
        ptr = new char[sizeof(std::size_t) + len];
        // Alias as size_t
        // This is fine because size_t and char have standard layout
        *reinterpret_cast<std::size_t*>(ptr) = len;
    explicit LPS(char const* sz) {
        std::size_t len = std::char_traits<char>::length(sz);
        ptr = new char[sizeof(std::size_t) + len;
        *reinterpret_cast<std::size_t*>(ptr) = len;
        std::copy(sz, sz + len, ptr + sizeof(std::size_t));
    LPS(LPS const& that) {
        if(that.ptr) {
            ptr = new char[sizeof(std::size_t) + that.size()];
            std::copy(that.ptr, that.ptr + sizeof(std::size_t) + that.size(), ptr);
        } else ptr = nullptr;
    LPS(LPS&& that) noexcept {
        ptr = that.ptr;
        that.ptr = nullptr;
    LPS& operator=(LPS that) {
        return *this;
    ~LPS() noexcept {
        // deleting a null pointer is harmless, no need to check
        delete ptr;
    void swap(LPS& that) noexcept {
        std::swap(ptr, that.ptr);
    std::size_t size() const noexcept {
         if(!ptr) return 0;
         return *reinterpret_cast<std::size_t const*>(ptr);
    char* string() noexcept {
         if(!ptr) return nullptr;
         // the real string starts after the size prefix
         return ptr + sizeof(std::size_t);
share|improve this answer
This doesn't address OP's concern about wanting to allocate the entire object in one heap area (as opposed to allocating an object on the heap that carries a pointer to another object on the heap, like most string classes.) – Adam Maras Oct 3 '11 at 23:59
@AdamMaras I think it does. The question reads "(...) it seems it can allocate both the size and the char array in one block.", which is exactly what this does. I'll let the OP decide. – R. Martinho Fernandes Oct 4 '11 at 0:13
@AdamMaras Don't allocate the object dynamically and suddenly there's only one layer of indirection. Like most string classes: who does std::unique_ptr<std::string>(new std::string)? – Luc Danton Oct 4 '11 at 3:56

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