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I was wondering out of curiosity if it is possible to cast a std::vector<> to a double pointer.

I've never had an issue passing a std::vector as a pointer in this fashion:

std::vector<char> myCharVector;
char *myCharPointer = &myCharVector[0];

So I was curious if it was possible to assign the address of the pointer in a similar way to this:

char *myPointer = "abc";
char **myDoublePointer = &myPointer; 

I've tried:

char **myDoublePointer = (char**)&myCharVector;

But it doesn't work. Is there any way of achieving this?

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Is this for anything more than curiosity? – Mehrdad Jul 3 '12 at 2:33
What error do you get for this line: char **myDoublePointer = (char**)&myCharVector; ? – weidi Jul 3 '12 at 2:34
@weidi there is no error – kbirk Jul 3 '12 at 2:37
@Pondwater Then what doesn't work as you said it doesn't work ? – weidi Jul 3 '12 at 2:41
up vote 6 down vote accepted

You already know that &myCharVector[0] is a pointer to char. So if you store it in a variable:

char *cstr = &myCharVector[0];

then you can take the address of that variable:

char **ptrToCstr = &cstr;

But simply dereferencing twice like this:

char **ptrToCstr = &(&myCharVector[0])

is invalid because the value (&myCharVector[0]) isn't stored in memory anywhere yet.

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Well it's certainly in memory, but it's an rvalue so taking its address is disallowed as a safety precaution. – GManNickG Jul 3 '12 at 4:15
Not necessarily, it might be in a register. – japreiss Jul 3 '12 at 15:29
Fair enough. To clarify my comment, it's not hard to have the compiler allocate temporary stack space for the temporary to allow its address to be taken. For example, given char*& to_lvalue(char*&& x) { return x; }, you could write char** ptrToCstr = &to_lvalue(&myCharVector[0]), but the pointer would be unusable after the statement, which is what I meant was the safety precaution. – GManNickG Jul 4 '12 at 2:24

You most definitely can't do this. std::vector and a char ** are completely different types of objects and you can't just "cast" one to another.

The reason you were able to do char *myCharPointer = &myCharVector[0] is that myCharVector[0] gives you a char, and thus &myCharVector[0] gives you the address of that char, which you can assign to a char *.

The only way you could convert a full std::vector into a char * (not char **) is to loop over your std::vector and construct a char * from the data manually.

For instance something like:

char *ptr = malloc(myCharVector.size()+1);
for (unsigned int i=0; i < myCharVector.size(); i++) {
  ptr[i] = myCharVector[i];
ptr[myCharVector.size()] = 0;

Then ptr will be a C string of chars.

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The first half is right, second half is not. – Ben Voigt Jul 3 '12 at 2:46
@BenVoigt, what do you mean? The part about converting to a char *? – houbysoft Jul 3 '12 at 2:47
The part about needing to make a copy of the vector in order to get a contiguous block (so that pointer subscripting works) is wrong. vector contents are guaranteed to be stored contiguously, so that &v[i] == i + &v[0] – Ben Voigt Jul 3 '12 at 3:01
@BenVoigt: yes, but that only works as long as the vector doesn't get modified, correct? – houbysoft Jul 3 '12 at 3:04
You do have to be careful about anything that invalidates iterators. Not all modifications do (Replacing elements, or removing elements, won't be a problem. Inserting will, unless you reserved space in advance.) – Ben Voigt Jul 3 '12 at 4:03

In C++11, you can do:

char *myCharPointer = myCharVector.data();

But you cannot take the address of the return value of data() because it does not return a reference to the underlying storage, just the pointer value.

If the purpose is to be able to change what the pointer is pointing to, then you may really want a pointer to a vector, rather than a pointer to a pointer to a char. But, the STL doesn't let you change the underlying pointer within the vector itself without going through the regular vector APIs (like resize or swap).

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