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I have seen code that uses arrays of strings in the following way.

string *pointer = new string[runtimeAmmount];

I have also seen the individual characters in a string accessed as follows.

string aString = "this";
char bString[] = "that";
bString[3] = aString[3];

The above would result in bString equaling "thas". This would suggest that a string is actually a pointer to the location of the first character. However a string still has member functions accessed as "string.c_str()" meaning it itself as an object does not follow the rules of a pointer. How does this all work?

Note: My original question was to be different but I figures it out typing it out. If someone could still answer my original question just for verification I would appreciate it. My original question is as follows: How can an array of strings be new'd if each string can vary in length throughout its lifetime? Wouldn't the strings run into each other?

The answer I came up with is: Strings contain pointers to C-style arrays in some way and so the objects take up a set amount of space.


Strings are something of the STL template variety which I have yet to actually take the time to look at.

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It's called operator overloading. –  Mehrdad Jul 3 '12 at 1:43
You can do that with dereferencing? I was unaware of that. –  user1497468 Jul 3 '12 at 1:44
I think of string as some sort of encapsulation that abstract away the dirty resizing operations while providing a similar interface as C string (char array) with operator overloading of []. –  nhahtdh Jul 3 '12 at 1:47
Yep, you can overload just about everything in C++. Can confuse the heck out of yourself doing it, and trying to figure out what's legal and why you're getting that stupid error message, but it's quite powerful. –  Hot Licks Jul 3 '12 at 1:47
That would explain a lot. Couldn't figure out how in the world string could both be at its own memory address yet also store a c-style array there. I suppose it is useful though with the problem that it appears to defy logic. Hmm it also appears as though I cannot up-vote comments... –  user1497468 Jul 3 '12 at 1:50
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3 Answers

up vote 5 down vote accepted

I will address what is happening in each of the 4 lines of code in your question, but first I should say that your conclusion is not accurate. You are being "fooled" by the operator overloading built into the string class. While it is likely that internally, the string class maintains a C-style character array, this is encapsulated and string is and should be treated as an opaque object, different from a C-style string.

Now for each of your lines:

string *pointer = new string[runtimeAmmount];

In this line, pointer is set to point to a newly-allocated array of (empty) string objects. runtimeAmmount is the number of strings in the array, not the number of characters in a C-style string.

string aString = "this";

This line constructs a new, empty string using the (non-explicit) conversion constructor from the string class: string(const char *). (Note that in a non-construction context, such as aString = "this";, the operator=(const char *) overload of the string class would be used.)

char bString[] = "that";

This is a typical C-string being treated as an array of characters.

bString[3] = aString[3];

This uses the overloaded operator[] of the string class to return a character (reference) and then assign it to the 3rd character spot in the C-style character array.

I hope this helps.

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Many thanks. Very good and thorough explanation. Will upvote when I get my 15 reputation. –  user1497468 Jul 3 '12 at 1:57
You can up vote now ;) –  Viet Jul 3 '12 at 2:58
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Your intuition is correct.

A string in C++ is an object, and can contain a pointer to some other storage. (They need not; google "small string optimization" if you want to see why not - but that's a diversion.)

If you think of a string as a struct that looks like this:

struct str {
   int len; // number of bytes allocated
   char *data; // pointer to the data

then you will be able to see how a string might work. Note that std::string is actually much more complicated than this; but this should get the idea across.

As for the templates, std::string is an instantiation of std::basic_string, specialized for char (as opposed to std::wstring, which is specialized for wchar_t)

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Many thanks. Will up-vote when I receive 15 rep. Only reason I picked another answer is because it was a little more in depth. Your help is however very much appreciated. (Yes I copy and pasted but that does not mean I liked your answer less. The other answer was first :P) –  user1497468 Jul 3 '12 at 2:00
std::wasting: now that's an interesting lapsus :D –  Matthieu M. Jul 3 '12 at 6:51
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When you do this:

string *pointer = new string[runtimeAmmount];

you are creating an array of string objects. Each is constructed with the string::string constructor, which can do anything it needs to do. In this case, the string has a pointer to memory which is initialized in the constructor. So your array is like an array of char* pointers, each of which is malloced individually.

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Many thanks. Will up-vote when I receive 15 rep. Only reason I picked another answer is because it was a little more in depth. Your help is however very much appreciated. –  user1497468 Jul 3 '12 at 2:00
add comment

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