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I'm pretty new to C++, but I know you can't just use memory willy nilly like the std::string class seems to let you do. For instance:

std::string f = "asdf";
f += "fdsa";

How does the string class handle getting larger and smaller? I assume it allocates a default amount of memory and if it needs more, it news a larger block of memory and copies itself over to that. But wouldn't that be pretty inefficient to have to copy the whole string every time it needed to resize? I can't really think of another way it could be done (but obviously somebody did).

And for that matter, how do all the stdlib classes like vector, queue, stack, etc handle growing and shrinking so transparently?

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3 Answers 3

up vote 5 down vote accepted

Usually, there's a doubling algorithm. In other words, when it fills the current buffer, it allocates a new buffer that's twice as big, and then copies the current data over. This results in fewer allocate/copy operations than the alternative of growing by a single allocation block.

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Absolutely. There's no way to avoid this, although you could certainly minimize it by increasing the initial capacity. –  Steven Sudit Aug 24 '10 at 14:39
@Billy, it's also drilled into C# programmers' heads that they should use StringBuilder instead of String a lot of the time. –  Rob Kennedy Aug 24 '10 at 14:52
It need not be doubling, every other factor is also fine. Microsoft seems to prefer 1.5 for example, at least in their std::vector implementation. –  fredoverflow Aug 24 '10 at 14:53
@FredOverflow - Not every other factor is fine. 1.0000001, for example, would hardly be effective :p. But yes, factors such as 1.5 also provide reasonable efficiency. It comes down to trying to mitigate both memory overhead by keeping the load factor down, while also trying to avoid too many copies as they take time. It's a balancing act, like a lot of computing. –  Stephen Aug 24 '10 at 14:56
@Billy: Wrong Steven. :p –  Stephen Aug 24 '10 at 17:25

Your analysis is correct — it is inefficient to copy the string every time it needs to resize. That's why common advice discourages that use pattern. Use the string's reserve function to ask it to allocate enough memory for what you intend to store in it. Then further operations will fill that memory. (But if your hint turns out to be too small, the string will still grow automatically, too.)

Containers will also usually try to mitigate the effects of frequent re-allocation by allocating more memory than they need. A common algorithm is that when a string finds that it's out of space, it doubles its buffer size instead of just allocating the minimum required to hold the new value. If the string is being grown one character at a time, this doubling algorithm reduces the time complexity to amortized linear time (instead of quadratic time). It also reduces the program's susceptibility to memory fragmentation.

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Although I do not know the exact implementation of std::string, most data structures that need to handle dynamic memory growth do so by doing exactly what you say - allocate a default amount of memory, and if more is needed then create a bigger block and copy yourself over.

The way you get around the obvious inefficiency problem is to allocate more memory than you need. The ratio of used memory:total memory of a vector/string/list/etc is often called the load factor (also used for hash tables in a slightly different meaning). Usually it's a 1:2 ratio - that is, you assign twice the memory you need. When you run out of space, you assign a new amount of memory twice your current amount and use that. This means that over time, if you continue to add things to the vector/string/etc, you need to copy over the item less and less (as the memory creation is exponential, and your inserting of new items is of course linear), and so the time taken for this method of memory handling is not as large as you might think. By the principles of Amortized Analysis, you can then see that inserting m items into a vector/string/list using this method is only Big-Theta of m, not m2.

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I can't agree with the note, but the rest is quite good. –  Steven Sudit Aug 24 '10 at 16:02
@Steven - In which case I am torn. Above there are people claiming that C# copies a string after every movement, and it isn't generally seen as slow... But my theoretical mind of course goes "Argh! n^2! n^2! Argh!"... XD. I'll remove the note, I think. –  Stephen Aug 24 '10 at 16:42
C# string (or, rather, .NET System.String) is not directly comparable to std::string. In .NET 3.5, the closest thing was a StringBuilder, which was a mutable collection of characters that allowed in-place modification of a contiguous buffer. It also allowed creation of immutable snapshots using ToString(). In .NET 4.0, there's a class of the same name and general abilities, but its implementation is segmented, hence it has less in common with std::string. The key point is that, regardless, it's not seen as acceptable to simply append to a string repeatedly. –  Steven Sudit Aug 24 '10 at 18:01

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