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I had an array


It tried to access


and program did not do anything until I realized when I switched to vectors. Somewhere I read that if I use [] then program would not give any runtime error again so that I should use std::vector's at. But in my program I just used [] and it helped me to spot the problem. It seems [] is enough. Am I right? Also, is there any bound check for arrays for safety?

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2 Answers

up vote 8 down vote accepted

Some implementations of the C++ library have a debug mode that will throw an exception even when you use the [] syntax, but this is not specified by the standard. So that may be what you experienced. If you want to be sure you should use at().

C++ doesn't have bounds checking for primitive arrays, however if your compiler supports the newest version of C++ then you can use std::array instead of primitive arrays, and this container has an at() method just like std::vector.

I'd recommend using std::array even if you don't want this feature because primitive arrays have some other problems (e.g. they decay to pointers at the drop of a hat). std::array behaves much more consistently (e.g. you can pass them by value to functions or return them and they'll work correctly whereas writing the obvious syntax to pass an array by value will fail and will instead just pass a pointer).

Do yourself a favor and never use primitive arrays.

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Does at() makes code slower because of some checks? Also, I cannot use std::vector because of lack of memory available. So, what is the size of std::array compared with raw array? One more thing, could std::array be used for dynamic allocation? –  Shibli Jan 8 '12 at 12:19
The extra bounds check would indeed slow things down a tad. Not enough to justify not using it when you need it, of course. :) And if the compiler can figure out that the index will always be within the bounds of the container, a really smart optimizer could conceivably optimize that check away in some cases. But if you already know that yourself, then [] is safe and .at() is overkill. –  cHao Jan 8 '12 at 12:28
OK. What about the dynamic allocation for std::array. Here I don't mean I will change its size dynamically but its size will be determined at runtime only one time. –  Shibli Jan 8 '12 at 12:37
@Shibli: std::array doesn't use dynamic allocation; if you want that just use std::vector. –  Philipp Jan 8 '12 at 12:45
@Shibil, the size of an std::array is always specified at compile time, just like a primitive array. std::array <int,5> my_array. See how the 5 is inside the <>, this makes it compile-time information. An std::array behaves very similarly to a primitive array in every way except that its a bit better and safer. –  Aaron McDaid Jan 8 '12 at 15:23
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the at() function signals if the requested position is out of range by throwing an exception, and is therefore safer.

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