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I often found people use the array brackets [] and a normal vector function .at (). Why are there two separate methods? What are the benefits and disadvantages of both? I know that .at () is safer, but are there any situations where .at () cannot be used? And if .at () is always safer, why ever use array brackets [].

I searched around but couldn't find a similar question. If a questions like this already exists please forward me to it and I will delete this question.

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retagged; C and arrays are not relevant – tekknolagi Nov 22 '11 at 3:45
up vote 30 down vote accepted

std::vector::at() guards you against accessing array elements out of bounds by throwing an out_of_bounds exception unlike [] operator which does not warn or throw exceptions when accessing beyond the vector bounds.

std::vector is/was considered as an c++ replacement/construct for Variable Length Arrays(VLA) in c99. In order for c-style arrays to be easily replacable by std::vector it was needed that vectors provide a similar interface as that of an array, hence vector provides [] operator for accessing its elements. At the same time, C++ standards committee perhaps also felt the need for providing additional safety for std::vector over c-style arrays and hence they also provided std::Vector::at() method which provides it.

Naturally, at() method checks for the size of the vector before dereferncing it and that will be a little overhead(perhaps negligible in most use cases) over accessing elements by [], So std::vector provides you both the options to be safe or to be faster at expense of managing the safety yourself.

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Given that C99 was released after the STL, I do not see how std::vector has anything to do with VLAs. – John Zwinck Nov 22 '11 at 3:55
@JohnZwinck: I believe they were already being supported as compiler extenstion before being formally accomodated in the C standard. – Alok Save Nov 22 '11 at 3:58
Thank You. It answered the question perfectly. – fdh Nov 22 '11 at 23:52

As others have mentioned, at() performs bounds checking and [] does not. Two reasons I can think of to prefer [] are:

  1. Cleaner syntax
  2. Performance. When looping through the elements of a vector, it is often overkill and very costly to perform bounds checking on every iteration.
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Indeed, for your second point, it is inefficient to perform bounds checking at all. If you know you're thread safe (not multi-threaded or inside CS) and you're not altering the vector inside the loop, the for (int i = 0; i < v.size(); i++) will never go out of bounds. No need to use at()! – Anthony Arnold Nov 22 '11 at 4:01



  • safe because exception is thrown if array out of bounds


  • slow access
  • more characters to type



  • fast access because of missing bounds checks
  • less characters to type
  • 'intuitive' array element access


  • unsafe because of missing bounds checks
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Personal Choice

The reason some people use the Subscript Operator is that they intuitive as a vector is similar to an array accessing the items this way is simply put 'Syntactic Sugar' meaning it makes it look nicer.

Some People prefer the [] others the .at(), its personal choice

The Technical Choice

Assuming ur talking about access only, the Function ( .at() ) does bounds checking and it throws an exception when you attempt to access an item beyond the bounds. The Function is 'safer' but if you are handling bounds checking yourself feel free to use the Subscript Operator

So really its up to you to choose which style of accessor you use

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You're correct .at() is safer because it will check array bounds. operator[] skips the check, and is undefined if you make an illegal access.

Traditional array access in C/C++ has never had array bounds checking, and back in the 90's before Java was introduced many felt that it would add unacceptable overhead. I believe that, in general, this is not true today, and it wasn't as true as many believed at the time either. I'm sure that there are cases where it matters, but in general you're better off starting safe and switching if you find a compelling need to do so.

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Less typing involved, code more clear. Also, refactoring to/from a C array comes naturally.

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I use STLPort 5.2. Seems at() does a range check.

reference at(size_type __n) { _M_range_check(__n); return (*this)[__n]; }

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