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C++'s container vector, deque, ... provide the at(index) accessor function in addition to operator[index] to access container elements.

The difference between this member function and member operator function operator[] is that deque::at signals if the requested position is out of range by throwing an out_of_range exception.

I have never, ever needed this function in my code, as it never makes sense in my C++ code to access elements that are possibly out-of-range. The code is always written to access correct indexes (or produce a meaningful error/exception in case indexes can't be made to match.)

I would be interested in real world examples (possibly from some open source project, as that would add some context) where at() is used in production code.

Maybe someone can give an example of an algorithmic problem where using at() made sense.

Note: I have recently used it in some unit-test code, where adding index checking code wasn't considered worth the trouble and the out_of_range exception thrown by at() is considered enough info+context in case the test breaks.

Note: Regarding this answer by ildjarn - I do not want to start a discussion or comment war on this. I am interesting in "positive" finds, that is concrete examples where it has been used. Thank you.

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8 Answers 8

up vote 6 down vote accepted

One use case I've consistently found at() useful in is facilitating parsing of complex user input. For example, in analysing C++ code, I find myself moving along an array of lexical tokens as I check for grammatical constructs. The logic is often like "if this token is an Identifier and the next one is an Equals then it should be an assignment so scan ahead for a Semicolon token to establish the token range for the expression". Using at() in such code means you can easily express expectations at some offset from the current point, ala:

if (tokens.at(i) == Switch)
{
    if (tokens.at(++i) != Left_Parentheses)
        // throw or return to say input program's broken...
    if (tokens.at(++i) == ...)
        ...
}

You get an exception whenever you try to parse an invalid program. Incrementing the position happens in so many places throughout the code that reverifying the size continually would be a nightmare (verbose and extremely error prone), as in this kind of situation you only realise how much bigger the program needs to be to be valid as the grammatical rules are applied. Using at() here is concise, robust, intuitive, and reasonably performant compared to functional equivalent alternatives.

FWIW - a quick search of our production code (200k lines, most written before I joined the team) found a dozen uses of at().

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Excellent answer, thanks! I'd give +2 if I could :-) –  Martin Ba Apr 15 '11 at 7:55

Well, when you don't control the index being used (such as if it's passed in by a client of your code), you should either check it to see if it's in range manually, or use at to get an exception reported (which you can capture and notify the caller with your own error reporting or simply propagate the standard exception upwards).

In other words, it's the responsibility of the called function to check input parameters but whether it does this explicitly with an if statement or implicitly by using at instead of [] is a matter for debate. If all I'm going to do is throw an out_of_range exception anyway (if the passed in index is greater than or equal to the size of the collection), I think I'll just let at do it and save myself some coding.

Passing back bad data silently is almost never the best solution. The trouble with simply passing back x[7] for a four-element integer deck is that the caller thinks it's a valid zero. That's not the case.

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3  
Input validation based on exception handling is a bad idea I think. Always check explicitly. –  musiKk Apr 13 '11 at 7:29
5  
I have to disagree with that, @musiKk. Validation is validation whether it's checked in your code or thrown from lower levels. I don't ignore exceptions from file operations then manually check the status flags after every operation - it's far easier just to catch ios_base::failure and isolate the error handling to the catch bit. –  paxdiablo Apr 13 '11 at 7:38
1  
@paxdiablo: Thanks for the general case, but note that your answer fails to provide a real-world usage example where you have seen it used or used it yourself. Have you ever used at() yourself to do input validation? –  Martin Ba Apr 13 '11 at 8:02
1  
@ildjarn: "throwing a potentially unhandled exception" - since when is the correctness of the caller a concern for the callee? If the callee is documented to throw, the caller needs to deal with it. –  MSalters Apr 13 '11 at 14:30
1  
@ildjarn: I responded specifically to the bit that I quoted. It's a misleading comment because it suggests that the callee is somehow obliged to take bugs in the caller into account. –  MSalters Apr 13 '11 at 22:26

In my opinion, at() is a 100% useless member function. Accessing only within the valid bounds of a standard library container is a precondition of using that container, and violations of any precondition should be handled with an assert rather than by throwing an exception. The existence of at() in no way helps a container maintain its preconditions/invariants, and in fact only confuses the issue by making proper bounds-checked access appear to not be a precondition.

I.e., throwing an exception for something that can ultimately only be caused by programmer error is beyond silly. See this thread for a more detailed explanation, specifically the posts by D. Abrahams; long though it may be, it's absolutely worth the read: comp.lang.c++.moderated: Exceptions.

EDIT: To clarify in response to the OP's added note, I'm saying that in my experience with C++ -- professionally, open-source, and otherwise -- I've never come across a use of standard containers' at(), and maintain that it is in fact not used in production code. Further comments or elaboration were merely to rationalize why I think that's the case.

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2  
+1 – 1000% agreed. –  Konrad Rudolph Apr 13 '11 at 7:26
2  
My point is that you don't know the ultimate source of the data coming into your function. It may be something the programmer got wrong, it may be a off-by-one error or there are many other reasons which should be caught by the programmer. There are also many other sources that the programmer has no control over (user, file, etc). However, the incompetence of the programmer using your code in no way absolves you of the responsibility of making your own code bulletproof. Whether that's done with checking or exception, I don't really care. But I don't think asserts are the answer here. –  paxdiablo Apr 13 '11 at 7:48
4  
I'm going to leave the discussion here since it's noising up the issue. My final point is simply that you should never assume your caller is passing valid data. Period. I'll shut up now :-) –  paxdiablo Apr 13 '11 at 8:08
2  
@paxdiablo : That much we can certainly agree on, if not how to deal with invalid data. ;-D –  ildjarn Apr 13 '11 at 8:09
7  
@ildjarn: I agree it's confusing, although only very slightly, C++ programmers need to be clever enough to remember these kinds of oddities. It's then a matter of coding style whether you choose to throw exceptions in situations where you can't access your vector because you don't have an in-bounds index. It's not morally finer, nor more maintainable, nor simpler, to write if ((i >= 0) and (i < vec.size()) return vec[i]; else throw out_of_rage(); than to write return vec.at(i);. So if you want an exception anyway, at is useful. If you don't, it isn't. –  Steve Jessop Apr 13 '11 at 8:51

My case would rather be: why not use it ?

Unless you are in a performance critical part of your application, you should always favor std::out_of_range against Undefined Behavior, at least that's my credo.

In practice, I generally transform all the code I am working on to use checked accesses. The performance penalty is invisible for most of the code, and at least I've got a nice report with information on the current context of execution (generated in the catch(std::exception const&) at the root level) rather than a memory corruption that makes my code fail some times later (or worse, looks like it worked).

I agree that input should be validated first and foremost, I agree that you should check your access beforehand... but just in case you've forgotten or had a bug, better have a at().

Using [] instead of at() is like carrying a loaded gun without/with (resp.) the security on in your pocket. You can forget to put it on, but willingly removing it ? That's insanity.

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1  
@Matthieu: excellent, you're the hypothetical C++ programmer I described in one of my comments :-) That said, given how C++ is the rest of the time I think a better analogy would be carrying 12 loaded guns in your pocket, and at() puts a safety on one of them. The others don't have safeties. I suspect that's why most C++ programmers don't worry too much about the 1, they figure if they make any sudden movements it honestly doesn't matter whether they get shot in the foot 11 times or 12 - they're going to avoid sudden movements. –  Steve Jessop Apr 13 '11 at 10:23
1  
If you're using any good implementation of the library, the undefined behavior is defined. To abort the program, which is what you want. If a precondition fails, you (usually) want to abort, without executing destructors. –  James Kanze Apr 13 '11 at 10:52
    
@James Kanze: yes and no. In case of undefined behavior, I want an abort because the state is unknown. If a precondition fails, it depends on the execution environment: in test, abort and give me a nice core dump; in production, warn the user (gently) that something went awry and log as much as possible. Not responding to the user is among the most frustrating experiences you can provide. –  Matthieu M. Apr 13 '11 at 11:26
1  
@Matthieu : Which platform are you on, that an exception (such as std::out_of_range) gives "a nice report with traceback"? If the exception is caught, and I think it is extremely likely to be caught, because it is a std::exception derived object, you normally got zero traceback information, and if the exception ain't caught, you're program is terminated, just as it very likely would be in case of invalid index access. –  Martin Ba Apr 13 '11 at 12:44
1  
@James: at is used on a per-case basis. You can decide to forgo it in a tight loop, for example. The compiler options affect the whole translation unit. And I would definitely be interested in knowing which compiler option you're talking about, I didn't know such existed (only knew about checked STL, but it's so slow it cannot be activated for production... and there is the binary compatibility issue) –  Matthieu M. Apr 15 '11 at 9:21

After a quick search, I found that, among others, Inkscape (the svg editor), Google v8, Android, Chromium, and Ogre used this function. This (rudimentary) list was taken from a simple google search, using the regular expression at\([0-9]+\).

Using \.at\([0-9a-z_]+\) instead of the previous expression gives more generic results, and adds OpenJdk and a wealth of sourceforge projects.

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+1 : Excellent search foo :-) –  Martin Ba Apr 13 '11 at 12:50
    
@Martin: Thanks =) (I've removed the leftover comments) –  Clément Apr 13 '11 at 13:28

v.at(-1) won't fail like v[-1] (you'll get an exception)

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I agree with many people here that at is mostly useless; however it might look better when working with pointers to (or lists of) containers:

std::vector<std::vector<int> >::iterator i;
for (i = v2.begin(); i != v2.end(); ++i)
{
    int x1 = (*i)[3]; // UGLY
    int x2 = i->at(3); // Looks OK
}

I think this code looks better when using at.

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Stroustrup recommends use of at at all places except when you are sure that the index will be inside the valid range.

He recommends that for code like the below one can use the [] operator.

for (int i = 0; i < v.size(); ++i)
{
    // use v[i] - we are sure it will be a valid index
}

In other cases, use at

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