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Say you have:

int f( const T a ) { ... }
int g( const T &a ) { ... }

I understand the use of const in g: we don't know how a is used outside the function, so we want to protect it from being modified. However I don't understand the use of const in f, where a is a local copy. Why do we need to protect it from being modified?

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marked as duplicate by Mark B, greatwolf, Borgleader, David Levesque, Loki Astari Sep 14 '13 at 1:54

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Because you make mistakes and because anyone reading it knows it isn't modified. –  chris Sep 14 '13 at 0:57

3 Answers 3

up vote 3 down vote accepted

I can think of a few reasons:

1) When someone reads the code and see const T a, they know that a should not be modified in the body of the function.

2) The compiler will tell you when you try to modify a in the body of the function. Therefore, adding const can prevent mistakes.

BTW chris already mentioned this in the comments.

3) However, there is another difference in C++11. A constant object cannot be moved from, as a move operation modifies the object. Therefore, you can only make a copy of a in the function body and cannot move from it.

4) Also, if this is a class type, you cannot call non-const members functions on a const object.

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Can you elaborate on the 3rd point? Why copy-constructor must be available? I can still move into the const function parameter, it's just that I cannot move const function parameter without const_cast inside the function. –  Petr Budnik Sep 14 '13 at 1:35
To illustrate my point: ideone.com/ko9Bd2 Or did I misunderstand you somehow? –  Petr Budnik Sep 14 '13 at 1:48
@PetrBudnik: I just updated, my wording was quite poor. Thanks. However, I think const_cast may cause undefined behavior if you try to use it. –  Jesse Good Sep 14 '13 at 1:52
+1 I think, I have to agree with you that using const_cast will cause UB in this case. The function parameter was declared const, the object is, indeed, constant. Thanks for pointing that out. –  Petr Budnik Sep 14 '13 at 2:10

"I personally tend to not use const except for reference and pointer parameters. For copied objects it doesn't really matter" If you are using const in function argument there may be one of the following reason. 1-it help the compiler to optimize things a bit. 2-no body can modified argument value in future(if many people working on same code base)

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Declaring variables const is a good practice.


For arguments passed by value to functions, it doesn't matter for the caller whether you declare it const or not. The rationale here is to protect yourself from mistakes while coding, using the compiler to warn you that you are changing the value of a variable, so that you can explicitly confirm this behavior by removing the const modifier. This applies not only to function parameters, but also to local variables.

Based on this rationale, I personaly always start out by declaring all variables const and let the compiler to issue errors when I modify them. Then I check if this behavior is intended and remove the const modifier if it is indeed needed. For better legibility I also always prefer to code in a way my variables are all const.

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