Consider the following
auto a = 10;
When does the compiler know that a is an int, at compile time or at run-time? If it deduces the type at run-time, will it not affect the performance?
asked Oct 27, 2013 at 13:47
5 Answers
Compile time. In C++, runtime type information is stripped during compilation(without RTTI or virtual inheritance). It is not possible, in fact, to inspect the primitive type at runtime.
answered Oct 27, 2013 at 13:52
I just wanted to add some things that the other answers didn't address.
- every declaration must have a known type at compile time so
autodoesn't get special treatment, it has to deduce the type at compile time. - You are sort of mis interpreting how
autoshould be used. Yes you can doauto i = 2;and it works fine. But a situation where you need auto is a lambda for example. A lambda does not have a namable type (although you can assign it to anstd::function). Another situation it is useful for is inside a class or function template it can be extremely difficult to figure out the type of certain operations (maybe sometimes impossible), for example when a function is called on a template type that function may return something different depending on the type given, with multiple types this can become essentially impossible to figure out which type it will return. You could of course just wrap the function in adecltypeto figure out the return but anautois much cleaner to write. - People also seem to use auto quite a bit for iterators because their types are quite a pain to write but I'm not so sure this is an intended primary use of
auto
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5:+1, I like your first and second point, but 3. code need to write while using iterator is clumsy, so it will defiantly make code more readable. Oct 28, 2013 at 10:50
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5and people were writing iterators incorrectly and/or avoiding them before auto. auto makes correct code easier to write Oct 30, 2013 at 5:58
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4Herb Sutter seems to think that it is ok to use
autofor convenience purposes in the article "elements of modern c++ style" Nov 4, 2013 at 8:40 -
3@daramarak not so sure I fully agree with that, why is
auto i = 2a good thing. Let's say you wanted it to be a long and you wrote that. Then you call a function with an overload for long and an overload for int. It will select the int overload which is wrong, and no warning will ever be issued– aaronmanNov 4, 2013 at 18:33 -
2On the point of point 3, I'll quote Bjarne directly from his book, TC++PL4, "Using auto, we avoid redundancy and writing long type names. This is especially important in generic programming where the exact type of an object can be hard for the programmer to know and the type names can be quite long". This address both concerns, that is 1) The intended purpose, which is when the type is unknown, and 2) A side benefit which is to circumvent long type names.– Chad MxMay 10, 2016 at 13:29
It's done completely at compile time, with no performance difference.
auto i = 2;
compiles the same as
int i = 2;
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6In other examples there might be a performance difference. auto is guaranteed never to do a type conversion, so it is always at least as fast, if not faster. Oct 31, 2013 at 18:03
The type of the variable declared auto is done at compile time, which means if you have the following snippet of code:
auto i = 10; // i is an integer
i = 3.14; // i is still an integer, will truncate to 3
Herb Sutter (The guy currently in charge of the C++ standardization committee) recommends to "Use auto wherever possible. It is useful for two reasons. First, most obviously it’s a convenience that lets us avoid repeating a type name that we already stated and the compiler already knows. Second, it’s more than just a convenience when a type has an unknown or unutterable name, such as the type of most lambda functions, that you couldn’t otherwise spell easily or at all." (see this post on his blog). The intended use of auto is to make things easier on the developer, so feel free to use it whenever it seems to fit.
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1There is a third situation you didn't describe: when the type changes but the code doesn't. This happens when we are developing functions for containers, since they frequently have similar or identical interfaces, so the code hardly changes, so, if we change the type, the code automatically adapts to those changes - no retyping. auto really helps developing in those situations.– FredOct 30, 2013 at 0:17
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I'm sure that Herb Sutter is "knowing what he does" concerning programming in C++. I'm convinced that the compiler deduces the correct type whenever I use
auto. However, I'm not convinced that I'm always knowing what the compiler deduces and whether it matches completely my expectation. Therefore I prevent the use ofautowhenever I'm able to. (I remember a time (though its decades ago) when explicity of source code was counted as modern and improvement.) Oct 23, 2017 at 15:52 -
Having slept a night over this I awoke in the morning and suddenly realized: I became an old-fashioned type-writer... Oct 24, 2017 at 5:25
C++ is a statically typed language. Types cannot be determined at runtime. The type of every expression must be known at compile time. Even when a variable is declared auto, its type is fixed at compile time.
candc++are statically typed. All types must be known at compile-time.autocould not require run-time type checking, as it is part ofc++.dynamic_cast<>typeidanddynamic_cast<>.