Since the auto
keyword gets the class type at compile time I was wondering if there is any efficency at all when using auto*
or if there is any particular use for that expression, because auto
will already get the pointer type when compiling.
4 Answers
None of this “newfangled C++11” has anything to do with efficient compilation, except in very odd corner cases. It’s all there to make it easier for humans to write and comprehend the code. auto*
makes it obvious that you have a pointer-typed value, and the compiler only uses it as an additional typecheck criterion, and will issue a diagnostic if the type is not a pointer type – your code is then malformed and it’s a hard error.
I don’t recall offhand if auto*
can ever participate as a disambiguator in type deduction, but if it did, that would be the technical reason to use it. Language lawyer, is there a language lawyer on board? :)
Most properly designed projects – even huge ones – should recompile quickly after changes, it’s a matter of proper partitioning of the code and having development builds that leverage such partitioning.
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Nothing in standardese, but basically I mean that if auto occurred in a context of type deduction and there was an ambiguity between just two types – a pointer- and a non-pointer one, then
auto*
could make the deduction succeed. But I have not thought much about it yet. Dec 29, 2018 at 16:27 -
Oh I get it. AFAIK that can only happen when
auto*
is used during overload resolution, as in a variable declaration you won't get any conversions. Dec 29, 2018 at 16:32
auto*
makes sense in only two cases I can think of.
1) you want to make it clear to the reader that they are dealing with a pointer variable.
2) you want a compile error if what you assign to the auto*
variable is not in fact a pointer.
Outside of those cases, the extra *
is redundant and plain auto
is just as good.
None of this has anything to do with efficiency btw. It doesn't change the final compiled code in the slightest.
There will be no noticeable compilation time differences between the two.
The main difference is a semantic one: if you say auto*
then if the return type is not a pointer, the compilation may fail earlier than using auto
which would fail later (perhaps even as late as the link stage with a more obtuse error message).
Taken from § 7.1.6.4 [dcl.spec.auto] of the C++ standard:
If the placeholder is the
auto
type-specifier, the deduced type is determined using the rules for template argument deduction.
[ Example:
const auto &i = expr;
The type of
i
is the deduced type of the parameteru
in the callf(expr)
of the following invented function template:template <class U> void f(const U& u);
— end example]
So there should not be a noticable performance impact if you do use auto*
as opposed to just auto
.
To answer the other question of whether auto*
will ever be different to auto
, consider the following:
template<class U>
void foo(U u);
template<class U>
void bar(U* u);
bar(expr)
could only be called if expr
is a pointer. And if expr
is a pointer, foo(expr)
will have U
be a pointer. So, auto a = expr
and auto* b = expr
will be equivalent in every case where expr
is a pointer. Where it is not a pointer, b
would make the program ill-formed, and a
would compile as normal.
So, no, there is no difference, except that auto*
forces the assignment to be a pointer.
const
and reference signifiers used with auto. IDK what adding a * would do (if anything).int x= 2; auto* i = x;
would not work.auto
is enough. Look at templates; the parameter can be replaced by any type:int, char, const bool, int*, int**, class user...
No need to add the*
.auto*
is more clear.