Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Have no idea about C++11 type inference

As I known, there are at least 3 type inferences in C++11:

  • template deduce
  • auto
  • decltype

But I can't build a concept model for them. It makes me confused.
That results in that I don't know what is right in subtle case.

In fact, I don't even know what my question is. But, I try:

I want to know how cv, & and && qualifiers affect the type inference.
I want to know what the difference is between the three kinds of type inference.

///The following extract from in n3242
template <class T> int f(T&&);
template <class T> int g(const T&&);
int i;
int n1 = f(i); // calls f<int&>(int&)
int n2 = f(0); // calls f<int>(int&&)
int n3 = g(i); // error: would call g<int>(const int&&), which
// would bind an rvalue reference to an lvalue

///The following extract from 8.3.2 in n3242
int i;
typedef int& LRI;
typedef int&& RRI;
LRI& r1 = i; // r1 has the type int&
const LRI& r2 = i; // r2 has the type int&
const LRI&& r3 = i; // r3 has the type int&
RRI& r4 = i; // r4 has the type int&
/*The following statement encounter compilation error in gcc 4.6:error message:
invalid initialization of reference of type int&& from expression of type int*/
RRI&& r5 = i; // r5 has the type int&&
decltype(r2)& r6 = i; // r6 has the type int&
decltype(r2)&& r7 = i; // r7 has the type int&

///The following is from some blog
int i;
decltype( i ) ==> int
decltype( (i) ) ==> int &
share|improve this question
What a pity... Does any one can give any hint? – Yuncy Aug 29 '11 at 2:01
"I even didn't known what my question is" Well, quite. – spraff Oct 4 '11 at 16:07
1 year member, 7 questions, 5 votes cast, 33% accepted and you really expect anyone to put in some effort? – pmr Oct 4 '11 at 16:15

Template deduction is in C++03

template <typename T> void foo(T) {}
int i;
float f;
foo (i); // deduces foo<int>
foo (f); // deduces foo<float>

Here the compiler sees foo(i) and says to itself "the T part of foo has to be an int for this to match".

auto is pretty simple.

int foo ();
float bar ();
auto i = foo (); // i is an int
auto f = bar (); // f is a float

The compiler sees auto i = and says to itself "well the right hand side yields an int so i will have to be one of those".

decltype is a bit more involved, a kind of meta-auto. decltype(x) is equivalent to int if x is an int, float if x is a float, etc. The advantage is that you can use it in template expressions.

int foo (float);
float foo (int);

template <typename T> void convert (std :: vector <T> input) {
    std :: vector <decltype (foo(input[0]))> output;
    output .push_back (foo (input [0])); // yeah, ok, not safe, meh

convert (std :: vector <int> ());   // Will create an output of type std::vector<float>
convert (std :: vector <float> ()); // Will create an output of type std::vector<int>

Here decltype (foo(input[0])) is float when input is a vector of int because input[0] is an int and the overload of foo which takes an int returns a float.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.