I was looking at this question found here Template function overload for type containing a type

Where the OP user2079802 provided this code for his/her question:

I'm trying to do the following:

#include <iostream>
#include <vector>
#include <tuple>

template <typename T>
void f(T t) {
    std::cout << "1" << std::endl;

template <typename T, typename V>
void f(T<std::tuple<V>> t) {
    std::cout << "2" << std::endl;

int main() {
    f(std::list<double>{}); // should use first template
    f(std::vector<std::tuple<int>>{}); // should use second template

What is the simplest way to do this in C++14? I thought that I could sort of pattern match in this way but the compiler won't have it.

And songyuanyao provided this answer:

The template parameter T is used as a template-name, so it should be declared as template template parameter. e.g.

template <template <typename...> class T, typename V>
//        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
void f(T<std::tuple<V>> t) {
    std::cout << "2" << std::endl;


The answer that was provided did in fact fix the compilation errors and the code does run correctly. I'm asking a question about this code snippet for clarity. The OP was originally trying to pattern match the template types but had improper syntax for template template parameters. When I ran the answer through my IDE, Compiler & Debugger {MSVS 2017 CE} running on a 64bit Intel Windows 7 machine I happen to notice that in the OP's function calls in their main function:


That the 2nd function call is in fact calling the 1st function template and not the 2nd. This does raise a couple of questions:

  • Is this happening due to compiler optimizations?
  • Is this a result of overload resolution?
  • What is actually happening under the hood of the compiler when it is choosing to use the first function template over the 2nd?
  • Or is this a bug with MSVC compiler?
  • Eh, do you get the output "1 2"? Or do you draw this conclusion "the 2nd function call is in fact calling the 1st function template" from what you see in the debugger? – Daniel Jour Jun 13 '17 at 5:44
  • @DanielJour I'm getting a printed value of 1 instead of 2 so it is calling the 1st function and not the 2nd. – Francis Cugler Jun 13 '17 at 6:48
  • 2
    It is a bug in the MSVC compiler. – n.m. Jun 13 '17 at 6:58
  • 1
    @n.m. Check my answer to see that it is not in fact a bug in MSVC (yet) – AndyG Jun 13 '17 at 14:09

It's not actually a bug in the MSVC compiler. It's really a result of an ambiguity in the standard concerning default template parameters.

You see, std::vector actually has 2 template arguments: the type, and an allocator.

If you refactor the answer from that question to account for the allocator

template <typename T>
void f(T t) {
    std::cout << "1" << std::endl;

template <template <typename...> class T, typename V>
void f(T<std::tuple<V>, std::allocator<std::tuple<V>>> t) {
    std::cout << "2" << std::endl;

It will work properly in all compilers: msvc demo, gcc demo, clang demo.

Here's the original defect report (CWG 150)

P0522R0 has the latest discussion as of November 2016, where they propose that the kind of partial template matching you reference in songyuanyao's answer will be correct according to the standard.

The changes proposed in P0522R0 are being incorporated into the C++17 standard (draft N4296 was the one I checked). Until the standard is finalized and MSVC claims to have full C++17 support, I wouldn't call it a bug in the compiler. For now, they acknowledge that this specific proposal has not yet been incorporated into their compiler as of VS 2017.3 [P2] (source)

  • It's looks like a slightly different issue. The example in the report is rejected by the three major compilers while OP's code works as expected with g++ and clang++. Your proposed solution misses the point. The dea of using a parameter pack is that we don't want to know or care what other template parameters might be there. Your solution forces the programmer to know that T accepts two arguments, the second one being std::allocator<...> (we could write template<class,class>class T instead which works even in C++03). Fortunately it is easy to fix. – n.m. Jun 13 '17 at 15:19
  • @n.m. The explicit use of std::allocator was for demonstration purposes :-). As for it being a different issue than the report, I am inclined to (respectfully) disagree. OPs code does not work as expected in gcc with the C++14 option demo, whereas it does work properly with the C++17 option demo – AndyG Jun 13 '17 at 15:59
  • so the behaviour has changed between gcc 6 and 7 (I have only checked gcc 6). – n.m. Jun 13 '17 at 16:24
  • Thank you for the answer; it does give some good insight and the resources of the documents is a great help. I'll leave the question open for now to see if other answers are provided before I decide to accept your answer or not. – Francis Cugler Jun 13 '17 at 21:21
  • When I checked out the live code for all three compilers; all three prints out 2 with the added param for the std::allocator<>, and when I remove that 2nd param from the function definition and run the three different compilers both gcc and clang still print out 2 where msvc prints out 1. So it has come to my understanding that it is the manner in which each compiler tries to parse the source code and the documentations does show a proposal about the requirements for a template template parameter for the new standard. – Francis Cugler Jun 13 '17 at 21:28

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