P0292R1 constexpr if has been included, on track for C++17. It seems useful (and can replace use of SFINAE), but a comment regarding static_assert being ill-formed, no diagnostic required in the false branch scares me:

Disarming static_assert declarations in the non-taken branch of a
constexpr if is not proposed.

void f() {
  if constexpr (false)
    static_assert(false);   // ill-formed

template<class T>
void g() {
  if constexpr (false)
    static_assert(false);   // ill-formed; no 
               // diagnostic required for template definition

I take it that it's completely forbidden to use static_assert inside constexpr if (at least the false / non-taken branch, but that in practice means it's not a safe or useful thing to do).

How does this come about from the standard text? I find no mentioning of static_assert in the proposal wording, and C++14 constexpr functions do allow static_assert (details at cppreference: constexpr).

Is it hiding in this new sentence (after 6.4.1) ? :

When a constexpr if statement appears in a templated entity, during an instantiation of the enclosing template or generic lambda, a discarded statement is not instantiated.

From there on, I assume that it is also forbidden, no diagnostic required, to call other constexpr (template) functions which somewhere down the call graph may call static_assert.

Bottom line:

If my understanding is correct, doesn't that put a quite hard limit on the safety and usefulness of constexpr if as we would have to know (from documentation or code inspection) about any use of static_assert? Are my worries misplaced?


This code compiles without warning (clang head 3.9.0) but is to my understanding ill-formed, no diagnostic required. Valid or not?

template< typename T>
constexpr void other_library_foo(){

template<class T>
void g() {
  if constexpr (false)

int main(){
  • 1
    It's ill-formed because the condition is false. Not because it's inside a constexpr if... – immibis Jul 11 '16 at 10:42
  • 3
    @immibis. It's clear that this is all about the non-taken branch, so I don't understand what you mean specifically. Care to elaborate and interpret in terms of the bottom line question? – Johan Lundberg Jul 11 '16 at 10:59
  • 3
    @cpplearner, Done that, but it does not add add much. The question is about what the standard say and its implications. – Johan Lundberg Jul 11 '16 at 11:51
  • 1
    Currently there's no standard or draft standard that contains the wording for if constexpr, and P0292R2, the paper that got accepted, is also not publicly available yet. – cpplearner Jul 11 '16 at 12:36
  • 1
    @immibis: "But constexpr if(false) removes the code inside it." That's the thing: it doesn't remove the code inside the not taken branch. It makes them into discarded statements. There's a difference. – Nicol Bolas Jul 11 '16 at 14:05
up vote 21 down vote accepted

This is talking about a well-established rule for templates - the same rule that allows compilers to diagnose template<class> void f() { return 1; }. [temp.res]/8 with the new change bolded:

The program is ill-formed, no diagnostic required, if:

  • no valid specialization can be generated for a template or a substatement of a constexpr if statement ([stmt.if]) within a template and the template is not instantiated, or
  • [...]

No valid specialization can be generated for a template containing static_assert whose condition is nondependent and evaluates to false, so the program is ill-formed NDR.

static_asserts with a dependent condition that can evaluate to true for at least one type are not affected.

  • Thank you especially for the draft link. It makes sense as evaluating invalid templates can be arbitrarily hard. – Johan Lundberg Jul 12 '16 at 6:34
  • Thanks again. Accepted. It's worth noting that the lines you quoted are in the original proposal I linked to, but I missed them. – Johan Lundberg Jul 12 '16 at 19:42
  • Helper to make false template parameter dependet:template < typename > constexpr bool false_c = false; – Benjamin Buch Jun 16 '17 at 20:47
  • However, and I don't know if that is a compiler bug or what is it, but, I had a function which different if constexpr statements that does depend on the template, and a static_assert(false) in the last else case. Since the static_assert won't be evaluated unless the other if constexpr statements fails, and thus, since the evaluation of the static_assert depends (indirectly) on the type, I think the code shouldn't be ill-formed, because there's "possible inputs" that doesn't trigger the static_assert. – Peregring-lk Oct 27 '17 at 3:58

Edit: I'm keeping this self-answer with examples and more detailed explanations of the misunderstandings that lead to this questions. The short answer by T.C. is strictly enough.

After rereading the proposal and on static_assert in the current draft, and I conclude that my worries were misguided. First of all, the emphasis here should be on template definition.

ill-formed; no diagnostic required for template definition

If a template is instantiated, any static_assert fire as expected. This presumably plays well with the statement I quoted:

... a discarded statement is not instantiated.

This is a bit vague to me, but I conclude that it means that templates occurring in the discarded statement will not be instantiated. Other code however must be syntactically valid. A static_assert(F), [where F is false, either literally or a constexpr value] inside a discarded if constexpr clause will thus still 'bite' when the template containing the static_assert is instantiated. Or (not required, at the mercy of the compiler) already at declaration if it's known to always be false.

Examples: (live demo)

#include <type_traits>

template< typename T>
constexpr void some_library_foo(){

template< typename T>
constexpr void other_library_bar(){

template< typename T>
constexpr void buzz(){
    // This template is ill-formated, (invalid) no diagnostic required,
    // since there are no T which could make it valid. (As also mentioned
    // in the answer by T.C.).
    // That also means that neither of these are required to fire, but
    // clang does (and very likely all compilers for similar cases), at
    // least when buzz is instantiated.
    static_assert(! std::is_same<T,T>::value);
    static_assert(false); // does fire already at declaration
                          // with latest version of clang

template<class T, bool IntCase>
void g() {
  if constexpr (IntCase){

    // Both two static asserts will fire even though within if constexpr:
    static_assert(!IntCase) ;  // ill-formated diagnostic required if 
                              // IntCase is true
    static_assert(IntCase) ; // ill-formated diagnostic required if 
                              // IntCase is false

    // However, don't do this:
    static_assert(false) ; // ill-formated, no diagnostic required, 
                           // for the same reasons as with buzz().

  } else {

int main(){

    //g<int,false>(); // ill-formated, diagnostic required
    //g<float,true>(); // ill-formated, diagnostic required

The standard text on static_assert is remarkably short. In standardese, it's a way to make the program ill-formed with diagnostic (as @immibis also pointed out):

7.6 ... If the value of the expression when so converted is true, the declaration has no effect. Otherwise, the program is ill-formed, and the resulting diagnostic message (1.4) shall include the text of the string-literal, if one is supplied ...

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