I have a struct with many members of the same type, like this

struct VariablePointers {
   VariablePtr active;
   VariablePtr wasactive;
   VariablePtr filename;

The problem is that if I forget to initialize one of the struct members (e.g. wasactive), like this:

VariablePointers{activePtr, filename}

The compiler will not complain about it, but I will have one object that is partially initialized. How can I prevent this kind of error? I could add a constructor, but it would duplicate the list of variable twice, so I have to type all of this thrice!

Please also add C++11 answers, if there's a solution for C++11 (currently I'm restricted to that version). More recent language standards are welcome too, though!

  • 5
    Typing a constructor doesn't sound so terrible. Unless you have too many members, in which case, maybe refactoring is in order. – Gonen I Feb 10 at 12:53
  • 1
    @Someprogrammerdude I think he means the error is that you can accidentally omit an initializing value – Gonen I Feb 10 at 12:56
  • 2
    @theWiseBro if you know how array/vector helps you should post an answer. Its not that obvious, I dont see it – idclev 463035818 Feb 10 at 12:57
  • 2
    @Someprogrammerdude But is it even a warning? Can't see it with VS2019. – acraig5075 Feb 10 at 13:01
  • 8
    There is a -Wmissing-field-initializers compilation flag. – Ron Feb 10 at 13:06

Here is a trick which triggers a linker error if a required initializer is missing:

struct init_required_t {
    template <class T>
    operator T() const; // Left undefined
} static const init_required;


struct Foo {
    int bar = init_required;

int main() {
    Foo f;


/tmp/ccxwN7Pn.o: In function `Foo::Foo()':
prog.cc:(.text._ZN3FooC2Ev[_ZN3FooC5Ev]+0x12): undefined reference to `init_required_t::operator int<int>() const'
collect2: error: ld returned 1 exit status


  • Prior to C++14, this prevents Foo from being an aggregate at all.
  • This technically relies on undefined behaviour (ODR violation), but should work on any sane platform.
  • You can delete the conversion operator and then it's a compiler error. – jrok Feb 10 at 13:12
  • @jrok yes, but it is one as soon as Foo is declared, even if you never actually call the operator. – Quentin Feb 10 at 13:19
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    @jrok But then it does not compile even if the initialization is provided. godbolt.org/z/yHZNq_ Addendum: For MSVC it works as you described: godbolt.org/z/uQSvDa Is this a bug? – n314159 Feb 10 at 13:21
  • Of course, silly me. – jrok Feb 10 at 13:24
  • 6
    Unfortunately, this trick doesn't work with C++11, since it will become a non-aggregate then :( I removed the C++11 tag, so your answer is viable aswell (please don't delete it), but a C++11 solution is still preferred, if possible. – Johannes Schaub - litb Feb 10 at 13:51

For clang and gcc you can compile with -Werror=missing-field-initializers that turns the warning on missing field initializers to an error. godbolt

Edit: For MSVC, there seems to be no warning emitted even at level /Wall, so I don't think it is possible to warn on missing initializers with this compiler. godbolt


Not an elegant and handy solution, I suppose... but should works also with C++11 and give a compile-time (not link-time) error.

The idea is to add in your struct an additional member, in last position, of a type without default initialization (and that cannot initialized with a value of type VariablePtr (or whatever is the type of preceding values)

By example

struct bar
   bar () = delete;

   template <typename T> 
   bar (T const &) = delete;

   bar (int) 
    { }

struct foo
   char a;
   char b;
   char c;

   bar sentinel;

This way you're forced to add all elements in your aggregate initialization list, included the value to explicit initialize the last value (a integer for sentinel, in the example) or you get a "call to deleted constructor of 'bar'" error.


foo f1 {'a', 'b', 'c', 1};

compile and

foo f2 {'a', 'b'};  // ERROR


Unfortunately also

foo f3 {'a', 'b', 'c'};  // ERROR

doesn't compile.

-- EDIT --

As pointed by MSalters (thanks) there is a defect (another defect) in my original example: a bar value could be initialized with a char value (that is convertible to int), so works the following initialization

foo f4 {'a', 'b', 'c', 'd'};

and this can be highly confusing.

To avoid this problem, I've added the following deleted template constructor

 template <typename T> 
 bar (T const &) = delete;

so the preceding f4 declaration gives a compilation error because the d value is intercepted by the template constructor that is deleted

  • Thanks, this is nice! It's not perfect as you mentioned, and also makes foo f; fail to compile, but maybe that's more of a feature than a flaw with this trick. Will accept if there's no better proposal than this. – Johannes Schaub - litb Feb 10 at 17:00
  • 1
    I would make the bar constructor accept a const nested class member called something like init_list_end for readability – Gonen I Feb 11 at 9:21
  • @GonenI - for readability you can accept an enum, and name init_list_end (o simply list_end) a value of that enum; but the readability add a lot of typewriting, so, given that the additional value is the weak point of this answer, I don't know if it's a good idea. – max66 Feb 11 at 11:16
  • Maybe add something like constexpr static int eol = 0; in the header of bar. test{a, b, c, eol} seems pretty readable to me. – n314159 Feb 11 at 12:28
  • @n314159 - well... become bar::eol; it's almost as pass an enum value; but I don't think it's important: the core of the answer is "add in your struct an additional member, in last position, of a type without default initialization"; the bar part is just a trivial example to show that the solution works; the exact "type without default initialization" should depend from circumstances (IMHO). – max66 Feb 11 at 13:46

For CppCoreCheck there's a rule for checking exactly that, if all members have been initialized and that can be turned from warning into an error - that is usually program-wide of course.


The rule you want to check is part of typesafety Type.6:

Type.6: Always initialize a member variable: always initialize, possibly using default constructors or default member initializers.


The simplest way is not to give the type of the members a no-arg constructor:

struct B
    B(int x) {}
struct A
    B a;
    B b;
    B c;

int main() {

        // A a1{ 1, 2 }; // will not compile 
        A a1{ 1, 2, 3 }; // will compile 

Another option: If your members are const & , you have to initialize all of them:

struct A {    const int& x;    const int& y;    const int& z; };

int main() {

//A a1{ 1,2 };  // will not compile 
A a2{ 1,2, 3 }; // compiles OK

If you can live with one dummy const & member, you can combine that with @max66's idea of a sentinel.

struct end_of_init_list {};

struct A {
    int x;
    int y;
    int z;
    const end_of_init_list& dummy;

    int main() {

    //A a1{ 1,2 };  // will not compile
    //A a2{ 1,2, 3 }; // will not compile
    A a3{ 1,2, 3,end_of_init_list() }; // will compile

From cppreference https://en.cppreference.com/w/cpp/language/aggregate_initialization

If the number of initializer clauses is less than the number of members or initializer list is completely empty, the remaining members are value-initialized. If a member of a reference type is one of these remaining members, the program is ill-formed.

Another option is to take max66's sentinel idea and add some syntactic sugar for readability

struct init_list_guard
    struct ender {

    } static const end;
    init_list_guard() = delete;

    init_list_guard(ender e){ }

struct A
    char a;
    char b;
    char c;

    init_list_guard guard;

int main() {
   // A a1{ 1, 2 }; // will not compile 
   // A a2{ 1, init_list_guard::end }; // will not compile 
   A a3{ 1,2,3,init_list_guard::end }; // compiles OK
  • Unfortunately, this makes A unmovable and changes the copy-semantics (A is not an aggregate of values anymore, so to speak) :( – Johannes Schaub - litb Feb 10 at 16:56
  • @JohannesSchaub-litb OK. How about this idea in my edited answer? – Gonen I Feb 10 at 21:06
  • @JohannesSchaub-litb: equally importantly, the first version adds a level of indirection by making the members pointers. Even more importantly, they have to be a reference to something, and the 1,2,3 objects are effectively locals in automatic storage that go out of scope when the function ends. And it makes the sizeof(A) 24 instead of 3 on a system with 64-bit pointers (like x86-64). – Peter Cordes Feb 11 at 14:48
  • A dummy reference increases the size from 3 to 16 bytes (padding for alignment of the pointer (reference) member + the pointer itself.) As long as you never use the reference, it's probably ok if it points to an object that's gone out of scope. I'd certainly worry about it not optimizing away, and copying it around certainly won't. (An empty class has a better chance of optimizing away other than its size, so the third option here is the least bad, but it still costs space in every object at least in some ABIs. I'd still also worry about the padding hurting optimization in some cases.) – Peter Cordes Feb 11 at 14:51

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