I understand that for a class

class A { 
     const int myint;
     A (const int yourint);
     A (const std::string yourstring);

I could initialize myint in the initializer list like so:

A::A (const int yourint) : myint (yourint) {};

However, what is the proper way of initializing myint from the second constructor if the the data required to compute it comes say from a string and the computations may be involved?

4 Answers 4


Use a function call inside a delegating (if avaliable, not neccessarily) constructor's member initialization list:

A::A(std::string const& yourstring) : A(compute_myint(yourstring)) {};

Pass std::string by const&, not just const, while you're at it.

compute_myint can be non-member, static member, possibly not accessible from outside the class, whichever makes the most sense.

  • 1
    Thanks, indeed the missing std::string& was a typo. Sep 2, 2016 at 13:18

Here you would want to use delegating constructors, if you can, or you could compute in the ctor. See my second example for the second option. An example for your class would be:

Option 1: Delegating Constructors: C++11 forward

class A { 
     const int myint;
     static int parse_int(const std::string& string) {/*...*/}
     A (const int yourint) : myint{yourint};
     A (const std::string yourstring) : A{parse_int(yourstring)};

By the way, since parse_int only computes integers, then it could be static, meaning it does not require a class instance to be used. Of course, there is no requirement, as the function could be a member just as well, (non static), although static is safer, since it will almost always guarantee the construction of the object.

Option 2: Constructor Computation, non delegating

This method could be used in any C++ version.

class A { 
     const int myint;
     static int parse_int(const std::string& string) {/*...*/}
     A (const int yourint) : myint(yourint);
     A (const std::string yourstring) : my_int(parse_int(yourstring));
  • 4
    You can use a delegating constructor here, but you don't need delegating constructors. This kind of initialization has always been perfectly simple, even in the olden days before delegating constructors. Just initialize the data member with the computed value. Sep 2, 2016 at 12:44
  • 1
    Sigh. Not just "Pre C++11"; you can still initialize the one and only data member directly, without the complication of going through a delegating constructor. There's nothing in the question that indicates that a delegating constructor is needed. Sep 2, 2016 at 12:54
  • I am pretty sure that is implied by my answer. Is it absolutely necessary to be that explicit @PeteBecker Sep 2, 2016 at 12:55
  • "Pre-C++11 ... you could do this" pretty strongly implies that since C++11 you can't "do this". Sep 2, 2016 at 12:56
  • Interesting solution for pre-C++11.
    – Surt
    Sep 2, 2016 at 21:10

Just use a member function.

Keep in mind that it's safer (i.e. less error-prone) to use a static member function for things like this than a non-static one, because the class isn't fully initialized yet when the function is called.

class A {
  const int myint;
  A(const int x) : myint(x) {}
  A(std::string const& s) : myint(compute(s)) {}
  static int compute(std::string const& s) { return (int)s.length(); }
  • Safer than all other answers all of which were based on a non-static member function at the time I wrote my answer. Anyway answer is updated.
    – rustyx
    Sep 2, 2016 at 12:57
  • Um, I don't see any answers recommending using a non-static member function. Nevertheless, a non-static member function would work just fine if it was written appropriately. There's no "safety" issue here, although there is an issue of correctness. Sep 2, 2016 at 13:00
  • @PeteBecker Mine was.
    – LogicStuff
    Sep 2, 2016 at 13:19
  • I find it a lot safer to use a file-scoped function (static keyword) in the class implementation file. Then it doesn't clutter up the header when people read it. Of course then you can't write your constructor function inline.
    – Zan Lynx
    Sep 2, 2016 at 19:10

I've been annoyed by this issue quite a few times, so I have developed a small utility to solve it in the general case. The full code is as follows:

namespace initBlock_detail {
    struct tag { };

    template <class F>
    decltype(auto) operator + (tag, F &&f) {
        return std::forward<F>(f)();

#define initBlock \
    initBlock_detail::tag{} + [&]() -> decltype(auto)

And it is used as follows:

int const i = initBlock {
    // Any complex calculation
    // and then return the value
    return foo;

See it live on Coliru

The structure is similar to Andrei Alexandrescu's ScopeGuard implementation, which uses an infix operator overload and a lambda to achieve that light syntax. i's type can be deduced, can be a reference, etc. Other useful features include the possibility to place using namespace declarations inside the init-block. Any movable and/or copyable type can be used.

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