In Modern C++, is there a way to do safe navigation?

For example, instead of doing...

if (p && p->q && p->q->r)

...having a succinct syntax by using some sort of short-circuiting smart pointer, or some other kind of syntax leveraging operator overloading, or something in the Standard C++ Library, or in Boost.

p?->q?->r?->DoSomething(); // C++ pseudo-code.

Context is C++17 in particular.

  • 6
    Not as far as i know, and hopefully it will not appear. This style of coding a->b->c->d leads to big problems, tight coupling, and inability to separate pieces of code from each other.
    – Bogolt
    Jul 17, 2017 at 17:06
  • What should the safe pointer do in which case?
    – user2672107
    Jul 17, 2017 at 17:06
  • 2
    You could overload operator-> but the question is what it should return. Jul 17, 2017 at 17:11
  • 1
    @Bogolt - I agree with the "big problems" aspect on all points mentioned. Unfortunately, my situation is working with a very large and very old code base that uses the first example as a pattern pervasively. Except in the places that were missed. I have first hand experience of the big problems. Given time, the code base should become better encapsulated and employ the "tell, don't ask" principle. But that is in the future.
    – Eljay
    Jul 17, 2017 at 17:11
  • 1
    @manni66 - the "safe navigation operator" should short-circuit and be a no-op.
    – Eljay
    Jul 17, 2017 at 17:12

3 Answers 3


The best you can do is collapse all the member accesses into one function. This assumes without checking that everything is a pointer:

template <class C, class PM, class... PMs>
auto access(C* c, PM pm, PMs... pms) {
    if constexpr(sizeof...(pms) == 0) {
        return c ? std::invoke(pm, c) : nullptr;
    } else {
        return c ? access(std::invoke(pm, c), pms...) : nullptr;

Which lets you write:

if (auto r = access(p, &P::q, &Q::r); r) {

That's ok. Alternatively, you could go a little wild with operator overloading and produce something like:

template <class T>
struct wrap {
    wrap(T* t) : t(t) { }
    T* t;

    template <class PM>
    auto operator->*(PM pm) {
        return ::wrap{t ? std::invoke(pm, t) : nullptr};

    explicit operator bool() const { return t; }
    T* operator->() { return t; }

which lets you write:

if (auto r = wrap{p}->*&P::q->*&Q::r; r) {

That's also ok. There's unfortunately no ->? or .? like operator, so we kind of have to work around the edges.

  • 22
    :)) While absolutely correct, auto r = wrap{p}->*&P::q->*&Q::r; r is about as legible as an ancient manuscript in a long-forgotten tongue, buried under thousands of years of dust, having been feasted on by two hundred generations of maggots - in a locked crypt that no-one has yet discovered. Jul 18, 2017 at 6:49
  • I took your comment to heart, and replaced my answer with a better one - for comedy effect if nothing else :) Jul 18, 2017 at 6:50
  • Would an overload access(C &, PM pm. PMs... pms) allow it to chain references? (and similar for value returning members?)
    – Caleth
    Jul 18, 2017 at 8:48
  • That's cool. Does it allow calling member functions, with ->*std::bind(&P::f, _1, args) ? Jul 18, 2017 at 11:00
  • 2
    I marking Barry's answer as the accepted answer because of this part "There's unfortunately no ->? or .? like operator..." Thanks everyone for thinking about my question! If someone comes up with a way to better mimic a safe navigation operator in C++, that'd be awesome.
    – Eljay
    Jul 18, 2017 at 13:17

"With a little Boilerplate..."

We can get to this:

p >> q >> r >> doSomething();

Here's the boilerplate...

#include <iostream>

struct R {
    void doSomething()
        std::cout << "something\n";

struct Q {
    R* r;

struct P {
    Q* q;

struct get_r {};
constexpr auto r = get_r{};

struct get_q {};
constexpr auto q = get_q{};

struct do_something {
    constexpr auto operator()() const {
        return *this;
constexpr auto doSomething = do_something {};

auto operator >> (P* p, get_q) -> Q* {
    if (p) return p->q;
    else return nullptr;

auto operator >> (Q* q, get_r) -> R* {
    if (q) return q->r;
    else return nullptr;

auto operator >> (R* r, do_something)
    if (r) r->doSomething();

void foo(P* p)
//if (p && p->q && p->q->r)
//    p->q->r->DoSomething();
    p >> q >> r >> doSomething();

The resulting assembly is very acceptable. The journey to this point may not be...

        test    rdi, rdi
        je      .L21
        mov     rax, QWORD PTR [rdi]
        test    rax, rax
        je      .L21
        cmp     QWORD PTR [rax], 0
        je      .L21
        mov     edx, 10
        mov     esi, OFFSET FLAT:.LC0
        mov     edi, OFFSET FLAT:std::cout
        jmp     std::basic_ostream<char, std::char_traits<char> >& std::__ostream_insert<char, std::char_traits<char> >(std::basic_ostream<char, std::char_traits<char> >&, char const*, long)
  • 1
    Doesn't short-circuit, but it does fast-fail. The boilerplate could be stuffed into a macro (albeit I'm not a fan of macros). I like how it is used by the caller at the callsite -- very clean, even though it wouldn't "idiomatic C++" for pointer dereferencing.
    – Eljay
    Jul 18, 2017 at 12:10
  • 2
    @Eljay The optimiser does the short-circuiting for us, so that's not a problem. You'll probably want a code generator to do it for an entire project. You could build that quite quickly with a tool like yacc. en.wikipedia.org/wiki/Yacc Jul 18, 2017 at 13:10

although it's 2022 now, there's still no language level support for this. a very close simulation I can figure out:

template <typename T, typename F>
auto operator->*(T&& t, F&& f) {
  return f(std::forward<T>(t));

#define pcall(fn)                                                            \
  [&](auto&& __p) {                                                          \
    if constexpr (std::is_pointer_v<std::remove_reference_t<decltype(__p)>>) \
      return __p ? __p->fn : decltype(__p->fn){};                            \
    else                                                                     \
      return __p ? __p.fn : decltype(__p.fn){};                              \

struct A {
  int v;
  int foo(int a, int b) { return a + b + v; }
struct B {
  A* getA() { return &a; }
  A a{100};
struct C {
  B* getB() { return &b; }
  B b;
  operator bool() { return true; }

int main(){
    int v = 3;

    C by_val;
    int t1 = by_val->*pcall(getB())->*pcall(getA())->*pcall(foo(1, v));

    C* by_ptr = &by_val;
    int t2 = by_ptr->*pcall(getB())->*pcall(getA())->*pcall(foo(1, v));


  • Nice, I like employing the ->* overload. (In toy programs (not real programs!), I've (ab)used that to facilitate C#-like extension methods.)
    – Eljay
    Sep 20, 2022 at 17:27

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