#include <tuple>

struct X {
    int i = 0;
    friend constexpr bool operator<(const X &l, const X &r) noexcept {
        return l.i < r.i;

struct Y {
    int i = 0;
    constexpr operator bool() const noexcept {
        return i != 0;
    friend constexpr bool operator<(const Y &l, const Y &r) noexcept {
        return l.i < r.i;

int main() {
    constexpr X a{1}, b{2};
    static_assert(std::tie(a) < std::tie(b));

    constexpr Y c{1}, d{2};
    static_assert(c < d);
    // assert failed
    // static_assert(std::tie(c) < std::tie(d));

    return 0;

I'm compiling with C++20.

Line static_assert(std::tie(c) < std::tie(d)); will fail. It turns out that when comparing c and d, operator bool is called instead of operator<. Why would operator bool get involved in the first place?

I find this quite surprising. Is this intended or a bug?

  • 5
    Make the bool conversion operator explicit? Feb 2 at 14:29
  • @Someprogrammerdude Thanks! this will solve the issue. I should not have left it non-explicit. But still, why would it prefers bool conversion?
    – felix
    Feb 2 at 14:31
  • 7
    It looks like something about C++20 and the spaceship operator is to blame. The code works fine in C++17 mode but fails in C++20. Feb 2 at 14:32
  • 1
    It's worth pointing out that the code was always questionable: note that static_assert(c < d) but also static_assert(!(d > c))
    – Barry
    Feb 2 at 16:22

1 Answer 1


When comparing two tuple<T>s, named t1 and t2, the operator<=> overload for tuple will use get<0>(t1) <=> get<0>(t2) to compare elements when type T satisfies three_­way_­comparable; otherwise, it will use operator<.

Since Y is implicitly convertible to bool, this makes y <=> y a valid expression and satisfies three_­way_­comparable, such that std::tie(c) < std::tie(d) (unexpectedly) invokes bool(c) <=> bool(d) in your example.

  • Your answer is great.. But the fact it works like this makes me really sad :(
    – divinas
    Feb 2 at 17:04
  • Implement operator <=> instead of operator < for your types.
    – Jarod42
    Feb 2 at 17:38
  • 1
    @Jarod42: But then you lose compatibility with a whole lot of compilers which implement older (but still recent) standards of C++.
    – Ben Voigt
    Feb 2 at 23:09

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