The clang-tidy packaged in ubuntu 20.04 (10.0.0) seems to be choking on a fairly simple block of code that involves structured bindings and move operations:

#include <memory>
#include <tuple>

struct T {
  ~T() {
    if(ptr != nullptr) { // clang-tidy is convinced ptr is uninitialized when the tuple is destroyed.


  T(T&& rhs) : ptr(rhs.ptr) {
    rhs.ptr = nullptr;

  // Be very explicit for the sake of the MCVE.
  T() = default;
  T(const T&) = delete;
  T& operator=(T&&) = delete;
  T& operator=(const T&) = delete;

  int* ptr = nullptr;

std::tuple<T, T> foo();

void bar() {
  auto [a, b] = foo();

  T x = std::move(a);
  T y = std::move(b);

void baz() {
  auto a_b = foo();
  auto& a = std::get<0>(a_b);
  auto& b = std::get<1>(a_b);

  T x = std::move(a);
  T y = std::move(b);

Clang-tidy is flagging bar() with:

warning: The left operand of '!=' is a garbage value [clang-analyzer-core.UndefinedBinaryOperatorResult] if(ptr != nullptr) {

Whereas baz() is just fine.

I would rather not turn off that test altogether, and adding a NOLINT on that comparison line is... iffy at best, especially since it lives in an unrelated library. (as in the library has no idea these objects will end up in a tuple).

So my question is: Is there some way to fix this while keeping the structured binding? Or alternatively, is clang-tidy actually right here, and I am horribly misunderstanding how structured bindings work?

FWIW, clang-tidy is being invoked through cmake like so:

set(CMAKE_CXX_CLANG_TIDY clang-tidy;--format-style=file)
  • 1
    I think it's a bug. You can make this example even more compact and clang-tidy still fails. The link also shows that baz and bar are basically the same. Jul 4 '20 at 18:40
  • Well, yes... baz() is intentionally equivalent to demonstrate that it's specifically the use of the structured binding that confuses clang-tidy.
    – Frank
    Jul 5 '20 at 0:35

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