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llvm/clang-tools-extra/test/clang-tidy/checkers/modernize/use-nullptr-cxx20.cpp 

// RUN: %check_clang_tidy -std=c++20 %s modernize-use-nullptr %t -- -- -DGCC
// RUN: %check_clang_tidy -std=c++20 %s modernize-use-nullptr %t -- -- -DCLANG

namespace std {
class strong_ordering;

// Mock how STD defined unspecified parameters for the operators below.
#ifdef CLANG
struct _CmpUnspecifiedParam {
  consteval
  _CmpUnspecifiedParam(int _CmpUnspecifiedParam::*) noexcept {}
};

#define UNSPECIFIED_TYPE _CmpUnspecifiedParam
#endif

#ifdef GCC
namespace __cmp_cat {
  struct __unspec {
    constexpr __unspec(__unspec*) noexcept { }
  };
}

#define UNSPECIFIED_TYPE __cmp_cat::__unspec
#endif

struct strong_ordering {
  signed char value;

  friend constexpr bool operator==(strong_ordering v,
                                   UNSPECIFIED_TYPE) noexcept {
    return v.value == 0;
  }
  friend constexpr bool operator<(strong_ordering v,
                                  UNSPECIFIED_TYPE) noexcept {
    return v.value < 0;
  }
  friend constexpr bool operator>(strong_ordering v,
                                  UNSPECIFIED_TYPE) noexcept {
    return v.value > 0;
  }
  friend constexpr bool operator>=(strong_ordering v,
                                   UNSPECIFIED_TYPE) noexcept {
    return v.value >= 0;
  }
  static const strong_ordering equal, greater, less;
};

constexpr strong_ordering strong_ordering::equal = {0};
constexpr strong_ordering strong_ordering::greater = {1};
constexpr strong_ordering strong_ordering::less = {-1};
} // namespace std

class A {
  int a;
public:
  auto operator<=>(const A &other) const = default;
  // CHECK-FIXES: auto operator<=>(const A &other) const = default;
};

void test_cxx_rewritten_binary_ops() {
  A a1, a2;
  bool result;
  // should not change next line to (a1 nullptr a2)
  result = (a1 < a2);
  // CHECK-FIXES: result = (a1 < a2);
  // should not change next line to (a1 nullptr a2)
  result = (a1 >= a2);
  // CHECK-FIXES: result = (a1 >= a2);
  int *ptr = 0;
  // CHECK-FIXES: int *ptr = nullptr;
  result = (a1 > (ptr == 0 ? a1 : a2));
  // CHECK-FIXES: result = (a1 > (ptr == nullptr ? a1 : a2));
  result = (a1 > ((a1 > (ptr == 0 ? a1 : a2)) ? a1 : a2));
  // CHECK-FIXES: result = (a1 > ((a1 > (ptr == nullptr ? a1 : a2)) ? a1 : a2));
}

void testValidZero() {
  A a1, a2;
  auto result = a1 <=> a2;
  if (result < 0) {}
  // CHECK-FIXES: if (result < 0) {}
}

template<class T1, class T2>
struct P {
  T1 x1;
  T2 x2;
  friend auto operator<=>(const P&, const P&) = default;
  // CHECK-FIXES: friend auto operator<=>(const P&, const P&) = default;
};

bool foo(P<int,int> x, P<int, int> y) { return x < y; }
// CHECK-FIXES: bool foo(P<int,int> x, P<int, int> y) { return x < y; }