are_unordered     327 src/Float16.cpp     internal_assert(!this->are_unordered(rhs)) << "Cannot compare unorderable values\n";
are_unordered     334 src/Float16.cpp     internal_assert(!this->are_unordered(rhs)) << "Cannot compare unorderable values\n";
are_unordered     159 src/Float16.h      EXPORT bool are_unordered(float16_t rhs) const;
are_unordered      42 test/correctness/float16_t_comparison.cpp     h_assert(nanValue.are_unordered(nanValue), "NaN must be unordered");
are_unordered      47 test/correctness/float16_t_comparison.cpp     h_assert(nanValue.are_unordered(one), "1.0 and NaN should be unordered");
are_unordered      48 test/correctness/float16_t_comparison.cpp     h_assert(nanValue.are_unordered(float16_t::make_zero(/*positive=*/true)),
are_unordered      50 test/correctness/float16_t_comparison.cpp     h_assert(nanValue.are_unordered(float16_t::make_zero(/*positive=*/false)),
are_unordered      52 test/correctness/float16_t_comparison.cpp     h_assert(nanValue.are_unordered(float16_t::make_infinity(/*positive=*/true)),
are_unordered      54 test/correctness/float16_t_comparison.cpp     h_assert(nanValue.are_unordered(float16_t::make_infinity(/*positive=*/false)),
are_unordered      60 test/correctness/float16_t_comparison.cpp     h_assert(!zeroP.are_unordered(zeroN), "+0 and -0 should be ordered");
are_unordered      66 test/correctness/float16_t_comparison.cpp     h_assert(!infinityP.are_unordered(infinityN),"Infinities are ordered");