240 lines
8.2 KiB
C++
240 lines
8.2 KiB
C++
#include "Testing/MiscellaneousTesting.h"
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#include "Miscellaneous/AssertionMacros.h"
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#include "Miscellaneous/TypeInfo.h"
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#include "Miscellaneous/Compare.h"
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NAMESPACE_REDCRAFT_BEGIN
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NAMESPACE_MODULE_BEGIN(Redcraft)
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NAMESPACE_MODULE_BEGIN(Utility)
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void TestMiscellaneous()
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{
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TestAssertionMacros();
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TestCompare();
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TestTypeInfo();
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}
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NAMESPACE_PRIVATE_BEGIN
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void TestNoEntry()
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{
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check_no_entry();
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always_check_no_entry();
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}
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void TestNoReentry()
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{
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check_no_reentry();
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always_check_no_reentry();
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}
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void TestNoRecursion(int32 Depth)
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{
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if (Depth < 0) return;
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check_no_recursion();
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always_check_no_recursion();
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TestNoRecursion(--Depth);
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}
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void TestUnimplemented()
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{
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unimplemented();
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always_unimplemented();
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}
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NAMESPACE_PRIVATE_END
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void TestAssertionMacros()
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{
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check(true);
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//check(false);
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checkf(true, "True!");
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//checkf(false, "False!");
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always_check(true);
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//always_check(false);
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always_checkf(true, "True!");
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//always_checkf(false, "False!");
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//NAMESPACE_PRIVATE::TestNoEntry();
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NAMESPACE_PRIVATE::TestNoReentry();
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//NAMESPACE_PRIVATE::TestNoReentry();
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NAMESPACE_PRIVATE::TestNoRecursion(0);
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NAMESPACE_PRIVATE::TestNoRecursion(0);
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//NAMESPACE_PRIVATE::TestNoRecursion(1);
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//NAMESPACE_PRIVATE::TestUnimplemented();
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verify(true);
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//verify(false);
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int32 A = 1;
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int32 B = 0;
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verify(B = A);
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always_check(B == A);
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}
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NAMESPACE_UNNAMED_BEGIN
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struct FTestPartialOrdering
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{
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int32 Num;
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bool bIsValid;
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FTestPartialOrdering(int32 InNum, bool bInIsValid = true) : Num(InNum), bIsValid(bInIsValid) { }
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friend bool operator==(FTestPartialOrdering LHS, FTestPartialOrdering RHS) { return LHS.bIsValid && RHS.bIsValid ? LHS.Num == RHS.Num : false; }
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friend partial_ordering operator<=>(FTestPartialOrdering LHS, FTestPartialOrdering RHS) { return LHS.bIsValid && RHS.bIsValid ? LHS.Num <=> RHS.Num : partial_ordering::unordered; }
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};
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struct FTestWeakOrdering
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{
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int32 Num;
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FTestWeakOrdering(int32 InNum) : Num(InNum) { }
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friend bool operator==(FTestWeakOrdering LHS, FTestWeakOrdering RHS) { return LHS.Num == RHS.Num; }
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friend weak_ordering operator<=>(FTestWeakOrdering LHS, FTestWeakOrdering RHS) { return LHS.Num <=> RHS.Num; }
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};
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struct FTestStrongOrdering
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{
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int32 Num;
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FTestStrongOrdering(int32 InNum) : Num(InNum) { }
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friend bool operator==(FTestStrongOrdering LHS, FTestStrongOrdering RHS) { return LHS.Num == RHS.Num; }
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friend strong_ordering operator<=>(FTestStrongOrdering LHS, FTestStrongOrdering RHS) { return LHS.Num <=> RHS.Num; }
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};
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NAMESPACE_UNNAMED_END
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void TestCompare()
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{
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always_check((-1 <=> 0) == strong_ordering::less);
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always_check(( 0 <=> 0) == strong_ordering::equivalent);
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always_check(( 0 <=> 0) == strong_ordering::equal);
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always_check(( 0 <=> -1) == strong_ordering::greater);
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always_check((-1 <=> 0) < 0);
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always_check((-1 <=> 0) <= 0);
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always_check(( 0 <=> 0) <= 0);
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always_check(( 0 <=> 0) == 0);
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always_check(( 0 <=> 0) >= 0);
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always_check(( 0 <=> -1) >= 0);
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always_check(( 0 <=> -1) > 0);
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always_check((-1 <=> 1) != 0);
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int64 NaNBit = 0xFFF8000000000000;
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double NaN = *reinterpret_cast<double*>(&NaNBit);
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always_check((-1.0 <=> 0.0) == partial_ordering::less);
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always_check(( 0.0 <=> 0.0) == partial_ordering::equivalent);
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always_check(( 0.0 <=> -1.0) == partial_ordering::greater);
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always_check(( 0.0 <=> NaN) == partial_ordering::unordered);
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always_check((-1.0 <=> 0.0) == weak_ordering::less);
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always_check(( 0.0 <=> 0.0) == weak_ordering::equivalent);
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always_check(( 0.0 <=> -1.0) == weak_ordering::greater);
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always_check((-1.0 <=> 0.0) == strong_ordering::less);
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always_check(( 0.0 <=> 0.0) == strong_ordering::equivalent);
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always_check(( 0.0 <=> 0.0) == strong_ordering::equal);
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always_check(( 0.0 <=> -1.0) == strong_ordering::greater);
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always_check((-1.0 <=> 0.0) < 0);
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always_check((-1.0 <=> 0.0) <= 0);
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always_check(( 0.0 <=> 0.0) <= 0);
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always_check(( 0.0 <=> 0.0) == 0);
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always_check(( 0.0 <=> 0.0) >= 0);
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always_check(( 0.0 <=> -1.0) >= 0);
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always_check(( 0.0 <=> -1.0) > 0);
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always_check((-1.0 <=> 1.0) != 0);
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always_check((FTestPartialOrdering(-1) <=> FTestPartialOrdering( 0)) == partial_ordering::less);
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always_check((FTestPartialOrdering( 0) <=> FTestPartialOrdering( 0)) == partial_ordering::equivalent);
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always_check((FTestPartialOrdering( 0) <=> FTestPartialOrdering(-1)) == partial_ordering::greater);
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always_check((FTestPartialOrdering( 0, true) <=> FTestPartialOrdering( 0, false)) == partial_ordering::unordered);
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always_check((FTestWeakOrdering(-1) <=> FTestWeakOrdering( 0)) == weak_ordering::less);
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always_check((FTestWeakOrdering( 0) <=> FTestWeakOrdering( 0)) == weak_ordering::equivalent);
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always_check((FTestWeakOrdering( 0) <=> FTestWeakOrdering(-1)) == weak_ordering::greater);
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always_check((FTestStrongOrdering(-1) <=> FTestStrongOrdering( 0)) == strong_ordering::less);
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always_check((FTestStrongOrdering( 0) <=> FTestStrongOrdering( 0)) == strong_ordering::equivalent);
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always_check((FTestStrongOrdering( 0) <=> FTestStrongOrdering( 0)) == strong_ordering::equal);
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always_check((FTestStrongOrdering( 0) <=> FTestStrongOrdering(-1)) == strong_ordering::greater);
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always_check((FTestPartialOrdering(-1) < FTestPartialOrdering( 0)));
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always_check((FTestPartialOrdering( 0) == FTestPartialOrdering( 0)));
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always_check((FTestPartialOrdering( 0) > FTestPartialOrdering(-1)));
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always_check((FTestWeakOrdering(-1) < FTestWeakOrdering( 0)));
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always_check((FTestWeakOrdering( 0) == FTestWeakOrdering( 0)));
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always_check((FTestWeakOrdering( 0) > FTestWeakOrdering(-1)));
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always_check((FTestStrongOrdering(-1) < FTestStrongOrdering( 0)));
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always_check((FTestStrongOrdering( 0) == FTestStrongOrdering( 0)));
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always_check((FTestStrongOrdering( 0) > FTestStrongOrdering(-1)));
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always_check((TIsSame<TCommonComparisonCategory<strong_ordering >::Type, strong_ordering >::Value));
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always_check((TIsSame<TCommonComparisonCategory<strong_ordering, weak_ordering >::Type, weak_ordering >::Value));
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always_check((TIsSame<TCommonComparisonCategory<strong_ordering, weak_ordering, partial_ordering>::Type, partial_ordering>::Value));
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always_check(CThreeWayComparable<int32>);
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always_check(CThreeWayComparable<FTestPartialOrdering>);
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always_check(CThreeWayComparable<FTestWeakOrdering>);
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always_check(CThreeWayComparable<FTestStrongOrdering>);
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always_check((CThreeWayComparableWith<bool, bool>));
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always_check((CThreeWayComparableWith<int16, int32>));
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always_check((TIsSame<TCompareThreeWayResult<int32 >::Type, strong_ordering >::Value));
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always_check((TIsSame<TCompareThreeWayResult<float >::Type, partial_ordering>::Value));
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always_check((TIsSame<TCompareThreeWayResult<FTestPartialOrdering>::Type, partial_ordering>::Value));
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always_check((TIsSame<TCompareThreeWayResult<FTestWeakOrdering >::Type, weak_ordering >::Value));
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always_check((TIsSame<TCompareThreeWayResult<FTestStrongOrdering >::Type, strong_ordering >::Value));
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always_check((TCompareThreeWay<int32>()(0, 0) == strong_ordering::equal));
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always_check((TCompareThreeWay<void>() (0, 0.0) == strong_ordering::equal));
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always_check((StrongOrder(0, 0) == strong_ordering::equal));
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always_check((WeakOrder(0, 0) == strong_ordering::equal));
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always_check((PartialOrder(0, 0) == strong_ordering::equal));
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always_check((CompareStrongOrderFallback(0, 0) == strong_ordering::equal));
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always_check((CompareWeakOrderFallback(0, 0) == strong_ordering::equal));
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always_check((ComparePartialOrderFallback(0, 0) == strong_ordering::equal));
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}
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NAMESPACE_PRIVATE_BEGIN
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template <typename...>
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struct TTestTemplateType { };
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NAMESPACE_PRIVATE_END
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void TestTypeInfo()
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{
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FTypeInfo TempA;
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FTypeInfo TempB(Invalid);
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always_check(TempA == TempB);
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always_check(TempA == Typeid(void));
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FTypeInfo TempC(Typeid(NAMESPACE_PRIVATE::TTestTemplateType<int8, int16>));
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FTypeInfo TempD = Typeid(NAMESPACE_PRIVATE::TTestTemplateType<int8, int32>);
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FTypeInfo TempE, TempF;
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TempE = TempC;
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TempF = MoveTemp(TempD);
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always_check(TempE != TempF);
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always_check((TempE < TempF) == (TempF > TempE));
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always_check((TempE > TempF) == (TempF < TempE));
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always_check((TempE <=> TempF) != 0);
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}
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NAMESPACE_MODULE_END(Utility)
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NAMESPACE_MODULE_END(Redcraft)
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NAMESPACE_REDCRAFT_END
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